KR20050054692A - Swap back-up circuit of personal digital assistant - Google Patents

Abstract

The present invention relates to a swap backup circuit of a personal portable terminal that can be switched to the backup power when the battery is disconnected from the terminal to replace the main power battery to reduce the unnecessary power consumed in the backup power. A main power switch that is turned on / off by an input switching control signal and supplies main power to the terminal when it is on, and a backup that supplies backup power to the terminal when it is turned on / off by an externally input switching control signal. By including a switch and a power switching control unit for comparing the voltage difference between the main power supply and the backup power and outputs different switching control signals to the main power switch and the backup switch, it is possible to reduce the current consumption of the backup power, This can reduce the battery size of the backup power supply.

Description

SWAP BACK-UP CIRCUIT OF PERSONAL DIGITAL ASSISTANT}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a swap backup circuit of a personal portable terminal, and in particular, when the battery is separated from the terminal to replace the main power battery, switching to the backup power is made so that an individual can reduce unnecessary power consumption in the backup power. It relates to a swap backup circuit of a mobile terminal.

In general, a personal digital assistant (PDA) stores most of user data in a DRAM. When replacing the battery of PDA, the system powers down, so the user must save the data safely before changing the battery.

In order to eliminate the inconvenience of having to save their data when the user changes the battery of the PDA, the data of the user is preserved by preserving the contents of the DRAM by using the backup power provided separately instead of the battery power during the conventional battery swap. You can change the battery without having to save it yourself.

A small amount of coin battery is used as the backup power source. In order to use the backup power source, the system needs to be switched to a suspend mode (a mode in which the terminal is driven with minimum power) before replacing the battery.

Configuring an eject switch on the terminal to put the system in suspend mode, and entering the eject switch before removing the battery from the terminal, causes the system to enter suspend mode and backup power to the system instead of the mains. Supplied. The eject switch is a switch for fixing the main power battery to the terminal and is automatically input when the battery is separated from the terminal.

1 shows a configuration (a) and a timing diagram (b) according to the swap backup circuit of a conventional PDA. As shown, the power supply is switched from the main power supply to the backup power supply by the signal output from the eject switch, and the system is switched to the suspend mode.

The operation of the conventional swap backup circuit will be briefly described as follows.

When the eject switch is input to replace the battery of the main power supply, the main power switch 1 which controls the output of the main power is turned off by the signal output from the eject switch, and the output of the backup power supply which is the coin battery is controlled. The backup switch 2 is turned on to supply backup power to the system.

Switching from the main power supply to the backup power supply, after a certain time, the system enters suspend mode. When the main power battery is replaced and the eject switch is input again, the backup switch 2 is turned off by the signal output from the eject switch, and the main power switch 1 is turned on to supply the main power to the system. After a predetermined time elapses after the eject switch is input, the suspend mode is released to operate the system in the normal mode.

However, since the conventional swap backup circuit is switched from the main power switch to the backup switch before the system enters the suspend mode, a large amount of current is instantaneously consumed in the backup power supply.

As described above, the swap backup circuit of the conventional PDA has a problem in that a large amount of current is consumed because the backup power is switched from the main power supply to the backup power supply before the system is switched to the suspend mode by the input of the eject switch.

Accordingly, the present invention in consideration of such a problem is provided with a power switching control unit for detecting whether the main power battery is attached or detached to switch between the main power supply and the backup power supply, so that the power supply is switched after the system is switched to the suspend mode. It is an object of the present invention to provide a swap backup circuit of a personal portable terminal, which can reduce the current consumption of the battery and thereby reduce the battery size of the backup power supply.

The present invention for achieving the above object is a main power switch that is turned on / off by a switching control signal input from the outside, and supplies the main power to the terminal when turned on; A backup switch which is turned on / off by an externally input switching control signal and supplies a backup power to the terminal when the switching control signal is turned on; And a power switching controller for comparing the voltage difference between the main power supply and the backup power and outputting different switching control signals to the main power switch and the backup switch.

In addition, the power switching control unit outputs an on switching control signal to the main power switch when the voltage of the main power supply is greater than the voltage of the backup power supply, and outputs an off switching control signal to the backup switch, the voltage of the main power supply than the voltage of the backup power supply. If it is small, it is characterized in that the off switching control signal is output to the main power switch, and the on switching control signal is output to the backup switch.

Referring to the accompanying drawings, a preferred embodiment of a swap backup circuit of the present invention personal portable terminal having the above characteristics will be described below.

Fig. 2 shows a configuration (a) and timing diagram (b) of the swap backup circuit of the personal portable terminal of the present invention. As shown, it comprises a power switching control unit 3 for detecting the voltage difference between the main power supply and the backup power supply to control the switching of the main power switch 1 and the backup switch (2).

The power switching control unit 3 turns on the main power switch 1 by outputting a low (L) signal when the voltage of the main power is higher than that of the backup power, that is, when the main power battery is attached to the terminal. The backup switch 2 is turned off to operate the terminal through the main power source.

On the other hand, if the battery is disconnected from the terminal to replace the main power battery, that is, if the voltage of the main power is less than the voltage of the backup power, the power switching control unit 3 outputs a high (H) signal to the main power switch ( 1) is turned off and the backup switch 2 is turned on to operate the terminal through the backup power supply. At this time, since the backup power is applied after the system is switched to the suspend mode as shown in FIG. 2B, the current consumed by the backup power is reduced.

The operation of the present invention having such a configuration will now be described with reference to a timing diagram.

First, when the user operates (input) an eject switch (not shown) configured in the PDA to replace the removable battery, which is the main power supply of the PDA, the system switches to suspend mode.

Since the main power battery is not disconnected from the terminal even when the system enters the suspend mode, the power switching control unit 3 outputs a low signal by comparing the voltage of the main power supply with the voltage of the backup power supply, and thus the main power switch ( 1) is turned on and the terminal is operated by the main power source.

In this state, i.e., when the system is in suspend mode and the terminal is operated by main power, and the main power battery is removed from the terminal to replace the main power battery, the power switching control unit 3 By comparing the voltage between the voltage and the backup power supply, it detects that the main battery is disconnected and outputs a high signal. The main power switch 1 is turned off by the high signal, the backup switch 2 is turned on, and backup power is applied to the terminal.

More specifically compared with the prior art, in the prior art, the switching from the main power supply to the backup power supply is made simultaneously with the input of the eject switch, and after a predetermined time, the system is switched to the suspend mode. Later, when the system enters suspend mode and actually switches from mains to backups when the mains battery is disconnected from the terminal, the power consumed by the backups can be reduced.

When the system is in the suspend mode and the main power battery that is replaced while the terminal is being operated by the backup power is inserted into the terminal, the power switching control unit 3 detects that the voltage of the main power is greater than the voltage of the backup power and generates a low signal. The backup switch 2 is turned off by the low signal, and the main power switch 1 is turned on to operate the terminal with the battery of the main power source inserted and inserted into the terminal.

After switching from the backup power source to the main power source, an eject switch is input to switch the system from the suspend mode to the normal mode.

As described in detail above, the present invention includes a power switching control unit which detects whether the main power battery is attached or detached and performs switching of the main power supply and the backup power supply, so that power switching is performed after the system is switched to the suspend mode. Current consumption can be reduced, thereby reducing the battery size of the backup power supply.

1 is a configuration (a) and timing diagram (b) of a swap backup circuit of a conventional personal portable terminal.

2 is a configuration (a) and timing diagram (b) of the swap backup circuit of the personal portable terminal of the present invention;

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

1: Main power switch 2: Backup switch

3: power switching control unit

Claims (3)

A main power switch that is turned on / off by an externally input switching control signal and supplies a main power to the terminal when the switching control signal is turned on; A backup switch which is turned on / off by an externally input switching control signal and supplies a backup power to the terminal when the switching control signal is turned on; And a power switching controller which compares the voltage difference between the main power supply and the backup power and outputs different switching control signals to the main power switch and the backup switch. The method of claim 1, wherein the power switching control unit outputs an on switching control signal to the main power switch when the voltage of the main power supply is greater than the voltage of the backup power supply, outputs an off switching control signal to the backup switch and backs up the voltage of the main power supply. And an off switching control signal is output to the main power switch, and an on switching control signal is output to a backup switch when the voltage is smaller than the power supply voltage. The swap backup circuit of claim 1, wherein the backup switch is turned on after the system is switched to the suspend mode to supply backup power to the terminal.