Showing results: 991 - 1005 of 2628 items found.
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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.
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116EXT6122-012XR -
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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111EXT6122-012X -
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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110EXT6122-000X -
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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111EXT6140-012X -
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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111EXT9122-0120 -
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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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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110EXT9122-0000 -
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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111EXT9140-0120 -
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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EKMB (WL) Series -
Panasonic Industrial Devices Sales Company of America
Panasonic EKMB Series PIR Motion Sensors are suitable for low current consumption for battery-driven applications. Reduces current consumption (1, 2, or 6μA) with featured special circuit design technology allowing longer battery life.
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MDLA-100 -
MULTI MEASURING INSTRUMENTS Co., Ltd.
This DC Leakage Current Monitor constantly observes leakage current of DC circuit like as PV generation system, etc. and lights up the warning lamp with signal output, when the leakage current exceeds the setting value.
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MHR-600 -
MULTI MEASURING INSTRUMENTS Co., Ltd.
・Measuring and recording the average current values & power flow directions in the setting interval.・Easy to use, as an indirect hot-line work tool.・Memorized data can be outputted to USB memoryafter measurement.・For 6.6KV circuit, protection level IP64.
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Leuze electronic GmbH + Co. KG
With the MSI safety relays, individual safety sensors can be integrated quickly and easily into the safety circuit of machines and systems. The MSI contact extensions are used both as an output extension for OSSDs and for contact multiplication for evaluation units and safety controls.
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LCR01D -
MINPU TECHNOLOGY CO., LTD.
*Basic accuracy:0.3%*Test Voltage: 0.5Vrms* Circuit Calibration:Open/Short*Test Frequency:10MHz,5MHz,1MHz,100KHz,10KHz,1KHz*Measure Parameters Include:Z, Lp, Ls, Cp, Cs, ESR, D, Q, θ
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MegiQ BV
The unbalanced interface of a VNA is not very well suited for measuring balanced circuits like antennas, transmission lines or chip impedances. In fact it is nearly impossible to get a decent calibration on a balanced 2-port measurement using coax cables.