Pulse-width modulation (PWM) inverted power supply system and algorithm based on fuzzy predictive control technology

Abstract

The invention discloses a pulse-width modulation (PWM) inverted power supply system and a PWM inverted power supply algorithm based on a fuzzy predictive control technology. The input is direct current (DC) voltage, and the input passes through a DC booster circuit, is subjected to ripple wave removal through a filtering circuit and passes through a DC / alternating current (AC) inversion circuit; the output is high-voltage AC, an AC voltage detection feedback circuit, an overcurrent detection feedback circuit, a DC detection feedback circuit, a DC voltage detection feedback circuit and other protection circuits are arranged in the circuit, when overcurrent and overvoltage are detected, a control chip obtains a reasonable dead-zone predictive control scheme through an algorithm according to data which is acquired in real time, the PWM driving pulse waveform is changed, and the working reliability of a switching device is effectively guaranteed; meanwhile, the conversion efficiency of a PWM inverter system is high, and the distortion rate of output waveform is reduced. The invention is applicable to fields of switching power supply inverters, solar inverted power supplies, small wind driven generator inverted power supplies and the like.

Description

technical field

[0001] The invention relates to power control technology, which belongs to an energy control system for converting the energy of a DC signal into an AC signal, and in particular to a PWM (Pulse width Modulation, PWM, pulse width modulation) inverter power system and algorithm based on fuzzy predictive control technology. Background technique

[0002] The inverter power supply converts the energy input as a DC signal into the energy of an AC signal for the AC load to work. The current problems are low conversion efficiency and output waveform distortion, etc., which have been puzzling many scholars. They improve the output waveform from the perspective of inverter dead zone compensation, but each method has its own shortcomings, the effect is not obvious, and the problem still exists. There are many ways to compensate the dead zone at home and abroad, such as: decoupling control method, fuzzy control method, current predictive control method, disturbance dete...

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