SU1198490A1 - D.c. voltage stabilizer - Google Patents

Abstract

The invention makes it possible to improve the quality of stabilization by eliminating the output voltage jumps when the feedback conductors are torn off due to the fact that two optocouplers are introduced into the DC voltage regulator circuit.

Description

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Claims (1)

CO The invention relates to electrical engineering and is intended for use in the implementation of power supply to consumers who are substantially remote from the location of the power source, i.e. In those cases, when providing a stable voltage on the supply terminals of the consumer is possible only when the feedback loop of the Stabilizer is implemented using individual conductors. The aim of the inventions is to improve the quality of stabilization by eliminating the output voltage jumps when the conductors are opposite. zi The drawing shows a circuit diagram of the proposed DC voltage regulator. The device contains a transistor regulating element 1, power buses 2 and 3, a DC amplifier 4, a divider, for example, a grooming consisting of resistors, feedback conductors 8 and 9, optocouplers 10 and 11 with LEDs 12 and 13 that function as protective diodes, and photodiodes 14 and 15, the correction resistors 16, and 17. Positions 18 and 19 in the diagram designate the terminals for connecting the primary power source, positions 20 and 21 the terminals for connecting the load, and position 22 load. The power buses 2 and 3 are connected at the ends with terminals 18, 19 and 20, 21. Regulator 1 is connected successively to power bus 2, the output of the DC amplifier 4 is connected to the control input of the regulating element 1. The input of the divider 5- The 7 voltages of the feedback conductors 8 and 9 are connected to terminals 20 and 21, and the output is connected to the input of the DC amplifier 4. The optocouplers 10 and 11 are located at the location of the voltage divider 5-7, and the LED 12 is connected between the output resistor 5 and power bus 2, LED 13 between the output of resistor 7 and force howl bus 3, a photodiode 14 via a resistor 16 is included in parallel PE. 902 resistor 5, and the photodiode 15 through a resistor 17 parallel to the resistor 7. The device operates as follows. If there is no break in the feedback conductors 8 and 9, the current through the LEDs 12 and 13 of the optocouplers 10 and 11 does not pass, the photodiodes 14 and 15 are closed and do not affect the process of stabilizing the output voltage. In case of its increase, the DC amplifier 4, which perceives the deviation signal from the voltage switch of the voltage divider 5-7, activates a control action to cover the regulating element 1. In the case of a decrease in the output voltage of the control of the DC amplifier 4, on the contrary, it opens up. When one of the feedback conductors breaks, for example, 8, a voltage divider 5-7 begins to flow through the LED 12. The resistance of the photodiode 14 decreases sharply, while the correction resistor 16 is connected in parallel to the resistor 5. The increase in the equivalent resistance of the shoulder of the voltage divider 5-7 due to the introduction of the LED 12 into the black is compensated by a corresponding decrease in the equivalent resistance due to the parallel connection of the resistors 5 and 16 Choosing the resistance of the corrective resistors 16 and 17, it is possible to achieve an almost complete absence of jumps in the output voltage of the stabilizer during the transition from normal mode to a mode with a dangling feedback loop, which improves the quality of the stabilization of you. travel voltage. A formula of a voltage regulator and a DC voltage regulator containing a regulating element connected in series to one of the power lines connected at the ends to the terminals for connecting the primary power source and the load, the amplifier a direct current, the output of which is connected to the control input of the regulating element, a voltage divider, the input of which is connected by conductors to the terminals for connecting the load, and the output is connected to the input of the direct current amplifier, two protective diodes, each of which is connected to the location of the voltage divider between one of its conclusions and the power bus, equipotential with this conclusion, is different from 19804- y and with the fact that, in order to improve the quality of stabilization by eliminating output voltage jumps when the feedback conductors 5 are disconnected, two correction resistors are introduced into it, and the protective diodes are made in the form of LEDs combined in optocouplers with photodiodes connected through the correlating resistors of the paralleleio to the respective shoulders of the voltage divider.