KR101132521B1 - A power supply control apparatus and method of mobile system - Google Patents

Abstract

The present invention relates to a power supply control apparatus and method for a portable device that can control the system power supply using a low power power supply. The present invention is characterized by controlling the power supply path of the power supply to enable the system power operation using a low power power supply. In an embodiment of the present invention, the maximum output of the power supply is configured to be within the allowable range of the maximum charging current of the charger. Therefore, the present invention has a path for outputting the power supply directly to the system, and a path for outputting the power supply to the charger and supplying the system power with the charging current, and in the case of the former, charging of the battery. The latter case is configured to be used when the battery is fully charged, and the latter case is configured to be used when battery charging and system operation are performed at the same time. In addition, the present invention includes a configuration for monitoring the charging current of the battery, and configured to allow the path control according to the charging current of the battery.

Mobile device, battery, power, charger

Description

A power supply control apparatus and method of mobile system             

1 is a block diagram of a power supply control apparatus for a portable device according to the prior art;

2 is a block diagram of a power supply control apparatus for a portable device according to the present invention;

Explanation of symbols on the main parts of the drawings

101: power supply 103: charger

105,115: switch 107: battery

109: DC / DC converter 111: system power supply

113: micom

The present invention relates to a power supply control apparatus and method for a portable device, and more particularly, to a power supply control apparatus and method for a portable device that can control the system power supply using a low power power supply.                         

Portable electronic devices, such as PDAs, cell phones, MP3s, etc., are generally powered by batteries to provide the power needed by the system. Of course, an adapter is provided to charge the battery, and the adapter may receive power required by the system. However, most of the portable devices as described above, because the mobile is often used and portable, most of the use state is powered from the battery.

Next, a power supply control apparatus for a portable device according to the prior art will be described with reference to FIG. 1.

Conventional portable devices are configured to receive system operating power from a power supply (1) that inputs an external power source, converts it into a rated voltage usable for the system, and at the same time receives a charging current of the battery (7). To this end, the power supply control apparatus of the conventional portable device connects the output terminal of the power supply 1 to the DC / DC converter 9 of the system power supply 11 and also to the charger 3.

Accordingly, the DC / DC converter 11 receives the power output from the power supply 1 and generates DC voltages of various sizes to be provided to the electronic elements of the system.

In addition, the charger 3 receives the power output from the power supply 1 and charges the power of the battery 7.

In this way, the DC / DC converter 11 and the charger 3 provide the power required by the system and simultaneously charge the battery.

On the other hand, when the power supply 1 is not connected to the system, the battery 7 power is supplied to the DC / DC converter 9 to control to generate the DC voltage required by the system. At this time, the power supply path is formed so that the power of the battery 7 is supplied to the DC / DC converter 9 while the switch 5 is ON.

However, the power supply control apparatus of the conventional portable device having the above configuration has the following problems.

The power supply 1 should be able to supply the output of the DC / DC converter 9 plus the maximum output of the charger 3. That is, the conventional power supply control device of the portable device, the power supply (1) to the charger (3) in the state that the output power of the power supply (1) is provided to the DC / DC converter (9) for generating system use power This is because an output power supply of) is provided.

Therefore, the charging control of the charger 3 is continuously performed even when the operating current of the system reaches the maximum value, and in this case, the output power of the power supply 1 is maintained even when the charging current of the charger 3 also becomes the maximum value. This is because you must be able to afford it. Because of this problem, the power supply used in the power supply control device of the conventional portable device has to have a very large capacity, and the volume and manufacturing cost of the power supply are also increased in proportion.

Accordingly, an object of the present invention is to provide a power supply control apparatus and method of a portable device that can control the system power using a low power power supply.

Power supply control apparatus for a portable device according to the present invention for achieving the above object, the battery; A power supply means connected between an external power source and the system to generate a system rated output; Charging means for inputting an output of the power supply means and controlling charging of the battery; A first path for controlling the output of the power supply means to directly supply power to the system; A second path through which the output of the power supply means is supplied only to the charging means and supplies the system power with the charging current of the charging means; And control means for sensing the charging current of the battery and selecting the first path or the second path for supplying power to the system.

In another embodiment of the present invention, a power supply control apparatus for a portable device includes a battery; Power supply means for inputting an external power source and generating a system rated output; Charging means for inputting an output of the power supply means and controlling charging of the battery; A DC / DC converter for generating DC voltages of various sizes required by the system; A first switch for opening and closing a power supply path between the power supply means and the DC / DC converter; A second switch for opening and closing a power supply path between the charging means and the DC / DC converter; And control means for sensing the charging current of the battery and selectively opening and closing the second switch or the first switch.

The power supply means is characterized in that for generating an output within the maximum charging current range of the charging means.                     

The control means is characterized by using a microcomputer.

The first path may be operated when the charging current of the battery detected by the microcomputer is less than or equal to a predetermined value.

The second path may be operated when the battery needs to be charged.

The second path may be operated as a discharge path of a battery when the power supply is not connected to the system.

In the power supply control method for a portable device according to the present invention, when a power supply generating a system rated output is connected to the system, and the charging current of the battery is higher than a predetermined value, the output of the power supply is supplied only to the charger. A first step of supplying system power with a charging current of the charger; A second process of directly supplying the power supply output to the system when a power supply generating a system rated output is connected to the system and the charging current of the battery is lower than a predetermined value; And a third process of supplying the discharge power of the battery to the system power when the power supply generating the system rated power is not connected to the system.

Hereinafter, a power supply control apparatus and method for a portable device according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a power supply control apparatus for a portable device according to the present invention.

As shown, the power supply control apparatus of the portable device of the present invention is provided with a power supply 101 for receiving an external power source and converts it to a rated voltage of the system and outputs the output voltage of the power supply 101. And a system power supply 111 for operating the system power supply.

The system power supply 111 inputs the output of the power supply 101 and generates a DC / DC converter 109 of various sizes required by the system, the power supply 101 and the power supply 101. And a switch B 115 that opens and closes the power output from the power supply 101 to the DC / DC converter 109 between the DC / DC converters 109.

In addition, the system power supply unit 111 is configured to include a charger 103 for inputting the output of the power supply 101, and controls the charging of the battery 107. And a switch A 105 that opens and closes a path for supplying the output of the charger 103 to the battery 107 and to the DC / DC converter 109.

In the present invention, the switch A 105 is not only used for opening and closing a simple discharge path as in the prior art. Conventionally, the switch A 105 is used to open and close the discharge path so that the output of the battery 107 can be supplied to the DC / DC converter 109 when the power supply 101 is not connected to the system. Lose. However, in the present invention, in most cases, since the charging current of the charger 103 is controlled to be supplied to the battery 107 and to the DC / DC converter 109 at the same time, the switch A 105 is always in a general situation. It is controlled to maintain the on state. A description of the operation state of the switches will be described in more detail in the operation description section.

In the present invention, the system power supply unit 111 includes a microcomputer 113 for controlling the on / off operation of the two switches 115 and 105. The microcomputer 113 controls the on / off of the switches 115 and 105 so that the current used by the system power supply 111 may be included in the maximum value range of the charging current. Therefore, the microcomputer 113 is configured to monitor the charging current of the battery 107, and is configured to control the on / off operation of the switches 115 and 105 according to the charging current of the battery 107. The microcomputer 113 is a configuration of a control unit. Therefore, as long as the configuration of the control unit capable of performing the above control, other controllers can be sufficient instead of the microcomputer.

Next will be described the operation of the power supply control device of the portable device according to the present invention having the above configuration.

First, the portable device of the present invention operates the power supply within the maximum charging current range of the charger 103, and thus the power supply 101 uses a low power supply which can tolerate the maximum charging current value of the charger 103.

In a general situation, when the power supply 101 is connected to the system, the microcomputer 113 controls the switch B 115 to the off state and the switch A 105 to the on state. The general situation refers to a state requiring charging of the battery.

The power output from the power supply 101 in the control state is supplied only to the charger 103, the charging current of the charger 103 is supplied to the battery 107 and at the same time the DC / DC converter through the switch A (105) 109 is supplied.

Therefore, the power supply 101 only needs to supply the maximum output of the charger 103. The power required by the system is supplied to the output power of the charger 103 and the remaining power charges the battery 107.

Next, the microcomputer 113 monitors the charging current of the battery 107. When the battery 107 is charged to a predetermined value or more, the charging current consumed by the battery 107 is lowered below a predetermined value. Therefore, the microcomputer 113 monitors the charging current consumed by the battery 107, and when the charging current is lowered to a predetermined value or less, controls the switch A 105 to be in an off state and, conversely, switches the switch B 115 to the off state. Control on. The constant value is set to a current value at the time of detecting a full charge state of the battery.

In this case, since the battery is sufficiently charged, the current consumed for charging the battery 107 in the charger 103 is less than the set value. Therefore, by controlling the operation of the switches as described above, the output of the power supply 101 is controlled so that it can be supplied directly to the DC / DC converter 109. Of course, the operation process is also a process that is controlled when the power supply 101 is connected to the system.

When the power supply 101 is not connected to the system, the switch A 105 is turned on to discharge the battery 107 so that the power of the battery 107 can be supplied to the DC / DC converter 109 as in the related art. Form a path.

That is, the present invention is characterized in that the power supply path of the power supply is controlled to enable the system power operation using the low power power supply. In an embodiment of the present invention, the maximum output of the power supply is configured to be within the allowable range of the maximum charging current of the charger.                     

Therefore, the present invention has a path for outputting the power supply directly to the system, and a path for outputting the power supply only to the charger and supplying the system power with the charging current. The latter case is configured to be used when the battery is fully charged, and the latter case is configured to be used when battery charging and system operation are performed at the same time. In addition, the present invention includes a configuration for monitoring the charging current of the battery, and configured to allow the path control according to the charging current of the battery.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

The present invention described above can obtain the following effects.

The present invention can limit the capacity of the power supply within the maximum charge current range of the battery. Therefore, the present invention makes it possible to operate the system by using a relatively small low power power supply as compared with the prior art.

In addition, the present invention has the effect of reducing the size of the power supply used in proportion to the use of a low power power supply, and can reduce the manufacturing cost to be manufactured. In particular, the present invention is very efficiently used in a portable device that always uses a battery as a power source.

And the present invention can bring the effect of the current limiting device of the system without the configuration of the current limiting device.

Claims (8)

With batteries; A power supply means connected between an external power source and the system to generate a system rated output; Charging means for inputting an output of the power supply means and controlling charging of the battery; A first path for controlling the output of the power supply means to directly supply power to the system; A second path through which the output of the power supply means is supplied only to the charging means and supplies the system power with the charging current of the charging means; And control means for sensing the charging current of the battery and selecting the first path or the second path for supplying power to the system according to the charging current. And the power supply means supplies only a maximum output of the charging means within a maximum charging current range of the charging means. With batteries; Power supply means for inputting an external power source and generating a system rated output; Charging means for inputting an output of the power supply means and controlling charging of the battery; A DC / DC converter for generating DC voltages of various sizes required by the system; A first switch for opening and closing a power supply path between the power supply means and the DC / DC converter; A second switch for opening and closing a power supply path between the charging means and the DC / DC converter; Control means for sensing the charging current of the battery, and selectively opening and closing the second switch or the first switch according to the charging current, And the power supply means supplies only a maximum output of the charging means within a maximum charging current range of the charging means. delete delete delete delete delete The power supply means for supplying only the maximum output of the charging means within the maximum charging current range of the charging means is connected to the system, and when the charging current of the battery is higher than the predetermined value, the output of the power supply means is used only as the charging means. A first process of supplying system power with a charging current of the charging means and charging the battery; A second process of directly supplying the output of the power supply means to the system when the power supply means is connected to the system and the charging current of the battery is lower than a predetermined value; And a third process of supplying the discharge power of the battery to the system power when the power supply means is not connected to the system.

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