Patent ID: 6459599
Filing Date: 2002-10-01
Classification: H02M

Abstract:
A method of providing control signals to solid state switches of a bridge in a pulse-width-modulation-controlled DC converter, which method comprises:providing a sine signal indicative of the sine of an angle &thgr;; providing a cosine signal indicative of the cosine of said angle &thgr;; providing line current signals, each respectively indicative of the magnitude of current flowing between said bridge and a corresponding one of said AC mains; providing, in response to (a) said line current signals and (b) said sine and cosine signals, in-phase and quadrature line current signals in synchronous coordinates; providing a DC voltage command signal; providing a voltage error signal in response to the difference between said DC voltage command signal and the DC output voltage of said bridge; providing a quadrature current command signal in response to said voltage error signal; providing a quadrature current error signal in response to said quadrature current command signal minus said quadrature line current signal in synchronous coordinates; providing a quadrature voltage command signal in synchronous coordinates in response to said quadrature current error signal; providing an in-phase current command signal selected to provide desired zero state vectors; providing an in-phase current error signal in response to said in-phase current command signal minus said in-phase line current signal in synchronous coordinates; providing an in-phase voltage command signal in synchronous coordinates in response to said in-phase current error signal; providing three-phase voltage command signals, one corresponding to each of said AC mains in response (c) to said in-phase and quadrature voltage command signals in synchronous coordinates and (d) to said sine and cosine signals; providing pulse width modulation control signals for the switches of said bridge in response to said three-phase voltage command signals, thereby to provide said DC output voltage in correspondence with said DC voltage command signal; characterized by the improvement comprising: providing an estimated voltage signal derived from said in-phase voltage command signal in synchronous coordinates as in input to a phase lock loop function which provides said sine and cosine signals; during an initialization cycle of operation providing an angle signal indicative of the phase angle that changes with a frequency on the order of the frequency of the AC mains; providing six Fourier signals in response to the discrete Fourier transform of said line current signals at the phase angle represented by said angle signal; providing estimated line voltage signals as the inverse discrete Fourier transform of said six Fourier signals at the phase angle represented by said angle signal; providing estimated in-phase and quadrature line voltage signals in response to said estimated line voltage signals; providing an estimated initialization phase angle signal as the arctangent of the ratio of said estimated in-phase line voltage signal to said estimated quadrature line voltage signal; and at the end of said initialization cycle, initializing said phase lock loop function with said estimated initialization angle signal.