Showing results: 841 - 855 of 886 items found.
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V281C -
Keysight Technologies
The Keysight V281C is a 1-mm female to V-band waveguide adapter with a frequency range of 50 GHz to 75 GHz. The V281C is used with the Keysight 8510XF systems.
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11901C -
Keysight Technologies
The Keysight 11901C is a metrology grade, 2.4 mm male to 3.5 mm female adapter with dc to 26.5 GHz operation.
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U281B -
Keysight Technologies
The Keysight U281B adapter transforms waveguide transmission line into 50-ohm coaxial line. Power can transmitted in either direction, and each adapter covers the full frequency range of its waveguide band with SWR less than 1.3.
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83059K -
Keysight Technologies
The Keysight 83059K adapter kit includes the 83059A 3.5-mm male adapter, the 83059B 3.5-mm female adapter, and the 83059C 3.5-mm male to 3.5-mm female adapter.
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11922A -
Keysight Technologies
The Keysight 11922A precision 2.4 millimeter coax in adapter offers a simple way of measuring coaxial devices at higher frequencies. It is designed for the measurement of components with 50 ohms impedance and a frequency range from dc to 50 GHz.
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11900C -
Keysight Technologies
The Keysight 11900C is a metrology grade, 2.4 mm male to 2.4 mm female adapter with dc to 50 GHz operation.
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346CK01 -
Keysight Technologies
The Keysight 346CK01 is the ideal companion to Keysight´s noise figure solutions when working on high frequency applications. Since it is broadband (1 GHz to 50 GHz), it eliminates the necessity for several sources at different frequency bands. The low SWR of the noise source reduces a major source of measurement uncertainty, which are reflections of the test signals. This is a coaxial noise source with a 2.4 mm coaxial connector. ENR typically 20 dB at 1 GHz, decreasing to typically 7 dB at 50 GHz.
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11923A -
Keysight Technologies
The Keysight 11923A 1.0 mm female connector launch is designed to thread into a package or fixture housing to transition a microwave circuit from microstrip to coaxial connector. The Keysight 11923A connector launch is intended for use with 110 GHz test systems such as the Keysight 8510XF. The Keysight 11923A comes pre-assembled, but the user is responsible for machining the package and installing the connector. The procedure describing the necessary geometry for the package and installation will be provided.
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11901D -
Keysight Technologies
The Keysight 11901D is a metrology grade, 2.4 mm female to 3.5 mm male adapter with dc to 26.5 GHz operation.
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11921F -
Keysight Technologies
The Keysight 11921F precision 1.85 millimeter coax-to-coax adapter offers a simple way of measuring coaxial devices at higher frequencies. It is designed for the measurement of components with 50 ohms impedance and frequency range from dc to 67 GHz.
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787005-01 -
NI
2-Position, Spring Terminal Connector Plug, 3.5 mm Pitch (Qty 4)
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11500K -
Keysight Technologies
Connect test ports to devices, fixtures, or probe tips with this 20-cm cable featuring a return loss of 16 dB minimum
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85130C -
Keysight Technologies
The Keysight 85130C test port adapter is designed to protect the test set port when it would be directly connected to the device under test. These adapters have a special rugged female connector designed for connecting to the network analyzer test port. This special connector will not mate with a standard male connector, but converts the rugged test set port to a connection that can be mated with the device under test. The set contains a 3.5 mm to type-N male adapter and a 3.5 mm to type-N female adapter. The frequency range for these adapters is dc to 18 GHz with a return loss of 28 dB or better.
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E281CS -
Keysight Technologies
E281CS E281CS In-line 1.0 mm (f) - to- WR-12 waveguide adapter offers a simple way of measuring waveguide devices in E-band, 60 GHz to 90 GHz.
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85093D -
Keysight Technologies
The Keysight 85093D RF electronic calibration (ECal) module makes the calibration of vector network analyzers fast, easy, and accurate. ECal is a precision, single-connection calibration technique for your vector network analyzer. Performing a full two-port calibration takes less than half the time and a number of connections using ECal versus mechanical calibration kits. Furthermore, the accuracy of the calibration is comparable between electronic and mechanical methods. Traditional mechanical calibrations require intensive operator interaction, which is prone to errors. With ECal, the operator simply connects the ECal module to the network analyzer and the software controls the rest.