KR100626216B1 - Apparatus and method for controling bias of power amplifier in mobile communication terminal - Google Patents

Abstract

The present invention relates to an apparatus and method for controlling a bias voltage of a power amplifier in a mobile communication terminal. The present invention divides an entire power section into a high gain mode section and a low gain mode section, and determines a mode according to a received signal strength. The power amplifier includes a control unit for outputting a control signal according to the determined mode, a control circuit for generating a reference voltage according to the determined mode according to the control signal from the control unit, and a DC voltage according to the reference voltage from the control circuit. And a DC / DC converter applied with a bias voltage of the power amplifier, wherein the power amplifier amplifies and outputs a high frequency signal input by operating according to the bias voltage from the DC / DC converter.

The present invention not only increases the power efficiency of the power amplifier, but also has the effect of reducing heat generation and current consumption in the power amplifier.

PAM, Power Amplifier, Bias Voltage

Description

Apparatus and method for controlling bias voltage of power amplifier in mobile communication terminal {APPARATUS AND METHOD FOR CONTROLING BIAS OF POWER AMPLIFIER IN MOBILE COMMUNICATION TERMINAL}             

1 is a view showing a bias voltage control circuit of a power amplifier of a general mobile communication terminal;

2 is a view showing the configuration of a power amplifier according to an embodiment of the present invention;

3 is a circuit diagram of a control circuit added to a power amplifier stage according to an embodiment of the present invention.

The present invention relates to an apparatus and method for controlling a power amplifier module (PAM) bias voltage of a mobile communication terminal. In particular, the present invention provides a minimum driving voltage for operating in a high gain mode with a power amplifier in a high gain mode. An apparatus and method for reducing current consumption.

The power amplifier is a component that greatly influences the battery life of the mobile communication terminal, so high efficiency characteristics are required to increase the life of the battery. According to the prior art, the power amplifier is designed in consideration of power efficiency and linearity when the RF (Radio Frequency) output is the maximum. That is, to satisfy the maximum efficiency and linearity at the same time, it is designed to class AB, and the impedance matching and bias state of each stage are fixed.

However, the mobile terminal is not always driven at full power. For example, the transmission output is variable depending on the distance to the base station and the moving speed of the user. That is, when the distance between base stations is close, the transmit power is relatively decreased. When the user moves to the farthest distance within the cell radius or when the moving speed increases, the RF output close to the maximum output of the amplifier is transmitted. do.

In the mobile communication terminal according to the related art, although the transmission output varies according to the received signal strength, a fixed maximum bias voltage is applied to the power amplifier. As described above, since the bias voltage and the current of the power amplifier are fixed to the RF maximum output, when the received signal strength is high and the transmission output is small, power added efficiency (PAE) of the power amplifier is greatly reduced. . This is because the bias state, which used to operate at AB level near the maximum output level, actually operates at Class A as the output level decreases, and as a result, it consumes more DC power than necessary, thereby increasing the heat generation in the power amplifier. have. To solve this problem, one of the proposed methods divides the output state into high gain mode and low gain mode to apply the maximum bias voltage of the power amplifier to the battery in the high gain mode, and to bias the DC / DC converter in the low gain mode. How to input the voltage.

1 illustrates an apparatus for controlling a power amplifier bias voltage in a mobile communication terminal according to the related art. When the received signal strength is smaller than the set reference value, it is referred to as a high gain mode. In the high gain mode, the controller 103 sets the switch 105 to the A state to power the DC voltage from the battery 104. The bias voltage of the amplifier 101 is applied. On the contrary, if the received signal strength is greater than the reference value, it is referred to as a low gain mode. In the low gain mode, the controller 103 sets the switch 105 to a B state and performs a DC / DC converter (DC / DC). The DC voltage from the converter 102 is applied as the bias voltage of the power amplifier 104.

This method is improved over when using a single bias voltage fixed at maximum output. However, there are still problems. In other words, by using the entire power range divided into the high gain mode and the low gain mode, it is possible to reduce the current consumption in the low gain mode. However, in the high gain mode, the power efficiency P.A.E is reduced because the maximum output bias voltage is applied to the power amplifier regardless of the output state. As a result, it consumes more current than necessary, resulting in an increase in heat generation of the power amplifier.

It is therefore an object of the present invention to provide an apparatus and method for a power amplifier using a DC / DC converter for a bias voltage for operating in a high gain mode.                         

It is still another object of the present invention to provide an apparatus and method for providing a minimum bias voltage for operating in a high gain mode as a power amplifier in a high gain mode.

It is still another object of the present invention to provide an apparatus and method for reducing heat generation and current consumption of the power amplifier in a high gain mode.

According to the present invention for achieving the above object, the apparatus for controlling the bias voltage of the power amplifier in the mobile communication terminal having a power amplifier for power amplifying the input high-frequency signal, the entire power interval is high gain mode interval and low A control circuit for classifying a gain mode section, determining a mode according to a received signal strength, and outputting a control signal according to the determined mode, a control circuit for generating a reference voltage according to the determined mode according to the control signal from the controller; And a DC / DC converter for applying a DC voltage according to the reference voltage from the control circuit as a bias voltage of the power amplifier, wherein the power amplifier is operated by being input according to a bias voltage from the DC / DC converter. Amplifying and outputting a high frequency signal.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The present invention provides a method for supplying a minimum voltage for operating in the high gain mode using a DC / DC converter as a power amplifier in a high gain mode in which a received signal strength is smaller than a predetermined reference in a mobile communication terminal. This will be described. As such, when the minimum voltage for operating in the high gain mode is provided as the bias voltage of the power amplifier in the high gain mode, current consumption and heat generation of the power amplifier may be reduced. The minimum voltage may be obtained through simulation.

2 illustrates an apparatus for controlling bias voltage of a power amplifier according to an embodiment of the present invention.

As shown, the power amplifier stage according to the present invention is composed of a power amplifier 201, a DC / DC converter 202, a control circuit 203, the control unit 204.

2, although not shown first, the antenna receives a signal from the base station or transmits a power amplified output high frequency signal (transmission signal) to the base station.

The controller 204 controls the overall operation of the mobile communication terminal. In particular, when the received signal strength is less than the set reference value according to the present invention, the high gain mode (High gain mode), in contrast, if the large gain mode (Low gain mode) is determined to switch the control circuit 203 according to the present invention. Outputs a switch control signal for control.

The control circuit 203 provides a reference voltage Vref according to the determined mode to the DC / DC converter 202 according to a switch control signal applied by the controller 204 according to the present invention. Here, the reference voltage according to the high gain mode is referred to as a 'first reference voltage', and the reference voltage according to the low gain mode is referred to as a 'second reference voltage'. The DC / DC converter 202 applies the corresponding bias voltage to the power amplifier 201 by the reference voltages corresponding to the high gain mode and the low gain mode, respectively.

3 is a detailed circuit diagram of the control circuit 203. Referring to FIG. 3, in the high gain mode, the switch 301 of the control circuit 203 is switched to the 'first state' by the switch control signal from the controller 204. Then, the control circuit 203 provides the DC / DC converter 202 with the voltage determined by the resistor 'R1' and the resistor 'R3' as the 'first reference voltage'. In the low gain mode, the switch 301 is switched to the 'second state' by the switch control signal from the controller 204. Then, the control circuit 203 provides the DC / DC converter 202 with a 'second reference voltage' determined by the resistor 'R1' and the resistor 'R2'. Here, the 'second reference voltage' may be the same as the reference voltage used in the low gain mode described in FIG.

The DC / DC converter 202 receives a reference voltage Vref from the control circuit 203 and provides a DC voltage according to the reference voltage as a bias voltage of the power amplifier 201. For example, when the first reference voltage is input from the control circuit 203, the power amplifier 201 applies a minimum bias voltage to the power amplifier 201 to operate in a high gain mode. When the second reference voltage is input from the control circuit 203, a bias voltage for operating the power amplifier 201 in a low gain mode is applied to the power amplifier 201.

The power amplifier module (PAM) 201 sufficiently amplifies the RF signal input to the RF input terminal (RFin) by the bias voltage provided from the DC / DC converter 202 and provides it to the antenna.

As described above, when the entire power range is divided into a high gain mode section and a low gain mode section, the high gain mode also provides a bias voltage of the power amplifier, thereby reducing current consumption and heat generation of the power amplifier. Can be.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

As described above, the present invention only increases the power efficiency of the power amplifier by providing a DC / DC converter with a minimum bias voltage for operating in the high gain mode with the power amplifier when the mobile communication terminal operates in the high gain mode. In addition, there is an advantage that can reduce heat generation and current consumption in the power amplifier. In addition, by eliminating the conventional configuration of providing a bias voltage to the power amplifier from the battery, there is an advantage that the hardware becomes simpler.

Claims (4)

An apparatus for controlling a bias voltage of a power amplifier in a mobile communication terminal having a power amplifier for power amplifying an input high frequency signal,  A controller for dividing the entire power section into a high gain mode section and a low gain mode section, determining a mode according to a received signal strength, and outputting a control signal according to the determined mode; A control circuit for generating a first reference voltage in a high gain mode and a second reference voltage in a low gain mode according to the control signal from the controller; And a DC / DC converter for applying a different bias voltage to the power amplifier in accordance with the first reference voltage or the second reference voltage from the control circuit. The method of claim 1, In the high gain mode, the DC / DC converter applies a minimum bias voltage to the power amplifier in which the power amplifier can operate in the high gain mode according to a reference voltage applied by the control circuit. . A method for controlling a bias voltage of a power amplifier in a mobile communication terminal, the power amplifier comprising a power amplifier for generating a transmission signal by amplifying a high frequency signal input according to a received signal strength, Dividing the entire power section into a high gain mode section and a low gain mode section, determining the mode according to the received signal strength, According to the determined mode, the control circuit generates a first reference voltage in the high gain mode and a second reference voltage in the low gain mode, so that the bias voltage of the power amplifier according to the first reference voltage or the second reference voltage is generated. Is generated using a DC / DC converter, And applying the generated bias voltage to the power amplifier. The method of claim 3, wherein And in said high gain mode, said DC / DC converter applies a minimum bias voltage for said power amplifier to operate in said high gain mode.

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