KR20120041407A - Apparatus for controlling power - Google Patents

Abstract

PURPOSE: A power control apparatus is provided to prevent unnecessary power consumption without supplying operation power to a microcomputer while using a slide switch. CONSTITUTION: A PMIC(Power Management Integrated Circuit)(200) generates a power control signal and operation power according to a power hold signal. A microcomputer(210) turns on/off a terminal device according to the power control signal. If the terminal device is turned on, the microcomputer generates the power hold signal. A load switch(230) supplies operation power to the microcomputer. A power switch commands power-on/off to the microcomputer according to the operation of the user.

Description

Power control device {Apparatus for controlling power}

The present invention relates to a power control device for controlling the power of the terminal device.

More specifically, the present invention relates to a power control device for controlling power supply in a terminal device using a slide switch as a power switch such as an e-book device and a portable multimedia player (PMP). The present invention relates to a power control device for avoiding power.

In general, terminal devices such as an e-book device and a portable multimedia player (PMP) generally use a slide switch as a power switch. The slide switch is slid in accordance with the user's operation, and the contact is connected, and then the contact is opened and the contact is opened.

In addition, the terminal devices are equipped with a PMIC (Power Management Integrated Circuit) to efficiently use the power charged in the battery.

When the terminal device is connected to a contact by operating a slide switch while the power is turned off, the microcomputer determines the connection of the contact point of the slide switch and controls the PMIC to turn on the power of the terminal device. I'm in control.

That is, when the terminal device is powered off, the microcomputer should be able to determine the operation state of the slide switch and control the operation of the PMIC.

Therefore, when the terminal device is powered off, the microcomputer does not completely shut off the operating power, but operates in a standby mode while continuously supplying the operating power.

However, even when the microcomputer is operated in the standby mode, power is continuously consumed, and a lot of power is not required as time passes.

Therefore, a problem to be solved by the present invention is to provide a power control device that completely cuts off the power supplied to the microcomputer when the terminal device is powered off so that power is not consumed without need.

In another aspect, the present invention provides a power control device that can immediately turn on the power of the terminal device when the user commands the power-on by operating the slide switch in the power off state of the terminal device.

Problems to be solved by the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned above may be clearly understood by those skilled in the art to which the present invention pertains. will be.

The power control apparatus of the present invention generates a power control signal and operating power, and operates a PMIC (Power Management Integrated Circuit) for supplying operating power to the entire terminal apparatus according to the power hold signal, and operates with the operating power. A microcomputer which controls the power of the terminal device to be turned on or off according to a power control signal, and generates the power hold signal to be applied to the PMIC when the terminal device is powered on; and the operating power is supplied to the microcomputer. A load switch to supply, a power switch passing the power control signal according to a user's operation and instructing the microcomputer to turn on and off, and the load switch according to the power control signal passing through the power switch. And a first diode connected to supply the operating power to the microcomputer.

The power control device of the present invention also includes a second diode that connects the load switch when the microcomputer generates the power hold signal to supply the operating power to the microcomputer.

The power switch is a slide switch in which a contact is connected and then returned to its original state according to a user's operation to open the contact.

According to the power control apparatus of the present invention, when the power of the terminal apparatus is turned off, the microcomputer is not operated in the standby mode, and the operating power is cut off.

Therefore, when using the slide switch to turn off the power, it is not necessary to supply the operating power to the microcomputer, thereby preventing unnecessary power consumption.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings, which do not limit the present invention, and like reference numerals designate like elements in some drawings.
1 is a circuit diagram showing the configuration of a general power control device, and
2 is a circuit diagram showing the configuration of a preferred embodiment of the power control device of the present invention.

The following detailed description is only illustrative, and merely illustrates embodiments of the present invention. In addition, the principles and concepts of the present invention are provided for the purpose of explanation and most useful.

Accordingly, various forms that can be implemented by those of ordinary skill in the art, as well as not intended to provide a detailed structure beyond the basic understanding of the present invention through the drawings.

1 is a circuit diagram showing the configuration of a general power control device. Here, reference numeral 100 denotes a power management integrated circuit (PMIC). The PMIC 100 generates a power control signal VD and an operating power Vcc, and supplies power to the entire terminal device according to the power hold signal PWRH to turn on the power.

Reference numeral 110 is a slide switch. The slide switch 110 commands power on and power off and passes the power control signal VD while the contact is connected according to a user's operation.

Code 120 is a microcomputer. The microcomputer 120 operates with operating power Vcc and controls the power on and off according to the power control signal VD output by the slide switch 110. In addition, when the power is turned on, the microcomputer 120 generates the power hold signal PWRH and outputs the power hold signal PWRH to the PMIC 100.

In the power control apparatus having such a configuration, the PMIC 100 generates the power control signal VD and the operating power Vcc, and the generated operating power Vcc is applied to the microcomputer 120.

Here, the microcomputer 120 is operated by the operating power (Vcc) supplied by the PMIC 100. When the power of the terminal device is off, the microcomputer 120 operates in a standby state and powers up. Minimize the consumption of

In this state, when the user turns on the power of the terminal device, the slide switch 110 is operated to connect the contacts for a predetermined time.

When the contact point of the slide switch 110 is connected, the power control signal VD generated by the PMIC 100 is applied to the microcomputer 120 through the slide switch 110.

Then, the microcomputer 120 determines the power on and generates a power hold signal PWRH.

The power hold signal PWRH generated by the microcomputer 120 is applied to the PMIC 100.

Then, the PMIC 100 supplies the operating power to the entire terminal device to turn on the power of the terminal device.

In this state, when the user connects the contact of the slide switch 110 for a predetermined time to turn off the power of the terminal device, the power control that the PMIC 100 generates during the time that the contact is connected The signal VD is applied to the microcomputer 120 through the slide switch 110.

Then, the microcomputer 120 determines the power off and does not generate the power hold signal PWRH.

When the microcomputer 120 does not generate the power hold signal PWRH, the power is turned off by blocking the operation power supplied by the PMIC 100 to the terminal device.

In the general power control apparatus, when the power of the terminal apparatus is turned off, the microcomputer 120 must determine whether the power control signal VD is input.

Therefore, even when the power is off, the PMIC 100 should supply the operating power (Vcc) so that the microcomputer 120 operates in the standby state, which consumes a lot of power without the need of the terminal device being turned off. do.

2 is a circuit diagram showing the configuration of a preferred embodiment of the power control device of the present invention. Here, reference numeral 200 denotes a power management integrated circuit (PMIC). The PMIC 200 generates a power control signal VD and an operating power Vcc, and when the power hold signal PWRH is input, supplies the operating power to the entire terminal device so that the power is turned on.

Code 210 is a microcomputer. The microcomputer 210 operates at the operating power Vcc, controls the power of the terminal device to be turned on or off according to the power control signal VD, and the power hold signal when the terminal device is powered on. PWRH) to be applied to the PMIC 200.

Reference numeral 220 is a slide switch. The slide switch 220 is connected to the microcomputer 210 through the power control signal (VD) while the contact is connected according to the user's operation.

Reference numeral 230 denotes a load switch. The load switch 230 supplies the operating power Vcc to the microcomputer 210.

Reference numeral 240 denotes a first diode. The first diode 240 applies the power control signal VD that the slide switch 220 passes to the load switch 230 so that the contact is connected.

Reference numeral 250 is a second diode. The second diode 250 applies the power hold signal PWRH to the load switch 230 so that the contact is connected.

In the power control apparatus of the present invention configured as described above, the PMIC 200 continuously generates the power control signal VD and the operating power Vcc regardless of the power on state and the power off state of the terminal device.

At this time, the slide switch 220 does not pass the power control signal (VD) generated by the PMIC 200 in the off state, and the operation of the PMIC 200 is generated when the load switch 230 is in the off state. Since the power Vcc is not passed through, power consumption does not occur.

When the terminal device is powered on in such a state, the user operates the slide switch 220 to connect the contact point for a predetermined time or more, for example, 1-2 seconds.

When the contact point of the slide switch 220 is connected, the power control signal VD is input to the microcomputer 210 through the slide switch 220 and the power control signal passing through the slide switch 220 ( VD) is applied to the control terminal of the load switch 230 through the first diode 240.

Then, since the operating power Vcc supplied by the PMIC 200 is supplied to the microcomputer 210 through the load switch 230, the microcomputer 210 operates normally while the slide switch 220 operates. The power hold signal PWRH is generated in accordance with the output power control signal VD.

The power hold signal PWRH generated by the microcomputer 210 is applied to the PMIC 200 and to the control terminal of the load switch 230 through the second diode 250.

Then, the load switch 230 is continuously connected by the power hold signal (PWRH) to supply the operating power (Vcc) to the microcomputer 210, the PMIC (200) is the power hold signal (PWRH) The power of the terminal device is turned on by supplying operating power to the entire terminal device.

In this way, when the power is turned off while the terminal device is turned on, the user operates the slide switch 220 for a predetermined time to connect the contacts.

Then, the power control signal VD output from the PMIC 200 is applied to the microcomputer 210 through the slide switch 220.

Then, the microcomputer 210 determines the power off and does not output the power hold signal PWRH.

If the microcomputer 210 does not output the power hold signal PWRH, the PMIC 200 does not supply the operating power to the entire terminal device, and the power of the terminal device is turned off.

In this state, when the slide switch 220 is returned to its original state and the contact is opened, the contact of the load switch 230 is cut off, and the operating power Vcc is not supplied to the microcomputer 210.

The present invention has been described in detail with reference to exemplary embodiments, but those skilled in the art to which the present invention pertains can make various modifications without departing from the scope of the present invention. I will understand.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by equivalents to the appended claims, as well as the appended claims.

100, 200: PMIC 110, 220: slide switch
120, 210: microcomputer 230: load switch
240: first diode 250: second diode
VD: Power Control Signal Vcc: Operation Power
PWRH: Power Hold Signal

Claims (3)

A power management integrated circuit (PMIC) for generating a power control signal and an operating power and supplying operating power to the entire terminal device according to the power hold signal;
A microcomputer operating with the operating power, controlling the power of the terminal apparatus to be turned on or off according to the power control signal, and generating the power hold signal to be applied to the PMIC when the terminal apparatus is powered on;
A load switch for supplying the operating power to the microcomputer;
A power switch which passes the power control signal according to a user's operation and instructs the microcomputer to power on and power off; And
And a first diode connected to the load switch in accordance with the power control signal passing through the power switch to supply the operating power to the microcomputer.
The method of claim 1,
And a second diode which connects the load switch to supply the operating power to the microcomputer when the microcomputer generates the power hold signal.
The method of claim 1, wherein the power switch;
And a slide switch in which the contact is connected according to a user's operation and then returned to its original position to open the contact.

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