A practical method with high accuracy in generation and application of error values for calibration of current transformer test sets is described. A PC-controlled three-phase power source with a standard wattmeter is used for generating the nominal and error test currents while an electronically compensated current comparator is used to provide summation and subtraction of them, precisely. With this method, any ratio error and phase displacement values could be generated automatically and nominal and test currents could be grounded on the test set safely. Because of its high accurate ratio and phase error generating capability, any type of test set regardless of its operating principles could be calibrated
An electronic compensator of ratio errors and phase-displacements is proposed for in-service transfo...
Many different high-precision systems for determining the ratio error and phase displacement of curr...
The paper presents a digital apparatus for measuring current transformer errors in the range of freq...
Abstract- This paper describes an innovative procedure for calibrating sets for evaluating instrumen...
The paper presents the basic layout for instrument current transformer calibration using comparative...
The development of a computer-controlled current-comparator-based calibration system to determine th...
The development of a current-comparator-based calibration system to evaluate the current ratio error...
Abstract − Methods enabling a determination of errors εI and δI for a high transformation ratio diff...
Regular calibration of the Instrument Transformers (ITs) is very essential for the accurate measurem...
The calibration of measurement transformers represents a classical task in the practice of electrica...
A measurement setup is developed for the accurate ratio measurement of ac current transformers (CTs)...
This paper deals with error compensation in current transformers. Usually the manufacturer tries to ...
Two procedures for determining instrument current transformer (ICT) errors in the specified frequenc...
A system for evaluating instrument current transformer errors using a lock-in amplifier is described...
A new compensating system is proposed to reduce the ratio error and the phase error of inductive vol...
An electronic compensator of ratio errors and phase-displacements is proposed for in-service transfo...
Many different high-precision systems for determining the ratio error and phase displacement of curr...
The paper presents a digital apparatus for measuring current transformer errors in the range of freq...
Abstract- This paper describes an innovative procedure for calibrating sets for evaluating instrumen...
The paper presents the basic layout for instrument current transformer calibration using comparative...
The development of a computer-controlled current-comparator-based calibration system to determine th...
The development of a current-comparator-based calibration system to evaluate the current ratio error...
Abstract − Methods enabling a determination of errors εI and δI for a high transformation ratio diff...
Regular calibration of the Instrument Transformers (ITs) is very essential for the accurate measurem...
The calibration of measurement transformers represents a classical task in the practice of electrica...
A measurement setup is developed for the accurate ratio measurement of ac current transformers (CTs)...
This paper deals with error compensation in current transformers. Usually the manufacturer tries to ...
Two procedures for determining instrument current transformer (ICT) errors in the specified frequenc...
A system for evaluating instrument current transformer errors using a lock-in amplifier is described...
A new compensating system is proposed to reduce the ratio error and the phase error of inductive vol...
An electronic compensator of ratio errors and phase-displacements is proposed for in-service transfo...
Many different high-precision systems for determining the ratio error and phase displacement of curr...
The paper presents a digital apparatus for measuring current transformer errors in the range of freq...