AAEON OMNI 2155, the panel PC with a difference.

THE OMNI 2155 from AAEON

There are many panel PC devices out there, most offer a range of ports such as Ethernet, COM ports, HDMI. Most are not expandable in any way and even when they are it's limited.

NOT SO THE OMNI 2155

You get the ports you expect such as two Ethernet, a com port, VGA and 4 USB ports. What if you need 4 COM ports or wireless access to the GSM mobile network?

The OMNI range have a unique way to expand the IO available. Each unit has an expansion bus which allows additional to be slotted on.

Need some extra Ethernet ports? No problem.

Need extra serial ports or maybe extra USB and an another ethernet?

There are various expansion options available now, AAEON publish the pins outs so it's even possible to build your own. Add the fact that the whole main computer board can be swapped out if required, you have a flexible, expandable system. The OMNI has options for PCAP or resistive touch versions so the there is a system for every need, all this in a compact robust format that is built to industrial quality.

You would expect a system like this to be expensive but here again AAEON scores highly. The system is very good value for money and available with short lead times.

Check out the OMNI range from AAEON at RDS.

www.review-displays.co.uk

Overview

Powered by the Intel® Celeron® J1900/ N2807 processor, the OMNI-2155 delivers enhanced performance over its preceding models with the maximum resolution of 1366 x 768, memory support of up to 8 GB, (J1900), 4 GB, (N2807) , and VESA 100/ panel mount design.

Some of the most popular expansion interface and I/Os, such as USB type A x 1 for USB 3.0, USB type A x 3 for USB 2.0, HDMI x 1, and 3-pin terminal block x 1 for 9~30 V DC power input, are also featured in the device, making it ideally suited for any industrial or HMI display applications.

Features

• Intel® Celeron® J1900/ N2807 Processor
• Flat Screen with P-CAP or Resistive Touch
• Easily Expandable I/O by AAEON OMNI I/O Modules
• 2-Point Multi-touch
• Aluminum Design
• IP65 Compliant Front Bezel
• Fanless Operation
• Support Remote Power On/Off Connector
• VESA 100/ Panel Mount Support
• Note: RAM not included; Panel Mount Kit (Optional)

Prevent data loss in SSD with iCell Technology

iCell is a smart data protection technology that is built into Innodisk’s SSDs. iCell is vital for mission-critical applications, where working under extreme conditions and without backup power is unavoidable. 
The iCell technology provides a mechanism to instantaneously discharge data stored in temporary volatile DRAM buffers to flash storage, to ensure the safety of data during power failures. 

To a large extent, the one crucial question for any mechanism is how fast its SSD can discharge all of its data to flash storage within the time provided, right before total power failure. To ensure that there is ample time for all of the data to be discharged. 
Innodisk’s iCell Technology is engineered with several capacitors on the IC board to provide 58ms more of a power buffer (which is crucial for large data with an average power buffer of 2ms only). With iCell Technology, Innodisk SSDs can write up to 15MB of data to flash storage in 60ms. 

Features 
•   In different form factors applicable 
•   Prevents data loss 

Applications 
•   Aerospace and Defense 
•   Industrial/Embedded Applications 
•   Cloud Computing Applications 
•   Server Application 
•   Casino gaming 
•   In-Vehicle 


Figure 1: 
Residual power in the system is only around 2ms. 
Data cannot be written fully to flash storage before total power loss. 

Figure 2: 
Residual power available to the SSD is around 60ms. 
Within 60ms, the SSD can write 15MB of data to flash.

For more information about Innodisk's range of industrial SSD and other storage devices please gives us a call.
Review Display Systems.

Touch Controller solutions Touch Panels with thick gloves

PenMount PCI Supports Gloved Operation Applications for projected capacitive touch panels are very extensive and often include industrial control systems, medical equipment, and outdoor devices. Based on safety, hygiene, and climate considerations many of these applications require operators to wear gloves while using the PCI touch panel. In order to satisfy customer needs, PenMount PCI touch controllers have a comprehensive strategy regarding gloved operation. The PCI touch panel operating principle begins when the touch panel detects a conductor (such as a finger or water). Then the PCI touch controller processes the received signal through an algorithm to determine the touch point. When users wear gloves, the touch signal strength will be reduced because the materials used by standard gloves, cotton, linen, latex or functional glove coatings, possess dielectric constants far lower than that of a finger. Moreover, glove thickness is related to signal volume. The thicker the glove, the further a finger is from the touch surface. Thus, the signal volume the PCI touch controller is able to detect is also reduced. Through a combination of hardware and firmware and paired with adjustment by the PenMount PCIMSet utility, PenMount PCI controllers can enhance touch sensitivity when users wear gloves during operation. PenMount reduces noise through a signal/noise ratio processing firmware mechanism and unique algorithm to obtain the best signal values. PenMount PCI controllers support the use of many types of gloves while, simultaneously, taking into account the reliability and dependability of touch operation. PenMount PCI touch controllers support most glove types such as common rubber gloves, standard cold weather cotton or leather gloves, silicone or latex gloves prevalent in medical environments, etc. Practically, when medical personnel wear multiple layers of medical latex gloves to avoid risk of infection, PenMount PCI controllers continue to operate normally and smoothly. PenMount PCI controllers also support thick glove materials and gloves with special surface treatments. In addition to a "touch mechanism," the PCI gloved touch solution introduced by PenMount also provides drawing and gesture functions and two-finger zoom in/out when using most glove types. You can watch a video detailing gloved functions supported by AMT and PenMount PCI touch solutions here: AMT Touch Screens with Gloves You may wish to know whether this excellent gloved support requires special conditions or firmware pairings? Whether gloved operation requires abandoning other specifications? In addition to meeting the EMC testing standards (IEC 61000-4-3 RS Level III 10V/m and IEC 61000-4-6 CS Level III 10Vrms) most important to industrial applications, standard PenMount PCI controller firmware can also comprehensively implement a water handling mechanism and gloved operation. PenMount PCI controllers, integrate these three, seemingly impossible to simultaneously co-exist, features into one standard firmware. Of course, we are happy to provide firmware customization services to conform to different glove types. PenMount's design philosophy is greater consideration on behalf of customers and understanding actual customer needs to provide comprehensive touch solutions that allow customers to introduce PCI applications. PenMount provides customers with reliable and convenient touch products and a complete series of utilities to fulfill common usage requirements and facilitate your product development. If you have any questions or product inquires, you are welcome to contact us for more information. More details on all the AMT range of products can be seen at www.review-displays.co.uk

"Skylake", what is it and is it worth the upgrade?

As Intel’s Skylake processors start to find their way into more systems, they’ll bring faster clock speeds to a wider array of systems than ever before. But Skylake also brings with it a rich new set of features and improvements over Haswell. From 4K support to better power efficiency, upgrading to a Skylake processor could make a real difference in your everyday computing experience.

Up to 30 percent better battery life

Intel has worked harder than ever to create CPUs in a wide range of power envelopes, and it shows with the wide array of power efficient chips. When discussing new processors, the Thermal Design Power (TDP) is the amount of energy required to keep the chip cooled as it runs, and is used to compare the required power of chips outside of the context of a system.

Although big gaming processors like the 6700K have a TDP of 91 Watts, the chips in the Skylake family reach all the way down to 4.5 Watts for Core M chips. Haswell chips ranged from 11.5 Watts to 145 at the enthusiast level, so this is a distinct improvement in terms of cooling power needed.

That doesn’t just have an effect on the number of systems Skylake chips can find their way into, either. Better power efficiency across the board means high-end systems consume less, lowering power costs and power supply needs. It also means mobile systems have much better battery life, although Intel’s claims of up to 30 percent longer battery life may be a little generous.

Dedicated processor for photos

Skylake also means business when it comes to support cameras, and as such, the U and Y-series Skylake chips will include a dedicated Image Signal Processor. Normally this sort of task would be handled by a dedicated GPU, but systems with those low power envelope chips usually have integrated graphics. Skylake chips that do sport an ISP support up to four 13 megapixel cameras, and can capture streams from two cameras at once. 

Notably, that means these chips will also support Intel RealSense, a dual-sensor camera that is able to create detailed 3D models and recognize faces to enable Windows Hello’s facial login feature, and they’ll do so without the help of a discrete GPU.

Sharper RAM

Skylake isn’t so focused on itself that it can’t think of other components, and it shows with the improvements to memory efficiency that are a core part of its architecture.

DDR4 is simply the next step up from DDR3 in terms of RAM technology. Although it hasn’t been fully realize yet, there’s a lot of potential performance and power efficiency improvements on the horizon. Ultimately, this will lead to more concrete improvements in computing, but for now, the important thing to note is that Skylake systems are, at least for the moment, only capable of using DDR4 RAM, so if you upgrade your CPU, you’ll have to upgrade your memory (and motherboard) as well.

Intel

eDRAM is a different story. Appearing on non-socket chips that sport Iris and Iris Pro integrated graphics, the eDRAM is either 64 or 128MB respectively of memory integrated directly onto the chip. It ends up costing a little more, but is one of the reasons Iris and Iris Pro graphics are able to support multiple 4K displays. It’s essentially video RAM for your integrated graphics chip, and makes a huge difference in performance on systems that lack a dedicated graphics option.

You can turn it up to 11

If you’re sitting a little further toward the enthusiast end of the computing spectrum, you’ll be pleased to know that unlocked chips are back and more overclockable than ever. The unlocked Skylake chips are set to more highly customizable clock ratings, allowing you to scale by as little as 1MHz at a time. There is also, for the first time ever, unlocked Skylake chips making their way to laptops (though Intel has yet to release the specifics). Cooling is a bit of an issue, so whether these chips will be unlocked to the user or just to the manufacturer is unclear as of yet.

Our own experience overclocking the high-end i7-6700K went well, and we were able to push a 4GHz base clock up to 4.9GHz with air cooling, although 4.8 was much more stable. With a 20 percent boost to speed, the chip experienced a major improvement of 20 percent in the Geekbench CPU test. The chip has a theoretical limit that’s much higher, but only with carefully tuned cooling could you raise it much higher in practice.

Chips to look for

At Intel’s IFA press conference, a few dozen Skylake chips were unveiled across a wide array of power levels. Among those are a few chips that you’re likely to see more of than others.

The most common is likely to be the Core i5-6200U, the sequel to the popular i5-5200U. It’s a dual-core chip with Hyperthreading, and it has a base clock of 2.3GHz and a Boost clock of 2.8GHz. The 6200U also packs in Intel HD 520 graphics, and does it all in a 15W TDP.

Desktop buyers should check out the Core i5-6400U. It is the most basic mainstream quad-core and sells at a good price. If you’re on a very tight budget, the Core i3-6300 could be the way to go. It has dual-cores, but also has Hyper-Threading, so it supports four processing threads (think of it as a virtual quad-core). It’s also the cheapest processor to offer 4MB of Level 2 cache, which is important in certain intensive applications, including games.

Also of note are the 28 Watt U-series CPUs. These low-power chips don’t skimp on graphical performance, and include Intel Iris 550 integrated graphics. They’re all dual-core chips, and will likely end up in smaller performance-minded laptops like the 13-inch Macbook Pro.

Should you upgrade?

There’s no real right answer to that question, but there are some questions you should ask yourself before buying or building a new PC. CPUs remain relevant for several generations, especially because the performance jump between years is minimal – Skylake doesn’t differ from any other Intel release in that aspect.

That being said, if it’s time for an upgrade, it’s worth buying the Skylake option. From what we’ve seen so far, the Sixth Generation Intel chips are more power efficient, and bring a feature set to the platform that is causing manufacturers to update entire computing lines with the new chips. On top of that, the next major step forward in Intel CPUs won’t be hitting shelves until at least 2017, so these Skylake chips are going to be in computers for the foreseeable future.

Projected Capacitive Touch Panel PCAP PCI use with thick gloves

The Best, Most ProfessionalTouch Controller Solutions

PenMount COF PM2203B meets EMC CS/RS Level III Specs

PenMount continues to focus on the R & D of projected capacitive (PCI or PCAP) touch controller technology and breaking through bottlenecks to provide customers with superior functionality. This is the target of PenMount's efforts.

When we see customer application requirements for mid/small size products such as portable products and touch applications for automotive tablets, our design goal is a light and thin appearance. In situations where mechanism space is relatively limited, customers normally use a COF (Chip On Flex PCB) controller design in PCI products. Of course, in industrial and medical products, customers also require anti-interference functionality, an ability to achieve basic specification requirements whether in conducted noise tolerance or radiated noise tolerance.

PenMount's 3^rd generation COF controller PM2203B supports small 5"-7.9" PCI touch panels. This controller has successfully passes IEC 61000-4-3 RS Level III and IEC 61000-4-6 CS Level III 10V testing standards, can provide customers with improved noise immunity, and reduces the chances of false touch signals caused by interference. The entire series of standard 3^rd generation PenMount PCI controller products, the PenMount PM2203B and PCB Control Board controllers (including PM1210/ PM1310/ PM1410/ PM1710/ PM1711), can also achieve a level of performance equivalent to EMC RS/CS Level III 10V.

In terms of function, PenMount's proprietary firmware, hardware, and software not only satisfy customer requirements, but also allow customers to quickly achieve marketable applications. The noise immunity specifications of our PM2203B paired with a AMT P3012-C2D 7" PCI touch panel has increased significantly while retaining 5-point touch operation and supporting 1.1mm, 1.8mm, and 2.8mm cover glass thicknesses. Firmware design allows PCI touch panel water handling to maintain an excellent reliability threshold of "No False Touch When Wet." USB, UART, and I²C interfaces are provided on the PM2203B COF hardware and the firmware version PM2203B.1.1.0 supporting EMC RS/CS level III has already been released. The PMUpdate firmware update utility provided by PenMount can be used to upgrade to the latest firmware version, allowing your controller to obtain an EMC RS/CS Level III standard without changing hardware architecture.

As the PCI touch application field becomes increasingly ubiquitous, PenMount's design philosophy is to consider further on behalf of customers. PenMount provides customers with reliable and convenient touch products. Flexible service has always been PenMount's core value. In addition to the relentless upgrade of hardware and firmware, we also provide easy to use utilities for software support. PenMount offers comprehensive touch solutions to assist customers in successful integration into product mass production. If your product requires other PCI touch panel designs or must be paired with thicker cover glass, you are welcome to contact us. We will provide you with the suitable services.

If you need any further information about AMT Penmount products please call us on 01959 563 345

For any digital signage operator, what better way to make your audiences’ eyes pop than some jaw-dropping, 4K videos? Enter AAEON’s EMB-H110B industrial motherboard, a product made to do just that, but without the lofty investment that typically accompanies it. By using 6th Generation Intel® Core™ processors, the board is granted native support for the ever-popular 4K media contents. This not only makes playback a feast for the eyes, but also helps operators save time and money in configuring and supporting such content. The board features eDP on top of the common HDMI and DisplayPorts. In addition, it is designed with dual simultaneous display to expand its array of display options. With a Mini-ITX form factor, the board is 1U in height making it ideal for small and compact applications. The board’s top-of-the-line CPU is further supported with DDR4 memory, TPM, DI/Os and an abundance of I/O ports. Review Display Systems 01959 563 345