SU728208A1 - Device for phase controlling of thyristors - Google Patents

Description

Isoproteinization is related to electrical engineering, in particular, to phase control systems for AC thyristor converters. A device for phase control of thyristors is known, comprising synchronizing transformers, a sawtooth generator, null organs, transistors, resistors, and diodes l. The disadvantage of this device is its complexity. The closest in technical essence to the invention is a device for controlling 2}, which contains a master oscillator that produces double-frequency control pulses as compared to the operating frequency of anti-parallel thyristors. These pulses are in parallel driven by a sawtooth generator and a trigger. To change the duration of the open state of the thyristors, there is a source specifying the signal. The disadvantage of this device is a narrow control range. The aim of the invention is to expand the range, changing the open state of the thyristors to 18 degrees EL. The goal is achieved by the fact that a device for phase control thyristors; containing a thyroid voltage generator, a shaper of the open state of a thyristor, a control trigger with potential outputs, connected to the inputs of the DYO from two three-input elements of the logical sum, the outputs connected to the amplifiers of the thyristor control pulses, provided with an additional generator. Shin chronizator n high frequency generator. Moreover, the input s (the synchronizer is connected to the terminals for connection to the network, and the output to the inputs of the sawtooth generators, the output of each sawtooth generator is connected to one of the control trigger inputs and cross-sectionally with the pulse inputs of the open time generator the state of the thyristors, to the potential inputs of TopoiX) are connected the potovidial outputs of the control of the first trigger, the output of the control trigger is connected to the second inputs of the three-input logic elements and, to the third inputs of which the output of the high-frequency generator is connected. FIG. 1 shows a block diagram of a device for the phase control of thyristors V in FIG. 2, its principle,. scheme; in fig. 3 shows stress plots showing his work. The circuit contains the counter-parallel thyristors 1, the load 2, the synchronizing unit 3, the saw-tooth voltage generators 4, 5, the control trigger 6, the driver 7 of the open state of the thyristors, Shzyukoi frequency generator. 8, logical summation triggered elements 9 and 10, amplifiers 11, 12 thyristor control pulses. Driver 7 includes transistors 13 and 14,. The ashfontizing unit 3 removes the determined and determined value of the mains voltage supplying the load 2 through the counter-1 thyristors 1, and delivers the corresponding half-periods of the supply voltage. Generators 4, 5. Let us assume that the positive half-period of the power supply and the voltage (Fig. Za) is fed through the synchronizing unit 3 to the generator 5, and the negative product period to the generator 4. The receipt of the positive half-wave to the generator transistor 5 to the open and the discharge of the capacitor of the generator, while the T1 of the generator of the generator 4 is closed and the capacitor of the alternator, which is discharged by another, is charged. The duration of the charge circuit of the condensate torus is equal to the duration of the pooperiod of the supply voltage in order to obtain a linear section of the hailochracter voltage. A negative voltage half-period leads to the opening of the generator transistor 4 and the opening of the generator transistor 5, where the next section of the sawtooth is similarly formed (No. of voltage The saw-voltage formed by two generators goes to the driver 7. The emitter follower of the 7th PS5 generator has a physical voltage of 7 PS5. which is controlled by separate inputs T 84 from both generators 4, 5. Such control leads to the fact that on the emitter follower the supply voltage is only in The process of forming the linear part of the sawtooth voltage. The discharge of the capacitor of the generators 4, 5 occurs at a time when there is no supply voltage on the emitter follower form 7 and this part of the signal does not come in. Consequently, the shape of the saw voltage at the point of the imaging unit 7 is not distorted (Figs, G3 and g). The imaging unit 7 generates a control pulse whose duration is determined by the magnitude of the control voltage supplied to the transistor 14 (Fig. Зж), Formed a sequence of pulses (Fig. ЗЗ) of the required duration, which determines the open state of the counter-parallel thyristors, It enters the elements of logical summation 9,10, where signals from the control trigger and from the generator 8 are simultaneously sent. Because the control trigger 6 is controlled by separate inputs from the sing-off unit 3, this makes it possible, from a common sequence of control pulses, to direct them to the VOT control channel of one of the anti-parallel thyristors 1, to an Which positive voltage is applied (FIG. 3 K, L, m), THD, the described device synchronizes the operation of the phase-controlled thyristor-connected phase control system, allows to obtain the range of the open state duration change for these thyrisors equal to 180 al. , and to improve the characteristics of thyristor control pulses, simplifies its technical implementation. Formula of the Invention A device for thyristor phase control, comprising a sawtooth voltage generator, a thyristor open condition shaper, a control trigger with loss {output of the outputs, connected to the inputs of each Of the two three-input elements: logical sum, outputs connected to the amplifier m of thyristor control pulses, characterized in that, in order to extend the range of changes in the open state of thyristors up to 180 al. degrees, it is equipped (5 with an additional saw generator shaped voltage, a synchronizer and a high frequency generator, the synchronizer input connected to the terminals for mains connection, and the output to the inputs of the sawtooth generator, the output of each sawtooth voltage generator is connected to one of the inputs of the control trigger and crosswise with respect to this with j pulse inputs of the shaper of the open state of the thyristors, to the potential-.

The main inputs of which are connected to the potential outputs of the control trigger, the output of the auxiliary tpHjTepa are locally connected to the second inputs of the three-input terminals of the economic summation, the output of the high-frequency generator is connected to the main inputs KOTopbix.

Sources of information taken into account in the examination

1, USSR author's certificate. No. 473266, cl. H 02 M 1/08. 1975,

2. Patent SCHR K 110725, cl. 21 d 12/03, 1974.

Claims (2)

Claim A device for phase control of thyristors, containing a sawtooth voltage generator, a thyristor open-state duration driver, a control trigger with potential outputs connected to the inputs of each of two three-input logical summation elements, outputs connected to thyristor control pulse amplifiers, characterized in that, for the purpose of expansion 180 thyristor open state change range, it is equipped with * an additional sawtooth voltage generator, si a synchronizer and a high-frequency generator, and the synchronizer input is connected to the terminals for ₅ connection to the network, and the output is to the inputs of the sawtooth generators, the output of each sawtooth generator is connected to one of the inputs of the control trigger and crosswise to '10 with (Pulse inputs of the shaper of the duration of the open state of the thyristors, to the potential inputs of which the potential outputs of the control trigger are connected, the output of the control trigger is connected to the second inputs of ehvhodovyh logical sum elements to a third input of which is connected the output of the high frequency generator. Sources, information taken into account during the examination 1. Copyright certificate of the USSR. No. 473266, cl. H 02 M 1/08, 1975. 2. Patent GDR No. 110725, cl. 21 d ⁵ * 12/03, 1974.