KR100641165B1 - A method and a apparatus of compensation charging current for mobile phone - Google Patents

Abstract

The present invention is to charge the battery by sensing the current consumption and the input current in the operating state of the portable terminal, and to compensate for the magnitude of the input current, the first current sensing unit for sensing the magnitude of the current input to the portable terminal; An adapter unit for supplying an input current; A first thial adjusting a current amount input from the adapter unit by a control signal applied to the base terminal; A first resistor configured to output a corresponding control signal to a base terminal of the first thial; A second dial connected to the first resistor and outputting the control signal according to an analog control signal of the controller applied to the base terminal; A second resistor connected to the first current sensing unit and detecting a voltage drop generated by the input current; A battery unit configured to charge by an input current applied through the second resistor and output a current by discharge; A third resistor connected to the second resistor and detecting a voltage drop generated by the current consumption; A circuit unit operating a set function of the mobile terminal by consuming a current applied through the third resistor; A second current sensing unit connected to a third resistor and sensing a magnitude of the current consumption; And a control unit connected to the first and second current sensing units to check the input current and the consumed current, and output an analog control signal for adjusting the magnitude of the input current.

Description

A device and method for compensating charging current of a mobile terminal {A METHOD AND A APPARATUS OF COMPENSATION CHARGING CURRENT FOR MOBILE PHONE}

1 is a functional block diagram of a charging device of a mobile terminal according to the prior art;

2 is a flowchart of a charging method of a mobile terminal according to the prior art;

3 is a functional diagram of a charging current compensating device for a mobile terminal according to the present invention;

4 is a flowchart illustrating a charging current compensation method of a mobile terminal according to the present invention.

          ** Explanation of symbols on the main parts of the drawing **

100: circuit part 110: third resistor 120: battery part

130: second resistor 140: second thial 150: first resistor

160: first bullet 170: adapter portion 180: first current detection unit

190: control unit 200: second current detection unit

The present invention is to charge the battery in the operating state of the portable terminal, in particular, the charging current compensation of the portable terminal to sense the current consumption and the input current supplied, respectively, and to control the amount of input current to supply the charging current to the battery An apparatus and method are provided.

The mobile terminal for mobile communication (MS: MOBILE STATION) freely moves in the service area formed by the corresponding base station (RAN: RADIO ACCESS NETWORK) of the registered system and monitors and monitors the mobile switching station (MSC: MOBILE SWITCHING CENTER). It is a high-tech wireless communication device that instantly communicates wirelessly with a desired party anytime, anywhere through a communication path established by control and switching, and moves wherever an individual always carries.

The portable terminal MS supplies operating power from a battery to ensure free mobility while maintaining an operating state, and the battery uses a charge / discharge battery that can be repeatedly reused.

The charge / discharge battery accumulates and stores a current in a charged state, outputs a current stored in a discharge state, and the output current is applied to a portable terminal to be supplied to an operating power source. When discharged below the voltage level, the battery becomes impossible to be recharged and thus maintains a constant voltage level.

The charging / discharging battery may be charged by supplying a charging current in a state of being attached to and coupled to the portable terminal. In the state of charging as described above, when using the function of the portable terminal, the supplied charging current may be consumed in the portable terminal or Or, there is a problem that the battery discharge is continued by consuming more current.

Accordingly, there is a need to develop a technology for charging the battery even when using the function of the portable terminal in a state in which the battery is attached to the portable terminal and charged.

Hereinafter, a charging method of a mobile terminal according to the prior art will be described with reference to the accompanying drawings.

It is attached to explain the prior art, Figure 1 is a functional block diagram of the charging device of the conventional mobile terminal, Figure 2 is a flow chart of the charging method of the mobile terminal according to the prior art.

Referring to FIG. 1, a charging device for a portable terminal according to the prior art will be described. The controller 90 of the portable terminal MS determines whether the adapter unit 70 is connected to charge the battery unit 20 for charge and discharge. When the adapter unit 70 is connected for charging in the determination, it is determined whether the internal voltage of the battery unit 20 should be detected and charged.

When the detected internal voltage of the battery unit 20 is at a level that requires charging, the controller 90 outputs a control signal to the base terminal of the second bullet (TR2: TRANSISTOR 2) 40, and the control signal is The second thirty 40, which is a voltage signal and inputs the voltage control signal to the base (B) terminal, is turned on to allow current to flow through the first resistor R1 50.

The current flowing through the first resistor 50 is output as a voltage by a unique resistance value of the first resistor 50, and the voltage is applied to the base B terminal of the first thial TR1 to provide the voltage. The first thial TR1 60 is turned on.

As described above, the first thirty 60 which is turned on receives the input current I1 set and supplied from the adapter unit 70, and the charging current input from the adapter unit 70 is the second. Since the charging current I3 is applied to the battery unit 20 through the resistors R2 30, the battery unit 20 is charged by the charging current I3.

The current applied to the battery unit 20 through the second resistor 30 is a magnitude of the current sensed by the current sensing unit 80. The current is reduced by the voltage drop of the second resistor 30. 2, a voltage difference occurs between both ends of the resistor 30, and the current sensing unit 80 senses and analyzes the voltage difference, thereby determining the magnitude of the input current I1 of a predetermined level supplied to the battery unit 20.

In the fully charged state in which the battery unit 20 is fully charged, a predetermined level of input current I1 no longer flows through the battery unit 20, and the current sensing unit 80 receives input current I1 that no longer flows as described above. The control unit 90 sensed through) changes the level of the control signal applied to the base terminal of the second thirty 40 to compensate for the current consumption by the natural discharge of the battery unit 20 and fully charges the charge. In order to maintain the state, the minute input current I1 flows.

In the above charging situation, for example, when the circuit unit 10 of the mobile terminal MS operates, the circuit unit 10 consumes a current I2 for operation and is supplied from the adapter unit 70. When the magnitude of the input current I1 is smaller than the magnitude of the consumption current I2, the battery unit 20 outputs a discharge current I4 and supplies it to the circuit unit 10.

When the circuit unit 10 operates while consuming the consumption current I2 in the charged state, the input current I1 is consumed. When the size of the input current I1 is small, the discharge unit I4 is additionally supplied from the battery unit 20. It works.

When the input current I1 is sufficiently larger than the consumption current I2 and can be expressed as I1 = I2 + I3, the circuit unit 10 consuming a current of the consumption current I2 by the input current I1 supplied from the adapter unit 70. While the battery unit 20 is being charged while the input current I1 is smaller than the consumption current I2 of the circuit unit, the battery unit 20 is expressed as I2 = I1 + I4, and the battery unit 20 is discharged.

Therefore, when the circuit unit 10 operates while charging the battery unit 20 attached to the mobile terminal MS as described above, the current consumption I2 of the circuit unit 10 is supplied from the adapter unit 70. If the input current is larger than I1, the battery unit 20 may not be charged and may be discharged.

Hereinafter, a charging method of a portable terminal according to the prior art will be described with reference to FIG. 2.

The control unit 90 of the mobile terminal MS determines whether the adapter unit 70 is connected for charging the battery unit 20 by detection of the input current I1 (S10), and the determination ( If it is determined in S10 that the input current I1 is detected and the adapter unit is connected, the internal voltage of the battery unit 20 is detected (S20).

The controller 90 analyzes the internal voltage of the detected battery unit 20 to determine whether to charge the battery unit 20 (S30), and does not charge in the determination S30. In the case of returning to the first step S10, and in case of charging, a predetermined level of current is input by outputting an analog charge control signal to the base B terminal of the second thirty 40. It is input to the current I1 (S40).

The controller 90 detects and analyzes a voltage drop occurring across the second resistor 30 to analyze whether the input current I1 is continuously input at a predetermined current level or as the charging is completed, the input current I1 is at a predetermined current level. If it is determined that the charging is not completed, whether the charging is completed or whether to continue the charging (S50), if the charging is not completed in the determination (S50) to continue charging, the second step (S20) The charging is repeated to repeat the above charging, and when the charging is completed, the process proceeds to the end.

In the prior art having the above configuration, the magnitude of the input current I1 supplied from the adapter unit 70 and applied via the first signal 60 by the control signal of the control unit 90 is fixed.

When the circuit unit 10 operates while the battery unit 20 is charged by the fixed input current I1 as described above, when the current consumption I2 is greater than the input current I1 due to the functional unit operating state of the circuit unit 10. When the size of the consumption current I2 is greater than the size of the input current I1 as described above, the consumption current I2 consumes the discharge current I4 output from the battery unit 20, so that the battery unit 20 There is a problem that can not be charged because the discharge continues.

According to the present invention, when the circuit unit operates in the state of charging the battery unit of the portable terminal to consume the current, the portable unit detects the consumption current and the input current and controls the input current to be a current equal to or greater than the sum of the consumption current and the charging current. It is an object of the present invention to provide a charging current compensating device and a method of a terminal.

The present invention has been made in order to achieve the above object, the first current sensing unit for detecting the magnitude of the current input to the portable terminal; An adapter unit for supplying an input current to the portable terminal; A first dial connected to the adapter unit and adjusting a magnitude of current input from the adapter unit by a control signal applied to the base terminal; A first resistor configured to output a corresponding control signal to the base terminal of the first thial; A second dial connected to the first resistor and outputting a corresponding control signal according to an analog control signal of a controller applied to a base terminal; A second resistor connected to the first current sensing unit and detecting a voltage drop generated by an input current; A battery unit charging with an input current applied through the second resistor and outputting a current by discharging; A third resistor connected to the second resistor and detecting a voltage drop generated by the current consumption; A circuit unit consuming a current applied through the third resistor to operate a set function of the mobile terminal; A second current sensing unit connected to the third resistor and sensing a magnitude of the current consumption; And a control unit connected to the first and second current sensing units to check an input current and a current consumption, and output an analog control signal for adjusting the magnitude of the input current.

In addition, the present invention devised to achieve the above object, the process of detecting the internal voltage of the battery unit when it is confirmed that the adapter unit is connected by the control unit of the portable terminal; If it is determined that the battery unit is being charged, controlling a normal charging current to be supplied from an adapter unit; If it is determined by the controller that the current consumption is greater than the input current, characterized in that the process of controlling and supplying so that the maximum charging current is input from the adapter.

Hereinafter, a charging current compensating apparatus and method for a portable terminal according to the present invention will be described with reference to the accompanying drawings.

3 is a functional diagram of a charging current compensating device for a portable terminal according to the present invention, and FIG. 4 is a flowchart of a charging current compensating method for a portable terminal according to the present invention.

Referring to the charging current compensation device of the mobile terminal according to the present invention with reference to the accompanying Figure 3, the magnitude of the current input for charging (CHARGING) and discharge or consumption (DISCHARGING) in the mobile terminal (MS) for mobile communication Detecting and detecting, the first current detecting unit 180 for detecting and analyzing the voltage generated by the voltage drop across the second resistor 130 to detect the magnitude of the input current I1,

A second resistor (R2) 130 connected to the first current sensing unit 180 and applying a voltage drop generated by the input current I1 to the first current sensing unit 180;

A battery unit 120 for charging the current I3 by the current input through the second resistor 130 and outputting the current by discharge;

A third resistor (R3) 110 connected to the second resistor 130 and detecting a current consumption I2 of the circuit unit 100 by a voltage drop;

A circuit unit 100 consuming the current I2 applied through the third resistor 110 and operating the set function of the mobile terminal MS;

It is connected to the third resistor 110 and detects and detects the amount of current consumed by the circuit unit 100 of the mobile terminal MS. The voltage generated by the voltage drop across both ends of the third resistor 110 is detected. And a second current sensing unit 200 which detects the magnitude of the consumed current I2 by analyzing the same.

An adapter unit 170 connected to the portable terminal MS and outputting a current for charging the battery unit MS and a current for operating the circuit unit 100;

The first current detector 180 is connected to the first current detector 180 and the second current detector 200 to detect an input current I1 and a consumed current I2, and output an input current control analog control signal. Compared to the input current I1 detected from the 180 and the consumption current I2 detected from the second current sensing unit 200, the input current I1 of the circuit unit 100 including the charging current I3 of the battery unit 120. If the current consumption is smaller than the size I2, the control unit 190 for controlling a large size of the input current I1 by outputting a predetermined analog (ANALOG) control signal of a high level to the base (B) terminal of the second titanium 140,

The first resistor 160 is connected to the adapter unit 170 by adjusting the magnitude of the current input from the adapter unit 170 according to a control signal of the controller 190 applied to the base B terminal. A first thirteen (TR1) 160 through which the magnitude or amount of the input current applied from the adapter unit 170 is adjusted according to a control signal applied to the base B terminal through the control unit;

A first resistor (R1) 150 connected to the base terminal of the first thirty 160 and outputting a control signal to the base terminal to adjust a magnitude of a flowing current;

It is connected to the first resistor (R1) 150 and outputs the control signal to the first resistor 150 by an analog control signal applied from the controller 190, the base (B) from the controller 190 The second thirteen (TR2) 140 for outputting the control signal to the first resistor 150 by an analog control signal applied to the terminal) is included.

Hereinafter, according to the present invention having the configuration described above, a charging current compensation device of a mobile terminal will be described with reference to the accompanying drawings.

The portable terminal MS stores the current by charging and integrally attaches the battery unit 120 for outputting and supplying the current by discharging. The controller 190 charges the battery unit 120. It is determined whether the adapter unit 170 that supplies the current and the current consumption of the circuit unit 100 is connected.

The adapter unit 170 outputs an operating current of the mobile terminal to the emitter (E: EMITTER) terminal of the first tear 160, and a voltage drop to the base (B) terminal of the first tear 160. A first resistor 150 for inputting a bias voltage is connected to the second resistor 150, and a second thial 140 is connected to the first resistor 150.

A control signal applied in analog from the control unit 190 is input to the base B terminal of the second titanium 140, and current flowing through the first resistor 150 is controlled by an analog level of the control signal. In other words, when a high level analog control signal is applied to the base (B) terminal of the second titanium 140, the magnitude of the current flowing through the first resistor 150 is increased, and thus, the first resistor 150 is increased. The voltage drop generated by this becomes large.

When the voltage drop generated by the first resistor 150 increases, the voltage applied to the base B terminal of the first thirty 160 increases, and the first thirty 150 is connected to the base B terminal. As the applied voltage level increases, more current flows through the collector (C: COLLECTOR) terminal, and thus the magnitude of the input current I1 increases.

The input current I1 is confirmed by detecting and analyzing the voltage of the voltage drop generated at both ends of the second resistor 130 in the first current sensing unit 180, and the input current I1 is determined by the battery unit 120. ) Is supplied to the charging current I3 and simultaneously to the consumption current I2 of the circuit unit 100.

The current consumption I2 of the circuit unit 100 generates a voltage drop through the third resistor (R3) 110, and the voltages generated at both ends of the third resistor 110 are respectively the second current sensing unit ( Is detected and analyzed to determine the magnitude of the current consumption.

The controller 190 may include an input current I1 detected and confirmed by the first current sensing unit 180, a charging current I3 fixed to be applied to the battery unit 120, and the second current sensing unit 200. By comparing and analyzing each of the current consumptions I2 detected and confirmed in the operation, when the circuit unit 100 operates, it is determined whether the battery unit 120 is charged while operating normally.

When the magnitude of the input current I1 is sufficient to operate the circuit unit 100 and charge the battery unit 120 at the same time by comparing and determining the currents I1, I2, and I3 values of the controller 190, the controller ( 190 applies a corresponding control signal to the base B terminal of the second thir 140 to supply the first thirty 160 through a current having a normal magnitude, and if the magnitude of the input current I1 is small. The control signal is applied to the terminal of the base B of the second thir 140 so that the first thirty 160 passes the maximum level of current.

That is, since the charging current supplied to the battery unit 120 is fixed, the controller 190 has a first current sensing unit 180 for detecting an input current I1 and a second current sensing for detecting a consumption current I2. The current value applied from the unit 200 is checked and analyzed, and it is determined whether to supply the input current I1 to the normal size or to compensate the maximum size, and transmit the corresponding control signal to the base terminal of the second teal 140. Output

According to the present invention having the above configuration, when the circuit unit 100 operates in a state where the battery unit 120 for charge / discharge is attached to the mobile terminal MS, the charging current and the circuit unit required for charging the battery unit 120 ( When the amount of current consumption required for the operation of 100 is greater than the input current, compensation is controlled to supply the maximum current from the adapter unit 170, so that the battery unit 120 maintains charging without discharging. At the same time, there is an advantage of shortening the charging time of the battery unit 120.

Hereinafter, the charging current compensation method of the portable terminal according to the present invention will be described with reference to FIG. 4.

When the adapter unit 170 for supplying an operation current to the mobile terminal for mobile communication is connected, the controller 190 detects an internal voltage of the battery unit 120. Determining whether the current charging the battery unit 120 and the adapter unit 170 supplying the current consumption of the circuit unit 100 are connected (S100); If the adapter unit 170 is connected in the process (S100) and the detection process consisting of detecting the internal voltage of the battery unit 120 (S110),

If the controller 190 of the detection process determines that the battery unit 120 is being charged, the controller 190 controls the supply of charging current of a normal size, and determines whether the battery unit 120 is charged by the controller 190 and does not charge the battery unit 120. In the case of returning to the access process (S100) (S120); When charging in the step (S120) and the control process consisting of the step (S130) of supplying a steady state charging current set by a predetermined analog control signal output from the controller 190,

The control unit 190 of the control process is to control the maximum charging current supply and complete the charging when the current consumption by the load is greater than the input current, by the control unit 190 the current consumption I2 of the circuit unit 100 and the battery unit ( 120) determining whether the sum of the charging currents I3 is greater than the input current I1 (S140); If it is determined in step S140 that the sum of the current consumption of the circuit unit 100 and the charging current of the battery unit 120 is large according to the determination of the controller 190, a predetermined analog control signal is transmitted to the base B of the second tee 140. Applying to a terminal to control the maximum charging current to be supplied (S150); It is determined whether the charging of the battery unit 120 by the process (S150) is completed, and if the charging is not completed, the process returns to the connection process (S110), and if the charging is completed, the process of proceeding to the end (S160) It consists of a process.

Hereinafter, according to the present invention having the configuration described above, the charging current compensation method of the mobile terminal will be described in detail with reference to the accompanying drawings.

The controller 190 of the mobile communication terminal MS determines whether the adapter unit 170 for supplying an operation current is connected while the battery unit 120 is connected (S100), and the determination (S100). In the case where the adapter unit 170 is attached, the internal voltage of the battery unit 120 is detected (S110).

The controller 190 analyzes the detected internal voltage of the battery unit 120 to determine whether the battery unit 120 needs to be charged (S120), and does not need to be charged in the determination (S120). When it is fed back to the detection process (S100) and needs to be charged, a corresponding control signal is output to the base (B) terminal of the second thyme 140, and the first thyme 160 is set to a normal size. The current is supplied to pass through, and the current becomes the input current I1 (S130).

The control unit 190 detects the consumption current I2 of the circuit unit 100 serving as the load and the input current I1 from the first current sensing unit 180 and the second current sensing unit 200, respectively. It is determined whether or not the consumption current I2 of the load considering the fixed charging current I3 is large or small (S140).

When the input current size is small, that is, when the current consumption is large in the comparison of the process (S140), the controller 190 outputs a corresponding control signal to the base (B) terminal of the second tear 140, The first thirty 160 passes through a current having a maximum magnitude to control the input current I1 to be compensated and supplied (S150).

The controller 190 monitors the battery unit 120 to determine whether charging is completed, and if charging is not completed, returns to the detection process S110, monitors the charging current, and determines whether charging is completed. When the charging is completed, the charging current compensation is terminated (S160).

That is, in the above configuration, when the circuit unit 100 operates in the state of charging the battery unit 120 for charging and discharging attached to the mobile terminal MS, a large amount of current is consumed. In order to maintain the compensation, the maximum input current I1 is supplied.

Therefore, the present invention described above has the advantage of shortening the charging time since the compensating control of the magnitude of the input current so that the battery unit 120 is charged while the circuit unit 100 of the mobile terminal MS operates.

According to the present invention having the above configuration, there is an industrial use effect of charging the battery unit even when the circuit unit is operated by attaching a battery unit for charge / discharge to the mobile communication portable terminal, compensating and controlling the magnitude of the input current.

In addition, since the compensating control of the amount of current input even in a state where the portable terminal is operating, there is a convenient effect in use to shorten the charging time of the battery unit.

Claims (9)

A first current sensing unit sensing a magnitude of a current input to the portable terminal; An adapter unit for supplying an input current to the portable terminal; A first dial connected to the adapter unit and adjusting a magnitude of current input from the adapter unit by a control signal applied to the base terminal; A first resistor transferring a control signal to the base terminal of the first thial; A second dial connected to the first resistor and outputting a corresponding control signal according to an analog control signal of a controller applied to a base terminal; A second resistor connected to the first current sensing unit and detecting a voltage drop generated by an input current; A battery unit charging with an input current applied through the second resistor and outputting a current by discharge; A third resistor connected to the second resistor and detecting a voltage drop generated by the current consumption; A circuit unit configured to consume a current applied through the third resistor to operate a set function of the mobile terminal; A second current sensing unit connected to the third resistor and sensing a magnitude of current consumption; Charge current compensation of the mobile terminal, characterized in that the control unit is connected to the first and second current sensing unit to check the input current and the current consumption, and outputs an analog control signal for adjusting the magnitude of the input current Device. delete The method of claim 1, wherein the control unit, The base terminal of the second thial when the input current is smaller than the consumption current including the charging current of the battery unit by comparing the input current detected from the first current sensing unit with the consumption current detected from the second current sensing unit. Charge current compensation device of a portable terminal, characterized in that for outputting a high-level analog control signal to control the size of the input current large. According to claim 1, The first current sensing unit detects and analyzes voltages generated by voltage drops across both ends of the second resistor to detect input current magnitudes. The second current sensing unit is configured to detect and analyze the voltage generated by the voltage drop across both ends of the third resistor to detect the amount of current consumption. The method of claim 2, The first thial is passed through by varying the magnitude of the input current applied from the adapter by the voltage change applied to the base terminal through the first resistor, The second thial is a charging current compensation device for a mobile terminal, characterized in that the configuration of the current passing through the first resistor by changing the magnitude of the analog control signal applied to the base terminal. Detecting the internal voltage of the battery unit when it is determined by the controller of the portable terminal that the adapter unit is connected; If it is determined that the battery unit is being charged, controlling the normal charging current to be supplied from the adapter unit; If it is determined by the controller that the current consumption is greater than the input current, the charging current compensation method of the portable terminal, characterized in that the control process for supplying so that the maximum charging current is input from the adapter unit. The method of claim 6, wherein the detecting process, Determining whether the adapter unit for supplying current is connected by the portable terminal controller; If the adapter is connected to the charging current compensation method of the portable terminal characterized in that the step of detecting the internal voltage of the battery unit. The method of claim 6, wherein the control process, Determining whether the battery unit needs to be charged by the controller, and if not, returning to the detection process; When the battery unit needs to be charged, the charging current compensation method of the portable terminal, characterized in that the control process is made to supply the steady state charging current set from the adapter by the analog control signal of the controller. The method of claim 6, wherein the supply process, Determining, by the controller, whether the sum of the current consumption of the circuit unit and the charging current of the battery unit is greater than the input current; If it is determined that the sum of the consumption current and the charging current is greater than the input current, applying a predetermined analog control signal to the base terminal of the second thial to control the maximum charging current to be supplied and supplied from the adapter; And monitoring the charging current of the battery unit to determine whether charging is completed, and if not, returning to the detection process and proceeding to termination if the charging is completed.

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