Showing results: 31 - 45 of 123 items found.
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3690-3 -
VECTOR Electronics and Technology, Inc.
Contact fingers at the other end of extender card are gold plated provides low insertion force and positive contact with printed circuit boards. Receptacles have double row phosphor bronze contacts with high quality, long life mounted on top of the extender.
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3690-16 -
VECTOR Electronics and Technology, Inc.
Contact fingers at the other end of extender card are gold plated provides low insertion force and positive contact with printed circuit boards. Receptacles have double row phosphor bronze contacts with high quality, long life mounted on top of the extender.
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3690-17 -
VECTOR Electronics and Technology, Inc.
Contact fingers at the other end of extender card are gold plated provides low insertion force and positive contact with printed circuit boards. Receptacles have double row phosphor bronze contacts with high quality, long life mounted on top of the extender.
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3690-12 -
VECTOR Electronics and Technology, Inc.
Contact fingers at the other end of extender card are gold plated provides low insertion force and positive contact with printed circuit boards. Receptacles have double row phosphor bronze contacts with high quality, long life mounted on top of the extender.
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3690 -
VECTOR Electronics and Technology, Inc.
Contact fingers at the other end of extender card are gold plated provides low insertion force and positive contact with printed circuit boards. Receptacles have double row phosphor bronze contacts with high quality, long life mounted on top of the extender.
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3690-6 -
VECTOR Electronics and Technology, Inc.
Contact fingers at the other end of extender card are gold plated provides low insertion force and positive contact with printed circuit boards. Receptacles have double row phosphor bronze contacts with high quality, long life mounted on top of the extender.
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3690-15 -
VECTOR Electronics and Technology, Inc.
Contact fingers at the other end of extender card are gold plated provides low insertion force and positive contact with printed circuit boards.
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111EXT3122-11XX -
ELMA Electronic, Inc.
The VME extender boards are designed to bring a circuit card completely out of a card cage so that it can be tested or debugged on both sides of the test board. Each signal, power, and ground line can be individually isolated with the DIP switches.
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111EXT3122-12XX -
ELMA Electronic, Inc.
The VME extender boards are designed to bring a circuit card completely out of a card cage so that it can be tested or debugged on both sides of the test board. Each signal, power, and ground line can be individually isolated with the DIP switches.
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110EXT3122-10xx -
ELMA Electronic, Inc.
The VME extender boards are designed to bring a circuit card completely out of a card cage so that it can be tested or debugged on both sides of the test board. Each signal, power, and ground line can be individually isolated with the DIP switches.
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111EXT3140-11xx -
ELMA Electronic, Inc.
The VME extender boards are designed to bring a circuit card completely out of a card cage so that it can be tested or debugged on both sides of the test board. Each signal, power, and ground line can be individually isolated with the DIP switches.
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111EXT3140-12xx -
ELMA Electronic, Inc.
The VME extender boards are designed to bring a circuit card completely out of a card cage so that it can be tested or debugged on both sides of the test board. Each signal, power, and ground line can be individually isolated with the DIP switches.
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110EXT3140-10xx -
ELMA Electronic, Inc.
The VME extender boards are designed to bring a circuit card completely out of a card cage so that it can be tested or debugged on both sides of the test board. Each signal, power, and ground line can be individually isolated with the DIP switches.
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116EXT6122-0125R -
ELMA Electronic, Inc.
The VME extender boards are designed to bring a circuit card completely out of a card cage so that it can be tested or debugged on both sides of the test board. Each signal, power, and ground line can be individually isolated with the DIP switches.