KR0126190Y1 - Portable telephone power control system - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

Device that controls the operating power in the mobile phone.

2. The technical problem the invention is trying to solve:

Conventional mobile phones used a rechargeable battery using nickel cadmium, nickel hydrogen, or the like as a power source, and the battery was continuously charged by charging the battery by an external charger. In addition, when charging the battery through an external charger, it was intended to charge the battery while it was mounted on the mobile phone or to separate and charge the battery. Therefore, the mobile phone uses the rechargeable battery as the main power source, so when the battery is depleted, it needs to be replaced or recharged. As a result, a separate charger is required to recharge the rechargeable battery, so there is a problem in that the charger must be carried when traveling for a long time.

3. Summary of solution of design:

A charging control unit which supplies a DC voltage input from an adapter to the charging battery in a mobile phone having a charging battery for supplying operating power, and controls a DC voltage supplied by sensing whether an overvoltage is charged in the charging battery; Battery voltage sensing unit for sensing the voltage level of the battery and outputting a detection signal, a power switch for selecting a charging mode and operation mode, DC voltage supplied from the adapter through the charging control unit, and provided from the battery sensing unit And a switching unit for forming an operation loop according to the detection signal and the operation of the power switch.

4. Important uses of the devise:

Power supply of mobile phone

Description

Power Control Unit in Mobile Phone

1 is a circuit diagram of a power control device according to the present invention.

* Explanation of symbols for main parts of the drawings

110: charge control unit 112: battery voltage detection unit

114: battery 116: switching unit

118: power switch 120: constant voltage portion

122: adapter

The present invention relates to a power supply control device of a mobile phone, and more particularly, to a power supply control device for providing a voltage supplied from the adapter as a charging voltage or supply voltage.

Conventional mobile phones used a rechargeable battery using nickel cadmium, nickel hydrogen, or the like as a power source, and the battery was continuously charged by charging the battery by an external charger. In addition, when charging the battery through an external charger, it was intended to charge the battery while it was mounted on the mobile phone or to separate and charge the battery.

As described above, since the mobile phone uses the rechargeable battery as the main power source, when the battery is depleted, it must be replaced with another battery or recharged. As a result, since a charger must be separately provided to recharge the rechargeable battery, there is a problem in that the charger must be carried when traveling for a long time.

Accordingly, an object of the present invention is to provide a power control device that enables battery charging by connecting an adapter to the outside by embedding a battery charging circuit for a mobile phone in the mobile phone.

Another object of the present invention is to provide a power control device that allows the use of both the battery and the adapter as a power source of the mobile phone to use the adapter power when a call request occurs during charging.

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

1 is a circuit diagram of a power supply control device for carrying out the present invention. Referring to FIG. 1, a configuration of a circuit diagram of a power supply control device is described. The charging control unit 110 supplies a DC voltage supplied from the adapter 122 to the charging battery 114 in the charging mode. In addition, the controller detects a charging current generated by the voltage charged in the charging battery 114 and controls a DC voltage supplied from the adapter 122 to the charging battery 114 according to the sensed charging current. . The battery voltage detecting unit 112 detects the level of the charging voltage charged in the charging battery 114 and outputs a detection signal according to the detected charging level to the switching unit 116. The charging battery 114 supplies an operating voltage for driving the mobile phone circuit. The switching unit 116 is supplied to the mobile phone circuit by the detection signal provided from the battery voltage detection unit 112, the DC voltage provided from the charge control unit 110 and the control signal provided from the power switch 118. Control the power. The switching unit 116 is composed of four FETs Q1-Q4 and a resistor R1. The first FET Q1 has a drain D at which the output terminal of the battery voltage detecting unit 112 has a gate G. The DC output terminal DC _out of the charging control unit 110 is connected to the source S, and the source S is grounded.The second FET Q2 is connected to the negative terminal of the charging battery 114 to the drain D. The gate G is connected to the DC output terminal DC _out and the source S is grounded through the current sense resistor R1 The third FET Q3 is a negative terminal of the charging battery 114. The drain D is connected to the gate G of the output terminal of the battery voltage sensing unit 112, and the source S is grounded, and the fourth FET Q4 is connected to the battery voltage sensing unit 112. The drain D is connected to the gate G between the resistor R2 to which the voltage V _DD is supplied and the power switch 118, and the source S is grounded. Depending on whether Operation and supplies the operating voltage to the mobile phone circuit. Constant voltage unit 120 supplies to maintain a constant operating voltage to be supplied from the charged battery 114 or the adapter 122 to a voltage level used in the cell phone circuitry.

Therefore, an embodiment of the present invention will be described in detail with reference to FIG.

Detailed operation description according to the present invention will be described by distinguishing the state that the power switch 118 is turned off and the power supply mode is set and the state in which the charging mode is set.

First, when the power switch 118 is turned on and the power supply mode is set, the mobile phone operates by using one of the power source of the adapter 122 or the battery 114 depending on whether the adapter 122 is mounted. If the adapter 122 is not mounted, the switching unit 116 operates according to the voltage level of the charging battery 114 provided from the battery voltage detecting unit 112 to control the supply of the operating voltage to the constant voltage unit 120. Referring to the control operation of the operating voltage, when a low signal indicating a low level of the charging battery 114 is output from the battery voltage detecting unit 112, the switching unit 116 for protection of the charging battery 114. ) To cut off the charging battery 114 from the cell phone circuit. However, when a high signal indicating the normal level of the charging battery 114 is output from the battery voltage detecting unit 112, the switching element FET Q3 is turned on to connect the charging battery 114 to the mobile phone circuit. Supply the voltage.

However, when the adapter 122 is mounted, the FETs Q1 and Q2 which are switching elements of the switching unit 116 are turned on regardless of the voltage level detected by the battery voltage detecting unit 112, and other switching is performed. The device FET Q3 is turned off to operate in a power supply mode for supplying an operating voltage from the adapter 122. In the operation of the power supply mode, the DC voltage DC output from the adapter 122 is provided to the input terminal DC _{in of} the charging control unit 110, and the charging control unit 110 is connected to the output terminal DC _out . Output the voltage DC. The DC voltage DC output from the charging control unit 110 turns on the FETs Q1 and Q2. As a result, a loop is connected to the diode D1, the charging battery 114, the FET Q2, and the current sense resistor R1. The DC voltage DC is supplied with the mobile phone circuit operating voltage through the loop. In the state where the operating voltage is supplied through the adapter 122, the sensing signal output from the battery voltage detecting unit 112 is grounded through the FET Q1, and thus does not affect the operation of the circuit.

Next, when the power switch 118 is turned off and the charging mode is set, the mobile phone performs an operation of charging the charging battery 114 with a DC voltage supplied from the adapter 122 when the adapter 122 is mounted. do. If the adapter 122 is not mounted, the FETs Q1, Q2, and Q3, which are switching elements of the switching unit 116, are turned off, and the FETs Q4, which are other switching elements, are turned on to turn on the rechargeable battery ( 114) and the cell phone circuit.

However, when the adapter 122 is mounted, the FETs Q1 and Q2 which are switching elements of the switching unit 116 are turned on, and the other switching elements FET Q3 are turned off to operate in the charging mode. In addition, since the sensing signal output from the battery voltage detecting unit 112 is grounded through the FET Q1 in the state of being charged through the adapter 122, the operation of the circuit may not be affected. In the charging mode, the DC voltage DC output from the adapter 122 is provided to the input terminal DC _{in of} the charging control unit 110, and the charging control unit 110 is the DC terminal DC to the output terminal DC _out . ) The DC voltage DC output from the charging control unit 110 turns on the FETs Q1 and Q2. As a result, a charging loop connected to the diode D1, the charging battery 114, the FET Q2, and the current sensing resistor R1 is formed. The DC voltage DC is charged in the charging battery 114 through the charging loop, and the current is charged by the feedback action of the charging control unit 110. The feedback action detects a current flowing through the current sensing resistor R1 through a control signal input terminal S _R , and a charging current supplied from the adapter 122 to the charging battery 114 when a current equal to or greater than a predetermined magnitude is applied. Reduce the charge current to maintain a constant level.

When the above operation is explained using a table,

Becomes

As described above, the present invention controls the power of the mobile phone by checking the external power and the battery power without a separate key operation. As a result, it is possible to prevent the current from being consumed in the current sensing resistor. In addition, when the voltage of the battery falls below the reference voltage, the battery is disconnected, thereby preventing damage to the battery and the mobile phone caused by over-discharge, thereby improving the reliability of the product.

Claims (3)

A power supply control device for controlling an operating voltage in a mobile phone having a charging battery for supplying an operating voltage, the power supply device comprising: supplying a DC voltage input from an adapter to the charging battery and sensing whether an overvoltage is charged to the charging battery; Supply from the adapter through a charge control unit for controlling the DC voltage, a battery voltage sensing unit for detecting the voltage level of the charge battery and outputs a detection signal, a power switch for selecting a charging mode and operation mode, and the charging control unit And a switching unit for forming an operation loop according to the operation of the power switch and the DC voltage, the sensing signal provided from the battery sensing unit. The charging unit of claim 1, wherein the switching unit is turned on by a DC voltage output from the charging control unit to ground the output terminal of the battery voltage sensing unit, and is turned on by a DC voltage output from the charging control unit. A second switch for grounding the negative electrode of the battery to form an operation loop, and an operation loop for supplying an operating voltage by grounding the negative electrode of the rechargeable battery when a power supply is required by the power switch when the adapter is blocked; And a fourth switch configured to form a third switch and a fourth switch turned on according to the operation of the power switch to set a mode. The power supply control device according to claim 2, wherein a current sensing resistor is provided between the output terminal of the second switch and the ground to provide the level of the current charged to the charging battery to the charging control unit.