KR200152723Y1 - Control circuit for output voltage - Google Patents

Abstract

This invention relates to a voltage output control circuit, and if the computer is not operated for a certain period of time after the voltage is applied to the computer and the monitor, the power supply to the monitor is cut off to protect the life of the monitor and the life of the power supply. It is effective to prevent that. This is available for all power control circuits.

Description

Voltage output control circuit

1 is an exemplary configuration diagram of a conventional voltage output control circuit.

2 is an exemplary configuration of a voltage output control circuit according to the present invention.

* Explanation of symbols for main parts of the drawings

1: AC voltage input jack 3: AC voltage output jack

10: input filter 20: rectification and switching unit

22: pulse width modulation integrated device 30: AC voltage output unit

40: output control unit 50: signal input unit

TR: Triac PT: Photo Triac

PD: Photo Iod Rt: Thermal Resistance

The present invention relates to a voltage output control circuit, and more specifically, a voltage output control circuit that is automatically powered off by a control signal provided by checking it if it is not used for a predetermined time while the power of a device such as a computer is turned on. It is about.

Typically, devices such as computers and monitors that are used separately are powered from a common power supply circuit. This power is not turned off until the user directly takes the power off action.

FIG. 1 is a conventional AC voltage output control circuit, which is connected to an AC voltage capacitor C1, a capacitor C2, an inductor L1, and an inductor L2 applied through an AC voltage input jack 1. The smoothed output voltage is applied to the switch SW.

The switch SW is to be switched by the user. When the user turns on the switch SW, the AC voltage applied to one side is rectified by the bridge diode BD and smoothed by the capacitor C4, and then the smoothed voltage is integrated into the pulse width modulation integrated device 22. According to the operation of the transistor (Q1) is switched by the transformer T is applied to the rear stage, rectified and smoothed and output as a DC voltage.

Meanwhile, in order to output the input AC voltage to another device (specifically, a monitor powered by the main power supply of the computer, for example), the voltage output from the switch SW is applied to the AC power output jack.

In this conventional configuration, since the output of the DC voltage and the AC voltage are simultaneously controlled in accordance with the operation of the switch SW, only a specific desired output cannot be selectively output.

Thus, in the case of a computer, the monitor's power is generally provided from the main power supply circuit. In this case, if the computer is not turned on and the computer is not in operation, it is always kept on. To prevent this, I had to turn off the switch that was configured on the monitor.

If the computer is left unused for a long time like this, since the terminal is turned on for a long time, the power consumption increases and affects the life of the monitor tube. In addition, harmful electromagnetic waves are radiated from the monitor by the time they are turned on. After all, in order to prevent them, the monitor had to be turned off after a certain time.

The present invention is to solve the above problems, the object of the present invention is to automatically turn off the monitor when the computer is not used for a certain period of time to extend the life of the monitor and reduce the power consumption control circuit In providing.

A feature of the present invention for achieving the above object is that the switching input voltage by the user is output as an induced voltage through a transformer to operate the main system and at the same time the switching input voltage to the subsystem coupled to the system A voltage output control circuit for outputting a voltage microcontroller, comprising: a microprocessor for detecting an operation state of the messenger system, determining whether the system is in a stop state for a predetermined time, and outputting a detection signal of a logic state corresponding thereto; A control signal generation means connected to a secondary side and receiving a Kimji signal output from the microprocessor and generating a feedback signal to the primary side of the transformer in response to a logic state; and a feedback signal generated by the control signal generation means. Flows into the primary side of the transformer in response to Is to control the voltage path opening and closing means for blocking the conduction or the power.

Hereinafter, a preferred embodiment of the voltage output control circuit according to the present invention will be described in detail with reference to the drawings.

2 is another embodiment of the present invention, the AC filter is generally input and smoothed after the input filter unit 10 is switched and output, and the rectified to induce switching to the smoothed and applied voltage applied to the rear stage and The switching unit 20, the AC voltage output unit 30 for outputting the AC voltage switched by the input filter unit 10, the output control unit 40 for controlling the output of the AC voltage output unit 30 and not shown The signal input unit 50 receives a control signal from a microcomputer.

Therefore, when the input voltage is applied, it is smoothed and filtered and applied to the switch SW. The switch SW is switched by a user's operation. As the switch SW is turned on or off, an AC voltage is applied to the rectification and switching unit 20, and an AC voltage is also applied to the AC voltage output unit 30.

The AC voltage applied to the rectifying and switching unit 20 is rectified by the bridge diode BD and smoothed by the capacitor C4, and then applied to the primary side of the transformer T according to the operation of the transistor Q1. It is directed to the secondary side. Accordingly, the induced voltage induced on the secondary side of the transformer T is re-rectified through the diode D1, re-smoothed by the capacitor C5, and output to the output voltage Vout.

In addition, according to the switching of the switch SW, the AC voltage output to the AC voltage output unit 30 is controlled through the AC voltage output jack 3. This output AC voltage is applied to the operating voltage of the monitor, and the output is cut off when the computer is inactive for a certain period of time.

This operation is caused by a control signal output from a microcomputer (not shown), and the microcomputer always checks an operation state to check commands and interrupts during operation. And the microcomputer is operated by the basic pulse wave, so the time check function is included.

Accordingly, when the microcomputer checks the operation state and there is an operation for a time set by the manufacturer, the microcomputer outputs a low signal to the transistor Q3 of the signal input unit 50, and a high signal when there is no operation. Outputs

First, if the computer continues to operate, the AC voltage must be applied to the monitor. Therefore, the control signal is output at the low level from the microcomputer, so that the transistor Q3 of the signal input unit 50 is turned off by the base voltage level and the output voltage is reduced. A partial voltage is applied to the base of the transistor Q2 by the resistor R6 and the resistor R8.

Accordingly, as the base potential becomes high, the transistor Q2 is turned on, and accordingly, the divided output voltage is applied to the photodiode PD to output energy. This output energy is applied to the gate of the photo triac PT so that the photo triac PT is turned on.

According to the above-described turn-on operation of the photo triac PT, the gate terminal of the triac TR receives a divided voltage by the third resistor R3 and the fourth resistor R4. A potential difference occurs between the gate and the anode of TR) and becomes conductive. Therefore, the AC voltage switched by the switch SW is output through the AC voltage output jack.

However, if the computer does not operate for a predetermined time, the transistor Q3 is turned on and the output voltage is discharged to ground as a high signal from the microcomputer is applied to the base of the transistor Q3. Thus, the base potential of transistor Q2 is turned off as low and no energy is output from photodiode PD.

Therefore, the photo triac PT is not turned on so that the gate potential and the anode potential are the same, so that the triac TR is not turned on. Therefore, the AC voltage switched by the switch SW is not output.

As described above, according to the voltage output control circuit according to the present invention, if the computer does not operate for a certain period of time, the AC voltage output to the monitor is cut off, the life of the water pipe can be protected as the monitor is turned off, unnecessary power It is effective to reduce consumption.

In addition, it is recognized that harmful electromagnetic waves emitted from the monitor is harmful to the human body, if the computer does not operate for a certain time there is an effect that can prevent the radiation of the harmful electromagnetic waves as much as the monitor is turned off.

Claims (3)

A voltage output control circuit for outputting the switching input voltage to a sub-system coupled to the system at the same time operating the main system by outputting the induced voltage through the transformer after the switching input voltage is rectified by the user, A microprocessor that detects an operating state of the main system and determines whether the main system is in a stopped state for a predetermined time and outputs a detection signal of a logic state corresponding thereto; Control signal generation means connected to the secondary side of the transformer and receiving a detection signal output from the microprocessor to generate a feedback signal to the primary side of the transformer in response to a logic state; And a voltage path opening and closing means for interrupting or conducting power flowing into the primary side of the transformer in response to a feedback signal generated by the control signal generating means. The third transistor of claim 1, wherein the generating means generates a control signal to the base terminal and receives the output voltage of the transformer to the collector terminal through the first resistor R6. (Q3); A second resistor R8 and a third resistor R7 connected between the collector terminal and the ground terminal of the third transistor Q3; When the turn-on operation of the third transistor Q3 is turned off, and when the turn-off operation of the third transistor Q3 is turned off, the voltage divided by the second resistor R8 and the third resistor R7 is applied. A second transistor Q2 which is turned on; And a grape diode (PD) emitting light only during the turn-on operation of the second transistor (Q2). According to claim 1 or 2, wherein the voltage path opening and closing means comprising: a photo triac is turned on during the light emitting operation of the photodiode (PD); A triac connected to an anode terminal and a cathode terminal connected to a ground terminal and a voltage input terminal of the transformer and operated on by a voltage difference between the gate terminal and the anode terminal; A fourth resistor (R3) and a fifth resistor (R3) connected to an anode terminal and a cathode terminal of the photo triac and applying a divided voltage to the gate terminal of the triac during the turn-on operation of the photo triac. Voltage output control circuit.