KR200178027Y1 - On/off control circuit of a power amplifier module of a portable phone - Google Patents

Abstract

On / off control circuit of the power amplifier module of the mobile phone according to the present invention, the first switching element for turning on / off the power supply from the power supply (Vcc) to the power amplifier; A second switching element for turning on / off the first switching element; First and second capacitors for removing noise components mixed with power supplied to the power amplifier via a first switching element; A third switching element connected in parallel with a first capacitor and having a base terminal connected to the base terminal of the second switching element; And a diode connected to one end of the parallel connection circuit of the third switching element and the first capacitor.

According to the present invention, in the standby mode of the mobile phone, by rapidly discharging the charge charged in the capacitor can prevent excessive power consumption in the power amplifier module, thereby improving the use time of the mobile phone.

Description

On / off control circuit of a power amplifier module of a portable phone

The present invention relates to a power on / off control circuit of a power amplifier module of a mobile phone. In particular, the present invention can reduce unnecessary power consumption in a power amplifier module in a slotted mode of a mobile phone. An on / off control circuit of a power amplifier module of a mobile phone.

Today, with the remarkable developments in the field of information and communication, there is a rapid change in the information and communication environment. The driving force behind such changes is the expansion of computers and mobile phones. In particular, the popularization of mobile phones is causing a lot of changes in everyday life as well as in the communication environment.

On the other hand, as the use of the mobile phone in this way, the cost problem of using the mobile phone is inevitably considered, and the power consumption problem in the mobile phone can also be overlooked. Therefore, each mobile phone maker is steadily proceeding research and development on this part.

1 is a schematic configuration diagram of an on / off control circuit of a power amplifier module of a conventional mobile phone.

Referring to FIG. 1, an on / off control circuit of a power amplifier module (PAM) of a conventional mobile phone is configured to turn on / off a power supply from a power supply Vcc (not shown) to the PAM 105. A PAM 101 as a switching element, a transistor 102 as a second switching element for turning on / off the FET 101, and the PAM via the FET 101 A first capacitor 103 and a second capacitor 104 for removing a noise component mixed with the current supplied to the 105 are comprised.

The operation of the on / off control circuit of the power amplifier module of the conventional cellular phone having such a configuration will be briefly described as follows.

Since the FET 101 must be turned on in order for the power supply PAM Vcc to be supplied to the PAM 105, the transistor 102 must be turned on in order to turn on the FET 101. Accordingly, the controller (not shown) first inputs the signal PA_ON for turning on / off the PAM 105 as high to the base terminal of the transistor 102 as shown in FIG. 2. Then, the transistor 102 is turned on, so that the gate of the FET 101 is turned to the low potential, and the FET 101 is turned on. Accordingly, the power supply PAM Vcc is supplied to the PAM 105. At this time, the noise component mixed in the direct current of the power supply PAM Vcc is removed by the first capacitor 103 and the second capacitor 104. As described above, when a low signal of PA_ON is input to the base terminal of the transistor 102 from the controller (not shown) while power is supplied to the PAM 105, the transistor 102 is turned off. The FET 101 is also turned off to cut off the power supply to the PAM 105.

However, in the on / off control circuit of the power amplifier module of the conventional mobile phone as described above, as shown in FIG. 2A, when PA_ON is changed from 'Low' to 'High' and from 'High' to 'Low'. Looking at the waveform of the power input to the PAM 105 when it is changed, as shown in Figure 2b, the input power of the PAM 105 is suddenly for a short time when the PA_ON is changed from 'Low' to 'High' The peak value is reached while exhibiting a rising curve. When the PA_ON is changed from 'high' to 'low', the input power of the PAM 105 shows a gentle falling curve characteristic after the maximum value is maintained for a predetermined time. This is due to the operating characteristics of the FET 101 element itself, namely fast 'turn on' and slow 'turn off' characteristics, and the voltage difference between the gate terminal and the source terminal of the FET 101, in particular the first Since the source terminal voltage drops slowly due to the presence of the second capacitors 103 and 104, the 'turn off' time of the FET 101 becomes long. As a result, power is unnecessarily supplied during the period corresponding to 'A' of FIG. 2B, which means excessive power consumption in the PAM 105. This results in excessive power consumption in the standby mode of the mobile phone, which shortens the usage time of the mobile phone.

An object of the present invention is to provide an on / off control circuit of a power amplifier module of a mobile phone that can reduce unnecessary power consumption in the power amplifier module of a mobile phone.

1 is a schematic configuration diagram of an on / off control circuit of a power amplifier module of a conventional mobile phone.

FIG. 2A is a waveform diagram of a PA_ON signal input to transistor Q1 in the circuit of FIG. 1. FIG.

FIG. 2B is a waveform diagram of a PAM input power supply according to the PA_ON signal of FIG. 2A. FIG.

3 is a schematic configuration diagram of an on / off control circuit of a power amplifier module of a mobile phone according to the present invention.

<Description of the code | symbol about the principal part of drawing>

101,301 ... FET (Field Effect Transistor) 102,302,306 ... Transistor

103,303 ... first capacitor 104,304 ... second capacitor

105,305 ... PAM (Power Amplifier Module) 307 ... Diode

On / off control circuit of the power amplifier module of the mobile phone according to the present invention to achieve the above object,

A first switching element for turning on / off a power supply from the power supply Vcc to the power amplifier;

A second switching element for turning on / off the first switching element;

First and second condensers for removing noise components mixed with power supplied to the power amplifier via the first switching element;

A third switching element connected in parallel with the first capacitor and having a base terminal connected to the base terminal of the second switching element; And

It is characterized in that it comprises a diode connected to one end of the parallel connection circuit of the third switching element and the first capacitor.

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

3 is a schematic configuration diagram of an on / off control circuit of a power amplifier module of a mobile phone according to the present invention.

Referring to FIG. 3, the on / off control circuit of the power amplifier module of the mobile phone according to the present invention is not significantly different in the configuration of the on / off circuit of the power amplifier module of the conventional mobile phone. That is, the on / off control circuit of the power amplifier module of the mobile phone according to the present invention includes a FET 301 as a first switching element for turning on / off a power supply from a power supply Vcc (not shown) to the PAM 305. And a noise component incorporated in the transistor (Q1) 302 as a second switching element for turning the FET 301 on and off and the current supplied to the PAM 305 via the FET 301. The first capacitor 303 and the second capacitor 304 are basically provided. In addition, the on / off control circuit of the power amplifier module of the present invention has a transistor (Q2) 306 as a third switching element in parallel with the first capacitor 303 in the branch circuit stage in which the first capacitor 303 is installed. A diode 307 is connected in series to one end of the parallel connection circuit of the Q2 transistor 306 and the first capacitor 303, and the base terminal of the Q2 transistor 306 is connected to the Q1 transistor 302; It is connected to the base terminal.

Then, the operation of the on / off control circuit of the power amplifier module of the mobile phone according to the present invention of such a configuration will be briefly described.

The FET 301 must be turned on for the power supply PAM Vcc to be supplied to the PAM 305, and the Q1 transistor 302 must be turned on for the FET 301 to be turned on. Therefore, the controller (not shown) first inputs the signal PA_ON for turning on / off the PAM 305 high to the base terminal of the Q1 transistor 302. Then, the Q1 transistor 302 is turned on and the Q2 transistor 306 is turned off. When the Q1 transistor 302 is turned on, the gate of the FET 301 is turned low and the FET 301 is turned on. In addition, the diode 307 is turned on when the FET 301 is turned on. Thereby, the power supply PAM Vcc is supplied to the PAM 305, and the noise component mixed in the direct current of the power supply PAM Vcc is removed by the first capacitor 303 and the second capacitor 304. As shown in FIG.

On the other hand, when a low signal of PA_ON is input to the Q1 transistor 302 from the controller (not shown) while power is supplied to the PAM 305 as described above, the Q1 transistor 302 is turned off and Q2 Transistor 306 is turned on. As a result, the FET 301 is also turned off, and the power supply to the PAM 305 is cut off. At this time, the charge charged in the first capacitor 303 is rapidly reduced, the discharge loop (loop) is formed by the second capacitor 304 having a relatively lower capacity than the first capacitor 303 to form the FET 301 The source voltage drops sharply. Thus, the 'turn off' time of the FET 301 is reduced. That is, in FIG. 2B, 'A' according to the 'turn off' time of the FET 301 is significantly reduced. This means that power consumption in the PAM 305 is significantly reduced in the standby mode of the cellular phone, which in turn results in prolonging the usage time of the cellular phone.

As described above, the on / off control circuit of the power amplifier module of the mobile phone according to the present invention includes a means for rapidly discharging the charge charged in the capacitor in the standby mode of the mobile phone. In the standby mode of the power amplifier module can prevent excessive power consumption, thereby increasing the use time of the mobile phone has an advantage.

Claims (1)

A first switching element for turning on / off a power supply from the power supply Vcc to the power amplifier; A second switching element for turning on / off the first switching element; First and second condensers for removing noise components mixed with power supplied to the power amplifier via the first switching element; A third switching element connected in parallel with the first capacitor and having a base terminal connected to the base terminal of the second switching element; And And a diode connected to one end of a parallel connection circuit between the third switching element and the first capacitor.