SU792229A1 - A.c. voltage regulator - Google Patents

Description

(54) AC VOLTAGE STABILIZER

one

. The invention relates to electrical engineering and can be used in power circuits of various radio engineering devices.

An AC voltage regulator is known that contains an actuator made in the form of a sequential 1 C – C 6 circuit; the output voltage is stabilized by changing the parameters of the circuit, usually using inductances controlled by the circuit, which are used or saturation throttles or serially connected line choke and thyristor keys. The control circuit includes a measuring element that compares the output voltage with the reference, the error amplifier and the terminal, which either uses a power amplifier loaded with the windings of the throttle control or phase shifting device.

generating pulses to control the thyristor key l.

The closest technical solution to the invention is a stabilizer containing a resonant circuit, the throttle of which is connected between the input and the corresponding1 1 output terminal, and the capacitor between the output terminals, the measuring element, the inputs of which are connected in parallel to the output

10 pins, and the output is connected to the input of the error amplifier, and a re5 connected in parallel to the output pins; a receiving body consisting of an AC amplifier and two transistors,

15 base-emitter and collector transitions of which are bypassed with diodes 2.

The disadvantages of this stabilizer are low efficiency, and in addition,

Claims (2)

20 the possibility of overvoltages arising due to the fact that when the voltage supplied from the output of the AC amplifier to the bases of the transistors of the regulator, its equivalent resistance, disappears, the voltage on the elements increases significantly. the resonant circuit of the stabilizer, which reduces its reliability. The aim of the invention is to increase efficiency and reliability. The goal is achieved by introducing a controlled phase-matching circuit into the stabilizer, the signal input of which is connected to the output terminals, the control input to the output of the error amplifier, and the output to the input of the AC amplifier outputted with a fixed gain into the output amplifier. the circuit introduced an additional capacitor connected between the emitters of the transistor regulator. FIG. I is a schematic of an AC voltage regulator in FIG. 2 - timing diagrams explaining the operation of the stabilizer. The AC voltage regulator contains a resonant circuit consisting of choke switches I connected between the input and the corresponding output terminals, a capacitor 2 connected to the output terminals, and a capacitor 3 connected between the emitters of the transistors 4 and 5, the bases of which are connected to the output of the amplifier AC 6 with a fixed gain, collectors - to the output pins, and the base-emitter and bazakollektor junctions are bridged. diodes 7.8, and Y. In addition to Toroi, the stabilizer contains I measuring element II connected by an input to the output pins and output to the input of an amplifier misalignment coupling 12, the output of which is connected to the control input of a controlled phase rotating circuit 13, the signal input of which connected to the output pins and the output to the input of the AC amplifier 6. The input stabilized voltage is applied to the input pins of the stabilizer, and the output voltage is removed from the capacitor 2 and the load, the collectors of the transistors 4 and the input of the meter element 1.1 and the signal input of the controlled phase-shifting circuit 13. An error signal proportional to the declination of the output voltage from the nominal value is fed from the output of the measuring element 11 to the input of the error amplifier 9 .4 12, from the output of which the amplified signal the mismatch is applied to the control input of the phase-shifting circuit 13. On time diagram 14 (Fig. 2), the voltage applied to the signal input of the phase-shifting circuit 13 is shown, and on. diagram 15 is the output voltage of this circuit. The magnitude of the voltage applied to the control input of the phase-shifting circuit 13 determines the phase of the voltage w (diagram 15) relative to the voltage (diagram 14) and its amplitude. The dotted line in time diagram 15 shows the output voltage of the controlled phase-shifting circuit, when „y, jo and the amplitude is maximum. With a phase shift of 90, the amplitude of this voltage is zero. Shown in FIG. The I controlled phase shifting circuit 13 is made in the form of a series-connected resistor with adjustable resistance and a capacitor. However, other variants of this circuit are possible. The output voltage of the phase-shifting circuit 13 through the AC amplifier 6 with a fixed gain is applied to the bases of transistors 4 and 5. Due to a small voltage drop on the emitter transitions of these transistors and diodes 7.8, the output voltage of the amplifier 6 almost completely repeats on the capacitor 3. Thus, the magnitude of the error signal determines the magnitude of the current through the transistors 4, 5 and capacitor 3, and hence the equivalent active and reactive (capacitive) resistance of the regulator. Controlled phase matching circuit 13 and AC amplifier 6 with a fixed one. the amplification provides such a phase shift between the voltage at the output terminals and the voltage on the capacitor 3, at which the current through the capacitor 3 and the voltage applied to the transistors 4, 5 coincide in phase. In this case, one half-wave current of the capacitor 3 flows through the transistor 4 and the diode 10, and the other - the vepea transistor 5 and the diode 9. The output voltage of the stabilizer is controlled as follows. If it is necessary to increase the output voltage of the stabilizer, the phase shift between the input and output voltage of the phase-shifting circuit 13 decreases. At the same time, the voltage on the capacitor 3 increases, which leads to an increase in the equivalent capacity of the regulator. At the same time, by reducing the voltage drop across the transistors 4, the power dissipated by the regulator is reduced. To decrease the output voltage of the stabilizer, the phase shift introduced by the phase-shifting circuit 13 is increased, which leads to an increase in power dissipated by the regulator and a decrease in its equivalent capacitance. A simultaneous change in the active and reactive equivalent resistance of the regulator allows the power to be dissipated significantly. In addition, when the voltage supplied to the regulator transistors disappears, the current through the capacitor 3 completely stops, and the capacitance of the circuit is determined only by the capacitance of the capacitor 2. Therefore, unlike the known stabilizer, where the capacitance of the circuit remains constant, In the proposed stabilizer, when the voltage applied to the bases of the transistor of the regulator is lost, there is no overvoltage on the resonant circuit elements, which significantly increases the reliability of the stabilizer. Claims An AC voltage regulator containing a resonant circuit, 296 whose choke is connected between the input and the corresponding output, and a capacitor between the output, a measuring element, the inputs of which are connected in parallel to the output terminals, and the output connected to the input of the amplifier and the connected parallel to the output pins, the regulator consisting of an AC amplifier and two transistors, the base-emitter and collector-emitter transitions are designed diodes, characterized in that, in order to increase the efficiency and reliability of the stabilizer, a controllable phase-shifting circuit has been introduced to it, the signal input of which is connected to the output terminals, the control input to the output of the error amplifier, and the output to the input of the peremek current amplifier made by a fixed gain, an additional condenser is inserted into the resonant ontur, switched on, between the emitters of the regulator transistors. Sources of information taken into consideration in the examination of C. US Patent No. 3389176, p. G 05 F 1/12, 1975 2. USSR author's certificate 5747О7, cl. & O5 F 1/14. 1976. It / 0 x x Rig. 2 /; 7