NI
NI is a technology pioneer and leader in virtual instrumentation - a revolutionary concept that has changed the way engineers and scientists in industry, government, and academia approach measurement and automation.
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Austin, TX 78759-3504
United States of America
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Product
PXI Electronic Load Module
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PXI Electronic Load Module provides the electronic load capabilities of sinking DC power with high-accuracy measurements in a compact form factor optimized for design validation, characterization, and production test.
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Product
NI-9230, 3-Channel, 12.8 kS/s/channel, ±30 V, C Series Sound and Vibration Input Module
783824-02
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3-Channel, 12.8 kS/s/channel, ±30 V, C Series Sound and Vibration Input Module - The NI‑9230 can measure signals from integrated electronic piezoelectric (IEPE) and non‑IEPE sensors such as accelerometers, tachometers, and proximity probes. The NI‑9230 is also compatible with smart TEDS sensors. The NI‑9230 incorporates software-selectable AC/DC coupling, IEPE open/short detection, and IEPE signal conditioning. The input channels simultaneously measure signals. Each channel also has built-in anti-aliasing filters that automatically adjust to your sample rate. When used with NI software, this module provides processing functionality for condition monitoring such as frequency analysis and order tracking.
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Product
cRIO-9068, 667 MHz Dual-Core CPU, 512 MB DRAM, 1 GB Storage, Zynq-7020 FPGA, Extended Temperature, 8-Slot CompactRIO Controller
782663-01
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667 MHz Dual-Core CPU, 512 MB DRAM, 1 GB Storage, Zynq-7020 FPGA, Extended Temperature, 8-Slot CompactRIO Controller - The cRIO-9068 is a rugged, fanless, embedded controller that you can use for advanced control and monitoring applications. This software-designed controller features an FPGA, a real-time processor running the NI Linux Real-Time OS, and embedded user interface capability. The cRIO-9068 features an SDHC slot and a variety of connectivity ports, including two tri-speed RJ-45 Gigabit Ethernet, one USB host, and three RS-232 serial. Additionally, the cRIO-9068 supports an extended operating temperature range. The registered trademark Linux® is used pursuant to a sublicense from LMI, the exclusive licensee of Linus Torvalds, owner of the mark on a worldwide basis.
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Product
PCI-7813, 3M Gate Virtex-II FPGA, Digital Reconfigurable I/O Device
779370-01
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The PCI‑7813 is a reconfigurable I/O (RIO) device that features a user-programmable FPGA for onboard processing and flexible I/O operation. With LabVIEW FPGA, you can individually configure the digital lines as inputs, outputs, counter/timers, PWM, encoder inputs, or specialized communication protocols. You can also program custom onboard decision making that executes with hardware-timed speed and reliability. The PCI‑7813 is well-suited for a wide variety of applications, such as high-speed waveform generation, sensor simulation, hardware-in‑the‑loop (HIL) test, custom communications protocols, bit error rate test, and other applications that require precise timing and control.
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Product
PXIe-1486, 8 Input, 8 Output, or 4 Input/4 Output PXI FlexRIO FPD-Link™ Interface Module
787455-01
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The PXIe-1486 combines the Texas Instruments Flat Panel Display Link™ (FPD-Link™) interface with the Xilinx FPGA for high-throughput vision and imaging applications. This module provides a high-speed digital interface for using and testing modern advanced driver assistance systems (ADAS) and autonomous drive (AD) camera sensors and electronic control units (ECUs). Additionally, the PXIe-1486 makes use of a combination of FPD-Link™ serializers and deserializers with a Xilinx FPGA to provide a high-throughput and customizable FPD-Link™ interface on PXI. The included FlexRIO driver, with LabVIEW FPGA examples, provides access and control for power-over-coax, I²C back-channel communication, and general-purpose input/output (GPIO) communication on the FPD-Link™ channels. The PXIe-1486 is ideal for applications such as in-vehicle data logging, lab-based playback, or hardware-in-the-loop (HIL). FPD-Link is a trademark of Texas Instruments.
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Product
PXI-8231, 1-Port Gigabit PXI Ethernet Interface Module
781752-01
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1-Port Gigabit PXI Ethernet Interface Module—The PXI‑8231 provides a Gigabit Ethernet interface with up to 1000 Mbit/s transfers. With 1000 Mbit/s Gigabit Ethernet, you achieve a substantial performance increase over 100 Mb/s Fast Ethernet while remaining completely compatible with 10BASE‑T and 100BASE‑TX Fast Ethernet networks. The PXI‑8231 also features automatic cable polarity detection.
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Product
PCIe-8431, PCI Express, 16-Port, RS485/RS422 Serial Interface Device
780592-02
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The PCIe‑8431/16 is a high-performance interface for high-speed communication with RS485 and RS422 devices. It features high-performance DMA transfers, multithreading, and multiprocessor support. You can also select between 4‑ and 2‑wire transceiver modes for full‑ and half‑duplex communication. NI serial interfaces also appear as standard COM ports for compatibility with programs that use serial communications.
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Product
PXI Digital I/O Module
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PXI Digital I/O Modules offer up to 96 channels of digital I/O, with compatibility for a variety of voltage and isolation levels. Some models include programmable input filters to eliminate glitches/spikes and provide debouncing for digital switches/relays through a software-selectable digital filter. PXI Digital I/O Modules are ideal for a range of applications, from manufacturing test and industrial control to advanced aerospace and laboratory research.
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Product
PXIe-5673E, 6.6 GHz PXI Vector Signal Generator
781263-01
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6.6 GHz PXI Vector Signal Generator—The PXIe‑5673E is a wide-bandwidth module that, when combined with the appropriate software, can generate a variety of signals. With the Modulation Toolkit for LabVIEW, it can generate different waveforms including AM, FM, CPM, ASK, FSK, MSK, PSK, QAM (4‑, 16‑, 64‑, and 256‑QAM), multitone signals, arbitrary waveforms, and many others. In addition, you can combine these vector signal generators with standard-specific software to generate signals for GPS, GSM/ EDGE/WCDMA, WLAN, WiMAX, DVB‑C/H/C, ISDB‑T, ZigBee, and others. With PXIe‑5673E stream‑from‑disk capabilities, you can generate continuous waveforms that are up to several terabytes in length.
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Product
PCI-8517, 2-Port FlexRay Interface Device
780685-02
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2-Port FlexRay Interface Device—The PCI‑8517 is designed for developing FlexRay applications. As part of the NI‑XNET platform, the PXI‑8517 works well in applications requiring real-time, high-speed manipulation of hundreds of FlexRay frames and signals, such as hardware‑in‑the‑loop simulation, rapid control prototyping, bus monitoring, automation control, and more. The PCI‑8517 contains two fully functional FlexRay interfaces, allowing an individual engine control unit (ECU) to be connected to the interface when other cold-start nodes are not available. You also can use the interfaces individually to connect two separate FlexRay networks while maintaining full performance on each interface.
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Product
PXIe-5764, 16-Bit, 1 GS/s, 4-Channel PXI FlexRIO Digitizer
785167-01
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The PXIe-5764 is a PXI FlexRIO Digitizer that simultaneously samples four channels at 1 GS/s with 16 bits of resolution and features 400 MHz of analog input bandwidth. With up to 70 dB of SNR, the PXIe-5764 is ideal for applications that require a wide dynamic range with a wideband digitizer. The FlexRIO driver includes support for finite and continuous streaming modes, and you can implement custom algorithms and real-time signal processing on the LabVIEW-programmable Xilinx Kintex UltraScale FPGA. Available in AC and DC coupled variants, the PXIe-5764 is ideal for both time and frequency domain applications, including radar prototyping, LIDAR, communications, microscopy, OCT, event detection, and particle physics.
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Product
CAT-5E Ethernet, Thin Profile, 1M
151733-01
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8-Pin Male Ethernet to 8-Pin Male Ethernet, CAT-5E Ethernet Cable - The 8M-8M Ethernet Cable connects devices to network hubs or switches. The cable has straight-through wiring and is available in different lengths and thin profile options.
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Product
PXI-5154, 1 GHz, 2 GS/s, 8-Bit, 8 MB/ch, PXI Oscilloscope
780319-01
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1 GHz, 2 GS/s, 8-Bit, 8 MB/ch, PXI Oscilloscope—The PXI‑5154 is ideal for acquisition and characterization of fast, nanosecond-edge speeds. It is well-suited for automated test and data streaming applications in the consumer electronics, semiconductor, aerospace/defense, and life sciences industries. The PXI‑5154 also comes equipped with up to 256 MB of memory per channel to provide high, sustained sample rates over extended data capture windows. This digitizer, optimized for automated test, uses a high-throughput bus to lower test times, provides picosecond-level synchronization among modules, and integrates with the entire suite of NI hardware, so you can build and customize a complete mixed-signal or high‑channel‑count test system.
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Product
PCI-6154, 4 AI (16-Bit, 250 kS/s/ch), 4 AO, 6 DI, 4 DO, PCI Multifunction I/O Device
779340-01
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4 AI (16-Bit, 250 kS/s/ch), 4 AO, 6 DI, 4 DO, PCI Multifunction I/O Device - The PCI‑6154 is a simultaneous-sampling, channel-to-channel isolated DAQ device. It offers analog I/O, digital input, digital output, two 32‑bit counters, and digital triggering. You can combine the channel‑to‑channel isolated analog outputs to generate signals greater than ±10 V (up to ±40 V by combining all four channels). The PCI‑6154 is ideal for a variety of applications including automotive test, industrial monitoring and control, and high-speed continuous data logging. The included NI‑DAQmx driver and configuration utility simplify configuration and measurements.
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Product
NI-1483, Full-Configuration Camera Link Adapter Module for FlexRIO
781341-01
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The NI‑1483 makes FPGA image processing possible for FlexRIO systems. It supports 80‑bit, 10‑tap base‑, medium‑, and full‑configuration image acquisition from Camera Link 1.2 standard cameras. You can pair the NI‑1483 with a PXI FPGA Module for FlexRIO to perform custom image analysis. FPGA processing is ideally suited for applications that require bit-level processing and very low system latency. Implemented in hardware, FPGA processing does not require CPU intervention. You can process images on the FPGA independently or with a CPU for more advanced preprocessing architectures.





























