Showing product results. 6331 - 6345 of 6959 products found.
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GX5731 - Terotest Systems Ltd.
The GX5731 is a 6U modular digital I/O card with 224 I/O channels. Designed for ATE, data acquisition, or process control systems where a large number of discrete I/O channels are required, the GX5731 offers the highest density in the industry for a single PXI plug-in board. Of the 224 channels, 128 support TTL levels with the direction of each group of eight channels programmable as input or output. The other 96 channels can be used for customized I/O using MTS' GX57xx series I/O modules.
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ViTec Co. Ltd
The hardware part of the measuring system of the test bench is built on the basis of equipment from National Instruments and contains the following components: multichannel switching system for SCXI signal conditioning, interrogation system of "fast-changing" voltage signals and AC power PXI, including M-series NI PXI-6220 board for SCXI module measuring channels, a high-performance Ethernet controller for the distributed I / O system and industrial control cFP-2110 running operating systems hard real-time, multi-channel vibration measurement complex K-5101.
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NI-9146 / 782445-01 - NI
4-Slot, Spartan-6 LX45 FPGA, Ethernet CompactRIO Chassis - The NI-9146 is a rugged Ethernet chassis that you can use to add C Series I/O modules to any standard Ethernet network. You can program the chassis using scan-mode for fast expansion of your real-time system or using … the onboard FPGA for inline processing and high-speed I/O and control. The NI-9146 enables you to add high-performance I/O to your PC-based application or expand your CompactRIO, PXI, or industrial controller application.
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NI-9149 / 783376-01 - NI
8-Slot, Zynq-7020 FPGA, Ethernet CompactRIO Chassis - The NI‑9149 is a rugged Ethernet chassis that you can use to add C Series I/O modules to any standard Ethernet network. You can program the chassis using Scan Mode for fast expansion of your real-time system or … using the onboard FPGA for inline processing and high-speed I/O and control. With the NI‑9149, you can add high-performance I/O to your PC-based application or expand your CompactRIO, PXI, or industrial controller application.
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NI-9147 / 783496-01 - NI
4-Slot, Zynq-7020 FPGA, Ethernet CompactRIO Chassis - The NI‑9147 is a rugged Ethernet chassis that you can use to add C Series I/O modules to any standard Ethernet network. You can program the chassis using Scan Mode for fast expansion of your real-time system or … using the onboard FPGA for inline processing and high-speed I/O and control. With the NI‑9147, you can add high-performance I/O to your PC-based application or expand your CompactRIO, PXI, or industrial controller application.
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CPE4000 - Computer Conversions Corporation
Computer Conversions’ CPe4000 Series are CompactPCI-Express (cPCIe) and PXI Express (PXIe) compliant: Synchro, Resolver, and LVDT/RVDT I/O Cards (predominantly output cards), with GEN1 and GEN 2 PCI Express interface, designed for accurate and reliable commercial, industrial and COTS-Mil. applications in test, simulation, motion control and shipboard data distribution. The CPe4000 Series drive up to 4 channels of Synchro, Resolver, 3-wire LVDT/RVDT outputs, or up to 8 channels of 2 wire LVDT/RVDT AC Sensor output sets.
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40-855-112 - Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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40-860-012 - Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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40-855-342 - Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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40-855-312 - Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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40-855-212-M - Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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40-852-518-M - Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching modules are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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HPE Edgeline EL1000 / 785689-01 - NI
2-Slot, 2U, 8 GB/s Converged IoT PXI Chassis—The HPE Edgeline EL1000 is a Converged IoT PXI Chassis that works between operational and information technologies to integrate precision data capture and control; data center-class security; device and systems management; and large, low-latency storage capabilities in a single converged chassis. This rugged and compact system is designed to perform in harsher environments with high shock, vibration, and temperature levels. The system is ideal for expanding the IoT infrastructure beyond the traditional data center.
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40-860-412 - Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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40-850-514-M - Pickering Interfaces Ltd.
Pickering PXI Fiber Optic MEMS Switching modules are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
