KR920007131Y1 - Power source circuit - Google Patents

Abstract

No content.

Description

Power supply circuit of electronic equipment

1 is a power circuit diagram according to the prior art.

2 is a power circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

12: power line filter 13: rectification and smoothing circuit

14: decompression circuit 2 21: relay

22: power on / off switch

The present invention relates to a power circuit of electronic products such as color terrevision, videotape recorder or sound equipment, and particularly, generates stand-by power without using a transformer in electronic products employing a microcomputer. The present invention relates to a power supply circuit of an electronic device for generating a main source of electronic products.

In electronic equipment such as color televisions, videotape recorders or sound equipment, a circuit for generating a standby power supply has been constructed as shown in FIG. 1, which connects a separate transformer 2 to the power plug 1, The standby voltage B ⁺ was generated in the standby power supply unit 3 using the obtained voltage, and this power supply B ⁺ was connected to one terminal of the relay coil 4A constituting the relay 4, and the microcomputer The transistor 5 is turned on by the high-state signal generated from (not shown) to operate the relay coil 4A, and accordingly, the relay contact 4B is turned on so that the main power supply 6 is turned on. In this case, a predetermined main power was generated and applied to the electronic device.

However, such a conventional power supply circuit has a problem of increasing the cost of the product because it uses a separate expensive transformer.

Accordingly, the present invention has been devised in view of such circumstances, and generates a standby power required for an electronic device without using an expensive transformer, and an electronic device for generating a main power using the generated standby power. Its purpose is to provide a power supply circuit.

The present invention for achieving the above object is to rectify and smooth the AC power input to generate a first stand-by power having a predetermined level and to reduce the rectifying and smoothing unit and the first stand-by power to a predetermined level Converting the first stand-by power source into a third stand-by power source having a predetermined level by inputting a decompression unit for generating and supplying a second stand-by power source having a control signal and a control signal generated by the mi-com; And a relay unit for supplying main power to the electronic apparatus using the third stand-by power generated by the controller.

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

2 is a power circuit of an electronic device according to the present invention. First, AC power is applied to the power line filter 12 through a power plug, and the line filter 12 removes noise components included in the AC power and outputs the same. The rectified power supply is rectified to a DC voltage in the rectifying and smoothing circuit 13, and then smoothed by a smoothing element therein to have a first stand-by voltage B1 ⁺ having a first level (for example, + 24V). ).

The first stand-by power source B ₁ ⁺ generated as described above is converted into a second stand-by power source B ₂ ⁺ having a predetermined level through the decompression circuit 14, and then the operating voltage of the remote controller IC, that is, the microcomputer (not shown). Or the operating voltage of the light receiving portion of the remote control IC.

Meanwhile, the first stand-by power source B ₁ ⁺ is applied to the emitter of the transistor 15 constituting the control unit and simultaneously applied to the base of the transistor 15 through the resistor 16.

If a high state signal is output from the microcomputer (not shown), the high state bias is applied to the base of the transistor 19 through the resistors 17 and 18, so that the transistor 19 is turned on. As the transistor 19 is turned on, a low bias voltage is formed at the base of the transistor 15 by the resistor 16 and the resistor 20, so that the transistor 15 is also turned on.

Then, the first stand-by power source B ₁ ⁺ is applied to the relay coil 21A of the relay 21 connected to one output terminal of the power line filter 12 through the emitter collector of the transistor 15. At this time, if the power on / off switch 22 is turned on, current flows through the coil 21A, and the relay contact 21B is turned on.

When the relay contact 21B is turned on, the AC signal output from the power line filter 12 is supplied to the electronic power supply to the electronic device through the contact 21B, so that the electronic device can operate normally. This power (B ⁺ ₃₎ are being formed from the third stand-by power supply with a level of about 12V beunba, the power is also supplied to the power required to reach the inside of the electronic apparatus.

If the user turns off the power on / off switch 22 during the normal operation of the electronic device, no current flows in the relay coil 21A, and the relay contact 21B is automatically turned off, so that the main power is supplied to the electronic device. In this case, it can be seen that the third stand-by power source B ₃ ⁺ is not supplied.

The present invention operating as described above not only efficiently generates various standby power required for the electronic device without using a separate transformer, but also uses the generated standby power so that the main body of the electronic device is operated when the power on / off switch is operated. It has a feature that can easily supply power.

Claims (1)

A rectifying and smoothing unit for rectifying and smoothing an input AC power to generate a first stand-by power having a predetermined level; A decompression unit configured to depressurize the first stand-by power source to generate a second stand-by power source having a predetermined level and provide the same to the microcomputer; A control unit for inputting a control signal generated by the microcomputer to convert the first stand-by power source into a third stand-by power source having a predetermined level; And a relay unit for supplying main power to the electronic device by using the third stand-by power generated by the control unit.