Showing results: 916 - 930 of 990 items found.
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UXR0702BP -
Keysight Technologies
The UXR0702BP is the 70 GHz, two-channel, 1 mm input Infiniium UXR-Series real-time oscilloscope.
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81628B -
Keysight Technologies
The 81628B is used with the threaded type adapters. When the adapter is removed, the 8 mm diameter aperture is available for input to open beams or customized fiber holders. The heads are connected to the 816x mainframes using the 81618A single channel or 81619A dual-channel interface module.
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85131C -
Keysight Technologies
The Keysight 85131C is an 81 cm (32 in) long1 semi-rigid cable with a 3.5 mm female2-to-PSC-3.5 mm female connector. Cable frequency range is DC to 26.5 GHz with a return loss of 17 dB or better. Insertion loss is 0.43 * sqrt(f) + 0.3, where f is frequency in gigahertz, for the test port connector and 2.5 dB at maximum frequency for the device connector. Phase stability of the semi-rigid / flexible cables is specified with a 90-degree bend using a 4 to 3-inch radius. Stability1 of the 85131C is less than 0.06 dB, and phase is 0.16 * f + 0.5, where f is frequency in gigahertz.
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E1834Z -
Keysight Technologies
The E1834Z is a beam bender that bends the incoming beam at a 90-degree angle and is designed for beam diameters of 9 mm or less. This referenced optics uses high performance vertical mount to deliver laser beam throughout a measurement system. The 8 flexure feet are designed for stable beam pointing.
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10721A -
Keysight Technologies
The Keysight 10721A Two Axis Differential Interferometer, when used in multiple axis applications, simultaneously makes two differential measurements linear and angular (yaw) displacement. Both measurements reference external mirror mounted to an object such as a column or inspection tool. The 10721A provides high immunity to unwanted interferometer displacement, such as thermal expansion. It is a modular, compact design with monolithic optics for maximized mechanical stability. Use of a small 3 mm beam helps decrease Abb offset error. The 10721A is similar to the 10719A Single Axis Differential Interferometer, except that it provides an additional measurement axis.
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CertusPro-NX -
Lattice Semiconductor
*Up to 100K logic cells, 7.3 Mb of embedded memory blocks (EBR, LRAM), 156 18 x 18 multipliers, 299 programmable I/O, 8 SERDES supporting up to 10.3 Gbps per lane and supporting popular protocols (10 Gig Ethernet, PCIe Gen 3, DisplayPort, SLVS-EC and CoaXPress).*Packages as small as 9x9 mm, and in ball-pitch options of 0.5, 0.8 and 1.0 mm.*Power modes – User selectable Low Power vs. High Performance modes, enabled by FD-SOI programmable back-bias.*Design security – ECDSA bitstream authentication, coupled with robust AES-256 encryption.*Fast configuration – I/O configures in 4 ms, and full-device in under 30 ms in 100K LC device.
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MachXO3 -
Lattice Semiconductor
*Up to 9400 LUTs with up to 384 I/O pins*Instant-on 1 ms boot-up with background upgrade, Hitless I/O reconfigure and dual-boot error recovery*Available with 3.3/2.5 V core or low power 1.2 V core – including additional options on 9400 LUT devices*MachXO3LF includes programmable Flash and User Flash Memory (UFM)*Available in amazingly small (2.50 x 2.50 mm, 0.4 mm pitch) WLCSP packages and BGA packages with 0.50 mm and 0.80 mm pitch
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U5404A -
Keysight Technologies
This 18 mm test probe is highly recommended for CAT IV environment and is compatible with the U1281A/82A handheld DMMs
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85564A -
Keysight Technologies
The 85564A 3-in-1 mechanical calibration standard combines an open, short and load standard in a compact unit. The product is small, easy to handle, and lightweight. All standards in the 85564A are male 2.4 mm.
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N1424C -
Keysight Technologies
The N1424C is designed to operate specifically with the B2985B/87BElectrometer/High Resistance Meter. It is used to measure surface or volume resistance/resistivity of insulation materials. The N1413A High Resistance Meter Fixture Adapter is required to connect the N1424C to the B2985B/87B.
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85130G -
Keysight Technologies
The Keysight 85130G test port adapter protects the test set port from connecting directly with the device under test. It has a special rugged female connector that connects to the network analyzer test port. This special connector does not mate with a standard male connector but converts the rugged test set port to a connection that will mate with the device under test. This set contains a NMD-2.4 mm (f) to NMD-2.4 mm (m) adapter and a NMD-2.4 mm (f) to PSC-2.4 mm (f) adapter. The frequency range for these adapters is dc to 50 GHz with a return loss of 23 dB or better.
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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.