RU2013137350A - METHOD FOR CONTROL OF NONLINEAR DYNAMICS OF DIRECT DOWN DOWN VOLTAGE CONVERTER - Google Patents

Abstract

The control system is implemented due to the fact that a control system consisting of two subsystems is connected to the power part of the converter, made on the basis of a direct lowering converter, LC filter: the main subsystem, consisting of a subtractor, which forms the difference between the reference signal and the feedback signal (signal error), a scaling voltage feedback amplifier proportional to the controller, to the input of which an error signal is supplied, and the output signal is fed to the input of the comparator, to the second input to the signal from the generator of the developing voltage operating synchronously with the master oscillator is fed in, which makes it possible to generate a control signal for the converter, which ensures stabilization of the average value of the output voltage; an auxiliary control subsystem, characterized in that the subsystem under consideration does not use a time delay when stabilizing the design mode, but approximators based on neural networks are introduced that use the current values of the reference voltage, input voltage and load resistance (calculates the load resistance calculator) to form the reference vector ( inductor current and capacitor voltage) to a fixed 1-cycle display point, subtracting from which the feedback vector variables states at stroboscopic times obtained at the output of the sampling and storage devices using scaling amplifiers, is implemented using subtractors, then the subtraction result is amplified by scaling amplifiers and fed to the subtractor of the main subsystem у�

Claims (1)

The control system is implemented due to the fact that a control system consisting of two subsystems is connected to the power part of the converter, made on the basis of a direct lowering converter, LC filter: the main subsystem, consisting of a subtractor, which forms the difference between the reference signal and the feedback signal (signal error), a scaling voltage feedback amplifier proportional to the controller, to the input of which an error signal is supplied, and the output signal is fed to the input of the comparator, to the second input to the signal from the generator of the developing voltage operating synchronously with the master oscillator is fed in, which makes it possible to generate a control signal for the converter, which ensures stabilization of the average value of the output voltage; an auxiliary control subsystem, characterized in that the subsystem under consideration does not use a time delay when stabilizing the design mode, but approximators based on neural networks are introduced that use the current values of the reference voltage, input voltage and load resistance (calculates the load resistance calculator) to form the reference vector ( inductor current and capacitor voltage) to a fixed 1-cycle display point, subtracting from which the feedback vector variables states at stroboscopic time points obtained at the output of the sampling-storage devices using scaling amplifiers is implemented using subtractors, then the subtraction result is amplified by scaling amplifiers and fed to the subtractor of the main control subsystem, correcting the error signal, thereby stabilizing the design dynamic mode ( 1-cycle).