MX200 Solid State Drive When the Crucial MX100 was released, it set a new standard for SSDs that the Crucial MX200 pushes even further. Leveraging leading specs on all fronts, along with new Dynamic Write Acceleration technology, the Crucial MX200 is loaded with innovative features and immediately increases your system's performance. The Crucial MX200 delivers 550 MB/s sequential reads on both compressible and incompressible data, and outperforms a typical hard drive by 400 MB/s. Even better, the performance doesn't let up, as the Crucial MX200 posts an endurance rating that's up to 5 times greater than a typical client SSD. Competing SSDs typically rely on a fixed cache of multi-level cell flash memory, which allows you to write sequential data at published specs, but only for so long. Our industry-leading Dynamic Write Acceleration technology solves this problem by using an adaptable pool of high speed, single-level cell flash memory for consistently fast performance that doesn't let up. Our engineers created RAIN technology to protect your data at the component level, similar to how RAID is used with multiple hard drives. This technology increases the security and protection of your data to a level that's rarely seen in consumer-class SSDs. Keep personal files and sensitive information secure from hackers and thieves with AES 256-bit encryption the same grade used by banks and hospitals. The Crucial MX200 meets or exceeds all industry encryption standards, including Microsoft eDrive, IEEE-1667, and TCG Opal 2.0. With Extreme Energy Efficiency technology, the Crucial MX200 is nearly 2x more energy efficient than a typical hard drive. When a photo or file gets corrupted, it often becomes unusable. Prevent this from happening in the first place with the Crucial MX200, which arms every storage component with four layers of Exclusive Data Defense. Adaptive Thermal Protection technology enables the Crucial MX200 to dynamically adjust storage component activity based on how you're using the drive, allowing your storage system to stay cool.
JTF Series
JTF Series Component power supply 8-15 Watts High Power Density Wide 4:1 Input Range Operating Temperature -40 °C to +105 °C Single & Dual Outputs Standard Remote On/Off 1600 VDC Isolation
PCAN-USB FD CAN and CAN FD Interface for High-Speed USB 2.0 The CAN FD adapter PCAN-USB FD allows the connection of CAN FD and CAN networks to a computer via USB. A galvanic isolation of up to 500 Volts decouples the PC from the CAN bus. The simple handling and its compact plastic casing make the adapter suitable for mobile applications. The new CAN FD standard (CAN with Flexible Data rate) is primarily characterized by higher bandwidth for data transfer. The maximum of 64 data bytes per CAN FD frame (instead of 8 so far) can be transmitted with bit rates up to 12 Mbit/s. CAN FD is downward-compatible to the CAN 2.0 A/B standard, thus CAN FD nodes can be used in existing CAN networks. However, in this case the CAN FD extensions are not applicable. The monitor software PCAN-View and the programming interface PCAN-Basic for the development of applications with CAN connection are included in the scope of supply and support the new standard CAN FD. ISO / Non-ISO CAN FD: Since the first implementations of CAN FD, the protocol has been improved and is now included in the standard ISO 11898-1. The revised CAN FD standard is not compatible with the original protocol. PEAK-System takes this into account by supporting both protocol versions with their CAN FD interfaces. If required, the user can switch to the CAN FD protocol used in the environment by software (Non-ISO and ISO).
PCAN-PCI/104-Express CAN Interface for PCI/104-Express The PCAN-PCI/104-Express card enables the connection of one, two, or four CAN busses to a PCI/104-Express system. Up to four cards can be stacked together. The CAN bus is connected using a 9-pin D-Sub plug on the slot brackets supplied. There is galvanic isolation of up to 500 Volts between the computer and CAN sides. The card is available as a single, dual, or four-channel version. The package is also supplied with the CAN monitor PCAN-View for Windows® and the programming interface PCAN-Basic.
Siemens MVB PC/104
Siemens MVB PC/104 MVB Interface Module The MVB PC/104 is an interface module with which it is possible to connect electronic controllers to the MVB. The user of the MVB PC/104 module is provided with API software for their development. The MVB PC/104 connects the parallel PC/104 bus with the serial MVB. Data exchange from the MVB to the PC/104 bus and vice versa is performed via the traffic memory. Arbitration of the traffic memory is performed by the MVBCS1 ASIC. The module is designed for use with a 16-bit CPU with ready acknowledgment. Bytewise accesses to the traffic memory are not possible because of its wordwise organization. Accesses must always be wordwise (only to even addresses).
DXStream-HDMI Ultra Low Latency Standalone H.264 Streaming Client The DXStream-HDMI is an intelligent, stand-alone, ultra-low latency H.264 streaming client that receives, decodes, and displays H.264 encoded video streams. The DXStream-HDMI supports the industry standard RTP/RTSP protocols for streaming data via the integrated 100/1000MBit Ethernet connection. This SWaP optimised solution is ideal for rapid deployment in demanding applications in Military, Communications, Transportation, Mining and Energy industries. The DXStream-HDMI features a dedicated hardware decode engine capable of decoding up to 1080p60 H.264 video at full size and full frame-rate with Ultra Low Latency (under 60ms). The intelligent streaming client is configured via a web interface and once configured the DXStream-HDMI runs autonomously without any user interaction. The DXStream-HDMI is an intelligent stand-alone device with it’s own on-board CPU and does not require a host CPU or any driver or OS software. For mechanical convenience, the module can be mounted on a PC/104 stack without consuming host CPU resources. Highlights Real-time H.264 decode at up to 1080p60 Ultra Low Latency technology with latency below 60ms H.264/MPEG-4 AVC (Part 10) Decoder HDMI/DVI output RTSP/RTP streaming protocol support Single, rugged, real-time video streaming client solution Stand-alone operation Web interface for configuration Standard PC/104 mechanical form factor Applications All-round Real-Time Situational Awareness Real-time video feedback from remote platforms Unmanned vehicles (UAV, ROV) Real-time IP video distribution Remote Video Surveillance Border Security Traffic Monitoring and Control
Ruby-MM-416 4 Channel 16-bit Analog Output+24 DIO PC/104 Module The new Ruby-MM-416 PC/104 module provides 4 channels of 16-bit resolution analog voltage output. The output range for each channel can be independently selected for 0-10V, ±5V, or ±10V with jumpers. All outputs are updated simultaneously, either with a software command or in response to an external signal. The board includes 24 lines of digital I/O using an 82C55 chip. The I/O connector pinout is compatible with the Ruby-MM-4 12-bit analog output board shown in our catalog on pages 20-21. Other features include +5V-only operation, individual DC/DC converters with filtered outputs for each DAC to supply ±15V for operation, and a six-layer circuit board to bury and shield the analog signals.
Ruby-MM-412/812/1612 4, 8, or 16-Channel 12-bit Analog Output PC/104 Module The Ruby-MM series provides 4, 8 or 16 channels of 12-bit resolution analog voltage outputs plus 24 digital I/O lines on a single PC/104 module. An on-board precision voltage reference circuit offers analog output ranges of 0-2.5V, 0-5V, and 0-10V in unipolar mode or ±2.5V, ±5V, and ±10V in bipolar mode. All analog outputs can source or sink up to 5mA simultaneously. The analog outputs are based on the DAC8412 quad 12-bit D/A converter chip. This chip resets all outputs to mid-scale on power-up, meaning 0V for bipolar ranges and 1/2 the full-scale voltage for unipolar ranges. To obtain power-on reset to 0V for unipolar ranges, a special-order version is available using the DAC8413 which powers up to zero scale instead. On the 16-channel model, each group of 8 channels can be set for a different output range. On the 4- and 8-channel models, all outputs have the same output range. All outputs are updated simultaneously, either with a software command or in response to an external trigger. The board includes 24 digital I/O lines using an 82C55 chip. All I/O lines have 10K Ohm pull-up resistors for guaranteed logic levels on power-up. Ruby-MM-1612 is designed and tested for extended temperature operation (-40 to +85oC). It requires only +5VDC from the system power supply via the PC/104 bus. Analog ±15V supplies are derived from miniature DC/DC converters on the board. All I/O is contained on a single 50-pin connector compatible with standard .1” connector ribbon cables, such as Diamond Systems’ C-50-18.
Express-IBE2 COM Express® Basic Size Type 2 Module with Intel® Core™ i7/i5/i3 Processor The Module Computing Product Segment (MCPS) is pleased to introduce its latest COM Express® Type 2 Module with Intel® Core™ i7/i5/i3 Processor and QM77 Chipset, the Express-IBE2. The Express-IBE2 is a COM Express® COM.0 R2.1 Type 2 module with a 3rd Generation Intel® Core™ i7/i5/3 processor and support for error-correcting code (ECC) memory. Based on the latest Mobile Intel® QM77 Express Chipset, the Express-IBE2 is specifically designed for customers who need a highly reliable platform and/or continued support for PCI-bus and PATA IDE in a long product life solution. The Express-IBE2 features the Intel® Core™ i7/i5/i3 processor supporting Intel® Hyper-Threading Technology (up to 4 cores, 8 threads) and DDR3 dual-channel memory at 1066/1333/1600 MHz with error-correcting code (ECC). Integrated HD Graphics 4000 includes features such as OpenGL 3.1, DirectX11, Intel® Clear Video HD Technology, Advanced Scheduler 2.0, 1.0, XPDM support, and DirectX Video Acceleration (DXVA) support for full AVC/VC1/MPEG2 hardware decode. Graphics outputs include VGA, LVDS and SDVO. In addition to the onboard integrated graphics, a multiplexed PCI Express® x16 Graphics bus is available for discrete graphics expansion or general purpose x8 or x4 PCI Express® connectivity. The Express-IBE2 features a single onboard Gigabit Ethernet port, eights USB 2.0 ports, two SATA 6 Gb/s ports, two SATA 3 Gb/s ports and one PATA IDE port. Support is provided for SMBus and I2C. The module is equipped with an SPI AMI EFI BIOS and supports SEMA (Smart Embedded Management Agent). SEMA functionality is consistent over ADLINK"s whole COM product line and provides the following embedded features : BIOS failsafe, voltage/current/temperature monitoring, power sequence control and monitoring, watchdog control, board info and statistics. SEMA comes with extensive software and library support for Windows, Linux, VxWorks and QNX. The ADLINK Express-IBE2 computer-on-module with built-in SEMA Cloud functionality is ready-made for Internet of Things (IoT) applications. The Express-IBE2 is able to connect legacy industrial devices and other IoT systems to the cloud, extract raw data from these devices, determine which data to save locally and which to send to the cloud for further analysis. The results these analyses can provide valuable information for policy decision making and generate innovative business opportunities.
Express-IB COM Express® Basic Size Type 6 Module with 3rd Generation Intel® Core™ i7/i5/i3 Processor The Express-IB is a high performance COM.0 R2.0 Type 6 module featuring an Intel® Core™ i7/i5/i3 processor supporting Intel® HD Graphics integrated on the CPU with three independent displays. A PCI Express x16 Generation 3.0 bus is available for discrete graphics expansion or general purpose PCIe (optionally configure as 2 x8 or 1 x8 + 2 x4). The Express-IB targets applications in Government, Military, Medical, Digital Signage and Communications and is ideal for customers with advanced processing performance and graphics requirements looking to reduce development time by outsourcing the base design of their system and focusing on application functionality. The Express-IB supports Intel® Advance Vector Extensions (Intel® AVX v1.0), with its improved Floating Point Intensive Applications, and also offers the benefits of increased bandwidth provided by USB 3.0.
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