Showing results: 751 - 765 of 1098 items found.
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42-782B-531-E -
Pickering Interfaces Ltd.
The 40-782B-531-E (PXI) and 42-782B-531-E (PXIe) single failsafe transfer switches with remotely mounted relays are part of our range of PXI microwave switching modules. They have a characteristic impedance of 50 Ω and a maximum operating frequency of 26.5 GHz. Connections are made via front panel mounted high quality SMA coaxial connectors.
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42-782B-521-E -
Pickering Interfaces Ltd.
The 40-782B-521-E (PXI) and 42-782B-521-E (PXIe) single failsafe transfer switches with remotely mounted relays are part of our range of PXI microwave switching modules. They have a characteristic impedance of 50 Ω and a maximum operating frequency of 18 GHz. Connections are made via front panel mounted high quality SMA coaxial connectors.
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40-782B-521-E -
Pickering Interfaces Ltd.
The 40-782B-521-E (PXI) and 42-782B-521-E (PXIe) single failsafe transfer switches with remotely mounted relays are part of our range of PXI microwave switching modules. They have a characteristic impedance of 50 Ω and a maximum operating frequency of 18 GHz. Connections are made via front panel mounted high quality SMA coaxial connectors.
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40-782B-542-E -
Pickering Interfaces Ltd.
The 40-782B-542-E (PXI) and 42-782B-542-E (PXIe) dual failsafe transfer switches with remotely mounted relays are part of our range of PXI microwave switching modules. They have a characteristic impedance of 50 Ω and a maximum operating frequency of 40 GHz. Connections are made via front panel mounted high quality SMA-2.9 coaxial connectors.
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42-782B-542-E -
Pickering Interfaces Ltd.
The 40-782B-542-E (PXI) and 42-782B-542-E (PXIe) dual failsafe transfer switches with remotely mounted relays are part of our range of PXI microwave switching modules. They have a characteristic impedance of 50 Ω and a maximum operating frequency of 40 GHz. Connections are made via front panel mounted high quality SMA-2.9 coaxial connectors.
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42-782B-552-E -
Pickering Interfaces Ltd.
The 40-782B-552-E (PXI) and 42-782B-552-E (PXIe) dual failsafe transfer switches with remotely mounted relays are part of our range of PXI microwave switching modules. They have a characteristic impedance of 50 Ω and a maximum operating frequency of 50 GHz. Connections are made via front panel mounted high quality SMA-2.4 coaxial connectors.
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40-782B-552-E -
Pickering Interfaces Ltd.
The 40-782B-552-E (PXI) and 42-782B-552-E (PXIe) dual failsafe transfer switches with remotely mounted relays are part of our range of PXI microwave switching modules. They have a characteristic impedance of 50 Ω and a maximum operating frequency of 50 GHz. Connections are made via front panel mounted high quality SMA-2.4 coaxial connectors.
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40-750A-521 -
Pickering Interfaces Ltd.
The 40-750A-521 (PXI) and 42-750A-521 (PXIe) are 50 Ω 8x2 RF matrix modules with SMA connectors suitable for switching frequencies up to 1000 MHz. They are part of a range of 8x2 matrix modules with 50 Ω or 75 Ω characteristic impedance with front panel mounted SMA, SMB or MS-M multiway coaxial connectors.
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42-750-521 -
Pickering Interfaces Ltd.
The 40-750A-521 (PXI) and 42-750A-521 (PXIe) are 50 Ω 8x2 RF matrix modules with SMA connectors suitable for switching frequencies up to 1000 MHz. They are part of a range of 8x2 matrix modules with 50 Ω or 75 Ω characteristic impedance with front panel mounted SMA, SMB or MS-M multiway coaxial connectors.
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40-750A-511 -
Pickering Interfaces Ltd.
The 40-750A-511 (PXI) and 42-750A-511 (PXIe) are 50 Ω 8x2 RF matrix modules with SMB connectors suitable for switching frequencies up to 1000 MHz. They are part of a range of 8x2 matrix modules with 50 Ω or 75 Ω characteristic impedance with front panel mounted SMA, SMB or MS-M multiway coaxial connectors.
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42-750A-511 -
Pickering Interfaces Ltd.
The 40-750A-511 (PXI) and 42-750A-511 (PXIe) are 50 Ω 8x2 RF matrix modules with SMB connectors suitable for switching frequencies up to 1000 MHz. They are part of a range of 8x2 matrix modules with 50 Ω or 75 Ω characteristic impedance with front panel mounted SMA, SMB or MS-M multiway coaxial connectors.
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6565 SERIES -
Wayne Kerr Electronics, Ltd.
The 6565 HF DC Bias Unit is intended to be used with a Wayne Kerr 6500 analyzer, either the 6500B Precision Impedance Analyzer or the 6500P HF LCR Meter. Its function is to provide a source of DC bias current through the Device Under Test (DUT) while the analyzer is making AC measurements. Each 6565 unit can provide up to 10 A of DC current, and up to six 6565 units can be connected in parallel to supply a maximum 60 A. A digital ammeter on the front panel allows the user to see the dc bias current value and an indicator LED shows when the bias current is enabled.
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Comtel Electronics
The Comtel VXS Backplane 21 slots match performance and cost-effectiveness by realising a fully optimised signal and power distribution environment. Design techniques ensure uniform impedance controlled signaling environment and ground guarding minimises line-to-line crosstalkThe VXS provides the high-speed switched serial performance of VITA 41, hybrid design includes VXS payload slots, VXS switch slots and conventional VME64x slots, The 21 slot VXS backplanes supports data rates well beyond 3.125Gb/s per link. As a dual-star design, it can be operated with two switch boards, allowing addressing of both link ports on payload cards.
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Schweitzer Engineering Laboratories, Inc.
The built-in fault-locating methods in SEL devices allow you to quickly identify faults, dispatch crews for repairs, and restore service faster. Traveling-wave fault-locating technology calculates the locations of temporary and permanent faults by measuring the arrival times of the naturally occurring traveling waves caused by a transmission line fault. Accurately detecting these waves requires ultra-high-resolution monitoring, and locating is accurate to within one tower span (±300 m). Impedance-based fault-locating technology calculates fault locations by detecting changes in line impedance as a result of a fault. Impedance-based locating is reliable and accurate to about 2 percent of a line’s total length.
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MP-50 -
FRANKONIA GmbH
The Current Monitoring probes may be used whenever RF current measurements are required. Current measurements are made by placing a current carrying conductor within the “sensing” window of the probe and measuring the probe’s output voltage with an RF detector. Calibration of the probe permits the conversion of the voltages measured to current. Current measurements can be made over the frequency range shown in the transfer impedance curve furnished with each probe. There is virtually no loading of the circuit and the technique permits normal operation of the device under test during measurements. The MP-50 can be used for the procedure for clamp injection when the common- mode impedance requirements cannot be met given in chapter 7.4 of IEC/EN 61000-4-6 „Immunity to conducted disturbances, induced by radio frequency fields”. The MP-50 can also be used as current monitor for BCI testing as per ISO11452-4, RTCA/DO-160 section 20, MIL-STD-461 and various automotive standards.