SU1633485A1 - Regulator of phase of pulses - Google Patents

Abstract

This invention relates to a thyristor converter control technique. The purpose of the invention is to simplify and improve processability by eliminating a four-winding transformer. The regulator consists of a transformer 1 with the first 2 and second 3 diodes connected to the secondary windings of a transformer with rarely accurate transformers connected in a two-half-full diode rectifier circuit whose output is a thyristor of the optocoupler 4 and a resistor 5 connected to the first input of the comparator 9, the second the input is connected to the control input of the controller and through a resistor 10 with a common bus. The first output of the comparator is connected through -con - 1 ltor 8 with about and with its bus, and through rr-op — with the negative pole of the source of constant voltage, the pitan. The capacitor is shunted by a clamping voltage by a diode 6. The output of the comparator is connected through a series-connected resistor 11 and a diode 12 in reverse connection with the common bus. The cathode of the thyristor of the optocoupler 4 is connected to the resistor 5 and the anode of the diode 13, the cathode of which is connected to the output of the regulator and through the resistor 14 to the cathode of the diode 12 and the anode of the light-guide of the optocoupler 4 whose cathode is connected to the common bus. 1 il. 77 Ј С о со со 4 o el

Description

The invention relates to a control technique for thyristor converters.

The purpose of the invention is to simplify and improve manufacturability by eliminating the four-winding transformer.

The drawing shows an electrical circuit diagram of the controller.

The controller contains a transformer 1 with the first 2 and second 3 diodes connected to a half-wave rectifier circuit, a thyristor optocoupler 4, a first resistor 5, a fifth diode 6, a second ~ 7th resistor 7, a capacitor 8, a comparator 9, a third 10 and a fourth 11 resistors, third 12 and fourth J3 diodes, fifth resistor 14.

The regulator operates as follows.

When the power is turned on, the capacitor 8 is charged, while the negative potential at the first input of the comparator increases relative to the 25 common bus. When the negative potential of the first input of the comparator exceeds the negative potential of its second input (which is determined by the control voltage applied to this input), a positive voltage arises at the output of the comparator, which creates a current through the LED of the thyristor optocoupler 4, as a result of which the thyristor of the optocoupler can pass current. Since the thyristor anode potential is non-negative, and its cathode potential is negative, the thyristor opens and a <discharge current of capacitor 8 occurs. The latter discharges through one of the diodes 2,3 * thyristor and resistor 5.

The decrease in the negative voltage across the capacitor 8, and therefore, at the first input of the comparator 9, occurs at a high speed, since the time constant of the circuit: the first resistor 5, the capacitor 8 is selected several orders of magnitude less than the time constant of the circuit: the second resistor 7, the capacitor 8, which ensures maximum phase control range within a half-cycle At the moment of equal potentials at the inputs of the comparators at its output, the voltage becomes negative, which creates the conditions for subsequent thyristor locking ora.

At the time the voltage U passes through zero, the thyristor of the optocoupler 4 is turned off, and a locking mixture is applied to its LED from the output of the comparator 9.

Output pulses U _feb | _X are removed from the resistor 14. In this case, the diode 13 decouples the load circuits of the thyristor optocoupler 4 from the timing circuit: the second resistor 7, the capacitor 8 when forming a sawtooth voltage across the capacitor 8. The charge time constant of the capacitor 8 from the constant voltage power source E _p is selected in such a way in order to ensure the use of the initial portion of the exponent of the voltage growing on the capacitor during the action of the half-wave of the mains voltage υ _8χ . Diode 6 is designed to fix the voltage on the capacitor at the level of voltage drop on the open diode.

By changing the negative potential of the second input of the comparator, specified by the control voltage, the phase of the output pulses relative to the input mains voltage ϋ ^ _χ , '

Claims (1)

Claim A pulse phase regulator comprising a transformer, the primary winding of which is the input of the regulator, the output of the midpoint of the secondary winding of the transformer connected to a common bus, the leads of the beginning and end of the secondary winding of the transformer, respectively, through the first and second diodes symmetrically connected with respect to the midpoint, connected to each other to form the output of a half-wave rectifier to which a circuit of series-connected thyristor and first resistor is connected, the input for connecting the source minus is constantly o supply voltage connected through a second resistor to the first input of the comparator, which is connected through a capacitor to a common bus, third and fourth resistors, a third diode, a control input connected to the second input of the comparator, and the controller output, characterized in that, for the purpose of simplification and improving manufacturability by eliminating the four-winding transformer, the fifth resistor, the second and third diodes were introduced, a thyristor optocoupler was used as a thyristor, and a differential amplifier was used as a comparator the inverting input of which is the first input of the comparator and connected through the first resistor and the thyristor of the optocoupler connected in series with the output of a half-wave rectifier, the first and second diodes of which are connected to its output by cathodes, the non-inverting input of the differential amplifier is the second input of the comparator and connected via a third resistor to the common bus , the comparator output is connected through a fourth resistor connected in series, a cathode terminal of a third diode and a third diode with a common bus, to a third cathode 5 the diode is connected to the anode of the optocoupler LED, the cathode of the LED is connected to the common bus, the cathode of the thyristor of the optocoupler is connected to the first resistor 1Q and the anode of the fourth diode, the cathode of which is connected to the output of the regulator and through the fifth resistor to the cathode of the third diode, the anode of the fifth diode is connected to the first input of the comparator , and 15 its cathode - with a common bus.