RU95109352A - METHOD OF DYNAMIC LATITUDE PULSE MODULATION - Google Patents

Claims (3)

1. A method of dynamic pulse-width modulation based on a one-sided PWM-2, carried out by changing the temporal position of the leading or trailing edges of the pulses, determined at the equal points of the control signal and periodically varying with the clock frequency of the developing signal of increasing (decreasing) shape, for which the sections are determined increase and decrease of the control signal, for example, in sign of the derivative of this signal, characterized in that they generate two sequences of pulse-width modulated pulses, moreover, in the first sequence, the leading (leading) edges of the pulses are formed at the moments of equality of the control signal and the developing signal of increasing (decreasing) shape, and the leading (trailing) edges are formed at the time moments of time; in the second sequence, the leading (trailing) edges of the pulses form at equal moments of the signal obtained by changing the phase of the control signal by 180 ^° and the developing signal of increasing (decreasing) shape, and the trailing (leading) edges form at clock moments, so that when the sign changes the derivative of the control signal from positive to negative prohibits the supply of pulses of the second (first) sequence to the output and simultaneously allows the supply of pulses of the first (second) sequence, and when changing However, the derivative of the control signal from negative to positive prohibits the supply of pulses of the first (second) sequence to the output and simultaneously allows the supply of pulses of the second (first) sequence. 2. The method according to p. 1, characterized in that when you change the sign of the derivative of the control signal, the phase of the deployment signal is instantly changed by 180 ^o so that, if the derivative is positive, the deployment signal has a decreasing shape, and the pulse width is modulated by changing the front position of the pulse fronts, and with a negative sign of the derivative, the scattering signal had an increasing shape, and the pulse width was modulated by changing the position of the trailing edges of the pulses.  3. The method according to p. 1, characterized in that they generate two sequences of pulse-width modulated pulses, the positions of the edges of which are determined at the points of equality of the control signal and two scanning signals that change in antiphase, and the first pulse sequence generates leading edges at the clock and the trailing edges form at equal moments of the control signal and the developing signal of increasing shape, and for the second sequence of pulses, the leading edges form at equal moments the control signal and the expanding signal in a decreasing form, and the trailing edges form at the clock moments, and when the sign of the derivative of the control signal changes from positive to negative, the second pulses are not allowed to output, and simultaneously the pulses of the first sequence are allowed, and when the sign of the derivative of the control signal is changed, negative to positive prohibit the output of pulses of the first sequence and simultaneously allow the supply of pulses of the second th sequence.