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Rugged PC Review.com - Rugged Panel PCs: Teguar TP-4840 and TP-5940

The tale of two lines of very similar industrial All-in-One computers with very different processors (by Conrad H. Blickenstorfer) Share on: Teguar is a catchy name, and an increasingly familiar one as the Charlotte, North Carolina, based company is a hard-charging, rapidly growing provider of industrial and medical computers. Launched in 2010 by a Swiss native with years of experience in industrial computer systems, Teguar prides itself in combining American adaptability and technological leadership with Swiss precision, quality, and attention to detail. In this article we're comparing two lines of very elegant industrial All-in-One computers that share almost everything, except the processor. A minor thing? Not so much. First, what are industrial All-In-One PCs? In the broadest sense they are panel computers — PCs that combine monitor and computing electronics in one shallow box that can be mounted in panels or numerous other ways. Dell, HP, Lenovo, Apple and many others make All-In-Ones for home, business and the enterprise. But those are not tough and durable enough for many commercial and, even more so, for industrial applications. Teguar saw a niche there, somewhere between an iMac and an industrial Panel PC. Something that's versatile, available in various sizes, tougher than consumer tech, and customizable to numerous markets via modular expansions. And that is what the company's TP-4840 and TP-5940 line of fanless All-In-One computers are, general purpose workhorse computers that are sturdier, heavier and much better built than All-in-Ones designed for consumer markets. The picture above shows the 22-inch version of the TP-4840 line on the left, and the 18-inch version of the TP-5940 line on the right.

Teguar is a catchy name, and an increasingly familiar one as the Charlotte, North Carolina, based company is a hard-charging, rapidly growing provider of industrial and medical computers. All In One Industrial Pc

Rugged PC Review.com - Rugged Panel PCs: Teguar TP-4840 and TP-5940

Launched in 2010 by a Swiss native with years of experience in industrial computer systems, Teguar prides itself in combining American adaptability and technological leadership with Swiss precision, quality, and attention to detail. In this article we're comparing two lines of very elegant industrial All-in-One computers that share almost everything, except the processor. A minor thing? Not so much.

First, what are industrial All-In-One PCs? In the broadest sense they are panel computers — PCs that combine monitor and computing electronics in one shallow box that can be mounted in panels or numerous other ways. Dell, HP, Lenovo, Apple and many others make All-In-Ones for home, business and the enterprise. But those are not tough and durable enough for many commercial and, even more so, for industrial applications.

Teguar saw a niche there, somewhere between an iMac and an industrial Panel PC. Something that's versatile, available in various sizes, tougher than consumer tech, and customizable to numerous markets via modular expansions. And that is what the company's TP-4840 and TP-5940 line of fanless All-In-One computers are, general purpose workhorse computers that are sturdier, heavier and much better built than All-in-Ones designed for consumer markets.

The picture above shows the 22-inch version of the TP-4840 line on the left, and the 18-inch version of the TP-5940 line on the right.

Are all industrial and vertical market All-in-One computer applications the same? Initially, virtually all computers were a box and a monitor. Mainframes and minicomputers had their remote terminals. In offices and homes it was "towers" and monitors. Once components became smaller, screen and computer began being combined into just one units. Initially those were bulky, but with increasing miniaturization and new technologies (like replacing bulky hard drives with much smaller solid state storage), "All-in-Ones" became essentially became big monitors with the computer built-in. Are all All-in-Ones more or less the same? In the home and in the office, pretty much. They vary mostly in screen size, Windows or MacOS, and enough memory, storage and speed to handle typical PC applications — office, browsing, media, maybe games. Industrial and vertical market All-in-Ones are very different. One size does not fit all, not in actual size, not in functionality, not in design and build, and not in interoperability and performance. So what sets these industrial and vertical market All-in-Ones apart, and what sets these two lines of Teguar AIOs apart? Build and ruggedness — Commercial and industrial grade equipment must be able to stand up to rougher and more demanding operating conditions than home and office equivalents. This means heavier, more durable rugged build. Target industries — Different industries have different requirements. Some are indoors only, some outdoors or on the road. Environmental challenges vary. design and aesthetics vary. Connectivity varies. Performance — Many industrial and vertical market applications are fairly routine and do not vary. Others are much more demanding and require a lot more computing power. One performance size does not fit all. All of this represents a significant challenge to manufacturers of industrial computing equipment. Unlike home and office, no two industrial and vertical market setting and application is the same. Manufacturers must either specialize on certain markets, or offer different platforms for different markets. There are All-in-Ones, there are Panel PCs, there are Box PCs, there are rack-mounts and many other types. In terms of performance and capabilities, it's often possible to "stretch" a platform by offering various configurations (processors, memory, storage, ports, etc.). Other times it makes sense in optimizing lines for certain markets and applications. And that's what Teguar did by dividing a class and more or less common platform into the "economy" TP-4840 line and the "high performance" TP-5940 line. The table below shows the Teguar TP-4840 and TP-5940 Series of fanless All-in-One systems as of Summer 2023:  Teguar TP-4840 and TP-5940 Series All-in-One Panel PCs Company Teguar Teguar Teguar Teguar Teguar Teguar Teguar Model TP-4840-10 TP-5940-16 TP-4840-16 TP-5940-18 TP-4840-18 TP-5940-22 TP-4840-22 Processor Celeron J6412 Core i5-1145G7 Celeron J6412 Core i5-1145G7 Celeron J6412 Core i5-1145G7 Celeron J6412 RAM slot 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM RAM 4GB or 8GB 2/4/8/16GB 4/8/16GB 2/4/8/16GB 2/4/8/16GB 2/4/8/16GB 4/8/16GB Storage M.2 SSD 2 x M.2 SSD M.2 SSD 2 x M.2 SSD M.2 SSD 2 x M.2 SSD M.2 SSD Expansion 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) Screen size 10.1-inch 15.6-inch 15.6-inch 18.5-inch 18.5-inch 21.5-inch 21.5-inch Resolution 1920x1200 1366x768 1366x768 1366x768 1366x768 1920x1080 1920x1080 Opt. resolution NA NA NA opt. 1920x1080 NA NA NA PPI 224 100 100 85 85 102 102 Aspect ratio 16:10 16:9 16:9 16:9 16:9 16:9 16:9 Angle (H/V) 170/160 unkown unkown unkown unkown unkown unkown Luminance 200 220 220 250 250 250 250 P-Cap Standard Standard Standard Standard Standard Standard Standard Power DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts Weight (lb) 3.3 9.9 9.9 15.0 15.0 17.1 17.6 Size (mm) 263x170x38 mm 396x245x48 mm 396x245x48 mm 464x284x48 464x284x48 536x328x48 536x328x48 Material Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum VESA VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 USB 2.0 3 2 2 2 2 2 2 USB 3.0 1 2 2 2 2 2 2 USB-C 1 2 2 2 2 2 2 LAN RJ45 1 1 1 1 1 1 1 Serial 3 x COM 2 x DB9 COM 2 x COM 2 x DB9 COM 2 x COM 2 x DB9 COM 2 x COM WiFi 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n Bluetooth 4.0 opt. 4.0 4.0 opt. 4.0 4.0 opt. 4.0 4.0 Barcode optional optional optional optional optional optional NA RFID optional optional optional optional NA optional NA SmartCard optional optional optional optional optional optional optional Speaker 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts WebCam opt. 2mp opt. 2mp 2mp 2mp 2mp 2mp opt. 2mp Op. temp 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F Sealing IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel The table above shows the major specs of the four available TP-4840 and three available TP-5940 models in these two lines of industrial All-in-One computers that look almost identical and also share much of their functionality, with one major difference — the processor. And one other difference; while 16, 18, and 22-inch models are available in both lines, a much smaller 10-inch version is only available in the TP-4840 series. But now let's look at what these systems have to offer in terms of specs and functionality. As far as screen size and resolution go, these industrial systems are of modest size and should easily fit almost anywhere. Compared to the now very common 27-inch consumer and commercial display sizes (let alone the ever larger flatscreen TVs, even a 22-inch industrial All-in-One is quite compact. 16 and 18-inch versions have 1366 x 768 pixel resolution, perfectly adequate for the intended applications for this type of system. The 22-inch models have full HD 1920 x 1080 resolution, making for about the same pixel density as the smaller versions. The outlier is the small 10-inch model that has far higher 224 pixel density. Luminance of all models is between 200 and 250 nits, about the same as modern laptops, and best suited for indoors. As has become the almost universal standard, all use the quick and effortless capacitive touch technology, and all but the small 10-inch version use the common 16:9 aspect ratio. Despite the two lines using two very different processors, both are fanless designs with passive cooling. That means no potential unwanted fan noise and are movement, and also no dust clogging and reliability concerns inherent to mechanical fans. Fanless operation is made possible because of the excellent heat-dissipation properties of the aluminum die-cast housings of both lines. Mass storage for all models comes in the form of a single M.2 2280 style solid state SATA storage module. Note, though, that the TP-5940 models have a second M.2 2280 slot whereas the TP-4480 models don't. All models have external power supplies, with the same 19 Volt input voltage. Since these kinds of systems will be used in stationary deployments, there is no need for battery or wide voltage range input. Despite the significant range in size, all (including the very small 10-inch version) systems have pretty much identical port arrangements: plenty of USB ports, including the very practical and ever more popular reversible Type-C plugs. All also come with legacy serial DB9 COM ports as well as RJ45 Ethernet LAN jacks. Weight ranges from just 3.3 pounds for the 10-inch TP-4840-10, to 10, 15, and 17+ pounds for the larger systems, respectively. All have dual 2 watt speakers, VESA75 mounting screw hole patterns, and optional webcams, barcode readers, RFID, and SmartCard. Now let's take a closer look at the 16-inch TA-5940-16 All-in-One sample unit Teguar sent RuggedPCReview.com for evaluation. The Teguar TP-4840-22 industrial computer The Teguar TP-4840-22 is one of four available industrial All-in-One computers in this line. TP-4840s come in display sizes as small as ten inches — a screen no larger than an iPad or small Android tablet — and as large as the 22-inch version that Teguar sent us for evaluation and testing. The small one weighs just 3.3 pounds, barely more than a rugged tablet computer, while the big 22-inch model weighs in a hefty 17.7 pounds. Both, as well as the 16 and 18 inch versions in between, have the exact same tech inside, and also virtually the same wired and wireless connectivity. Below is a look at the TP-4840-22 from the front and from all four sides: With its elegant flush glass front bezel, the TP-4840-22 looks just like an Apple iMac or a modern Windows All-in-One. It may be considered an industrial computer, but it'll look at home in a healthcare or hospitality setting as much as on a shop floor. Despite its heavy-duty, high-quality materials and construction, the side views reveal a slender display case barely just over an inch thick, and then a 5/8 of an inch bulge for the system box on the backside. The whole thing is just 1.9 inches deep, which means it can be mounted, via the standard 75mm VESA screw hole pattern on its back, almost anywhere. In terms of construction, the TP-4840 lines consists almost entirely of durable ADC12 die-cast aluminum with a glass front and just a bit of steel to mount all of the interface ports on the back. ADC12 aluminum is known for its superb resistance to cracking and its corrosion resistance, and on the manufacturing side for its suitability for even complex die-casting projects and good machinability — a win-win for customers and manufacturers both. When disassembling panel computers, or opening them to add or remove memory, storage or communication modules, one often has to be careful not to damage cabling between the back and front of a system. That's no problem with any of the TP-4840 models -- all have just one single wire between the front and back, the one that goes to the on/off/sleep switch in the back. Separating the back and the front requires nothing more than unscrewing ten small Philips screws. In terms of electronics inside, there is a roughly 3-1/2 x 10 inch motherboard, a small power board, two speakers, a floating touch controller board, and that's about it. Virtually all I/O is edged-mounted, with just some optional ports using cabling. For memory there is a single SO-DIMM RAM connector on top of the motherboard. The TP-4840 Series also just a single M.2 slot for a solid state storage module and one half-size M.2 E-key connector used for an optional Wi-Fi/Bluetooth module. Below is a look at the TP-4840-22's complement of interface ports. They are in the back, all facing down. The port area is hidden underneath a black cast-aluminum cover that's held in place by a couple of screws. That makes for a neat appearance and keeps cables closer together and facing down. On the image above, from left to right you can see: An optional third DB9 COM port An unused cutout for another optional COM port Two legacy DB9 COM ports Two USB 3.0 Type A ports Two USB 3.0 Type-C data-only ports (covered up by the on/off/sleep switch) Two USB 2.0 Type A ports The 4-pin 19 Volt power jack An RJ11 Ethernet LN port A proprietary FE DisplayPort jack Note that the FeDP connector is a proprietary solution to connect an external secondary display with a single cable to provide power, USB for touch, and even Audio. As far as ruggedness goes, these industrial all-in-one panel computers are not mobile devices, so there are no drop and other specs that we usually see in mobile rugged devices. The TP-4840-22 is designed to be used in a temperature range from 32 to 95 degrees Fahrenheit, and its front panel is IP65 rated. That means considerable environmental protection. The front (but not the rear) is completely protected against dust intrusion and it can also handle low-pressure water jets. Teguar lists no fewer than 30 approved cleaning agents that the display panel can be cleaned and disinfected with. The Teguar TP-5940-18 industrial computer The Teguar TP-5940-18 is one of three available industrial All-in-One computers in this line. TP-5940s come in display sizes as small as 15.6 inches — a screen the size of that of a full-size laptop — and as large as 22-inches, the size of your average desktop PC screen. Teguar sent us the 18.5-inch middle version for evaluation and testing. Just as is the case with the TP-4840 Series, all three versions have the exact same tech inside, and also virtually the same wired and wireless connectivity. Below is a look at the TP-5940-18 from the front and from all four sides: Sporting the same elegant flush glass front bezel, the TP-5940-18 looks just like a small modern Windows All-in-One or desktop monitor. It's a structurally very strong and fairly heavy (15 pounds) industrial computer, but it wouldn't look out of place in a healthcare or hospitality setting. Even with its heavy-duty, high-quality materials and construction, the side view shows a slender display case barely just over an inch thick, and then the 5/8 of an inch bulge for the system box on the backside. The whole assembly is just 1.9 inches deep. The TP-5940-18 can be mounted just about anywhere, using the standard 75mm VESA screw hole pattern on its back that'll work with a vast universe of mounting hardware. For materials and construction, the TP-5940 lines relies almost entirely on durable ADC12 die-cast aluminum with a glass front and just a slender steel rail to mount the interface ports on the back. ADC12 aluminum provides excellent resistance to cracking and it is very corrosion resistant. Manufacturers like it because the metal works well for all sorts of die-casting designs and it is easy to machine — a great choice both for customers and manufacturers. When taking panel computers apart — or opening them — to add or remove memory, storage or communication modules, care has to be taken not to damage whatever cables there may be between the back and front of a system. That's no problem with any of the TP-5940 models; there's just a single wire between the front and back, the one that operates the on/off/sleep switch in the back. Separating the back and the front requires nothing more than unscrewing eight small Philips screws. What's inside the TP-5940-18? It's nowhere near as packed as a modern laptop or consumer all-in-one. There is the motherboard that measures roughly 3-1/2 x 10 inches, a small power board, two speakers, a floating touch controller board, and that's about it. All I/O is edged-mounted, with just some optional ports using cabling. Both the TP-4840 and TP-5940 series have a single SO-DIMM RAM connector on top of the motherboard. Unlike the TP-4840 models, however, the TP-5940 Series has two M.2 connectors for storage and one half-size half-size M.2 E-key connector, whereas the TP-4840 Series has just one M.2 slot for storage and one half-size half-size M.2 E-key connector. Below is a look at the TP-5940-18's lineup of interface ports. They are in the back, all facing down. The port area is hidden underneath a black cast-aluminum cover that's held in place by a couple of screws. That makes for a neat appearance and keeps cables closer together and facing down. While back in the day, point-of-sale systems often relied on glacially slow modem dial up to verify cars and log transactions, TA-5940 models are well equipped with all sorts of I/O. On the image above, from left to right you can see: An unused cutout for another optional COM port An unused cutout for another optional RJ45 LAN port Two legacy DB9 COM ports Two USB 3.0 Type A ports Two USB 3.0 Type-C data-only ports Two USB 2.0 Type A ports (one hidden beneath the connection tab for the port cover) The 4-pin 19 Volt power jack An RJ11 Ethernet LN port A proprietary FE DisplayPort jack Note that the FeDP connector is a proprietary solution to connect an external secondary display with a single cable to provide power, USB for touch, and even Audio. As far as ruggedness goes, these industrial all-in-one panel computers are not mobile devices, so there are no drop and other specs that we usually see in mobile rugged devices. The TP-5940-18 is designed to be used in a temperature range from 32 to 95 degrees Fahrenheit, and its front panel is IP65 rated. That means considerable environmental protection. The front (but not the rear) is completely protected against dust intrusion and it can also handle low-pressure water jets. Teguar lists no fewer than 30 approved cleaning agents that the display panel can be cleaned and disinfected with. The Windows 11 argument Teguar pointed out that the TP-4840 is one of the very few metal chassis panels with a Celeron chip that is Windows 11 compatible. Well, the Celeron J6412 in TP-4840 panels is Windows 11 capable, and that brings with it a number of advantages that can make a difference. Among them are: Windows 11 has integrated Widgets for quick access to headline information from favored apps and websites In Windows 11, it's easier to create, and toggle between, virtual desktops with snap layouts Windows 11 has improved touch controls, including five new touch gestures, that can increase productivity and reduce errors. Windows 11 has enhanced security features, designed from the ground up, with Windows Hello and TPM 2.0 Multitasking is more Windows 11 due to snap groups and layouts where users can subdivide the screen into separate areas for different apps The Task Manager in Windows 11 shows more details and has more options. Users can filter processes and there are in-app dialogs The File Explorer has a new layout, new features and is much simpler to use The new Start Menu of Windows 11 also is more user-friendly, intuitive, and has an improved taskbar to better keep track of open windows and apps. Switching to a new version of an operating system is always a mixed blessing. There are new features and new functionality, but a new OS interface also requires getting used to and it may have higher resource requirements (for example, Windows 11 requires 64GB of storage and 4GB of RAM, whereas Windows 10 just needed 20GB storage and 2GB of RAM). However, Windows 10 is now almost eight years old, so there's more and more justification for moving on, and Teguar's choice of a Windows 11-enabled processor even on the lower end is a definite plus. About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance. Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

Initially, virtually all computers were a box and a monitor. Mainframes and minicomputers had their remote terminals. In offices and homes it was "towers" and monitors. Once components became smaller, screen and computer began being combined into just one units. Initially those were bulky, but with increasing miniaturization and new technologies (like replacing bulky hard drives with much smaller solid state storage), "All-in-Ones" became essentially became big monitors with the computer built-in.

Are all All-in-Ones more or less the same? In the home and in the office, pretty much. They vary mostly in screen size, Windows or MacOS, and enough memory, storage and speed to handle typical PC applications — office, browsing, media, maybe games. Industrial and vertical market All-in-Ones are very different. One size does not fit all, not in actual size, not in functionality, not in design and build, and not in interoperability and performance.

So what sets these industrial and vertical market All-in-Ones apart, and what sets these two lines of Teguar AIOs apart? Build and ruggedness — Commercial and industrial grade equipment must be able to stand up to rougher and more demanding operating conditions than home and office equivalents. This means heavier, more durable rugged build. Target industries — Different industries have different requirements. Some are indoors only, some outdoors or on the road. Environmental challenges vary. design and aesthetics vary. Connectivity varies. Performance — Many industrial and vertical market applications are fairly routine and do not vary. Others are much more demanding and require a lot more computing power. One performance size does not fit all. All of this represents a significant challenge to manufacturers of industrial computing equipment. Unlike home and office, no two industrial and vertical market setting and application is the same. Manufacturers must either specialize on certain markets, or offer different platforms for different markets. There are All-in-Ones, there are Panel PCs, there are Box PCs, there are rack-mounts and many other types. In terms of performance and capabilities, it's often possible to "stretch" a platform by offering various configurations (processors, memory, storage, ports, etc.). Other times it makes sense in optimizing lines for certain markets and applications. And that's what Teguar did by dividing a class and more or less common platform into the "economy" TP-4840 line and the "high performance" TP-5940 line. The table below shows the Teguar TP-4840 and TP-5940 Series of fanless All-in-One systems as of Summer 2023:  Teguar TP-4840 and TP-5940 Series All-in-One Panel PCs Company Teguar Teguar Teguar Teguar Teguar Teguar Teguar Model TP-4840-10 TP-5940-16 TP-4840-16 TP-5940-18 TP-4840-18 TP-5940-22 TP-4840-22 Processor Celeron J6412 Core i5-1145G7 Celeron J6412 Core i5-1145G7 Celeron J6412 Core i5-1145G7 Celeron J6412 RAM slot 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM RAM 4GB or 8GB 2/4/8/16GB 4/8/16GB 2/4/8/16GB 2/4/8/16GB 2/4/8/16GB 4/8/16GB Storage M.2 SSD 2 x M.2 SSD M.2 SSD 2 x M.2 SSD M.2 SSD 2 x M.2 SSD M.2 SSD Expansion 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) Screen size 10.1-inch 15.6-inch 15.6-inch 18.5-inch 18.5-inch 21.5-inch 21.5-inch Resolution 1920x1200 1366x768 1366x768 1366x768 1366x768 1920x1080 1920x1080 Opt. resolution NA NA NA opt. 1920x1080 NA NA NA PPI 224 100 100 85 85 102 102 Aspect ratio 16:10 16:9 16:9 16:9 16:9 16:9 16:9 Angle (H/V) 170/160 unkown unkown unkown unkown unkown unkown Luminance 200 220 220 250 250 250 250 P-Cap Standard Standard Standard Standard Standard Standard Standard Power DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts Weight (lb) 3.3 9.9 9.9 15.0 15.0 17.1 17.6 Size (mm) 263x170x38 mm 396x245x48 mm 396x245x48 mm 464x284x48 464x284x48 536x328x48 536x328x48 Material Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum VESA VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 USB 2.0 3 2 2 2 2 2 2 USB 3.0 1 2 2 2 2 2 2 USB-C 1 2 2 2 2 2 2 LAN RJ45 1 1 1 1 1 1 1 Serial 3 x COM 2 x DB9 COM 2 x COM 2 x DB9 COM 2 x COM 2 x DB9 COM 2 x COM WiFi 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n Bluetooth 4.0 opt. 4.0 4.0 opt. 4.0 4.0 opt. 4.0 4.0 Barcode optional optional optional optional optional optional NA RFID optional optional optional optional NA optional NA SmartCard optional optional optional optional optional optional optional Speaker 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts WebCam opt. 2mp opt. 2mp 2mp 2mp 2mp 2mp opt. 2mp Op. temp 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F Sealing IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel The table above shows the major specs of the four available TP-4840 and three available TP-5940 models in these two lines of industrial All-in-One computers that look almost identical and also share much of their functionality, with one major difference — the processor. And one other difference; while 16, 18, and 22-inch models are available in both lines, a much smaller 10-inch version is only available in the TP-4840 series. But now let's look at what these systems have to offer in terms of specs and functionality. As far as screen size and resolution go, these industrial systems are of modest size and should easily fit almost anywhere. Compared to the now very common 27-inch consumer and commercial display sizes (let alone the ever larger flatscreen TVs, even a 22-inch industrial All-in-One is quite compact. 16 and 18-inch versions have 1366 x 768 pixel resolution, perfectly adequate for the intended applications for this type of system. The 22-inch models have full HD 1920 x 1080 resolution, making for about the same pixel density as the smaller versions. The outlier is the small 10-inch model that has far higher 224 pixel density. Luminance of all models is between 200 and 250 nits, about the same as modern laptops, and best suited for indoors. As has become the almost universal standard, all use the quick and effortless capacitive touch technology, and all but the small 10-inch version use the common 16:9 aspect ratio. Despite the two lines using two very different processors, both are fanless designs with passive cooling. That means no potential unwanted fan noise and are movement, and also no dust clogging and reliability concerns inherent to mechanical fans. Fanless operation is made possible because of the excellent heat-dissipation properties of the aluminum die-cast housings of both lines. Mass storage for all models comes in the form of a single M.2 2280 style solid state SATA storage module. Note, though, that the TP-5940 models have a second M.2 2280 slot whereas the TP-4480 models don't. All models have external power supplies, with the same 19 Volt input voltage. Since these kinds of systems will be used in stationary deployments, there is no need for battery or wide voltage range input. Despite the significant range in size, all (including the very small 10-inch version) systems have pretty much identical port arrangements: plenty of USB ports, including the very practical and ever more popular reversible Type-C plugs. All also come with legacy serial DB9 COM ports as well as RJ45 Ethernet LAN jacks. Weight ranges from just 3.3 pounds for the 10-inch TP-4840-10, to 10, 15, and 17+ pounds for the larger systems, respectively. All have dual 2 watt speakers, VESA75 mounting screw hole patterns, and optional webcams, barcode readers, RFID, and SmartCard. Now let's take a closer look at the 16-inch TA-5940-16 All-in-One sample unit Teguar sent RuggedPCReview.com for evaluation. The Teguar TP-4840-22 industrial computer The Teguar TP-4840-22 is one of four available industrial All-in-One computers in this line. TP-4840s come in display sizes as small as ten inches — a screen no larger than an iPad or small Android tablet — and as large as the 22-inch version that Teguar sent us for evaluation and testing. The small one weighs just 3.3 pounds, barely more than a rugged tablet computer, while the big 22-inch model weighs in a hefty 17.7 pounds. Both, as well as the 16 and 18 inch versions in between, have the exact same tech inside, and also virtually the same wired and wireless connectivity. Below is a look at the TP-4840-22 from the front and from all four sides: With its elegant flush glass front bezel, the TP-4840-22 looks just like an Apple iMac or a modern Windows All-in-One. It may be considered an industrial computer, but it'll look at home in a healthcare or hospitality setting as much as on a shop floor. Despite its heavy-duty, high-quality materials and construction, the side views reveal a slender display case barely just over an inch thick, and then a 5/8 of an inch bulge for the system box on the backside. The whole thing is just 1.9 inches deep, which means it can be mounted, via the standard 75mm VESA screw hole pattern on its back, almost anywhere. In terms of construction, the TP-4840 lines consists almost entirely of durable ADC12 die-cast aluminum with a glass front and just a bit of steel to mount all of the interface ports on the back. ADC12 aluminum is known for its superb resistance to cracking and its corrosion resistance, and on the manufacturing side for its suitability for even complex die-casting projects and good machinability — a win-win for customers and manufacturers both. When disassembling panel computers, or opening them to add or remove memory, storage or communication modules, one often has to be careful not to damage cabling between the back and front of a system. That's no problem with any of the TP-4840 models -- all have just one single wire between the front and back, the one that goes to the on/off/sleep switch in the back. Separating the back and the front requires nothing more than unscrewing ten small Philips screws. In terms of electronics inside, there is a roughly 3-1/2 x 10 inch motherboard, a small power board, two speakers, a floating touch controller board, and that's about it. Virtually all I/O is edged-mounted, with just some optional ports using cabling. For memory there is a single SO-DIMM RAM connector on top of the motherboard. The TP-4840 Series also just a single M.2 slot for a solid state storage module and one half-size M.2 E-key connector used for an optional Wi-Fi/Bluetooth module. Below is a look at the TP-4840-22's complement of interface ports. They are in the back, all facing down. The port area is hidden underneath a black cast-aluminum cover that's held in place by a couple of screws. That makes for a neat appearance and keeps cables closer together and facing down. On the image above, from left to right you can see: An optional third DB9 COM port An unused cutout for another optional COM port Two legacy DB9 COM ports Two USB 3.0 Type A ports Two USB 3.0 Type-C data-only ports (covered up by the on/off/sleep switch) Two USB 2.0 Type A ports The 4-pin 19 Volt power jack An RJ11 Ethernet LN port A proprietary FE DisplayPort jack Note that the FeDP connector is a proprietary solution to connect an external secondary display with a single cable to provide power, USB for touch, and even Audio. As far as ruggedness goes, these industrial all-in-one panel computers are not mobile devices, so there are no drop and other specs that we usually see in mobile rugged devices. The TP-4840-22 is designed to be used in a temperature range from 32 to 95 degrees Fahrenheit, and its front panel is IP65 rated. That means considerable environmental protection. The front (but not the rear) is completely protected against dust intrusion and it can also handle low-pressure water jets. Teguar lists no fewer than 30 approved cleaning agents that the display panel can be cleaned and disinfected with. The Teguar TP-5940-18 industrial computer The Teguar TP-5940-18 is one of three available industrial All-in-One computers in this line. TP-5940s come in display sizes as small as 15.6 inches — a screen the size of that of a full-size laptop — and as large as 22-inches, the size of your average desktop PC screen. Teguar sent us the 18.5-inch middle version for evaluation and testing. Just as is the case with the TP-4840 Series, all three versions have the exact same tech inside, and also virtually the same wired and wireless connectivity. Below is a look at the TP-5940-18 from the front and from all four sides: Sporting the same elegant flush glass front bezel, the TP-5940-18 looks just like a small modern Windows All-in-One or desktop monitor. It's a structurally very strong and fairly heavy (15 pounds) industrial computer, but it wouldn't look out of place in a healthcare or hospitality setting. Even with its heavy-duty, high-quality materials and construction, the side view shows a slender display case barely just over an inch thick, and then the 5/8 of an inch bulge for the system box on the backside. The whole assembly is just 1.9 inches deep. The TP-5940-18 can be mounted just about anywhere, using the standard 75mm VESA screw hole pattern on its back that'll work with a vast universe of mounting hardware. For materials and construction, the TP-5940 lines relies almost entirely on durable ADC12 die-cast aluminum with a glass front and just a slender steel rail to mount the interface ports on the back. ADC12 aluminum provides excellent resistance to cracking and it is very corrosion resistant. Manufacturers like it because the metal works well for all sorts of die-casting designs and it is easy to machine — a great choice both for customers and manufacturers. When taking panel computers apart — or opening them — to add or remove memory, storage or communication modules, care has to be taken not to damage whatever cables there may be between the back and front of a system. That's no problem with any of the TP-5940 models; there's just a single wire between the front and back, the one that operates the on/off/sleep switch in the back. Separating the back and the front requires nothing more than unscrewing eight small Philips screws. What's inside the TP-5940-18? It's nowhere near as packed as a modern laptop or consumer all-in-one. There is the motherboard that measures roughly 3-1/2 x 10 inches, a small power board, two speakers, a floating touch controller board, and that's about it. All I/O is edged-mounted, with just some optional ports using cabling. Both the TP-4840 and TP-5940 series have a single SO-DIMM RAM connector on top of the motherboard. Unlike the TP-4840 models, however, the TP-5940 Series has two M.2 connectors for storage and one half-size half-size M.2 E-key connector, whereas the TP-4840 Series has just one M.2 slot for storage and one half-size half-size M.2 E-key connector. Below is a look at the TP-5940-18's lineup of interface ports. They are in the back, all facing down. The port area is hidden underneath a black cast-aluminum cover that's held in place by a couple of screws. That makes for a neat appearance and keeps cables closer together and facing down. While back in the day, point-of-sale systems often relied on glacially slow modem dial up to verify cars and log transactions, TA-5940 models are well equipped with all sorts of I/O. On the image above, from left to right you can see: An unused cutout for another optional COM port An unused cutout for another optional RJ45 LAN port Two legacy DB9 COM ports Two USB 3.0 Type A ports Two USB 3.0 Type-C data-only ports Two USB 2.0 Type A ports (one hidden beneath the connection tab for the port cover) The 4-pin 19 Volt power jack An RJ11 Ethernet LN port A proprietary FE DisplayPort jack Note that the FeDP connector is a proprietary solution to connect an external secondary display with a single cable to provide power, USB for touch, and even Audio. As far as ruggedness goes, these industrial all-in-one panel computers are not mobile devices, so there are no drop and other specs that we usually see in mobile rugged devices. The TP-5940-18 is designed to be used in a temperature range from 32 to 95 degrees Fahrenheit, and its front panel is IP65 rated. That means considerable environmental protection. The front (but not the rear) is completely protected against dust intrusion and it can also handle low-pressure water jets. Teguar lists no fewer than 30 approved cleaning agents that the display panel can be cleaned and disinfected with. The Windows 11 argument Teguar pointed out that the TP-4840 is one of the very few metal chassis panels with a Celeron chip that is Windows 11 compatible. Well, the Celeron J6412 in TP-4840 panels is Windows 11 capable, and that brings with it a number of advantages that can make a difference. Among them are: Windows 11 has integrated Widgets for quick access to headline information from favored apps and websites In Windows 11, it's easier to create, and toggle between, virtual desktops with snap layouts Windows 11 has improved touch controls, including five new touch gestures, that can increase productivity and reduce errors. Windows 11 has enhanced security features, designed from the ground up, with Windows Hello and TPM 2.0 Multitasking is more Windows 11 due to snap groups and layouts where users can subdivide the screen into separate areas for different apps The Task Manager in Windows 11 shows more details and has more options. Users can filter processes and there are in-app dialogs The File Explorer has a new layout, new features and is much simpler to use The new Start Menu of Windows 11 also is more user-friendly, intuitive, and has an improved taskbar to better keep track of open windows and apps. Switching to a new version of an operating system is always a mixed blessing. There are new features and new functionality, but a new OS interface also requires getting used to and it may have higher resource requirements (for example, Windows 11 requires 64GB of storage and 4GB of RAM, whereas Windows 10 just needed 20GB storage and 2GB of RAM). However, Windows 10 is now almost eight years old, so there's more and more justification for moving on, and Teguar's choice of a Windows 11-enabled processor even on the lower end is a definite plus. About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance. Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

Target industries — Different industries have different requirements. Some are indoors only, some outdoors or on the road. Environmental challenges vary. design and aesthetics vary. Connectivity varies. Performance — Many industrial and vertical market applications are fairly routine and do not vary. Others are much more demanding and require a lot more computing power. One performance size does not fit all. All of this represents a significant challenge to manufacturers of industrial computing equipment. Unlike home and office, no two industrial and vertical market setting and application is the same. Manufacturers must either specialize on certain markets, or offer different platforms for different markets. There are All-in-Ones, there are Panel PCs, there are Box PCs, there are rack-mounts and many other types. In terms of performance and capabilities, it's often possible to "stretch" a platform by offering various configurations (processors, memory, storage, ports, etc.). Other times it makes sense in optimizing lines for certain markets and applications. And that's what Teguar did by dividing a class and more or less common platform into the "economy" TP-4840 line and the "high performance" TP-5940 line. The table below shows the Teguar TP-4840 and TP-5940 Series of fanless All-in-One systems as of Summer 2023:  Teguar TP-4840 and TP-5940 Series All-in-One Panel PCs Company Teguar Teguar Teguar Teguar Teguar Teguar Teguar Model TP-4840-10 TP-5940-16 TP-4840-16 TP-5940-18 TP-4840-18 TP-5940-22 TP-4840-22 Processor Celeron J6412 Core i5-1145G7 Celeron J6412 Core i5-1145G7 Celeron J6412 Core i5-1145G7 Celeron J6412 RAM slot 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM RAM 4GB or 8GB 2/4/8/16GB 4/8/16GB 2/4/8/16GB 2/4/8/16GB 2/4/8/16GB 4/8/16GB Storage M.2 SSD 2 x M.2 SSD M.2 SSD 2 x M.2 SSD M.2 SSD 2 x M.2 SSD M.2 SSD Expansion 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) Screen size 10.1-inch 15.6-inch 15.6-inch 18.5-inch 18.5-inch 21.5-inch 21.5-inch Resolution 1920x1200 1366x768 1366x768 1366x768 1366x768 1920x1080 1920x1080 Opt. resolution NA NA NA opt. 1920x1080 NA NA NA PPI 224 100 100 85 85 102 102 Aspect ratio 16:10 16:9 16:9 16:9 16:9 16:9 16:9 Angle (H/V) 170/160 unkown unkown unkown unkown unkown unkown Luminance 200 220 220 250 250 250 250 P-Cap Standard Standard Standard Standard Standard Standard Standard Power DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts Weight (lb) 3.3 9.9 9.9 15.0 15.0 17.1 17.6 Size (mm) 263x170x38 mm 396x245x48 mm 396x245x48 mm 464x284x48 464x284x48 536x328x48 536x328x48 Material Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum VESA VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 USB 2.0 3 2 2 2 2 2 2 USB 3.0 1 2 2 2 2 2 2 USB-C 1 2 2 2 2 2 2 LAN RJ45 1 1 1 1 1 1 1 Serial 3 x COM 2 x DB9 COM 2 x COM 2 x DB9 COM 2 x COM 2 x DB9 COM 2 x COM WiFi 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n Bluetooth 4.0 opt. 4.0 4.0 opt. 4.0 4.0 opt. 4.0 4.0 Barcode optional optional optional optional optional optional NA RFID optional optional optional optional NA optional NA SmartCard optional optional optional optional optional optional optional Speaker 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts WebCam opt. 2mp opt. 2mp 2mp 2mp 2mp 2mp opt. 2mp Op. temp 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F Sealing IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel The table above shows the major specs of the four available TP-4840 and three available TP-5940 models in these two lines of industrial All-in-One computers that look almost identical and also share much of their functionality, with one major difference — the processor. And one other difference; while 16, 18, and 22-inch models are available in both lines, a much smaller 10-inch version is only available in the TP-4840 series. But now let's look at what these systems have to offer in terms of specs and functionality. As far as screen size and resolution go, these industrial systems are of modest size and should easily fit almost anywhere. Compared to the now very common 27-inch consumer and commercial display sizes (let alone the ever larger flatscreen TVs, even a 22-inch industrial All-in-One is quite compact. 16 and 18-inch versions have 1366 x 768 pixel resolution, perfectly adequate for the intended applications for this type of system. The 22-inch models have full HD 1920 x 1080 resolution, making for about the same pixel density as the smaller versions. The outlier is the small 10-inch model that has far higher 224 pixel density. Luminance of all models is between 200 and 250 nits, about the same as modern laptops, and best suited for indoors. As has become the almost universal standard, all use the quick and effortless capacitive touch technology, and all but the small 10-inch version use the common 16:9 aspect ratio. Despite the two lines using two very different processors, both are fanless designs with passive cooling. That means no potential unwanted fan noise and are movement, and also no dust clogging and reliability concerns inherent to mechanical fans. Fanless operation is made possible because of the excellent heat-dissipation properties of the aluminum die-cast housings of both lines. Mass storage for all models comes in the form of a single M.2 2280 style solid state SATA storage module. Note, though, that the TP-5940 models have a second M.2 2280 slot whereas the TP-4480 models don't. All models have external power supplies, with the same 19 Volt input voltage. Since these kinds of systems will be used in stationary deployments, there is no need for battery or wide voltage range input. Despite the significant range in size, all (including the very small 10-inch version) systems have pretty much identical port arrangements: plenty of USB ports, including the very practical and ever more popular reversible Type-C plugs. All also come with legacy serial DB9 COM ports as well as RJ45 Ethernet LAN jacks. Weight ranges from just 3.3 pounds for the 10-inch TP-4840-10, to 10, 15, and 17+ pounds for the larger systems, respectively. All have dual 2 watt speakers, VESA75 mounting screw hole patterns, and optional webcams, barcode readers, RFID, and SmartCard. Now let's take a closer look at the 16-inch TA-5940-16 All-in-One sample unit Teguar sent RuggedPCReview.com for evaluation. The Teguar TP-4840-22 industrial computer The Teguar TP-4840-22 is one of four available industrial All-in-One computers in this line. TP-4840s come in display sizes as small as ten inches — a screen no larger than an iPad or small Android tablet — and as large as the 22-inch version that Teguar sent us for evaluation and testing. The small one weighs just 3.3 pounds, barely more than a rugged tablet computer, while the big 22-inch model weighs in a hefty 17.7 pounds. Both, as well as the 16 and 18 inch versions in between, have the exact same tech inside, and also virtually the same wired and wireless connectivity. Below is a look at the TP-4840-22 from the front and from all four sides: With its elegant flush glass front bezel, the TP-4840-22 looks just like an Apple iMac or a modern Windows All-in-One. It may be considered an industrial computer, but it'll look at home in a healthcare or hospitality setting as much as on a shop floor. Despite its heavy-duty, high-quality materials and construction, the side views reveal a slender display case barely just over an inch thick, and then a 5/8 of an inch bulge for the system box on the backside. The whole thing is just 1.9 inches deep, which means it can be mounted, via the standard 75mm VESA screw hole pattern on its back, almost anywhere. In terms of construction, the TP-4840 lines consists almost entirely of durable ADC12 die-cast aluminum with a glass front and just a bit of steel to mount all of the interface ports on the back. ADC12 aluminum is known for its superb resistance to cracking and its corrosion resistance, and on the manufacturing side for its suitability for even complex die-casting projects and good machinability — a win-win for customers and manufacturers both. When disassembling panel computers, or opening them to add or remove memory, storage or communication modules, one often has to be careful not to damage cabling between the back and front of a system. That's no problem with any of the TP-4840 models -- all have just one single wire between the front and back, the one that goes to the on/off/sleep switch in the back. Separating the back and the front requires nothing more than unscrewing ten small Philips screws. In terms of electronics inside, there is a roughly 3-1/2 x 10 inch motherboard, a small power board, two speakers, a floating touch controller board, and that's about it. Virtually all I/O is edged-mounted, with just some optional ports using cabling. For memory there is a single SO-DIMM RAM connector on top of the motherboard. The TP-4840 Series also just a single M.2 slot for a solid state storage module and one half-size M.2 E-key connector used for an optional Wi-Fi/Bluetooth module. Below is a look at the TP-4840-22's complement of interface ports. They are in the back, all facing down. The port area is hidden underneath a black cast-aluminum cover that's held in place by a couple of screws. That makes for a neat appearance and keeps cables closer together and facing down. On the image above, from left to right you can see: An optional third DB9 COM port An unused cutout for another optional COM port Two legacy DB9 COM ports Two USB 3.0 Type A ports Two USB 3.0 Type-C data-only ports (covered up by the on/off/sleep switch) Two USB 2.0 Type A ports The 4-pin 19 Volt power jack An RJ11 Ethernet LN port A proprietary FE DisplayPort jack Note that the FeDP connector is a proprietary solution to connect an external secondary display with a single cable to provide power, USB for touch, and even Audio. As far as ruggedness goes, these industrial all-in-one panel computers are not mobile devices, so there are no drop and other specs that we usually see in mobile rugged devices. The TP-4840-22 is designed to be used in a temperature range from 32 to 95 degrees Fahrenheit, and its front panel is IP65 rated. That means considerable environmental protection. The front (but not the rear) is completely protected against dust intrusion and it can also handle low-pressure water jets. Teguar lists no fewer than 30 approved cleaning agents that the display panel can be cleaned and disinfected with. The Teguar TP-5940-18 industrial computer The Teguar TP-5940-18 is one of three available industrial All-in-One computers in this line. TP-5940s come in display sizes as small as 15.6 inches — a screen the size of that of a full-size laptop — and as large as 22-inches, the size of your average desktop PC screen. Teguar sent us the 18.5-inch middle version for evaluation and testing. Just as is the case with the TP-4840 Series, all three versions have the exact same tech inside, and also virtually the same wired and wireless connectivity. Below is a look at the TP-5940-18 from the front and from all four sides: Sporting the same elegant flush glass front bezel, the TP-5940-18 looks just like a small modern Windows All-in-One or desktop monitor. It's a structurally very strong and fairly heavy (15 pounds) industrial computer, but it wouldn't look out of place in a healthcare or hospitality setting. Even with its heavy-duty, high-quality materials and construction, the side view shows a slender display case barely just over an inch thick, and then the 5/8 of an inch bulge for the system box on the backside. The whole assembly is just 1.9 inches deep. The TP-5940-18 can be mounted just about anywhere, using the standard 75mm VESA screw hole pattern on its back that'll work with a vast universe of mounting hardware. For materials and construction, the TP-5940 lines relies almost entirely on durable ADC12 die-cast aluminum with a glass front and just a slender steel rail to mount the interface ports on the back. ADC12 aluminum provides excellent resistance to cracking and it is very corrosion resistant. Manufacturers like it because the metal works well for all sorts of die-casting designs and it is easy to machine — a great choice both for customers and manufacturers. When taking panel computers apart — or opening them — to add or remove memory, storage or communication modules, care has to be taken not to damage whatever cables there may be between the back and front of a system. That's no problem with any of the TP-5940 models; there's just a single wire between the front and back, the one that operates the on/off/sleep switch in the back. Separating the back and the front requires nothing more than unscrewing eight small Philips screws. What's inside the TP-5940-18? It's nowhere near as packed as a modern laptop or consumer all-in-one. There is the motherboard that measures roughly 3-1/2 x 10 inches, a small power board, two speakers, a floating touch controller board, and that's about it. All I/O is edged-mounted, with just some optional ports using cabling. Both the TP-4840 and TP-5940 series have a single SO-DIMM RAM connector on top of the motherboard. Unlike the TP-4840 models, however, the TP-5940 Series has two M.2 connectors for storage and one half-size half-size M.2 E-key connector, whereas the TP-4840 Series has just one M.2 slot for storage and one half-size half-size M.2 E-key connector. Below is a look at the TP-5940-18's lineup of interface ports. They are in the back, all facing down. The port area is hidden underneath a black cast-aluminum cover that's held in place by a couple of screws. That makes for a neat appearance and keeps cables closer together and facing down. While back in the day, point-of-sale systems often relied on glacially slow modem dial up to verify cars and log transactions, TA-5940 models are well equipped with all sorts of I/O. On the image above, from left to right you can see: An unused cutout for another optional COM port An unused cutout for another optional RJ45 LAN port Two legacy DB9 COM ports Two USB 3.0 Type A ports Two USB 3.0 Type-C data-only ports Two USB 2.0 Type A ports (one hidden beneath the connection tab for the port cover) The 4-pin 19 Volt power jack An RJ11 Ethernet LN port A proprietary FE DisplayPort jack Note that the FeDP connector is a proprietary solution to connect an external secondary display with a single cable to provide power, USB for touch, and even Audio. As far as ruggedness goes, these industrial all-in-one panel computers are not mobile devices, so there are no drop and other specs that we usually see in mobile rugged devices. The TP-5940-18 is designed to be used in a temperature range from 32 to 95 degrees Fahrenheit, and its front panel is IP65 rated. That means considerable environmental protection. The front (but not the rear) is completely protected against dust intrusion and it can also handle low-pressure water jets. Teguar lists no fewer than 30 approved cleaning agents that the display panel can be cleaned and disinfected with. The Windows 11 argument Teguar pointed out that the TP-4840 is one of the very few metal chassis panels with a Celeron chip that is Windows 11 compatible. Well, the Celeron J6412 in TP-4840 panels is Windows 11 capable, and that brings with it a number of advantages that can make a difference. Among them are: Windows 11 has integrated Widgets for quick access to headline information from favored apps and websites In Windows 11, it's easier to create, and toggle between, virtual desktops with snap layouts Windows 11 has improved touch controls, including five new touch gestures, that can increase productivity and reduce errors. Windows 11 has enhanced security features, designed from the ground up, with Windows Hello and TPM 2.0 Multitasking is more Windows 11 due to snap groups and layouts where users can subdivide the screen into separate areas for different apps The Task Manager in Windows 11 shows more details and has more options. Users can filter processes and there are in-app dialogs The File Explorer has a new layout, new features and is much simpler to use The new Start Menu of Windows 11 also is more user-friendly, intuitive, and has an improved taskbar to better keep track of open windows and apps. Switching to a new version of an operating system is always a mixed blessing. There are new features and new functionality, but a new OS interface also requires getting used to and it may have higher resource requirements (for example, Windows 11 requires 64GB of storage and 4GB of RAM, whereas Windows 10 just needed 20GB storage and 2GB of RAM). However, Windows 10 is now almost eight years old, so there's more and more justification for moving on, and Teguar's choice of a Windows 11-enabled processor even on the lower end is a definite plus. About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance. Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

Performance — Many industrial and vertical market applications are fairly routine and do not vary. Others are much more demanding and require a lot more computing power. One performance size does not fit all. All of this represents a significant challenge to manufacturers of industrial computing equipment. Unlike home and office, no two industrial and vertical market setting and application is the same. Manufacturers must either specialize on certain markets, or offer different platforms for different markets. There are All-in-Ones, there are Panel PCs, there are Box PCs, there are rack-mounts and many other types. In terms of performance and capabilities, it's often possible to "stretch" a platform by offering various configurations (processors, memory, storage, ports, etc.). Other times it makes sense in optimizing lines for certain markets and applications. And that's what Teguar did by dividing a class and more or less common platform into the "economy" TP-4840 line and the "high performance" TP-5940 line. The table below shows the Teguar TP-4840 and TP-5940 Series of fanless All-in-One systems as of Summer 2023:  Teguar TP-4840 and TP-5940 Series All-in-One Panel PCs Company Teguar Teguar Teguar Teguar Teguar Teguar Teguar Model TP-4840-10 TP-5940-16 TP-4840-16 TP-5940-18 TP-4840-18 TP-5940-22 TP-4840-22 Processor Celeron J6412 Core i5-1145G7 Celeron J6412 Core i5-1145G7 Celeron J6412 Core i5-1145G7 Celeron J6412 RAM slot 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM RAM 4GB or 8GB 2/4/8/16GB 4/8/16GB 2/4/8/16GB 2/4/8/16GB 2/4/8/16GB 4/8/16GB Storage M.2 SSD 2 x M.2 SSD M.2 SSD 2 x M.2 SSD M.2 SSD 2 x M.2 SSD M.2 SSD Expansion 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) Screen size 10.1-inch 15.6-inch 15.6-inch 18.5-inch 18.5-inch 21.5-inch 21.5-inch Resolution 1920x1200 1366x768 1366x768 1366x768 1366x768 1920x1080 1920x1080 Opt. resolution NA NA NA opt. 1920x1080 NA NA NA PPI 224 100 100 85 85 102 102 Aspect ratio 16:10 16:9 16:9 16:9 16:9 16:9 16:9 Angle (H/V) 170/160 unkown unkown unkown unkown unkown unkown Luminance 200 220 220 250 250 250 250 P-Cap Standard Standard Standard Standard Standard Standard Standard Power DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts Weight (lb) 3.3 9.9 9.9 15.0 15.0 17.1 17.6 Size (mm) 263x170x38 mm 396x245x48 mm 396x245x48 mm 464x284x48 464x284x48 536x328x48 536x328x48 Material Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum VESA VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 USB 2.0 3 2 2 2 2 2 2 USB 3.0 1 2 2 2 2 2 2 USB-C 1 2 2 2 2 2 2 LAN RJ45 1 1 1 1 1 1 1 Serial 3 x COM 2 x DB9 COM 2 x COM 2 x DB9 COM 2 x COM 2 x DB9 COM 2 x COM WiFi 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n Bluetooth 4.0 opt. 4.0 4.0 opt. 4.0 4.0 opt. 4.0 4.0 Barcode optional optional optional optional optional optional NA RFID optional optional optional optional NA optional NA SmartCard optional optional optional optional optional optional optional Speaker 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts WebCam opt. 2mp opt. 2mp 2mp 2mp 2mp 2mp opt. 2mp Op. temp 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F Sealing IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel The table above shows the major specs of the four available TP-4840 and three available TP-5940 models in these two lines of industrial All-in-One computers that look almost identical and also share much of their functionality, with one major difference — the processor. And one other difference; while 16, 18, and 22-inch models are available in both lines, a much smaller 10-inch version is only available in the TP-4840 series. But now let's look at what these systems have to offer in terms of specs and functionality. As far as screen size and resolution go, these industrial systems are of modest size and should easily fit almost anywhere. Compared to the now very common 27-inch consumer and commercial display sizes (let alone the ever larger flatscreen TVs, even a 22-inch industrial All-in-One is quite compact. 16 and 18-inch versions have 1366 x 768 pixel resolution, perfectly adequate for the intended applications for this type of system. The 22-inch models have full HD 1920 x 1080 resolution, making for about the same pixel density as the smaller versions. The outlier is the small 10-inch model that has far higher 224 pixel density. Luminance of all models is between 200 and 250 nits, about the same as modern laptops, and best suited for indoors. As has become the almost universal standard, all use the quick and effortless capacitive touch technology, and all but the small 10-inch version use the common 16:9 aspect ratio. Despite the two lines using two very different processors, both are fanless designs with passive cooling. That means no potential unwanted fan noise and are movement, and also no dust clogging and reliability concerns inherent to mechanical fans. Fanless operation is made possible because of the excellent heat-dissipation properties of the aluminum die-cast housings of both lines. Mass storage for all models comes in the form of a single M.2 2280 style solid state SATA storage module. Note, though, that the TP-5940 models have a second M.2 2280 slot whereas the TP-4480 models don't. All models have external power supplies, with the same 19 Volt input voltage. Since these kinds of systems will be used in stationary deployments, there is no need for battery or wide voltage range input. Despite the significant range in size, all (including the very small 10-inch version) systems have pretty much identical port arrangements: plenty of USB ports, including the very practical and ever more popular reversible Type-C plugs. All also come with legacy serial DB9 COM ports as well as RJ45 Ethernet LAN jacks. Weight ranges from just 3.3 pounds for the 10-inch TP-4840-10, to 10, 15, and 17+ pounds for the larger systems, respectively. All have dual 2 watt speakers, VESA75 mounting screw hole patterns, and optional webcams, barcode readers, RFID, and SmartCard. Now let's take a closer look at the 16-inch TA-5940-16 All-in-One sample unit Teguar sent RuggedPCReview.com for evaluation. The Teguar TP-4840-22 industrial computer The Teguar TP-4840-22 is one of four available industrial All-in-One computers in this line. TP-4840s come in display sizes as small as ten inches — a screen no larger than an iPad or small Android tablet — and as large as the 22-inch version that Teguar sent us for evaluation and testing. The small one weighs just 3.3 pounds, barely more than a rugged tablet computer, while the big 22-inch model weighs in a hefty 17.7 pounds. Both, as well as the 16 and 18 inch versions in between, have the exact same tech inside, and also virtually the same wired and wireless connectivity. Below is a look at the TP-4840-22 from the front and from all four sides: With its elegant flush glass front bezel, the TP-4840-22 looks just like an Apple iMac or a modern Windows All-in-One. It may be considered an industrial computer, but it'll look at home in a healthcare or hospitality setting as much as on a shop floor. Despite its heavy-duty, high-quality materials and construction, the side views reveal a slender display case barely just over an inch thick, and then a 5/8 of an inch bulge for the system box on the backside. The whole thing is just 1.9 inches deep, which means it can be mounted, via the standard 75mm VESA screw hole pattern on its back, almost anywhere. In terms of construction, the TP-4840 lines consists almost entirely of durable ADC12 die-cast aluminum with a glass front and just a bit of steel to mount all of the interface ports on the back. ADC12 aluminum is known for its superb resistance to cracking and its corrosion resistance, and on the manufacturing side for its suitability for even complex die-casting projects and good machinability — a win-win for customers and manufacturers both. When disassembling panel computers, or opening them to add or remove memory, storage or communication modules, one often has to be careful not to damage cabling between the back and front of a system. That's no problem with any of the TP-4840 models -- all have just one single wire between the front and back, the one that goes to the on/off/sleep switch in the back. Separating the back and the front requires nothing more than unscrewing ten small Philips screws. In terms of electronics inside, there is a roughly 3-1/2 x 10 inch motherboard, a small power board, two speakers, a floating touch controller board, and that's about it. Virtually all I/O is edged-mounted, with just some optional ports using cabling. For memory there is a single SO-DIMM RAM connector on top of the motherboard. The TP-4840 Series also just a single M.2 slot for a solid state storage module and one half-size M.2 E-key connector used for an optional Wi-Fi/Bluetooth module. Below is a look at the TP-4840-22's complement of interface ports. They are in the back, all facing down. The port area is hidden underneath a black cast-aluminum cover that's held in place by a couple of screws. That makes for a neat appearance and keeps cables closer together and facing down. On the image above, from left to right you can see: An optional third DB9 COM port An unused cutout for another optional COM port Two legacy DB9 COM ports Two USB 3.0 Type A ports Two USB 3.0 Type-C data-only ports (covered up by the on/off/sleep switch) Two USB 2.0 Type A ports The 4-pin 19 Volt power jack An RJ11 Ethernet LN port A proprietary FE DisplayPort jack Note that the FeDP connector is a proprietary solution to connect an external secondary display with a single cable to provide power, USB for touch, and even Audio. As far as ruggedness goes, these industrial all-in-one panel computers are not mobile devices, so there are no drop and other specs that we usually see in mobile rugged devices. The TP-4840-22 is designed to be used in a temperature range from 32 to 95 degrees Fahrenheit, and its front panel is IP65 rated. That means considerable environmental protection. The front (but not the rear) is completely protected against dust intrusion and it can also handle low-pressure water jets. Teguar lists no fewer than 30 approved cleaning agents that the display panel can be cleaned and disinfected with. The Teguar TP-5940-18 industrial computer The Teguar TP-5940-18 is one of three available industrial All-in-One computers in this line. TP-5940s come in display sizes as small as 15.6 inches — a screen the size of that of a full-size laptop — and as large as 22-inches, the size of your average desktop PC screen. Teguar sent us the 18.5-inch middle version for evaluation and testing. Just as is the case with the TP-4840 Series, all three versions have the exact same tech inside, and also virtually the same wired and wireless connectivity. Below is a look at the TP-5940-18 from the front and from all four sides: Sporting the same elegant flush glass front bezel, the TP-5940-18 looks just like a small modern Windows All-in-One or desktop monitor. It's a structurally very strong and fairly heavy (15 pounds) industrial computer, but it wouldn't look out of place in a healthcare or hospitality setting. Even with its heavy-duty, high-quality materials and construction, the side view shows a slender display case barely just over an inch thick, and then the 5/8 of an inch bulge for the system box on the backside. The whole assembly is just 1.9 inches deep. The TP-5940-18 can be mounted just about anywhere, using the standard 75mm VESA screw hole pattern on its back that'll work with a vast universe of mounting hardware. For materials and construction, the TP-5940 lines relies almost entirely on durable ADC12 die-cast aluminum with a glass front and just a slender steel rail to mount the interface ports on the back. ADC12 aluminum provides excellent resistance to cracking and it is very corrosion resistant. Manufacturers like it because the metal works well for all sorts of die-casting designs and it is easy to machine — a great choice both for customers and manufacturers. When taking panel computers apart — or opening them — to add or remove memory, storage or communication modules, care has to be taken not to damage whatever cables there may be between the back and front of a system. That's no problem with any of the TP-5940 models; there's just a single wire between the front and back, the one that operates the on/off/sleep switch in the back. Separating the back and the front requires nothing more than unscrewing eight small Philips screws. What's inside the TP-5940-18? It's nowhere near as packed as a modern laptop or consumer all-in-one. There is the motherboard that measures roughly 3-1/2 x 10 inches, a small power board, two speakers, a floating touch controller board, and that's about it. All I/O is edged-mounted, with just some optional ports using cabling. Both the TP-4840 and TP-5940 series have a single SO-DIMM RAM connector on top of the motherboard. Unlike the TP-4840 models, however, the TP-5940 Series has two M.2 connectors for storage and one half-size half-size M.2 E-key connector, whereas the TP-4840 Series has just one M.2 slot for storage and one half-size half-size M.2 E-key connector. Below is a look at the TP-5940-18's lineup of interface ports. They are in the back, all facing down. The port area is hidden underneath a black cast-aluminum cover that's held in place by a couple of screws. That makes for a neat appearance and keeps cables closer together and facing down. While back in the day, point-of-sale systems often relied on glacially slow modem dial up to verify cars and log transactions, TA-5940 models are well equipped with all sorts of I/O. On the image above, from left to right you can see: An unused cutout for another optional COM port An unused cutout for another optional RJ45 LAN port Two legacy DB9 COM ports Two USB 3.0 Type A ports Two USB 3.0 Type-C data-only ports Two USB 2.0 Type A ports (one hidden beneath the connection tab for the port cover) The 4-pin 19 Volt power jack An RJ11 Ethernet LN port A proprietary FE DisplayPort jack Note that the FeDP connector is a proprietary solution to connect an external secondary display with a single cable to provide power, USB for touch, and even Audio. As far as ruggedness goes, these industrial all-in-one panel computers are not mobile devices, so there are no drop and other specs that we usually see in mobile rugged devices. The TP-5940-18 is designed to be used in a temperature range from 32 to 95 degrees Fahrenheit, and its front panel is IP65 rated. That means considerable environmental protection. The front (but not the rear) is completely protected against dust intrusion and it can also handle low-pressure water jets. Teguar lists no fewer than 30 approved cleaning agents that the display panel can be cleaned and disinfected with. The Windows 11 argument Teguar pointed out that the TP-4840 is one of the very few metal chassis panels with a Celeron chip that is Windows 11 compatible. Well, the Celeron J6412 in TP-4840 panels is Windows 11 capable, and that brings with it a number of advantages that can make a difference. Among them are: Windows 11 has integrated Widgets for quick access to headline information from favored apps and websites In Windows 11, it's easier to create, and toggle between, virtual desktops with snap layouts Windows 11 has improved touch controls, including five new touch gestures, that can increase productivity and reduce errors. Windows 11 has enhanced security features, designed from the ground up, with Windows Hello and TPM 2.0 Multitasking is more Windows 11 due to snap groups and layouts where users can subdivide the screen into separate areas for different apps The Task Manager in Windows 11 shows more details and has more options. Users can filter processes and there are in-app dialogs The File Explorer has a new layout, new features and is much simpler to use The new Start Menu of Windows 11 also is more user-friendly, intuitive, and has an improved taskbar to better keep track of open windows and apps. Switching to a new version of an operating system is always a mixed blessing. There are new features and new functionality, but a new OS interface also requires getting used to and it may have higher resource requirements (for example, Windows 11 requires 64GB of storage and 4GB of RAM, whereas Windows 10 just needed 20GB storage and 2GB of RAM). However, Windows 10 is now almost eight years old, so there's more and more justification for moving on, and Teguar's choice of a Windows 11-enabled processor even on the lower end is a definite plus. About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance. Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

All of this represents a significant challenge to manufacturers of industrial computing equipment. Unlike home and office, no two industrial and vertical market setting and application is the same. Manufacturers must either specialize on certain markets, or offer different platforms for different markets. There are All-in-Ones, there are Panel PCs, there are Box PCs, there are rack-mounts and many other types. In terms of performance and capabilities, it's often possible to "stretch" a platform by offering various configurations (processors, memory, storage, ports, etc.). Other times it makes sense in optimizing lines for certain markets and applications. And that's what Teguar did by dividing a class and more or less common platform into the "economy" TP-4840 line and the "high performance" TP-5940 line.

The table below shows the Teguar TP-4840 and TP-5940 Series of fanless All-in-One systems as of Summer 2023:

 Teguar TP-4840 and TP-5940 Series All-in-One Panel PCs Company Teguar Teguar Teguar Teguar Teguar Teguar Teguar Model TP-4840-10 TP-5940-16 TP-4840-16 TP-5940-18 TP-4840-18 TP-5940-22 TP-4840-22 Processor Celeron J6412 Core i5-1145G7 Celeron J6412 Core i5-1145G7 Celeron J6412 Core i5-1145G7 Celeron J6412 RAM slot 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM RAM 4GB or 8GB 2/4/8/16GB 4/8/16GB 2/4/8/16GB 2/4/8/16GB 2/4/8/16GB 4/8/16GB Storage M.2 SSD 2 x M.2 SSD M.2 SSD 2 x M.2 SSD M.2 SSD 2 x M.2 SSD M.2 SSD Expansion 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) Screen size 10.1-inch 15.6-inch 15.6-inch 18.5-inch 18.5-inch 21.5-inch 21.5-inch Resolution 1920x1200 1366x768 1366x768 1366x768 1366x768 1920x1080 1920x1080 Opt. resolution NA NA NA opt. 1920x1080 NA NA NA PPI 224 100 100 85 85 102 102 Aspect ratio 16:10 16:9 16:9 16:9 16:9 16:9 16:9 Angle (H/V) 170/160 unkown unkown unkown unkown unkown unkown Luminance 200 220 220 250 250 250 250 P-Cap Standard Standard Standard Standard Standard Standard Standard Power DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts Weight (lb) 3.3 9.9 9.9 15.0 15.0 17.1 17.6 Size (mm) 263x170x38 mm 396x245x48 mm 396x245x48 mm 464x284x48 464x284x48 536x328x48 536x328x48 Material Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum VESA VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 USB 2.0 3 2 2 2 2 2 2 USB 3.0 1 2 2 2 2 2 2 USB-C 1 2 2 2 2 2 2 LAN RJ45 1 1 1 1 1 1 1 Serial 3 x COM 2 x DB9 COM 2 x COM 2 x DB9 COM 2 x COM 2 x DB9 COM 2 x COM WiFi 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n Bluetooth 4.0 opt. 4.0 4.0 opt. 4.0 4.0 opt. 4.0 4.0 Barcode optional optional optional optional optional optional NA RFID optional optional optional optional NA optional NA SmartCard optional optional optional optional optional optional optional Speaker 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts WebCam opt. 2mp opt. 2mp 2mp 2mp 2mp 2mp opt. 2mp Op. temp 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F Sealing IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel The table above shows the major specs of the four available TP-4840 and three available TP-5940 models in these two lines of industrial All-in-One computers that look almost identical and also share much of their functionality, with one major difference — the processor. And one other difference; while 16, 18, and 22-inch models are available in both lines, a much smaller 10-inch version is only available in the TP-4840 series. But now let's look at what these systems have to offer in terms of specs and functionality. As far as screen size and resolution go, these industrial systems are of modest size and should easily fit almost anywhere. Compared to the now very common 27-inch consumer and commercial display sizes (let alone the ever larger flatscreen TVs, even a 22-inch industrial All-in-One is quite compact. 16 and 18-inch versions have 1366 x 768 pixel resolution, perfectly adequate for the intended applications for this type of system. The 22-inch models have full HD 1920 x 1080 resolution, making for about the same pixel density as the smaller versions. The outlier is the small 10-inch model that has far higher 224 pixel density. Luminance of all models is between 200 and 250 nits, about the same as modern laptops, and best suited for indoors. As has become the almost universal standard, all use the quick and effortless capacitive touch technology, and all but the small 10-inch version use the common 16:9 aspect ratio. Despite the two lines using two very different processors, both are fanless designs with passive cooling. That means no potential unwanted fan noise and are movement, and also no dust clogging and reliability concerns inherent to mechanical fans. Fanless operation is made possible because of the excellent heat-dissipation properties of the aluminum die-cast housings of both lines. Mass storage for all models comes in the form of a single M.2 2280 style solid state SATA storage module. Note, though, that the TP-5940 models have a second M.2 2280 slot whereas the TP-4480 models don't. All models have external power supplies, with the same 19 Volt input voltage. Since these kinds of systems will be used in stationary deployments, there is no need for battery or wide voltage range input. Despite the significant range in size, all (including the very small 10-inch version) systems have pretty much identical port arrangements: plenty of USB ports, including the very practical and ever more popular reversible Type-C plugs. All also come with legacy serial DB9 COM ports as well as RJ45 Ethernet LAN jacks. Weight ranges from just 3.3 pounds for the 10-inch TP-4840-10, to 10, 15, and 17+ pounds for the larger systems, respectively. All have dual 2 watt speakers, VESA75 mounting screw hole patterns, and optional webcams, barcode readers, RFID, and SmartCard. Now let's take a closer look at the 16-inch TA-5940-16 All-in-One sample unit Teguar sent RuggedPCReview.com for evaluation. The Teguar TP-4840-22 industrial computer The Teguar TP-4840-22 is one of four available industrial All-in-One computers in this line. TP-4840s come in display sizes as small as ten inches — a screen no larger than an iPad or small Android tablet — and as large as the 22-inch version that Teguar sent us for evaluation and testing. The small one weighs just 3.3 pounds, barely more than a rugged tablet computer, while the big 22-inch model weighs in a hefty 17.7 pounds. Both, as well as the 16 and 18 inch versions in between, have the exact same tech inside, and also virtually the same wired and wireless connectivity. Below is a look at the TP-4840-22 from the front and from all four sides: With its elegant flush glass front bezel, the TP-4840-22 looks just like an Apple iMac or a modern Windows All-in-One. It may be considered an industrial computer, but it'll look at home in a healthcare or hospitality setting as much as on a shop floor. Despite its heavy-duty, high-quality materials and construction, the side views reveal a slender display case barely just over an inch thick, and then a 5/8 of an inch bulge for the system box on the backside. The whole thing is just 1.9 inches deep, which means it can be mounted, via the standard 75mm VESA screw hole pattern on its back, almost anywhere. In terms of construction, the TP-4840 lines consists almost entirely of durable ADC12 die-cast aluminum with a glass front and just a bit of steel to mount all of the interface ports on the back. ADC12 aluminum is known for its superb resistance to cracking and its corrosion resistance, and on the manufacturing side for its suitability for even complex die-casting projects and good machinability — a win-win for customers and manufacturers both. When disassembling panel computers, or opening them to add or remove memory, storage or communication modules, one often has to be careful not to damage cabling between the back and front of a system. That's no problem with any of the TP-4840 models -- all have just one single wire between the front and back, the one that goes to the on/off/sleep switch in the back. Separating the back and the front requires nothing more than unscrewing ten small Philips screws. In terms of electronics inside, there is a roughly 3-1/2 x 10 inch motherboard, a small power board, two speakers, a floating touch controller board, and that's about it. Virtually all I/O is edged-mounted, with just some optional ports using cabling. For memory there is a single SO-DIMM RAM connector on top of the motherboard. The TP-4840 Series also just a single M.2 slot for a solid state storage module and one half-size M.2 E-key connector used for an optional Wi-Fi/Bluetooth module. Below is a look at the TP-4840-22's complement of interface ports. They are in the back, all facing down. The port area is hidden underneath a black cast-aluminum cover that's held in place by a couple of screws. That makes for a neat appearance and keeps cables closer together and facing down. On the image above, from left to right you can see: An optional third DB9 COM port An unused cutout for another optional COM port Two legacy DB9 COM ports Two USB 3.0 Type A ports Two USB 3.0 Type-C data-only ports (covered up by the on/off/sleep switch) Two USB 2.0 Type A ports The 4-pin 19 Volt power jack An RJ11 Ethernet LN port A proprietary FE DisplayPort jack Note that the FeDP connector is a proprietary solution to connect an external secondary display with a single cable to provide power, USB for touch, and even Audio. As far as ruggedness goes, these industrial all-in-one panel computers are not mobile devices, so there are no drop and other specs that we usually see in mobile rugged devices. The TP-4840-22 is designed to be used in a temperature range from 32 to 95 degrees Fahrenheit, and its front panel is IP65 rated. That means considerable environmental protection. The front (but not the rear) is completely protected against dust intrusion and it can also handle low-pressure water jets. Teguar lists no fewer than 30 approved cleaning agents that the display panel can be cleaned and disinfected with. The Teguar TP-5940-18 industrial computer The Teguar TP-5940-18 is one of three available industrial All-in-One computers in this line. TP-5940s come in display sizes as small as 15.6 inches — a screen the size of that of a full-size laptop — and as large as 22-inches, the size of your average desktop PC screen. Teguar sent us the 18.5-inch middle version for evaluation and testing. Just as is the case with the TP-4840 Series, all three versions have the exact same tech inside, and also virtually the same wired and wireless connectivity. Below is a look at the TP-5940-18 from the front and from all four sides: Sporting the same elegant flush glass front bezel, the TP-5940-18 looks just like a small modern Windows All-in-One or desktop monitor. It's a structurally very strong and fairly heavy (15 pounds) industrial computer, but it wouldn't look out of place in a healthcare or hospitality setting. Even with its heavy-duty, high-quality materials and construction, the side view shows a slender display case barely just over an inch thick, and then the 5/8 of an inch bulge for the system box on the backside. The whole assembly is just 1.9 inches deep. The TP-5940-18 can be mounted just about anywhere, using the standard 75mm VESA screw hole pattern on its back that'll work with a vast universe of mounting hardware. For materials and construction, the TP-5940 lines relies almost entirely on durable ADC12 die-cast aluminum with a glass front and just a slender steel rail to mount the interface ports on the back. ADC12 aluminum provides excellent resistance to cracking and it is very corrosion resistant. Manufacturers like it because the metal works well for all sorts of die-casting designs and it is easy to machine — a great choice both for customers and manufacturers. When taking panel computers apart — or opening them — to add or remove memory, storage or communication modules, care has to be taken not to damage whatever cables there may be between the back and front of a system. That's no problem with any of the TP-5940 models; there's just a single wire between the front and back, the one that operates the on/off/sleep switch in the back. Separating the back and the front requires nothing more than unscrewing eight small Philips screws. What's inside the TP-5940-18? It's nowhere near as packed as a modern laptop or consumer all-in-one. There is the motherboard that measures roughly 3-1/2 x 10 inches, a small power board, two speakers, a floating touch controller board, and that's about it. All I/O is edged-mounted, with just some optional ports using cabling. Both the TP-4840 and TP-5940 series have a single SO-DIMM RAM connector on top of the motherboard. Unlike the TP-4840 models, however, the TP-5940 Series has two M.2 connectors for storage and one half-size half-size M.2 E-key connector, whereas the TP-4840 Series has just one M.2 slot for storage and one half-size half-size M.2 E-key connector. Below is a look at the TP-5940-18's lineup of interface ports. They are in the back, all facing down. The port area is hidden underneath a black cast-aluminum cover that's held in place by a couple of screws. That makes for a neat appearance and keeps cables closer together and facing down. While back in the day, point-of-sale systems often relied on glacially slow modem dial up to verify cars and log transactions, TA-5940 models are well equipped with all sorts of I/O. On the image above, from left to right you can see: An unused cutout for another optional COM port An unused cutout for another optional RJ45 LAN port Two legacy DB9 COM ports Two USB 3.0 Type A ports Two USB 3.0 Type-C data-only ports Two USB 2.0 Type A ports (one hidden beneath the connection tab for the port cover) The 4-pin 19 Volt power jack An RJ11 Ethernet LN port A proprietary FE DisplayPort jack Note that the FeDP connector is a proprietary solution to connect an external secondary display with a single cable to provide power, USB for touch, and even Audio. As far as ruggedness goes, these industrial all-in-one panel computers are not mobile devices, so there are no drop and other specs that we usually see in mobile rugged devices. The TP-5940-18 is designed to be used in a temperature range from 32 to 95 degrees Fahrenheit, and its front panel is IP65 rated. That means considerable environmental protection. The front (but not the rear) is completely protected against dust intrusion and it can also handle low-pressure water jets. Teguar lists no fewer than 30 approved cleaning agents that the display panel can be cleaned and disinfected with. The Windows 11 argument Teguar pointed out that the TP-4840 is one of the very few metal chassis panels with a Celeron chip that is Windows 11 compatible. Well, the Celeron J6412 in TP-4840 panels is Windows 11 capable, and that brings with it a number of advantages that can make a difference. Among them are: Windows 11 has integrated Widgets for quick access to headline information from favored apps and websites In Windows 11, it's easier to create, and toggle between, virtual desktops with snap layouts Windows 11 has improved touch controls, including five new touch gestures, that can increase productivity and reduce errors. Windows 11 has enhanced security features, designed from the ground up, with Windows Hello and TPM 2.0 Multitasking is more Windows 11 due to snap groups and layouts where users can subdivide the screen into separate areas for different apps The Task Manager in Windows 11 shows more details and has more options. Users can filter processes and there are in-app dialogs The File Explorer has a new layout, new features and is much simpler to use The new Start Menu of Windows 11 also is more user-friendly, intuitive, and has an improved taskbar to better keep track of open windows and apps. Switching to a new version of an operating system is always a mixed blessing. There are new features and new functionality, but a new OS interface also requires getting used to and it may have higher resource requirements (for example, Windows 11 requires 64GB of storage and 4GB of RAM, whereas Windows 10 just needed 20GB storage and 2GB of RAM). However, Windows 10 is now almost eight years old, so there's more and more justification for moving on, and Teguar's choice of a Windows 11-enabled processor even on the lower end is a definite plus. About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance. Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

Company Teguar Teguar Teguar Teguar Teguar Teguar Teguar Model TP-4840-10 TP-5940-16 TP-4840-16 TP-5940-18 TP-4840-18 TP-5940-22 TP-4840-22 Processor Celeron J6412 Core i5-1145G7 Celeron J6412 Core i5-1145G7 Celeron J6412 Core i5-1145G7 Celeron J6412 RAM slot 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM 1x DDR4 SODIMM RAM 4GB or 8GB 2/4/8/16GB 4/8/16GB 2/4/8/16GB 2/4/8/16GB 2/4/8/16GB 4/8/16GB Storage M.2 SSD 2 x M.2 SSD M.2 SSD 2 x M.2 SSD M.2 SSD 2 x M.2 SSD M.2 SSD Expansion 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) 1 x M.2 (E-key) Screen size 10.1-inch 15.6-inch 15.6-inch 18.5-inch 18.5-inch 21.5-inch 21.5-inch Resolution 1920x1200 1366x768 1366x768 1366x768 1366x768 1920x1080 1920x1080 Opt. resolution NA NA NA opt. 1920x1080 NA NA NA PPI 224 100 100 85 85 102 102 Aspect ratio 16:10 16:9 16:9 16:9 16:9 16:9 16:9 Angle (H/V) 170/160 unkown unkown unkown unkown unkown unkown Luminance 200 220 220 250 250 250 250 P-Cap Standard Standard Standard Standard Standard Standard Standard Power DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts DC 19V/120 watts DC 19V/65 watts Weight (lb) 3.3 9.9 9.9 15.0 15.0 17.1 17.6 Size (mm) 263x170x38 mm 396x245x48 mm 396x245x48 mm 464x284x48 464x284x48 536x328x48 536x328x48 Material Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum Aluminum VESA VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 VESA 75 USB 2.0 3 2 2 2 2 2 2 USB 3.0 1 2 2 2 2 2 2 USB-C 1 2 2 2 2 2 2 LAN RJ45 1 1 1 1 1 1 1 Serial 3 x COM 2 x DB9 COM 2 x COM 2 x DB9 COM 2 x COM 2 x DB9 COM 2 x COM WiFi 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n opt. 802.11b/g/n 802.11b/g/n Bluetooth 4.0 opt. 4.0 4.0 opt. 4.0 4.0 opt. 4.0 4.0 Barcode optional optional optional optional optional optional NA RFID optional optional optional optional NA optional NA SmartCard optional optional optional optional optional optional optional Speaker 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts 2 x 2 watts WebCam opt. 2mp opt. 2mp 2mp 2mp 2mp 2mp opt. 2mp Op. temp 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F 32 to 95F Sealing IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel IP65 bezel

The table above shows the major specs of the four available TP-4840 and three available TP-5940 models in these two lines of industrial All-in-One computers that look almost identical and also share much of their functionality, with one major difference — the processor. And one other difference; while 16, 18, and 22-inch models are available in both lines, a much smaller 10-inch version is only available in the TP-4840 series.

But now let's look at what these systems have to offer in terms of specs and functionality. As far as screen size and resolution go, these industrial systems are of modest size and should easily fit almost anywhere. Compared to the now very common 27-inch consumer and commercial display sizes (let alone the ever larger flatscreen TVs, even a 22-inch industrial All-in-One is quite compact. 16 and 18-inch versions have 1366 x 768 pixel resolution, perfectly adequate for the intended applications for this type of system.

The 22-inch models have full HD 1920 x 1080 resolution, making for about the same pixel density as the smaller versions. The outlier is the small 10-inch model that has far higher 224 pixel density. Luminance of all models is between 200 and 250 nits, about the same as modern laptops, and best suited for indoors.

As has become the almost universal standard, all use the quick and effortless capacitive touch technology, and all but the small 10-inch version use the common 16:9 aspect ratio.

Despite the two lines using two very different processors, both are fanless designs with passive cooling. That means no potential unwanted fan noise and are movement, and also no dust clogging and reliability concerns inherent to mechanical fans. Fanless operation is made possible because of the excellent heat-dissipation properties of the aluminum die-cast housings of both lines.

Mass storage for all models comes in the form of a single M.2 2280 style solid state SATA storage module. Note, though, that the TP-5940 models have a second M.2 2280 slot whereas the TP-4480 models don't.

All models have external power supplies, with the same 19 Volt input voltage. Since these kinds of systems will be used in stationary deployments, there is no need for battery or wide voltage range input.

Despite the significant range in size, all (including the very small 10-inch version) systems have pretty much identical port arrangements: plenty of USB ports, including the very practical and ever more popular reversible Type-C plugs. All also come with legacy serial DB9 COM ports as well as RJ45 Ethernet LAN jacks.

Weight ranges from just 3.3 pounds for the 10-inch TP-4840-10, to 10, 15, and 17+ pounds for the larger systems, respectively. All have dual 2 watt speakers, VESA75 mounting screw hole patterns, and optional webcams, barcode readers, RFID, and SmartCard.

Now let's take a closer look at the 16-inch TA-5940-16 All-in-One sample unit Teguar sent RuggedPCReview.com for evaluation.

The Teguar TP-4840-22 industrial computer The Teguar TP-4840-22 is one of four available industrial All-in-One computers in this line. TP-4840s come in display sizes as small as ten inches — a screen no larger than an iPad or small Android tablet — and as large as the 22-inch version that Teguar sent us for evaluation and testing. The small one weighs just 3.3 pounds, barely more than a rugged tablet computer, while the big 22-inch model weighs in a hefty 17.7 pounds. Both, as well as the 16 and 18 inch versions in between, have the exact same tech inside, and also virtually the same wired and wireless connectivity. Below is a look at the TP-4840-22 from the front and from all four sides: With its elegant flush glass front bezel, the TP-4840-22 looks just like an Apple iMac or a modern Windows All-in-One. It may be considered an industrial computer, but it'll look at home in a healthcare or hospitality setting as much as on a shop floor. Despite its heavy-duty, high-quality materials and construction, the side views reveal a slender display case barely just over an inch thick, and then a 5/8 of an inch bulge for the system box on the backside. The whole thing is just 1.9 inches deep, which means it can be mounted, via the standard 75mm VESA screw hole pattern on its back, almost anywhere. In terms of construction, the TP-4840 lines consists almost entirely of durable ADC12 die-cast aluminum with a glass front and just a bit of steel to mount all of the interface ports on the back. ADC12 aluminum is known for its superb resistance to cracking and its corrosion resistance, and on the manufacturing side for its suitability for even complex die-casting projects and good machinability — a win-win for customers and manufacturers both. When disassembling panel computers, or opening them to add or remove memory, storage or communication modules, one often has to be careful not to damage cabling between the back and front of a system. That's no problem with any of the TP-4840 models -- all have just one single wire between the front and back, the one that goes to the on/off/sleep switch in the back. Separating the back and the front requires nothing more than unscrewing ten small Philips screws. In terms of electronics inside, there is a roughly 3-1/2 x 10 inch motherboard, a small power board, two speakers, a floating touch controller board, and that's about it. Virtually all I/O is edged-mounted, with just some optional ports using cabling. For memory there is a single SO-DIMM RAM connector on top of the motherboard. The TP-4840 Series also just a single M.2 slot for a solid state storage module and one half-size M.2 E-key connector used for an optional Wi-Fi/Bluetooth module. Below is a look at the TP-4840-22's complement of interface ports. They are in the back, all facing down. The port area is hidden underneath a black cast-aluminum cover that's held in place by a couple of screws. That makes for a neat appearance and keeps cables closer together and facing down. On the image above, from left to right you can see: An optional third DB9 COM port An unused cutout for another optional COM port Two legacy DB9 COM ports Two USB 3.0 Type A ports Two USB 3.0 Type-C data-only ports (covered up by the on/off/sleep switch) Two USB 2.0 Type A ports The 4-pin 19 Volt power jack An RJ11 Ethernet LN port A proprietary FE DisplayPort jack Note that the FeDP connector is a proprietary solution to connect an external secondary display with a single cable to provide power, USB for touch, and even Audio. As far as ruggedness goes, these industrial all-in-one panel computers are not mobile devices, so there are no drop and other specs that we usually see in mobile rugged devices. The TP-4840-22 is designed to be used in a temperature range from 32 to 95 degrees Fahrenheit, and its front panel is IP65 rated. That means considerable environmental protection. The front (but not the rear) is completely protected against dust intrusion and it can also handle low-pressure water jets. Teguar lists no fewer than 30 approved cleaning agents that the display panel can be cleaned and disinfected with.

The Teguar TP-4840-22 is one of four available industrial All-in-One computers in this line. TP-4840s come in display sizes as small as ten inches — a screen no larger than an iPad or small Android tablet — and as large as the 22-inch version that Teguar sent us for evaluation and testing. The small one weighs just 3.3 pounds, barely more than a rugged tablet computer, while the big 22-inch model weighs in a hefty 17.7 pounds. Both, as well as the 16 and 18 inch versions in between, have the exact same tech inside, and also virtually the same wired and wireless connectivity.

Below is a look at the TP-4840-22 from the front and from all four sides:

With its elegant flush glass front bezel, the TP-4840-22 looks just like an Apple iMac or a modern Windows All-in-One. It may be considered an industrial computer, but it'll look at home in a healthcare or hospitality setting as much as on a shop floor. Despite its heavy-duty, high-quality materials and construction, the side views reveal a slender display case barely just over an inch thick, and then a 5/8 of an inch bulge for the system box on the backside. The whole thing is just 1.9 inches deep, which means it can be mounted, via the standard 75mm VESA screw hole pattern on its back, almost anywhere.

In terms of construction, the TP-4840 lines consists almost entirely of durable ADC12 die-cast aluminum with a glass front and just a bit of steel to mount all of the interface ports on the back. ADC12 aluminum is known for its superb resistance to cracking and its corrosion resistance, and on the manufacturing side for its suitability for even complex die-casting projects and good machinability — a win-win for customers and manufacturers both.

When disassembling panel computers, or opening them to add or remove memory, storage or communication modules, one often has to be careful not to damage cabling between the back and front of a system. That's no problem with any of the TP-4840 models -- all have just one single wire between the front and back, the one that goes to the on/off/sleep switch in the back. Separating the back and the front requires nothing more than unscrewing ten small Philips screws.

In terms of electronics inside, there is a roughly 3-1/2 x 10 inch motherboard, a small power board, two speakers, a floating touch controller board, and that's about it. Virtually all I/O is edged-mounted, with just some optional ports using cabling. For memory there is a single SO-DIMM RAM connector on top of the motherboard. The TP-4840 Series also just a single M.2 slot for a solid state storage module and one half-size M.2 E-key connector used for an optional Wi-Fi/Bluetooth module.

Below is a look at the TP-4840-22's complement of interface ports. They are in the back, all facing down. The port area is hidden underneath a black cast-aluminum cover that's held in place by a couple of screws. That makes for a neat appearance and keeps cables closer together and facing down.

On the image above, from left to right you can see: An optional third DB9 COM port An unused cutout for another optional COM port Two legacy DB9 COM ports Two USB 3.0 Type A ports Two USB 3.0 Type-C data-only ports (covered up by the on/off/sleep switch) Two USB 2.0 Type A ports The 4-pin 19 Volt power jack An RJ11 Ethernet LN port A proprietary FE DisplayPort jack

Note that the FeDP connector is a proprietary solution to connect an external secondary display with a single cable to provide power, USB for touch, and even Audio.

As far as ruggedness goes, these industrial all-in-one panel computers are not mobile devices, so there are no drop and other specs that we usually see in mobile rugged devices. The TP-4840-22 is designed to be used in a temperature range from 32 to 95 degrees Fahrenheit, and its front panel is IP65 rated. That means considerable environmental protection. The front (but not the rear) is completely protected against dust intrusion and it can also handle low-pressure water jets. Teguar lists no fewer than 30 approved cleaning agents that the display panel can be cleaned and disinfected with.

The Teguar TP-5940-18 industrial computer The Teguar TP-5940-18 is one of three available industrial All-in-One computers in this line. TP-5940s come in display sizes as small as 15.6 inches — a screen the size of that of a full-size laptop — and as large as 22-inches, the size of your average desktop PC screen. Teguar sent us the 18.5-inch middle version for evaluation and testing. Just as is the case with the TP-4840 Series, all three versions have the exact same tech inside, and also virtually the same wired and wireless connectivity. Below is a look at the TP-5940-18 from the front and from all four sides: Sporting the same elegant flush glass front bezel, the TP-5940-18 looks just like a small modern Windows All-in-One or desktop monitor. It's a structurally very strong and fairly heavy (15 pounds) industrial computer, but it wouldn't look out of place in a healthcare or hospitality setting. Even with its heavy-duty, high-quality materials and construction, the side view shows a slender display case barely just over an inch thick, and then the 5/8 of an inch bulge for the system box on the backside. The whole assembly is just 1.9 inches deep. The TP-5940-18 can be mounted just about anywhere, using the standard 75mm VESA screw hole pattern on its back that'll work with a vast universe of mounting hardware. For materials and construction, the TP-5940 lines relies almost entirely on durable ADC12 die-cast aluminum with a glass front and just a slender steel rail to mount the interface ports on the back. ADC12 aluminum provides excellent resistance to cracking and it is very corrosion resistant. Manufacturers like it because the metal works well for all sorts of die-casting designs and it is easy to machine — a great choice both for customers and manufacturers. When taking panel computers apart — or opening them — to add or remove memory, storage or communication modules, care has to be taken not to damage whatever cables there may be between the back and front of a system. That's no problem with any of the TP-5940 models; there's just a single wire between the front and back, the one that operates the on/off/sleep switch in the back. Separating the back and the front requires nothing more than unscrewing eight small Philips screws. What's inside the TP-5940-18? It's nowhere near as packed as a modern laptop or consumer all-in-one. There is the motherboard that measures roughly 3-1/2 x 10 inches, a small power board, two speakers, a floating touch controller board, and that's about it. All I/O is edged-mounted, with just some optional ports using cabling. Both the TP-4840 and TP-5940 series have a single SO-DIMM RAM connector on top of the motherboard. Unlike the TP-4840 models, however, the TP-5940 Series has two M.2 connectors for storage and one half-size half-size M.2 E-key connector, whereas the TP-4840 Series has just one M.2 slot for storage and one half-size half-size M.2 E-key connector. Below is a look at the TP-5940-18's lineup of interface ports. They are in the back, all facing down. The port area is hidden underneath a black cast-aluminum cover that's held in place by a couple of screws. That makes for a neat appearance and keeps cables closer together and facing down. While back in the day, point-of-sale systems often relied on glacially slow modem dial up to verify cars and log transactions, TA-5940 models are well equipped with all sorts of I/O. On the image above, from left to right you can see: An unused cutout for another optional COM port An unused cutout for another optional RJ45 LAN port Two legacy DB9 COM ports Two USB 3.0 Type A ports Two USB 3.0 Type-C data-only ports Two USB 2.0 Type A ports (one hidden beneath the connection tab for the port cover) The 4-pin 19 Volt power jack An RJ11 Ethernet LN port A proprietary FE DisplayPort jack Note that the FeDP connector is a proprietary solution to connect an external secondary display with a single cable to provide power, USB for touch, and even Audio. As far as ruggedness goes, these industrial all-in-one panel computers are not mobile devices, so there are no drop and other specs that we usually see in mobile rugged devices. The TP-5940-18 is designed to be used in a temperature range from 32 to 95 degrees Fahrenheit, and its front panel is IP65 rated. That means considerable environmental protection. The front (but not the rear) is completely protected against dust intrusion and it can also handle low-pressure water jets. Teguar lists no fewer than 30 approved cleaning agents that the display panel can be cleaned and disinfected with.

The Teguar TP-5940-18 is one of three available industrial All-in-One computers in this line. TP-5940s come in display sizes as small as 15.6 inches — a screen the size of that of a full-size laptop — and as large as 22-inches, the size of your average desktop PC screen. Teguar sent us the 18.5-inch middle version for evaluation and testing. Just as is the case with the TP-4840 Series, all three versions have the exact same tech inside, and also virtually the same wired and wireless connectivity.

Below is a look at the TP-5940-18 from the front and from all four sides:

Sporting the same elegant flush glass front bezel, the TP-5940-18 looks just like a small modern Windows All-in-One or desktop monitor. It's a structurally very strong and fairly heavy (15 pounds) industrial computer, but it wouldn't look out of place in a healthcare or hospitality setting. Even with its heavy-duty, high-quality materials and construction, the side view shows a slender display case barely just over an inch thick, and then the 5/8 of an inch bulge for the system box on the backside. The whole assembly is just 1.9 inches deep. The TP-5940-18 can be mounted just about anywhere, using the standard 75mm VESA screw hole pattern on its back that'll work with a vast universe of mounting hardware.

For materials and construction, the TP-5940 lines relies almost entirely on durable ADC12 die-cast aluminum with a glass front and just a slender steel rail to mount the interface ports on the back. ADC12 aluminum provides excellent resistance to cracking and it is very corrosion resistant. Manufacturers like it because the metal works well for all sorts of die-casting designs and it is easy to machine — a great choice both for customers and manufacturers.

When taking panel computers apart — or opening them — to add or remove memory, storage or communication modules, care has to be taken not to damage whatever cables there may be between the back and front of a system. That's no problem with any of the TP-5940 models; there's just a single wire between the front and back, the one that operates the on/off/sleep switch in the back. Separating the back and the front requires nothing more than unscrewing eight small Philips screws.

What's inside the TP-5940-18? It's nowhere near as packed as a modern laptop or consumer all-in-one. There is the motherboard that measures roughly 3-1/2 x 10 inches, a small power board, two speakers, a floating touch controller board, and that's about it.

All I/O is edged-mounted, with just some optional ports using cabling. Both the TP-4840 and TP-5940 series have a single SO-DIMM RAM connector on top of the motherboard. Unlike the TP-4840 models, however, the TP-5940 Series has two M.2 connectors for storage and one half-size half-size M.2 E-key connector, whereas the TP-4840 Series has just one M.2 slot for storage and one half-size half-size M.2 E-key connector.

Below is a look at the TP-5940-18's lineup of interface ports. They are in the back, all facing down. The port area is hidden underneath a black cast-aluminum cover that's held in place by a couple of screws. That makes for a neat appearance and keeps cables closer together and facing down.

While back in the day, point-of-sale systems often relied on glacially slow modem dial up to verify cars and log transactions, TA-5940 models are well equipped with all sorts of I/O.

On the image above, from left to right you can see: An unused cutout for another optional COM port An unused cutout for another optional RJ45 LAN port Two legacy DB9 COM ports Two USB 3.0 Type A ports Two USB 3.0 Type-C data-only ports Two USB 2.0 Type A ports (one hidden beneath the connection tab for the port cover) The 4-pin 19 Volt power jack An RJ11 Ethernet LN port A proprietary FE DisplayPort jack

Note that the FeDP connector is a proprietary solution to connect an external secondary display with a single cable to provide power, USB for touch, and even Audio.

As far as ruggedness goes, these industrial all-in-one panel computers are not mobile devices, so there are no drop and other specs that we usually see in mobile rugged devices. The TP-5940-18 is designed to be used in a temperature range from 32 to 95 degrees Fahrenheit, and its front panel is IP65 rated. That means considerable environmental protection. The front (but not the rear) is completely protected against dust intrusion and it can also handle low-pressure water jets. Teguar lists no fewer than 30 approved cleaning agents that the display panel can be cleaned and disinfected with.

The Windows 11 argument Teguar pointed out that the TP-4840 is one of the very few metal chassis panels with a Celeron chip that is Windows 11 compatible. Well, the Celeron J6412 in TP-4840 panels is Windows 11 capable, and that brings with it a number of advantages that can make a difference. Among them are: Windows 11 has integrated Widgets for quick access to headline information from favored apps and websites In Windows 11, it's easier to create, and toggle between, virtual desktops with snap layouts Windows 11 has improved touch controls, including five new touch gestures, that can increase productivity and reduce errors. Windows 11 has enhanced security features, designed from the ground up, with Windows Hello and TPM 2.0 Multitasking is more Windows 11 due to snap groups and layouts where users can subdivide the screen into separate areas for different apps The Task Manager in Windows 11 shows more details and has more options. Users can filter processes and there are in-app dialogs The File Explorer has a new layout, new features and is much simpler to use The new Start Menu of Windows 11 also is more user-friendly, intuitive, and has an improved taskbar to better keep track of open windows and apps. Switching to a new version of an operating system is always a mixed blessing. There are new features and new functionality, but a new OS interface also requires getting used to and it may have higher resource requirements (for example, Windows 11 requires 64GB of storage and 4GB of RAM, whereas Windows 10 just needed 20GB storage and 2GB of RAM). However, Windows 10 is now almost eight years old, so there's more and more justification for moving on, and Teguar's choice of a Windows 11-enabled processor even on the lower end is a definite plus. About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance. Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

Teguar pointed out that the TP-4840 is one of the very few metal chassis panels with a Celeron chip that is Windows 11 compatible. Well, the Celeron J6412 in TP-4840 panels is Windows 11 capable, and that brings with it a number of advantages that can make a difference. Among them are: Windows 11 has integrated Widgets for quick access to headline information from favored apps and websites In Windows 11, it's easier to create, and toggle between, virtual desktops with snap layouts Windows 11 has improved touch controls, including five new touch gestures, that can increase productivity and reduce errors. Windows 11 has enhanced security features, designed from the ground up, with Windows Hello and TPM 2.0 Multitasking is more Windows 11 due to snap groups and layouts where users can subdivide the screen into separate areas for different apps The Task Manager in Windows 11 shows more details and has more options. Users can filter processes and there are in-app dialogs The File Explorer has a new layout, new features and is much simpler to use The new Start Menu of Windows 11 also is more user-friendly, intuitive, and has an improved taskbar to better keep track of open windows and apps. Switching to a new version of an operating system is always a mixed blessing. There are new features and new functionality, but a new OS interface also requires getting used to and it may have higher resource requirements (for example, Windows 11 requires 64GB of storage and 4GB of RAM, whereas Windows 10 just needed 20GB storage and 2GB of RAM). However, Windows 10 is now almost eight years old, so there's more and more justification for moving on, and Teguar's choice of a Windows 11-enabled processor even on the lower end is a definite plus. About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance. Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

In Windows 11, it's easier to create, and toggle between, virtual desktops with snap layouts Windows 11 has improved touch controls, including five new touch gestures, that can increase productivity and reduce errors. Windows 11 has enhanced security features, designed from the ground up, with Windows Hello and TPM 2.0 Multitasking is more Windows 11 due to snap groups and layouts where users can subdivide the screen into separate areas for different apps The Task Manager in Windows 11 shows more details and has more options. Users can filter processes and there are in-app dialogs The File Explorer has a new layout, new features and is much simpler to use The new Start Menu of Windows 11 also is more user-friendly, intuitive, and has an improved taskbar to better keep track of open windows and apps. Switching to a new version of an operating system is always a mixed blessing. There are new features and new functionality, but a new OS interface also requires getting used to and it may have higher resource requirements (for example, Windows 11 requires 64GB of storage and 4GB of RAM, whereas Windows 10 just needed 20GB storage and 2GB of RAM). However, Windows 10 is now almost eight years old, so there's more and more justification for moving on, and Teguar's choice of a Windows 11-enabled processor even on the lower end is a definite plus. About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance. Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

Windows 11 has improved touch controls, including five new touch gestures, that can increase productivity and reduce errors. Windows 11 has enhanced security features, designed from the ground up, with Windows Hello and TPM 2.0 Multitasking is more Windows 11 due to snap groups and layouts where users can subdivide the screen into separate areas for different apps The Task Manager in Windows 11 shows more details and has more options. Users can filter processes and there are in-app dialogs The File Explorer has a new layout, new features and is much simpler to use The new Start Menu of Windows 11 also is more user-friendly, intuitive, and has an improved taskbar to better keep track of open windows and apps. Switching to a new version of an operating system is always a mixed blessing. There are new features and new functionality, but a new OS interface also requires getting used to and it may have higher resource requirements (for example, Windows 11 requires 64GB of storage and 4GB of RAM, whereas Windows 10 just needed 20GB storage and 2GB of RAM). However, Windows 10 is now almost eight years old, so there's more and more justification for moving on, and Teguar's choice of a Windows 11-enabled processor even on the lower end is a definite plus. About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance. Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

Windows 11 has enhanced security features, designed from the ground up, with Windows Hello and TPM 2.0 Multitasking is more Windows 11 due to snap groups and layouts where users can subdivide the screen into separate areas for different apps The Task Manager in Windows 11 shows more details and has more options. Users can filter processes and there are in-app dialogs The File Explorer has a new layout, new features and is much simpler to use The new Start Menu of Windows 11 also is more user-friendly, intuitive, and has an improved taskbar to better keep track of open windows and apps. Switching to a new version of an operating system is always a mixed blessing. There are new features and new functionality, but a new OS interface also requires getting used to and it may have higher resource requirements (for example, Windows 11 requires 64GB of storage and 4GB of RAM, whereas Windows 10 just needed 20GB storage and 2GB of RAM). However, Windows 10 is now almost eight years old, so there's more and more justification for moving on, and Teguar's choice of a Windows 11-enabled processor even on the lower end is a definite plus. About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance. Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

Multitasking is more Windows 11 due to snap groups and layouts where users can subdivide the screen into separate areas for different apps The Task Manager in Windows 11 shows more details and has more options. Users can filter processes and there are in-app dialogs The File Explorer has a new layout, new features and is much simpler to use The new Start Menu of Windows 11 also is more user-friendly, intuitive, and has an improved taskbar to better keep track of open windows and apps. Switching to a new version of an operating system is always a mixed blessing. There are new features and new functionality, but a new OS interface also requires getting used to and it may have higher resource requirements (for example, Windows 11 requires 64GB of storage and 4GB of RAM, whereas Windows 10 just needed 20GB storage and 2GB of RAM). However, Windows 10 is now almost eight years old, so there's more and more justification for moving on, and Teguar's choice of a Windows 11-enabled processor even on the lower end is a definite plus. About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance. Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

The Task Manager in Windows 11 shows more details and has more options. Users can filter processes and there are in-app dialogs The File Explorer has a new layout, new features and is much simpler to use The new Start Menu of Windows 11 also is more user-friendly, intuitive, and has an improved taskbar to better keep track of open windows and apps. Switching to a new version of an operating system is always a mixed blessing. There are new features and new functionality, but a new OS interface also requires getting used to and it may have higher resource requirements (for example, Windows 11 requires 64GB of storage and 4GB of RAM, whereas Windows 10 just needed 20GB storage and 2GB of RAM). However, Windows 10 is now almost eight years old, so there's more and more justification for moving on, and Teguar's choice of a Windows 11-enabled processor even on the lower end is a definite plus. About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance. Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

The File Explorer has a new layout, new features and is much simpler to use The new Start Menu of Windows 11 also is more user-friendly, intuitive, and has an improved taskbar to better keep track of open windows and apps. Switching to a new version of an operating system is always a mixed blessing. There are new features and new functionality, but a new OS interface also requires getting used to and it may have higher resource requirements (for example, Windows 11 requires 64GB of storage and 4GB of RAM, whereas Windows 10 just needed 20GB storage and 2GB of RAM). However, Windows 10 is now almost eight years old, so there's more and more justification for moving on, and Teguar's choice of a Windows 11-enabled processor even on the lower end is a definite plus. About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance. Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

The new Start Menu of Windows 11 also is more user-friendly, intuitive, and has an improved taskbar to better keep track of open windows and apps. Switching to a new version of an operating system is always a mixed blessing. There are new features and new functionality, but a new OS interface also requires getting used to and it may have higher resource requirements (for example, Windows 11 requires 64GB of storage and 4GB of RAM, whereas Windows 10 just needed 20GB storage and 2GB of RAM). However, Windows 10 is now almost eight years old, so there's more and more justification for moving on, and Teguar's choice of a Windows 11-enabled processor even on the lower end is a definite plus. About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance. Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

About processor selection A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance. The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle. Vertical market computers — and especially panel PCs, kiosks, and the like — are very different. Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need. However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure. And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do. Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance.

A few more thoughts about why Teguar would offer two very different processors in essentially the same All-in-One panel computer platform. That's not generally ever the case in consumer and enterprise PCs where customers may have a choice of CPU, but usually in the relatively narrow range -- economy-priced PCs come with lower-end processors, premium PCs with higher end componente, features and processing performance.

The answer lies in the inherently different nature of industrial or medical All-in-Ones and panel PCs compared to consumer PCs. Consumer PCs are general-purpose computers that may be used for myriads of different tasks, fron very basic to very complex. That's why one very rarely sees a consumer PC with an Intel Atom processor inside. Atom chips are reliable industry workhorses, but they'd frustrate consumers because they'd bog down whenever they are loaded down with tasks they were never designed to handle.

Vertical market computers — and especially panel PCs, kiosks, and the like — are very different.

Most are for narrowly defined tasks. That may be an elaborate menu system, information lookup, monitoring sensors or machinery, a human-machine interface, or similar tasks that are important but don't use much computing power. And since most such systems are used for just such tasks and nothing else, it makes no sense to spend money for more processing performance than the systems will ever need.

However, some may be used for much more demanding work that would slow down a low-end processor to a crawl. Examples are complex graphics tasks such as 3D modeling, AR applications, high-res imaging, or heavy-duty local processing. For that you'd need at least a higher-end laptop level processor. It can't too high, because then you'd run into thermal issues and the system will need a mechanical fan, and with that comes noise, potential unwanted or harmful air movement, potential clogging, and a potential point of failure.

And that's why Teguar is offering two very different processors for these panel computers. One low-end, low cost, without need for a fan, but still powerful enough to handle the vast gamut of typical panel and kiosk applications. And one much higher up in Intel's CPU lineup, a chip that's generally used in high-end mobile systems such as rugged laptops and tablets. One that generates considerably more heat, but still not enough to require a fan in enclosures that provide enough passive cooling, like heavy panel enclosures do.

Having that choice is important. On the surface it may be a choice between "cheap and slow" and "fast and expensive", but it's really much more than that. Both speed and cost are entirely relative. What's "cheap" can end up costing much more in terms of aggravation and lost productivity when it turns out that an application needed more performance than expected. And the extra cost of a "fast" option may turn out to have been entirely unnecessary when an application simply never needs that expensive performance.

Intel "Elkhart Lake" processor Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated). That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412. It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety. "Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices. What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support. Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors. Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:  Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

Unlike general purpose PCs and laptops, which generally benefit from as much performance as possible to cover all bases, dedicated commercial and industrial systems are better off with "targeted" performance, i.e. as much as is required for the job. Since performance requirements of many industrial and vertical market systems are well defined and generally far lower than for tasks like complex rendering or modelling or other compute-intensive workloads, there's no need to pay for performance that'll never be needed (nor the extra heat generated).

That said, any given system may be complex and resource-intensive, and that's why vendors of industrial and vertical market systems often provide their products with scaleable performance or with different classes of processors. Teguar does with several of its product lines. An example is the TA-5940 line that we recently reviewed. It came with lower and higher end processor options. On the high end it Intel Core i3 and i5 processors, the kind that can do heavy lifting. On the lower end, there was the Intel Celeron J6412.

It gets a little confusing there because Intel has been using the "Celeron" brand for budget-friendly lower end chips for a good many years, but has lately begun using them both for low-end Core processors as well as for higher-end Intel Atom-based chips. The Celeron J6412 that Teguar used in the TA-5940 — and is also using in the TP-5940 — is of the latter variety.

"Elkhart Lake" is Intel's code name for a line of processors that, while based on an Intel Atom architecture that's simple compared to the high-end Intel Core architectures, were enhanced to meet the specific needs of IoT — Internet of Things — "edge" devices.

What does "edge" mean in this context? "Edge computing" refers to using technology at the edge of the ever-growing range of networks. That includes systems on the road, in the field, and in everyday situations, All-in-One panel computer systems like the TA-5940 and TP-5940 were designed for. The growing importance of all that processing performed at the outermost levels of network requires more connectivity, more bandwidth, and higher levels of security enabled right through new generations of processors, and that was what the Elkhart processor platform was designed to support.

Making full use of all of the new features that Intel baked into "Elkhart Lake" CPUs depends on software, systems and network architects, and it is largely invisible to users. Those interested may wish to peruse Driving Performance, Integration, and Versatility with Intel's First Enhanced for IoT Platform. What users will see is significantly enhanced processing and graphics performance compared to earlier systems running economy processors.

Intel "Tiger Lake" processor "Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years. Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward. But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers. Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows. But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan. There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications. Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios. To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:

"Tiger Lake" is the code name for Intel's 11th generation of Core processors. "mobile" Tiger Lake chips are found in most high-end rugged laptops and rugged tablets. We considered "Tiger Lake" a milestone in mobile processor technology — a "generation" that's particularly good, particularly solid, and unlikely to be rendered obsolete several years.

Intel's 6th generation "Skylake" was an earlier such example. Skylake was both the last generation of Core processors that still supported earlier versions of Microsoft Windows (including the beloved by many Windows 7), as well as having a microarchitecture so well conceived that it remained in use until the 11th generation. And the "Coffee Lake" 8th generation was one, too, being the first that brought quad-core processor to mobile computers -- a big step forward.

But it was the "Tiger Lake" 11th generation that (so far) trumped them all with the first new microarchitecture since Skylake, the long awaited switch to 10nm process technology, scalable thermal design power, Intel Iris Xe integrated graphics, Thunderbolt 4 support, and more. There was something else that made Tiger Lake special — for the first time ever, Intel allowed manufacturers to "tune" processors to optimally match their hardware as well as the requirements of their target customers.

Whereas prior to the 11th generation, mobile Core processors were delivered with a set default TDP — Thermal Design Power — and could only be tweaked via the Power Plans in the OS, "Tiger Lake" allowed OEMs to create power plans with lower or higher TDP with Intel's Dynamic Tuning Technology. No longer was the thermal envelope of a processor a fixed given. It was now possible to match the processor's behavior to device design and customers' typical work flows.

But Teguar's All-in-One computers aren't mobile systems. What makes "Tiger Lake" a good match for them? There are several reasons. First, Tiger Lake brings the same high, general-purpose performance to industrial All-in-Ones that is available in premier rugged tablets and laptops without needing a fan. Because big All-in-Ones have plenty enough mass to passively cool those chips without needing a fan.

There's nothing inherently wrong with cooling fans. But they are noisy, the create potentially unwanted airflow, they draw in dust that can lead to clogging, and, like any moving mechanical part, fans are potential points of failure, especially in 24/7/365 applications.

Second, Dynamic Tuning Technology allows manufacturers to create running modes that are precisely tuned to deployment scenarios. In mobile systems, that generally means a mode for plugged-in and one for running on battery. In industrial All-in-Ones there may be modes for different kinds of running scenarios.

To provide an idea of the relative performance of the TA-5940-16, we ran the system through the full roster of our standard benchmark suites. For comparison we added the results of the smaller 12-inch version of Teguar's TA-5940 line of fanless AIOs, and also those of three other Teguar products running on Intel Core, Pentium and Celeron CPUs. Here are the results:

 Teguar TP-4840 and TP-5940 Series vs other Teguar lines Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508 Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications. Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

Performance Teguar Teguar Teguar Teguar Teguar Model TP-4820-22 TP-5940-18 TP-3345-16 TB-3445 TRT-5280-12 Type AIO AIO Panel IPC Tablet Year tested 2023 2023 2021 2021 2021 Processor Intel Celeron Intel Core Intel Pentium Intel Celeron Intel Core Processor Model J6412 i5-1145G7 N4200 N3350 i7-8550 CPU base/turbo Speed 2.00/2.60 GHz 2.60 GHz 1.10/2.50 GHz 1.10/2.40 GHz 1.80/4.00 GHz Cores/Threads 4/4 4/8 4/4 2/2 4/8 PassMark 6.1 3,087 6,152 1,336 1,211 3,042 PassMark 9 1,869 4,233 1,339 879 3,688 PC Mark 10 2,192 4,452 1,697 1,206 3,856 - PC Mark Essentials 5,415 8,779 4,214 3,478 7,991 - PC Mark Productivity 3,105 6,161 2,331 1,892 6,120 - PC Mark Digital Content 1,701 4,428 1,353 725 3,181 PC Mark Drive 1,181 1,363 731 NA NA Geekbench 5 Single Core 590 1,250 318 323 1,080 Geekbench 5 Multi Core 1,819 3,433 1,155 609 3,429 Geekbench 5 Open CL 2,229 8,764 2,529 720 5,742 CrystalMark 220,079 444,711 154,432 107,511 292,508

Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up. What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured. Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot. Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips. What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications.

Sometimes numbers say more than a thousand words, and the story told by our extensive benchmark testing is an example for that. One can argue about whether the extra cost of a high end processor is justifiable or even a great deal, or why saving money by going with lower-end processor technology makes perfect sense. But that's all relative unless one has number to back it all up.

What the numbers tell here is the raw performance difference between the default processors of two otherwise almost identical lines of industrial All-in-One computers, the Teguar TP-4840 line running on Intel's "Elkhart Lake" Celeron J6412 and the Teguar TP-5940 line that uses the Intel "Tiger Lake" Core i5-1145G7.In terms of what Intel charges for those two chips in quantity, though both chips are quad-core designs, the Tiger Lake processor costs almost five times as much as the Elkhart Lake CPU. How that translates into the cost of the systems in both lines depends on which model is chosen and how it is equipped and configured.

Now look at the numbers in the two green columns of the table above. In the overall results of all of the major benchmarks we used, the Intel Core-based system is twice as fast as the Intel Celeron-based system. In an industry where 10-15% performance improvements are celebrated as great achievements, twice as fast is major. So if a customer needs beefy performance from an industrial system of the kind that these two Teguar lines represent, the choice is clear -- A TP-5940 model will outperform a TP-4840 model, by a lot.

Does that disqualify the TP-4840 line with its lower-end Celeron chip? If maximum performance is needed, probably. But the majority of industrial All-in-One deployments do not require maximum performance. For the typical panel computer applications — information lookups, human-machine interfaces, kiosks, signage, etc — the Elkhart Celeron chip offers plenty enough performance. Just look at how far Intel's "Atom" architecture-based chips have come in the last few years by comparing the TP-4840 benchmark numbers with those of systems with older Celeron and Pentium chips.

What it boils down to is that Teguar offers a very reasonable choice: Two lines of industrial All-in-One computers that look essentially the same, but each is designed, inside, for a different class of applications.

Teguar TP-4840 and TP-5940 Series All-in-One — Summary With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor. While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer. Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look. What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. — Conrad H. Blickenstorfer, June 2023 TP-4840-22 and TP-5940-18 test unit specifications Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com

With their fanless TP-4840 (currently available with 10, 16, 18 and 22 inch screens) and TP-5940 (currently available with 16, 18 and 22 inch screens) Series of All-in-One computers, Teguar offers two lines of multifunctional industrial touch panel PCs that are near identical in most respects, but fundamentally differ in the choice of processor.

While the TP-4840 line is powered by the economical quad-core "Elkhart Lake" Intel Celeron J6412 processor specifically designed by Intel for "edge computing" applications, the TP-5940 line is based on the high-performance Intel Core i5-1145G7 chip. Broadly speaking, the former is optimized for routine, dedicated applications with predictable and unchanging performance requirements, whereas the latter offers substantially higher performance in line with what one would expect from a high-performance laptop computer.

Equipped with very responsive projected capacitive touch, both Series offer a wealth of onboard legacy and state-of-the-art connectivity. In addition, Teguar provides a variety of productivity options such as scanning, RFID, SmartCard, and camera. Dye-cast aluminum design makes for very solid, durable construction, and the all glass front provides a clean, elegant, contemporary look.

What separates the two lines is processing performance. The Intel Celeron-based TP-4840 models can easily handle the vast majority of typical panel applications, while the Intel Core-based TP-5940 models provide twice the performance for demanding applications. —

Rugged PC Review.com - Rugged Panel PCs: Teguar TP-4840 and TP-5940

Touch Screen Industrial Pc Model Teguar TP-4840-22 Teguar TP-5940-18 Added/changed Full review 06/2023 Full review 06/2023 Type Industrial All-In-One Touch PC Industrial All-In-One Touch PC Processor Quad-core Intel Celeron J6412 Quad-core Intel Core i5-1145G7 Processor speed 2.00 GHz (Max 2.60 GHz Burst Speed) 4.00 GHz (Max Turbo Speed) TDP 10 watts 12/28 watts Thermal Fanless passive cooling Fanless passive cooling OS Windows 10/11 Windows 10/11 Graphics Intel UHD Graphics for 10th Gen Intel Processors Intel Iris Xe Graphics Memory 4GB/8GB/16GB in one socket 4GB/8GB/16GB in one socket Display type LED-backlit TFT LCD with 250 nits luminance LED-backlit TFT LCD with 250 nits luminance Display size/res 21.5" 1920 x 1080 pixel (141 ppi) 18.5" 1366 x 768 pixel (141 ppi) Digitizer/Pens Projected capacitive touch Projected capacitive touch Storage M.2 2280 SSD module M.2 2280 SSD module Expansion slots 1 x mini PCIe 1 x M.2 2280, 1 x mini PCIe Housing Dye-cast aluminum; VESA 75 mountable. Dye-cast aluminum; VESA 75 mountable. Temperature 32° to 95°F (0° to 35°C) 32° to 95°F (0° to 35°C) Humidity 20 to 85% non-condensing 20 to 85% non-condensing Spill Resistance Class IP65 (front panel) IP65 (front panel) Size 536 x 328 x 48 mm 464 x 284 x 48 mm Weight 15.0 pounds 16.6 pounds Power 19Volt DC 19Volt DC Optional 1D/2D Barcode Scanner, RFID, VidCam, SmartCard 1D/2D Barcode Scanner, RFIS, VidCam<, SmartCard/td> Communication Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Intel Dual-Band 802.11bgn WiFi + Bluetooth BT4.0 Interface 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 2 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker 2 x USB 2.0 Type-A, 2 x USB 3.0 Type-A, 2 x USB 3.0 Type-C, 2 x COM, 1 x RJ45 gigabit LAN, 1 x Mini DisplayPort, 2 x 2 Watt speaker Price Inquire Inquire Web page Teguar TP-4840-22 Teguar TA-5940-18 Teguar — 1-800-870-7715 www.teguar.com