RU2002118482A - Device and method for controlling a reversible converter of ac energy into ac energy - Google Patents

Claims (5)

1. A control device for a reversible converter of alternating current energy of one parameter into alternating current energy of other parameters, consisting of a control system, an input filter and a semiconductor switch that includes two sets of keys, characterized in that the sets are made according to identical circuits with double-sided symmetric keys conductivity, the control of which is consistent in a certain way during the PWM period, and the power phi is excluded from the intermediate link connecting these sets of keys liter 2. A method for controlling a reversible converter of alternating current energy of one parameter into alternating current energy of other parameters using double-sided conductivity keys with three-phase bridge circuits and a continuous control signal operating in the vector pulse-width modulation mode, characterized in that the input converter shear coefficient is controlled and the vector of output voltages is conducted on a single PWM period, in which, based on the setting values of the vectors of network currents and output In addition, the implementation times of zero and nonzero states of keys of various sets are calculated separately, and to coordinate their work on the PWM period, the products of the calculated implementation times are determined, resulting in four time intervals (nonzero) corresponding to the implementation of nonzero time-matched generating vectors of network currents and converter output voltages and five intervals, subsequently combined into one (zero), corresponding to the implementation of the zero state by at least one of sets of converter keys, the duration of four non-zero and one zero interval in total is the PWM period, in which the simultaneous coordinated states of the keys of both sets are implemented in the required sequence determined by the switching algorithm used. 3. The method of controlling a reversible converter of alternating current energy of one parameter into alternating current energy of other parameters according to claim 2, characterized in that the implementation of soft switching in one of the converter sets is carried out by switching the power keys of this set during the implementation of the zero state of the keys of another set, the keys used to form nonzero generatrix vectors in the set, where soft switching is performed, are switched at the moment the current (voltage) reaches to the mid-level link. 4. A method for controlling a reversible converter of alternating current energy of some parameters into alternating current energy of other parameters according to claim 2, characterized in that the input shear coefficient is controlled by changing the phase of the vector of instantaneous values of phase current relative to the vector of the input (mains) alternating voltage. 5. A method for controlling a reversible converter of alternating current energy of one parameter into alternating current energy of other parameters according to claims 2 and 4, characterized in that the output voltage of the converter is controlled by changing the amplitude of the components of a given vector of instantaneous values of the output voltage.