KR960008143Y1 - Voltage source circuit - Google Patents

Abstract

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Description

Power supply stabilization circuit

1 is a power supply stabilization circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

10: power supply 20: load

30: comparison unit 40: control unit

3REG: 3-terminal regulator OP1: Comparator

Q1: transistors R1 to R5: resistors

C1 ~ C4: Capacitor

The present invention relates to a power supply circuit, and more particularly, to a power supply stabilization circuit which detects an input voltage of a load receiving a voltage in a power supply circuit, stabilizes an output voltage of the power supply circuit, and supplies a constant voltage to the load. It is about.

In electric and electronic devices, the power supply must be stable, that is, the required voltage and current must be maintained at a constant level to enable normal driving. If the voltage is supplied at an irregularly high or low level, it may cause malfunction or malfunction.

Conventionally, in order to stabilize such a power supply, a voltage detecting circuit for detecting an output voltage of a power supply circuit is configured in a power supply circuit for supplying power, and according to the detection voltage of the voltage detecting circuit, the power supply circuit controls the power supply. By controlling the supply circuit, the power supply circuit always supplies a constant level of power.

However, such a conventional power supply circuit simply stabilizes the output voltage of the power supply circuit by the voltage detection circuit and the control circuit, so that the load is located at a long distance from the power supply circuit, or is applied to the power supply device and the load. When another unnecessary load is applied or noise is generated, there was a problem in that the original load was applied with a voltage applied to the power supply circuit in a state where the voltage applied from the power supply circuit was reduced, thereby causing malfunction and failure.

The present invention is to solve this problem, and the purpose of this invention is to compare the output voltage of the load stage with the output voltage of the power supply circuit, and to drive the control unit to stabilize the power supply so that a constant voltage is always applied to the load stage. To provide a circuit.

A feature of this invention for achieving this object is a power supply for converting an input voltage to a specific voltage and outputting the input voltage of the load connected to the power supply and driven by the output voltage of the power supply unit And a control unit for comparing an output voltage, a control unit connected between the power supply unit and the comparison unit to control an output voltage of the power supply unit according to the output of the comparison unit, and a power supply stabilization circuit.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a power supply stabilization circuit diagram according to the present invention, and includes a power supply 10, a load 20, a comparator 30, and a controller 40.

In more detail, the power supply unit 10 is composed of a three-terminal regulator (3REG) so that the input voltage (VIN) is converted to the voltage level differently according to the type of the three-terminal regulator is output. At this time, the capacitor C1 is for removing noise.

In the comparison unit 30 which compares the input voltage of the load 20 driven by the output voltage of the power supply unit 10 to the output voltage of the power supply unit 10, the output of the power supply unit 10 divides the voltage. The resistors R3 and R4 are applied to the inverting terminal (-) of the comparator OP1, and the output voltage of the power supply unit 10 is applied by the load 20 and the voltage distribution resistor R5. The voltage distributed to the voltage distribution resistor R5 is applied to the non-inverting terminal + of the comparator OP1.

At this time, the capacitors C3 and C4 are for noise reduction.

In addition, the controller 40 controlling the output voltage of the power supply unit 10 according to the output of the comparator 30 connects the switching transistor Q1 to the comparator OP1 of the comparator 30. The resistor R3 is connected to the collector side of the transistor Q1. In addition, the resistors R1 and R2 are connected to the emitter side of the transistor Q1 so that the controller 40 controls the resistors R1 and R2 when the transistor Q1 is driven. Closed circuit connecting Q1) and resistor R3 is made. At this time, the capacitor C2 is for removing noise.

In the power supply stabilization circuit according to the present invention, the input voltage VIN is converted into a specific voltage by the three-terminal regulator 3REG of the power supply unit 10 and output.

The output voltage of the three-terminal regulator 3REG is applied to the load 20 through the voltage distribution resistor R5, while the inverting terminal of the comparator OP1 is provided through the power distribution resistors R4 and R5. Is applied to (-).

At this time, the non-inverting terminal (+) of the comparator (OP1) is a state in which the load 20 is connected in parallel with the resistor (R5), when the normal voltage is applied to the additional load (20), the comparator (OP1) The non-inverting terminal (+) of the state in which the load 20 is connected in parallel with the resistor (R5), when the normal voltage is applied to the load 20, the non-inverting terminal (+) of the comparator (OP1) A closed circuit is formed together with the distribution resistors R1, R2, and R3 such that the voltage applied to the voltage is greater than the voltage applied to the inverting terminal (−).

Therefore, the voltage applied to the load by the power supply unit 10 is increased as follows.

In this case, V10 is an output voltage of the power supply unit 10 before the transistor Q1 is driven, and VO2 is an output voltage of the power supply unit 10 when the transistor Q1 is driven.

As such, this design controls the power supply circuit based on the voltage level of the power input to the load, so that the load is supplied with a power that maintains a constant voltage at all times, thereby providing a stable operation.

Claims (3)

An input voltage of a power supply unit 10 for converting an input voltage VIN into a specific voltage and outputting the same, and a load 20 connected to the power supply unit 10 and driven by an output voltage of the power supply unit 10. Is connected between the comparison unit 30 comparing the output voltage of the power supply unit 10 with the power supply unit 10 and the comparison unit 30, and the power supply unit according to the output of the comparison unit 30. An output voltage stabilization circuit comprising: a control unit (40) for controlling an output voltage of (10). According to claim 1, wherein the comparison unit 30, the voltage distribution resistors (R3), (R4) connected to the power supply unit 10, the voltage distribution connected to the power supply unit 10 and the load (20). A resistor R5, an inverting terminal (-) is connected to the resistors R3 and R4, and a non-inverting terminal (+) is connected to the resistor R5, and thus the resistors R3 and (R4). And an output voltage stabilization circuit composed of a comparator (OP1) for comparing the voltages applied to (R5). The transistor Q1 of claim 1, wherein the controller 40 is connected between the resistor R3 of the comparator 30 and the power supply 10, and drives the transistor Q1 according to the output of the comparator 30. ), An output voltage stabilization circuit (R1) connected to the transistor (Q1), and (R2).