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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: 1411 - 1425 of 1987 items found.

  • SH68F-68F-EPM, 68-Pin Female to 68-Pin Female, Twisted Pair, Shielded Multifunction Cable

    199006-0R5 - NI

    68-Pin Female to 68-Pin Female, Twisted Pair, Shielded Multifunction Cable - The SH68F-68F-EPM Cable, sometimes referred to as SH68-68-EPM, connects NI DAQ 68-pin devices to 68-pin accessories. The SH68F-68F-EPM Cable has D-type connectors and is offered in different lengths.

  • PXI-6515, 64-Channel, ±30 VDC, 32 Sink/Source Inputs, 32 Sink Outputs, Bank-Isolated PXI Digital I/O Module

    778964-01 - NI

    64-Channel, ±30 VDC, 32 Sink/Source Inputs, 32 Sink Outputs, Bank-Isolated PXI Digital I/O Module—The PXI‑6515 is an industrial digital I/O interface with eight banks of isolated channels. You can wire each input bank in a source or sink configuration. With programmable power-up states, you can configure the initial output states in software to ensure safe operation when connected to industrial actuators. If a computer or application fault occurs, the PXI‑6515 can use digital I/O watchdogs to switch to a configurable safe output state to ensure detection and safe recovery from fault conditions. Programmable input filters eliminate glitches/spikes and provide debouncing for digital switches/relays through a software-selectable digital filter.

  • PXI-6514, 64-Channel, ±30 VDC, 32 Sink/Source Inputs, 32 Source Outputs, Bank-Isolated PXI Digital I/O Module

    778965-01 - NI

    64-Channel, ±30 VDC, 32 Sink/Source Inputs, 32 Source Outputs, Bank-Isolated PXI Digital I/O Module—The PXI‑6514 is an industrial digital I/O interface with eight banks of isolated channels. With programmable power-up states, you can configure the initial output states in software to ensure safe operation when connected to industrial actuators. If a computer or application fault occurs, the PXI‑6514 can use digital I/O watchdogs to switch to a configurable safe output state to ensure detection and safe recovery from fault conditions. Programmable input filters eliminate glitches/spikes and provide debouncing for digital switches/relays through a software-selectable digital filter.

  • PXI-6513, 64-Channel, ±30 VDC, Sink Outputs, Bank-Isolated PXI Digital I/O Module

    778971-01 - NI

    64-Channel, ±30 VDC, Sink Outputs, Bank-Isolated PXI Digital I/O Module—The PXI‑6513 is an industrial digital output interface with eight banks of isolated channels. With programmable power-up states, you can configure the initial output states in software to ensure safe operation when connected to industrial actuators. If a computer or application fault occurs, the PXI‑6513 can use digital I/O watchdogs to switch to a configurable safe output state to ensure detection and safe recovery from fault conditions.

  • PCI-6515, 64-Channel, ±30 VDC, 32 Sink/Source Inputs, 32 Sink Output, Bank-Isolated Digital I/O Device

    778835-01 - NI

    The PCI-6515 is an industrial digital I/O interface, with eight banks of isolated channels. You can wire each input bank in a source or sink configuration. With programmable power-up states, you can configure the initial output states in software, to ensure safe operation when connected to industrial actuators. If a computer or application fault occurs, the PCI-6515 can use digital I/O watchdogs to switch to a configurable safe output state to ensure detection and safe recovery from fault conditions. Programmable input filters eliminate glitches/spikes and provide debouncing for digital switches/relays through a software-selectable digital filter.

  • PCI-6513, 64-Channel, ±30 VDC, Sink Outputs, Bank-Isolated Digital I/O Device

    778970-01 - NI

    The PCI-6513 is an industrial digital output interface, with eight banks of isolated channels. With programmable power-up states, you can configure the initial output states in software, to ensure safe operation when connected to industrial actuators. If a computer or application fault occurs, the PCI-6513 can use digital I/O watchdogs to switch to a configurable safe output state to ensure detection and safe recovery from fault conditions. Programmable input filters eliminate glitches/spikes and provide debouncing for digital switches/relays through a software-selectable digital filter.

  • PCI-6511, 64-Channel, ±30 VDC, Sink/Source Inputs, Bank-Isolated Digital I/O Device

    778966-01 - NI

    The PCI-6511 is an industrial digital input interface, with eight banks of isolated channels. If a computer or application fault occurs, the PCI-6511 can use digital I/O watchdogs to switch to a configurable safe output state to ensure detection and safe recovery from fault conditions. Programmable input filters eliminate glitches/spikes and provide debouncing for digital switches/relays through a software-selectable digital filter.

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

    781340-04 - 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.

  • PXI-2542, 6.6 GHz, 50 Ω, Solid-State, Quad 2x1 PXI RF Relay Module

    778572-42 - NI

    6.6 GHz, 50 Ω, Solid-State, Quad 2x1 PXI RF Relay Module - The PXI‑2542 is a terminated switch module suited for routing RF signals for production test applications. It features high-performance solid-state relays that offer unique benefits such as unlimited mechanical lifetime and fast switching time. Front-mounted SMA connectors provide easy connection to your RF devices, and the module features termination on every COM line and channel. The channel termination and COM lines help minimize reflections of the RF signal and protect your instruments.

  • PXI-5105, 60 MHz, 8-Channel, 12-Bit PXI Oscilloscope

    779685-02 - NI

    60 MHz, 8-Channel, 12-Bit PXI Oscilloscope—The PXI‑5105 high-density PXI oscilloscope device has eight simultaneously-sampled channels with flexible settings for coupling, impedance, voltage range, and filtering. PXI oscilloscopes also feature a number of triggering modes, deep onboard memory, and an instrument driver that includes data streaming and analysis functions. This device is ideal for applications with many channels that require up to 60 MS/s or 60 MHz of analog bandwidth. The PXI‑5105 also features PXI synchronization and data streaming capabilities.

  • PXI-2543, 6.6 GHz, 50 Ω, Solid-State, Dual 4x1 PXI RF Multiplexer Switch Module

    778572-43 - NI

    6.6 GHz, 50 Ω, Solid-State, Dual 4x1 PXI RF Multiplexer Switch Module—The PXI‑2543 features high-performance solid-state relays that offer unique benefits such as unlimited relay life and fast switching time. Front-mounted SMA connectors provide easy connection to your RF devices, and the module features termination on every COM line and channel.

  • PXI-2544, 6.6 GHz, 50 Ω, Solid-State, 8x1 PXI RF Multiplexer Switch Module

    778572-44 - NI

    6.6 GHz, 50 Ω, Solid-State, 8x1 PXI RF Multiplexer Switch Module—The PXI‑2544 features high-performance solid-state relays that offer unique benefits such as unlimited relay life and fast switching time. Front-mounted SMA connectors provide easy connection to your RF devices, and the module features termination on every COM line and channel.

  • PXI-5105, 60 MHz, 8-Channel, 12-Bit PXI Oscilloscope

    779685-03 - NI

    60 MHz, 8-Channel, 12-Bit PXI Oscilloscope—The PXI‑5105 high-density PXI oscilloscope device has eight simultaneously-sampled channels with flexible settings for coupling, impedance, voltage range, and filtering. PXI oscilloscopes also feature a number of triggering modes, deep onboard memory, and an instrument driver that includes data streaming and analysis functions. This device is ideal for applications with many channels that require up to 60 MS/s or 60 MHz of analog bandwidth. The PXI‑5105 also features PXI synchronization and data streaming capabilities.

  • PXIe-5652, 6.6 GHz RF Analog Signal Generator

    781217-01 - NI

    PXIe, 6.6 GHz, PXI RF Analog Signal Generator—The PXIe‑5652 features continuous-wave generation capabilities with FM, 2‑FSK, or OOK modulation. It uses direct digital synthesis (DDS) for high-resolution frequency hopping or phase-continuous sweeping for fixture and device characterization applications. The PXIe‑5652 is ideal for clocking nonstandard sample rates, such as WCDMA signals at baseband or intermediate frequency (IF). With these versatile signal generators, you can perform analog and digital modulation through the onboard DDS circuit, which gives you frequency modulation and frequency-shift keying for applications such as bit error rate test, antenna testing, or even keyless entry. You can also perform amplitude modulation using on-off keying.

  • PXI-5652, 6.6 GHz RF Analog Signal Generator

    779670-02 - NI

    6.6 GHz PXI RF Analog Signal Generator—The PXI‑5652 features continuous-wave generation capabilities with FM, 2‑FSK, or OOK modulation. It uses direct digital synthesis (DDS) for high-resolution frequency hopping or phase-continuous sweeping for fixture and device characterization applications. The PXI‑5652 is ideal for clocking nonstandard sample rates, such as WCDMA signals at baseband or intermediate frequency (IF). With these versatile signal generators, you can perform analog and digital modulation through the onboard DDS circuit, which gives you frequency modulation and frequency-shift keying for applications such as bit error rate test, antenna testing, or even keyless entry. You can also perform amplitude modulation using on-off keying.

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