KR19990003704U - Monitor power saving mode circuit - Google Patents

Abstract

The present invention relates to a power saving mode circuit in which a minimum power is used in a power saving mode of a monitor, and 110 V or 220 V power is applied and rectified and smoothed through a rectifying diode D11 and a capacitor C11. The power is supplied to the PWM IC U11 through the resistor R11, and the PWM IC U11 outputs the power switch transistor Q11 to switch, thereby operating the transformer T1 to supply power to each stage. In the power supply circuit for supplying the power supply, the output secondary coil of the transformer T11 is provided with a switching means (Q12) for controlling the supply of voltage to the CRT heater, the switching means for controlling the switching means (Q12) ( Q13) is provided between the switching means Q12 and the microcontroller U12, and also switching means Q14 for controlling the power supply of the video IC power supply terminal 8V and the vertical and horizontal deflection power supply terminal 12V. Q15), the microcontroller (U1) If the vertical and horizontal synchronizing signals are not input to 2), the microcontroller U12 outputs a high signal through the terminal P11, indicating that no power is supplied to the CRT heater, the video IC, the vertical and horizontal deflection circuits. It features.

Description

Monitor power saving mode circuit

The present invention relates to a power saving mode circuit of a monitor, and more particularly, to a power saving mode circuit to use only a minimum power in the power saving mode (OFF MODE) of the monitor.

A conventional case will be described with reference to FIG. 1.

Referring to FIG. 1, the power saving mode circuit of the conventional monitor is supplied with 110V or 220V power, and the rectified and smoothed power through the rectifier diode D1 and the capacitor C1 is connected to the PWM IC U1 through the resistor R1. ) Is supplied to the power supply, and the PWM IC U1 outputs the power switch transistor Q1 to switch, thereby operating the transformer T1 to supply power to each stage.

At this time, the microcontroller U2 is supplied with a voltage of 5V, and if the horizontal and vertical synchronizing signals are not input to the microcontroller U2, the microcontroller U2 outputs a high signal through the terminal P2, and cuts off the circuit 5 in the power saving mode. ), The PWM IC U1 is controlled to turn off the power switch transistor Q1, and the transformer T1 is not operated.

However, since the auxiliary power supply control unit 3 continues to operate, the transformer T2 is activated, and the voltage of 5V is continuously supplied to the microcontroller U2.

However, the power saving mode circuit of the conventional monitor as described above cuts off the power supplied to the horizontal deflection circuit, the vertical deflection circuit, and the video circuit in the power saving mode, and uses two auxiliary power circuits, thereby requiring two transformers. There is a problem that it is difficult to increase the cost and layout on the PCB is added to the parts.

Accordingly, the present invention is to overcome the above-described problems, the object of the present invention is to replace the power supply to the horizontal deflection circuit, the vertical deflection circuit and the video circuit in the power saving mode, instead of abolishing the conventional auxiliary power circuit. In addition to blocking the power supply to the microcontroller by cutting off the power supplied to the CRT heater to provide a power saving mode circuit of the monitor.

As an example of the power saving mode circuit of the monitor for achieving the object of the present invention, 110V or 220V power is applied, the rectified and smoothed power through the rectifying diode and capacitor is supplied to the PWM IC through the resistor, PWM The IC outputs and switches to a power switch transistor, whereby the transformer is operated to supply power to each stage. In the output secondary coil of the transformer, switching means for controlling voltage supply to the CRT heater is provided. And switching means for controlling the switching means is provided between the switching means and the microcontroller, and switching means for controlling the power supply of the video IC power supply stage and the vertical and horizontal deflection power supply stage is provided. If no vertical and horizontal sync signals are input, the microcontroller sends a high The call is output so that no power is supplied to the CRT heater, the video IC, and the vertical and horizontal deflection circuits.

1 is a circuit diagram showing a power saving mode circuit of a conventional monitor

Figure 2 is a circuit diagram showing a mode mode circuit of the monitor according to the present invention

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

C: Capacitor R: Resistor

D: Diode U: IC

T: Transformer

3: Auxiliary power control unit 5: Shutdown circuit in power saving mode

13: 5V regulator 15: 8V regulator

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIG. 2.

Referring to FIG. 2, the power saving mode circuit of the monitor according to the present invention is supplied with 110V or 220V power, and the rectified and smoothed power through the rectifying diode D11 and the capacitor C11 is connected to the PWM IC through the resistor R11. The voltage is supplied to the U11, and the PWM IC U11 is outputted to the power switch transistor Q11 to switch, thereby operating the transformer T1 to supply power to each stage.

The output secondary coil of the transformer T11 is provided with a transistor Q12 for controlling the supply of voltage to the CRT heater, and the transistor Q13 for controlling the transistor Q12 includes the transistor Q12 and the microcontroller U12. It is provided between.

In addition, transistors Q14 and Q15 for controlling the power supply of the video IC power supply terminal 8V and the vertical and horizontal deflection power supply terminal 12V are provided.

The bases of the transistors Q13 and Q15 are connected to the power saving mode control terminal P11 of the microcontroller U12, the emitters of these transistors Q13 and Q15 are grounded, and the collector is connected to the bases of the transistors Q12 and Q14. Connected. The emitters of the transistors Q12 and Q14 are connected to a transformer T11 and the collector is connected to the load.

By the above configuration, the power saving mode circuit of the monitor according to the present invention operates as follows.

When the vertical and horizontal synchronizing signals are input to the microcontroller U12, the microcontroller U12 outputs a low signal through the terminal P11 since the normal mode is in a state. The transistors Q13 and Q15 are then turned off, and the transistors Q12 and Q14 are turned on to supply power to the CRT heater, the video IC, the vertical and horizontal deflection circuits.

On the contrary, if the vertical and horizontal synchronizing signals are not input to the microcontroller U12, the microcontroller U12 outputs a high signal through the terminal P11 because it is in the power saving mode. The transistors Q13 and Q15 are then turned on so that the transistors Q12 and Q14 are turned off, so that power is not supplied to the CRT heater, the video IC, the vertical and horizontal deflection circuits.

As described above, the power saving mode circuit of the monitor according to the present invention blocks the current flowing through the CRT heater voltage (6.3V) as well as the horizontal deflection circuit, the vertical deflection circuit, and the video circuit to enable the power saving mode operation.

The power dissipated in the CRT heater is P = VI = 6.3V × 630mA = 3,969W ≒ 4W. At this time, the heater voltage is 6.3V, the current is 630mA.

What has been described above is just one embodiment for implementing a power saving mode circuit of the monitor according to the present invention, the present invention is not limited to the above embodiment, this invention claimed in the following utility model registration claims Various changes can be made by those skilled in the art without departing from the gist of the present invention.

Claims (2)

110V or 220V power is applied, and the rectified and smoothed power is supplied to the PWM IC U11 through the resistor R11 through the rectifier diode D11 and the capacitor C11, and the PWM IC U11 is powered. In the power supply circuit which outputs to the switch transistor Q11 to switch, thereby operating the transformer T1 to supply power to each end, The output secondary coil of the transformer T11 is provided with switching means Q12 for controlling the supply of voltage to the CRT heater, and switching means Q13 for controlling the switching means Q12 include the switching means Q12 and the microcomputer. It is provided between the controller (U12), In addition, switching means Q14, Q15 for controlling the power supply of the video IC power supply terminal 8V and the vertical and horizontal deflection power supply terminal 12V are provided. When the vertical and horizontal synchronization signals are not input to the microcontroller U12, the microcontroller U12 outputs a high signal through the terminal P11 so that power is not supplied to the CRT heater, the video IC, the vertical and horizontal deflection circuits. The power saving mode circuit of the monitor, characterized in that not. The method of claim 1, The bases of the transistors Q13 and Q15 are connected to the power saving mode control terminal P11 of the microcontroller U12, the emitters of these transistors Q13 and Q15 are grounded, and the collector is connected to the bases of the transistors Q12 and Q14. And an emitter of the transistors (Q12, Q14) connected to a transformer (T11), and a collector connected to a load.