Showing results: 3181 - 3195 of 5678 items found.
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40-610-021-4/16/1 -
Pickering Interfaces Ltd.
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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40-610-021-S-2/32/1 -
Pickering Interfaces Ltd.
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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40-610-021-S-1/64/1 -
Pickering Interfaces Ltd.
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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40-670A-022-49/4 -
Pickering Interfaces Ltd.
The 40-670A series of very high density multiplexer modules feature a wide range of switching configurations. Typical applications include signal routing in ATE and data acquisition systems. The 40-670 multiplexer may be operated as a conventional multiplexer with break-before-make action when a new channel is selected. In addition multiple channels may be simultaneously selected (not available in 1 pole mode).
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40-615-021-S-4/20/1 -
Pickering Interfaces Ltd.
High density multiplexer modules featuring a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems.
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M9415A -
Keysight Technologies
The Keysight M9415A VXT PXIe vector transceiver integrates a VSG and a VSA from 380 MHz to 6, 8, or 12 GHz in a 3-slot PXIe module with up to 1.2 GHz bandwidth.
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RFmx W-CDMA/HSPA+ -
NI
The NI-RFmx W-CDMA personality is a highly optimized API for performing physical layer measurements on W-CDMA cellular standard signals. NI-RFmx W-CDMA 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.
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40-761-008 -
Pickering Interfaces Ltd.
This terminated octal 4 to 1 multiplexer is part of a range of RF multiplexers available in the following configurations: dual, quad and octal 4 to 1, single, dual and quad 8 to 1, single and dual 16 to 1 and single 32 to 1. All multiplexers have the option of automatic terminations which offer advantages at system level by reducing the presence of standing waves in the system which can cause degradation in isolation and crosstalk.
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785597-02 -
NI
The PXIe-5745 enables direct RF generation up to 3 GHz with 12 bits of resolution. You can use it in a dual-channel mode at 3.2 GS/s for generation up to 1.5 GHz or in a single-channel wideband upconversion mode at 6.4 GS/s. The PXIe-5745 is ideal for applications that require high channel density IF signal generation with multichannel synchronization, including radar, electronic warfare, and communications. The FlexRIO driver includes support for generating predefined waveforms, and you can use the LabVIEW-programmable Xilinx Kintex UltraScale FPGA for dynamically creating waveforms, signal modulation/demodulation, and other custom real-time signal processing.
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785598-01 -
NI
The PXIe-5745 enables direct RF generation up to 3 GHz with 12 bits of resolution. You can use it in a dual-channel mode at 3.2 GS/s for generation up to 1.5 GHz or in a single-channel wideband upconversion mode at 6.4 GS/s. The PXIe-5745 is ideal for applications that require high channel density IF signal generation with multichannel synchronization, including radar, electronic warfare, and communications. The FlexRIO driver includes support for generating predefined waveforms, and you can use the LabVIEW-programmable Xilinx Kintex UltraScale FPGA for dynamically creating waveforms, signal modulation/demodulation, and other custom real-time signal processing.
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785646-01 -
NI
The PXIe-5774 provides up to 3 GHz of DC-coupled analog bandwidth and 12 bits of resolution. You can operate the PXIe-5774 in a dual-channel mode at 3.2 GS/s or in a single-channel interleaved mode at 6.4 GS/s. The voltage ranges are software-selectable and include 200 mV peak-to-peak and 1 V peak-to-peak, with a selectable DC offset. The PXIe-5774 is ideal for time-domain measurements in areas such as scientific instrumentation, medical imaging, and particle physics. The FlexRIO driver includes support for finite acquisition, and you can implement custom algorithms and real-time signal processing on the LabVIEW-programmable Xilinx Kintex UltraScale FPGA.
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785647-01 -
NI
The PXIe-5774 provides up to 3 GHz of DC-coupled analog bandwidth and 12 bits of resolution. You can operate the PXIe-5774 in a dual-channel mode at 3.2 GS/s or in a single-channel interleaved mode at 6.4 GS/s. The voltage ranges are software-selectable and include 200 mV peak-to-peak and 1 V peak-to-peak, with a selectable DC offset. The PXIe-5774 is ideal for time-domain measurements in areas such as scientific instrumentation, medical imaging, and particle physics. The FlexRIO driver includes support for finite acquisition, and you can implement custom algorithms and real-time signal processing on the LabVIEW-programmable Xilinx Kintex UltraScale FPGA.
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785647-02 -
NI
The PXIe-5774 provides up to 3 GHz of DC-coupled analog bandwidth and 12 bits of resolution. You can operate the PXIe-5774 in a dual-channel mode at 3.2 GS/s or in a single-channel interleaved mode at 6.4 GS/s. The voltage ranges are software-selectable and include 200 mV peak-to-peak and 1 V peak-to-peak, with a selectable DC offset. The PXIe-5774 is ideal for time-domain measurements in areas such as scientific instrumentation, medical imaging, and particle physics. The FlexRIO driver includes support for finite acquisition, and you can implement custom algorithms and real-time signal processing on the LabVIEW-programmable Xilinx Kintex UltraScale FPGA.
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785646-02 -
NI
The PXIe-5774 provides up to 3 GHz of DC-coupled analog bandwidth and 12 bits of resolution. You can operate the PXIe-5774 in a dual-channel mode at 3.2 GS/s or in a single-channel interleaved mode at 6.4 GS/s. The voltage ranges are software-selectable and include 200 mV peak-to-peak and 1 V peak-to-peak, with a selectable DC offset. The PXIe-5774 is ideal for time-domain measurements in areas such as scientific instrumentation, medical imaging, and particle physics. The FlexRIO driver includes support for finite acquisition, and you can implement custom algorithms and real-time signal processing on the LabVIEW-programmable Xilinx Kintex UltraScale FPGA.
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785598-02 -
NI
The PXIe-5745 enables direct RF generation up to 3 GHz with 12 bits of resolution. You can use it in a dual-channel mode at 3.2 GS/s for generation up to 1.5 GHz or in a single-channel wideband upconversion mode at 6.4 GS/s. The PXIe-5745 is ideal for applications that require high channel density IF signal generation with multichannel synchronization, including radar, electronic warfare, and communications. The FlexRIO driver includes support for generating predefined waveforms, and you can use the LabVIEW-programmable Xilinx Kintex UltraScale FPGA for dynamically creating waveforms, signal modulation/demodulation, and other custom real-time signal processing.