Showing results: 1441 - 1455 of 1667 items found.
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60-554-003 -
Pickering Interfaces Ltd.
A high-density single pole matrix module capable of switching up to 300VDC/250VAC, 2A (60W max). The use of high-quality electro-mechanical relays offers high switching confidence for signal routing in large ATE systems.
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60-554-004 -
Pickering Interfaces Ltd.
A high-density single pole matrix module capable of switching up to 300VDC/250VAC, 2A (60W max). The use of high-quality electro-mechanical relays offers high switching confidence for signal routing in large ATE systems.
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60-554-005 -
Pickering Interfaces Ltd.
A high-density single pole matrix module capable of switching up to 300VDC/250VAC, 2A (60W max). The use of high-quality electro-mechanical relays offers high switching confidence for signal routing in large ATE systems.
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60-554-006 -
Pickering Interfaces Ltd.
A high-density single pole matrix module capable of switching up to 300VDC/250VAC, 2A (60W max). The use of high-quality electro-mechanical relays offers high switching confidence for signal routing in large ATE systems.
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60-554-007 -
Pickering Interfaces Ltd.
A high-density single pole matrix module capable of switching up to 300VDC/250VAC, 2A (60W max). The use of high-quality electro-mechanical relays offers high switching confidence for signal routing in large ATE systems.
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60-554-008 -
Pickering Interfaces Ltd.
A high-density single pole matrix module capable of switching up to 300VDC/250VAC, 2A (60W max). The use of high-quality electro-mechanical relays offers high switching confidence for signal routing in large ATE systems.
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60-552-902 -
Pickering Interfaces Ltd.
A high-density single pole LXI matrix module capable of switching up to 300VDC/250VAC, 2A (60W max). The use of high-quality electro-mechanical relays offers high switching confidence for signal routing in large ATE systems.
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65-218-101 -
Pickering Interfaces Ltd.
The 65-218-101 plug-in module is part of a scalable high voltage matrix platform designed to provide a large matrix solution with a switching capacity of 400V. This version of plug-in includes access to the chassis backplane.
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65-218-111 -
Pickering Interfaces Ltd.
This plug-in module is part of a scalable high voltage matrix platform designed to provide a large matrix solution with a switching capacity of 750V without access to the chassis backplane.
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50-725A-751 -
Pickering Interfaces Ltd.
The 50-725A is an 8x9 RF Matrix Module suitable for switching frequencies up to 500MHz. The 50-725A is available in either 50Ω or 75Ω versions with SMB coaxial connectors. It is intended for the easy construction of high performance bidirectional matrix switching systems.
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50-725A-511 -
Pickering Interfaces Ltd.
The 50-725A is an 8x9 RF Matrix Module suitable for switching frequencies up to 500MHz. The 50-725A is available in either 50Ω or 75Ω versions with SMB coaxial connectors. It is intended for the easy construction of high performance bidirectional matrix switching systems.
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60-891-006 -
Pickering Interfaces Ltd.
The 60-891-006 is a compact 50 Ω microwave switching matrix with added loop-back functionallity and a maximum bandwidth of 18 GHz. It is ideal for constructing complex microwave switching systems for many applications.
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60-891-007 -
Pickering Interfaces Ltd.
The 60-891-007 is a compact 50 Ω microwave switching matrix with a maximum bandwidth of 18 GHz. It is ideal for constructing complex microwave switching systems for many applications. Connection is by high performance rear panel mounted N-type connectors.
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60-311-003 -
Pickering Interfaces Ltd.
The 60-311 is a 2-pole Matrix Module available with one, two or three separate 75x4 matrices housed in the same case. It is capable of cold switching 750VDC continuous with a carry current of 2A plus higher pulse conditions e.g. typically 1000VDC for 1s with low duty cycle or 6A for 200us with <1% Duty Cycle.
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60-732-003 -
Pickering Interfaces Ltd.
The 60-732 is a family of integrated RF matrices suitable for use up to 1.5GHz. The construction of the 60-732 provides a cost effective alternative for RF switching based on microwave switching elements while maintaining a high level of matrix performance. The design is fully scalable, allowing a variety of matrix sizes to be offered in a single family.