KR930006890B1 - Power source circuit - Google Patents

Abstract

This invention is about the power supply drive circuit to be able to gine system power by one shot pulse without transformer. This comprises power supply means to output a power supply by a bridge diode regulated by a limiting level; generating mean for control signal to make the 1 or 2 control signal block or supply the power supply of electric appliances by inputting one shot pulse from micom; voltage operating means to output a constart voltage control part as the 1 and 2 control signal of the generation means of control signal; and the switching means to switch the power supply of electric appliances as cuirent induced by voltage generated by the voltage drive means.

Description

Power supply circuit by single pulse

1 is a conventional circuit diagram.

2 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

10: power supply unit 100: first control signal generator

110: first voltage driver 200: control signal generator

210: second power drive unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply circuit for applying power to a predetermined system, and more particularly to a power supply circuit capable of applying power to a predetermined system as a one-shot pulse without using a transformer. will be.

In general, a power supply driving circuit for applying power to home appliances such as home automation systems requires a compact circuit while having low power consumption.

Referring to FIG. 1, a conventional power supply driving circuit will be briefly described.

The power supply V input to the primary side N1 of the transformer 1 is a commercial 110 / 220V AC power supply.

The predetermined alternating voltage induced on the secondary sides N2 and N3 of the transformer 1 is full-wave rectified by the first-second bridge diodes BD1 and BD2 and then transferred to the first-second constant voltage units 2 and 4. Each is input.

The first-second constant voltage units 2 and 4 maintain the full-wave rectified voltage at a constant level of stable DC voltage and output the same to the output terminals V1 and V2, respectively.

The capacitors C1 and C2 connected to the first and second bridge diodes BD1 and BD2 are capacitors for removing ripple, and the capacitors C2-C6 connected to the first and second constant voltage units 2 and 4, respectively. Is a capacitor for instantaneous power failure compensation.

On the other hand, the relay RY for applying or cutting off the power supply V to a predetermined home appliance is connected to the output terminal V2. On / off control of the relay RY is controlled by the microcomputer 6 and the transistor Q1. )

That is, when the relay RY is in the OFF state as shown in FIG. 1, when the user enters the input terminal I of the microcomputer 6 of the user's external input for turning on, the microcomputer 6 analyzes the output terminal ( Outputs "high" to D).

Therefore, the output of the microcomputer 6 through the resistor R1 is applied to the base of the transistor Q1 to turn on the transistor Q1. Therefore, a current flows through the coil of the relay RY to drive the relay RY and is supplied to the load resistor RL of the power source V. Here, the load resistance RL represents an internal equivalent resistance of the predetermined household appliance.

In the above-described conventional circuit, it can be seen that the driving voltage is always applied to the relay, which superheats the heat generation of the first and second constant voltage units 2 and 4.

Therefore, in order to prevent the heat generation, the heat sinks (Heat Sink) of the first-second constant voltage units 2 and 4 were provided. However, the heat generation may affect other components, thereby degrading the stability of the circuit. In addition, since the transformer was essentially provided in order to drop the voltage of the power supply, the size of the circuit was large and the loss of power due to the heating of the coil was large.

Accordingly, an object of the present invention is to provide a power supply circuit capable of applying power to a predetermined system as a single pulse without using a transformer in view of the above problems.

Still another object of the present invention is to provide a power supply circuit that can reduce power loss.

It is still another object of the present invention to provide a single pulse power supply driving circuit capable of improving circuit reliability.

According to an aspect of the present invention, a bridge diode, a constant voltage unit, and a microcomputer are provided in a power supply circuit for supplying power input from the outside to a home appliance. Power supply means for outputting the control signal, control signal generating means for inputting a single pulse output from the microcomputer, respectively, to generate first and second control signals for supplying / blocking power of the home appliance; A voltage driving means for outputting the output voltage of the constant voltage portion during each of the single pulses according to the first and second control signals of the signal generating means, and a current according to the voltage of the voltage driving means is induced to It consists of switching means for switching the power supply.

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

2 is a circuit diagram according to a preferred embodiment of the present invention, the power supply unit 10 replaces the conventional transformer is a power supply (V) input from the outside of the 1-2 bridge diode (BD1, BD2) The output is adjusted after being limited to a predetermined level to allow full-wave rectification. The power supply unit 10 corresponds to the power supply means, and is connected to the inductor L1 and the capacitor C1 connected in series and the capacitor C1 to remove the transient voltage / current of the power supply V. And a current limiting resistor R1 for limiting an AC current input to the 1-2 bridge diodes BD1 and BD2.

The power supply unit 10 can be configured with a very compact volume compared to the transformer is very advantageous in terms of the elongation of the part. The 1-2 control signal generators 100 and 200 input single pulses (one shot pulses) output from the output ports P1 and P2 of the microcomputer 6 to supply / block power to the home appliances to be controlled. Generate first and second control signals, respectively. The 1-2 control signal generators 100 and 200 correspond to the control signal generating means, respectively. The 1-2 voltage driver 110 or 210 transmits the output voltage V2 of the constant voltage unit 4 to the set / reset coils LA and LB of the latch relay RY1 according to the 1-2 control signal. Output only during the duration of a single pulse.

The 1-2 voltage driving units 110 and 210 correspond to the voltage driving means, and a base is provided to the first transistor Q1 and the collector of the first transistor Q1 to input the output of the control signal generating means as a base. A second transistor (Q2) connected to the emitter and the output voltage of the constant voltage unit to the emitter, a zener diode (ZDa), a smoothing capacitor (Ca), and a diode (D) connected between the collector and the ground of the second transistor (Q2). Each consists of two parts equally.

The switching means is constituted by the latch relay RY1, which is a latch type relay that stores the immediately preceding operation state, that is, the set / reset state even when the relay driving voltage is not always supplied. The latch relay RY1 is a suitable element capable of sufficiently achieving the object of the present invention.

Hereinafter, an embodiment of the operation of the present invention will be described in detail with reference to the configuration of FIG. 2. First, a state in which the power supply V is not supplied to a controlled household appliance, that is, the latch relay RY1 is opened at the contact point A. FIG. If so, the user presses an external drive-only key to turn on the control object. The microcomputer 6 inputs an external input of the user to the input terminal I and outputs a single pulse to the output terminal P1 for a predetermined time.

Therefore, the porter coupler of the first control signal generator 100 is turned on for a single pulse period. As the first control signal generator 100 is turned on, the output voltage V2 of the constant voltage unit 4 turns on the first transistor Q1 through the resistor R9 of the first voltage driver 110. . Therefore, the second transistor Q2 is turned on and the output voltage V2 is present on the cathode side of the zener diode ZDa. The output voltage V2 induces a current through the set coil LA of the latch relay RY1 to turn the latch relay RY1 into the relay contact A during a time when the second transistor Q2 is turned on. Short circuit to Therefore, since the power source V is applied to the load equivalent resistor RL, the control target is driven.

Therefore, since the voltage is supplied to the latch relay RY1 only during the single pulse period, the loss of power is reduced as well as the problem of heat generation described above is solved. In addition, it is very advantageous in terms of elongation of the component because it is compactly constructed without using a transformer.

On the other hand, when the home appliance is turned off, it operates similarly to the above-described case, in which case a single pulse is output from the output port P2 of the microcomputer 6. Therefore, a second control signal is generated in the second control signal generator 200 to cut off the power of the home appliance, and the output voltage V of the constant voltage unit 4 is reduced by the second voltage driver 210. The reset coil LB of the latch relay RY1 is operated during the single pulse period. Therefore, the contact point A is turned off to cut off the power supply V of the home appliance. Here, it can be seen that the 1-2 control signal is the same, and the second voltage driver 210 is configured in the same manner as the first voltage driver 110.

On the other hand, it is preferable that circuit components separate the ground of the second bridge diodes BD1 and BD2 for protection. In addition, the capacitor C2, which is not described, is used to remove the ripple, the zener diode ZD1 is to maintain the input of the first constant voltage unit 2 constant, and the capacitors C3 and C4 are capacitors for instantaneous power failure compensation. Was used.

While the embodiments have been shown and described in accordance with the present invention, the same is not limited to the above embodiments, and it can be seen that various changes and modifications can be made by those skilled in the art. It is intended that the present invention not be limited to that described and illustrated in detail herein but include all modifications that are covered by the claims.

As described above, the present invention can apply power to a predetermined system as a single pulse without the use of a transformer, so that power saving and heat generation problems can be solved, and thus, an advantageous effect can be obtained in terms of elongation of components.

Claims (5)

A power supply circuit for supplying power input from the outside to a home appliance, comprising a bridge diode, a constant voltage unit, and a miccomm, comprising: power supply means for restricting the power to a predetermined level and outputting the bridge diode; Control signal generating means for respectively generating first and second control signals for supplying / blocking power to the home appliance by inputting a single pulse output from the microcomputer, and first and first of the control signal generating means; A voltage driving means for respectively outputting the output voltage of the constant voltage portion during the period of the single pulse according to a control signal, and a switching means for switching the power of the home appliance by inducing a current according to the voltage of the voltage driving means; Single pulse power supply circuit, characterized in that configured. The method of claim 1, wherein the power supply means is connected to the inductor (L1) and capacitor (C1) and the capacitor (C1) connected in series to remove the transient voltage / current of the power supply (V), -2 pulse power supply circuit comprising a current limiting resistor (R1) for limiting the AC current input to the bridge diode (BD1, BD2). The power supply driving circuit according to claim 1, wherein the control signal generating means comprises a photo coupler. According to claim 1, wherein the voltage driving means is connected to the base of the first transistor (Q1), the collector of the first transistor (Q1) for inputting the output of the control signal generating means as a base and the output voltage of the constant voltage unit The second transistor Q2 connected to the emitter, the zener diode ZDa connected between the collector and the ground of the second transistor Q2, the smoothing capacitor Ca, and the diode D are identically configured. Power supply circuit by a single pulse. 2. A power supply circuit as claimed in claim 1, wherein said switching means comprises a latch relay (RY1).