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A New Self-Calibration Method for a Decade Inductive Voltage Divider by Using Bifilar Windings as an Essential Standard at Wide Frequency | IEEE Journals & Magazine | IEEE Xplore

A New Self-Calibration Method for a Decade Inductive Voltage Divider by Using Bifilar Windings as an Essential Standard at Wide Frequency


Abstract:

This paper describes how to calibrate a self-calibration decade inductive voltage divider (S-IVD). The S-IVD consists of windings of a decade main divider and nine bifila...Show More

Abstract:

This paper describes how to calibrate a self-calibration decade inductive voltage divider (S-IVD). The S-IVD consists of windings of a decade main divider and nine bifilar windings as an essential standard. A commercial four-terminal-pair (4TP) LCR meter is used to measure the small differential vector voltages of the S-IVD. The voltage measurement does not require injection signals for zero balancing. The S-IVD can be calibrated by obtaining a part in 107 to 105 level uncertainties at 120 Hz to 1 MHz using mostly commercial instrumentation. Another IVD as a device under test (DUT) can be calibrated by 1 : 1 direct comparison using the main divider of the S-IVD and the LCR meter as a differential voltage detector.
Published in: IEEE Transactions on Instrumentation and Measurement ( Volume: 58, Issue: 4, April 2009)
Page(s): 985 - 992
Date of Publication: 25 November 2008

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