SU970586A1 - Device for control of converter electronic gates - Google Patents

Description

The invention relates to converter technology and may be used to control valves and converters made on fully controlled valves.

Devices for controlling converter valves are known, comprising a current source, a pulse driver, diodes, a transistor switch, and terminals for connecting a valve. Lei J.

The device for controlling converter valves, containing a pulse shaper connected by its output terminals to the terminals for connecting the grid and cathode of the corresponding valve, and the input to the output of the amplifier, whose inputs are connected to the outputs of the primary unit, is the closest to the proposed means and results achieved. pulses and trigger inputs connected by their output to the first input of the element I, the second input of which through the valve state sensor, made mainly in view a current sensor connected to the output of the pulse shaper 2j.

A disadvantage of the known devices is low reliability.

The purpose of the invention is to increase the reliability of the device for controlling the conversion of electronic valves. tel.

The goal is achieved by the fact that in the device the output of the element I is connected to the control input of the amplifier of the corresponding valve.

The output of the control channel AND element is not connected by any valve to the control input of the control channel amplifier of another valve.

Each of the valve control channels is equipped with a delay unit and an additional I element, the trigger is provided with a second output and the amplifier is made with a second control input, the second trigger output and the current sensor output connected to the inputs of an additional I element, the output of which is connected to second control input amplifiers.

Each valve control channel

25 is provided with an additional trigger and a second additional AND element, with the first control input of the amplifier connected to the output of the first additional element AND channel

Claims (4)

30, controlling the adjacent valve, and the second input is connected to the R-input of an additional trigger, the S-input of which is connected to the S-input of the main trigger, and the output of the second additional element And, the first input of which is connected to the output of the main element And and the first input of the first additional element I, and the second input - with the first output of an additional trigger, the second output of which is connected to the second input of the first additional element I through the delay block. for controlling electronic converter valves. The device (Fig. 1) contains terminals for connecting an electronic valve 1, a driver of 2 pulses, an amplifier 3, a block 4 of primary Ipulses, a trigger 5, an element 6 and a sensor 7 of current. In the device (Fig. 2), the output of the AND element of the single control channel by the valve is connected to the control input of the amplifier of the adjacent control channel. In the device (fig. 3 and 4}, the power block 8 and the additional element I 9 are inserted, and the device shown in fig. 5 is equipped with the additional trigger 10 and the second additional element 11 and 11. The proposed device works as follows. From block 4 primary impulses & pulses that enable and disable the 2 pulse generator and trigger 5. If during this period of time the grid current decreases below a certain level, then the output of sensor 7 will produce a signal that b causes the driver 2 to be turned on again and the amplifier 3 turned on. Such a decrease in the grid current may occur due to the arrival of a false stop signal (noise) in the transmission channel of the pulse from amplifier 3 to the driver 2. the pulse decay can last several tens of microseconds.This fact of a false shutdown of the imaging unit using sensor 7 can be set to 1len before the current of the grid drops to zero. The device, the circuit of which is shown in Fig. 2, contains several valves (a driver of the former), in the latter case two. The output element And 6 of this case is connected to the control in the direction of the input of the amplifier 3 of the next in order of operation of the valve. If the driver of a single channel or grid mesh is turned off, in this case the driver of the next valve will be turned on. Due to an earlier detection of an abnormal mode, a control pulse is applied earlier, which leads to a decrease in overvoltage, since there is practically no current interruption in the DC circuit. Figures 3 and 4 are diagrams of devices that serve to protect not only a false stop pulse, but also a start-pulse. The false stop impulse protection assembly operates as described above for FIG. When a stop pulse is received, the driver and the trigger 5 are turned off, and a signal appears at its inverse input. If the driver 2 is not turned off, then at the output of the sensor 7, the VITS signal, which is delayed by the block 8 through the AND 9 element, arrives at the amplifier 3, sending a repeat Stop signal. The circuits, devices in FIGS. 4 and 5 differ in the place of switching on the delay unit 8, which does not affect the operation of the device. The device, the scheme of which is shown in figure 5, works as follows. When the start-pulse arrives, the trigger 5 is triggered. When the valve is broken, the sensor 7 sends a second pulse through the elements I and B and 11 and triggers the trigger 10, which removes the signal from the element input and 11 and sends a signal to the delay block 8. If the signal to re-start the generator was not successful, the signal from the output of the element And 6 does not disappear, and the element And 9 gives the signal to start the driver of the next order valve. Between these pulses there is a delay time determined by the delay block 8. The use of the invention provides an increase in reliable + and device while reducing the overvoltages. Claim 1. Device for controlling converter electronic valves containing pulse generator connected by its output terminals To terminals for connecting the network and cathode of the corresponding valve, and the input to the output of the amplifier, whose inputs are connected to the outputs of the primary pulse unit and the trigger inputs connected its output with the first input element And, the second input of which through the valve state sensor, made mainly in the form of a current sensor, is connected to the output of the driver pulses, characterized in that, in order to increase reliability, the output of the element I is connected to the control input of the amplifier of the corresponding valve. 2. The device according to Claim 1, which is based on the fact that the output of the element AND of the control channel of one valve is connected to the control input of the amplifier of the control channel of the other valve. 3. The device according to claim 2, from the e and c e e c. the fact that in it from the control channels the valve is equipped with a delay unit and an additional element I, the trigger is provided with a second output and the amplifier is made with a second control input, the second output of the trigger and the output of the current sensor is connected to the inputs of the additional An And element, the output of which is connected to the second control input of the amplifier through a delay unit. 4. The device according to claim 3, about which each valve control channel is provided with an additional trigger and a second additional element, And the first control input of the amplifiers is connected to the output of the first additional element And the control channel adjacent valve, and the second input is connected to the R-Input of the additional trigger, the 5-input of which is connected to the S-input of the main trigger, 0 and the output of the second additional element I, the first input of which is connected to the output of the main element I and the first input of the first additional element I, and the second input to the first output of the additional trigger, the second output of which is connected to the second input through the power unit. first additional element I. Sources of information taken into account in the examination 0 3. USSR author's certificate No. 470015, cl. H 02 M 1/08, 1972. 2. USSR author's certificate No. 608224, cl. H 02 H 7/10, 1978. Fig-3 (i (