SU605295A1 - Pulse shaper - Google Patents

Description

one

The invention relates to electrical engineering and can be used to control static converters.

Devices are known that form control signals in the form of sequences of pulse bursts in each thyristor control channel of the converter.

The closest technical solution of the invention is a pulse shaper, made in the form of a shift register on thyristors, which are alternately connected to the circuit of a relaxation autogenerator on the dynistor and to the primary windings of the output pulse transformers. In this case, the control windings are alternately removed from the secondary windings of the output transformers, each being multiples of 1 / n of the period and modulated by high-frequency pulses 2.

The disadvantage of these devices is the presence of a time interval of random duration between the switching on of the next thyristor of the shift register and the appearance of the control signal at the output of the thyristor. The duration of this time interval is a random value, since it is determined by the degree of charge of the capacitor of the relaxation generator at the time of switching the thyristor of the shift register.

With an increased frequency of the voltage at the output of the converter, and consequently, of the control signals, these time intervals become comparable with the shift register shift period, and the accuracy of the time distribution of the control signals decreases. This circumstance leads to the limitation of the upper limit of the frequency of the pulse shaper, to the distortion of the shape of the voltage curve at the output of the converter, to a decrease in its efficiency.

The aim of the invention is to increase the frequency stability, the accuracy of the temporal distribution of the output pulse signals and the expansion of the frequency range of the output voltage. The goal is achieved by the fact that the pulse shaper is equipped with an additional relaxation oscillator, made on a dynistor, a resistor and a capacitor, with the cathode of the dynistor of the additional oscillator connected to the other terminals of the primary windings of even 1 output pulse transformers, and the cathode of the dynistor of the first autogenerator to other leads of the primary windings of non-odd transformers, and the cathode of the dynistor of the first autogenerator to different leads of the primary windings of non-odd transformers, and the cathode of the dynistor of the first autogenerator to different leads of the primary windings of non-odd transformers pulse transformers.

The drawing shows a schematic diagram of a pulse former.

The pulse shaper contains a ring register on thyristors 1-6 and relaxation generators, made on dynistor 7, 8, resistors 9, 10, and capacitors 11, 12.

The alternation of thyristors 1-6 is produced by pulsed UST signals from the master oscillator, passing through one of the circuits made up by the primary windings of pulsed transformers 13-18, diodes 19-24, and anode-cathode junctions of thyristors 1-6. The switching off of thyristors 1-6 is carried out with the help of switching capacitors 25-30. The initial setup of the driver circuit is performed automatically via an RC-chain (resistor 31, capacitor 32) connected between the positive pole of the power source and the control electrode of the thyristor 1.

The cathode of the dynistor 7 through the primary windings of the pulse transformers 33, 34, 35 and diodes 36, 37, 38, respectively, is connected to the anodes of the thyristors 1, 3, 5 of the shift register, and the cathode of the dynistor 8 of the second oscillator 39, 40, 41 and The diodes 42, 43, 44 are connected respectively to the anodes of the thyristors 2, 4, 6 of the shift register.

The shaper works as follows.

When the supply voltage is turned on, the capacitor 32 is charged through the thyristor control junction, which goes into the on state. Capacitor 12 is charged prior to the supply voltage t / n.

When the next thyristor 2 is turned on, the voltage on the capacitor 12 will be applied to the dynistor 8 through the switched on thyristor 2, the diode 42 and the primary winding of the pulse transformer 39. The dynistor 8 goes to the on state, and the capacitor 12 is discharged along the circuit: distor 8, primary winding an output pulse transformer 39, a diode 36, a thyristor 2, and a voltage pulse is induced in the secondary winding of the transformer 39. After the end of the discharge of the capacitor 12, the dynistor 8 is closed. Next, the capacitor 12 is again charged until the switching voltage of the dynistor 8, which is turned on again, and so on.

Thus, during the time interval between the turning on of thyristors 2 and 3, the output of the pulse transformer 39 will generate control signal pulses, the frequency of which must be several times higher than the frequency of switching the register.

While the thyristor 2, being in the on state, closes the discharge circuit of the capacitor 12, to the primary winding of the pulse

transformer 39; capacitor 12 is charged prior to the supply voltage. At the next switching in the register, the thyristor 3 is turned on and the thyristor 2 is turned off. The voltage on the capacitor 11 is applied to the dynistor 7, which is turned on, and the capacitor 11 is discharged along the circuit: distor 7, the primary winding of the pulse transformer 34, diode 37, thyristor 3.

The next switching in the register turns on the thyristor 4 and closes the switching circuit of the dynistor 8, the capacitor 12 is discharged to the primary winding of the transformer 40.

Thus, the control signal pulses in the windings of transformers 33, 34, 35 will be generated when the thyristors 2, 3, 5 are turned on by the autogenerator on the dynistor 7. The control signals in the windings

transformers 39, 40, 41 will be formed when thyristors 2, 4, 6 are turned on, respectively, by an oscillator on dynistor 8.

Thus, the use of a second relaxation oscillator on a dinistor

ensures the synchronization of the leading edge of the control signals with the switching of the thyristors of the register, and therefore with the signals of the master oscillator, which makes it possible to significantly increase the stability of the frequency of the output control signals and extend the frequency range of application of the pulse form generator.

Claims (1)

Invention Formula A pulse shaper containing a shift register on thyristors whose cathodes are connected to an output for connecting to the minus of the power source, and their anodes, via load resistors, to an output for connecting to the plus power source and through decoupling diodes to one of the terminals of the primary windings even and odd output pulse transformers, and relaxation oscillator on a dynistor, a resistor and a capacitor, characterized in that, in order to increase frequency stability, the accuracy of the temporal distribution of the output pulse signals and the expansion frequency range of the output voltage, it is equipped with an additional relaxation oscillator, made on a dynistor, a resistor and a capacitor, the cathode of the dynistor of the additional oscillator is connected to the other terminals of the primary windings of the even output pulse transformers transformers. W. y. y u y y