Showing results: 136 - 150 of 173 items found.
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785283-01 -
NI
100 MVector/s, PXI Digital Pattern Instrument—The PXIe‑6570 is designed for semiconductor characterization and production test. It includes the Digital Pattern Editor for configuring pin maps, specifications, levels, timing, and patterns. The PXIe‑6570 also includes debugging tools like Shmoo, digital scope, and viewers for history RAM, pin states, and system status.
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779313-01 -
NI
16-Channel, ±30 VDC, 8 Sink/Source Inputs, 8 Relay Outputs, Isolated PXI Digital I/O Module—The PXI‑6521 is an industrial digital I/O module with high channel isolation and industry-standard 24 V logic levels. For added safety, the PXI‑6521 requires a keyed connector. If a computer or application fault occurs, the PXI‑6521 can use digital I/O watchdogs to switch to a configurable safe output state to ensure detection and safe recovery from fault conditions. It also features programmable power-up states, digital filtering, and change detection for optimal control over your application.
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GX5731 -
Marvin Test Solutions, Inc.
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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M4I.7725-X8 -
Spectrum Instrumentation
The M4i.77xx-x8 series digital waveform acquisition (logic-analyzer) cards include versions with 32 synchronous channels, either single-ended with programmable threshold levels or differential. The large onboard memory can be segmented to record different waveform sequences. While the M4i.77xx cards have been designed using the latest technology they are still software compatible with the drivers from earlier Spectrum digital acquisition cards. Therefore existing customers can use the same software they developed for a 10 year old 60 MS/s digital input card also for an M4i.77xx series 720 MS/s logic analyzer.
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M4I.7720-X8 -
Spectrum Instrumentation
The M4i.77xx-x8 series digital waveform acquisition (logic-analyzer) cards include versions with 32 synchronous channels, either single-ended with programmable threshold levels or differential. The large onboard memory can be segmented to record different waveform sequences. While the M4i.77xx cards have been designed using the latest technology they are still software compatible with the drivers from earlier Spectrum digital acquisition cards. Therefore existing customers can use the same software they developed for a 10 year old 60 MS/s digital input card also for an M4i.77xx series 720 MS/s logic analyzer.
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M4I.7730-X8 -
Spectrum Instrumentation
The M4i.77xx-x8 series digital waveform acquisition (logic-analyzer) cards include versions with 32 synchronous channels, either single-ended with programmable threshold levels or differential. The large onboard memory can be segmented to record different waveform sequences. While the M4i.77xx cards have been designed using the latest technology they are still software compatible with the drivers from earlier Spectrum digital acquisition cards. Therefore existing customers can use the same software they developed for a 10 year old 60 MS/s digital input card also for an M4i.77xx series 720 MS/s logic analyzer.
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M4I.7735-X8 -
Spectrum Instrumentation
The M4i.77xx-x8 series digital waveform acquisition (logic-analyzer) cards include versions with 32 synchronous channels, either single-ended with programmable threshold levels or differential. The large onboard memory can be segmented to record different waveform sequences. While the M4i.77xx cards have been designed using the latest technology they are still software compatible with the drivers from earlier Spectrum digital acquisition cards. Therefore existing customers can use the same software they developed for a 10 year old 60 MS/s digital input card also for an M4i.77xx series 720 MS/s logic analyzer.
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M4I.7710-X8 -
Spectrum Instrumentation
The M4i.77xx-x8 series digital waveform acquisition (logic-analyzer) cards include versions with 32 synchronous channels, either single-ended with programmable threshold levels or differential. The large onboard memory can be segmented to record different waveform sequences. While the M4i.77xx cards have been designed using the latest technology they are still software compatible with the drivers from earlier Spectrum digital acquisition cards. Therefore existing customers can use the same software they developed for a 10 year old 60 MS/s digital input card also for an M4i.77xx series 720 MS/s logic analyzer.
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PCIe-7248/7296 -
ADLINK Technology Inc.
ADLINK"s PCIe-7248/7296 are high-density parallel digital I/O boards with 96/48 I/O channels. The header connectors are fully compatible with industry Opto-22 standard. Thus, PCIe-7248/7296 can utilize the Opto-22 external devices. The PCIe-7248/7296 devices emulate mode 0 of the industry standard 8255 programmable peripheral interface (PPI) chips. The PCIe-7248/7296 provides 4/2 PPI chips respectively. Each PPI offers three 8-bit ports: Port A, Port B and Port C. The Port C is divided into 2 nibble-wide (4-bit) ports. The PCIe-7248/7296 devices have programmable timer/counters. One 16-bit counter is available for event counting, while the other 32-bit timer is available for timed interrupt generation. The PCIe-7248/7296 devices provide multiple programmable interrupt sources from DIO channels, as well as the output of the timer.
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40-410-001 -
Pickering Interfaces Ltd.
The 40-410 range of Digital I/O Modules are suitable for operating external devices, such as heavy duty relays (power, RF and high voltage types), solenoids, lamps, or for interfacing with external logic such as a programmable instrument with a BCD interface.
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40-419-002 -
Pickering Interfaces Ltd.
The 40-419-002 is a 48-channel digital I/O module suitable for operating external devices, such as power, RF and high voltage relays, solenoids and lamps. It can also be used for interfacing with external logic such as a programmable instrument with a BCD interface depending upon the module’s driving capabilities.
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40-419-003 -
Pickering Interfaces Ltd.
The 40-419-003 is a 32-channel digital I/O module suitable for operating external devices, such as power, RF and high voltage relays, solenoids and lamps. It can also be used for interfacing with external logic such as a programmable instrument with a BCD interface depending upon the module’s driving capabilities.
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40-419-004 -
Pickering Interfaces Ltd.
The 40-419-004 is a 16-channel digital I/O module suitable for operating external devices, such as power, RF and high voltage relays, solenoids and lamps. It can also be used for interfacing with external logic such as a programmable instrument with a BCD interface depending upon the module’s driving capabilities.
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40-419-001 -
Pickering Interfaces Ltd.
The 40-419-001 is a 64-channel digital I/O module suitable for operating external devices, such as power, RF and high voltage relays, solenoids and lamps. It can also be used for interfacing with external logic such as a programmable instrument with a BCD interface depending upon the module’s driving capabilities.
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GX3788 -
Marvin Test Solutions, Inc.
The GX3788 is a user configurable, FPGA-based, 3U PXI multi-function card which supports digital and analog test capabilities. The card employs the Altera Stratix III FPGA which features over 45,000 logic elements and 1.836 Kb of memory. The GX3788 is based on the GX3700 FPGA card and includes an integral daughter board which provides (8) differential input, 16-bit, 250 MS/s A to D converters and (8), 16-bit, 1 MS/s, D to A converters. The module's FPGA is pre-programmed, providing access to all digital and analog functions. Alternatively, users can program or modify the FPGA , allowing user to adapt the module to their own specific test needs. The design of the FPGA is done by using Altera's free Quartus II Web Edition tool set. Once the user has compiled the FPGA design, the configuration file can be loaded into the FPGA directly or via an on-board EEPROM.