KR20070094322A - Charging system and power control method thereof - Google Patents

Abstract

A charging system and a power control method thereof are provided to offer uniform power to a system of a mobile device such as a bluetooth module by including a DC/DC converter. A charging system includes a first switching unit(102), a charging unit(130), a DC/DC converter(110), a second switching unit(103), and a power supply unit(140). The first switching unit(102) outputs a chip enable signal by a power on switch. The charging unit(130) outputs the chip enable signal by the power inputted from a power terminal and performs the charge of a battery. The DC/DC converter(110) is enabled by the chip enable signal of the first switching unit(102) or the chip enable signal of the charging unit(130). The DC/DC converter(110) supplies a necessary voltage to the system. If the DC/DC converter(110) is enabled by the first switching unit(102), the second switching unit(103) enables the DC/DC converter(110) based on a power holding signal(P_HOLD) of the system. The charging unit(130) supplies the power inputted from the power terminal to the battery. The power supply unit(140) outputs a charging detection signal, a charging completion signal, and the chip enable signal.

Description

Charging system and its power control method {CHARGING SYSTEM AND POWER CONTROL METHOD THEREOF}

1 is a block diagram showing a charging system according to an embodiment of the present invention.

2 is a flowchart illustrating a power control method of a charging system according to an exemplary embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

100 Power supply 101 Power on switch

102 first switching means 103 second switching means

110 ... DC / DC converter 130 ... Charge

131 Power ... 140 Power Supply

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable device equipped with Bluetooth and the like, the charging system of the portable device and a power control method thereof.

Recently, a mobile communication terminal has been developed to enable short-range wireless communication by mounting a Bluetooth module. Bluetooth is a standard that wirelessly connects portable devices such as portable PCs and wireless terminals at a low cost within a narrow range. It uses radio frequency to communicate voice and data without the need for a physical cable. It makes it possible to give and receive.

Therefore, in recent years, short-range wireless data transmission and reception, a module with a Bluetooth chip with low power consumption has been developed and widely applied to various wireless data transmission and reception devices, and the wireless data transmission and reception device is manufactured in the form of a small microchip For this reason, for example, it is mounted on a mobile communication terminal and a headset so that voice signals can be transmitted and received through wireless data transmission and reception.

As a result, short-range wireless communication modules such as a Bluetooth headset using a Bluetooth module, a wireless ear microphone, and the like are appearing, and products for attaching various bodies, that is, parts of the body which the user thinks are most convenient, are released. have.

The Bluetooth device using the Bluetooth module requires a separate power source for driving a module that transmits / receives wireless data. Generally, a secondary battery such as a lithium ion battery may be used while charging and discharging continuously, or a mercury battery may be used. Consumable batteries are used.

Therefore, conventionally, when the battery is discharged, the discharged battery is recharged or replaced with a separate battery to use the Bluetooth device. The battery embedded in the Bluetooth device is required to implement a stable charging circuit together with a stable power supply circuit to the system.

The present invention provides a charging system for supplying a battery voltage to a system.

The present invention provides a charging system and a power control method thereof capable of supplying a stable power supply voltage to a system depending on whether a battery is charged.

The charging system according to the present invention,

First switching means for outputting a chip enable signal by a power on switch; A charging unit which outputs a chip enable signal by a power input to a power stage and performs battery charging; And a DC / DC converter which is enabled by the chip enable signal of the first switching means or the chip enable signal of the charging unit to supply a required voltage to the system.

Preferably, the DC / DC converter further comprises second switching means for enabling the DC / DC converter using a power holding signal of the system when the DC / DC converter is enabled by the first switching means.

Preferably, the charging unit includes a power supply unit supplying a power supply voltage input to the power stage for charging the battery, and outputting a charge detection signal or a charge completion signal, and a chip enable signal.

Preferably, the second switching means is driven by a charge detection signal input from the charging unit to protect the system.

On the other hand, the power control method of the charging system according to an embodiment of the present invention,

Supplying a battery voltage to the system by operating a power supply by selecting a power on switch; Checking whether the battery is in a charging mode; In the charging mode, a charging unit is driven to charge the battery, and outputs a chip enable signal as a high signal to enable the DC / DC converter of the power supply unit; Supplying a battery voltage to the system through the DC / DC converter.

Hereinafter, with reference to the accompanying drawings as follows.

1 is a block diagram showing a charging system according to an embodiment of the present invention.

Referring to FIG. 1, a power on switch (SW) 101, first switching means 102 driven by selection of the power on switch 101 to output a chip enable signal, and a chip enable signal DC / DC converter 110 for supplying a constant voltage to the system by means of the second switching means 103 for maintaining the chip enable state of the DC / DC converter 110 by the power holding signal P_HOLD. A power supply unit 100 including;

A charging unit 130 including a power supply unit 140 that receives the power of the power supply terminal 131 to charge the battery, outputs a charge detection signal to the system, and outputs a chip enable signal to the power supply unit 100; Configuration.

Referring to the accompanying drawings, a charging system and a charging control method according to an embodiment of the present invention configured as described above are as follows.

Referring to FIG. 1, the charging system largely includes a power supply unit 100 and a charging unit 130. The power supply unit 100 includes a power on switch (SW) 101, a first switching means 102, a DC / DC converter 110, and a second switching means 103.

The power on switch 101 is a switch for operating a system, and the power switch 101 is a switch for functions such as power on, play, stop, power off, and the like. The function will be implemented.

When the power on switch 101 is selected, the first switching means 102 is switched on, and a high signal High is output to the DC / DC converter 110 due to the switching on operation. Here, the first switching means 102 comprises a PNP transistor. The base B of the PNP transistor is connected to a power on switch stage, and the battery voltage BATT transitions from a high level to a low level by the selection of the power on switch 101, and the emitter of the first switching means 102. E is supplied with a battery voltage, and the collector C is connected to the chip enable terminal CE of the DC / DC converter 110.

The high signal output from the first switching means 102 is supplied to a chip enable terminal CE (Chip Enable) of the DC / DC converter 110 (path P1), and the DC / DC converter 110 is turned on. Able to.

When the DC / DC converter 110 is enabled, the battery voltage Batt 114 is supplied to the input terminal VIN, and the battery voltage VDD 112 is supplied to the power supply voltage VDD 112. That is, DC voltage required for each chip of the Bluetooth module is supplied.

When power is supplied to the system, the system outputs a power sustain signal P_HOLD through the power sustain port 119 so that the DC / DC converter 110 maintains the chip enable state. The power sustain signal P_HOLD is output to the second switching means 103 via a diode Diode. The second switching means 103 outputs the power sustain signal as a chip enable signal to the chip enable terminal CE of the DC / DC converter 110 (path P2).

Here, the second switching means 103 is an N-channel MOS-FET, and outputs a power sustain signal applied to the drain terminal D to the source terminal S by the input signal of the gate terminal G. In this case, a low voltage is applied to the gate terminal D.

The DC / DC converter 110 maintains the enabled state by the signal input to the chip enable terminal CE by the output signal of the second switching means 103. The DC / DC converter 110 is initially enabled due to the power on switch 101 and the first switching means 102, and its enabling state continues due to the second switching means 103.

The power supply unit 100 stably supplies the battery voltage to the system by the DC / DC converter 110 which is maintained in the enabled state.

Then, the charging unit 130 checks whether the charging mode using the adapter, it is confirmed whether the chip enable signal is applied to the power supply unit 100.

At this time, when power is supplied to the power supply terminal 131 through the adapter, noise is removed by the filter 132, and power is input to the input terminal IN of the power supply unit 140.

By the first state terminal STAT1 of the power supply unit 140, the charge detection port CHARGE 117 is outputted by transitioning from a low to a high signal, and notified to the system as a charge detection signal. In addition, the high signal of the charge sensing port is input to the gate terminal G of the second switching means 103.

The power supply unit 140 charges the battery through the battery voltage terminal 113.

The power supply unit 140 outputs a chip enable signal to the chip enable port CE through the power supply voltage terminal VCC, and the chip enable signal is DC / DC of the power supply unit 100. It is input to the chip enable terminal CE of the converter 110 (path P3). The DC / DC converter 110 continues to be enabled by the chip enable signal applied to the chip enable terminal CE. A chip enable signal is also applied to the system.

In this case, the second switching means 103 performs a blocking function to block the application of the chip enable signal to the system side. That is, the second switching means 103 is turned on by the high signal of the charge sensing port CHARGE applied to the gate terminal to block the chip enable signal from entering the system in reverse.

Thereafter, when the battery is fully charged, the second state terminal STAT2 of the power supply unit 140 transitions from a low signal to a high signal. That is, the system is notified of the charge completion signal through the charge completion port (DONE) 118 of the battery. Here, there are various methods of determining whether the battery is charged, and a method of determining the potential of the battery is common.

The DC / DC converter 110 is driven by the chip enable signal of the charging unit 130 even though the power-on switch 101 does not operate first, and the DC / DC converter 110 supplies a constant voltage to the system. The battery can be charged and the battery can be charged.

2 is a flowchart illustrating a power control method of a charging system according to an exemplary embodiment of the present invention.

2, when the power on switch is operated (S101), it is determined whether the charging mode (S102). If not in the charging mode, the system is operated by supplying a battery voltage without performing charging (S108).

In the charging mode, the charging unit is driven (S103), and the charging unit outputs a high signal (H) while charging the signal through the charging detection port (charge) due to the driving of the charging unit (S104), and notifies the system of the charging state. do. In addition, by applying a high signal to the gate terminal of the second switching means, the second switching means switches to perform the blocking function.

Then, the chip enable signal is output to the DC / DC converter as a high signal due to the driving of the charging unit (S105), so that the DC / DC converter of the power supply unit is enabled (S106). When the DC / DC converter is enabled, the charging system is maintained normally (S106). This supplies the battery voltage to the system along with the battery charging.

So far, the present invention has been described with reference to the preferred embodiments, and those skilled in the art to which the present invention pertains to the detailed description of the present invention and other forms of embodiments within the essential technical scope of the present invention. Could be implemented. Here, the essential technical scope of the present invention is shown in the claims, and all differences within the equivalent range will be construed as being included in the present invention.

According to the charging system and the charging control method thereof according to the present invention, more stable power can be supplied to a system of a portable device such as a Bluetooth module.

It also has the effect of simplifying the construction of complex power supply circuits.

Claims (5)

First switching means for outputting a chip enable signal by a power on switch; A charging unit which outputs a chip enable signal by a power input to a power stage and performs battery charging; And a DC / DC converter which is enabled by a chip enable signal of the first switching means or a chip enable signal of the charging unit to supply a required voltage to the system. The method of claim 1, And the second switching means for enabling the DC / DC converter using a power holding signal of the system when the DC / DC converter is enabled by the first switching means. The method of claim 1, The charging unit includes a power supply for supplying a power voltage input to the power stage for battery charging, and outputs a charge detection signal or a charge complete signal, and a chip enable signal. The method of claim 2, The second switching means is driven by a charge detection signal input from the charging unit to protect the system. Supplying a battery voltage to the system by operating a power supply by selecting a power on switch; Checking whether the battery is in a charging mode; In the charging mode, a charging unit is driven to charge the battery, and outputs a chip enable signal as a high signal to enable the DC / DC converter of the power supply unit; Supplying a battery voltage to the system through the enabled DC / DC converter.

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