Title :
Evaluation of a Capacitance Scaling System
Author :
Avramov-Zamurovic, Svetlana ; Koffman, Andrew D. ; Waltrip, Bryan Cristopher ; Wang, Yicheng
Author_Institution :
U.S. Naval Acad., Annapolis
Abstract :
An improved error analysis of an existing capacitance scaling system for supporting measurements of higher valued (10 nF to 100 ) ceramic-dielectric four-terminal-pair (4TP) capacitance standards over the 100-Hz to 100-kHz frequency range is described. The capacitance scaling system uses a commercial impedance (inductance-capacitance-resistance) meter and a single-decade inductive voltage divider as an impedance comparator. Four-terminal-pair capacitors in decade (10 : 1) steps from 10 nF to 100 F are measured. The system´s 10 : 1 scaling error is determined using 100-pF and 1-nF air-dielectric 4TP capacitance standards with known capacitance and loss characteristics over frequency. This paper discusses the significant reductions in measurement uncertainty that were attained through the use of improved calibration standards and measurement method refinements. Details of the uncertainty analysis for a 10-nF capacitor (in the 100-Hz to 10-kHz frequency range) and verification data are presented.
Keywords :
calibration; capacitance measurement; ceramic capacitors; comparators (circuits); error analysis; inductance measurement; measurement standards; measurement uncertainty; voltage dividers; LCR meter; calibration standard; capacitance 1 nF; capacitance 10 nF to 100 F; capacitance 100 pF; capacitance scaling system; ceramic-dielectric four-terminal-pair capacitance standards; error analysis; four-terminal-pair capacitors; impedance comparator; impedance meter; inductance-capacitance-resistance meter; measurement uncertainty; single-decade inductive voltage divider; Calibration; Capacitance measurement; Capacitance-voltage characteristics; Capacitors; Error analysis; Frequency measurement; Impedance; Measurement standards; Measurement uncertainty; Voltage; Calibration; capacitance; four-terminal-pair 4TP capacitance; inductance–capacitance–resistance (LCR) meter; inductive voltage dividers (IVDs); uncertainty analysis;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2007.908318
