SU997016A1 - Device for automatic stabilization of electric power in load - Google Patents

Description

The invention relates to electrical engineering, namely to automatic power stabilizers with a low level of radio interference.

A device for stabilizing electrical power in a load is known, which comprises control and stabilization circuits and a real-time gas phase control method 1J.

A disadvantage of this device is the impossibility of providing automatic -regulation.

Closest to the invention is a device for automatically stabilizing electrical power in a load, comprising a symmetrical thyristor in a load circuit, a coax electrode of which is connected to a control circuit, including a bridge circuit with a feedback sensor in one arm, an amplifier whose input is connected to one from the bridge diagonals, and the output to the control electrode of the auxiliary thyristor, the anode of which is connected to the base of the transistor through current-carrying resistors with a storage capacitor and a generator of control pulses Cz.

A disadvantage of this device is a complicated attitude, due to the fact that the symmetrical thyristor, which is controlled by positive polarity signals, must be specially selected with a certain sensitivity to the magnitude of the control signal.

10 works .- The purpose of the invention is to reduce the work and adjustment efforts of the device when setting up the device.

This goal is achieved by

15 that in a device for automatic stabilization of electrical power, containing a symmetrical thyristor in the load circuit, the control electrode of which is connected to the control circuit, including a bridge circuit with a feedback sensor in one arm, an amplifier, the input of which is connected to one of the bridge diagonals, and the output is to the control electrode of the auxiliary thyristor; through the current limiting resistors, the anode is connected to the base of the transistor, the storage capacitor, and the control pulse generator, the synchronizing input of which is connected to the AC source, which is connected to the control circuit through a regulator, a rectifier diode is introduced, and an additional resistor is connected to the circuit power management laziness. The cathode of a rectilinear diode is connected to an alternating current source, and a resistor is connected to a balancing resistor of a parametric stabilizer and a cathode of auxiliary thyristor. The drawing shows a circuit diagram of the device. Automatic stabilization of electrical power in the load. The device contains a thermistor 1 used as a feedback sensor, which is included in bridge circuit 2, amplifier 3, parametric stabilizer 4, auxiliary thyristor 5, transistor b storage capacitor 7, control generator 8, pulses, symmetrical thyristor 9, load 10, AC source 11, resistors 12-17 bridge cxeivu 2, current limiting resistors {silt 18-22, rectifying diode 23 and capacitor 24. The generator 8 of control pulses consists of a zero-value detector and a two-level divider p voltage. The zero value detector includes an amplitude limiter on zener diodes 25 and 26 connected to a bridge circuit, which is made on diodes 27 and 28, LEDs 29 and 30, and resistor 31. Through a resistor 32, the detector is connected to the alternating current source 11. A voltage divider consisting of a Zener diode 33 and two photo thyristors 34 and 35 is connected to a storage capacitor 7 with its input, and an output through a resistor 36 to a control electrode of a symmetric thyristor 9. The output 37 of the AC source 11 is connected to the end of the Diagonal Bridge 2 , the emitter of transistor 6, the output 38 of the power amplifier 3, the cathode of the Zener diode 39 parametric stabilizer 4, the output of the storage capacitor 7, the cathode of the Zener diode 26, the leads of LEDs 29 and 30 and the cathode of a symmetric thyristor 9, the anode of which A load 10 is connected to the output 40 of the source 11, a resistor 32's output and a rectifier diode cathode 23. The anode of the diode 23 is connected via a voltage divider on resistors 20 and 22 to the output 41 of the amplifier 3, a Zener diode anode 39 and the other end of the diagonal of the bridge circuit 2. Inputs 42 and 43 of amplifier 3 are connected to another diagonal of the bridge, shunted by a capacitor 24, and output 44 through a resistor 18 is connected to the control electrode of auxiliary thyristor 5, the anode of which is connected to resistors 19 and 21. Cathode auxiliary Thyristor 5 is connected to the terminals of resistors 20 and 22. The output of resistor 21 is connected to a storage capacitor 7 and a generator 8 of control pulses. The output of the resistor 19 is connected to the base of the transistor 6, the collector of which is connected to the terminals of the resistors 16 and 17. The device operates as follows. . The bridge circuit 2 and the amplifier 3, operating in the comparator mode, are fed only during the flow of negative half periods of alternating current: Е the positive half periods are de-energized. In the initial state, the bridge circuit 2 is configured with pc yuschiyu variable resistors 14 and 16, so that under the action of the voltage imbalance of the bridge entering the input of the amplifier 3, at its: output voltage is set equal to the voltage of the circuit. The voltage from the output of the amplifier 3 through the resistor 18 is applied to the control electrode of the auxiliary thyristor 5. The latter is closed. The generator 8 of control pulses does not produce control signals, as a result of which the symmetric thyristor 9 is closed, too, and the current through the load 10 does not flow. As a result of the deviation of temperature from a predetermined value, the resistance of the thermistor changes and can reach such a value when a given imbalance of bridge 2 occurs. In this case, amplifier 3 assumes a different state when the output voltage is zero at its output. Auxiliary thyristor 5 opens , while the transistor 6 opens, too, by shunting the resistor 17 of the bridge circuit 2, thereby adjusting the magnitude of the unbalance of the bridge. At the same time, the capacitor 7 is charged through the resistor 21, and the voltage across the circuit, which contains the Zener diode 33, the photo thyristor 35, which turns on the LED 30 only during negative half-periods, and the resistor 36, is supplied to the control electrode symmetrically to the thyristor 9. nazdrak 10 current flows; in the positive half-cycle of alternating current, the electrical energy accumulated in the capacitor 7, the photo-thyristor 34, turned on by the LED 29, only in the positive half-periods, and the resistor 36 receives a control electrode symmetric

Claims (1)

SUMMARY OF THE INVENTION A device for automatically stabilizing electrical power in a load, comprising a symmetric thyristor in the load circuit, the control electrode of which is connected to a control circuit including a bridge circuit with a feedback sensor in one arm, an amplifier whose input ^ is connected to one of the diagonal? *, lei bridge ',' and the output goes to the control electrode of the auxiliary thyristor, the anode of which is connected through the current-limiting resistors to the base of the transistor, the storage capacitor and the control generator constituent pulses synchronizing input coupled to a source of alternating current which, via parametric stabi10 recuperators connected to the control circuit, characterized in that, to reduce the complexity Nala. In the course of further adjustments, 15 rectifier diodes, the cathode of which is connected to an alternating current source, and an additional resistor, which is connected to the ballast mass? * I with a parametric stabilizer 2Q and an auxiliary thyristor cathode, are introduced into the power circuit of the control circuits.