SU935912A2 - Voltage stabilizer - Google Patents

Description

(5) VOLTAGE STABILIZER

I

The invention relates to electrical engineering and can be used to power electronic equipment.

According to the main author. St. 75b383 known voltage regulator, used mainly for powering electronic equipment, contains a single-phase rectifier connected by an input to the input terminals, a first output terminal through the regulating element to the first, and a second output terminal to the second output terminals, and the regulating element is provided on the current inverter The AC output pins of which are connected via a transformer and a current-limiting reactive circuit to the input of the auxiliary rectifier. The first output terminal of the auxiliary rectifier is connected to the second output terminal. Additionally, a storage capacitor and a diode are introduced, with the storage capacitor connected in parallel with the output terminals of the auxiliary rectifier. A diode is connected between the second output of the auxiliary rectifier and the first output of the single-phase rectifier 1.

The current of the regulating element of the voltage regulator as with large values of the instantaneous voltage at the output of the single-phase rectifier, i.e., and in the time intervals when the load is powered by the storage capacitor, is equal to the load current. The power diverted from the inverter through an auxiliary rectifier, when operating from the storage capacitor, is of great importance, which causes large energy losses in the transformer, auxiliary rectifier and thyristors of the inverter.

The purpose of the invention is to increase efficiency.

Claims (1)

This "b" is achieved by introducing into the voltage regulator a second 39 reactive circuit, a choke and a second auxiliary rectifier connected by a first output terminal through the choke to the first, second output terminal to the SEC output terminals, and the AC output terminals vKOToporo through the second current limiting The reactive circuit is connected to the inverter transformer. FIG. 1 shows a block diagram of a stabilizer; in fig. 2 is a schematic diagram of a stabilizer. The single-phase rectifier 1 is connected to the load 2 via a regulating element which is made on the current inverter 3. The AC outputs of the inverter 3 are connected via a transformer k and a current-limiting reactive circuit 5c with alternating current terminals of the auxiliary rectifier 6. To the DC outputs of the auxiliary rectifier MitIEL 6 is connected in parallel with a storage capacitor 7, to the output of the positive polarity of the auxiliary rectifier 6 - the anode of diode 8, the cathode of which is connected to the positive output of a single-phase rectifier Ate 1. The control circuit 9 provides alternate switching on the thyristors of the current inverter 3. A third auxiliary rectifier 11 is connected to the third winding of the transformer through the second power supply circuit 10, which is connected to the first output lead of the stabilizer via the first output terminal. The second output of the second auxiliary rectifier is connected to the second output of the stabilizer. The stabilizer works as follows. For large values of the voltage at the outputs of a single-phase rectifier 1, the regulating inverter operates with a large input resistance, and for small values of the voltage at the outputs of the single-phase rectifier 1, the input resistance of the regulating inverter 3 is minimal. During time intervals during which the resistance of the inverter is large, the energy from the inverter through the transformer, the current limiting reactive circuits 5 and 10, the auxiliary rectifiers 6 and 11 are diverted to the load 2 and accumulated in the storage capacitor 7. The diode 8 at these times 4 is closed. . At low voltages on the outputs of single-phase rectifiers; The capacitor 1, which is less than the voltage on the storage capacitor J, the single-phase rectifier diodes 1 are closed, and the load is supplied by the storage capacitor 7 through the diode 8 and the inverter, whose resistance in this mode is low. The energy from the inverter 3 is discharged through the transformer and the second current-limiting reactive circuit 10, the second auxiliary rectifier P, the choke 12 and the load. The rectifier valves 6 are closed in this mode, which provides an increase in efficiency, since the energy of the storage capacitor is consumed only in the load. To increase the stabilization factor, the frequency of the inverter varies depending on the voltage on the control system 9 Compensation for the change in load resistance 2 in the stabilizer circuit is performed by changing the oscillation range of the input resistance of the inverter 3, which is controlled by changing the frequency of the switching of the thyristors determined by the system 9. When the output voltage decreases, the switching frequency of the inverter 3 thyristors increases, which reduces its resistance Nome current. By varying the switching frequency of the thyristors of the inverter 3, the change in the input voltage is compensated. The introduction of a second rectifier connected to the load reduces the current value of the inverter and reduces the current in the rectifier connected to the storage capacitor, which increases the efficiency of the voltage regulator by 10-25. Invention Formula Voltage Stabilizer by author. St. No. 756383, characterized in that, in order to increase the efficiency, a second current-limiting reactive circuit, a choke and a second auxiliary rectifier connected by the first output terminal through the choke to the first and the second output terminal to the second output terminals, and change terminals 5935912nnogo current are introduced into it straightened through,. Sources of information, the second current-limiting reactive- taken into account during the examination, are connected to the transformer 1. Inverter USSR Copyright Certificate .t 75b383, cl. 6.05 G 1/56, J978. Fah. ten H1 "Ina nv