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Showing results: 76 - 90 of 1987 items found.

  • PXI Automotive Ethernet Interface Module

    NI

    The PXI Automotive Ethernet Interface Module communicates with Automotive Ethernet so that you can use the NI‑XNET driver or standard networking drivers to develop applications that require Automotive Ethernet to test and validate automotive electronic control units (ECUs). It provides up to four independent endpoints or up to two network terminal access points (TAPs). With onboard hardware timestamping and the ability to act as 802.1AS masters or slaves, the PXI Automotive Ethernet Interface Module can synchronize with an external network as well as the rest of a PXI system.

  • PXI Chassis

    NI

    PXI Chassis are compatible with PXI, PXI Express, and PXI hybrid modules and meet the cooling requirements of the most power-demanding PXI modules. You can also choose chassis options that minimize the overall system acoustic emissions. Chassis can provide up to 18 slots, with a mixture of both PXI and PXI Express module compatibility, and you can choose between AC and DC power options.

  • PXI Analog Output Module

    NI

    PXI Analog Output Modules support both static and software-timed voltage output applications. Modules also include 5 V TTL/CMOS digital I/O lines. Some PXI Analog Output Modules can deliver simultaneous, multichannel updates for control and waveform output applications, such as stimulus-response, power supply control, high-speed, deterministic control, and sensor/signal simulation. These advanced features enable you to use the PXI Analog Output Module to replace several kinds of instruments, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators.

  • PXI Oscilloscope

    NI

    PXI Oscilloscopes are flexible, softwaredefined instruments that are versatile enough for both time and frequencydomain measurements and deliver the benefits of the PXI platform. They feature up to eightchannels that can sample at speeds up to 12.5 GS/s with 5 GHz of analog bandwidth. Using the PXI platform, you can synchronize multiple oscilloscopes with other instruments at picosecondlevel accuracy for highchannelcount and mixedsignal applications. These instruments also feature numerous triggering modes, deep onboard memory, and a driver software API that includes data streaming and analysis functions.

  • PXI Multifunction I/O Module

    NI

    The PXI Multifunction I/O Module provides I/O with varying numbers of channels, sample rates, and output rates with precise timing, triggering, and synchronization between models. This module can be used for industry applications such as laboratory research, design verification test, and manufacturing test.The PXI Multifunction I/O Module includes the NI-DAQmx driver and configuration utility that simplify configuration and measurements. NI-DAQmx supports NI programming environments as well as Python, ANSI C, C#.NET, and MathWorks MATLAB® software.

  • PXI FlexRIO Coprocessor Module

    NI

    PXI FlexRIO Coprocessor Modules feature high-performance FPGAs that add signal processing capability to PXI systems. These modules leverage the latest FPGAs from Xilinx, streaming technologies such as PCI Express, and NI Peer to Peer Streaming for high-bandwidth data communication with other modules over the backplane. When paired with another PXI device, such as a PXI Vector Signal Transceiver, PXI FlexRIO Coprocessor Modules provide the additional FPGA resources required to run complex algorithms in real-time.

  • PXI Digital Waveform Instrument

    NI

    PXI Digital Waveform Instruments feature up to 32 channels, can sample and generate digital waveforms at up to 200 MHz, and interface with various standard TTL and low-voltage differential signals (LVDS), as well as settable voltage levels. These devices offer per clock cycle, per channel bidirectional control, and phase shifting. They include deep onboard memory with triggering and pattern sequencing. Some models also support doubledatarate (DDR) technology and real-time hardware data comparison. You can use Digital Waveform Devices to create device simulation and complex stimulusresponse tests.

  • Signal Generator Adapter Module For FlexRIO

    NI

    Signal Generator Adapter Modules for FlexRIO feature either high or low‐speed analog output and can be paired with a PXI FPGA Module for FlexRIO or the Controller for FlexRIO for custom signal generation. Whether you need to dynamically generate waveforms on the FPGA or stream them across the PXI backplane, these adapter modules are well suited for applications in communications, hardware‐in‐the‐loop (HIL) test, and scientific instrumentation.

  • PXI Multiplexer Switch Module

    NI

    PXI Multiplexer Switch Modules are ideal for high-channel-count applications that need to connect measurement or signal generation instruments to various test points on devices or units under test(DUTs or UUTs). PXI Multiplexer Switch Modules use a variety of relay types, including electromechanical armature relays, reed relays, field-effect transistor(FET) relays, and solid-state relays, each with their own benefits, allowing you to choose a multiplexer that fits your requirements. To program the switches, you can use the IVI-compliant NI-SWITCH driver software, complete with help documentation, example programs, and a soft front panel application for interactive control of switches. For intelligent management of complex switch systems, NISwitch Executive provides additional software tools to help you design, build, and deploy your switching system.

  • Converged IoT PXI Chassis

    NI

    The Converged IoT PXI Chassis enables IoT insights and action through three points of convergence in one chassis. It uses sensors to integrate precision data capture and control with security, device, and systems management. Compared to traditional servers, this chassis comes in models that can withstand increased shock, vibration, and broad temperature ranges as well as various mounting options to accommodate compact environments.

  • TD-SCDMA Analysis Using NI PXI RF Test Instruments

    NI-RFmx TD-SCDMA - NI

    The NI-RFmx TD-SCDMA personality is a highly optimized API for performing physical layer measurements on TD-SCDMA cellular standard signals. NI-RFmx TD-SCDMA is completely interoperable with all NI-RFmx APIs. It provides simple access to the most advanced optimization techniques such as multi-measurement parallelism and multi-DUT measurements. The result is extremely fast and high-quality measurements with minimal software development efforts.

  • PXI Ethernet Interface Module

    NI

    PXI Ethernet Interface Modules equip PXI systems with high-bandwidth Ethernet-based connectivity with up to 40 Gb/s data rates per port. Featuring compatibility with industry-standard network and automatic cable polarity detection, these modules are ideal for high-performance data transfer and vision applications on the PXI platform. These modules have independent bandwidth to support two GigE Vision cameras with Power over Ethernet (PoE).

  • PXI DeviceNet Interface Module

    NI

    PXI DeviceNet Interface Modules have an onboard microprocessor and optically isolated physical layer to communicate with a DeviceNet network system as a master (scanner) or slave device. The modules ship with a high-level API that provides complete access to a DeviceNet network and features easy access to device data and streamlined explicit messaging. PXI DeviceNet Interface Modules are ideal for prototyping DeviceNet systems, PC-based control, embedded control systems, PC-based human machine interface (HMI), and DeviceNet network management utilities.

  • PXI FlexRIO Digitizer

    NI

    PXI FlexRIO Digitizers feature high-performance analog-to-digital converters with lightweight analog front-ends designed to maximize sample rate, bandwidth, and dynamic range. These modules use FPGAs from Xilinx alongside LabVIEW and Vivado programming options for custom algorithm implementation and real-time signal processing. For applications that require high channel counts, PXI FlexRIO Digitizers use the NI-TClk API and the timing and synchronization capabilities of PXI to achieve sub-sample synchronization between multiple modules in a chassis. These modules also feature an auxiliary I/O connector with GPIO for triggering or digital interfacing and the option for high-speed serial communication.

  • PXI Synchronization Module

    NI

    PXI Synchronization Modules use the trigger bus, star trigger, and system reference clock features of PXI to implement advanced multi-device synchronization. By using PXI Synchronization Modules, you can improve measurement accuracy, implement advanced triggering schemes, and synchronize multiple devices to act as one for high-channel-count applications.

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