JP2010252135A - Communication module and communication terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication module comprising a directional coupler capable of sharing a plurality of transmission systems. <P>SOLUTION: At an output side of a transmission circuit 12, three power amplifiers 14a-14c are arranged for amplifying transmission signals of frequency bands different from each other. A switch 18 switches to connect with one of the power amplifiers 14a-14c. In the middle of a line from the switch 18 to a transmission antenna 20, one directional coupler 22 is arranged which is coupled with a transmission signal. Output from the directional coupler 22 is detected by a power detection circuit 26. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a communication module and a communication terminal mounted on a communication terminal such as a mobile phone.

In a general configuration of a communication module of a cellular phone, a high-frequency transmission circuit responsible for a transmission system, a power amplifier that amplifies a transmission signal output from the high-frequency transmission circuit, a directional coupler disposed on the output side of the power amplifier, power A detection circuit is provided.
The directional coupler outputs a signal corresponding to the transmission signal, and the power detection circuit detects the output signal. The detection result is used for output control of transmission signals in the transmission system (transmission power control for high-frequency transmission and amplification factor control for power amplifiers) (see, for example, Patent Document 1).

  In FIG. 1 of Patent Document 1, two couplers (directional couplers) are arranged according to two frequency bands.

JP 2003-008470 A

By the way, in the cellular phone, there is a tendency that correspondence to a plurality of frequency bands (multiband) is advanced. For this reason, if the number of directional couplers is arranged according to the corresponding frequency band, problems such as high cost due to an increase in the number of components and an increase in mounting area and hindering downsizing and weight reduction become prominent. It is possible.
The present invention has been made under such a background, and in a communication module mounted on a communication terminal such as a mobile phone, a communication module capable of suppressing an increase in the number of directional couplers due to the multibanding. And it aims at providing the communication terminal provided with such a communication module.

  A communication module according to the present invention includes a plurality of power amplifiers that amplify transmission signals of different frequency bands, a switch that selectively switches the outputs of the plurality of power amplifiers, and a line that extends from the switch to the transmitting antenna. And a directional coupler for outputting a signal corresponding to the amplified transmission signal, and a detection circuit for detecting the signal output from the directional coupler. .

Further, a signal output from the directional coupler is changed between the directional coupler and the detection circuit according to a frequency band of a transmission signal amplified by a power amplifier to which the switch is connected. A changer may be provided, and the detection circuit may detect a signal changed by the changer.
The changer may be a variable attenuator that attenuates a signal output from the directional coupler, and the detection circuit may detect the signal attenuated by the variable attenuator.

  A communication terminal according to the present invention includes the communication module.

  ADVANTAGE OF THE INVENTION According to this invention, in the communication module mounted in communication terminals, such as a mobile telephone, and the communication terminal provided with such a communication module, the increase in the number of directional couplers accompanying multiband-ization can be suppressed.

1 is a diagram showing a mobile phone 1. FIG. It is a figure which shows a communication module. It is a figure which shows the modification of a communication module.

Hereinafter, an embodiment of the present invention will be described by taking a mobile phone as an example of a communication terminal.
FIG. 1 is a diagram showing a mobile phone 1.
As shown in FIG. 1, the mobile phone 1 includes a display 2, a general folding housing 4, and an operation key unit 6 including dial keys and cursor keys. A communication module (high frequency module) is disposed inside the housing 4.

The communication module will be described with reference to FIG.
As shown in FIG. 2, the communication module includes a transmission circuit 12, power amplifiers 14a to 14c, duplexers 16a to 16c, a switch 18, an antenna 20, a directional coupler 22, a power detection circuit 26, and a variable attenuator. 24.
The power amplifiers 14a to 14c amplify the power of transmission signals in the 1.9 GHz band, 900 MHz band, and 800 MHz band, respectively.

The duplexers 16 a to 16 c separate the transmission signal (TX) to the antenna 20 and the reception signal (RX) from the antenna 20. The duplexers 16a to 16c can share the antenna 20 for transmission and reception.
The switch 18 includes (1) a system to the duplexer 16a and the power amplifier 14a, (2) a system to the duplexer 16b and the power amplifier 14b, (3) a system to the duplexer 16c and the power amplifier 14c, and connection to these three systems. Are switched alternatively according to the frequency band to be transmitted / received.

The directional coupler 22 is disposed in the middle of the line from the switch 18 to the antenna 20 and couples with a signal flowing through the line. The directional coupler 22 includes ports P1 to P4. The operating frequency range is, for example, 400 MHz to 5 GHz, and the degree of coupling is, for example, 20 ± 5 dB.
In particular, the directional coupler 22 outputs a signal as a traveling wave from the forward P4 in response to the transmission signal flowing from P2 to P1. The signal output (reflected wave output) from P3 in the reverse direction terminates at the terminal 23.

  The variable attenuator 24 receives a signal indicating the frequency band being transmitted by the transmission circuit 12 from the transmission circuit 12, and varies (controls) the attenuation rate according to the frequency band being transmitted. In particular, when the three frequency bands are greatly different, the degree of coupling of the directional coupler 22 varies greatly depending on the frequency band. As described above, by changing the attenuation rate of the variable attenuator 24 in accordance with the frequency band, the output of the signal from the directional coupler 22 is adjusted so that the power detection circuit 26 can normally be detected. be able to.

The power detection circuit 26 detects the output of the directional coupler 22 that has passed through the variable attenuator 24. The detected output is used for control of transmission power of the transmission circuit 12 (or control of amplification factors of the power amplifiers 14a to 14c).
Next, the flow of signals in the communication module will be described in the order of the transmission system and the reception system, taking as an example the case of using signals in the 800 MHz band.

First, in the transmission system, the 800 MHz band transmission signal output from the transmission circuit 12 is input to the power amplifier 14b. The power amplifier 14 b amplifies the power of the input transmission signal, and the amplified transmission signal is transmitted from the antenna 20 through the duplexer 16 b and the switch 18.
During this transmission, the directional coupler 22 takes out a transmission signal flowing from P2 to P1, and outputs it as a traveling wave from P4. The traveling wave output from P4 is attenuated by the variable attenuator 24 and then detected by the power detection circuit 26. As described above, the detection result by the power detection circuit 26 is used for controlling the amplification factor of the transmission circuit 12.

The detection result by the power detection circuit 26 is used for controlling the amplification factor of the transmission circuit 12, or is used for controlling the amplification factor of the transmission circuit 12, and the power amplifiers 14a, 14b, It may be used for controlling the gain of 14c.
On the other hand, for the reception system, the reception signal received by the antenna 20 is input to the reception circuit through the switch 18 and the duplexer 16b, and is subjected to signal processing in the reception circuit.

As described above, the directional coupler 22 outputs a signal corresponding to the transmission signal flowing from the switch 18 to the antenna 20 to the power detection circuit 26 side. By switching the connection destination of the switch 18, one directional coupler 22 can output signals corresponding to transmission signals output from the three power amplifiers 14a to 14c to the power detection circuit 24 side.
Thus, the output according to the transmission signals of the three power amplifiers 14a to 14c can be generated by one directional coupler 22, and can be used for detection. Therefore, an increase in the number of directional couplers due to the three bands can be suppressed.

  Further, according to the communication module according to the present embodiment, the directional coupler arranged in the middle of the line from the switch to the transmitting antenna is transmitted by being amplified by the power amplifier to which the switch is connected. A signal corresponding to the signal is output. By switching the connection destination of the switch, the directional coupler can output signals corresponding to transmission signals (of different frequency bands) of different power amplifiers. That is, transmission signals in a plurality of frequency bands can be detected using a single directional coupler. As a result, an increase in the number of directional couplers due to the multibanding can be suppressed, and cost reduction and mounting area deletion can be achieved.

(Modification)
The present invention is not limited to the communication module described with reference to FIG. 2, and a configuration of the communication module as shown in FIG. 3 is also conceivable. Hereinafter, it demonstrates as a modification which concerns on embodiment.
The communication module in FIG. 3 is basically the same as the communication module shown in FIG. 2 except that there are no duplexers 16a to 16c, and that the switch 19 includes three transmission systems including power amplifiers 14a to 14c and The difference is that six systems are switched among the three reception systems.

The operation of the communication module shown in FIG. 3 is basically the same as that described with reference to FIG.
First, in the transmission system, the switch 19 is switched to, for example, connection with the power amplifier 14 b, and the transmission signal output from the transmission circuit 12 is transmitted from the antenna 20 through the power amplifier 14 b and the switch 19.

During this transmission, the traveling wave output from P4 of the directional coupler 22 is attenuated by the variable attenuator 24 and then detected by the power detection circuit, and the detection result is the amplification factor of the transmission circuit 12. It will be used for the control of.
Next, in the reception system, the switch 19 is switched to connection with one of the three reception circuits, and the reception signal received by the antenna 20 is input to the connection destination reception circuit through the switch 19. .

As shown in FIG. 3, even in a simple communication module that does not include a duplexer, the directional coupler 22 can perform output according to the transmission signals of the three power amplifiers 14a to 14c, and can be used for detection.
(Supplement)
As mentioned above, although embodiment of this invention was described, this invention is not limited to said content, It can implement also in the various forms for achieving the objective of this invention, its related or incidental object, for example, The following may also be used.
(1) The configuration of the communication module shown in FIGS. 2 and 3 is merely an example. For example, a matching circuit, a filter for dividing a frequency band, a noise filter, and the like may be configured using various circuit components. I do not care.
(2) In the embodiment, it has been described that the transmission power of transmission signals of three different frequency bands is monitored by one directional coupler 22, but two different frequencies are obtained by one directional coupler. The transmission signal of the band may be monitored. In short, transmission power in a plurality of (two or more) frequency bands may be monitored by one directional coupler.
(3) In the embodiment, the value of the frequency band in which each of the power amplifiers 14a to 14c amplifies the power and the specification of the directional coupler 22 are specifically described. However, the present invention is not limited thereto.
(4) In the embodiment, the directional coupler 22 has been described as including all three frequency bands in the operating frequency range. Thus, if three frequency bands are included in the frequency range in which the directional coupler 22 operates, detection can be efficiently performed with a high degree of coupling.

However, a frequency band slightly deviating from the frequency range in which the directional coupler 22 operates may exist. If there is a frequency band that is out of the operating range, the variation in the coupling degree of each frequency band becomes particularly large. For this, for example, the degree of coupling of each frequency band is measured in advance by an experiment or the like, and the attenuation rate of the variable attenuator 24 for each frequency band is appropriately adjusted based on the measurement result. And can be used for detection.
(5) In the embodiment, a mobile phone has been described as an example of a communication terminal. However, the present invention can be applied to a mobile terminal such as a PDA (Personal Data Assistance) and other various communication terminals.
(6) In the embodiment, the output from the directional coupler 22 is input to the variable attenuator 24. However, in the present invention, the output from the directional coupler 22 is input as the variable attenuation. For example, it is a variable amplifier that amplifies the output from the directional coupler 22 or changes the output, that is, the output from the directional coupler 22 is controlled. Thus, a variable changer that switches between attenuation and amplification may be used.

  The communication module according to the present invention is useful because it can cope with multiband while suppressing an increase in the number of directional couplers.

DESCRIPTION OF SYMBOLS 1 Cellular phone 12 Transmission circuit 14a-14c Power amplifier 16a-16c Duplexer 18, 19 Switch (switching device)
20 antenna 22 directional coupler 24 variable attenuator 26 power detection circuit

Claims (4)

A plurality of power amplifiers each amplifying transmission signals of different frequency bands;
A switch for selectively switching the outputs of the plurality of power amplifiers;
A directional coupler for outputting a signal corresponding to the amplified transmission signal, disposed in the middle of the line from the switch to the transmitting antenna;
A communication module comprising: a detection circuit that detects a signal output from the directional coupler. A changer for changing a signal output from the directional coupler between the directional coupler and the detection circuit according to a frequency band of a transmission signal amplified by a power amplifier to which the switch is connected With
The communication module according to claim 1, wherein the detection circuit detects a signal changed by the changer. The changer is
A variable attenuator that attenuates a signal output from the directional coupler;
The communication module according to claim 2, wherein the detection circuit detects a signal attenuated by the variable attenuator.   A communication terminal comprising the communication module according to any one of claims 1 to 3.

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