Patent ID: 9013156
Filing Date: 2015-04-21
Classification: G01R,H03K

Abstract:
1. A signal generation device comprising: a first comparator for receiving a voltage waveform detected from a measured power line and generating a first logical signal according to a positive or negative polarity of the voltage waveform; a second comparator for receiving a current waveform detected from the measured power line and generating a second logical signal according to a positive or negative polarity of the current waveform; a first operation unit for outputting a third logical signal according to exclusive-OR of the first logical signal and the second logical signal; a phase shift unit for generating a phase shift signal by shifting a phase of the first logical signal, after creating a zero cross point by a zero cross creation unit when the first logical signal is changed, memorizing a time between the created zero cross points, and inverting the first logical signal during a period where a time from a next zero cross point is less than the memorized time; a second operation unit for outputting a fourth logical signal according to exclusive-OR of the phase-shifted logical signal and the second logical signal; a full-wave rectifier for performing full-wave rectification on the detected current wave form; and a transform unit for outputting a quantization value, which corresponds to an average value of a current waveform in a certain period of a corresponding current waveform obtained by performing quantization transform on the current waveform that is full-wave rectified by the full-wave rectifier using a successive ΔΣADC, at a ratio of the number of counts of an output of the successive ΔΣADC with respect to the number of CLKs of a reference CLK pulse of the certain period, counted during the certain period based on the reference CLK pulse, wherein the third logical signal, the fourth logical signal and the quantization value are output to a measurement unit which outputs an I count value corresponding to current I obtained by counting the quantization value output during a half-wave period from the next zero cross point created by the zero cross detection unit to a next zero cross point, an I cos count value corresponding to current I cos θ obtained by counting the quantization value output during the half-wave cycle in a count method based on the third logical signal, and an I sin count value corresponding to current I sin θ obtained by counting the quantization value output during the half-wave cycle in a count method based on the fourth logical signal.