Showing results: 391 - 405 of 467 items found.
-
AMCX-FDX-2/B -
AIM GmbH
AFDX®/ARINC664P7 Test and Simulation module for PMC with 2 full duplex ports programmable for 10/100/1000 Mbit/s. Versions available for both Airbus and Boeing variants of ARINC664P7.
-
AXC-FDX-2/B -
AIM GmbH
AFDX®/ARINC664P7 Test and Simulation module for XMC with 2 full duplex ports programmable for 10/100/1000 Mbit/s. Versions available for both Airbus and Boeing variants of ARINC664P7.
-
APS-FC-2 -
AIM GmbH
The APS-FC-2 is AIM’s high performance PCIe module offering 2 ports with full function test, simulation, monitoring and analyzer functions for Fibre Channel networks. The APS-FC-2 is a powerful State-of-the-Art 4-lane PCIe 2.0 compliant PCIe board.
-
AMC825-x -
AIM GmbH
ARINC825 (CAN bus) Test & Simulation module for PMC with 2 or 4 electrically isolated CAN bus nodes operating concurrently at CAN bus high speed bit rate of up to 1Mbit/s. The AMC825-x PCI Mezzanine Card (PMC) 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.
-
XMC-1553-2-IO -
ALPHI Technology Corporation
The XMC-1553-2-IO-2 uses a DDC® Total-ACE® communication device as its 1553 bus controller, or as a remote terminal with concurrent bus monitor terminal. Dual controller has a dual redundant channel with built in transceivers and transformer. The controller has the capability to emulate up to 31 RT addresses simultaneously.
-
PMC-CIV-COM-ISO -
ALPHI Technology Corporation
User Programmable AlteraCyclone IV FPGA 484 BGA:• Stand alone possibility• Single wide PMC Module• 20 LVDS,2 RS-422,1 RS-232• Optional User clock oscillator
-
PMC-SCC04-IO -
ALPHI Technology Corporation
The PMC-SCC04-IOmodule is a QuadChannel serialcommunication controllerwith 64 Byte Fifo per line.The PMC-SCC04-IO isbased on the XR17D154.The device support autoconfiguration registers forplug-and-play installation.This module provide 4Asynchronous ports up to6.125MBps .
-
PMC-1553 -
ALPHI Technology Corporation
Operating temperatureCommercial: 0 to +55 °COptional: -25°C to +80°C• Non-operating: -40°C to 85 °C• Airflow requirement: .5 CFM• Humidity: 5 to 90% (non-cond.)• Altitude: 0 to 10’000 ft
-
PMC-1553-TACEx -
ALPHI Technology Corporation
Operating temperatureCommercial: 0 to +70 °COptional: -40°C to +80°C• Airflow requirement: .5 CFM• Humidity: 5 to 90% (non-cond.)• Altitude: 0 to 20’000 ft
-
PMC-1553-PLX -
ALPHI Technology Corporation
Operating temperatureCommercial: 0 to +70 °COptional: -40°C to +80°C• Airflow requirement: .5 CFM• Humidity: 5 to 90% (non-cond.)• Altitude: 0 to 20’000 ft
-
PMC-MON16LED -
ALPHI Technology Corporation
• Fully compatible withGE Fanuc / RamixPMC498• PCI MezzanineCard (PMC) IEEE1386• 16 LEDs• Two RotarySwitches for 256Combinations• Read / Writeable• Monitoring LEDs• Front panel I/Oaccess
-
PMC-softDAC-xxF -
ALPHI Technology Corporation
2 µS settling time, 0-5v range• Six Programmable OutputRanges per channel• Up to 30ma Output Drive• Output Specification:o 16 Bits Settling time: 700ns (typ)o Low Offset:125µV(typ)o Offset Drift: 0.35 µV/ºC (typ)• Unipolar: 0V to 5V, 0V to 10V• Bipolar Mode: ±5V, ±10V,±2.5V,–2.5V to 7.5V, +-10 mAcontinous, +-30 mA max• 1LSB Max DNL and INL Over theIndustrial Temperature Range• 1 MWords x 32 bits dynamicallyallocatable between channels• 500 KSPS throughput• Power-On Reset to 0V• Flash ram for configuration file• Two stage buffers• Global output buffer w/ internal orexternal triggering• 4 User Digital I/O, (TTL levels,outputs: 48 mA sinking, 12 mAsourcing)• Optional A/D for reading back
-
PMC-softDAC -
ALPHI Technology Corporation
2 µS settling time, 0-5v range• Six Programmable OutputRanges per channel• Unipolar: 0V to 5V, 0V to 10V• Bipolar Mode: ±5V, ±10V,±2.5V,–2.5V to 7.5V• 1LSB Max DNL and INL Over theIndustrial Temperature Range• 64k DAC buffers• Power-On Reset to 0V• Flash ram for configuration file• Two stage buffers• Global output buffer w/ internal orexternal triggering
-
AIM GmbH
AIM’s innovative, unique and successful ‘Common Core’ hardware design set new standards for onboard intelligence and performance when introduced to the market in 1998. Since then, further generations and evolutions of the Common Core approach have been introduced, offering improved performance, higher channel density, lower power consumption, the migration to smaller form factors as well as the support of new avionics bus and network communication standards.
-
PMC-DA816 -
ALPHI Technology Corporation
The PMC-DA816 is a slave Digital to Analog boardthat is managed by the host processor on the PMCbus. The card contains a state machine that performsmost of the work of outputting data, in order tominimize the impact to the HOST system.The PMC-DA816 is supported by ALPHI Technologyunder Windows NT by a Board Support Packagewhich is supplied with the card. Other documentationsupplied with the card will describe this support in fulldetail.