SU991560A1 - Three-phase pulsed regulator - Google Patents

Description

The invention relates to electrical * technology and can be used in devices for regulating the power of heating elements of thermal installations.

Known are multiphase switching regulators containing (counter-parallel connected Thyristors or a thyristor and a diode in each phase, which form a multiphase AC power switch controlled by a multiphase control system £ 1J AND 12].

The disadvantage of these devices is the complexity of the control circuit.

Closest to the invention in technical essence is a three-phase switching regulator containing power thyristors in each phase and a control system £ 3].

A disadvantage of the known controller is the complexity of the control circuit based on the use of a large number of elements, especially transformers and chokes.

The aim of the invention is to increase the reliability of the control circuit. This goal is achieved by the fact that a three-phase switching regulator, containing in parallel-parallel connected power thyristor and diode in each phase, the power thyristor control system, is equipped with two with threshold devices, two time-setting circuits, auxiliary thyristor, three diodes and an isolation capacitor, moreover, the output of the first threshold device is connected to the control electrode of the auxiliary thyristor, the output of the second threshold device through an isolation capacitor is connected to the cathode atelnogo thyristor, the cathode of the auxiliary thyristor soe15 of the connections through the diode to the control electrodes of power thyristors and the anode of which is connected to the anode power thyristors.

__ The drawing shows an electric ²⁰ diagram of the proposed three-phase switching regulator.

The controller contains a power switch formed by three pairs of oppositely connected thyristors * 25'1-3 "diodes 4 - 6. The power switch is connected to loads 7 - 9. The power switch control system consists of two similar threshold devices 10 and 11, each of which 30 performed on two transistors 12 and

13, connected according to the analogue scheme of a single-junction transistor, of two time-setting with the cathode of the auxiliary thyristor. The cathode of the auxiliary thyristor is connected through diodes 20, 21 and 22 with the control electrodes of the thyristors of the power switch. The control system is powered by a stabilized voltage from a stabilizer formed by a zener diode 23 and a limiting resistance 24. Diodes 25-27 together with diodes

4-6 form a rectification circuit. The control system is powered by AC power.

The regulator operates as follows.

When applying a three-phase network voltage, the thyristors 1-3 of the power switch and the auxiliary thyristor 18 are in a closed state. The voltage cc of the zener diode 23 applied to the timing chain (14 and 16) begins to charge the capacitance 16, determining the pause time. When the voltage at the capacitance 16 is reached, which is equal to the response voltage of the threshold element 10, the latter gives pulses to the control electrode, auxiliary thyristor 18, which through diodes 20-22 includes thyristors 1-3 of the power switch. From the moment the auxiliary thyristor 18 is turned on, the supply voltage of the control circuit is supplied to the time-setting chain (15 and 17), which determines the length of time the power switch is turned on. Upon reaching the voltage across the capacitor 17, which is equal to the response threshold of the threshold device 11, the threshold device generates a pulse through the capacitor 19 to lock the auxiliary thyristor 18. After the auxiliary thyristor 18 is turned off, charging of the capacitor 16 starts again and the above cycle repeats. Thus, power control at loads 7, 8 and 9 is performed by the pulse-width method. The proposed pulse controller is controlled by changing the values of the resistances 14 and 15, which can be used as resistors or controlled transistors.

The application of the proposed controller simplifies its electrical circuit, facilitates its manufacture, repair and maintenance, improving reliability.

Claims (3)

13, connected as an analogue of a single junction transistor, of two timing chains, made on adjustable resistances 14, 15 and capacitors 16 and 17. The output of the first threshold device is connected to the control electrode of the auxiliary thyristor 18, and the output of the second threshold device -capacity 19 - with auxiliary thyristor cathode. The auxiliary thyristor cathode is connected via diodes 20, 21, and 22 to the control electrodes of the thyristors of the power switch. The control system is powered by a stabilized voltage from a stabilizer formed by Zener diode 2 and limiting resistance 24. Diodes 25-27, together with diodes 4-6, form a rectifier circuit. The control system is powered by alternating current. The regulator works as follows. When a three-phase network voltage is applied, the thyristors 1-3 of the power switch and the auxiliary thyristor 18 are in the closed state. The voltage from the zener 23, applied to the time of the driving chain (14 and 16), begins to charge the capacitor 16, which determines the pause time. When the voltage on the capacitor 16 is reached, equal to the trigger voltage of the threshold element 10, the latter emits pulses to the control electrode of the auxiliary thyristor 18, which through diodes 20-22 turns on the thyristors 1-3 of the power switch The thyristor 18 power supply voltage of the control circuit is supplied for the time reference circuit (15 and 17), which determines the duration of the power switch on time. When the voltage on the capacitor 17 reaches the setpoint of the threshold device 11, the threshold device pulses through the capacitor 19 to lock the auxiliary thyristor 18. After the auxiliary thyristor 18 is turned off, the capacitor 16 starts charging again and the above cycle repeats. Thus, power control at loads 7, 8 and 9 is performed by the pulse-width method. The control of the proposed pulse controller is made by varying the values of the resistances 14 and 15, in which both resistors and controlled transistors could be used. The application of the proposed controller allows to simplify its electrical circuit, facilitates its manufacture, repair and maintenance, and increases reliability. The invention has a three-phase pulsed regulator containing an anti-parallel connected power thyristor and a diode in each phase and a control system, characterized in that, in order to increase reliability, it is equipped with two threshold devices, two timing chains, an auxiliary thyristor, three diodes, and separation capacitors, the output of the first threshold device connected to the control electrode of the auxiliary thyristor, the output of the second threshold device through the separation capacitor - cathode auxiliary thyristor, the cathode of the auxiliary thyristor is connected via a diode with the gate electrodes of power thyristors, and its anode connected to the anode power thyristors. Sources of information taken into account during the examination 1. USSR author's certificate 350110, cl. H 02 M 5/22, 1970. 2. USSR author's certificate 403006, cl. H 02 R 13/16, 1971. 3. Authors certificate of the USSR 352265, CLTN 02 M 5/22, 1969.