SU1001051A2 - Stabilized dc voltage source - Google Patents

Description

(5) STABILIZED SOURCE OF CONSTANT

one

The invention relates to electrical engineering and is intended for use in the implementation of power supply to consumers that are critical at the time of interruptions in the supply voltage, for example, in redundant power systems in which the backup source is set to cold standby mode.

According to the main auth. If 10372 a stabilized DC voltage source is known, containing a bridge rectifier consisting of three diodes with a common anode and three thyristors with a common cathode, the js control electrodes of which are connected to the output of an integrating RC circuit connected in parallel with power The electrodes of the aforementioned thyristors through decoupling -diodes and a 20 parametric stabilizer, the anode of the Zener diode of which is connected to the midpoint of the resistive divider of the output voltage L t J VOLTAGE

The disadvantage of the known device that performs the regulation of the thyristor switching-on angle (cut-off) due to the change in voltage at the parametric stabilizer output is determined by the significant inertia, which is manifested significantly when the device is put into operation due to the fact that the output stabilization system tension The marked inertia ultimately reduces the speed of consumers connected to the source, and also limits the use of this device for power supply to consumers that do not allow appreciable interruptions in the supply voltage, in particular, when transferring power from the main source to the backup source.

Claims (1)

The purpose of the invention is to reduce the duration of the transient process when 3 turning on a similar power source, i.e. time from the moment the voltage is applied to the input of the device until the output voltage reaches the nominal value. The goal is achieved by the following. In a stabilized voltage source containing a self-rectifier consisting of three diodes with a common anode and three thyristors with a common cathode, the control electrodes of which are connected to the output of the integrating RC circuit through resistors and a dynistor. connected in parallel to the power electrodes of the aforementioned thyristors through decoupling diodes and a parametric stabilizer, the ano zener diode of which is connected to the midpoint of the resistive output voltage divider, is inserted into the second dynistor, for prison series with a resistor divider output Nogo voltage connected to the negative terminal for connecting a load. The drawing shows a circuit diagram of the proposed stabilized constant voltage source. The device is based on a three-phase adjustable bridge rectifier made on three diodes 1-3 and three k-6 thyristors. In parallel, the latter, through integrating diodes 7-9 and a parametric stabilizer consisting of a resistor 10 and Zener diode 11, connect an integrating RC circuit with a charging resistor 12 and a capacitor 13. The anode of the Zener diode 11 of the parametric stabilizer is connected to the middle point of the divider of the output voltage of the formed resistors 1 and 15. The output of the integrating RC circuit is connected via resistors 16-18 and distor 19 to the control electrodes of the thyristors if) -6. The second dynistor 20i is entered in one of the arms of the resistive divider of the output voltage, in series with the resistor 13i. At positions 21–23, the input terminals of the device are marked on the diagram, and 24 is the load unit (in the special case of resistive). This voltage occurs as follows. 1 When alternating three-phase voltage is applied to the input terminals 21-23 to a parametric stabilizer (resistor 10, zener diode 11 is supplied with rectified voltage. The output voltage of the parametric stabilizer is applied to capacitor 13 via a charging resistor 12 before opening time of the first dynistor 19, through which a signal is supplied to the control of the k-6 thyristor network. One of the thyristors is triggered and the source is connected to the load unit 24. At the same time, the parametric input Next, the thyristors are triggered: t alternately, after a certain time after the beginning of the half-period of the supply voltage. The cut-off angle is controlled differently in the source switching mode and in the stabilization mode. The turn-on voltage of the second dynistor 20 is chosen such that it opens occurs only at the moment when the magnitude of the output voltage of the source reaches the nominal value. The voltage applied to the capacitor 13 with the closed dynistor 20 is proportional to the sum of the fall The voltage on Zener diode 11 and resistor 15. The increased value of the resulting output voltage on the integrating RC circuit causes a decrease in the thyristors switching angle 4-6 and, as a result, a decrease in the transient process time when the device is put into operation. When the output voltage reaches its nominal value, the dynistor 20 opens and the voltage stabilization system begins to function. Further, dynistor 20 does not have any effect on the operation of the device. S voltage stabilization mode. applied to the capacitor 13, is proportional to the difference between the voltage drops across the Zener diode 11 and the resistor 15. Each time the output voltage deviates from the nominal value, the voltage applied to the capacitor 13 changes and, consequently, the thyristor turn-on angle -6. If, for example, the output voltage of the source increases, the voltage at the output of the parametric stabilizer decreases and the turn-on of thyristors -6 increases. Disconnection of the parametric stabilizer from the source occurs when the voltage on the load 2 reaches such a value, at which the difference between the voltage drops on the zener diode 11 and the resistor 15 becomes less than the level of the dynistor 19 triggered. By choosing the circuit parameters, it is possible not only to both ensure stability of the output voltage, but also to protect the load unit 2A against overvoltages. From the viewpoint of the theory of automatic regulation, this voltage stabilization system can be attributed to variable systems. The introduction of the second dynistor into the device circuit corresponds to the fact that the feedback circuit is interrupted during the transition process and the maximum possible control signal is applied to the system input. When the regulated value at the output of the system reaches a predetermined value, the feedback circuit closes and the system starts operating in the usual order. As a result of modeling and testing of the proposed device on a computer, it was found that the duration of the transition process when the source is switched on with the introduction of a second dynistor in it decreases more than twice. The use of the proposed device in uninterruptible power supply units intended for uninterrupted power supply to the responsible consumers (communication means of automated control systems, computer systems) saves the energy source resource of such an aggregate, for example, a battery. In addition, reducing the time of the transition process when the source is turned on increases, ultimately, the speed of the consumers connected to it. Claims of the Invention Stabilized source of constant voltage according to avt.ev, No. 10372, characterized in that, in order to reduce the duration of the transient process upon switching on, a second dynistor is inserted in it, connected in series with an output voltage divider resistor connected to a negative terminal for load connections.