KR101207449B1 - Connecting interface circuit for mobile communication terminal - Google Patents

Abstract

The present invention relates to a connection interface circuit of a mobile communication terminal, comprising: a power input terminal for inputting an external power source; A power output stage for power output; A first switch interposed on a first power line connected from the power input terminal to the power output terminal, the first switch being turned on so that power input through the power input terminal is applied to the output terminal during the first mode operation and turned off when the power input according to the second mode operation is performed; Wow; A second power line interposed between the power input terminal and the power output terminal, the second power line being turned on in response to a switching control signal from the outside during the second mode operation to operate so that the power input through the power input terminal is applied to the output terminal; It characterized in that it comprises a switch. As a result, a single input line provided for inputting an external signal to the mobile communication terminal can be used for input of different signals.

Description

Connecting interface circuit for mobile communication terminal

1 is a circuit diagram of a connection interface for calibration of a conventional mobile communication terminal,

2 is a circuit diagram of a connection interface of a mobile communication terminal according to the present invention.

DESCRIPTION OF THE REFERENCE SYMBOLS

 1: Battery 20: Charging Switch

22: resistance 30: calibration switch

32: regulation circuit

The present invention relates to a connection interface circuit of a mobile communication terminal.

The mobile communication terminal has a connection interface for connecting an external device to support a function of interworking with the external device. The connection interface includes a plurality of input / output signal pins, and each pin is assigned to a battery charging pin, a handsfree pin, a data communication pin, and the like.

Meanwhile, even when the mobile communication terminal is manufactured in the same manner, device transmission and reception characteristics may be different. Accordingly, a calibration process for adjusting a set value such as an amplifier gain is required so that each mobile communication terminal can operate at optimal performance. When performing the calibration of the mobile communication terminal, the test equipment is connected to the connection interface of the mobile communication terminal, RF wireless power is input to the mobile communication terminal, and the reception power of the mobile communication terminal is measured to measure the performance of the mobile communication terminal. You will find a setpoint that is optimally maintained. Thus, by connecting the test equipment for calibration to the connection interface of the mobile communication terminal and inputs a signal for the performance test to the mobile communication terminal, a dedicated pin for performing the calibration is not assigned depending on the type of the connection interface. have.

For example, in the case of terminals for Japan, the connection interface is standardized to 10 pins, and a dedicated pin for performing calibration is not assigned. In the case of such a mobile communication terminal, an RF power for performing calibration is input through a pin allocated for charging a battery.

1 is a connection interface circuit diagram of such a conventional mobile communication terminal, and shows a connection interface circuit in which a battery charging path is used as a calibration path.

As shown in FIG. 1, the connection interface circuit includes a charging switching signal for turning on the charging switch 10 when a 5V DC power supply (+ 5V_PWR) for charging the battery 1 is input from an external adapter (not shown). CHG_CNT_N is applied to turn on the charging switch 10.

Thus, a 5V DC power supply (+ 5V_PWR) for charging is supplied to the charging power supply (+ VPWR) of the battery 1 to charge the power of the battery 1. When the battery 1 is charged, the charging power (+ VPWR) of the battery 1 is supplied in a constant current-constant voltage manner according to a charging algorithm. Accordingly, when the voltage across both ends of the resistor 12 drops, it is determined that the amount of the charging currents ICHARGE and ICHARGEOU is excessive (for example, 1A or more) and cuts the 5V DC power supply (+ 5V_PWR) to supply power to the mobile communication terminal. Off to limit the amount of current.

On the other hand, when performing calibration of the mobile communication terminal through the connection interface circuit, the calibration power should be supplied to the input terminal of the 5V DC power supply (+ 5V_PWR). Accordingly, when the power supply for calibration (+ 5V_PWR) is input, the charging switching signal CHG_CNT_N for turning on the charging switch 10 is applied to turn on the charging switch 10.

Accordingly, a 5V DC power supply (+ 5V_PWR) for calibration is supplied to the VCC voltage of the amplifier module (PAM) of the RF module through the charging power supply (+ VPWR) terminal of the battery 1. However, during calibration, a larger current flows than when the battery 1 is charged. As a result, the 5V DC power supply (+ 5V_PWR) is cut off according to the current amount of the charging algorithm, thereby causing the mobile terminal to be turned off.

That is, when one connection interface circuit is used for different purposes, there is a problem that the mobile communication terminal performs an unintended operation.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and an object thereof is to provide a connection interface circuit of a mobile communication terminal that enables a single input line provided for external signal input to be used for different purposes.

A connection interface circuit of a mobile communication terminal according to the present invention for achieving the above object includes a power input terminal for inputting an external power source; A power output stage for power output; A first switch interposed on a first power line connected from the power input terminal to the power output terminal, the first switch being turned on so that power input through the power input terminal is applied to the output terminal during the first mode operation and turned off when the power input according to the second mode operation is performed; Wow; A second power line interposed between the power input terminal and the power output terminal, the second power line being turned on in response to a switching control signal from the outside during the second mode operation to operate so that the power input through the power input terminal is applied to the output terminal; It characterized in that it comprises a switch.

The control circuit may further include a regulation circuit interposed in the second power line to convert the power input through the power input terminal into a power having a predetermined voltage and output the power to the power output terminal.

In addition, the first switch may be turned off according to a current or voltage characteristic of a power source input according to the second mode operation.

The second switch may be turned on by receiving a GPIO signal generated when the second mode enters the switching control signal.

The first mode may be a battery charging mode, and the second mode may be a calibration mode.

Hereinafter, a connection interface circuit of a mobile communication terminal according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a circuit diagram of a connection interface of a mobile communication terminal according to the present invention, and illustrates a connection interface circuit for sharing an input line of 5V charging power as a calibration input line.

As shown in FIG. 2, the present connection interface circuit is branched from the first power line together with a first power line for connecting a 5V DC power supply (+ 5V_PWR) to the output power supply (+ VPWR) and output power (+ And a second power supply line connected to the output line of the VPWR.

The first power line has a charge switch (20) 20 that is turned on by receiving the charging switching signal (CHG_CNT_N) when the 5V DC power (+ 5V_PWR) input, and a resistor (22) for detecting the voltage drop according to the charging algorithm ) Is interposed. Thus, when the voltage across both ends of the resistor 22 drops, the charge switches 20 and 20 are turned off to limit the charge currents ICHARGE and ICHARGEOU.

On the second power line, the calibration switches 30 and 30 turned on when entering the calibration mode and the 5V power applied to the second power line are reduced to 4V calibration power and applied to the output line of the output power (+ VPWR). The regulation circuit 32 is interposed.

When the second switch enters the calibration mode, the second switch may be turned on by receiving a GPIO signal generated by a predetermined software. Thus, the input power applied to the second line is adjusted to a 4V power supply for calibration through the regulation circuit 32. do.

Here, a 5V DC power supply (+ 5V_PWR), which is an input power supply of the regulation circuit 32, and a 4V output power supply of the regulation circuit 32 are respectively connected to both ends of the resistor 22 for detecting a voltage drop according to a charging algorithm. do. Accordingly, when power is supplied through the second power line, the first power line determines that the voltage has dropped through the voltages 4V and 5V of the resistor 22, and turns off the first switch. Power is supplied only through the line.

According to this configuration, when a 5V DC power supply (+ 5V_PWR) for charging the battery 1 is input, the charging switching signal CHG_CNT_N is applied to turn on the charging switches 20 and 10. Thus, 5V DC power (+ 5V_PWR) for charging is supplied to the charging power (+ VPWR) of the battery 1 along the first power line to charge the power of the battery 1.

On the other hand, when entering the calibration mode of the mobile communication terminal GPIO signal generated by the software is applied to the calibration switch 30 is turned on, 5V DC power supply (+ 5V_PWR) is 4V for calibration through the regulation circuit (32) After being adjusted to the power supply, it is supplied to the VCC voltage of the amplifier module (PAM) of the RF module through the output power (+ VPWR) terminal.

At this time, the input and output voltages (4V, 5V) of the regulation circuit 32 is sensed at both ends of the resistor 22 of the first power line to turn off the first switch to limit the current according to the charging algorithm, so only through the second power line. Power is supplied.

As described above, the present invention includes a second power supply line branched from the 5V charging line to supply the calibration power supply, and a calibration power supply regulation with the calibration switch 30 to be turned on when the calibration entry is applied to supply the power supply to the second power supply line. The regulation circuit 32 is provided for this. In addition, when power is applied to the second power line according to the calibration, the first power line, which is the supply line of the charging power, is turned off according to the charging algorithm.

Accordingly, when performing calibration using a 5V charging line in a Japanese terminal for which a 4.2V dedicated pin for calibration is not provided, power can be prevented from being turned off by a charging algorithm.

As described above, the embodiment according to the present invention is not limited to the above, and various modifications can be made within the scope apparent to those skilled in the art in connection with the present invention.

As described above, the connection interface circuit of the mobile communication terminal of the present invention connects a power line to which power is supplied in a first mode and a second power line to which power is supplied in a second mode to one input terminal. On / off switch for each mode execution is interposed on each power line to control the input / output of power.

Accordingly, a single input line provided for inputting an external signal in the mobile communication terminal can be used for input of different signals.

Claims (5)

A power input terminal for inputting an external power source; A power output stage for power output; Interposed on a first power line connected from the power input terminal to the power output terminal, the external power input through the power input terminal is turned on to be supplied to the power output terminal when operating in a battery charging mode, and is turned on when operating in a calibration mode. A first switch turned off; Interposed on a second power line connected from the power input terminal to the power output terminal, the external power input through the power input terminal is turned on to be applied to the power output terminal when operating in the calibration mode, and operated in the battery charging mode. And a second switch that is turned off when the mobile communication terminal is connected. The method of claim 1, And a regulation circuit interposed on the second power line and configured to convert the external power input through the second switch to a predetermined voltage and output the power to the power output terminal. . The method of claim 2, Both ends are respectively connected to an input terminal and an output terminal of the regulation circuit, and further include a resistor used to detect a voltage drop by the regulation circuit when operating in the calibration mode. And the first switch is turned off as the voltage drop by the regulation circuit is sensed through the resistor in the calibration mode. The method of claim 1, The second switch is turned on or off in accordance with a switching control signal input from the outside, And the switching control signal is a GPIO signal. delete

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