Showing results: 8596 - 8610 of 10234 items found.
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1CPCIS-304-R200 -
ELMA Electronic, Inc.
3U CompactPCI Serial Backplane with 4 CompactPCI S.0 slots, system slot right, without rear IO : 1x CompactPCI S.0 CPU slot, 3x CompactPCI S.0 peripheral slots, without connectors for RTMs (RearTransition Modules), Ethernet routed as full mesh on the backplane
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1CPCIS-302-R200 -
ELMA Electronic, Inc.
3U CompactPCI Serial Backplane with 2 CompactPCI S.0 slots, system slot right, without rear IO : 1x CompactPCI S.0 CPU slot, 1x CompactPCI S.0 peripheral slots, without connectors for RTMs (RearTransition Modules), Ethernet routed as full mesh on the backplane
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1CPCIS-302-R210 -
ELMA Electronic, Inc.
3U CompactPCI Serial Backplane with 2 CompactPCI S.0 slots, system slot right, with rear IO : 1x CompactPCI S.0 CPU slot, 1x CompactPCI S.0 peripheral slots, with connectors for RTMs (RearTransition Modules) in slots 1, Ethernet routed as full mesh on the backplane
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1CPCIS-305-L200 -
ELMA Electronic, Inc.
3U CompactPCI Serial Backplane with 5 CompactPCI S.0 slots, system slot left, without rear IO : 1x CompactPCI S.0 CPU slot, 4x CompactPCI S.0 peripheral slots, without connectors for RTMs (RearTransition Modules), Ethernet routed as full mesh on the backplane
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1CPCIS-308-L200 -
ELMA Electronic, Inc.
3U CompactPCI Serial Backplane with 8 CompactPCI S.0 slots, system slot left, without rear IO : 1x CompactPCI S.0 CPU slot, 7x CompactPCI S.0 peripheral slots, without connectors for RTMs (RearTransition Modules), Ethernet routed as full mesh on the backplane
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1CPCIS-306-L200 -
ELMA Electronic, Inc.
3U CompactPCI Serial Backplane with 6 CompactPCI S.0 slots, system slot left, without rear IO : 1x CompactPCI S.0 CPU slot, 5x CompactPCI S.0 peripheral slots, without connectors for RTMs (RearTransition Modules), Ethernet routed as full mesh on the backplane
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1CPCIS-309-L200 -
ELMA Electronic, Inc.
3U CompactPCI Serial Backplane with 9 CompactPCI S.0 slots, system slot left, without rear IO : 1x CompactPCI S.0 CPU slot, 8x CompactPCI S.0 peripheral slots, without connectors for RTMs (RearTransition Modules), Ethernet routed as full mesh on the backplane
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510170105 -
Virginia Panel Corporation
A small, modular PCB board that connects high speed digital inserts (VTAC) to a single Cat6 connector. Great for COTS cable configurations. Compatible with all VTAC/SIM receiver modules. Please note this part is too wide for use in multiple adjacent slots (for more information, please reference the attached drawing).
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Model 71671 -
Pentek, Inc.
- Complete radar and software radio interface solution- Supports Xilinx Virtex-6 LXT and SXT FPGAs- Four 1.25 GHz 16-bit D/As- Four digital upconverters- Extended interpolation range from 2x to 1,048,576x- Programmable output levels- 250 MHz max. output bandwidth- 2 GB of DDR3 SDRAM- Sample clock synchronization to an external system reference- Dual uSync clock/sync bus for multimodule synchronization- PCI Express (Gen. 1 & 2) interface, up to x8- Optional user-configurable gigabit serial interface- Optional LVDS connections to the Virtex-6 FPGA for custom I/O- Synchronize up to four modules with Model 7192 System Synchronization and Distribution Amplifier - PMC/XMC- Synchronize up to twelve modules with Model 9192 System Synchronization and Distribution Amplifier- 1U Rack-mount
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Model 71670 -
Pentek, Inc.
- View product video- Complete radar and software radio interface solution- Supports Xilinx Virtex-6 LXT and SXT FPGAs- Four 1.25 GHz 16-bit D/As- Four digital upconverters- Programmable output levels- 250 MHz max. output bandwidth- 2 GB of DDR3 SDRAM- Sample clock synchronization to an external system reference- Dual µSync clock/sync bus for multimodule synchronization- PCI Express (Gen. 1 & 2) interface, up to x8- Optional user-configurable gigabit serial interface- Optional LVDS connections to the Virtex-6 FPGA for custom I/O- Synchronize up to four modules with Model 7192 System Synchronization and Distribution Amplifier - PMC/XMC- Synchronize up to twelve modules with Model 9192 System Synchronization and Distribution Amplifier- 1U Rack-mount
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40-201-004 -
Pickering Interfaces Ltd.
This high bandwidth differential fault insertion module is designed to simulate common faults on high speed two wire communication interfaces such as Ethernet. This module supports 4 or 8-channels of two wire serial connections and can be used for simulating faults on Ethernet, AFDX, BroadR-Reach, 100BaseT and 1000BaseT interfaces. Any wire can be set to an open circuit, shorts can be applied across the wire pair, or to the adjacent pair. Fault connections can be made to one of four external signals via two fault buses, typically simulating connections to a supply voltage or ground. Each fault bus is capable of carrying 2A allowing multiple channels to be connected to the same fault condition. Additionally, each fault bus features a changeover relay to allow the user to connect alternative fault conditions to the fault buses.
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40-201-008 -
Pickering Interfaces Ltd.
This high bandwidth differential PXI fault insertion module is designed to simulate common faults on high speed two wire communication interfaces such as Ethernet. This module supports 4 or 8-channels of two wire serial connections and can be used for simulating faults on Ethernet, AFDX, BroadR-Reach, 100BaseT and 1000BaseT interfaces. Any wire can be set to an open circuit, shorts can be applied across the wire pair, or to the adjacent pair. Fault connections can be made to one of four external signals via two fault buses, typically simulating connections to a supply voltage or ground. Each fault bus is capable of carrying 2A allowing multiple channels to be connected to the same fault condition. Additionally, each fault bus features a changeover relay to allow the user to connect alternative fault conditions to the fault buses.
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Eye-BERT Micro -
Spectronix
The Eye-BERT Micro is a low cost, easy to use, all-in-one SFP based fiber optic test solution offering high performance bit error rate testing at a fraction of the cost while providing a rich set of features not found in other bit error rate testers. Features include: variable bit rate, user programmable patterns, and optical power and temperature monitoring (per SFP capability). Additionally, with a click of a button, the Eye-BERT Micro will automatically test an SFP module based on the information it reads from the module and generate a detailed test report complete with manufacturer, part number, serial number, date code, fiber type, link length, speed, and test results. The Unit is supplied with anti-skid bumpers and is small enough to be integrated into larger systems for dedicated link verification.
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DTX 5000 Series -
R.C. Electronics, Inc.
The DTX-5000 Signal Conditioner Series provides up to 64 channels of state-of-the-art signal processing in a compact (5U) chassis. Using hybrid mixed-signal technology, high-performance analog circuitry is combined with Digital Signal Processing to give gain accuracy performance previously available only in larger customized modules. A simple-to-use graphical user interface running under the Windows 2000 operating system allows for ease of setup and either local or remote operation as a network-based instrument node. The suite of conditioner modules include a strain amplifier with internal bridge completion, a general-purpose instrumentation amplifier with selectable AC or DC coupling, a linearized thermocouple amplifier with cold-junction compensation, a frequency-to-voltage converter with dual inputs for direction sensing, and an ICP accelerometer amplifier with constant-current excitation.
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OPTOWARE-B200 -
Notice
Bench top ASE broadband source system with built-in ASE source module has particularities that it can be operated easily and enables its output spectral feature changed variously by controlling pump LDs inside the module. The output of ASE source can be set to the customized feature by controlling the output power of embedded pump LD individually through the provided program. In case optimum ASE output features such as wide broadband (>80nm@-10dBm/nm) and stable output power (<0.02dB) is needed, it is made up so that the provided Default mode along with User mode can be chosen and set up. Through the micro processor and FPGA inside, more stable application is possible by combining the real-time monitoring of output power and pump LD status with the high speed feedback routine.