Add to ORKGAn improved standard derived from a current power bridge for calibrating active/reactive power and energy meters under sinusoidal conditions is described. Measurements can be made at any power factor from zero lag through unity to zero lead, positive or negative power, at 120 V,5 A, and 50 or 60 Hz. The improved power standard has an estimated uncertainty of not more than 2.5 uW/VA at k=1. Special high accuracy current and voltage range extenders have been incorporated to extend the current and voltage ranges up to 200 A and 1200 V, respectively.Peer reviewed: YesNRC publication: Ye
The increased application of power electronics and other non-linear loads makes it necessary to re-e...
With the increasing spread of electric vehicles, the measurement of DC active electrical energy beco...
This paper describes the new single-phase harmonic power standard developed at VTT MIKES. The standa...
An improved power standard derived from a current comparator power bridge for calibrating active/rea...
A system for calibrating active/reactive power and energy meters under sinusoidal conditions using a...
This paper presents the results of a comparison of active/reactive power meter calibrations between ...
The results of a comparison of active/reactive power meter calibrations between the National Institu...
The results of a bilateral comparison on active/reactive power meter calibrations between the Nation...
The development of a computer-controlled current-comparator-based test system for calibrating high-v...
A new current-comparator-based dual-channel calibration system for AC currents and AC voltages in th...
We present a digital sampling algorithm that uses two high resolution integrating voltmete...
This paper describes the reference system for current sensor calibrations at power frequency and for...
Electric energy meters are designed to account energy under sinusoidal and nonsinusoidal conditions,...
The development of a current-comparator-based system for on-site calibrations of high voltage phasor...
The power measurement mode has made fundamental changes with the development of smart substation, tr...
The increased application of power electronics and other non-linear loads makes it necessary to re-e...
With the increasing spread of electric vehicles, the measurement of DC active electrical energy beco...
This paper describes the new single-phase harmonic power standard developed at VTT MIKES. The standa...
An improved power standard derived from a current comparator power bridge for calibrating active/rea...
A system for calibrating active/reactive power and energy meters under sinusoidal conditions using a...
This paper presents the results of a comparison of active/reactive power meter calibrations between ...
The results of a comparison of active/reactive power meter calibrations between the National Institu...
The results of a bilateral comparison on active/reactive power meter calibrations between the Nation...
The development of a computer-controlled current-comparator-based test system for calibrating high-v...
A new current-comparator-based dual-channel calibration system for AC currents and AC voltages in th...
We present a digital sampling algorithm that uses two high resolution integrating voltmete...
This paper describes the reference system for current sensor calibrations at power frequency and for...
Electric energy meters are designed to account energy under sinusoidal and nonsinusoidal conditions,...
The development of a current-comparator-based system for on-site calibrations of high voltage phasor...
The power measurement mode has made fundamental changes with the development of smart substation, tr...
The increased application of power electronics and other non-linear loads makes it necessary to re-e...
With the increasing spread of electric vehicles, the measurement of DC active electrical energy beco...
This paper describes the new single-phase harmonic power standard developed at VTT MIKES. The standa...