Method and device for compensating for angle errors when measuring electrical power
First Claim
Patent Images
1. An electrical power measuring device, comprising:
- a multiplexer for receiving input signals including a current signal and a voltage signal to be measured;
an analog-to-digital converter connected to and disposed downstream of said multiplexer, said analog-to-digital converter being a sigma-delta modulator receiving the current signal and the voltage signal and outputting a digital serial signal formed of digitized values of the current signal and the voltage signal;
a digital processor connected to and disposed downstream of said sigma-delta modulator and receiving the digital serial signal from said sigma-delta modulator;
a decimation filter connected between said sigma-delta modulator and said digital processor; and
a control logic unit connected to said decimation filter and generating predeterminable waiting cycles in each case between the digitized values of the current signal and the voltage signal forming the digital serial signal for forming respective power values, said control logic unit driving said decimation filter such that a predetermined phase angle is generated between the digitized values of the current signal and the voltage signal in the digital serial signal.
2 Assignments
0 Petitions
Accused Products
Abstract
In order to obtain a simple circuit structure for a measuring device with high measuring accuracy, it is provided that current and voltage signals of a load are fed to a multiplexer and, after digitization, are multiplied by one another. In order to compensate for external angle errors, different waiting cycles are generated between the current and voltage values in the digital signal. A measuring device and a method are provided for this purpose. A preferred application is in electricity meters.
28 Citations
8 Claims
-
1. An electrical power measuring device, comprising:
-
a multiplexer for receiving input signals including a current signal and a voltage signal to be measured;
an analog-to-digital converter connected to and disposed downstream of said multiplexer, said analog-to-digital converter being a sigma-delta modulator receiving the current signal and the voltage signal and outputting a digital serial signal formed of digitized values of the current signal and the voltage signal;
a digital processor connected to and disposed downstream of said sigma-delta modulator and receiving the digital serial signal from said sigma-delta modulator;
a decimation filter connected between said sigma-delta modulator and said digital processor; and
a control logic unit connected to said decimation filter and generating predeterminable waiting cycles in each case between the digitized values of the current signal and the voltage signal forming the digital serial signal for forming respective power values, said control logic unit driving said decimation filter such that a predetermined phase angle is generated between the digitized values of the current signal and the voltage signal in the digital serial signal. - View Dependent Claims (2, 3, 4, 5)
-
-
6. A method for measuring electrical power at a load, which comprises:
-
continuously acquiring current values of a current signal and voltage values of a voltage signal;
using a multiplexer, to generate a common serial signal in which the current and voltage values alternately succeed one another;
converting the common serial signal into a 1-bit stream via an analog-to-digital conversion;
converting the 1-bit stream into a plurality of multi-bit words representing the alternately successive current and voltage values;
using a decimation filter to provide a time delay between each of the multi-bit words representing the alternately successive current and voltage values, the time delay having a length that is adjustable;
using a control logic unit to set the length of the time delay between each of the multi-bit words;
using the length of the time delay for forming an angular shift between at least some of the alternately successive current and voltage values represented by the multi-bit words; and
using immediately successive ones of the multi-bit words for forming respective power values. - View Dependent Claims (7, 8)
-
Specification