SU750695A1 - Single-channel device for asynchronous control of multi-phase power-diode converter - Google Patents

Description

The invention relates to electrical engineering per hour of static valve devices with asynchronous single-channel control systems. A one-channel device for asynchronous control of a multiphase valve head converter II is known, which contains an integrator, a zero-organ and a pulse distributor, along the control inputs of the valves. However, the device introduces a static error depending on the load and voltage of the network. It is also known to have a single-channel device for asynchronous control of a multi-valve converter, comprising an integrator, a key for resetting the integrator, a zero-organ, an OR logic element, and a pulse distributor along the gate input guides. However, this device is not both. It contributes to high precision of regulation and introduces a static error, depending on the clamping and voltage of the network. The closest technical solution to the invention under consideration is a single-channel device for asynchronous control of a multiphase gate converter 3 containing summing resistors connected respectively to the sources of the control signal, feedback signal and bias voltage, the second ends of the resistors are combined into a common essence and the achieved result. point, two integrators with reset keys, integrator outputs are connected through resistors to the input of the nullorgan, which is also a resistor is connected, the other end of which is connected to the bias voltage source, a pulse distributor, the synchronization input of which is connected to the synchronization voltage source, and the outputs are connected to the control electrodes of the gate converter and to the inputs of the logic element OR. The key to this device is not high enough & control accuracy. The aaimoro circuit of the invention is to improve the accuracy of control. The goal is achieved by the fact that the antenna device for asynchronous control multi-phase venn type converter contains summing resistors connected respectively to the jmpaB / iHiw sources, the CIS feedback circuit and the back of the line is set by the hubs. merged into a common point, willow. an integrator with reset keys, the outputs of the integrators are connected through resistors to the input of a zero-organ to which a resistor is also connected, the other end of which is connected to the source of a bias voltage, pulse distributor, the synchronization clock of which is connected to a source of synchronizing voltage, and the outputs are used to connect to the control electrodes of the valve converter and to the inputs of the logical element OR, equipped with a logic block 11 and three Additional keys, two of which are input, and one in The output point of the summing resistors, via input keys, is connected to the inputs of the intermitters, the control input of the input key of the first integrator is connected to the input key of the second integrator and the first input of the second integrator is connected to the control The first input of the first integrator and the second input of the logic block, the output key at one end is connected to the output of the null organ, and the second end to the input of the pulse distributor, which controls the input to the input switch. ene third vko .. house logic unit, an output-zero body connected to the first input of the logic unit, a second input coupled to an output of the OR gate. The drawing shows a diagram of a single-channel device for asynchronous control of a multiphase valve converter. This device contains summing resistors 1, 2, 3 integrators, input switches 4, 5, integrators 6, 7 with reset keys 8, 9, summing resistors 10, 11 and 12 of the null body, zero-body 13, output key 14, distributor 15, with a synchronization input 16 a logical element OR G7, a logic block 18 having inputs 19 20 and outputs 21, 22, 23. The device operates as follows. A synchronization voltage is applied to the synchronization input 16 of the distributor. Resistor 1 is supplied with a bias voltage, which is also fed through resistor 10 to the input of an organ 13, Resistor 1 sets the required initial value of the interval between control pulses at the outputs of the distributor 15. Voltage 2 is applied to resistor 2 feedback. The integration from the error indent and the bias signal in the interval between control pulses, necessary for the operation of the asynchronous control system, is carried out in two intervals. In the first integration interval, the logic block 18 closes the keys 4, 9, and the keys 5, 8, 14 opens. The input of the integrator 6 is connected to the summing resistors, and the integrator 7 is reset to zero. When the output voltage of the integrator 6 reaches the threshold value defined by the ratio of resistors 10 and 11, the null body 13 is triggered and sends a signal to the input 19 of the logic block 18. The logic unit at this moment changes its state of its outputs 22 and 23 to an anti-field one, as a result of which the keys 4, 9 open and the keys 5, 8 close. The second integration interval begins, the integrator input 6 is disconnected from the summing resistors with key 4, the signal at the output of integrator 6 is reset by key 8, the signal at the input of the zero body 13 disappears, to which the logic block 18 responds by turning on key 14. When the output voltage of the integrator 7 reaches the threshold value, determined by the ratio of the resistors 10 and 12, triggers the null-body 13 and again sends a signal to the logic block 18 and through the key 14 to the distributor 15. The distributor in accordance with the valve phase switching order th transducer, and a control range corresponding to the phase angle defined by the voltage zhe1ta it sinhronizatsgsh, nmpuls delivers a control circuit in one phase of the converter n simultaneously to the AND gate 17, which is supplied with Yield signal to unit 18 logshsh. At this moment, the logic unit 18 opens the keys 5, 8, 14, and the keys 4, 9 closes. The first half-interval of the integration begins again, and then the process repeats. The use of this invention will increase the accuracy of maintaining the output parameter and reduce the subharmonic content to 0.2%. The distribution of currents in the parallel bridges of the converter is improved, the system setup is simplified and the control system setup costs are reduced, since a current leveling device is not required, and the dimensions of the balance reactor are reduced. Formula of the invention Single-channel device for asynchronous control of multiphase converter, containing summing resistors, connected respectively to sources of control signal, feedback signal and bias voltage, second ends of resistors combined into a common point, two integrators with reset keys, integrator outputs connected through resistors to the input of the zero-organ to which a resistor is connected, the other end of which is connected to a source of bias voltage, a distributor of pulses, an input from the input of which is connected to the source of the synchronization voltage and the output is used to connect to the control electrodes of the gate converter and to the inputs of the logic element OR, characterized in that, in order to increase the control accuracy, it is equipped with a logic block and three additional keys, two of which are input and one output, and the common point of the summing resistors is connected via input keys to the inputs of the integrators, the control input of the input: key of the first integrator is connected to the control unit connecting the reset key of the second integrator and with the first output of the logic block, the control input of the input key of the second integrator is connected to the control input of the first integrator and the second input of the logic, the output key with one end is connected to the output of the zero-organ, and the second end with the input of the pulse distributor, the control input of the output key is connected to the third output of the logic block, the output of the zero-organ is connected to the first input of the logic block, the second input of which is connected to the output of the RShI logic element. Information sources taken into account during the examination 1. AL Pisarev, L. Detkin. Control of thyristor converters, M., Energie, 1975, p. 94-111. 2. USSR author's certificate number 425297, cl. H 02 R 13/16, 1970. 3. USSR author's certificate No. 440758, cl. H 02 R 13/16, 1971 (prototype).

Claims (1)

A single-channel device for asynchronous control of a multiphase 'valve converter, containing summing resistors connected respectively to the sources of the control signal ²⁵ , feedback signal and bias voltage, the second ends of the resistors are combined into a common point, two integrators with reset keys, the outputs of the integrators are connected through the resistors ZS to the input of the zero-organ, to which a resistor is also connected, the other end of which is connected to a bias voltage source, a pulse distributor, a synchronization input and which is connected 35 to a source of synchronizing voltage, and the output is used to connect to the control electrodes of the valve converter and to the inputs of the OR logic element, characterized in that, in order to increase the accuracy of control, it is equipped with a logic unit and three additional keys, two of which are input and one output, and the common point of the summing resistors through the input keys is connected to the inputs of the integrators, the control INPUT of the input: the key of the first integrator is connected to the control the input of the reset key of the second integrator and with the first output of the logic unit, the control input of the input key of the second integrator is connected to the control input of the first integrator and the second input of the logic unit, the output key is connected at one end to the output of the zero-organ, and the other end to the input of the pulse distributor, the control input of the output key is connected to the third output of the logic unit, the output of the zero-organ is connected to the first input of the logic unit, the second input of which is connected to the output of the logic element OR *.