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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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Showing results: 1216 - 1230 of 1970 items found.

  • NI-9852, 2-Port, Low-Speed/Fault Tolerant C Series CAN Interface Module

    779707-01 - NI

    2-Port, Low-Speed/Fault Tolerant C Series CAN Interface Module—The NI-9852 is a fault‑tolerant Controller Area Network (CAN) interface for developing FPGA-based applications with the NI‑RIO driver on CompactRIO. The NI‑9852 is ideal for low-level FPGA‑based control and triggering applications that are programmed using the LabVIEW FPGA Module. The NI‑9852 is ideal for byte-level manipulation of CAN frames using the LabVIEW FPGA Module. The NI‑9852 is only compatible with CompactRIO systems.

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  • NI-9326, 6-Channel, 150 V, 128 kHz C Series Frequency Input Module

    786999-01 - NI

    6-Channel, 150 V, 128 kHz C Series Frequency Input Module - The NI-9326 is a channel-to-channel isolated frequency input module for CompactDAQ and CompactRIO systems. This module includes six differential input channels with a 0 Vrms to 150 Vrms input range. The NI-9326 also features configurable thresholds for connection to a variety of variable reluctance sensors, single channel encoders, and hall-effect sensors. You can use the included embedded counters to perform frequency measurements or edge-counting for tracking total counts on a periodic signal. Additionally, the NI-9326 supports configurable Butterworth filters to help you perform low-noise frequency measurements.

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  • cRIO-9041, 1.30 GHz Dual-Core CPU, 2 GB DRAM, 4 GB Storage, -40 °C to 70 °C, Kintex-7 70T FPGA, 4-Slot CompactRIO Controller

    786369-01 - NI

    1.30 GHz Dual-Core CPU, 2 GB DRAM, 4 GB Storage, -40 °C to 70 °C, Kintex-7 70T FPGA, 4-Slot CompactRIO Controller - The cRIO-9041 is a rugged, high-performance, customizable embedded controller that offers Intel Atom dual-core processing, NI-DAQmx support, and an SD card slot for data-logging, embedded monitoring, and control. It includes a Kintex-7 70T FPGA with LabVIEW FPGA Module support for advanced control and coprocessing. The controller provides precise, synchronized timing and deterministic communications using Time Sensitive Networking (TSN), which is ideal for highly distributed measurements. This controller offers several connectivity ports, including Gigabit Ethernet, USB 3.1, USB 2.0, RS232, and RS485 ports. You can use the USB 3.1 ports to add a local human machine interface and program, deploy, and debug software, which simplifies application development.

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  • USRP Software Defined Radio Reconfigurable Device

    NI

    The USRP Software Defined Radio Reconfigurable Device is built on the LabVIEW reconfigurable I/O (RIO) and universal software radio peripheral (USRP) architectures. It includes a powerful FPGA for advanced DSP that you can program with the LabVIEW FPGA Module. The device includes 2x2 MIMO transceivers or four-channel superheterodyne receivers, supporting center frequencies from 10 MHz to 6 GHz, with up to 160 MHz of instantaneous bandwidth. The USRP Software Defined Radio Reconfigurable Device also optionally includes a GPS‐disciplined oven-controlled crystal oscillator (GPSDO), which provides greater frequency accuracy than temperature- compensated crystal oscillators. Prototyping applications include LTE and 802.11 prototyping, spectrum monitoring, signals intelligence, military communications, radar, direction finding, and wireless research.

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  • PXI CANopen Interface Module

    NI

    The PXI CANopen Interface Module is a high-speed CANopen interface for developing applications with the NI-Industrial Communications for CANopen driver. CANopen is the application layer that sits on top of the CAN physical layer often used for industrial automation applications. The PXI CANopen Interface Module can transmit/receive PDOs and SDOs according to CiA DS301. It also features a batch SDO editor with electronic data sheet (EDS) file integration and layer setting services (LSS) support for slave node configuration.

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  • PXIe-6547 , 100 MHz, 32-Channel PXI Express PXI Digital Waveform Instrument

    81011-03 - NI

    PXIe, 100 MHz, 32-Channel PXI Express PXI Digital Waveform Instrument—The PXIe‑6547 is a digital waveform generator and analyzer for interfacing and basic characterization test with 32 single-ended digital pins. The device is capable of sampling digital waveforms at up to 100 MHz and interfacing with user-programmable voltage levels that have a 100 mV resolution. The PXI‑6547 also features advanced synchronization capabilities for building integrated mixed-signal test systems, hardware comparison for bit-error test, and per-bank digital timing features.

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  • PXIe-5413, 20 MHz Bandwidth, 2-Channel, 16-Bit PXI Waveform Generator

    785114-01 - NI

    PXIe, 20 MHz Bandwidth, 2-Channel, 16-Bit PXI Waveform Generator - The PXIe-5413 is a 20 MHz arbitrary waveform generator capable of generating user-defined, arbitrary waveforms and standard functions including sine, square, triangle, and ramp. This arbitrary waveform generator can generate signals from -12 V to +12 V and uses a fractional resampling method to precisely generate waveforms. The PXIe-5413 also features advanced synchronization.

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  • PXIe-5413, 20 MHz Bandwidth, 1-Channel, 16-Bit PXI Waveform Generator

    784181-01 - NI

    PXIe, 20 MHz Bandwidth, 1-Channel, 16-Bit PXI Waveform Generator - The PXIe-5413 is a 20 MHz arbitrary waveform generator capable of generating user-defined, arbitrary waveforms and standard functions including sine, square, triangle, and ramp. This arbitrary waveform generator can generate signals from -12 V to +12 V and uses a fractional resampling method to precisely generate waveforms. The PXIe-5413 also features advanced synchronization.

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  • PXIe-5423, 40 MHz Bandwidth, 2-Channel, 16-Bit PXI Waveform Generator

    785116-01 - NI

    PXIe, 40 MHz Bandwidth, 16-Bit PXI Waveform Generator—The PXIe-5423 is a 40 MHz arbitrary waveform generator capable of generating user-defined, arbitrary waveforms and standard functions including sine, square, triangle, and ramp. This arbitrary waveform generator can generate signals from -12 V to +12 V and uses a fractional resampling method to precisely generate waveforms. The PXIe-5423 also features advanced synchronization and generation features like waveform scripting and streaming.

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  • PXIe-5433, 80 MHz Bandwidth, 2-Channel, 16-Bit PXI Waveform Generator

    785118-01 - NI

    PXIe, 80 MHz Bandwidth, 16-Bit PXI Waveform Generator—The PXIe-5433 is an 80 MHz arbitrary waveform generator capable of generating user-defined, arbitrary waveforms and standard functions including sine, square, triangle, and ramp. This arbitrary waveform generator can generate signals from -12 V to +12 V and uses a fractional resampling method to precisely generate waveforms. The PXIe-5433 also features advanced synchronization and generation features like waveform scripting and streaming.

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  • PXIe-5433, 80 MHz Bandwidth, 1-Channel, 16-Bit PXI Waveform Generator

    785117-01 - NI

    PXIe, 80 MHz Bandwidth, 16-Bit PXI Waveform Generator—The PXIe-5433 is an 80 MHz arbitrary waveform generator capable of generating user-defined, arbitrary waveforms and standard functions including sine, square, triangle, and ramp. This arbitrary waveform generator can generate signals from -12 V to +12 V and uses a fractional resampling method to precisely generate waveforms. The PXIe-5433 also features advanced synchronization and generation features like waveform scripting and streaming.

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  • PXIe-5423, 40 MHz Bandwidth, 1-Channel, 16-Bit PXI Waveform Generator

    785115-01 - NI

    PXIe, 40 MHz Bandwidth, 16-Bit PXI Waveform Generator—The PXIe-5423 is a 40 MHz arbitrary waveform generator capable of generating user-defined, arbitrary waveforms and standard functions including sine, square, triangle, and ramp. This arbitrary waveform generator can generate signals from -12 V to +12 V and uses a fractional resampling method to precisely generate waveforms. The PXIe-5423 also features advanced synchronization and generation features like waveform scripting and streaming.

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  • PXIe-5673E, 6.6 GHz PXI Vector Signal Generator

    781263-03 - NI

    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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  • NI-9485 , 8-Channel, SSR Relay, 60 VDC/30 Vrms, 750 mA C Series Relay Output Module

    779600-01 - NI

    The NI-9485 allows for direct connection to a wide array of industrial devices such as motors, actuators, and DC devices. Each channel provides access to a solid state relay (SSR) for switching voltages up to 60 VDC/30 Vrms with switching current up to 750 mA per channel or up to 1.2 A on four channels. Each channel also features channel-to-channel isolation.

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  • NI-1483, Full-Configuration Camera Link Adapter Module for FlexRIO

    781341-01 - NI

    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.

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