Fanless Mini-ITX mainboard AMB-D255T3 from Acrosser

Acrosser Technology Co. Ltd, a global professional industrial and embedded computer provider, announces the new Mini-ITX mainboard, AMB-D255T3, which carries the Intel dual- core 1.86GHz Atom Processor D2550. AMB-D255T3 features onboard graphics via VGA and HDMI, DDR3 SO-DIMM support, PCI slot, mSATA socket with SATA & USB signals, and ATX connector for easy power in. AMB-D255T3 also provides complete I/O such as 6 x COM ports, 6 x USB2.0 ports, 2 x GbE RJ-45 ports, and 2 x SATA port.

for more information, please visit:
http://www.acrosser.com/News-Newsletter/62.html

Product Information:
http://www.acrosser.com/Products/Single-Board-Computer/Mini-ITX-&-others/AMB-D255T3　(Mini-ITX-)/Intel-Atom-D2550-AMB-D255T3-(Mini-ITX)-.html

Taiwan Excellence Award winning products in Moscow!

With its specific geographic location, MIMS is truly a trans-lateral gateway for automotive businesses!

If you are looking for Acrosser’s products or other innovative automotive components from Taiwan, do not miss the Taiwan Pavilion (Pavilion 8 Hall 3, booth number: R111) this year!

As for the show, Moscow International Motor Show 2013(MIMS) is regarded highly in the automotive industry in Russia. Last year, the exhibitors consisted of 1,379 companies from 35 countries and 15,717 guests from 52 countries participated in this event. 99.6% of visitors were industry professionals.

AR-V6100FL features fanless operation with Intel Core i7-2710QE 45W CPU. Its excellent thermal design makes it a popular industry choice for In-Vehicle PCs. The efficiency of heat dissipation also contributes to its high performance under rugged automotive environments. Another fascinating feature of AR-V6100FL is its smart power management function. Acrosser built a comprehensive power management subsystem solution, allowing users to select the best setting for the power management mode to meet specific application demands.

for more info, please go to the website:
http://www.acrosser.com/News-Newsletter/61.html

Validation and verification for enhancement

Software auctioning fair can be dreadful for every engineers. However, the AMD Embedded G-Series platform are their discrete-level graphics embedded computer capabilities. To reduce the amount of R&D work, lower costs and shorten their products’ time to market, they seek ways to cut down their initial development and migration tasks. One approach is to make use of a hardware vendor’ migration services. Providing support for the latest DirectXR 11 API, they enhance all conventional graphics-intensive small-form-factor embedded computer applications. OEMs also face the challenge of implementing this state-of-the-art technology in their new or existing applications, including validation and verification of the applications’ functionality and access to hardware functions and I/Os.

refer to: http://embedded-computing.com/white-papers/white-small-form-factor-sff-designs-2/

2 focus for reviewing power management issue

Most engineers and system integrators find it troublesome when installing car computers in their business vehicle. How often did hardware configuration or software programming take away from their business? Above all these worries, establishing steady power management becomes the most important issue before integrating the entire system. Acrosser’s In-Vehicle computer offers 6 stunning power management traits to overcome these difficulties.

Reviw 1:  Power On/Off Retry

When the In-vehicle computer power on/off mode is controlled by the car ignition, it is impossible to turn off the ignition and turn it back on just to restart the computer. If the vehicle’s ignition switch did not power up the computer properly, Acrosser’s power management subsystem will automatically detect and monitor the system status to restart the system upon retry.

Reviw 2:  User-friendly Interface

Acrosser’s in-vehicle computer adopts user-friendly interface, allowing vehicle drivers to easily define its own power management according to their special needs. For instance, different industries may have little in common when setting its power delay time or on/off control mode. Resetting the default in-vehicle computer may take a long time, but that would not be the case if you are using a user-friendly interface.

ACROSSER Technology has provided a complete product line for In-Vehicle computers. The product line also gained more attention after winning the 21th Taiwan Excellence Award with 2 outstanding In-Vehicle computers: AR-V6005FL and AR-V6100FL. Acrosser also released its latest in-vehicle computer, AIV-HM76V0FL during late 2012. The company pride itself in offering not just products, but solutions. Please contact ACROSSER Technology for further consultations, volume quotes, or any other questions.

Product Information:

AIV-HM76V0FL

http://www.acrosser.com/Products/In-Vehicle-Computer/In-Vehicle-PCs/AIV-HM76V

0FL/In-Vehicle-computer-AIV-HM76V0FL.html

AR-V6005FL

http://www.acrosser.com/Products/In-Vehicle-Computer/In-Vehicle-PCs/AR-V6005FL/Intel-Atom-E640-AR-V6005FL.html

AR-V6100FL

http://www.acrosser.com/Products/In-Vehicle-Computer/In-Vehicle-PCs/AR-V6100FL/Intel-Core-i7／i5／Celeron-B810-AR-V6100FL.html

Award Information:

http://www.acrosser.com/News-Press-Release/86.html

Contact us：

http://www.acrosser.com/inquiry.html

Mini-ITX quick review: Acrosser AMB-D255T1 and AMB-QM77T1

With a total board height less than 20mm, the slim fit feature of AMB-D255T1 makes it a perfect applicationalmost everywhere. With single layer I/O ports and external +12V DC power input, AMB-D255T1 can easily be equipped even in limited spaces like digital signage, POS or thin client systems. Also, the supporting video source includes both VGA and HDMI outputs to cater to a variety of needs. Many digital signage partners have showed great interests toward AMB-D255T1 for their business sector. AMB-D255T1 has one DDR3 SO-DIMM which supports up to 4GB DDR3 memory, mSATA socket with USB signals and SIM slot, and a DC jack for easy power in. For customers that are taking their entire system to the next level, AMB-D255T1 provides one PCI slot and one Mini PCIe expansion slot with a SIM card socket for further improvement. The mini PCIe expansion allows mSATA to function together with the system or multi module choices for USB signals module installation.( mSATA storage, Wi-Fi module, or 3G/4G telecommunication)

Product Information:
AMB-D255T1　(Mini-ITX)
http://www.acrosser.com/Products/Single-Board-Computer/Mini-ITX-&-others/AMB-D255T1　(Mini-ITX-)/Intel-Atom-D2550-AMB-D255T1-(Mini-ITX)-.html

AMB-QM77T1 (Mini-ITX)
http://www.acrosser.com/Products/Single-Board-Computer/Mini-ITX-&-others/AMB-QM77T1　(Mini-ITX)-.html

Contact us：
http://www.acrosser.com/inquiry.html

The AIV-HM76V0FL is built for handling rugged environments

ACROSSER Technology, a world-leading In-Vehicle Computer designer and manufacturer, is pleased to introduce its latest In-Vehicle computer product, the AIV-HM76V0FL. The AIV-HM76V0FL is built for handling rugged environments. To showcase its high performance, we have created a small experiment to prove its durability in difficult situations.

One fascinating feature of AIV-HM76V0FL is its ability to support HDMI video output. This outstanding feature would satisfy those seeking for high-quality video outputs. AIV-HM76V0FL is an outstanding In-Vehicle solution for anything ranging from commercial to security issues. We have seen our clients using them  on digital signage display and security IP surveillance cameras. The two key factors that allow for such high-performance graphic processing are the Intel HM76 mobile chipset and FCPGA 988 socket for 3rd generation Core i mobile computer platform.

Acrosser’s latest In-Vehicle computer product, AIV-HM76V0FL should meerit a spot on your procurement list. This product can sustain a level 2G shock and received IEC 60068-2-64 (anti-vibration) and IEC 60068-2-27 (anti-shock) certifications.
Here is the actual video demonstrating the outstanding performance of the AIV-HM76V0FL. The base vibrator simulates a mobile environment, and this is exactly how it looks like inside a moving vehicle.

More SWaP-optimized the better

A portable atomic clock is just the ticket for many UAVs, and the more SWaP-optimized the better. The Chip-Scale Atomic Clock (CSAC) fits the bill with the low power draw and accurate performance inherent in its design.

 

Unmanned Aerial Vehicles (UAVs) began as tools for military surveillance. As their capabilities expanded, they found usage in civilian applications such as border patrols and drug interdiction, while on the military side the expanded capabilities led to missions using armed UAVs.Throughout their use, accurate clocks have been required for UAVs to carry out their missions. A principal need has been navigation; UAVs typically use a clock that has been synchronized to Global Positioning System (GPS) for very accurate timing. However, when the GPS signal is lost, the clock is used to provide a “holdover” function that integrates with a backup navigation system, usually some form of an Inertial Navigation System (INS). The clock’s holdover performance is important because, in military applications, GPS signal loss is sometimes due to intentional jamming, which can persist for long periods of time.

............


refer to
http://smallformfactors.com/articles/chip-scale-swap-design-challenges/#at_pco=cfd-1.0

1U Networking Appliance System with 3rd generation Intel Core i processor

ANR-IB751N1/A/B networking appliances.


ANR-IB75N1/A/B is a rackmount platform (440x372x44mm) which can be installed in the 19” rack. It can carry a 3rd generation Intel Core i i3, i5, i7, or Pentium processors to deliver higher efficiency, increased processing throughput, and improved performance on applications. ANR-IB75N1/A/B also comes equipped with a maximum 16GB DDR3 memory and optional 2 or 4 x SFP and 8 x LAN ports. System Integrators can select different configurations for their network appliances. It offers the best P/P ratio in applications like the UTM, IDS/IPS, VPN, Firewall, Anti-Virus, Anti-Spam, RSA gateway, QoS, streaming.
ANR-IB75N1/A/B uses 80 Plus PSU which reduces energy consumption and helps protect the environment. The software and hardware configurable LAN bypass feature also prevents communication breaks due to power loss or system hang-ups. In addition to Intel long life support chipsets, ANR-IB75N1/A/B is designed with a long-term support of 5 years.

10 GbE technology enables a standard zero client solution

Virtualization trends in commercial computing offer benefits for cost, reliability, and security, but pose a challenge for military operators who need to visualize lossless imagery in real time. 10 GbE technology enables a standard zero client solution for viewing pixel-perfect C4ISR sensor and graphics information with near zero interactive latency.

For C4ISR systems, ready access to and sharing of visual information at any operator position can increase situational awareness and mission effectiveness. Operators utilize multiple information sources including computers and camera feeds, as well as high-fidelity radar and sonar imagery. Deterministic real-time interaction with remote computers and sensors is required to shorten decision loops and enable rapid actions.
A zero client represents the smallest hardware footprint available for manned positions in a distributed computing environment. Zero clients provide user access to remote computers through a networked remote desktop connection or virtual desktop infrastructure. Utilizing a 10 GbE media network for interconnecting multiple computers, sensors, and clients provides the real-time performance and image quality required for critical visualization operations. The cost of deploying a 10 GbE infrastructure is falling rapidly and 10G/40G has become the baseline for data center server interconnect. Additionally, deploying common multifunction crew-station equipment at all operator positions brings system-level cost and logistics benefits. The following discussion examines the evolution to thinner clients and the path to a real-time service-oriented architecture, in addition to looking at zero client benefits and applications.

.....

refer to : http://mil-embedded.com/articles/10-real-time-remote-desktops-c4isr/#utm_source=Cloud%2Bmenu&utm_medium=text%2Blink&utm_campaign=articles

Huge Price Slash for Embedded SBC

Acrosser Technology Co. Ltd, global professional industrial and Embedded Computer provider, announces the new Atom series solutions which include AMB-D255T1 Mini-ITX industrial mainboard and AMB-N280S1 fanless 3.5-inch single board computer. AMB-D255T1 is equipped with an Intel D2550 Atom processor. AMB-N280S1 is equipped with an Intel N2800 Atom. Both have a 5~7 year product warranty.

AMB-D255T1 features powerful graphic performance via VGA and HDMI output, one DDR3 SO-DIMM socket, mSATA socket with USB signals and SIM slot, and a +12V DC jack for easy power input. AMB-D255T1 also provides complete I/O such as 4 x COM ports, 6 x USB2.0 ports, 1 x GbE RJ-45 port, 1 x SATA port with power connector.

AMB-N280S1 has a variety of I/O ports, such as 5 x serial ports (one is RS-232/422/485 selectable), 4 x USB2.0, 2 x GbE RJ-45 ports, and one Mini-PCIe expansion. It also offers 1 x SATA interface and power connector for customers desiring large storage capacity. AMB-N280S1 has one HDMI port and one VGA output and can support two maximum resolution displays of 1920 x 1200. It also offers a 18-bit LVDS interface for small size LCD panels.

Acrosser is providing a special price for these two boards to make them available for customers sooner. Please contact your local sales for more information.

Product information：
AMB-D255T1
http://www.acrosser.com/Products/Single-Board-Computer/Mini-ITX-&-others/AMB-D255T1 (Mini-ITX-)/Intel-Atom-D2550-AMB-D255T1-(Mini-ITX)-.html

AMB-N280S1
http://www.acrosser.com/Products/Single-Board-Computer/3．5’’-SBC/AMB-N280S1/Single-Board-Computer-AMB-N280S1.html

Contact：
http://www.acrosser.com/inquiry.html

Looking back at the milestones

This seems to be the year for milestone events in the EDA industry, though calculations show some of the “anniversary” designations to be premature. Nevertheless, the first big EDA event of the year is the Design and Verification Conference (DVCon), held in San Jose, CA every February. DVCon celebrated its 10th anniversary this year, after a transformation from HDLcon in 2003, which followed the earlier union of the VHDL International User’s Forum and International Verilog HDL Conference. Those predecessor conferences trace their origins back 25 years and 20 years, respectively.


refer to : http://dsp-fpga.com/articles/looking-back-at-the-milestones-as-dac-50-approaches/

Introduced a complete line of industrial touchscreen LCD monitors

American Industrial Systems Inc. (AIS), has introduced a complete line of industrial touchscreen LCD monitors in several mechanical designs and paired with the latest in touchscreen technology to fit every situation.

IRVINE, CA -- American Industrial Systems Inc. (AIS), has introduced a complete line of industrial touchscreen monitors in several mechanical designs and paired with the latest in touchscreen technology to fit every situation. The monitors are currently available in open frame,chassis, panel mount, IP65 mount bezel, and rack mount to cover most industrial requirements. Also available are AIS’ rugged touchscreen display line, built to handle the most extreme of environments, which include vehicle mount touch screen display, Full IP65, and Marine grade touchscreen bridge displays. The need for touchscreen HMI displays in today’s market is growing in every industry whether it is retail, digital signage, military, industrial, or gaming; AIS’ has the products, technology, and price competitiveness to bring you to market faster.

AIS touchscreen displays utilize industrial grade components and are encased in steel, aluminum, or aluminum-magnesium alloys for maximum reliability and protection from shock/vibration, Wide Temperature Range Operation and harsh environmental conditions. Add-on enhancements are available such customize the LCD to perfectly fit applications such as sunlight readable touchscreen LCD enhancements, wide voltage range inputs, Anti-corrosion coatings, IP65 Water/Dustproof rating, and Touch screen integration. Several touchscreen technologies are available including resistive, capacitive, infra red (IR), surface acoustic wave (SAW), and 3M MicroTouch™ DST Touch System for Large size screens. Together AIS has thousands of pre-engineered, documented and tested touch screen LCD solutions at cost effective prices.

refer to :

http://industrial-embedded.com/news/ais-gaming-digital-signage-industries/0/

Embedded development...

In response to growing pressure to boost the performance and trim down the size of embedded applications, standards organizations meet regularly to optimize their portfolios in light of the latest available technology. These updated standards take advantage of new silicon architecture combining multiple processors, graphics elements, and complex I/O to deliver the next generation of preengineered, off-the-shelf modules to support many of the high-performance requirements of embedded product development.

These standardized computer platforms allow designers to trade in substantial savings in Non-Recurring Engineering (NRE) and scheduling for slightly higher recurring costs. Standards-based designs also shortcut the software development effort by providing access to compatible operating systems, vendor-supplied drivers, and sample firmware.

In the Strategies section of this issue, we asked experts from several standards organizations to bring us up to date on the latest changes affecting embedded designs. Starting things off, Jim Blazer, CTO at RTD Embedded Technologies and active member of the PC/104 Consortium, presents the history and updates in work – such as the latest generation of PCI Express – that support the PC/104 stackable architecture. Citing the need for smaller and more rugged building blocks, Alexander Lockinger, President of the Small Form Factor Special Interest Group (SFF-SIG) and CTO at Ascend Electronics, covers the trends and new products to expect in 2013. In addition, Jerry Gipper, Director of Marketing at VITA and Editorial Director ofVITA Technologies magazine, reports on the recent Embedded Tech Trends 2013 meeting aboard the Queen Mary and standards work in progress, plus some new technologies such as optical interconnects.

refer: http://embedded-computing.com/articles/evolving-simplify-embedded-development/

About wireless networks provide...

802.11 networks are becoming nearly ubiquitous in many enterprise settings and can often be tapped to solve embedded problems in the same location. In this example, a logistics cart used for warehouse operations becomes 802.11 enabled, improving the efficiency of a critical process.

In a tough economy with increased competition from global markets, companies are forced to do more with less. Supply chain management is one area where companies realize this challenge. Organizations are continually struggling to ship more orders, decrease processing time, and increase order accuracy, all the while reducing costs. The nature of order processing has changed as well. With just-in-time and lean manufacturing techniques becoming common practices, distribution warehouses often need to process a high volume of small orders, which often involve a large mix of products, adding further complexity to the process.

The end result is that the order picking process is increasingly challenging. In a typical warehouse or distribution center, studies have shown that order picking can consume as much as two-thirds of the facility’s operating cost and time. As a result, companies are continually looking for new technologies and innovations to automate the order picking process.

1.Pick-to-light goes paperless …

2.… then moves to 802.11 

3.Device servers make design straightforward 

4. Fitting in the network

5.WLANs solve embedded challenges

...

refer:

http://embedded-computing.com/articles/wireless-networks-provide-with-less/  

About communications networks

IT managers are under increasing pressure to boost network capacity and performance to cope with the data deluge. Networking systems are under a similar form of stress with their performance degrading as new capabilities are added in software. The solution to both needs is next-generation System-on-Chip (SoC) communications processors that combine multiple cores with multiple hardware acceleration engines.

...

refer:

http://embedded-computing.com/articles/next-generation-architectures-tomorrows-communications-networks/#utm_source=Multicore%2Bmenu&utm_medium=text%2Blink&utm_campaign=articles

Increased flexibility and power savings render greater display efficiency from Embedded DisplayPort

 While mobile device display performance continues to increase, system chip processes geometries continue to shrink, resulting in a greater proportion of system power consumed by the display and its high-speed interface. 

The new Embedded Display Port (eDP) v1.4 standard offers several new features that maximize system power efficiency, further consolidate the display interface, and address a wide range of system profiles to satisfy the growing demand for power optimization in the embedded display system.

 

 

Advanced link power management

The ability to manage the display interface is improved in eDP v1.4 by greatly reducing the wake-up time from the low-power state, which is important to maximize the efficiency of the PSR selective update process. Previous versions of eDP required more than 100 microseconds to wake up and retrain the data link. With eDP v1.4, if the new PSR mode is supported, wake-up from standby is a maximum 0.5 microseconds, and wake time from the lower-power sleep state is 20 microseconds.

Video timing synchronization

In DisplayPort and earlier versions of eDP, display-to-GPU synchronization is performed over the DisplayPort main link, the high-speed data channel that carries video data using special control codes. In eDP v1.4, frame synchronization is also provided over the lower-speed auxiliary channel. This enables quick bursts of eDP main link operation to perform timely selective updates of the remote frame buffer.

Display stream compression

Display interfaces including DisplayPort and earlier versions of eDP send uncompressed pixel data across the display interface. Image compression is traditionally limited to media delivery to the system or for storage. In the interest of further power savings, eDP v1.4 introduces a display stream compression algorithm that reduces the data rate across the display interface. In contrast to typical video or image compression algorithms, the display stream compression algorithm is optimized for high data throughput, low latency, and low gate count and targets low-compression ratios in the 2x to 5x range, depending on the image type. By using a minimum 2x compression ratio configuration, for example, the display interconnect bandwidth can be cut in half, with typically no loss in image content. Display stream compression can also be used when updating a display’s PSR frame buffer, providing further power savings. It can also be used to support display resolutions beyond the uncompressed main link capability.

Regional backlight control

When eDP v1.2 was released in 2010, it introduced the capability to control LCD backlight modulation frequency and brightness through the auxiliary channel, thus eliminating the need for an extra backlight control interface. In eDP v1.4, regional backlight control provides the option to independently set different portions of the display backlight region. This allows the GPU to actively darken selective portions of the display based on display contents, increasing power savings. Up to 15 backlight regions can be controlled with a single auxiliary transaction.

Multitouch over auxiliary channel

Touch-sensitive displays are common in many smaller embedded display systems and will become more prevalent in PCs. The latest version of eDP adds the ability to transport multitouch data from the display to the host through the auxiliary channel. The multitouch data transport uses a framework that is compatible with the USB Human Interface Device specifications. By eliminating the dedicated USB interface commonly used for this purpose, both electrical connections and power are saved.

Reduced differential voltage swing

Prior to eDP v1.4, the standard utilized the same interface signal voltage amplitudes as DisplayPort. Today, eDP v1.4 reduces the main link’s minimum differential voltage amplitude levels from 400 mV to 200 mV, which is suitable for the short transmission distances in small embedded form factors. This reduces interface drive power by as much as 75 percent, as power is proportional to the square of amplitude. Additional flexibility is also added to the link training amplitude step sizes, helping increase suitability for different transmission media including chip-on-glass.

Increased link rate flexibility

Another addition in eDP v1.4 is greater flexibility in the main link data rate. Previous versions of eDP limited link rate selection to 1.62 Gbps, 2.7 Gbps, and 5.4 Gbps per lane (main link data channel), which is the same as DisplayPort. The current version of eDP now includes seven standard rates, enabling further power efficiency.

With DisplayPort, increasing a 1080p 60 Hz display format from 24-bit color to 30-bit color would require changing a two-lane 2.7 Gbps configuration to either a four-lane 2.7 Gbps configuration or a two-lane 5.4 Gbps configuration. Ether case represents a 100 percent increase in interface bandwidth and power, with only a 25 percent increase in data content (additional dummy bits would be added to make up the difference). With eDP v1.4 in the same application, the rate could be bumped up from 2.7 Gbps to 3.24 Gbps, resulting in only a 20 percent link rate increase.

Customizable link rates are also supported, with a new set of registers defined for the display to declare this capability, as well as the custom link rate frequency. In addition to further power optimization, this increases application diversity as link rates can be adjusted based on particular system timing requirements. It also enables link rate adjustment to mitigate radio frequencyinterference with system wireless services.

System deployment with eDP v1.4

Offering increased flexibility and reduced system power, the latest release of eDP v1.4 will help propel eDP into new applications and establish it as a universal embedded display interface. Given the current cycle of eDP standard publication and adoption, it is expected that systems using some of the new features in eDP v1.4 will appear on the market in two to three years. Higher-resolution notebook PCs and tablets will likely be the first candidates to leverage this power-optimized interface.

 

 refer:

http://embedded-computing.com/articles/embedded-greater-display-efficiency/#at_pco=cfd-1.0

 

With Intel dual- core 1.8 GHz Atom Processor N2800 SBC

3.5” SBC, AMB-N280S1, which carries Intel dual- core 1.8 GHz Atom Processor N2800. Acrosser takes advantage of Atom Cedar Trail N2000 series processor in design

 With fanless design AMB-N280S1 has one SO-DIMM supports DDR3 memory to maximum 4GB. Focusing on embedded and industrial applications

Intel Atom Processor N2800 provides more powerful graphic performance by less power consumption. 


AMB-N280S1 Features
‧ Intel Atom N2800 1.86GHz
‧ 1 x DDR3 SO-DIMM up to 4GB
‧ 1 x VGA
‧ 1 x HDMI
‧ 1 x 18-bit LVDS
‧ 4 x USB2.0
‧ 6 x COM (5 x RS-232, 1 x RS-232/485)
‧ 2 x GbE (Realtek RTL8111E)
‧ 1 x KB/MS
‧ 1 x Mini-PCIe slots
‧ 1 x SATA
‧ 8-bit GPIO

Core i Mini ITX for applications

The AMB-QM77T1 is the newest Mini-ITX industrial mainboard from Acrosser Technology that supports both of the 3rd and 2nd generation Intel Core i7/i5/i3 mobile processor by Intel QM77 chipset and FCPGA 988 socket.
The Intel 3rd generation mobile processors supported by the AMB-QM77T1 features an integrated GPU, which is capable of supporting such graphical libraries as DirectX11, OpenGL4.0 and OpenCL1.1. Targeting on multimedia and gaming applications, AMB-QM77T1 brings enhanced graphics performance by supporting 3 independent displays in any combination of VGA, HDMI, LVDS and DVI output.

 The key features of the AMB-QM77T1 include:
‧  Intel QM77 chipset
‧  FCPGA socket supports 3rd Generation Intel® Core(TM) i7/i5/i3 processors and Celeron
‧  2* DDR3-1600/1333/1066 SO-DIMM up to 16GB
‧  Supports VGA/DVI-D/HDMI/LVDS displays
‧  Support 3 independent display
‧  Dual Intel PCI-E Gigabit LAN
‧  8* USB 2.0, 4* USB 3.0, 3* COM, 3* SATA II, 2* SATA III
‧  1* PCI-E x16, 1* Mini PCI-E, 1* CFast socket
‧  iAMT 8.0, TPM 1.2, Watchdog timer, Digital I/O Support VGA and DVI output

Acrosser In-vehicle Products Win Taiwan Award

Both Acrosser In-Vehicle PC, AR-V6100 & AR-V6005 have been selected as the winner of 21th Taiwan Excellence Award.

Industrial PC, gaming platform, networking appliance

Intelligent Power Management is the most important feature to add the convenience and stability of In-Vehicle PC usage. The Intelligent Power Module inside AR-V6005, brings a wide range DC power input of 9V to 32V and controlled by a separate micro processor that provides the following features:

1. System off delay time: User can setup delay time in BIOS for different purposes.
2. Power on/off retries: It will perform 3 times of boot up or shut off the system if system on/off process failed in order to assure system can operate normally under severe environment like –20℃ outdoor temperature.
3. Power input monitoring: Continuous monitoring DC input voltage to prevent accidentally drain out car battery. The system will not boot up if car battery voltage is lower than 11.2V. If car battery is lower than 10.8V while system at operation, it will properly shut down the system automatically to keep battery alive.
4. LED indicators represent system power status.
5. Remote control: 2 options to power on or shut down the system, by car ignition switch or remote control switch cable.
All of above functions are controlled by software that can be customized based on ODM customers’ requirement. To execute the 24/7 mission-critical applications on the road, AR-V6100 & AR-V6005 are two of the best solutions for you.