Showing results: 1156 - 1170 of 8144 items found.
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40-220A-811 -
Pickering Interfaces Ltd.
The 40-220A series of breadboard modules allow the user to construct their own circuit in situations where a suitable PXI module is not available. For example when it is required to integrate a non-switching function into a PXI chassis. Typical applications include: Creating custom circuitry that can be housed in on a 3U board, or to build special one-off switching modules.
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40-220A-002 -
Pickering Interfaces Ltd.
The 40-220A series of breadboard modules allow the user to construct their own circuit in situations where a suitable PXI module is not available. For example when it is required to integrate a non-switching function into a PXI chassis. Typical applications include: Creating custom circuitry that can be housed in on a 3U board, or to build special one-off switching modules.
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40-220A-202 -
Pickering Interfaces Ltd.
The 40-220A series of breadboard modules allow the user to construct their own circuit in situations where a suitable PXI module is not available. For example when it is required to integrate a non-switching function into a PXI chassis. Typical applications include: Creating custom circuitry that can be housed in on a 3U board, or to build special one-off switching modules.
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40-220A-502 -
Pickering Interfaces Ltd.
The 40-220A series of breadboard modules allow the user to construct their own circuit in situations where a suitable PXI module is not available. For example when it is required to integrate a non-switching function into a PXI chassis. Typical applications include: Creating custom circuitry that can be housed in on a 3U board, or to build special one-off switching modules.
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40-220A-402 -
Pickering Interfaces Ltd.
The 40-220A series of breadboard modules allow the user to construct their own circuit in situations where a suitable PXI module is not available. For example when it is required to integrate a non-switching function into a PXI chassis. Typical applications include: Creating custom circuitry that can be housed in on a 3U board, or to build special one-off switching modules.
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40-220A-702 -
Pickering Interfaces Ltd.
The 40-220A series of breadboard modules allow the user to construct their own circuit in situations where a suitable PXI module is not available. For example when it is required to integrate a non-switching function into a PXI chassis. Typical applications include: Creating custom circuitry that can be housed in on a 3U board, or to build special one-off switching modules.
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40-220A-102 -
Pickering Interfaces Ltd.
The 40-220A series of breadboard modules allow the user to construct their own circuit in situations where a suitable PXI module is not available. For example when it is required to integrate a non-switching function into a PXI chassis. Typical applications include: Creating custom circuitry that can be housed in on a 3U board, or to build special one-off switching modules.
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780936-01 -
NI
The PCIe‑GPIB+ combines an IEEE 488 controller and an analyzer on one device for computers with PCIe slots. You can use this device to integrate an instrument into your system using GPIB as well as to troubleshoot and solve GPIB hardware and software problems. The PCIe‑GPIB+ achieves maximum IEEE 488.2 transfer rates. With an onboard bus master DMA controller, there is no microprocessor interruption in data transfers. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.
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780935-01 -
NI
The PCIe‑GPIB+ combines an IEEE 488 controller and an analyzer on one device for computers with PCIe slots. You can use this device to integrate an instrument into your system using GPIB as well as to troubleshoot and solve GPIB hardware and software problems. The PCIe‑GPIB+ achieves maximum IEEE 488.2 transfer rates. With an onboard bus master DMA controller, there is no microprocessor interruption in data transfers. The device includes a license for the NI‑488.2 driver software, providing maximum reliability for connecting to third-party instruments with GPIB.
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Keysight Technologies
Get both signal generation and analysis in one PXIe module with real-time field-programmable gate array (FPGA)-accelerated measurements for faster throughput. The PXIe vector transceiver is perfect for manufacturing test of wireless devices, RF power amplifiers, and front-end modules.
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M9421A -
Keysight Technologies
Purpose-built for rapid solution creation and faster throughput in manufacturing test of wireless components, power amplifiers, and RF front-end modules Increase test density and reduce your footprint with up to four VXT instruments in one 18-slot chassis Reduce development time with open-source test libraries and reference solutions Start closer to your finish line with built-in FPGA-accelerated measurements Optimize test routines using proven software for noise figure and standard-specific measurements
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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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Signal -
XOS
Signal complies with ASTM D7757 and delivers quantitative analysis of silicon (Si) from gasoline to ethanol, and toluene. Silicon contamination continues to impact fuel quality, resulting in costly engine failures and catalyst fouling. Powered by MWDXRF, Signal provides exceptional Si analysis and is an ideal solution for demanding petroleum and industrial environments.
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Signal Filtration -
ZETLAB Company
Signal Filtration is used for filtering signals coming to the input channels of spectrum analyzers, strain-gauge stations, and seismic stations, for further processing by ZETLAB programs. Signal Filtration can also be used for processing virtual channels created by such programs as Vibration Meter, Strain-Gauge Sensor, etc. Signal Filtration operates with signals both in real time and with reproduced of recorded signals.
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Signal Generator -
ZETLAB Company
Signal Generator is used for forming signals of various shapes, amplitude, and frequency at the output channels of ADC and DAC modules and FFT spectrum analyzers. Functionally, the Signal Generator software replaces stationary generators used in laboratories.