SU966844A1 - Device for control of switching-over of reversible gate type converter - Google Patents

Description

(5) DEVICE FOR CONTROLLING THE SWITCHING OF A REVERSING VENTIAL CONVERTER

. . one

The invention relates to electrical engineering and can be used to control reversing valve converters with separate control.

A device for controlling a converter is known, containing zero-bodies connected to a zero current sensor and a reverse indicator, the outputs of which are connected to the inputs of two switching channels, each of which consists of a NAND element connected in series, a common trigger for two channels, a DELAY element and switch control pulses 1.

A disadvantage of the known device is the instability of the pause time when switching valve converter groups, due to frequent switching of the device trigger from interference or from control signals when operating in the area of intermittent currents.

Closest to the invention is a device for controlling the switching of a reversible valve converter, containing a group zero-body, the output of which is connected to the input of the first KE element, a trigger, the outputs of which are connected to the inputs of the delay elements and two elements And 2j.

A disadvantage of this device is the fact that it does not protect the converter from emergency modes that may occur in the case of a trigger switch at the time of generation of the control pulse, since

15 the control pulse opens the corresponding thyristor of the working group, the current rises in this group after switching the trigger and removing the control pulses from this group

20 and through the delay time calculated to restore the thyristor locking properties of the working group, the other group is turned on and an emergency equalizing current can arise. The device also does not block the control pulses for transient processes in the converter when it is connected to the network and with a significant decrease in the network voltage, which also reduces the reliability of operation. The purpose of the invention is to increase reliability. The goal is achieved by the fact that the device for controlling the switching of the reversing valve converter is equipped with an element NE and a block of control impulse blocking, and a timed GK trigger having three inputs 1 and K is used as a trigger, the first inputs I and K of the trigger are intended For connecting to the sensor state of the converter valves, the second inputs and the Ktrigger are NOT connected to the output terminal to connect to the control pulse shaper, one third inputs I and K of the trigger dineny the outputs zero-body reverse first element groups and NOT, respectively, outputs of the delay elements are connected to first inputs of AND gates, whose second inputs are connected to the output of the control pulse blocking block clocked input 1-K flip-flop is designed for connection to a high frequency generator. In addition, the blocking block contains an emitter follower, the output of which is the output of the block, two resistors, a capacitor and a zener diode, the input of an emitter repeater through the first resistor and a zener diode connected in series to the unstabilized power supply of the converter, and the common output of the power source is connected through a capacitor the input of the emitter follower and through the second resistor with a common point of the first resistor and the Zener diode. The drawing shows a block diagram of the device. The device consists of a null-organ 1 of the reverse groups, elements HE 2 and 3, a trigger, delay elements 5 and 6 elements AND 7 and 8, a block 9 for blocking control pulses. The device operates as follows. When a clock pulse, trigger k, arrives at the clock input, it switches or confirms the state of the trigger. The reversal of the groups is carried out only if there is 1 at the output of the sensor of the valve state, when the signal travels to the reverse of the groups with zero-organ 1 and there is no control pulse of the thyristor. Elements 2 and 3 provide the required level of signals at the trigger inputs k. Clocking the trigger with high frequency pulses increases the noise immunity of the device. The command for switching the converter valve groups comes through the delay elements 5, 6. The time constant of the charge circuit of the delay elements 5.6 is much longer than the time constant of the discharge circuit due to the diode shunting the resistor. Therefore, delay elements 5 and 6 perform the function of delaying only the leading edge of the pulses. The time of this delay is chosen sufficient to restore the blocking properties of the thyristors. At the same time, the pulse difference from 1 to O is not delayed, i.e., when a signal arrives at the reverse of the groups and when the trigger A is switched, the thyristor control pulses are removed from one thyristor group and connected to another after some time. Elements 7 and 8 block the switching commands performed by block 9 when the converter is turned on for the network at the time of completion of the transients, as well as when the network voltage drops below the allowable one. The input of block 9 is connected to a rectified unstabilized voltage of the converter. Block 9 consists of an emitter follower, to the input of which an unstabilized supply voltage is applied through the zener diode and the QC filter. The emitter follower matches the input resistances of the And 7 and 8 elements with the output resistance of the RC filter, which realizes the time delay of the leading edge of the power supply voltage of the device when it is connected to the mains. The zener diode and the resistor perform the function of cutting off a part of the supply voltage, and provide a reduction in the output voltage of the block 9 below the logical 1, which prohibits the passage

Claims (2)

Claim 1. A device for controlling the switching of a reversible valve Converter containing zero · -. a group reverse organ, the output of which is connected to the input of the first element NOT, a trigger whose outputs are connected to the inputs of the delay elements sp and two AND elements, characterized in that, in order to increase reliability, it is equipped with a second element NOT and a block for blocking control pulses, and as the ₃₅ trigger used clock 1-K trigger, having three inputs I and K, with the first inputs of I and K trigger 6 966 844 are intended for connection to the sensor state transformation valves ¹ of Tell, the second inputs I and K flip-flop through the second member is not connected to terminal 5 for connection to a control pulse shaper, third inputs I and K flip-flop connected to the outputs of the zero-body reversal groups and of the first element NOT, respectively, 10 outputs of the delay elements are connected to the first inputs of the AND elements, the second inputs of which are connected to the output of the control pulse blocking unit, the timing input 1-K of trigger 15 is designed to be connected to the generator shout high frequency. 2. The device according to π.1, with the fact that the blocking unit contains an emitter follower, the 20 output of which is the output of the unit, two resistors, a capacitor and a zener diode, the input of the emitter follower through the first resistor and the zener diode 25 connected in series to an unstabilized converter power source, and the common output of the power source through a capacitor is connected to the input of the emitter follower and through a second resistor with a common point of the first resistor and zener diode. ₍ Sources of information taken into account in the examination 1. Pisarev A.L., Detkin L.P. Control thyristor converters. M., Energy, 1975, p. 182. 2. Copyright certificate of the USSR No. 668060, cl. H 02 P 13/16, 1977.