RU2064197C1 - Voltage stabilizer for alternating current - Google Patents

Abstract

FIELD: power supply of illumination units with incandescent lamps. SUBSTANCE: device has thyristor 1, bridge rectifier 2, feedback circuit 3, which has first diode 3 and RC-filter 4, pulse generator 5, parametric stabilizer using resistor 6 and stabilizing diode 7, phase-shift RC- circuit using resistor 8 and capacitor 9, control unit 10 which has regulating transistor 12 and matching transistor 13, two diodes 14 and 15, capacitor 16, and three resistors 17, 18, 19. Device excludes currents which run through load 24 and are greater nominal values. This is achieved by smooth change of load voltage when device is turned on. EFFECT: increased range of clipping input voltage, increased linearity of regulation response, increased sensitivity, increased service life of load. 1 dwg

Description

 The invention relates to electrical engineering and can be used in power circuits of lighting installations with incandescent lamps.

 Known AC voltage stabilizer [1] containing a thyristor, a bridge rectifier, a feedback circuit consisting of a rectifier and a smoothing RC filter, a pulse generator, a parametric stabilizer consisting of a first resistor and a zener diode, a phase shifting RC circuit consisting of a second resistor and the first capacitor, the control unit, which includes a control (field) transistor, a third resistor and a second capacitor connected to a common bus, terminals for connecting a power source and load.

 An RC phase-shifting circuit is connected between the common point of the parametric stabilizer elements and the common bus.

 The thyristor control electrode is connected to a pulse generator, the input of which is connected to a common point of the elements of the phase-shifting RC circuit, the control transistor of the gate control unit is connected to a common point of the elements of the phase-shifting RC circuit, the drain to the input of the pulse generator, and the source to the common bus.

 The closest in technical essence to the claimed invention is an AC voltage stabilizer [2] comprising a thyristor, a bridge rectifier, a feedback circuit consisting of a diode and an RC filter connected in series, a pulse generator, a parametric stabilizer made in the form of a first resistor connected in series and a zener diode, phase shifting non-circuit, made in the form of series-connected second resistor and capacitor, a control unit, which includes a regulating (field) transistor, terminals for connecting a power source and load.

 The feedback circuit is connected by the output of the RC filter to the control input of the control unit, and by the free output of the diode to the first terminal for connecting the load, the second terminal for connecting the load is connected to the common bus.

 The diagonal of the alternating current of the bridge rectifier is connected between the terminals for connecting the power source.

 A thyristor and a parametric stabilizer made in the form of a first resistor and a zener diode are connected in parallel to the DC diagonal of the bridge rectifier, the first output of the diagonal of the DC rectifier of the bridge rectifier connected to the first power terminal of the thyristor and to the free terminal of the first resistor, and its second terminal connected to the first terminal to connect the load.

 The output terminal of the pulse generator is connected to the control terminal of the thyristor, and the input terminal with a common point of the elements of the phase-shifting non-circuit, the free terminal of the capacitor of which is connected to a common bus, to which the second power terminal of the thyristor and the free terminal of the zener diode are connected, to which the generator power leads are connected pulses.

 The control (field) transistor of the gate control unit is connected to the control input of the control unit and connected through a third resistor to a common bus, to which its drain is also connected, and the source is connected to the voltage divider of the pulse generator.

 The disadvantages of the known devices are a narrow range of limitation of network fluctuations, non-linearity of the control characteristic and insufficient sensitivity, in addition, the prototype of the voltage on the load when turned on increases in jump from zero to the nominal value. This does not provide sufficiently effective stabilization of the voltage at the load, which leads to a decrease in consumer properties, in particular, a decrease in the life of incandescent lamps.

 The basis of the invention is the task to improve the AC voltage stabilizer so that through the introduction of new elements and the connections between them to prevent leakage through the load, in particular an incandescent lamp, currents exceeding the nominal ones, by ensuring a smooth change in voltage at the load when turned on, expanding the range limiting fluctuations in the voltage of the network, as well as increasing the linearity of the regulatory characteristics and sensitivity of the device, which will increase the service life of incandescent lamps.

 The technical result is achieved by the fact that in the known AC voltage stabilizer containing a thyristor, a bridge rectifier, a feedback circuit consisting of a first diode and an RC filter connected in series, a pulse generator, a control unit, which includes a control transistor, a parametric stabilizer made in the form of series-connected first resistor and zener diode, phase-shifting circuit RC-circuit made in the form of series-connected second resistor and first con the sensor, the first and second conclusions for connecting the power source and the load, the first output of the diagonal of the alternating current of the bridge rectifier connected to the first output for connecting the power source, the first output of the diagonal of the direct current of the bridge rectifier connected to the first power terminal of the thyristor and to the free terminal of the first resistor, the output of the RC filter is connected to the control input of the control unit, and the free output of the first diode is connected to the first output for connecting the load, the output of the generator generator the ow is connected to the control terminal of the thyristor, and the input terminal with a common point of the elements of the phase-shifting RC circuit, the free terminal of the first capacitor of which is connected to a common bus, to which the second power terminal of the thyristor and the free terminal of the zener diode are connected, to which the pulse generator power leads are connected, new is that the second and third diodes, the second capacitor, the matching transistor, the third, fourth and fifth resistors are introduced into the control unit, and the emitter of the control transistor through the third diode with dinene with a common point of the elements of the phase-shifting RC circuit, and the collector and base, respectively, through the third and fourth resistors with the common point of the elements of the parametric stabilizer, the collector of the regulating transistor connected through a second diode and a second capacitor connected to a common bus, the collector of the matching transistor, the control input of which used as the control input of the control unit, connected to the base of the control transistor, the matching transistor emitter directly, and the base through the fifth resistor is connected to a common bus, while the second power output of the thyristor is connected to the second output of the DC diagonal of the bridge rectifier, the free output of the second resistor is connected to the first output of the diagonal of the DC rectifier of the bridge, the first terminal to connect the load is connected to the second terminal to connect the source power supply, and the second terminal for connecting the load is connected to the second terminal of the diagonal of the alternating current of the bridge rectifier.

 The inclusion of a phase-shifting RC circuit containing a second resistor and a first capacitor in the DC diagonal of the bridge rectifier and an additional introduction to the control unit of a series-connected second diode and a second capacitor connected between the common bus and the collector of the regulating transistor, increase the load exit time to the nominal mode due to the charge of the first capacitor of the phase-shifting RC circuit in one circuit immediately after switching on and the gradual connection of the second charge circuit, due to which at the turn-on angle of the thyristor, it changes gradually, the voltage supplied to the load gradually increases, due to the absence of large inrush currents.

 These signs, as well as the fact that the control unit additionally contains a matching transistor, a third diode and a third, fourth and fifth resistors, and the corresponding connections between them, allow you to change the thyristor unlock angle when the voltage of the network increases, leaving the threshold of the pulse generator unchanged. Maintaining the output voltage level is achieved by increasing the charge time of the first capacitor by the desired value, which allows you to expand the range of limitation of voltage fluctuations in the network within the required limits.

 The inclusion of a phase-shifting RC circuit containing the second resistor and the first capacitor in the DC diagonal of the bridge rectifier allows the charge of the first capacitor to be independent of the pulses generated by the zener diode of the parametric stabilizer. the process of charging the capacitor of the phase-shifting RC circuit occurs under the influence of a rectified voltage that has a sinusoidal character, due to which the thyristor's opening angle changes non-linearly with a linear change in the mains voltage, which allows a linear adjustment characteristic to be obtained with a sinusoidal supply voltage.

 The introduction into the control unit of an additional matching transistor, a diode, three resistors, the relationship of the matching transistor with the control input of the control unit, with a common bus and a regulating transistor connected to a common point of the elements of the phase-shifting RC circuit and a parametric stabilizer, ensures that an error signal that affects for the duration of the charge of the first capacitor of the phaeo-shifting RC circuit, entering the input of the control unit receives the gain necessary to compensate for the input voltage, which improves the device identity.

 The drawing shows a diagram of the proposed stabilizer.

 The device comprises a thyristor 1, a bridge rectifier 2, a feedback circuit consisting of a first diode 3 and an RC filter 4 connected in series, a pulse generator 5, a parametric stabilizer made in the form of a series-connected first resistor 6 and a zener diode 7, a phase-shifting RC circuit made in the form of a second resistor 8 and a first capacitor 9 connected in series, a control unit 10 with a control input 11, which includes regulating 12 and matching 13 transistors, the second 14 and third 15 diodes, the second capacitor 16, third 17, fourth 18 and fifth 19 resistors, first 20 and second 21 pins for connecting a power source (not shown in the drawing), first 22 and second 23 pins for connecting a load 24. Feedback circuit consisting of a first diode 3 and an RC filter 4, is connected between the control input 11 of the control unit 10 and the first terminal 22 for connecting the load 24, connected with the second terminal 21 for connecting the power source.

 The AC diagonal of the bridge rectifier 2 is connected to the first terminal 20 for connecting the power source and the second terminal 23 for connecting the load 24.

 A thyristor 1, a parametric stabilizer made in the form of a series-connected first resistor 6 and a zener diode 7 and a phase shifting RC circuit consisting of a second resistor 8 and a first capacitor 9, the first terminal of the DC diagonal of a bridge rectifier, are parallel connected to the DC diagonal of the bridge rectifier 2; 2 is connected to the first power terminal of thyristor 1 and to the free terminals of the first 6 and second 8 resistors, and the second terminal of the diagonal of the direct current is connected to the second power terminal of the thyristor and 1, associated with a common bus.

 The output terminal of the pulse generator 5 is connected to the control terminal of the thyristor 1, and its input terminal with a common point of elements 8 and 9 of the phase-shifting RC circuit, the free terminal of the first capacitor 9 of which is connected to a common bus, to which the free terminal of the zener diode 7 is connected, to which connected power supply pulse generator 5.

 In the control unit 10, a circuit consisting of a second diode 14 and a second capacitor 16 connected in series is connected between the collector of the control transistor 12 and the common bus. The regulating transistor 12 is connected by an emitter through a third diode 15 to a common point of the phase shifting RC elements 8 and 9, a collector through a third resistor 17 and a base through a fourth resistor 18 to a common point of the parametric stabilizer elements 6 and 7. the matching transistor 13 of the control unit 10 of the collector is connected to the base of the control transistor 12, the emitter with a common bus, and the base through the fifth resistor 19 with a common bus. The base of the matching transistor 13 is used as the control input 11 of the control unit 10.

 The AC voltage stabilizer operates as follows.

 When power is supplied to the first 20 and second 21 leads to connect the power source, the current flows through load 24 and the parametric stabilizer consisting of the first resistor 6 and the zener diode 7. and the phase shifting RC circuit consisting of the second resistor included in the DC diagonal of the bridge rectifier 2 8 and the first capacitor 9. In this case, the thyristor I, also included in the diagonal of the direct current of the bridge rectifier 2, is in the closed state. The first capacitor 9 is first charged only in one circuit through the second resistor 8 during each half-cycle of the voltage and is discharged when the voltage on it reaches the threshold of the pulse generator 5, which causes the thyristor 1 to unlock and the working (power) current to pass through the load 24. The value of the second resistor 8 is selected in such a way that it provides a large unlocking angle of the thyristor 1 and a minimum initial working current.

 Simultaneously from the moment the zener diode 7 of the parametric stabilizer is turned on, it generates voltage pulses of a trapezoidal shape of a stabilized amplitude. Under the influence of these pulses, the second capacitor 16 starts charging through the third resistor 17 and the second diode 16. As the potential of the second capacitor 16 increases, an additional charging current begins to flow to the first capacitor 9 along the second circuit: the third resistor 17 is the collector-emitter of the regulating transistor 12 the third diode 15 The charge time of the first capacitor 9 is constantly decreasing, and the voltage at the load 24 is gradually increasing and by the time the second capacitor 16 is fully charged, reaches a predetermined value.

 When the voltage in the network rises above the specified feedback circuit consisting of the first diode 5 and the RC filter 4, an error signal voltage is applied to the control input 11 of the control unit 10, the matching transistor 13 opens. In the circuit: the fourth resistor 18 of the collector-emitter of the matching transistor 13, the common bus starts to flow, the matching transistor 13 has a shunt effect on the control transistor 12, which starts to close, as a result of which the charging time of the first capacitor 9 increases, the unlocking angle of thyristor 1 and the voltage increase load 24 tends to a predetermined value, the value of which is set using the fifth resistor 19.

 When the mains voltage drops below a predetermined voltage, the load voltage also decreases, because the device is unable to increase the voltage. The device has a stabilizing effect only in the range of supply voltages above a specified one, i.e. borders it on top.

 The implementation of the claimed invention will ensure the service life of incandescent lamps is 40 to 60% longer than the use of known devices, due to the exclusion of the flow through the load of currents that exceed the nominal when turned on and during prolonged use.

Information sources
1. A.S. USSR N 1246070, class G O5 F 1/44, 1984.

 2. A.S. USSR N 842750, class G O5 F 1/44, 1977 (prototype).

Claims (1)

 An AC voltage stabilizer containing a thyristor, a bridge rectifier, a feedback circuit consisting of a first diode and an RC filter connected in series, a pulse generator, a control unit, which includes a control transistor, a parametric stabilizer made in the form of a first resistor connected in series and a zener diode, phase-shifting circuit made in the form of series-connected second resistor and first capacitor, the first and second conclusions for connecting the power source voltage, and the first output of the diagonal of the AC rectifier of the bridge rectifier is connected to the first output for connecting the power source, the first output of the diagonal of the direct current of the bridge rectifier is connected to the first power output of the thyristor and to the free output of the first resistor, the output of the RC filter is connected to the control input of the node control, and the free terminal of the first diode is connected to the first terminal of the load connection, the output terminal of the pulse generator is connected to the control terminal of the thyristor, and the input terminal with a common point of the elements of the phase-shifting RC circuit, the free output of the first capacitor of which is connected to a common bus, to which the second power output of the thyristor is connected, and the free output of the zener diode, to which the power outputs of the pulse generator are connected, characterized in that the second and third diodes, a second capacitor, a matching transistor, third, fourth and fifth resistors, and the emitter of the regulating transistor through the third diode is connected to a common point of the elements of the phase-shifting RC circuit, and the torus and the base, respectively, through the third and fourth resistors with a common point of the elements of the parametric stabilizer, the collector of the regulating transistor through the second diode and the second capacitor connected in series to the common bus, the collector of the matching transistor, the control input of which is used as the control input of the control unit, is connected to the base regulating transistor, the matching transistor has an emitter directly, and the base through the fifth resistor is connected to a common bus, while the second the thyristor output is connected to the second output of the DC diagonal of the bridge rectifier, the free output of the second resistor is connected to the first output of the DC diagonal of the bridge rectifier, the first terminal to connect the load is connected to the second terminal to connect the power source, and the second terminal to connect the load is connected to the second the diagonal output of the AC rectifier bridge rectifier.