SU587593A1 - Method of controlling three-phase adjustable voltage inverter of dc converter - Google Patents

Claims (2)

This goal is achieved by the fact that, in the way of controlling a three-phase voltage, the inverter converts a constant voltage body with the main thyristor, controls its wide pulses, and shunts it backwards from the thyristor and LC switching circuit in each arm of the phase, for turn off the main thyristor, the phase is removed from its control pulse and a narrow control pulse is applied to the thyristor of the tATing chain, and after a time equal to the turn-off time of the main thyristor, a narrow control pulse is supplied and reverse phase thyristor of the same shoulder. The essence of the method lies in the fact that when regulating the output voltage of the converter, the load current in the intervening pause does not flow through the windings of the transformer, but is completely closed through the diodes of the uncontrolled rectifier. Figure 1 shows the principle of the scheme of the converter that implements this method; Fig. 2.3 shows the operation diagrams of individual converter elements, (l j, j is the duration of the thyristor conducting state. The converter contains the main thyristors 1.2 of the inverter, the diode 3,4 of the uncontrolled rectifier, the transformer 5 connecting the inverter with uncontrolled rectifier, smoothing choke 6, load 7, inverter inverter thyristor 8, unmanaged rectifier diodes 9-12, inverter main thyristor 13, switching circuit 14, control system 15, inverter inverter thyristor 16. The inverter operates as follows For example, suppose that the main thyristors 1,2 of the inverter are turned on at the time t | (Fig. 3). In an uncontrolled rectifier, the diodes 3,4 are connected accordingly.The load current flows through the circuit: the power source of the inverter, thyristor 1 , phase A of transformer 5, diode 3, smoothing reactor b, load 7, diode 4, phase C of transformer; pa 5, thyristor 2, power supply to the inverter. To turn off the main thyristor 1, a control pulse is sent from it on the thyristor of the switching circuit 14. After some time, the During the switching process, the thyristor 1 is turned off (PeMeHH tjt moment, fig. 3) and at the same time, the control system 15 gives a pulse to turn on the reverse thyristor 16 to ensure the flow of the restart current of the capacitor of the switching chain 14, and the width of the control pulse is chosen equal to the duration of the reset process . At the moment of time, the main thyristor 13 is turned on. In the interval of pause (t-ii) the load current is completely closed along the circuit: smoothing reactor 6, load .7, diodes 3,4,9,10,11,12. The proposed method of controlling the voltage inverter allows to increase the efficiency of the converter by 1-2%, which entails an increase in the technical and economic performance of the entire device. Claims The method of controlling a three-phase inverter-regulated constant-voltage converter with a main thyristor, controlled by wide pulses, and a shunting reverse thyristor and an UC-switching chain in each arm of the phase, consisting in that for switching off the main thyristor remove a control pulse from it and feed a narrow control pulse to the switching circuit thyristor, characterized in that, in order to increase the efficiency of the converter, a narrow control pulse is fed on inverse phase of the thyristor of the same shoulder in a time interval equal to the time of turning off the main thyristor. Sources of information taken into account in the examination: 1. Author's certificate of the USSR, 232361, cl. N 02 M 7 / 48.1965. 2. USSR author's certificate, 316393, class N 02 M 5/42, 1966.