Showing results: 1951 - 1965 of 2508 items found.
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784777-02 -
NI
PXIe, 250 kHz to 20 GHz, PXI RF Analog Signal Generator - The PXIe-5654 features a combination of exceptional phase noise and frequency tuning time. These features address applications such as blocker test/receiver desensitization, high-performance intermodulation distortion measurements, and various electronic warfare applications. The PXIe-5654 is designed to meet the challenging requirements of RFIC characterization, satellite test, and radar applications. Some PXIe-5654 options include a PXIe-5696 Amplitude Extender Module. The PXIe-5696 supports a frequency range of 250 kHz to 20 GHz and an extended amplitude range up to 27 dBm.
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784777-01 -
NI
PXIe, 250 kHz to 20 GHz, PXI RF Analog Signal Generator - The PXIe-5654 features a combination of exceptional phase noise and frequency tuning time. These features address applications such as blocker test/receiver desensitization, high-performance intermodulation distortion measurements, and various electronic warfare applications. The PXIe-5654 is designed to meet the challenging requirements of RFIC characterization, satellite test, and radar applications. Some PXIe-5654 options include a PXIe-5696 Amplitude Extender Module. The PXIe-5696 supports a frequency range of 250 kHz to 20 GHz and an extended amplitude range up to 27 dBm.
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783127-01 -
NI
PXIe, 250 kHz to 20 GHz, PXI RF Analog Signal Generator - The PXIe-5654 features a combination of exceptional phase noise and frequency tuning time. These features address applications such as blocker test/receiver desensitization, high-performance intermodulation distortion measurements, and various electronic warfare applications. The PXIe-5654 is designed to meet the challenging requirements of RFIC characterization, satellite test, and radar applications. Some PXIe-5654 options include a PXIe-5696 Amplitude Extender Module. The PXIe-5696 supports a frequency range of 250 kHz to 20 GHz and an extended amplitude range up to 27 dBm.
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783127-02 -
NI
PXIe, 250 kHz to 20 GHz, PXI RF Analog Signal Generator - The PXIe-5654 features a combination of exceptional phase noise and frequency tuning time. These features address applications such as blocker test/receiver desensitization, high-performance intermodulation distortion measurements, and various electronic warfare applications. The PXIe-5654 is designed to meet the challenging requirements of RFIC characterization, satellite test, and radar applications. Some PXIe-5654 options include a PXIe-5696 Amplitude Extender Module. The PXIe-5696 supports a frequency range of 250 kHz to 20 GHz and an extended amplitude range up to 27 dBm.
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783126-02 -
NI
PXIe, 250 kHz to 20 GHz, PXI RF Analog Signal Generator - The PXIe-5654 features a combination of exceptional phase noise and frequency tuning time. These features address applications such as blocker test/receiver desensitization, high-performance intermodulation distortion measurements, and various electronic warfare applications. The PXIe-5654 is designed to meet the challenging requirements of RFIC characterization, satellite test, and radar applications. Some PXIe-5654 options include a PXIe-5696 Amplitude Extender Module. The PXIe-5696 supports a frequency range of 250 kHz to 20 GHz and an extended amplitude range up to 27 dBm.
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780587-46 -
NI
PXIe, 2.7 GHz, Quad 4x1 PXI RF Multiplexer Switch Module—The PXIe‑2746 is a PXI RF multiplexer switch module that is ideal for switching RF signals up to 2.7 GHz in production test applications. The high channel count of the PXIe‑2746 makes it well-suited for test systems that require switching a large number of RF signals, such as switching several devices under test to a single channel on the RF analyzer. It also features onboard relay counting for relay monitoring.
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780587-47 -
NI
PXIe, 2.7 GHz, Dual 8x1 PXI RF Multiplexer Switch Module—The PXIe‑2747 is a PXI RF multiplexer switch module that is ideal for switching RF signals up to 2.7 GHz in production test applications. The high channel count of the PXIe‑2747 makes it well-suited for test systems that require switching a large number of RF signals, such as switching several devices under test to a single channel on the RF analyzer. It also features onboard relay counting for relay monitoring.
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785831-01 -
NI
PXIe, 2.8 GHz Quad-Core PXI Controller - The PXIe‑8861 is an Intel Xeon 4‑Core embedded controller for PXI Express systems. You use it for processor-intensive RF, modular instrumentation, and data acquisition applications. The PXIe‑8861 includes two 10/100/1000BASE‑TX (Gigabit) Ethernet ports, two USB 3.0 ports, four USB 2.0 ports, as well as an integrated hard drive, serial port, two Thunderbolt™ 3 ports, and other peripheral I/O. Thunderbolt and the Thunderbolt logo are trademarks of Intel Corporation or its subsidiaries in the U.S. and/or other countries.
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785831-33 -
NI
PXIe, 2.8 GHz Quad-Core PXI Controller - The PXIe‑8861 is an Intel Xeon 4‑Core embedded controller for PXI Express systems. You use it for processor-intensive RF, modular instrumentation, and data acquisition applications. The PXIe‑8861 includes two 10/100/1000BASE‑TX (Gigabit) Ethernet ports, two USB 3.0 ports, four USB 2.0 ports, as well as an integrated hard drive, serial port, two Thunderbolt™ 3 ports, and other peripheral I/O. Thunderbolt and the Thunderbolt logo are trademarks of Intel Corporation or its subsidiaries in the U.S. and/or other countries.
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787806-01 -
NI
PXIe, 3.9 GHz 8-Core PXI Controller - The PXIe-8881 is an Intel Xeon 8-Core embedded controller for PXI Express systems. You use the PXIe-8881 for processor-intensive RF, modular instrumentation, and data acquisition applications. The PXIe‑8881 includes two 10/100/1000BASE‑TX (Gigabit) Ethernet ports, two USB 3.0 ports, four USB 2.0 ports, as well as an integrated hard drive and other peripheral I/O, such as two Thunderbolt 3 ports. Thunderbolt is a trademark of Intel Corporation or its subsidiaries in the U.S. and/or other countries.
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784241-01 -
NI
1.91 GHz Quad-Core Atom, 8-Slot, CompactDAQ Controller - The cDAQ‑9137 controls the timing, synchronization, and data transfer between C Series I/O modules and an integrated computer. It includes Intel Atom quad-core processing and 32 GB nonvolatile storage for data-logging and embedded monitoring. You can choose between running Windows or NI Linux® Real‑Time. The cDAQ‑9137 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‑9137 with up to eight 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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784240-01 -
NI
1.91 GHz Quad-Core Atom, 8-Slot, CompactDAQ Controller - The cDAQ‑9137 controls the timing, synchronization, and data transfer between C Series I/O modules and an integrated computer. It includes Intel Atom quad-core processing and 32 GB nonvolatile storage for data-logging and embedded monitoring. You can choose between running Windows or NI Linux® Real‑Time. The cDAQ‑9137 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‑9137 with up to eight 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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784239-01 -
NI
1.91 GHz Quad-Core Atom, 4-Slot, CompactDAQ Controller - The cDAQ‑9136 controls the timing, synchronization, and data transfer between C Series I/O modules and an integrated computer. It includes Intel Atom quad-core processing and 32 GB nonvolatile storage for data-logging and embedded monitoring. You can choose between running Windows or NI Linux® Real‑Time. The cDAQ‑9136 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‑9136 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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784238-01 -
NI
1.91 GHz Quad-Core Atom, 4-Slot, CompactDAQ Controller - The cDAQ‑9136 controls the timing, synchronization, and data transfer between C Series I/O modules and an integrated computer. It includes Intel Atom quad-core processing and 32 GB nonvolatile storage for data-logging and embedded monitoring. You can choose between running Windows or NI Linux® Real‑Time. The cDAQ‑9136 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‑9136 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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785264-01 -
NI
The USRP-2955 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless receiver systems. It is designed for over-the-air signal acquisition and analysis. It features a two-stage superheterodyne architecture with four independent receiver channels and shares local oscillators for phase-coherent operation. It also offers a Kintex-7 FPGA programmable with the LabVIEW FPGA Module. With these features, the USRP-2955 has the RF and processing performance for applications such as spectrum monitoring, direction finding, signals intelligence, wideband recording, and radar prototyping. The USRP-2955 is equipped with a GPS-disciplined 10 MHz oven-controlled crystal oscillator (OCXO) Reference Clock, which improves frequency accuracy and synchronization.
