Showing results: 871 - 885 of 1211 items found.
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40-966-068-F -
Pickering Interfaces Ltd.
Suitable for mounting on DIN Rails this connector block provides a simple method of connecting to 68-Pin SCSI Style Micro D connectors. The screw terminals use a rising cage clamp mechanism to minimize risk of copper strand breakage. The metal shell includes an internal insulation barrier under the carrier board.
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A020GFR-T-1B050 -
Pickering Interfaces Ltd.
The 16A 20-Pin GMCT cable assembly is constructed from 19/0.41 (14AWG) Copper Wire with PFA 500V insulation. Screwlocks are provided to secure the connector to associated product. The unterminated connections are coded to match the connector pin designation and include crimped on ferrules to ensure the wire strands cannot break when they are terminated.
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A020GMR-C-1B050 -
Pickering Interfaces Ltd.
The 16A 20-Pin GMCT cable assembly is constructed from 19/0.41 (14AWG) Copper Wire with PFA 500V insulation. Screwlocks are provided to secure the connector to associated product. The unterminated connections are coded to match the connector pin designation and include crimped on ferrules to ensure the wire strands cannot break when they are terminated.
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A020GFR-C-1B050 -
Pickering Interfaces Ltd.
The 16A 20-Pin GMCT cable assembly is constructed from 19/0.41 (14AWG) Copper Wire with PFA 500V insulation. Screwlocks are provided to secure the connector to associated product. The unterminated connections are coded to match the connector pin designation and include crimped on ferrules to ensure the wire strands cannot break when they are terminated.
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40-972C-020-1m-FU -
Pickering Interfaces Ltd.
The 16A 20-Pin GMCT cable assembly is constructed from 19/0.41 (14AWG) Copper Wire with PFA 500V insulation. Screwlocks are provided to secure the connector to associated product. The unterminated connections are coded to match the connector pin designation and include crimped on ferrules to ensure the wire strands cannot break when they are terminated.
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40-972C-020-0.5m-FU -
Pickering Interfaces Ltd.
The 16A 20-Pin GMCT cable assembly is constructed from 19/0.41 (14AWG) Copper Wire with PFA 500V insulation. Screwlocks are provided to secure the connector to associated product. The unterminated connections are coded to match the connector pin designation and include crimped on ferrules to ensure the wire strands cannot break when they are terminated.
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A020GFR-T-1B200 -
Pickering Interfaces Ltd.
The 16A 20-Pin GMCT cable assembly is constructed from 19/0.41 (14AWG) Copper Wire with PFA 500V insulation. Screwlocks are provided to secure the connector to associated product. The unterminated connections are coded to match the connector pin designation and include crimped on ferrules to ensure the wire strands cannot break when they are terminated.
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A020GFR-C-1B200 -
Pickering Interfaces Ltd.
The 16A 20-Pin GMCT cable assembly is constructed from 19/0.41 (14AWG) Copper Wire with PFA 500V insulation. Screwlocks are provided to secure the connector to associated product. The unterminated connections are coded to match the connector pin designation and include crimped on ferrules to ensure the wire strands cannot break when they are terminated.
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A020GFR-C-1B100 -
Pickering Interfaces Ltd.
The 16A 20-Pin GMCT cable assembly is constructed from 19/0.41 (14AWG) Copper Wire with PFA 500V insulation. Screwlocks are provided to secure the connector to associated product. The unterminated connections are coded to match the connector pin designation and include crimped on ferrules to ensure the wire strands cannot break when they are terminated.
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SKZ1061A -
SKZ Industrial Co., Ltd
Single material:foam (insulation material surface flat, plate), polyurethanes, phenolic, urea-formaldehyde, mineral wool(glass wool, rock wool, mineral wool), cement wall.Composite materials:glass composite CRC, cement enhanced polyphony board, sandwich concrete, fiber glass panel composite plate, paper cellular plate
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180 CB -
Standard Electric Works Co., Ltd
● The Amplifier Probe is designed to identify and trace wires or cables within a group without damaging the insulation.● Works with any Tone Generator to identify wires.● Volume control for increased sensitivity and adjustable to suit work environment.● Recessed ON/OFF button prevents battery drain.● A phone jack is designed for headset or handset.
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181 CB -
Standard Electric Works Co., Ltd
● The Amplifier Probe is designed to identify and trace wires or cables within a group without damaging the insulation.● Works with any Tone Generator to identify wires.● Volume control for increased sensitivity and adjustable to suit work environment.● Recessed ON/OFF button prevents battery drain.● A phone jack is designed for headset or handset.
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179 CB -
Standard Electric Works Co., Ltd
● The Amplifier Probe is designed to identify and trace wires or cables within a group without damaging the insulation.● Works with any Tone Generator to identify wires.● Volume control for increased sensitivity and adjustable to suit work environment.● Recessed ON/OFF button prevents battery drain.● A phone jack is designed for headset or handset.
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A050DF5-050DF5-HA200 -
Pickering Interfaces Ltd.
50- Pin D-Type HV Cable assemblies are constructed from 7/0.2 (24 AWG) Tinned Copper Wire with PTFE Type C insulation. The connector assemblies can be secured to the mating part by a screwlock. The 50- Pin Female connector options of this product can be directly mated to a corresponding Pickering Interfaces switching product.
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HVST -
Test Electronics
The most important features of the surge tester are its ability to test the entire winding insulation system. A high voltage surge generates turn to turn, coil to coil, and phase to phase voltage stress, as well as ground insulation stress. When used as a dielectric test, accurate voltage readings are essential. The HV Surge Tester monitors the voltage directly across the winding under test. This voltage is displayed on an oscilloscope and recorded on the Pass/ Fail LED latch monitor. This voltage will be accurate despite the impedance of the winding being tested. The insulation system can be tested way above the operating voltage because of the brief duration of the applied voltage test pulse. This allows faults to be detected long before they become apparent at operating conditions.