RU2002125838A - AUTONOMOUS HALF-BRIDGE INVERTER AND METHOD FOR MANAGING THE WORK OF THE AUTONOMOUS HALF-BRIDGE INVERTER - Google Patents

Claims (3)

1. An autonomous half-bridge inverter containing the first and second controlled keys, shunted by diodes and connected in phase with the formation of a half-bridge circuit, a filter capacitor, first and second series-connected isolation capacitors, load inductance, while the isolation capacitors are connected in parallel with a filter capacitor that is connected in parallel with the source DC voltage, and the load inductance with one terminal is connected to the midpoint of the half-bridge circuit, which It is connected in parallel with isolation capacitors, characterized in that a compensating high-frequency capacitor is introduced, while the load inductance and the compensating capacitor are connected to form a high-frequency parallel resonant oscillatory LC circuit, in addition, a low-frequency choke is connected to the device, which is connected between the second terminal of the load inductance and the point connection of separation capacitors and forms a series low-frequency resonator with separation capacitors nans oscillatory circuit with a resonant frequency corresponding to the frequency of the low-frequency component of the current in the inverter load. 2. A method for controlling the operation of an autonomous half-bridge inverter, according to which the inverter is performed in a half-bridge circuit, parallel load compensation of the inductance of the load with a compensating capacitor, the forward and reverse half-waves of the voltage in the inductance of the load are formed, for which the opening and closing alternating-phase keys of the half-bridge circuit are fed alternately. control pulses, characterized in that both high-frequency and low-frequency signals are simultaneously generated in the load, for which purpose In addition, they perform sequential compensation of the load inductance, and the parallel oscillatory circuit of the load inductance and the compensating capacitor is high-frequency, for which high-frequency compensation is performed by the high-frequency capacitor, control pulses are generated with a frequency equal to the resonant frequency of the parallel oscillatory circuit, while controlling the keys half-bridge form in the inverter high-frequency oscillations in the form of a sinusoid, the middle line of which varies in aconite baseband signal, and the serial inductance load compensation is performed on the baseband signal frequency. 3. The method according to claim 2, characterized in that by controlling the half-bridge keys when forming the half-wave of the high-frequency component of the inverter current, an imbalance is introduced into the operation of the out-of-phase controlled keys and diodes, while the opening pulses are supplied to the controlled keys at the moment of transition of the common-mode diode through zero, moreover, when forming a positive half-wave of the low-frequency component of the inverter current, they change according to the adopted law the changes in the low-frequency component of the inverter current the moment of applying the closing impu It doesn’t change the controlled key, which forms a positive half-wave of the high-frequency component of the current, and the moment of applying the closing pulse to the antiphase controlled key is not changed, when the negative half-wave of the low-frequency component of the inverter current is generated, the moments of applying the closing pulses to the controlled keys are replaced by the opposite.