KR19980023625A - Power supply controller - Google Patents

Abstract

We present a power supply control device that can use a simple circuit and control a high speed power supply. The apparatus includes at least one first power source for supplying a positive power source; A P-type MOS transistor connected between the first power supply and an output terminal thereof, respectively; A first resistor connected between the first power supply and a gate of the P-type MOS transistor, respectively; And an N-type transistor connected between the gate and the ground of the P-type MOS transistor and receiving a power supply control signal to the base side.

Description

Power supply controller

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply control device, and more particularly, to a power supply control device capable of controlling on / off of a plurality of power supplies using a simple circuit.

In the conventional power supply control device, a relay is used to control the power supply. FIG. 1 is a block diagram illustrating a conventional power supply control device by way of example, and includes a control signal generator for disposing a relay between each power supply and an output terminal and controlling each relay. Relays, which are generally used to control supply and interruption of power, are not only slow in switching speed, but also may cause chattering, which may cause unnecessary noise. In addition, since each relay must have a separate control signal generator for switching it requires a large number of parts.

SUMMARY OF THE INVENTION An object of the present invention is to provide a power supply control apparatus capable of controlling the supply of power having positive and negative polarity by using a simple circuit in order to solve the above-mentioned conventional problems.

1 is a block diagram illustrating a conventional power supply control device as an example.

2 is a circuit diagram for explaining a power supply control device according to the present invention.

Power supply control apparatus according to the present invention for achieving the above object of the present invention comprises at least one first power source for supplying a positive power; A P-type MOS transistor connected between the first power supply and an output terminal thereof, respectively; A first resistor connected between the first power supply and a gate of the P-type MOS transistor, respectively; And an N-type transistor connected between the gate and the ground of the P-type MOS transistor and receiving a power supply control signal to the base side. In particular, at least one second power supply for supplying a negative power to supply a negative power at the same time as the positive electrode; An N-type MOS transistor connected between the second power supply and its output terminal, respectively; A second resistor connected to the gate of the N-type MOS transistor and the second power source, respectively; And constant voltage holding means for generating a constant voltage using the power supplied to the output terminal of any one of the first power supplies, and supplying the generated constant voltage to the gate of the N-type MOS transistor.

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

2 is a circuit diagram illustrating a power supply control apparatus according to the present invention, in which reference numerals 22, 24 and 26 denote various power supplies, Q1 to Q4 transistors, C1 to C3 smoothing capacitors, and R1. R4 denotes a resistor, 30 denotes a constant voltage holding unit, and 52, 54, and 56 denote output terminals.

Power supplies 22 and 24 have a positive polarity and power supply 26 has a negative polarity. The P-type MOS field effect transistors (hereinafter referred to as PMOS) Q1 and Q2 are for switching the power supply, and the conduction is determined by the voltage of each of the resistors R1 and R2 connected between the drain and the gate. The N-type MOS field effect transistor (hereinafter referred to as NMOS) Q3 is similarly for switching the power supply, and the conduction is determined by the voltage of the resistor R4 connected between the source and the gate. The constant voltage holding unit 30 is configured by connecting a diode D1 for fixing a current direction, a zener diode ZD1 for generating a constant voltage, and a resistor R3 in series. Smoothing transistors C1 to C3 are used for smoothing the power supplied to each output terminal.

Referring to the operation according to the above-described configuration, first, when a high-level control signal is applied, the NPN transistor Q4 is turned on and a predetermined voltage is applied to the resistors R1 and R2. At this time, the collector and emitter of the transistor Q4 are about 0.2V. The PMOS Q1 and Q2 are then turned on so that the first and second power supplies 22 and 24 are supplied to the output terminals 52 and 54, respectively. In addition, when a positive polarity power is supplied to the second output terminal 54, a constant voltage is applied to the zener diode ZD1, and a predetermined voltage determined by the resistance ratio is applied to the resistors R3 and R4. Then, the NMOS Q3 is turned on by the voltage applied to the resistor R4 to supply the third power supply 26 to the third output terminal 56. That is, the second power supply 24 is supplied to the second output terminal 54 and the third power supply 26 is also supplied to the third output terminal 56 by the constant voltage holding unit 30.

As described above, the present invention uses only one power supply control transistor and a field effect transistor with low power consumption, so that the power supply can be controlled with low power consumption, and the drop voltage due to switching is minimized. Can eliminate chattering. In addition, there is an advantage that it is possible to simultaneously control the supply of power having positive and negative polarity.

Claims (5)

At least one first power source for supplying a positive power source; A P-type MOS transistor connected between the first power supply and an output terminal thereof, respectively; A first resistor connected between the first power supply and a gate of the P-type MOS transistor, respectively; And And an N-type transistor connected between the gate and the ground of the P-type MOS transistor and receiving a power supply control signal to a base side. 2. The power supply control device according to claim 1, further comprising a smoothing capacitor connected between the output terminal and ground to smooth the power supplied to the output terminals. 2. The apparatus of claim 1, further comprising: at least one second power supply for supplying negative power; An N-type MOS transistor connected between the second power supply and its output terminal, respectively; A second resistor connected to the gate of the N-type MOS transistor and the second power source, respectively; And And a constant voltage holding means for generating a constant voltage using the power supplied to the output terminal of any one of the first power supplies, and supplying the generated constant voltage to the gate of the N-type MOS transistor. . The power supply control device according to claim 1, further comprising a smoothing capacitor connected between the output terminal of the second power source and the ground and for smoothing the power supplied to the output terminal of the second power source. . The method of claim 4, wherein the constant voltage holding means A diode and a zener diode connected in series with an output terminal of any one of the first power supplies; And a resistor connected to the zener diode and the gate of the N-type MOS transistor. remind