SU1167595A1 - Power regulator - Google Patents

Abstract

POWER CONTROLLER, containing loads, amplifier, switch, amplifier, first and second transistors of different conductivity, capacitor, the first plate of which is connected to the first output of the capacitor charge circuit, consisting of a series of first and second resistors connected in series, diode the first input is connected to the mains, the first output of the rectifier is connected to the first output of the key, the first power output of the amplifier and the second plate of the capacitor, the second key of the key is connected to the first power lines of the third and fourth of the second transistor connected to the collector of the first transistor connected to the first terminal of the fifth resistor and the collector of the second transistor; the output of the amplifier is connected to the control input of the switch, characterized in that in order to extend the control range of switching on and off load , a capacitor discharge circuit is introduced into it in the form of series-connected sixth and seventh resistors connected between the first capacitor plate and the emitter of the first transistor, eighth A second resistor connected between the base and the emitter of the BTopq transistor, the second pin of the fifth resistor connected to the emitter (L. rum of the first transistor, the second lead of the third resistor is connected to the base of the first transistor, the second output of the rectifier is connected to the second output of the switch, the second output power supply of the amplifier and the anode of the diode, the cathode of which is connected to the second output O of the charging circuit, the capacitor, the second output of the fourth resistor is connected O1 to the first output of the rectifier, the second input of which is connected to the network through the SP load, and Mitter second transistor connected to the input of the amplifier.

Description

The invention relates to a pulse technique and can be used to control the average power in a load with high inertia (heaters, powerful engines), as well as a square pulse generator with a widely adjustable pulse width and a pause between pulses. The aim of the invention is to expand the range of control of the time of switching the load on and off. The drawing shows a diagram of the power control. The regulator contains the load 1, the rectifier 2, the switch 3, the amplifier 4, the second transistor 5, the first transistor 6, the capacitor 7, the resistor 8 of the charging circuit, the second resistor 9 of the charging circuit, the third resistor 10, the diode 11, the sixth resistor 12 of the discharge circuit, the seventh resistor 13 of the discharge circuit, the fifth resistor 14, the eighth resistor 15, the fourth resistor 16, Rectifier 2 is connected to the network by the first input directly, and the second through the load 1, The second output of the rectifier 2 is connected to the second power amplifier 4, with the second input of the key 3 and the anode of the diode 11, as well as with the first you Odes of resistors 10 and 16. The first output of the rectifier 2 is connected to the first output of the key 3, the first power supply terminal of the amplifier 4 and the first capacitor plate 7, as well as the second output of the fourth resistor 16. The base of the transistor 6 is connected to the collector of the transistor 5, with The second terminal of the third resistor 10 and the paired terminal of the fifth resistor 14. The emitter of the transistor 6 is connected to the second terminal of the fifth resistor 1 and through the discharge circuit (resistors 1 and 13) to the first plate of the capacitor 7 connected through a charging circuit (resistors 8 and 9) to the cathode of diode 11. Res The source 16 is connected between the base and the emitter of the transistor 5. The device operates as follows. When the device is connected to the set, the capacitor 7 begins to charge through resistors 8 and 9 and diode 11. When the voltage on the capacitor 7 reaches the pickup voltage of transistor 6, its collector current is amplified by transistor 5 and both transistors open, closing the discharge circuit of capacitor 7. Further, through the resistors 12 and 13, the discharge of the capacitor 7 occurs. The current flowing through the discharge circuit is simultaneously the input current of the amplifier 4. In this particular case, the amplifier 4 is made on a transistor. However, it can be performed on a relay or optocoupler, which is not important. The signal amplified by amplifier 4 is fed to a control (key input 3. Key 3 is made on a transistor, however any other device (relay, transistor, etc.) can be used as a key. Key 3 triggers and connects the load to the network, disconnecting the charge circuit due to diode 11. Starting from this time, in each half-period of the network voltage, t, e, with an increase in the voltage of the voltage to a small value, in the order of 2–5 V, activation of the key 3 occurs. and the load remains connected to the network for the time determined by constant time of the discharge circuit. When the discharge circuit current decreases to the minimum value determined by the value of resistors 14 and 15, the transistors 5 and 6 close and, consequently, the switch opens. 3. The charge of the capacitor 7 starts again A circuit consisting of resistors 8 and 9. The time during which the load remains disconnected from the mains is determined by the constant charging circuit time. The process is then repeated. Resistor 14 is needed to provide the transistor 6 operating mode. Resistors 10 and 16 ensure that transistors 5 and 6 operate at times when the voltage of the voltages approaches zero. This is necessary to reduce the disturbances created by key and cascades. Resistor 10 in size is ten mega ohms, and therefore it is practically

cherki does not affect the temporal characteristics of the charge and discharge circuit

The values of the resistances of the resistor 16 and the limiting resistor are much greater than the load resistance, and therefore the current consumed by the circuit, HecpaiBHeHHo is small relative to the load current.

By reducing the number of circuit elements, the current consumed by it is reduced, which allows

675954

expand the range of switched loads in the direction of lower power,

In the proposed device, the range of control of the on and off load time is expanded, which allows it to be used to control over a wide range the on and off time of various 10 light commercials and other devices and devices.

Claims (1)

A POWER REGULATOR containing loads, a rectifier, a key, an amplifier, first and second transistors of different conductivity, a capacitor, the first lining of which is connected to the first output of the capacitor charge circuit, consisting of series-connected first and second resistors, a diode, moreover. the rectifier is connected to the network by the first input, the first output of the rectifier is connected to the first output of the key, the first power output of the amplifier and the second capacitor plate, the second output of the key is connected to the first terminals of the third and fourth resistors, the base of the second transistor is connected to the collector of the first transistor connected to the base with the first the output of the fifth resistor and the collector of the second transistor, the output of the amplifier is connected to the control input of the key, characterized in that, in order to expand the range of regulation of time turning on and off the load, a capacitor discharge circuit is introduced into it in the form of sixth and seventh resistors connected in series between the first capacitor plate and the emitter of the first transistor, an eighth resistor connected between the base and emitter of the second transistor, the second terminal of the fifth resistor connected to the emitter of the first transistor, the second output of the third resistor is connected to the base of the first transistor, the second output of the rectifier is connected to the second output of the key, the second output of the power amplifier nodom diode, the cathode of which is connected with vtorm terminal charging circuit, a capacitor, a second terminal of the fourth resistor is connected to a first rectifier output, the second input of which is connected k.seti through the load, and the emitter of the second transistor is connected to the input of the amplifier. ί 11