Showing results: 106 - 120 of 139 items found.
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778033-01 -
NI
The PCI‑GPIB+ combines an IEEE 488 controller and an analyzer on one device for computers with PCI slots. You can use this device to integrate an instrument into your system using GPIB as well as to troubleshoot and solve GPIB hardware and software problems. The PCI‑GPIB+ achieves maximum IEEE 488.2 transfer rates. With an onboard bus master DMA controller, there is no microprocessor interruption in data transfers. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.
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778686-01 -
NI
The PCI‑GPIB is a plug‑and‑play IEEE 488 interface for PCs and workstations with PCI expansion slots. The PCI‑GPIB can sustain data transfer rates of more than 1.5 MB/s using the IEEE 488.1 three‑wire interlocked handshake. It also implements the high-speed IEEE 488.1 noninterlocked handshake (HS488) for benchmarked data transfers at more than 7.7 MB/s. The onboard bus master DMA controller means that there are no microprocessor interruptions in data transfer.
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GPIB-cPCI-XL -
Ines GmbH
The GPIB-cPCI-XL is a GPIB controller card for PXI and CompactPCI computers.
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GPIB-PCI-104 -
Ines GmbH
The GPIB-PCI-104 is a PCI-104 GPIB controller card that converts any PCI-104 (PC/104-Plus) based embedded system into a GPIB controller.
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GPIB-PC104-XL -
Ines GmbH
The GPIB-PC104-XL is a PC/104 GPIB controller card that converts any PC/104 based embedded system into a GPIB controller.
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785672-01 -
NI
2.1 GHz, 1U Rugged Rack-Mount External Controller for PXI—The RMC‑8357 is a rugged 1U rack-mount controller for PXI- or PXI Express-based systems intended for test and measurement applications requiring rack-mount controllers. It features up to two Intel Xeon eight‐core processors that support up to 32 GB of RAM. The RMC‑8357 offers hot-swappable fans, options for redundant power supplies, and support for RAID arrays, which allows multiple hard drives to be configured for high performance for mission‐critical, physically demanding applications. The RMC‑8357 meets the PXI standard’s mechanical shock and vibration specifications and functions over wide operating ranges.
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785673-01 -
NI
2.1 GHz, 1U Rugged Rack-Mount External Controller for PXI—The RMC‑8357 is a rugged 1U rack-mount controller for PXI- or PXI Express-based systems intended for test and measurement applications requiring rack-mount controllers. It features up to two Intel Xeon eight‐core processors that support up to 32 GB of RAM. The RMC‑8357 offers hot-swappable fans, options for redundant power supplies, and support for RAID arrays, which allows multiple hard drives to be configured for high performance for mission‐critical, physically demanding applications. The RMC‑8357 meets the PXI standard’s mechanical shock and vibration specifications and functions over wide operating ranges.
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781650-33 -
NI
2.8 GHz, 1U Rack-Mount External Controller for PXI - The RMC‑8354 is a 1U rack-mount controller for PXI‑ or PXI Express‑based systems intended for test and measurement applications requiring a rack-mount controller. It features an Intel Core i7‑860 quad‑core processor and offers DDR3 RAM, dual onboard Gigabit Ethernet, and removable SATA II hard drives. It also supports RAID arrays, which allows multiple hard drives to be configured for either high‐speed data streaming or data redundancy.
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Corelis, Inc.
JTAG Boundary-Scan Hardware by Corelis, including boundary-scan controllers, 12C serial bus protocol analyzers & exercisers, JTAG boundary Scan Modules, high-volume production JTAG systems, 7 support for 3rd party JTAG controllers
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MAJIC -
Mentor Graphics Corp.
MAJIC (Multi-Architecture JTAG Interface Controllers) JTAG Probes are small, stand-alone, processor-based systems that provide an intelligent connection between host-based development tools (the debugger) and an embedded processor via its standardized JTAG debug logic IP macrocell.
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JTAG Technologies Inc.
Boundary-scan test and programming applications are only as dependable as the hardware they run on. JTAG Technologies has the industry’s most reliable IEEE 1149.x high speed and performance JTAG controllers, JTAG interfaces and more. To reliably execute your test and programming applications you can choose from a range of different controllers with different performance capabilities and form factors. For use in design, production and manufacturing and service.
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JTAG Starter Kit -
Corelis, Inc.
The Corelis JTAG Starter Kit includes the ScanExpress Debugger software application with a USB 2.0 JTAG controller. Engineers and technicians alike can use the system for a variety of tasks. The JTAG Starter Kit has an arsenal of features to control and observe system signals of a boundary scan compatible UUT.
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ScanTAP -
Corelis, Inc.
The test patterns generated by the PCI-1149.1/Turbo controller are distributed to the target system either directly through ScanTAP 4 and ScanTAP-8 pods. The ScanTAP-4 and ScanTAP-8 pods can apply test vectors and/or ISP patterns to target boards with a variety of JTAG chain topologies. In the simplest case, the ScanTAP-4 and ScanTAP-8 will provide the interface between the PCI-1149.1/Turbo controller and a target system consisting of a single JTAG Test Access Port (TAP). This would be the case where the target system consists of one JTAG chain and its single associated TAP.
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PXI XJLink2 -
XJTAG Ltd.
The PXI XJLink2 module allows the integration of XJTAG into PXI-based test systems. PXI XJLink2 has one JTAG controller that can be connected to up to 4 JTAG chains, which are configurable for pinout and voltage. It is easily integrated with LabVIEWTM with a full set of Virtual Instruments (VIs) included.
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onTAP’s THREE TAP CONNECT JTAG -
Flynn Systems Corp.
Connect the TAP CONNECT JTAG Controller to your application with either the Xilinx ribbon cable, flying leads, or Altera style adaptors. The onTAP TAP CONNECT Controller automatically senses and adjusts to target I/O voltages and interfaces to devices operating at 1.8 to 5.0 VDC for the standard controller, or 0.99 to 3.6 VDC for the low voltage controller, using the VREF voltage from the target chain. If there is no VREF available, you can set the voltage for the target application from the TAP CONNECT Controller. This facilitates easy configuration to many different JTAG ports, which is helpful in design and manufacturing.