Showing results: 271 - 274 of 274 items found.
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Data Patterns Pvt. Ltd.
Built in strict adherence to open architecture standards, Data Patterns designs COTS module products which are used in today's rugged applications and automatic test equipment platforms. Open standard form factors include cPCI, FMC & XMC, IP, MM, PCI, PCMCIA, PMC, VME, VPX and VXI.A portfolio of 'Off the Shelf ' products for testing and on-board applications have been developed by Data Patterns. COTS boards developed have been sold to many customers, in India as well as Europe and North America. They are used for system level products such as Automatic Test Equipment, Rugged Military Electronics, etc.Data Patterns focus on building COTS product is to provide the technological capability to develop system level products with very fast run around times. Use of Data Patterns' COTS module in system level products ensures Data Patterns ability to maintain the products for a significantly longer life cycle. The proximity to the system level engineering team with the COTS development team ensures that end applications are delivered faster, enabling a shorter time to market for the customers
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AIM GmbH
AIM’s ARINC825 cards can work either with full functionality as an active CAN node for testing and simulating or in listening only mode for monitoring and recording purposes of Avionic CAN bus (ARINC825) applications on up to 4 electrically isolated CAN bus nodes concurrently. All nodes are in conformance with the ISO11898-1/-2 standard. They are accessible by software separately and can be used as 4 independent CAN bus nodes. An onboard IRIG-B time decoder allows users to accurately synchronize single or multiple modules to a common time source. All supported signals are available through front I/O and rear I/O interface. ARINC825 cards consist of FPGA based CAN interface controllers as well as a FPGA based 32-bit microcontroller core and a separate processor for IRIG-B synchronization with high resolution time stamping. All nodes are operating concurrently at CAN bus high speed bit rate of up to 1Mbit/s with the intelligence to process scheduling of CAN frames in real time onboard to significantly off-load the host processor.For embedded applications the AMC825-4 PMC module is available in a conduction cooled version. Using AIM’s family of PCI, CPCI (3U and 6U) and VMEbus carrier cards for PMC our clients have off the shelf solutions in a broad range of card formats. ARINC825 (CAN bus) modules are delivered with an Application Programming Interface (API) and Driver Software compatible with Windows, Linux and VxWorks.An ARINC825 Resource Component is available for AIM’s PBA.pro™ databus test and analysis tool including Tx and Rx simulation capabilities, a Chronological Bus Monitor and support for decoding of payload data within CAN messages. This allows to implement a powerful ARINC825 (CAN bus) analyzer or a complete test system in conjunction with other AIM avionics databus interfaces and PBA.pro™ supported 3rd party hardware.
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PCI102 -
Vadatech Inc
The PCI102 allows testing of AMC.1, AMC.2 and AMC.3 modules in a PC environment during development and manufacturing; reducing the costs associated with maintaining different platforms. The PCI101 is a PCI-X edge style carrier with PCIe x4 lanes going to the AMC module. The AMC.1 module connects to the host PC’s PCI-X bus via a PCI-X to PCI ebridge. The AMC.2 module’s GbE ports are routed to RJ-45s. The AMC.3 differential pairs are routed to two SATA connectors. ThePCI102 is available with an optional VT001 IPMI controller which can test the AMC IPMI management functionality. The dual I2C bus connectors allow for connecting any I2C bus to any other I2C bus as well as being able to debug and monitor the I2C bus traffic. Provides two current sense resistors to measure the payload power as well as the management power of the AMC. The PCI102 can be powered on the bench without the host PC.
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AIM GmbH
AIM’s PANAVIA test, simulation, monitoring and analysis modules use our field proven Common Core hardware design giving you the best performance, best feature set and highest functional integration on the market. The use of SoC (System on Chip) based core design with one processor for real time bus protocol support, massive memory and IRIG-B time code encoder/decoder functions are standard. AIM delivers versions of our modules with extended temperature range and conformal coating. With 8 Tx and 8 Rx channels per module, functions include autonomous transmit sequencing, continuous clock and data transmissions, host controlled double buffering, programmable interrupts, data selection on specific tag identifier, selectable triggers on data and/or tags with full protocol error injection/detection, real time bus recording and time stamping to ensure your bus integrity. Each module is delivered with a Board Support Package (BSP) comaptible to the legacy PCI and cPCI hardware modules.
