KR20060086734A - Mobile communication terminal charging system enable of power save and operating method for the same - Google Patents

Abstract

The present invention relates to a power consumption reduction type mobile communication terminal charging system, comprising: a mobile communication terminal for generating / outputting a signal regarding a battery voltage magnitude, and a charging voltage supplied to the battery according to a signal output from the mobile communication terminal; Is configured to vary in size so that the battery voltage is greater than the battery voltage.

In addition, the present invention relates to a method for operating a power consumption type mobile communication terminal charging system, the first step of detecting the magnitude of the battery voltage of the mobile communication terminal, the value of the collection value than the magnitude of the battery voltage detected in the first step As much as the charging voltage is supplied to the battery is a second step of charging the battery.

Therefore, there is an effect of reducing the power consumption that can occur in the process of charging the battery of the mobile communication terminal and preventing heat generation.

Charger, Battery, Charge Voltage

Description

Mobile Communication Terminal Charging System Enable of Power Save and Operating Method for the Same}             

1 is a block diagram showing the inside of a conventional mobile communication terminal charging system;

2 is a block diagram showing the inside of a power consumption type mobile communication terminal charging system according to the present invention;

Figure 3 is a flow chart illustrating the flow of operation method of the power consumption type mobile communication terminal charging system according to the present invention.

<Explanation of symbols on main parts of the drawings>

100: mobile communication terminal 110: battery

120: voltage application unit 130: control module

200: charger 210: battery voltage calculator

220: supply voltage variable part

The present invention relates to a power consumption type mobile communication terminal charging system and a method of operating the same, and in particular, the magnitude of the charging voltage supplied to the mobile communication terminal to reduce the power consumption generated in the process of charging the mobile communication terminal The present invention relates to a variable power consumption type mobile communication terminal charging system and a method of operating the same.

Referring to Figure 1 of the mobile communication terminal charging system according to the prior invention, the battery 11 for supplying power to the mobile communication terminal 10 is generally a charger such as an adapter in a state mounted on the mobile communication terminal (10) In connection with 20, charging is performed.

At this time, the charger 20 rectifies the commercial AC power supplied to the home and supplies the charging voltage of the direct current type to the mobile communication terminal 10, which is well known to those skilled in the art, description thereof will be omitted. .

Meanwhile, in the case of the mobile communication terminal 10, the voltage applying unit 12 for applying the charging voltage supplied from the charger 20 to the battery 11, and detects the current voltage size of the battery 11 When it is determined that the battery 11 is fully charged, the control module 13 blocks the voltage applied to the battery 11 through the voltage applying unit 12.

There is a system rod 14 composed of other components or circuits inside the other mobile communication terminal 10, but the description thereof is also omitted since it is irrelevant to the problem to be solved by the present invention.

The control module 13 detects the magnitude of the current flowing through the voltage applying unit 12 and the magnitude of the current flowing through the battery 11, and the current sensing unit 13a sensed by the current sensing unit 13a. The controller 13b calculates the magnitude of the battery voltage according to the magnitude of the current and outputs the voltage applying control signal con1 to the voltage applying unit 12 accordingly.

In this case, the voltage applying unit 12 is a Tr2 transistor whose on / off is controlled according to the control signal con1 as shown, and the charger 20 is turned on / off in accordance with the on / off of the Tr2 transistor. ) Is composed of a Tr1 transistor to prevent the voltage supplied from the battery 11 to be supplied or supplied to the battery 11. Meanwhile, an r1 resistor is connected between the Tr2 and Tr1 transistors, and an r2 resistor is connected between the Tr1 transistor and the battery 11.

In the conventional charging system, the magnitude of the charging voltage supplied from the charger 20 to the mobile communication terminal 10 is always constant. Therefore, the lower the magnitude of the voltage of the battery 11 is, the larger the difference between the magnitude of the charging voltage supplied from the charger 20 and the battery voltage is, and the magnitude of the voltage applied to the r1 also increases.

For example, if the battery is a high voltage (8.4V), the charging voltage is 9V and the current flowing through the r1 is 1A, the power consumed in the r1 (P = V * I) is (9-8.4) * 1, that is, 0.6 Watts. However, when the battery is low voltage (6V), the charge voltage is 9V, the current flowing through the r1 is 1A, the amount of power consumed in the r1 is (9-6) * 1 or 3Watt.

Therefore, the amount of power consumed by the voltage applying unit is different according to the size of the battery voltage, especially when the battery is discharged a lot and the size of the battery voltage is small, the amount of power consumed when charging the battery is increased as well. There is a problem that a lot of heat is generated in the mobile communication terminal according to the consumption.

The present invention has been made to solve the above problems of the prior art, the purpose of which is to change the magnitude of the charging voltage supplied from the charger to the mobile communication terminal according to the size of the battery voltage to consume power consumption when charging the battery The present invention provides a charging system and a method of operating the same, which reduce power consumption and reduce heat generation.

According to a feature of the power consumption type mobile communication terminal charging system according to the present invention for solving the above problems, the mobile communication terminal for generating and outputting a signal relating to the magnitude of the battery voltage, and the signal output from the mobile communication terminal Accordingly, it characterized in that it is composed of a charger that is variable so that the magnitude of the charging voltage supplied to the battery is greater than the battery voltage.

In addition, according to a feature of the power consumption type mobile communication terminal charging system according to the present invention, in a mobile communication terminal charging system consisting of a mobile communication terminal and a charger, the mobile communication terminal by a predetermined value rather than the magnitude of the battery voltage A charging voltage control signal is generated and output to the charger so that a large charging voltage is supplied to the battery, and the charger is configured to vary the magnitude of the charging voltage supplied to the battery according to the output charging voltage control signal. It is characterized by.

In addition, according to a feature of the operating method of the power consumption-type mobile communication terminal charging system according to the present invention, the first step of detecting the magnitude of the battery voltage of the mobile communication terminal and than the magnitude of the battery voltage detected in the first step A charging voltage as large as the small value is supplied to the battery, characterized in that the second step of charging the battery.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a block diagram showing a first embodiment of a power consumption reduction type mobile communication terminal system according to the present invention. As shown in FIG. 2, a charger 200 for supplying a charging voltage to the mobile communication terminal 100 is shown. do.

The charger 200 supplies a charging voltage to the battery 110 of the mobile communication terminal 100, the magnitude of the charging voltage is larger than the current voltage of the battery 110 by a predetermined value. Therefore, the charging voltage when the battery 110 is discharged much is smaller than the charging voltage when the battery 110 is less discharged. At this time, since the charging is performed only if the voltage for charging is greater than the battery voltage, the charging voltage does not necessarily have to maintain a large value.

The mobile communication terminal 100 includes a voltage applying unit 120 for applying a charging voltage supplied from the charger 200 to a battery 110, and the battery applying unit when the battery 110 is 100% charged. The control module 130 generates a control signal con1 to block the voltage from being applied to the control module 130 to output to the voltage applying unit 120.

In addition, the inside of the mobile communication terminal 100 is controlled by the control module 130, the system load unit 140 is composed of a variety of modules or circuits are supplied with driving power through the battery 110 exist.

The voltage applying unit 120 includes a Tr2 transistor whose on / off is determined according to a control signal output from the control module 130, and a Tr1 transistor whose on / off is determined according to the on / off of the Tr2 transistor. And an r1 resistor connected between the Tr1 and Tr2 transistors and an r2 resistor connected between the Tr1 transistor and the battery 110.

The control module 130 detects the magnitude of the current flowing through the voltage applying unit 120 and the magnitude of the current flowing through the battery 110, and the current sensing unit 131 detects the magnitude of the current flowing through the battery 110. The controller 132 calculates the magnitude of the current voltage of the battery 110 according to the amount of current and outputs a control signal con1 to the voltage applying unit 120 when it is determined that the battery 110 is fully charged. It consists of.

The control signal con1, which is determined by the controller 132 as being fully charged, is input to the Tr2 transistor of the eye applying unit 120 to turn off the Tr2 transistor. When the Tr2 transistor is turned off, the Tr1 transistor connected thereto is also turned off. Therefore, the charging voltage is cut off from the charger 200 to the battery 110.

On the other hand, the control unit 132 of the control module 130 generates a signal con2 regarding the magnitude of the battery voltage calculated in addition to the control signal con1 output to the voltage applying unit 120 to the charger 200 Will output

The charger 200 may include a battery voltage calculator 210 calculating a magnitude of a battery voltage from the con2 signal output from the mobile communication terminal 100, and a magnitude of the battery voltage calculated by the battery voltage calculator 210. It is composed of a supply voltage variable unit 220 for varying the magnitude of the charging voltage to a value larger by a predetermined value.

If the voltage of the battery 110 is 6V and the supply voltage variable part 220 varies the magnitude of the charging voltage such that the supply voltage is 0.6V higher than the battery low voltage, the charging voltage is 6.6V. . Therefore, the voltage across the r2 resistance of the voltage applying unit 120 is 6.6-6 = 0.6 [V]. If the magnitude of the current flowing through r2 is 1 A, the amount of power consumed at r2 is 0.6 * 1 = 0.6. [Watt].

If the voltage of the battery 110 is 8.4V, the magnitude of the charging voltage supplied from the charger 200 is changed to 8.4 + 0.6 = 9 [V]. Therefore, the voltage across the r2 resistance of the voltage applying unit 120 is 9-8.4 = 0.6 [V], and if the magnitude of the current flowing through r2 is 1A, the amount of power consumed at r2 is 0.6 * 1 = 0.6. [Watt].

Hereinafter, a second embodiment of a power consumption type mobile communication terminal charging system according to the present invention.

In the case of the charging system of the first embodiment, the mobile communication terminal simply transmits a signal regarding the magnitude of the battery voltage to the charger, calculates the magnitude of the battery voltage inside the charger, and changes the magnitude of the charging voltage accordingly.

However, in the second embodiment, the control module of the mobile communication terminal is configured to transmit a control signal for changing the magnitude of the charging voltage supplied from the charger, not the signal regarding the magnitude of the battery voltage. That is, the control unit of the control module of the mobile communication terminal calculates the battery voltage, calculates the magnitude of the charging voltage having a magnitude added to the calculated magnitude of the battery voltage and transmits it to the charger.

The charger varies the magnitude of the charging voltage supplied according to the magnitude of the charging voltage transmitted from the mobile communication terminal. According to the second embodiment of the present invention, the charger does not need to separately include a battery voltage calculating unit for calculating the information on the battery voltage. This can be simpler.

Hereinafter, a method of operating a power consumption type mobile communication terminal charging system according to the present invention will be described with reference to the first embodiment.

When the charger and the mobile communication terminal are connected in the charging system according to the present invention, power is supplied from the charger to the battery and at the same time, the control module of the mobile terminal detects the magnitude of the current flowing through the battery (S1).

The control module calculates the magnitude of the battery voltage based on the magnitude of the current flowing through the battery (S2), and determines whether the battery is fully charged (S3).

If the battery is not fully charged, the control module generates a signal relating to the detected magnitude of the battery voltage and applies it to the charger (S4), and the charger calculates the magnitude of the battery voltage from the input signal. (S5).

Thereafter, the charger is varied such that the magnitude of the charging voltage currently supplied to the mobile communication terminal through the supply voltage variable unit becomes a value obtained by adding a predetermined value to the magnitude of the battery voltage (S6). At this time, the predetermined value is a value that can be changed at any time as needed.

Meanwhile, the controller of the mobile communication terminal continuously determines whether the battery is fully charged. When the battery is determined to be fully charged, the controller generates a con1 control signal to the voltage applying unit and outputs the control signal (S7).

The voltage applying unit blocks the voltage application path so that the charging voltage is not applied to the battery as the con1 control signal is input (S8).

The power consumption reduction type mobile communication terminal charging system of the present invention configured as described above is a mobile communication terminal for generating / outputting a signal relating to a voltage level of a battery, and charging supplied to the battery according to a signal output from the mobile communication terminal. The charger is configured to vary in magnitude so that the voltage is greater than the battery voltage.

In addition, the operation method of the power consumption reduction type mobile terminal charging system according to the present invention is a first step of detecting the magnitude of the battery voltage of the mobile communication terminal, and a larger value than the magnitude of the battery voltage detected in the first step The charging voltage is supplied to the battery, and the battery is charged in a second step.

Therefore, there is an effect of reducing the power consumption that can occur in the process of charging the battery of the mobile communication terminal and preventing heat generation.

Claims (8)

A mobile communication terminal generating / outputting a signal relating to a battery voltage magnitude; And a charger configured to vary in size such that the voltage for charging supplied to the battery is greater than the battery voltage according to the signal output from the mobile communication terminal. The method of claim 1, The charger may include a battery voltage calculator configured to calculate a magnitude of the battery voltage from a signal output from the mobile communication terminal; A power consumption reduction type comprising: a charging voltage varying unit configured to vary the magnitude of the charging voltage so that the charging voltage larger than a battery voltage calculated by the battery voltage calculating unit is supplied to the battery. Mobile terminal charging system. The method of claim 1, The mobile communication terminal includes a voltage applying unit for applying a charging voltage to the battery; And a control module for detecting a magnitude of the battery voltage and transmitting a signal relating to the magnitude of the battery voltage to the charger, and controlling a voltage applying unit so that a charging voltage is not applied to the battery when charging is completed. Reduced consumption mobile terminal charging system. The method of claim 3, wherein The control module includes a current sensing unit for sensing the magnitude of the current flowing through the voltage applying unit and the battery; And a control unit which transmits a control signal to block the application of the charging voltage to the voltage applying unit when the magnitude of the current flowing in the battery reaches a predetermined size. In the mobile communication terminal charging system consisting of a mobile communication terminal and a charger, The mobile communication terminal generates a charging voltage control signal to output the charging voltage control signal to the charger so that the charging voltage is greater than the size of the battery voltage by a predetermined value, And the charger is configured to vary the magnitude of the charging voltage supplied to the battery according to the output charging voltage control signal. A first step of detecting a magnitude of a battery voltage of the mobile communication terminal; And a second step of charging the battery by supplying a charging voltage larger than a magnitude of the battery voltage sensed in the first step to the battery, wherein the battery is charged. How it works. The method of claim 6, The first step may include detecting a magnitude of current flowing through the battery; Operating method of a power consumption type mobile terminal charging system, characterized in that the step of calculating the magnitude of the battery voltage through the magnitude of the current. The method of claim 6, The second step includes the step of varying the magnitude of the charging voltage supplied from the charger to the battery according to the magnitude of the battery voltage; The method of claim 1, wherein the variable charging voltage is supplied to the battery.

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