KR20030002163A - Circuit for power supply - Google Patents

Abstract

PURPOSE: A power supply circuit is provided to supply a minimum power needed at a wait mode of a microcomputer by adding a power adjustor at a secondary part for changing a load resistance value according to a control of the microcomputer so that it can simplify a circuit arrangement. CONSTITUTION: The circuit comprises a power stabilizer(7), load resistors(R1, R2), and a power adjustor(8). The power stabilizer(7) receives a power from a power controller, and makes the power stable. The load resistors(R1, R2), serially connected, supplies the stable power to the microcomputer(2). The power adjustor(8) lowers the power output via the resistors(R1, R2) according to the control of the microcomputer(2), and supplies the lowered power to the microcomputer(2). The power adjustor(8) includes a resistor(R3), connected parallel with the load resistor(R1), and a PNP bipolar transistor(Q1).

Description

Power supply circuit {CIRCUIT FOR POWER SUPPLY}

The present invention relates to a power supply circuit, and more particularly, to a power supply circuit adapted to reduce power consumption in a standby mode in which the power is cut off.

1 is a conventional power supply circuit diagram, when a user manipulates a power key attached to a system as shown in the drawing, a power operation key input unit 1 for outputting a signal corresponding to the operation; A microcomputer (2) for outputting a control signal for turning on or off the power of the system in accordance with the output signal of the power operation key input unit (1); A photocoupler unit 3 which transmits the output of the microcomputer 2 to an area insulated from the outside; A switching control unit 4 which receives a control signal of the microcomputer 2 through the photocoupler unit 3 and outputs a switching control signal; Under the control of the switching controller 4, the power supplied to the primary side is changed, the power supplied to each region of the system connected to the secondary side is changed, and the power according to the switching result to the microcomputer 2 is changed. It consists of a switching system power supply (5) for supplying.

Hereinafter, the operation of the conventional power supply circuit configured as described above will be described.

First, when a user turns on the system using a key attached to the system, it is detected by the power operation key input unit 1, and the power operation key input unit 1 generates a signal indicating that the system is powered on. To the computer 2.

Then, the microcomputer 2, which has received the signal to turn on the power, outputs a control signal for supplying power to each circuit in the system, and the control signal is output through the photocoupler 3.

Then, the switching controller 4 receiving the control signal of the microcomputer 2 through the photocoupler 3 controls the primary side switch of the switching power supply 5 to supply power to the primary side. The secondary side supplies power to each area of the system. At this time, the secondary power of the switching method power supply unit 5 is also supplied to the microcomputer 2, and the microcomputer 2 that recognizes that the power is supplied ends the standby mode and operates in the normal mode.

Then, in the state where the power is supplied to the system as described above, when the user controls the power off again, the power operation key input unit 1 detects this and indicates that the power of the system is turned off to the microcomputer 2. Inform a signal.

Next, the microcomputer 2 that recognizes that the power is turned off outputs a control signal, recognizes that the power is turned off to the switching controller 4 through the photocoupler 3, and the power is supplied from the switching controller 4. By changing the primary side switch of the supply unit 5, the power supply voltage applied to the inside of the system is cut off through the secondary side, and power is supplied to the microcomputer 2 with reduced power.

The microcomputer 2 then operates in a standby mode.

However, the conventional power supply circuit as described above adopts a method of turning on or off the power supply on the primary side under the control of a microcomputer, so that a circuit for controlling the switch must be added separately. In addition, the remote controller can not be used to restore from the standby mode to the normal mode, there is a problem that the efficiency of use is reduced by only being able to operate by pressing the power key attached to the system.

It is an object of the present invention to provide a power supply circuit that can be converted from a standby mode to a normal mode using a remote controller without using a circuit for a separate switching control.

1 is a block diagram of a conventional power supply circuit.

2 is a block diagram of a power supply circuit of the present invention;

Figure 3 is a block diagram of the secondary side of the power supply in Figure 2;

** Description of symbols for the main parts of the drawing **

1: power control key input unit 2: microcomputer

3: power switch section 4: display section

5: power supply unit 6: power supply unit

7: power stabilization unit 8: power adjustment unit

The above object is a microcomputer for directly controlling a power supply key input unit by a user or controlling on / off of power according to a user's operation command applied through a remote controller; A power switch unit for switching and controlling power applied to a display unit according to a control signal of the microcomputer; A power supply unit which supplies or cuts power to the inside of the system according to the control of the microcomputer, and has a switch for reducing power controlled by the control of the microcomputer on the secondary side to adjust a voltage applied to the microcomputer; ; It is achieved by configuring a power control unit for regulating the voltage applied to the power supply, described in detail with reference to the accompanying drawings, the present invention as follows.

FIG. 2 is a block diagram of the power supply circuit of the present invention, as shown in FIG. 2, by a user directly operating the power operation key input unit 1 or controlling the on / off of power according to a user's operation command applied through a remote controller. A microcomputer 2; A power switch unit (3) for switching and controlling power applied to the display unit (4) according to the control signal of the microcomputer (2); A power supply unit 5 which supplies or cuts power to the inside of the system under the control of the microcomputer 2 and regulates a voltage applied to the microcomputer 2; It is composed of a power control unit 6 for adjusting the voltage applied to the power supply (5).

FIG. 3 is a block diagram of the secondary side of the power supply unit 5 in FIG. 2, and as shown therein, 5,5VA of power of the power control unit 6 is applied to stabilize power. Stabilizer 7; Load resistors R1 and R2 connected in series with each other by receiving stable power from the power stabilizing unit 7 and applying them to the microcomputer 2; And a power adjuster 8 for converting the power output through the load resistor into low power under the control of the microcomputer 2 and applying the applied power to the microcomputer 2. A resistor R3 and a PNP bipolar transistor Q1 are connected in series and connected in parallel to the load resistor R1.

Hereinafter, the operation of the power supply circuit of the present invention configured as described above will be described.

First, when the user turns on the power using a button attached to the remote controller or the system, the microcomputer 2 that recognizes that the power is turned on through the power operation key input unit 1 outputs a control signal corresponding thereto. At this time, the control signal is a high potential signal of about 1 W, and the power switch unit 3, which has received this, supplies power to the display unit 4.

In addition, the power adjusting unit 8 of the power supply unit 5 receiving the high potential control signal causes the PNP bipolar transistor Q1 to be turned off as the control signal is applied at a high potential so as not to affect the circuit.

In this state, the power stabilization unit 7 of the power supply unit 5 that receives 5,5VA of power from the power control unit 6 stabilizes and outputs the power, which is applied to the load resistors R1 and R2. Applied and finally supplying the microcomputer 2 with power of about 5.4VA so that the microcomputer 2 operates in the standby mode from the normal mode.

When the user executes a command to turn off the system by using the power button of the remote controller or the system again, the microcomputer 2 recognizes the command through the power operation key input unit 1 and controls the corresponding low potential. Output the signal.

Then, the power switch unit 3 receiving the low potential control signal cuts off the power applied to the display unit.

In addition, the power adjusting unit 8 of the power supply unit 5 that receives the low potential control signal is turned on, and the PNP bipolar transistor Q1 provided as the control signal is applied at low potential turns on the resistor R3 and the load resistance. By connecting R1 in parallel with each other, the magnitude of the total load resistance is reduced.

Accordingly, the power of the power control unit 6 applied through the power stabilization unit 7 is converted into the minimum operating power of the microcomputer 2 and output.

By adjusting the value of the load resistance (R3) it is possible to easily implement the power of 1W, the minimum power required for the standby mode operation of the microcomputer (2).

The above operation process is shown in the operation flowchart of the power supply circuit of the present invention shown in FIG. That is, when the power is turned off to enter the low power consumption sleep mode and the power key on the device or the remote controller is operated to enter the low power consumption port operation mode, the RAM and the port maintain the previous operation mode. The other devices stop the operation to complete entering the sleep mode.

As described above, the power supply circuit of the present invention adds a power adjuster for changing a load resistance value according to the control of the microcomputer on the secondary side of the power supply, and the minimum required for the standby mode operation of the microcomputer by the addition of a simple circuit. By supplying power, it is possible to simplify the circuit and to use the remote controller as well as the button attached to the system to switch from the standby mode to the normal mode, thereby increasing the use efficiency.

Claims (2)

A microcomputer for directly controlling a power supply key input unit by a user or controlling on / off of power according to a user's operation command authorized through a remote controller; A power switch unit for switching and controlling power applied to a display unit according to a control signal of the microcomputer; A power supply unit which supplies or cuts power to the inside of the system according to the control of the microcomputer, and has a switch for reducing power controlled by the control of the microcomputer on the secondary side to adjust a voltage applied to the microcomputer; ; And a power control unit for adjusting a voltage applied to the power supply unit. The apparatus of claim 1, wherein the power supply unit comprises: a power stabilization unit configured to stabilize the power by receiving power from the power control unit; First and second load resistors connected in series with each other by receiving stable power from the power stabilizing unit and applying them to a microcomputer; A third load resistor having one end connected to one end of the first load resistor; And a bipolar transistor connected to an emitter and a collector at the other end of the third load resistor and the first load resistor, and electrically conductively controlled according to a control signal of a microcomputer applied to the base.