KR0166263B1 - Power circuit in a monitor - Google Patents

Abstract

The present invention relates to a power supply circuit of a monitor, the power supply circuit of the present invention is a power supply circuit for outputting a constant voltage by using a feedback, the first voltage distribution unit (40) for distributing the voltage from the first output terminal on the power supply secondary side )Wow; A first switching unit 42 turned on / off according to the voltage distributed by the first voltage divider 40; A light emitting unit 44 emitting light in proportion to the amount of current; A display power management controller 46 which controls to manage the display power according to the control signal from the microcomputer; A second voltage divider 48 for distributing the output voltage from the second output terminal of the power supply secondary side; A second switching unit 50 turned on / off according to the voltage distributed by the second voltage divider 48; And a microcomputer power supply unit 52 that outputs a voltage for driving the microcomputer when the second switching unit 50 is turned on. The present invention implements a feedback power supply circuit using an inexpensive device such as TL431. In addition to reducing hardware implementation costs, the voltage regulation can be precisely adjusted in display power management mode.

Description

A power circuit in a monitor

1 is a partial circuit diagram of a power supply circuit of a conventional monitor.

2 is a circuit diagram of a power supply circuit of a monitor according to the present invention.

3 is a configuration diagram of a switching unit according to the present invention.

* Explanation of symbols for main parts of the drawings

40: first voltage divider 42: first switching unit

44: light emitting unit 46: display power management control unit

48: second voltage division unit 50: second switching unit

52: microcomputer power supply

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply circuit of a monitor, and more particularly, to a power supply circuit of a monitor so that power necessary for each part of the monitor is constantly supplied by using feedback and unnecessary power is not supplied to the display of the monitor.

In general, the power supply circuit of the monitor plays a role of properly supplying the voltage and current required in each part of the monitor, so when a problem occurs in the power supply circuit, each part of the monitor is abnormally operated at the same time.

If the voltage required by each part of the monitor is not supplied and a voltage higher than the rated voltage is supplied, the parts will be damaged and if the voltage below the rated voltage is supplied, the screen will be reduced and darkened. Not only is it blurred, but the screen is scattered.

In addition, fluctuations in DC voltage rectified in power circuits are mainly caused by load current changes and power supply voltage fluctuations. When the voltage fluctuates, the screen becomes unstable. If the voltage is lowered and the voltage is lowered, the voltage is automatically raised so that a constant voltage is always supplied.

In addition, when high frequency is allowed to pass through a power supply circuit, harmonics of high frequency components generated in a horizontal circuit or the like adversely affect other circuits or are emitted as jammers to the outside, and are also affected by external noise.

On the other hand, if the ripple content ({AC voltage included in DC} * 100 / {DC power supply voltage}) in the power circuit is high, the screen shakes left and right when the ripple component enters the horizontal circuit, and when the ripple component enters the vertical circuit, It will vibrate slowly vertically.

Therefore, the power supply circuit of the monitor must be able to continuously supply a constant voltage and current to each part of the monitor, not only should there be no power fluctuations, no high frequency traffic, and low ripple content.

1 is a partial circuit diagram of a power supply circuit of a conventional monitor, comprising: a rectifying unit 10 for rectifying an applied AC power supply; A power transformer 12 which transfers energy of the primary side to the secondary side; A power transformer driver 14 for driving the power transformer 12; A power supply controller 16 for outputting a voltage for controlling the power transformer driver 14 to supply an electrostatic source; A current sensor unit 18 for sensing a current; A low pass filter 20 for passing a signal corresponding to a low frequency; A light receiving unit 22 which receives the light emission signal from the secondary side and outputs the received signal to a feedback terminal of the power control unit 16; A rectifying smoother 24 for rectifying and smoothing the signal output from the power transformer 12; A voltage determining resistor 26 R21 for determining a voltage; A light emitting portion 28 emitting light according to the amount of current to feed back to the primary side; An error amplifier 30 for adjusting the amount of current flowing through the light emitting unit 28; A display power management unit 32 for controlling the power supplied to the display to prevent power consumption and a microcomputer power supply for outputting a voltage driving the microcomputer when the display power management unit 32 is operated. It consists of a supply part 34.

Here, the light receiving unit 22 and the light emitting unit 28 are formed of a photo couple in which a phototransistor serving as a light receiving unit and a light emitting diode serving as a light emitting unit are integrated.

Referring to FIG. 1, the operation of the power supply circuit of the conventional monitor is described. In the normal mode, since the control signal high output from the microcomputer (not shown) is input to the display power manager 32, the display power manager 32 is used. The first transistor Q1 is turned on and the second transistor Q2 is turned off so that the display power manager 32 does not operate.

In the normal mode, since the error amplifier 30 operates normally, the output of the secondary output terminal is adjusted by feeding back the current i _p flowing through the light emitting unit 28 according to the change in the voltage output from the secondary output terminal. The voltage is kept constant.

That is, when the power supply secondary side output voltage increases, the current i _p flowing to the light emitting unit 28 increases, so that light proportional to the amount of current is emitted from the light emitting unit 28, and the light receiving unit 22 on the primary side When the light is received and applied to the feedback terminal V _FB of the power supply control unit 16, the capacitor is rapidly charged to a capacitor (not shown) of the power supply control unit 16, thereby shortening the on time of the switching transistor in the power transformer driving unit 14. As a result, the energy delivered to the secondary side is reduced, resulting in a decrease in output voltage V _O.

On the other hand, the modes for preventing unnecessary power consumption of the display include a suspend mode and an off mode. In the normal mode, power of 90 to 110 W is required, whereas in the suspend mode, only about 10 W of power is required. In the off mode, only about 5W of power is required. In the suspend mode and the off mode, a low signal is output from the microcomputer (not shown) to operate the display power manager 32.

When a low signal is input from the microcomputer to the display power management unit 32, the first transistor Q1 is turned off, and the second transistor Q2 is turned on. The current flowing to 28 increases rapidly.

Due to the rapid increase in current, the amount of light emitted from the light emitting unit 28 increases and a time corresponding to the output of the light receiving unit 22 on the primary side is charged in the capacitor (not shown) of the power control unit 16. That is, the on-time of the switching transistor constituting the power transformer driver 14 is shortened, so that the amount of energy transferred to the secondary side of the power transformer 12 is reduced, thereby reducing the power supply secondary side output voltage.

In addition, when the display power management unit 32 operates, that is, when the second transistor Q2 is turned on, the third transistor Q3 of the microcomputer power supply unit 34 is also turned on, and the microcomputer through the regulator 34-1. A voltage 5V capable of driving is output.

The error amplifier 30 used in the power supply circuit of the conventional monitor as described above has a problem in that the cost of hardware increases when the circuit is implemented with the high cost of the product.

Accordingly, an object of the present invention is to provide a power supply circuit for a monitor, which is designed to solve the above problems, to perform an error amplifier function using an inexpensive device, and to prevent unnecessary power supply to a display. There is this.

In order to achieve the above object, the power supply circuit of the monitor may include a light receiving unit receiving a light emission signal from a secondary side and outputting a feedback signal to a primary power supply side, and a power control unit controlling an on time of a switching transistor by receiving the feedback signal. In the power supply circuit of the provided monitor,

A first voltage divider for distributing an output voltage from a first output terminal of the power supply secondary side;

A first switching unit turned on / off according to the voltage distributed by the first voltage divider;

A light emitting unit emitting light to transmit a signal proportional to the amount of current to the light receiving unit on the primary side;

A display power management controller configured to control display power according to a control signal from a microcomputer;

A second voltage distribution unit for distributing an output voltage from a second output terminal of the power supply secondary side;

A second switching unit turned on / off according to the voltage distributed by the second voltage divider; And

And a microcomputer power supply unit configured to output a voltage driving the microcomputer when the second switching unit is turned on.

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

2 is a circuit diagram of a power supply circuit of a monitor according to the present invention, in which the power supply circuit receives a light emission signal from a secondary side and outputs a feedback signal to a primary power supply and a switching transistor receiving the feedback signal. A power supply circuit of a monitor having a power supply control unit for controlling the on time of the power supply, the power supply circuit comprising: a first voltage distribution unit (40) for distributing an output voltage from the first output terminal (160V) on the secondary side of the power supply; A first switching unit 42 turned on / off according to the voltage divided by the first voltage divider 40; A light emitting unit 44 which emits light to transmit a signal proportional to the amount of current to the light receiving unit (see FIG. 1) on the primary side during light emission; A display power management controller 46 for controlling display power according to a control signal from a microcomputer (not shown); A second voltage distributor 48 for distributing the output voltage from the second output terminal 80V on the secondary side of the power source; A second switching unit 50 turned on / off according to the voltage distributed by the second voltage divider 48; And a microcomputer power supply unit 52 that outputs a voltage for driving the microcomputer when the second switching unit 50 is turned on.

Here, in the first voltage divider 40, one end of the resistor R21 is connected to the first output terminal on the secondary side of the power supply, the other end of the resistor R21 is connected to one end of the resistor R22, and the other end of the resistor R22. Has a structure connected to ground.

3 is a configuration diagram of a switching unit according to the present invention, the embodiment of the first switching unit 42 may be implemented by TL 431, the first switching unit 42 is the first voltage distribution unit 40 A comparator 42-1 for comparing the divided voltage from the reference voltage with the reference voltage, and a transistor 42-2 for performing on / off operation according to the output of the comparator 42-1.

In addition, the light emitting unit 44 is implemented as a light emitting diode that emits light in proportion to the amount of current.

In the display power management control 46, a control signal from a microcomputer is input to one end of the resistor R31, the other end of the resistor R31 is connected to the base of the transistor Q1 in common with one end of the resistor R32, and the resistor R32 The other end of the and the emitter of the transistor Q1 is connected to ground and the collector of the transistor Q1 has a structure connected to the second voltage divider 48.

The second voltage divider 48 has one end of the resistor R33 connected to the second output terminal 80V on the secondary side of the power supply, the other end of the resistor R33 connected to one end of the resistor R34, and the other end of the resistor R34. The stage has a structure connected to ground.

Referring to FIG. 3, the second switching unit 50 of FIG. 2 includes a comparator 50-1 and a comparator 50-1 comparing the divided voltage from the first voltage divider 48 with a reference voltage. The transistor 50-2 performs an on / off operation according to the output of 1).

The microcomputer power supply 52 has one end of the resistor R42 connected to the second output terminal on the secondary side of the power supply, the other end of the resistor R42 is connected to the emitter of the transistor Q2, and the base of the transistor Q2 R41 is connected to the second switching unit 50, and the collector of the transistor Q2 is connected to the regulator 52-1 that outputs the microcomputer driving voltage.

Next, the operation and the effect of the embodiment of the present invention configured as described above will be described in detail.

Referring to FIG. 2, detailed operations are divided into a normal mode, a suspend mode, and an off mode as follows.

1) Normal mode of monitor operation

In the normal mode in which 90 to 110 W of power is required for the display of the monitor, the control signal high output from the microcomputer (not shown) is input to the display power management controller 46, so that the transistor Q1 of the display power management controller 46 is provided. ) Is turned on, and the a1 point voltage Va1 which is the divided voltage in the second voltage divider 48 drops to zero.

Therefore, when the divided voltage 0V is applied from the second voltage divider 48 to the gate terminal G of the second switch 50, the second switch 50 is turned off to perform display power management. Do not.

In the case of the normal mode, the first switching unit 42 is turned on or off in accordance with the division voltage [Va2 = {R22 / (R21 + R22)} × 160] in the first voltage division unit 40.

If the voltage of the first output terminal is higher than 160V and the first switching unit 42 is turned on, the voltage at the a3 point drops to zero, and the voltage difference from the second output terminal 80V increases to increase the current flowing to the light emitting unit 44. (i _p ) increases rapidly and the current i _p flows toward the first switching unit 42, and light is emitted from the light emitting unit 44 in proportion to the rapidly increased amount of current.

Referring to the power supply primary side illustrated in FIG. 1, the light receiving unit 22 on the primary side receives the light and applies it to the feedback terminal V _FB of the power supply control unit 16. In this case, the on-time of the switching transistor in the power transformer driver 14 is shortened, thereby reducing the energy delivered to the secondary side, thereby reducing the output voltage V _O.

As a result, the voltage 160V output from the first output terminal of the power supply secondary side is constant by adjusting and feeding back the current i _p flowing to the light emitting unit 28 according to the variation of the voltage output from the first output terminal of the power supply secondary side. Is maintained.

2) Suspension mode or off mode to prevent unnecessary power consumption to the display

In suspend mode, only 10W of power is required and in off mode, only 5W of power is required. In suspend or off mode, a low signal is output from a microcomputer (not shown) to manage the power supplied to the display. do.

When the low signal is input from the microcomputer to the display power management controller 46, the transistor Q1 is turned off.

In the suspend mode or the off mode, the voltage at the second output terminal on the secondary side of the power source should be reduced by about 1/8 to about 8V to about 8V. Therefore, the resistances R33 and R34 of the second voltage divider 48 are expressed by the following equation. Decide on

[{R33 / R34) +1} × 2.5V] = 8V

In this case, 2.5V represents the reference voltage V _ref compared with the divided voltage Va1 of the second voltage divider 48 input to the gate terminal of the second switching unit 50.

When the divided voltage Va1 of the second voltage divider 48 is greater than the reference voltage V _ref 2.5V, the second switch 50 is turned on so that the voltage of the cathode terminal of the second switch 50 is zero. As a result, the voltage difference between the second output terminal voltage on the secondary side and the point a4 increases, so that in the suspend or off mode, the current flows through the light emitting unit 44 toward the second switching unit 50.

In addition, when the second switching unit 50 is turned on during display power management, that is, in the suspend or off mode, the transistor Q2 of the microcomputer power supply 52 is turned on and output from the second output terminal on the secondary side of the power supply. After the voltage is lowered by the resistor R42, the voltage 5V for driving the microcomputer is output through the regulator 34-1 of the microcomputer power supply 52.

As described above, according to the present invention, by implementing a feedback power circuit using a low-cost device such as the TL431 instead of a high-cost device such as the SE140N, not only can the hardware implementation cost be reduced, but also the display power management mode. The effect is that the voltage adjustment can be precisely performed.

Claims (7)

A power supply circuit of a monitor comprising a light receiving unit for receiving a light emission signal from a secondary side and outputting a feedback signal on a primary side of a power source, and a power control unit for receiving the feedback signal to control an on time of a switching transistor. A first voltage divider 40 for distributing the output voltage from the first output terminal 160V; A first switching unit 42 turned on / off according to the voltage distributed by the first voltage divider 40; A light emitting unit 44 which emits light to transmit a signal proportional to the amount of current to the light receiving unit on the primary side; A display power management controller 46 which controls to manage the display power according to the control signal from the microcomputer; A second voltage distributor 48 for distributing an output voltage from a second output terminal of the power supply secondary side; A second switching unit 50 turned on / off according to the voltage distributed by the second voltage divider 48; And a microcomputer power supply unit (52) for outputting a voltage for driving the microcomputer when the second switching unit (50) is turned on. 2. The first voltage divider (40) according to claim 1, wherein one end of the resistor (R21) is connected to the first output terminal on the secondary side of the power supply, and the other end of the resistor (R21) is connected to one end of the resistor (R22). A power supply circuit for a monitor, characterized in that the other end of the structure is connected to ground. 2. The apparatus of claim 1, wherein the first switching unit (42) comprises: a comparator (42-1) for comparing the divided voltage from the first voltage division unit (40) with a reference voltage; And a transistor (42-2) for performing an on / off operation according to the output of the comparator (42-1). 2. The display power management unit 46 according to claim 1, wherein the display power management unit 46 inputs a control signal from the microcomputer to one end of the resistor R31, and the other end of the resistor R31 is connected to the base of the transistor Q1 in common with one end of the resistor R32. The other end of the resistor R32 and the emitter of the transistor Q1 are connected to ground and the collector of the transistor Q1 is connected to the second voltage divider 48. . 2. The resistor of claim 1, wherein the second voltage divider 48 has one end connected to the second output terminal on the secondary side of the power supply, the other end of the resistor R33 connected to one end of the resistor R34, and the resistor R34. The other end of the power supply circuit of the monitor, characterized in that the structure connected to the ground. The output of the comparator 50-1 and the comparator 50-1 according to claim 1, wherein the second switching unit 50 compares the divided voltage from the first voltage divider 48 with a reference voltage. Power supply circuit for a monitor, characterized in that consisting of a transistor (50-2) for performing the on / off operation. 2. The microcomputer power supply of claim 1, wherein the microcomputer power supply unit 52 has one end of the resistor R42 connected to the second output terminal on the secondary side of the power supply and the other end of the resistor R42 connected to the emitter of the transistor Q2. Is connected to the second switching unit 50 by a resistor R41, and the collector of the transistor Q2 is connected to the regulator 52-1 which outputs the microcomputer driving voltage. Circuit.