SU1072024A1 - Pulsed d.c. voltage stabilizer - Google Patents

Abstract

PULSE CONSTANT VOLTAGE STABILIZER, containing a key regulating element connected in series to a power bus; Well, the control unit, the input connected to the output output, and the output to the control input of the regulating element, the threshold element, the input connected to one output of the ground capacitor, the other output of which is connected to the common bus, selector level, one of the inputs of which is connected to An output terminal, characterized in that, in order to increase reliability by eliminating an emergency condition at start-up, an electronic key, an additional threshold element, a load state sensor and an input voltage divider are introduced connected in parallel to the input terminals, and an output connected to another input of the level selector, the output of which is connected to the input of the threshold element, the output of which is connected to the supply terminal of the control unit, with i the load state sensor connected between the input and output terminals with the input of an additional threshold device, the output of which is connected to the control, the input of the electronic switch, connected in parallel with the starting capacitor.

Description

The invention relates to electrical engineering and can be used as a source of secondary power supply of a key type.

Known DC voltage regulators are known in which power is supplied to the control circuit directly from the output terminals of the device P11,

The main disadvantage of these devices is low-efficiency, due to the loss of power in the resistor through which the ISPP output capacitor is charged, which simultaneously functions as the blocking capacity of the control circuit power supply circuit.

The closest to the technical essence of the invention is a pulse voltage stabilizer containing a key regulating element connected in series to the power bus, a control unit, an input connected to the output terminal, and an output to the controlling element of the regulating element, a threshold element, an input connected to one terminal of the starting capacitor, the other terminal of which is connected to the common bus, a level selector, one of the inputs of which is connected to the output terminal C2: i.

The main disadvantage of the known device is the relatively low reliability due to the overloading of the key converter in the event of an accident in the load circuit at the time of launch.

The purpose of the invention is to ensure the reliability of the device by eliminating the generation of a control signal of the key converter in the event of an accident in the load circuit. :

The goal is achieved by the fact that a pulse voltage regulator containing a key regulating element is connected in series to the power bus, a control unit connected to the output output by an input, and a threshold element connected to the control input by an output one output of the starting capacitor, the other output of which, d is connected to the common bus, a level selector, one of the inputs of which is connected to the output output, an electronic key, an additional key element, yes snip state load and the input voltage divider, connected across the input terminals and output pvdkl} ochvnnSh to another entry level selector. the output of which is connected to the input of the threshold element, the output of which is connected to the supply terminal of the control unit, with the load state sensor connected between the input and

output pins, and the output is connected to the input of an additional threshold device, the output of which is connected to the control key input of the electronic switch connected in parallel with the starting capacitor.

The drawing shows the structural scheme of the proposed stabilizer.

The device contains a key regulating element 1, regulated by a control unit 2 through a feedback circuit connected to the output, and a power terminal connected to the output of the threshold device 3 connected by a t: output of the level selector 4, made on diodes 5 and b. Parallel to the output of the level selector, a starting capacitor 7 and an electronic switch 8 are connected, the control input of which through the threshold device 9 is connected to the load state sensor 10 connected between the input and output terminals. The inputs of the level selector 4 are connected respectively to the outputs of the resistive divider 11 and the device.

The device works as follows.

When the circuit is connected to the primary voltage source using virgins 10, the load state is recorded — If the load of the device does not exceed the nominal, the output of the SDS 10 does not exceed the threshold value determined by the threshold device 9, and the charging of the start capacitor 7 is performed through a split divider 11 and the diode b of the level selector 4. When the voltage on the capacitor 7 reaches a predetermined threshold value, the threshold device 3 is activated, power is supplied to the control circuit 2, the output of which is formed control signal of the key converter 1. If the load is greater than the nominal value, the output SDS 10 exceeds the threshold value, the threshold device 9 is activated, the control signal is supplied to the electronic key 8, which bypasses the starting capacitor 7, which ensures the locked state of the threshold device 3 and no voltage power supply and output signal of control circuit 2. When the overload by the signal of the threshold device 9 is removed, the electronic key 8 is locked and the circuit is automatically started. When the stabilizer output voltage is established, the level selector 4 provides power to the control circuit 2 directly from the output of the device. In this case, the diode 5 is open, and the diode 6 is locked, since the output voltage of the resistive divider 11 is set lower than the output voltage of the stabilizer.

The threshold device 3 provides the nominal supply voltage of the control circuit directly from the moment of start.

The current consumption by the control circuit in the operating mode ensures the continuity of the current of accumulative throttles of the key converter at low load currents and idling at the output of the device. When used as a source of primary voltage of an alternating current network and the requirement for galvanic isolation of the device input and output, a resistive divider can be connected to the output winding of a low-power starting transformer that does not consume power in the operating mode.

Thus, the proposed device has a higher reliability than the known ones, since the control signal of the key converter is not generated while reducing the load resistance exceeding the limit of its working range. IQpcMe addition, the device provides protection against short locking n: output, as well as automatic restoration of the working state; when overloading.

Claims (1)

A DC PULSE STABILIZER containing a key control element connected in series to the power bus, a control unit with an input connected to the output terminal, and an output to the control input of the control element, a threshold element connected to one output of the starting capacitor, the other output of which connected to a common bus, selector .level, one of the inputs of which is connected to the output output, characterized in that, in order to increase reliability by eliminating the emergency state At start-up, an electronic key, an additional threshold element, a load condition sensor and an input voltage divider, connected in parallel with the input terminals, and connected to another input of the level selector, the output of which is connected to the input of the threshold element, the output of which is connected to the supply terminal of the control unit, are introduced into it moreover, the load condition sensor is connected between the input and output terminals, and the output is connected to the input of an additional threshold device, the output of which is connected to the control ζ. an electronic key input connected in parallel with the starting capacitor 2. ^ν