SU938271A1 - Voltage stabilizer - Google Patents

Description

(5) VOLTAGE STABILIZER

Claims (2)

The invention relates to electrical engineering and can be used in power supply systems of communications equipment, automation and telemechanics, as well as in electrical systems. Known voltage stabilizer with protection, c. where the overload sensor is located not in the power current circuit 1. However, in this device, protection is carried out only against short circuits and overcurrent, and the effect occurs only on the regulating element. Closest to the proposed technical solution is a voltage stabilizer containing a key regulating element, a duration modulator acting on it, an actuator of the protection body with a blocking element C2. A disadvantage of this device is that signals from an overcurrent sensor, as well as from a voltage monitoring or lowering sensor, are necessary to act on the blocking element. The purpose of the invention is to simplify the device and expand its functionality. The goal is achieved by the fact that a voltage regulator containing a regulating element connected in one of the power buses, a differential DC amplifier on two transistors, the base of one of which is connected to the output of the voltage source, the base of the other the output voltage, the duration modulator, the input connected to the output of the differential amplifier, and the output to the control input of the regulating element and the protection executive element, between the bases the transistor a differential amplifier DC switched rectifier, which is connected to the output posledova393 Tel'nykh connected svetoiz recipients resistor and a photocoupler, a photodetector which w is included in the executive protection circuit installed at the input of the adjusting member. In addition, for the purpose of separate adjustment of the level of operation of the protection against the increase and decrease in voltage, resistors are connected between the like electrodes of the rectifier diodes. When the device is connected to a source of input AC voltage, the photodetector of the optocoupler is connected to the input controlled power rectifier. The DC amplifier can be made in the form of an operational amplifier, the main and inverse inputs of which are connected to the rectifier. tel. In the device, the photoreceiver of the optocoupler can be directly connected to the regulating element or duration modulator. FIG. Figures 1-6 show the variants of the functional voltage regulator circuit. The voltage regulator contains a regulating element 1, a sequentially switched on load 2, a divider of the comparison circuit on resistors 3 and, a differential DC amplifier on transistors 5 and 6 with emitter load 7, a source 8 of reference voltage, a modulator 9 of duration. Between the bases of the transistors of the differential amplifier is switched on you- ;, the driver TO, to the output of which resistor 11 is sequentially connected and the emitter 12 of the optocoupler 13, photo receiver 1 of which is included in the circuit of the protection actuator 15. The bridge rectifier contains diodes 1619 and resistors 20 and 21 connected between the same electrodes of the diodes. The device can be powered both from a constant voltage source Va and from a variable Ugy. In this case, the effect of protection is possible on the controlled rectifier 22, which contains diodes and thyristors and acts as a rectifier in normal operation and as the protection executive 15 in emergency mode. If the device is equipped with an operational amplifier 23, the rectifier 10 is connected to its main and inverse inputs. The device works as follows. In normal operation, i.e. in the absence of overcurrent and the output voltage within the guaranteed limits of its level, the differential amplifier is balanced, the radiation energy of the light emitter 12 of the optocoupler 13 is not enough to turn on its photodetector 1, the protection actuator 15 is turned on and the stabilizer performs its basic functions. When overloading, decreasing or increasing the voltage on the load 2, there is an imbalance of the differential amplifier on the transistors 5 and 6, the output of the rectifier 10 is a voltage sufficient to turn on the light emitter 12 and the photodetector 14 of the optocoupler 13, the protection actuator 15 disconnects the stabilizer from the mains. If it is necessary to separately control and adjust the voltage increase or decrease at the output of the stabilizer in the bridge rectifier (Fig. 2) containing diodes 16-19, additional resistors 20 and 21 are included. In normal operation, the differential amplifier in transistors 5 and 6 is balanced and the photodetector 14 is off. When the output voltage decreases between the bases of the transistors 5 and 6, a voltage of such polarity appears that current flows through the diode 16, the resistor 20, the emitter 12 of the optocoupler 13 and the diode 19. With an increase in the load current, the process is similar, i.e. The resistor 20 can control the threshold. When the output voltage is increased or the breakdown of the regulating element 1, current flows through the diode 18, the emitter 12, the resistor 21 and the diode 17. After turning on the photoreceiver 14, the device operates as described. . . If the stabilizer is powered from the AC mains (Fig. 3), the photodetector 14 acts on the controlled rectifier 22. If the device has an operational amplifier 23 (Fig. 4), the voltage at the output of the rectifier 10 in normal operation is not enough for turning on the photodetector 14. In emergency mode, it is turned on and off by means of element 15 the stabilizer from the mains. Thus, the proposed device provides comprehensive protection of the stabilizer without special sensors. Claim 1. Voltage stabilizer containing a control element connected in one of the power busses, a differential amplifier of a direct current on two transistors, the base of one of which is connected to the output of the source of the reference voltage of the other , the input voltage, and the protection executive element, characterized in that, in order to simplify and extend the functionality, between the bases of the transistors of the differential DC amplifier, a rectifier is turned on, The output of which is connected in series with the resistor and the light emitter of the optocoupler, the photodetector of which is included in the circuit of the executive body of protection included at the input of the regulating element. 2. The stabilizer according to claim 1, which is based on the fact that, in order to separately adjust the level of protection for increasing and decreasing the voltage, resistors are connected between the same electrodes of the rectifier diodes. 3 A stabilizer in accordance with claim 1, in that when the device is connected to an input AC voltage source, the photodetector of the optocoupler is connected to an input controlled power rectifier. C. Stabilizer according to claim 1, which is based on the fact that the differential; The direct current amplifier is made in the form of an operational amplifier, to which the rectifier is connected to the main and inverse inputs of which. 5. The stabilizer of claim 1, wherein the photoreceiver of the optocoupler is connected directly to the regulating element. 6. The stabilizer according to claim 1, wherein the light emitter is in the form of an LED, and the photodetector is in the form of a photo thyristor, the photo thyristor being connected between the base of the regulating element and the common bus. Sources of information taken into account in the examination 1. The author's certificate of the USSR 561951, cl. G 05 F 1/58, 1975. 2. Authors certificate of the USSR, cl. G 05 F 1/58, 1971. AND / 5 f 938271 -OM  (th t tffc- // fri u-fr -J-dL Tv n -Sh Fig.Z 4-0. /  k /five four eleven FIG. four