Showing results: 61 - 75 of 1326 items found.
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60-554-022 -
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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60-552-026 -
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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60-552-027 -
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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60-552-029 -
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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60-552-030 -
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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60-552-922 -
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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60-552-028 -
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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60-552-921 -
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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60-550-023 -
Pickering Interfaces Ltd.
High-density single pole matrix module capable of switching up to 300VDC/250VAC, or 2A (60W max). The use of high-quality electro-mechanical relays offer high switching confidence and make it suitable for signal routing in large ATE systems.
-
60-551-022 -
Pickering Interfaces Ltd.
High-density single pole matrix module capable of switching up to 300VDC/250VAC, or 2A (60W max). The use of high-quality electro-mechanical relays offer high switching confidence and make it suitable for signal routing in large ATE systems.
-
60-550-026 -
Pickering Interfaces Ltd.
High-density single pole matrix module capable of switching up to 300VDC/250VAC, or 2A (60W max). The use of high-quality electro-mechanical relays offer high switching confidence and make it suitable for signal routing in large ATE systems.
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60-551-024 -
Pickering Interfaces Ltd.
High-density single pole matrix module capable of switching up to 300VDC/250VAC, or 2A (60W max). The use of high-quality electro-mechanical relays offer high switching confidence and make it suitable for signal routing in large ATE systems.
-
60-551-023 -
Pickering Interfaces Ltd.
High-density single pole matrix module capable of switching up to 300VDC/250VAC, or 2A (60W max). The use of high-quality electro-mechanical relays offer high switching confidence and make it suitable for signal routing in large ATE systems.
-
60-550-027 -
Pickering Interfaces Ltd.
High-density single pole matrix module capable of switching up to 300VDC/250VAC, or 2A (60W max). The use of high-quality electro-mechanical relays offer high switching confidence and make it suitable for signal routing in large ATE systems.
-
60-550-028 -
Pickering Interfaces Ltd.
High-density single pole matrix module capable of switching up to 300VDC/250VAC, or 2A (60W max). The use of high-quality electro-mechanical relays offer high switching confidence and make it suitable for signal routing in large ATE systems.