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Showing recent results 6436 - 6450 of 6817 products found.

  • Continuity of Insulation Tester (Low Voltage Method)

    DYQ-005 - Shanghai Dean Electrical Co., Ltd

    Executive standard: GB/T4074.5-2008/IEC60851-5;Inspection standard: JB/T4279.12-2008Used to test the film continuity (namely the pinhole number of enamelled wire sample per unit length) of enameled round wires with nominal conductor diameter of0.050mmand below;The application of advanced SCM control allows for faster operation and stronger anti-interference capacity.

  • Turns Ratio Testers

    TRT Standard Series - IBEKO Power AB

    When it comes to choosing a transformer turns ratio tester, TRT Standard series offers some of the most advanced instruments with LCD display out in the market. Each model measures transformer excitation current and phase shift performs automatic vector group detection and magnetic balance on three-phase transformers and three-phase autotransformers. Furthermore, they have a built-in true three-phase power source. Because of that, TRT Standard instruments can test transformers with special configurations, such as phase-shifting, rectifier, arc-furnace, traction transformers, etc.The instruments can output test voltages from 1 V AC to 250 V AC, depending on the chosen model. High test voltage of 250 V AC provides more accurate turns ratio testing compared to other turns ratio testers on the market and extremely low test voltage of 1 V AC enables turns ratio verification of current transformers.TRT Standard series consists of:TRT03 Models (TRT03A, TRT03B, TRT03C) – single-phase voltage up to 100 VTRT3x Models (TRT30A, TRT30B, TRT30C, TRT33A, TRT33B, TRT33C) – single and true three-phase voltage up to 100 VTRT63 Models (TRT63A, TRT63B, TRT63C) – single and true three-phase voltage up to 250 VMore about models differences can be found under the downloads tab, in brochures and comparison sheets.A user can create test templates using the DV Win software and store them in the PC’s memory for later use when in the field.TRT Standard series models have a built-in tap changer control unit. Consequently, it enables remote control of an on-load tap changer (OLTC) directly from the tester. In order to make the most out of this feature, the DV-Win software can be programmed to do everything automatically – running turns ratio tests, changing OLTC tap positions and saving results. This option, especially in combination with test templates, significantly facilitates and shortens the turns ratio testing time.

  • PXIe, 8 Input, 8 Output, or 4 Input/4 Output PXI FlexRIO FPD-Link™ Interface Module

    PXIe-1486 / 787455-01 - NI

    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.

  • PXIe, 8 Input, 8 Output, or 4 Input/4 Output PXI FlexRIO FPD-Link™ Interface Module

    PXIe-1486 / 787454-01 - NI

    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.

  • PXIe, 8 Input, 8 Output, or 4 Input/4 Output PXI FlexRIO FPD-Link™ Interface Module

    PXIe-1486 / 787453-01 - NI

    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.

  • 16-Bit, 8-Channel, 1 MS/s PXI Analog Output Module

    PXI-6733 / 778512-01 - NI

    16-Bit, 8-Channel, 1 MS/s PXI Analog Output Module—The PXI‑6733 is a high-speed analog output device designed to deliver simultaneous, multichannel updates for control and waveform output applications, such as stimulus-response tests (including acoustic distortion testing) and simulation (such as three-phase power simulation). In addition, the device provides eight 5 V TTL/CMOS digital I/O lines; two 24‑bit, 20 MHz counter/timers; and digital triggering and external clocking capabilities. The PXI‑6733 can replace several kinds of instruments, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators. You can control each data point for each channel to define common waveforms, such as square, sine, or sawtooth, as well as complex waveforms.

  • Kintex-7 325T FPGA, 18-AO Channels, 1 MS/s, PXI Multifunction Reconfigurable I/O Module

    PXIe-7868 / 785571-01 - NI

    Kintex-7 325T FPGA, 18-AO Channels, 1 MS/s, PXI Multifunction Reconfigurable I/O Module—The PXIe-7868 features a user-programmable FPGA for high-performance onboard processing and direct control over I/O signals for complete flexibility of timing and synchronization. With 18 analog output channels connected directly to a Kintex-7 325T FPGA, you have ample space to design applications that require precise timing such as hardware-in-the-loop testing, custom protocol communication, sensor simulation, and high-speed control. The PXIe-7868 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe-7867 also includes peer-to-peer streaming for direct data transfer to other PXI Express modules.

  • Kintex-7 160T FPGA, 18-Channel AO, 1 MS/s, PXI Multifunction Reconfigurable I/O Module

    PXIe-7867 / 785570-01 - NI

    Kintex-7 160T FPGA, 18-Channel AO, 1 MS/s, PXI Multifunction Reconfigurable I/O Module—The PXIe-7867 features a user-programmable FPGA for high-performance onboard processing and direct control over I/O signals for complete flexibility of timing and synchronization. With 18 analog output channels connected directly to the FPGA, you can quickly design for applications that require precise timing such as hardware-in-the-loop testing, custom protocol communication, sensor simulation, and high-speed control. The PXIe-7867 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe-7867 also includes peer-to-peer streaming for direct data transfer to other PXI Express modules.

  • PXIe, Kintex-7 160T FPGA, 16-Channel AI, 1 MS/s, PXI Multifunction Reconfigurable I/O Module

    PXIe-7861 / 786671-01 - NI

    PXIe, Kintex-7 160T FPGA, 16-Channel AI, 1 MS/s, PXI Multifunction Reconfigurable I/O Module - The PXIe-7861 features a user-programmable FPGA for high-performance onboard processing and direct control over I/O signals for complete flexibility of timing and synchronization. With 16 … analog input channels connected directly to a Kintex-7 160T FPGA, you have ample space to design applications that require precise timing such as hardware-in-the-loop testing, custom protocol communication, sensor simulation, and high-speed control. The PXIe-7861 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe-7861 also includes peer-to-peer streaming for direct data transfer to other PXI Express modules.

  • PXIe, Kintex-7 325T FPGA, 16-Channel AI, 1 MS/s, PXI Multifunction Reconfigurable I/O Module

    PXIe-7862 / 786672-01 - NI

    PXIe, Kintex-7 325T FPGA, 16-Channel AI, 1 MS/s, PXI Multifunction Reconfigurable I/O Module - The PXIe-7862 features a user-programmable FPGA for high-performance onboard processing and direct control over I/O signals for complete flexibility of timing and synchronization. With 16 … analog input channels connected directly to a Kintex-7 325T FPGA, you have ample space to design applications that require precise timing such as hardware-in-the-loop testing, custom protocol communication, sensor simulation, and high-speed control. The PXIe-7862 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe-7862 also includes peer-to-peer streaming for direct data transfer to other PXI Express modules.

  • 1‑ or 2-Port, Software-Selectable PXI CAN Interface Module

    PXI-8513 / 780688-02 - NI

    1‑ or 2-Port, Software-Selectable PXI CAN Interface Module—The PXI‑8513 is a software-selectable Controller Area Network (CAN) interface for developing applications with the NI‑XNET driver. NI‑XNET Software‑Selectable CAN Interfaces offer the best flexibility for CAN development with onboard transceivers for High-Speed/Flexible Data‑rate, Low-Speed/Fault Tolerant Single Wire CAN as well as any external transceiver. The PXI‑8513 excels in applications requiring real-time, high-speed manipulation of hundreds of CAN frames and signals, such as hardware‑in‑the‑loop simulation, rapid control prototyping, bus monitoring, automation control, and more. The NI‑XNET device-driven DMA engine enables the onboard processor to move CAN frames and signals between the interface and the user program without CPU interrupts.

  • 1‑ or 2-Port, Software-Selectable PXI CAN Interface Module

    PXI-8513 / 780688-01 - NI

    1‑ or 2-Port, Software-Selectable PXI CAN Interface Module—The PXI‑8513 is a software-selectable Controller Area Network (CAN) interface for developing applications with the NI‑XNET driver. NI‑XNET Software‑Selectable CAN Interfaces offer the best flexibility for CAN development with onboard transceivers for High-Speed/Flexible Data‑rate, Low-Speed/Fault Tolerant Single Wire CAN as well as any external transceiver. The PXI‑8513 excels in applications requiring real-time, high-speed manipulation of hundreds of CAN frames and signals, such as hardware‑in‑the‑loop simulation, rapid control prototyping, bus monitoring, automation control, and more. The NI‑XNET device-driven DMA engine enables the onboard processor to move CAN frames and signals between the interface and the user program without CPU interrupts.

  • Calibration & Demag.

    Model 8515-D - Magnetic Instrumentation Inc.

    The Model 8515-D is a medium-energy, high voltage, and capacitor discharge type ringing demagnetizer capable of desaturating Ceramic and Rare Earth magnetic materials. The Model 8515-D is easily adapted to a wide range of production and laboratory demagnetizing requirements. A modern solid-state electronic control circuit, coupled with a rugged, heavy-duty discharge SCR and fixture, make this demagnetizer a highly reliable, low maintenance unit. The electronic voltage control circuit prevents the Model 8515-D from being discharged before the preset energy level has been reached, avoiding incomplete magnet desaturation. An easy to read front panel meter monitors the capacitor voltage. The energy storage level can be easily changed in the field. Integral electrical interlock and fail-safe circuitry provide a high degree of operator safety.

  • 1.33 GHz Dual-Core Atom, 4-Slot, Extended Temperature CompactDAQ Controller

    cDAQ-9134 / 783340-01 - NI

    1.33 GHz Dual-Core Atom, 4-Slot, Extended Temperature CompactDAQ Controller - The cDAQ‑9134 controls the timing, synchronization, and data transfer between C Series I/O modules and an integrated computer. It includes Intel Atom dual-core processing and 32 GB … nonvolatile storage for data-logging and embedded monitoring in extreme environments. You can choose between running Windows or NI Linux® Real‑Time. The cDAQ‑9134 offers a wide array of standard connectivity and expansion options, including SD storage, USB, Ethernet, RS232 serial, and trigger input, and an integrated NI‑XNET port. You can combine the cDAQ‑9134 with up to four C Series I/O modules for a custom analog I/O, digital I/O, counter/timer, and controller area network (CAN) measurement and logging system. 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.

  • 1.33 GHz Dual-Core Atom, 4-Slot, Extended Temperature CompactDAQ Controller

    cDAQ-9134 / 783341-01 - NI

    1.33 GHz Dual-Core Atom, 4-Slot, Extended Temperature CompactDAQ Controller - The cDAQ‑9134 controls the timing, synchronization, and data transfer between C Series I/O modules and an integrated computer. It includes Intel Atom dual-core processing and 32 GB … nonvolatile storage for data-logging and embedded monitoring in extreme environments. You can choose between running Windows or NI Linux® Real‑Time. The cDAQ‑9134 offers a wide array of standard connectivity and expansion options, including SD storage, USB, Ethernet, RS232 serial, and trigger input, and an integrated NI‑XNET port. You can combine the cDAQ‑9134 with up to four C Series I/O modules for a custom analog I/O, digital I/O, counter/timer, and controller area network (CAN) measurement and logging system. 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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