JP2004096422A - Transmission circuit for mobile wireless terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To validate a power saving effect in a bypass state of a power amplifier circuit by avoiding increase in distortion of a transmission signal and increase in the power consumption in the case of power-amplifying the transmission signal by the power amplifier circuit. <P>SOLUTION: An output path changeover circuit, which selects whether the transmission signal amplified by an amplifier circuit is given to the power amplifier circuit or given to a bypass circuit bypassing the power amplifier circuit depending on an antenna output level, is provided between the amplifier circuit for amplifying the transmission signal and the power amplifier circuit for power-amplifying the transmission signal amplified by the amplifier circuit so as to validate the power saving effect in a bypass state of the power amplifier circuit by eliminating increase in distortion of the transmission signal and increase in the power consumption in the case of non-bypass of the power amplifier circuit. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a transmission circuit of a mobile radio terminal such as a mobile phone, and more particularly to a variable transmission output transmitted from an antenna.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in a wireless communication device such as a mobile phone, a transmission output can be varied based on the intensity of a received signal or a transmission output control signal included in a received signal. In particular, in a CDMA (Code Division Multiple Access) type mobile phone system, the strength of the radio wave transmitted and output by the mobile phone (mobile radio terminal) is determined by the reception strength (the strength of the received radio wave) at the radio base station receiving the radio wave. ) Is regulated so as to fall within a predetermined range, and it is essential that the intensity of the transmission output can be varied.
[0003]
FIG. 3 is a block diagram showing a conventional configuration example of an RF (high frequency) front-end unit of a CDMA mobile radio terminal having a transmission power control function. A low noise amplifier circuit 3 is connected to the antenna 1 via a duplexer 2, and a reception signal processing circuit 4 is connected to a stage subsequent to the low noise amplifier circuit 3 to form a reception system. The low-noise amplifier circuit 3 is provided with a transfer switch SW1 for turning on and off a bypass circuit 20 connecting the input side and the output side to bypass the amplifier circuit 3. A power amplifying circuit 6 having an amplifying circuit 5 for amplifying a transmission signal as a preceding stage and a bypass circuit 7 for bypassing the power amplifying circuit 6 are provided with a switch SW2 for selectively selecting one of the two circuits and connecting to the duplexer 2; A transmission system is configured by being connected to the antenna 1 via the duplexer 2.
[0004]
FIG. 4 is a circuit diagram showing a specific example of the transmission system of the mobile radio terminal corresponding to FIG. The amplifier circuit 5 supplies the transistor Q2, the input capacitor C4 and the input impedance Z6 inserted on the base side of the transistor Q2, and the output impedance Z4 and the power supply voltage VCC2 inserted on the collector side of the transistor Q2 to the collector of the transistor Q2. And a bias circuit 12 for turning on and off the transistor Q2. The power amplifier circuit 6 supplies the transistor Q1, the input capacitor C3 inserted on the base side of the transistor Q1, the output impedance Z1 and the output capacitor C2 inserted on the collector side of the transistor Q1, and the power supply voltage VCC1 to the collector of the transistor Q1. It comprises an impedance Z2 for supplying and a bias circuit 11 for turning on / off the transistor Q1. In addition, the bypass circuit 7 of the power amplifier circuit 6 includes an impedance Z3 and a capacitor C1.
[0005]
The RF signal received by the antenna 1 is input to the low noise amplifier circuit 3 via the duplexer 2 and amplified. The amplified RF signal is subjected to signal processing normally performed by the reception signal processing circuit 4 and output as a reception signal 100. Here, the transfer switch SW1 is turned on when the peak level of the received signal is higher than the set value, whereby the received signal received by the antenna 1 bypasses the low noise amplifier circuit 3 and is directly sent to the received signal processing circuit 4. This prevents an increase in distortion due to an excessively high level of the received signal.
[0006]
On the other hand, the transmission signal 200 is amplified to a predetermined level by the amplification circuit 5, then power-amplified by the power amplification circuit 6 to a power level required for transmission, and transmitted from the antenna 1 via the duplexer 2. In the normal case, the switch SW2 is switched to the terminal b side, and the transmission signal is transmitted from the antenna 1 at the level whose power has been amplified by the power amplifier circuit 6. However, when the mobile radio terminal approaches the base station, the level of the transmission signal input to the amplifier circuit 5 is reduced in order to maintain a certain communication quality. When the required transmission power falls below the maximum output power of the amplifier circuit 5 (the power output from the amplifier circuit 5 when the level of the transmission signal input to the amplifier circuit 5 is maximized), the transistor Q1 is cut off by the bias circuit 11. When the switch is turned off, the switch SW2 is switched to the terminal a side, and the output transmission signal of the amplifier circuit 5 is transmitted directly from the antenna 1 bypassing the power amplifier circuit 6. At this time, the level of the transmission signal input to the amplifier circuit 5 is returned to a level at which the amplifier circuit 5 can transmit at an appropriate power level.
[0007]
[Problems to be solved by the invention]
However, the switching SW2 is actually provided with transfer switches between the duplexer 2 and the power amplifier circuit 6 and between the duplexer 2 and the bypass circuit 7, and switches reciprocally. During transmission, a large-level transmission signal passes through the transfer switch also received between the duplexer 2 and the power amplification circuit 6, so that distortion of the transmission signal increases and insertion loss occurs. In order to compensate for the insertion loss, it is necessary to further increase the output of the power amplifier circuit 6. However, if the output is increased, power consumption will be increased when the power amplifier circuit 6 is not bypassed. This cancels the effect of power and does not contribute to extending the battery life.
[0008]
SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems as described above, and an object of the present invention is to provide a power amplification circuit that eliminates an increase in distortion of a transmission signal and an increase in power consumption when a power amplification circuit is not bypassed. It is an object of the present invention to provide a transmission circuit of a mobile radio terminal that can make the power saving effect at the time of bypassing effective.
[0009]
[Means for Solving the Problems]
The means of the present invention are as follows.
[0010]
The invention according to claim 1 includes an amplifier circuit for amplifying a transmission signal, a power amplifier circuit for power-amplifying an output transmission signal of the amplifier circuit and supplying the amplified signal to an antenna, and an amplifier circuit for transmitting an output transmission signal of the amplifier circuit to the power amplifier circuit. In a transmission circuit of a mobile radio terminal having a bypass circuit for bypassing and supplying to an antenna, whether an output transmission signal of the amplification circuit is input to the power amplification circuit or the same output transmission signal is input to the bypass circuit. And a switching circuit for switching between the two.
[0011]
According to the invention, the output transmission signal of the amplification circuit is switched between being input to the power amplification circuit by the switching circuit or being input to the bypass circuit bypassing the power amplification circuit, and the output level of the transmission signal. Is varied.
[0012]
According to a second aspect of the present invention, in the first aspect, the switching circuit is incorporated as a part of the amplifier circuit.
According to a third aspect of the present invention, in the second aspect, the power amplifier circuit has a collector as the switching circuit between a collector of a first transistor to which a transmission signal is input to a base and a power supply. A second transistor connected to the input side of the bypass circuit and a collector connected in parallel to a third transistor connected to the input side of the bypass circuit, and an output transmission signal of the amplification circuit is input to the power amplification circuit. When turning on, the second transistor is turned on and the third transistor is turned off. When the output transmission signal of the amplifier circuit is input to the bypass circuit, the second transistor is turned off and the second transistor is turned off. 3 is turned on.
[0013]
According to the above invention, the second transistor and the third transistor are connected in parallel between the collector of the first transistor and the power supply, and are incorporated as a part of an amplifier circuit having the first transistor as a main component. Function as a switching circuit, and when the second transistor is turned on and the third transistor is turned off, the transmission signal amplified by the amplifier circuit is input to the power amplifier circuit, and the second transistor is turned off and When the third transistor is turned on, the transmission signal amplified by the amplifier circuit is input to the bypass circuit.
[0014]
According to a fourth aspect of the present invention, in any one of the first aspect, the switching circuit outputs the output of the amplification circuit based on a reception signal level of the mobile radio terminal or a transmission output control signal included in the reception signal. A control unit is provided for switching between inputting a transmission signal to the power amplification circuit and inputting the output transmission signal to the bypass circuit.
[0015]
According to the above invention, the control unit inputs the output transmission signal of the amplification circuit to the power amplification circuit by the switching circuit based on a reception signal level of the mobile radio terminal or a transmission output control signal included in the reception signal. Or whether the output transmission signal is input to the bypass circuit.
[0016]
According to a fifth aspect of the present invention, in any one of the first to fourth aspects, when an output transmission signal of the amplification circuit is input to the bypass circuit by the switching circuit, the power amplification operation of the power amplification circuit is stopped. It is characterized by doing.
[0017]
According to the above invention, when the output transmission signal of the amplification circuit is input to the bypass circuit to bypass the power amplification circuit, the power amplification operation of the power amplification circuit is stopped.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a configuration example of an RF front end unit of a mobile wireless terminal according to one embodiment of the present invention. However, the same parts as in the conventional example will be described with the same reference numerals. The RF front end of the mobile radio terminal has a transmitting / receiving antenna 1 and whether the antenna 1 is connected to the input side of the low noise amplifier circuit 3 of the receiving system or to the output side of the power amplifier circuit 6 of the transmitting system. 2, a low-noise amplifier circuit 3 for amplifying a received signal received by the antenna 1, and a received signal that is connected to a stage subsequent to the low-noise amplifier circuit 3 and performs predetermined processing on the received signal to output a received signal 100. The processing circuit 4, a transfer switch SW 1 for turning on and off a bypass circuit 20 for connecting an input and an output of the low noise amplifier circuit 3, an amplifier circuit 8 for inputting the transmission signal 200, and a power amplifier for power amplifying an output signal of the amplifier circuit 8. A bypass circuit 9 for directly outputting the output signals of the circuit 6 and the amplifier circuit 8 to the duplexer 2 bypassing the power amplifier circuit 6 and an output signal of the amplifier circuit 8 It has a switching circuit 81 that switches between inputting to the power amplifier circuit 6 and inputting to the bypass circuit 9, and a control unit 10 that controls the switching circuit 81 and controls on / off of the power amplifier circuit 6. I have. The switching circuit 81 may be a configuration independent of the amplifier circuit 8, that is, a switching circuit that switches between inputting the output signal from the amplifier circuit 8 to the power amplifier circuit 6 or inputting the signal to the bypass circuit 9. Alternatively, a configuration incorporated in the amplifier circuit 8, that is, an element forming a part of the amplifier circuit may have a function as a switching circuit.
[0019]
FIG. 2 is a circuit diagram showing a specific configuration example of a transmission system circuit section of a mobile radio terminal such as a mobile phone corresponding to FIG. 1, and the above-described element constituting a part of the amplification circuit serves as a switching circuit. 1 shows an example of a configuration having the function of FIG. The power amplifying circuit 6 converts the transistor Q3, the input impedance Z10 and the input capacitor C7 inserted on the base side of the transistor Q3, the output impedance Z7 and the output capacitor C6 inserted on the collector side of the transistor Q3, and the power supply voltage VCC1 into the transistor Q1. , And a bias circuit 13 for turning on and off the transistor Q3.
[0020]
The amplifier circuit 8 includes a transistor Q6, an input capacitor C8 and an input impedance Z13 inserted on the base side of the transistor Q6, two transistors Q4 and Q5 each having an emitter connected to the collector side of the transistor Q6, and a power supply voltage VCC2. An impedance Z11 for supplying the collector of the transistor Q4, an impedance Z12 for supplying the power supply voltage VCC2 to the collector of the transistor Q5, a bias circuit 14 for turning on and off the transistor Q4, and a bias for turning on and off the transistor Q5. It comprises a circuit 16 and a bias circuit 16 for turning on and off the transistor Q6. The amplified signal output terminal of the amplifier circuit 8 is located on the collector side of the transistor Q4 and the collector side of the transistor Q5. The amplified signal output terminal on the collector side of the transistor Q4 is connected to the input impedance Z10, that is, the input side of the power amplifier circuit 6. The amplified signal output terminal on the collector side of the transistor Q5 is connected to the impedance Z9, that is, the input side of the bypass circuit 9 configured by connecting the element and the capacitor C5 in series.
[0021]
Next, the operation of the present embodiment will be described. The operation of the receiving system is the same as that of the related art. The RF signal received by the antenna 1 is input to the low noise amplifier circuit 3 via the duplexer 2 and amplified. The amplified RF signal is subjected to predetermined signal processing usually performed by the reception signal processing circuit 4 and output as a reception signal 100. Here, the transfer switch SW1 is turned on when the peak level of the input received signal is higher than the set value, and the received signal received by the antenna 1 bypasses the low noise amplifier circuit 3 and is directly input to the received signal processing circuit 4. You.
[0022]
Next, the operation of the transmission system will be described. Now, it is assumed that the transmission system is transmitting at the maximum power. In this case, the control unit 10 controls the bias circuits 13 to 16 to turn on the transistors Q3, Q4, and Q6 to bring them into a normal operation state, and to put the transistor Q5 into a cutoff state. In this state, supply of power supply voltage VCC2 to the collector of transistor Q6 is performed via impedance Z11 and transistor Q4, so that transmission signal 200 is amplified by transistor Q6 and output from the amplified signal output terminal on the collector side of transistor Q4. Then, it is applied to the input impedance Z10 of the power amplification circuit 6. Thus, the transmission signal is power-amplified by the transistor Q3 and output to the duplexer 2 via the output impedance Z7 and the capacitor C6.
[0023]
Thereafter, when the mobile radio terminal approaches the base station, in order to maintain the communication quality at a constant level, the control unit 10 controls the transmission signal 200 based on the level of the received signal received and the transmission output control signal included in the received signal. Although the level is reduced, the transmission power required for maintaining the communication quality is increased based on the level of the received signal received by the control unit 10 and the transmission output control signal included in the received signal as the control unit 10 approaches the base station. Control unit 10 controls bias circuits 13 to 15 to cut off transistors Q3 and Q4 and turn on transistor Q5.
[0024]
Thereby, supply of power supply voltage VCC2 to the collector of transistor Q6 is performed via impedance Z12 and transistor Q5, and thus transmission signal 200 is amplified by transistor Q6 and output from the amplified signal output terminal on the collector side of transistor Q5. , Is applied to the impedance Z9 of the bypass circuit 9. That is, the transmission signal bypasses the power amplifier circuit 6 and is directly output to the duplexer 2. The level of the transmission signal 200 input to the base of the transistor Q6 is returned to an appropriate level by the control unit 10 every time the control unit 10 switches on and off the transistors Q3, Q4, and Q5.
[0025]
The control unit 10 turns on and off the transistors Q3, Q4, and Q5 as described above based on the level of the received signal received and the transmission output control signal included in the received signal, and the signal is amplified by the amplifier circuit 8. It controls whether the transmission signal is power-amplified through the power amplification circuit 6 or is directly input to the duplexer 2 through the bypass circuit 9 so as to maintain a constant communication quality level according to the distance between the mobile radio terminal and the base station. In addition, the transmission level is controlled.
[0026]
According to the present embodiment, the transistor Q4 and the transistor Q5 are connected in parallel between the collector of the transistor Q6, which is a main component of the amplifier circuit 8, and the power supply, and are incorporated as a part of the amplifier circuit 8. The transistors Q4 and Q5 are switching circuits that switch between inputting the output of the amplifier circuit 8 to the power amplifier circuit 6 and inputting to the bypass circuit 9 to bypass the power amplifier circuit 6. In other words, The transistors Q4 and Q5 functioning as switching circuits are incorporated as a part of the amplifier circuit 8 and are not provided in the transmission path of the amplified signal, so that distortion and insertion loss of the transmission signal can be suppressed.
[0027]
The present invention is not limited to the above-described embodiment, and may be embodied in various other forms with specific configurations, functions, operations, and effects without departing from the gist thereof. For example, as described above, the switching circuit has a configuration independent of the amplification circuit 8, that is, a configuration for switching between inputting the output signal from the amplification circuit 8 to the power amplification circuit 6 or inputting the signal to the bypass circuit 9. You may. In this case, the switching circuit is provided in the transmission path of the signal amplified by the amplifier circuit, but since the insertion position is not at the output side of the power amplifier circuit 6, the switching circuit will be described with reference to FIGS. As compared with the related art, distortion and insertion loss of a transmission signal can be suppressed. Further, in the above-described embodiment, a mobile phone has been described as an example of a mobile wireless terminal. However, any terminal having a wireless communication function, such as a PDA or a portable personal computer, can apply the present invention to achieve similar effects. Obtainable.
[0028]
【The invention's effect】
As described above in detail, according to the present invention, it is possible to eliminate the increase in the distortion of the transmission signal when the power amplifying circuit is not bypassed and eliminate the increase in power consumption, thereby effectively saving power when bypassing the power amplifying circuit. Battery life can be extended.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration example of an RF front end unit of a mobile wireless terminal according to one embodiment of the present invention.
FIG. 2 is a circuit diagram showing a specific configuration example of a transmission circuit of the mobile wireless terminal corresponding to FIG.
FIG. 3 is a block diagram showing a configuration example of an RF front end unit of a conventional mobile radio terminal.
FIG. 4 is a circuit diagram showing a specific configuration example of a transmission circuit of the mobile radio terminal corresponding to FIG.
[Explanation of symbols]
REFERENCE SIGNS LIST 1 antenna 2 duplexer 3 low-noise amplifier 4 reception signal processing circuit 6 power amplifier 8 amplifier 9, 20 bypass circuit 10 control unit 13, 14, 15, 16 bias circuit 81 switching circuit Q3 to Q5 transistor SW1 transfer switch

Claims (5)

An amplifier circuit for amplifying a transmission signal; a power amplification circuit for power-amplifying an output transmission signal of the amplification circuit and supplying the amplified transmission signal to an antenna; and supplying an output transmission signal of the amplification circuit to the antenna bypassing the power amplification circuit. In a transmission circuit of a mobile radio terminal having a bypass circuit,
A transmission circuit for a mobile radio terminal, comprising: a switching circuit that switches between inputting an output transmission signal of the amplification circuit to the power amplification circuit and inputting the output transmission signal to the bypass circuit. The transmission circuit according to claim 1, wherein the switching circuit is incorporated as a part of the amplification circuit. The amplifying circuit includes a second transistor having a collector connected to an input side of the power amplifying circuit, and a collector connected between a collector of a first transistor having a base to which a transmission signal is input and a power supply. Is connected in parallel with a third transistor connected to the input side of the bypass circuit, and when the output transmission signal of the amplification circuit is input to the power amplification circuit, the second transistor is turned on. The third transistor is turned off, and the second transistor is turned off and the third transistor is turned on when an output transmission signal of the amplifier circuit is input to the bypass circuit. 3. The transmission circuit of the mobile radio terminal according to 2. Based on a reception signal level of the mobile radio terminal or a transmission output control signal included in the reception signal, the switching circuit inputs an output transmission signal of the amplification circuit to the power amplification circuit, or outputs the output transmission signal. 4. The transmission circuit for a mobile radio terminal according to claim 1, further comprising a control unit for switching whether to input to the bypass circuit. The power amplification operation of the power amplification circuit is stopped when an output transmission signal of the amplification circuit is input to the bypass circuit by the switching circuit. Transmission circuit of mobile radio terminal.

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