SU1104636A1 - Device for adjusting thyristor converter - Google Patents

Abstract

A DEVICE FOR CONTROLLING A THIRISTOR CONVERTER, containing a sawtooth generator, whose input is intended for connecting to the supply network, a control voltage generating unit, the input of which is intended for connecting to a load, the sawing voltage generator outputs and the control voltage forming unit of the control voltage, are connected to the load the inputs of the threshold element, and two control pulse drivers, the outputs of which are the outputs of the device, characterized in that, in order to increase reliability, but it is equipped with a counting trigger, and control pulse formers include a generator made on the IS-NOT element, three NOT elements and the first capacitor, a second capacitor and a transistor amplifier with a transformer output, the output of the threshold element connected to the input of the counting trigger and the first inputs of the I- elements NOT, the second inputs of which are connected to the direct and inverse inputs of the counting trigger, respectively, in each impulse-C co-driver of control, the output of the NAND element is connected to one pin of the first terminal f / j of the sensor and the input of the second element NOT, the output of which is connected to the third input of the NAND element and through the third Q. the element is NOT and the second capacitor is with the input of a transistor amplifier. 05 with O5

Description

1 The invention relates to a conversion technique and may be used to control thyristor converters. A device for controlling a thyristor converter, comprising a sawtooth generator, synchronized from an electrical network, and a control voltage block connected by outputs to the inputs of a threshold element on an operational amplifier, the output of which is connected to an amplifier-forming unit of output pulses (1 The disadvantage of this device is the ability to control the power thyristors of the converter only: with a positive half-wave of the mains voltage. In both half-waves of the Hanpf network, two such devices will be required, and due to the variation in the parameters of the elements of the sawtooth generator, the switching angles of the thyristors are different. To reduce this difference, it is necessary to use highly stable elements in the sawtooth generator with a small variation of parameters from nominal, leads to higher device cost. The closest to the invention in terms of the achieved result is a device for controlling a thyristor converter, containing a generator a uniform voltage, the input of which is intended to be connected to the mains, a control voltage generating unit, the input of which is intended to be connected to a load, the outputs of the saw voltage generator and the control voltage forming unit are connected to the inputs of the threshold element, and two pulse shapers control outputs of which are the codes of roystva 12. The disadvantages of the known device are low reliability and low noise immunity, since the device consists of significantly the number of elements and low stability; low noise immunity. The chain of the invention is to improve the reliability of the device. The goal is achieved by the fact that the device For controlling i a thyristor converter containing a sawtooth generator, the input of which is designed yes1 36 to the mains supply, a control voltage generating unit whose input is intended for connecting to a load, the outputs of the sawtooth voltage generator and The control voltage shaping unit is connected to the inputs of an ijoporoBoro element, and two control pulse shapers, the outputs of which are the outputs of the device, are equipped with a counting voltage. the driver, and the control pulse formers contain a generator, which is complete on the NAND element, three NOT elements and the first capacitor, a second capacitor and a transistor amplifier with a transformer output, the output of the threshold element connected to the input of the counting trigger and the first inputs of the NAND element, the second the inputs of which are connected to the direct and inverse inputs of the counting trigger, respectively, in each control pulse shaper, the output of the NAND element is connected to one output of the first capacitor and the input of the second el ment NOT whose output is connected to a third input of AND-NO element and third element via the second capacitor and NO - to the input of the transistor amplifier. FIG. 1 is a diagram of the device in FIG. 2 — timing, diagrams explaining its operation. The device contains a sawtooth voltage generator 1, a control voltage shaping unit 2, via a horn element 3 on the operational amplifier 4 with positive feedback through a resistor 5, a distributor 6 pulses, made on the counting trigger 7, shapers 8 and 9 control pulses, each of which contains a high-frequency generator assembled on the elements AND-NOT 10, three elements NOT 11-13 and a capacitor 14. The device also contains a forming differentiating circuit on the capacitor 15 and the resistor 16, the amplifier circuit hell transistor 17 included in the circuit with a common emitter and a pulse transformer 18 in its collector circuit, and the isolator zyvakschie semiconductor diodes 19 and 20 in the primary and secondary circuits of the pulse transformer. -The device works as follows. The direct input of the threshold element 3, in the form of an operational amplifier 4, covered by positive feedback through a resistor 5, is supplied with a sawtooth voltage of the doubled network frequency from generator 1, and the inverted input is supplied with a control voltage from unit 2. When the voltage is exceeded Od (Fig. 2a) at the direct input of the operational amplifier over the voltage and at its inverse input the operational amplifier instantly switches through the resistor 5 through positive feedback, and when the voltage drops sharply ti-Q. at the end of its period, it returns to its original state. The voltage Uj- (Fig.26) of the rectangular form from the output of the operational amplifier 4 is fed to the input of the counting trigger 7, as well as to the input of the formers 8 and 9. The imager 8 (or 9) contains the input controlled high-frequency oscillator on the elements AND-NOT 10-13 and the timing capacitor t4. At the first input element AND-NOT 10 comes. the signal Ujjj from the forward output of the trigger 7, to the second - the voltage UQ from the output of the threshold element 3, which has a double frequency and an adjustable duration, which determines the switching angles (and the power thyristors oCo), and the third input - the voltage of the positive reverse link zi from the output of the element IS-NOT 12. If there is voltage at the same time on the first and second inputs of the logic element AND-NOT 10 from the direct output of Trigger 7 and the output of the threshold element 3, the high-frequency generator enters into operation and generates high-frequency pulses of the required frequency, op The measured capacitance of the clock capacitor 14 and a duty cycle equal to two, which, passing a differentiating circuit consisting of a capacitor 15 and a resistor 16, are shortened to the required duration and acquire the optimal shape for the most effective opening of the power thyristors: a steep front and exponentially falling Rear. The duration of the bundle of high-frequency pulses is equal to the angle of conductance of the power thyristors and ensures their reliable switching on, eliminates spontaneous switching off with an intermittent current Loading the. The amplification of pulses to the required level is carried out by an amplifier on a transistor 17 with a load in the collector circuit in the form of a pulse transformer 18, secondary. the winding of which is the output. To eliminate the supply of a negative level of pulses to the control electrode of a power thyristor, diode 20 serves. To release voltages and improve paramagnetization of the core of a pulse transformer, its primary winding is shunted by a diode 19. By using a pulse distributor in the form of a counting trigger 7 with direct and inverse outputs the supply of a burst of pulses to a power thyristor in order to reduce the power losses in it is made only with a positive voltage on its anode, and the use in the control channel is general x generator units 1 sawtooth voltage and the control voltage provides a 2 equal angles incorporation power thyristors at positive and negative half-wave of the network voltage. The proposed device is characterized by simplicity of the circuit, a small number of elements, compact execution and increased reliability in operation with an optimal form of control pulses of power thyristors. The proposed device can be used in multi-phase converters. The number of channels is determined by the number of phases of the converter with a common control voltage block.

ъ

, Vu2: 2

Claims (1)

A device for controlling a thyristor converter, containing a sawtooth voltage generator, the input of which is intended to be connected to the mains, a control voltage generation unit, the input of which is designed to connect to the load, the outputs of the sawtooth voltage generator and the control voltage generation unit are connected to the inputs of the threshold element, and two pulse shaper control, the outputs of which are the outputs of the device, characterized in that, in order to increase reliability, it equipped with a counting trigger, and the control pulse shapers comprise a generator made on an NAND element, three NOT elements and a first capacitor, a second capacitor and a transistor amplifier with a transformer output, the output of the threshold element being connected to the input of the counting trigger and the first inputs of the NAND elements , the second inputs of which are connected to the direct and inverse inputs of the counting trigger, respectively, in each pulse shaper-C owls, the output of the AND gate is connected to one terminal of the first capacitor and the input of the second element is NOT, the output of which is connected to the third input of the element AND NOT and through the third. the element is NOT and the second capacitor is with the input of a transistor amplifier. SU. „1104636 04636