SU668059A1 - Fully-controllable power-diode converter control device - Google Patents

Claims (1)

3, one of the inputs of this unit is connected to a current sensor 4. The control valves are turned on.5 and 6 by a trigger. Bistable block can be made as a multivibrator. The device works as follows. After connecting the converter, the power part of which is made according to the two-loop scheme, from the synchronization unit 3, the inputs of the trigger R and S of the trigger, corresponding to the time of the sinusoidal zero-crossing, arrive at the inputs. Depending on the phase of the alternating voltage, the first pulse arrives at one of the trigger inputs, for example, the input R, while the trigger is set to the position at which the valve 5 opens. A positive half-wave voltage Ut is applied to the switching choke 7, resulting in a current passing through it increases dramatically. If the current P reaches the value of the setpoint current Jj during the same half-wave voltage, then the comparison node 2 is triggered, and the voltage-pulse arriving at the trigger trigger input transfers it to another state. At the end of this positive half-wave, a separate input is sent from the synchronization unit 2 to the separate input S of the trigger, confirming the state. a trigger in which the valve 5 is locked and the valve b is unlocked. At the end of the switch, the current value is first reduced. and then in the region of positive voltages, Ua increases. When the current L reaches the set value, which corresponds to a certain value of the setpoint Ij, the comparison node triggers again, causing the valve 6 to be locked and unlocked. valve 5. In the converter, a steady state occurs, characterized by artificial switching of the valves, when the current passing through the valve and, accordingly, the network current 1c, Ha4HHaef flow ahead of a 90 in relation to the network voltage, and reactive power is generated to the network. If the current Ud does not reach the current setpoint J in the first half period, for example due to the large inductance, then due to the push-pull mode of the converter, the current 3d gradually increases, reaches the current setpoint for the next half-wave voltage C. . The described device improves reliability and increases the speed of converters operating in the forced switching mode. An apparatus for controlling a converter on fully controlled valves, comprising a bistable unit whose output is connected to valve control electrodes, and an input to a comparison node of the converter output current and reference current, characterized in that, in order to increase the reliability of starting and increase in speed, it is equipped with a synchronization unit, and the input of which is connected to the terminals for connection to the AC network, and the output to the inputs of the bistable unit. Sources, information taken into account during the examination 1. Pisarev A. L., Detkin L. P., “Control of thyristor converters, M.,“ Energie, 1975, p. 105, fig. 3-5 Cl AT, AND. - t :P. U1 C, h s, USS - t IG