JP3623731B2 - Mobile radio terminal device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mobile radio terminal apparatus, and more particularly to a mobile radio terminal apparatus with a built-in variable matching circuit having an impedance matching function therein.
[0002]
[Prior art]
FIG. 7 is a configuration block diagram of a conventional mobile radio terminal apparatus. A conventional mobile radio terminal apparatus includes an antenna 11, an antenna matching circuit 12, a transmission / reception switching unit 14, a transmission unit 15, a reception unit 16, a control unit 17, and a memory 18.
[0003]
The mobile radio terminal apparatus having the above configuration is configured to have, for example, an impedance matching function in order to keep transmission / reception characteristics at a maximum. In a mobile radio terminal device having such a function, in order to maximize the reception input level, a matching circuit composed of a chip coil and a chip capacitor is generally provided in the mobile radio terminal device to perform impedance matching. Yes.
[0004]
Japanese Patent Application Laid-Open No. 7-7357 discloses an “antenna matching circuit” as a first invention example 1 similar to the present invention in the technical field. In the first prior invention example 1, a reflected wave generated by impedance mismatching is taken out by a directional coupler, converted into a voltage, and a variable capacitor in the matching circuit is changed.
[0005]
[Problems to be solved by the invention]
However, in the above-described prior art, variations in fixed chip components are directly reflected in variations in matching characteristics, or the matching circuit cannot cope with impedance changes due to differences in receiving channels. In particular, various problems such as the occurrence of a situation in which impedance changes occur and cannot be dealt with depending on how the user uses the antenna, such as human body contact or object contact, occur.
[0006]
In addition, a specified level must be output from the mobile radio terminal device to the base station that performs radio communication with the mobile radio terminal device, and the matching circuit inside the mobile radio terminal device is applied not only to the reception band but also to the transmission band. Impedance matching must be taken. In the case of such a transmission / reception band that requires a wide band, there is a problem that impedance matching cannot be handled by a single circuit.
[0007]
In the first prior art example 1, the impedance matching is performed only in the channel characteristic in one direction of the received signal.
[0008]
SUMMARY OF THE INVENTION An object of the present invention is to provide a mobile radio terminal apparatus in which antenna matching is performed on two frequencies of a low-level received radio wave channel and a transmission radio wave channel, and the antenna transmission / reception characteristics of the mobile radio terminal apparatus are improved. .
[0009]
[Means for Solving the Problems]
In order to achieve this object, a mobile radio terminal apparatus of the present invention is a mobile radio terminal apparatus that performs radio communication with a base station in which a predetermined radio communication system is configured, and the base station is the same as the mobile radio terminal apparatus. A receiver is built in, and when the signal transmitted from the mobile radio terminal apparatus is received, the received electric field level signal A (RSSI signal A) is transmitted together with other data. An antenna that transmits and receives radio signals to and from a station, an antenna matching circuit that matches radio signals of all frequencies of reception and transmission, and an antenna matching circuit control unit that controls the matching of antenna impedance of the antenna with a variable capacitance value compares the reception field level signal B is input to the mobile radio terminal and (RSSI signal B) and the reception electric field level a, the antenna based on the result of the comparison Is configured to have a control unit for controlling the alignment of impedance by comparing the magnitude of the RSSI signal A and the RSSI signal B, to determine the presence or absence of reduction of the electric field level of the mobile terminal device is receiving, Based on this determination, the antenna impedance can be matched in real time to improve the quality of wireless communication.
[0012]
The antenna matching circuit and the control unit further include a transmission / reception switching unit, a reception unit / transmission unit, and the control unit receives the received electric field level B input to the mobile radio terminal apparatus and the base station. Is compared with the received electric field level A, and based on the comparison result, the capacitance value is matched to the frequency of the signal of the mobile radio terminal apparatus or the received electric field level of the base station, whichever is weaker, and the optimum antenna impedance is matched. In order to improve the quality of communication, the received signal input from the antenna is input to the receiving unit via the transmission / reception switching unit, and this receiving unit performs frequency conversion processing / demodulation processing etc. of the input signal, and receives the received data. In addition to outputting to the control unit, a reception electric field level signal (RSSI signal) is also output to the control unit, and the RSSI signal is unloaded by performing A / D conversion processing / arithmetic processing and the like in the control unit. Calculating the intensity of the received electric field during signal reception at Na (level), and further have a memory for storing the received electric field level and control voltage, etc., an antenna matching circuit control unit, the capacitance value is variable by an applied voltage burr A variable matching circuit provided with a cap diode may be incorporated, and antenna impedance matching may be performed by controlling the matching circuit control unit by the control unit .
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of a mobile radio terminal apparatus according to the present invention will be described in detail with reference to the accompanying drawings. 1 to 6 show an embodiment of a mobile radio terminal apparatus of the present invention.
[0014]
FIG. 1 shows a configuration block diagram of a mobile radio terminal apparatus having a control unit that changes and adjusts antenna matching. The mobile radio terminal apparatus according to the present embodiment includes an antenna 11 that performs transmission and reception, an antenna matching circuit 12 that performs matching of radio signals of all frequencies for reception and transmission, an antenna matching circuit control unit 13, and a signal frequency conversion process. A transmission unit 15 and a reception unit 16 that perform modulation / demodulation processing, a transmission / reception switching unit 14 that switches connection to the transmission unit 15 and the reception unit 16, a memory 18 that stores a received electric field level, a control voltage, and the like; Consists of
[0015]
The control unit 17 controls the entire mobile radio terminal device. In particular, it controls the operation of the transmission / reception switching unit 14 that switches between transmission / reception of signals to / from the reception unit 15 and transmission / reception of signals to / from the transmission unit 16.
[0016]
The antenna matching circuit control unit 13 newly provided unlike the conventional mobile radio terminal apparatus uses the control voltage output from the control unit 17 as a control signal to control antenna impedance matching.
[0017]
FIG. 2 is a partially enlarged view of FIG. 1 and shows a block diagram of the configuration of the mobile radio terminal near the antenna. Antenna matching is performed by the antenna 11 that performs transmission and reception, the antenna matching circuit 12, and the antenna matching circuit control unit 13. The structural example of the functional part to change and adjust is shown.
[0018]
In FIG. 2, an antenna matching circuit 12 composed of chip coils 31, 32, 33 connected in a π-type is disposed between the antenna 11 and the transmission / reception switching unit 14. By changing the inductance of these coils, impedance matching between the antenna side and the circuit side can be achieved.
[0019]
The antenna matching circuit control unit 13 includes a varicap diode (variable capacitance diode) 34, a resistor 35, and capacitors 36 and 37.
[0020]
As described above, by using the varicap diode 34 whose capacitance value is variable depending on the applied voltage, it is possible to perform impedance matching to an arbitrary frequency in the transmission frequency and the reception frequency band by the control voltage input from the control unit 17. .
[0021]
In FIG. 1 showing the embodiment, the reception signal input from the antenna 11 is input to the reception unit 15 via the transmission / reception switching unit 14. The receiving unit 15 performs frequency conversion processing, demodulation processing, and the like on the input signal and outputs received data to the control unit 17 and also outputs a received electric field level signal (RSSI signal: Received Signal Strength Indicator signal) to the control unit 17. To do. The RSSI signal can be subjected to A / D conversion processing / arithmetic processing and the like in the control unit 17 to calculate the strength (level) of the received electric field when the signal is received by the antenna. In addition, it fluctuates constantly depending on the reception location, reception state, and reception time. The control unit 17 temporarily stores the RSSI signal of the mobile radio terminal apparatus in the memory 18.
[0022]
In addition, although not shown here, the base station that performs radio communication with the mobile radio terminal device has a built-in receiver similar to the mobile radio terminal device, and the signal transmitted from the mobile radio terminal device is transmitted to the base station. Is transmitted to the mobile radio terminal apparatus together with other data, a signal indicating the received electric field level (hereinafter referred to as the RSSI signal of the base station).
[0023]
The base station RSSI signal transmitted from the base station is input to the control unit 17 of the mobile radio terminal apparatus in the same manner as the RSSI signal of the mobile radio terminal apparatus. The control unit 17 also temporarily stores the RSSI signal of this base station in the memory 18.
[0024]
In the memory 18, a control voltage for changing the varicap diode 34 in the antenna matching circuit control unit 13 for each transmission frequency / reception frequency of the channel is stored and stored in advance. Also, the RSSI signal of the mobile radio terminal device and the RSSI signal of the base station, which are constantly measured, are stored.
[0025]
The control unit 17 compares the RSSI signal of the mobile radio terminal apparatus stored in the memory 18 and the RSSI signal of the base station. As a result of this comparison, when the RSSI signal of the mobile radio terminal apparatus is smaller, it is determined that the electric field level received by the mobile radio terminal apparatus is low, and the received frequency of the currently used channel is Match the antenna impedance. For this purpose, the control voltage of the main reception channel stored in the memory 18 is called, and the antenna matching circuit control unit 13 is controlled to supply the control voltage. Further, when the RSSI signal of the base station is smaller, it is determined that the electric field level received by the base station is low, and the transmission level of the mobile radio terminal apparatus is increased. Also, the antenna impedance is matched with the transmission frequency of the channel currently used. For this purpose, the control voltage of this transmission channel stored in the memory 18 is called, and the antenna matching circuit control unit 13 is controlled to supply the control voltage.
[0026]
In addition, when the RSSI signal of the mobile radio terminal apparatus and the RSSI signal of the base station are sufficiently large, the above-described control is not performed, and the control is performed so that the antenna impedance is matched approximately in the middle of the current transmission frequency and reception frequency.
[0027]
Even if the RSSI signal of the mobile radio terminal device and the RSSI signal of the base station are small, the above transmission control / reception frequency is not performed if the two RSSI signals are approximately equal in magnitude. Control is performed to make the antenna impedance matched approximately in the middle. The configuration of the present invention is as described above.
[0028]
(Operation example)
FIG. 3 is a flowchart showing an operation example. There are three types of threshold values used in this operation example: threshold value 1 is 10 dBμ, threshold value 2 is 5 dB, and threshold value 3 is 15 dBμ.
[0029]
The threshold value 1 of the setting is an electric field level that may cause trouble in calling / receiving in the two RSSI signals of the mobile radio terminal device and the RSSI signal of the base station. As the threshold value 2, the difference between the two RSSI signals is set as the threshold value 2. The threshold 3 is an electric field level that can be assumed that the reception electric field level becomes high and does not cause any trouble in use. Note that the threshold 3 is set higher than the threshold 1 in order to provide quality stability. Further, it is desirable that the threshold value 1, the threshold value 2, and the threshold value 3 can be changed in consideration of usage conditions and the like.
[0030]
The control unit 17 executes the comparison of the RSSI signal of the mobile radio terminal apparatus and the RSSI signal of the base station that performs radio communication with the mobile radio terminal apparatus, and the antenna matching circuit control process. An example of the operation will be described below based on the flowchart shown in FIG.
[0031]
First, the control unit 17 stores the RSSI signal (denoted as the RSSI signal of the terminal in the flowcharts of FIGS. 3 and 6) of the mobile radio terminal device that is always input in the memory 18. At the same time, the RSSI signal of the base station that performs radio communication with the input mobile radio terminal is also stored in the memory 18 (step S41).
[0032]
Next, a comparison process between the RSSI signal of the mobile radio terminal device stored in the memory 18 and the RSSI signal of the base station is performed. Here, an electric field level that may cause trouble in communication / reception in these two RSSI signals is provided as a threshold 1 of 10 dBμ.
[0033]
When the two RSSI signals are larger than the RSSI signal indicating the electric field level of the threshold value 1, it can be assumed that there is no trouble in use, and the control of this embodiment is not necessary (step S42). The difference between the two RSSI signals is provided as a threshold value 2. If the difference between the two RSSI signals is within the threshold value 2, it is the antenna impedance that is matched approximately in the middle between the current transmission frequency and reception frequency, and in this state it can be assumed that there is a balance. It is determined that the control below the step is not necessary (step S43).
[0034]
If either or both RSSI signals are smaller than the RSSI signal indicating the electric field level of threshold 1 (step S42 / YES), and the difference between the two RSSI signals is greater than or equal to threshold 2 (step S43 / YES), It is determined which RSSI signal is smaller (step S44).
[0035]
In step S44, if the RSSI signal of the mobile radio terminal apparatus is smaller, the varicap diode 34 in the antenna matching circuit control unit 13 for the reception frequency of the currently used channel stored in the memory 18 is changed. The control voltage data is called (step S45), the control voltage is supplied to the antenna matching circuit control unit 13, the antenna impedance is matched (step S47), and the reception quality is improved. When the RSSI signal of the base station is smaller (step S44 / NO), the varicap diode 34 in the antenna matching circuit control unit 13 is changed with respect to the transmission frequency of the currently used channel stored in the memory 18. The control voltage data to be called is called (step S46), the control voltage is supplied to the antenna matching circuit control unit 13, the antenna impedance is matched (step S47), and the call quality is improved.
[0036]
Further, the RSSI signal of the mobile radio terminal apparatus and the RSSI signal of the base station after antenna impedance matching are stored in the memory 18 again (step S48). Here, an electric field level that can be assumed not to cause a problem in use due to an increase in the received electric field level is provided as a threshold 3 of 15 dBμ.
[0037]
When the RSSI signal of both the RSSI signal of the mobile radio terminal device and the RSSI signal of the base station returns to the RSSI signal indicating the electric field level equal to or higher than the threshold value 3 (step S49), the electric field level is stable and in use. It can be assumed that there will be no troubles such as call disconnection or line quality degradation. Therefore, the control voltage supplied to the antenna matching circuit control unit 13 is returned to the original state, the antenna impedance is matched to approximately the middle between the current transmission frequency and reception frequency (step S50), and this process is terminated.
[0038]
According to the above operation example, in an environment where the reception field strength of the mobile radio terminal device is weak, by providing a circuit and a control unit that can change and adjust the antenna matching so as to match the impedance to the reception frequency, The reception quality can be improved by raising the reception electric field level.
[0039]
In an environment where the received electric field strength of the base station that performs radio communication with the mobile radio terminal device is weak, a circuit and a control unit that can change and adjust the antenna matching so as to match the impedance to the transmission frequency will be provided, Call quality can be improved by increasing the transmission level of the mobile radio terminal device.
[0040]
In the antenna matching circuit 12 composed only of a chip coil or the like, variations in components are reflected in variations in impedance matching as they are. However, by providing the antenna matching circuit control unit 13 of this content, variations in components are sufficient. It is possible to compensate for this. Further, a control voltage for controlling the antenna matching circuit control unit 13 with respect to the transmission frequency / reception frequency of the channel is stored in the memory 18 in advance. As a result, the antenna matching circuit control unit 13 can be controlled to achieve matching that sufficiently corresponds to a change in impedance.
[0041]
(Other examples)
As another embodiment, a case where transmission output level control is further added to the above operation example will be described.
[0042]
The control unit 17 compares the RSSI signal of the mobile radio terminal apparatus stored in the memory 18 and the magnitude of the RSSI signal of the base station that performs radio communication with the mobile radio terminal apparatus, respectively, with the threshold value 1. When only the RSSI signal of the base station is smaller than the threshold value 1, the antenna matching circuit is not controlled, and the control of changing the gain control voltage of the variable gain amplifier 52 in the transmission unit 15 is performed, and the electric field transmitted from the antenna 11 is transmitted. Raise the level to improve call quality. However, variable control of the transmission level is set within a range that satisfies the standard of the mobile radio terminal apparatus.
[0043]
First, the structure of the transmission part 15 is demonstrated using FIG. The transmission signal sent from the control unit 17 is modulated by the modulator 51 and input to the variable gain amplifier 52. Further, after being amplified by the gain control voltage input from the control unit 17 by the variable gain amplifier 52, it is distributed by the distributor 53, and one output is input to the transmission / reception switching unit 14 led to the antenna 11. The other output is detected by the detection unit 54 that detects the output signal level, and is input to the control unit 17 as a detection voltage.
[0044]
In the memory 18, in addition to the reference voltage (1) for performing a normal ALC (automatic level control / automatic level control) operation, gain control for increasing the gain of the variable gain amplifier 52 when the RSSI signal of the base station is small. A reference voltage {circle over (2)} for outputting a voltage is provided. The reference voltage {circle around (2)} is set higher than the reference voltage {circle around (1)}, but is set within a range where the transmission output level satisfies the standard of the mobile radio terminal device.
[0045]
FIG. 5 shows the standard range of the transmission output level of the mobile radio terminal apparatus. The standard range is defined within +2 dB and −4 dB with respect to the designated transmission output level value. The reference voltage {circle around (1)} is normally set to a value that results in a designated transmission output level value. Therefore, the reference voltage {circle around (2)} is set so that the transmission output level becomes a value within about 2 dB from the designated transmission output level value.
[0046]
The control unit 17 compares the input detection voltage with the reference voltage stored in the memory 18, and sets the gain control voltage for controlling the gain of the variable gain amplifier 52 so that the detection voltage and the reference voltage are equal to each other. 52. By changing the reference voltage, power down / up control of the transmission output level can be performed.
[0047]
The control unit 17 controls the variable gain amplifier 52 with a gain control voltage corresponding to the fluctuation of the input detection voltage, and controls the ALC operation of the transmission signal.
[0048]
The above operation will be described based on the flowchart shown in FIG. First, the control unit 17 stores the RSSI signal of the mobile radio terminal device that is always input in the memory 18. The RSSI signal of the base station input at the same time is also stored in the memory 18 (step S61). Next, when the RSSI signal of the base station and the RSSI signal of the mobile radio terminal apparatus are both smaller than the RSSI signal indicating the electric field level of the threshold 1 and the difference between both RSSI signals is larger than the threshold 2 (steps S62 and S63). Compares which RSSI signal is larger (step S64).
[0049]
If the RSSI signal of the mobile radio terminal is smaller, the control voltage for changing the varicap diode 34 in the antenna matching circuit control unit 13 with respect to the reception frequency of the currently used channel stored in the memory 18 is antenna matched. The signal is supplied to the circuit control unit 13 to match the antenna impedance (step S65), and the reception quality is improved. Further, the reference voltage {circle over (2)} for outputting the gain control voltage for increasing the gain of the variable gain amplifier 52 stored in the memory 18 is switched to the reference voltage for the ALC operation, and the transmission actually outputted from the antenna 11 is performed. The level is raised (step S66) to improve the quality of the call. When step S63 and step S64 are not satisfied (NO), only the operation of switching to the reference voltage (2) and raising the output transmission level is performed (step S66).
[0050]
Further, the RSSI signal of the base station is larger than the RSSI signal indicating the electric field level of threshold 1 (step S62 / NO), but the RSSI signal of the mobile radio terminal apparatus is smaller than the RSSI signal indicating the electric field level of threshold 1 and both. If the difference between the RSSI signals is greater than the threshold 2 (step S67 / YES), the control for changing the varicap diode 34 in the antenna matching circuit control unit 13 with respect to the reception frequency of the currently used channel stored in the memory 18 is performed. The voltage is supplied to the antenna matching circuit control unit 13 to match the antenna impedance (step S68), and the reception quality is improved.
[0051]
Since the antenna output is matched to the reception frequency, there is a possibility that the transmission output is lowered. Therefore, the reference voltage (2) for outputting the gain control voltage for increasing the gain of the variable gain amplifier 52 is switched to the reference voltage for the ALC operation. An operation for raising the output transmission level is also performed (step S66), and the quality of the call is further improved.
[0052]
Furthermore, the control part 17 stores the RSSI signal of the said mobile radio | wireless terminal apparatus and the signal of the RSSI of a base station in the memory 18 again after said control (step S69). When the RSSI signal of the mobile radio terminal device and the RSSI signal of the base station both return to the RSSI signal indicating the electric field level equal to or higher than the threshold 3 (step S70 / YES), the electric field level is stabilized and used. It can be assumed that there will be no troubles such as disconnection of call and deterioration of line quality. For this reason, the antenna matching is returned to the intermediate matching between the transmission frequency and the reception frequency. Further, the reference voltage for controlling the ALC operation is returned to the reference voltage {circle around (1)} (step S71), and this process is terminated.
[0053]
The control unit 17 compares the received electric field level of the mobile radio terminal device and the received electric field level of the base station, and is optimal for the frequency of the weaker received electric field level of the mobile radio terminal device or the base station. Control of the antenna matching circuit control unit 13 provided with a varicap diode 34 whose capacitance value is variable according to the applied voltage so as to achieve a good antenna impedance matching, and improve the reception quality / call quality by increasing the reception electric field level. It can be made.
[0054]
Further, when the received electric field level of the base station is weak, the reference voltage to be compared with the detection voltage is controlled, and the gain control voltage is changed to increase the gain of the variable gain amplifier 52 to increase the transmission output level. Call quality can be improved.
[0055]
According to the above embodiment, the reception level of the mobile radio terminal device is compared with the reception level on the base station side, and the capacitance value is variable according to the voltage applied to the antenna matching circuit control unit 13 inside the mobile radio terminal device. 34 is provided, and by this variable control, antenna matching can be achieved with the frequency of the received radio wave channel and the transmitted radio wave channel having the two low levels, thereby improving the antenna transmission / reception characteristics of the mobile radio terminal apparatus.
[0056]
The above-described embodiment is an example of a preferred embodiment of the present invention. However, the present invention is not limited to this, and various modifications can be made without departing from the scope of the present invention.
[0057]
【The invention's effect】
As is clear from the above description, the mobile radio terminal apparatus of the present invention performs transmission / reception with a base station that stores a received electric field level, a control voltage, and the like by radio signals, and matches radio signals of all frequencies of reception and transmission. Do. The input received electric field level is compared with the received electric field level of the base station, and matching of the antenna impedance is controlled based on the comparison result. In the antenna impedance matching control of this antenna , the base station is configured with a built-in receiver similar to that of the mobile radio terminal device, and is received when the base station receives a signal transmitted by the mobile radio terminal device. A signal indicating the electric field level (base station RSSI signal) is transmitted to the mobile radio terminal apparatus together with other data.
With this procedure, it is possible to improve the antenna transmission / reception characteristics of the mobile radio terminal apparatus.
[Brief description of the drawings]
FIG. 1 is a block configuration diagram showing an embodiment of a mobile radio terminal apparatus of the present invention.
FIG. 2 is an enlarged view of FIG. 1 showing a configuration in the vicinity of an antenna of the mobile radio terminal apparatus and an embodiment thereof;
FIG. 3 is a flowchart showing an operation example.
FIG. 4 is a block diagram illustrating a more detailed configuration example of a transmission unit.
FIG. 5 is a characteristic diagram showing a standard range of a transmission output level of a mobile radio terminal apparatus.
FIG. 6 is a flowchart showing an operation example of another embodiment.
FIG. 7 is a block diagram showing a configuration example of a conventional mobile radio terminal apparatus.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 11 Antenna 12 Antenna matching circuit 13 Antenna matching circuit control part 14 Transmission / reception switching part 15 Transmission part 16 Reception part 17 Control part 18 Memory 24 Varicap diode 31,32,33 Chip coil 34 Varicap diode (variable capacity diode)
35 Resistor 36, 37 Capacitor 51 Modulator 52 Variable gain amplifier 53 Divider 54 Detector

Claims (4)

In a mobile radio terminal apparatus that performs radio communication with a base station configured with a predetermined radio communication system,
The base station is configured with a built-in receiver similar to the mobile radio terminal apparatus, and receives a received electric field level signal A (RSSI signal A) when receiving a signal transmitted from the mobile radio terminal apparatus. Send along with the data,
The mobile radio terminal device
An antenna that transmits and receives radio signals to and from the base station;
An antenna matching circuit for matching the radio signals of all frequencies of reception and transmission;
An antenna matching circuit controller that controls the matching of the antenna impedance of the antenna, the capacitance value of which is variable;
A control unit that compares the received electric field level signal B (RSSI signal B) input to the mobile radio terminal apparatus and the received electric field level A, and controls matching of the antenna impedance based on the comparison result; Configured
By comparing the magnitudes of the RSSI signal A and the RSSI signal B, it is possible to determine whether or not the mobile terminal apparatus is receiving a decrease in electric field level, and to perform matching of the antenna impedance in real time based on the determination A mobile radio terminal device characterized by that. It further comprises a transmission / reception switching unit and a reception unit / transmission unit between the antenna matching circuit and the control unit,
The control unit compares the received electric field level B input to the mobile radio terminal apparatus with the received electric field level A of the base station,
Based on the result of the comparison, the capacitance value is matched to the frequency of the weaker signal of the mobile radio terminal device or the received electric field level of the base station, and the optimum antenna impedance is matched,
The mobile radio terminal apparatus according to claim 1 , wherein the quality of radio communication is improved. The reception signal input from the antenna is input to the reception unit via the transmission / reception switching unit,
The receiving unit performs frequency conversion processing, demodulation processing, and the like of the input signal and outputs received data to the control unit, and also outputs a received electric field level signal (RSSI signal) to the control unit,
The RSSI signal, by performing the A / D conversion processing and arithmetic processing and the like in the control unit, to claim 2, characterized in that to calculate the intensity (level) of the received electric field during signal reception by the antenna The mobile radio terminal device described. The reception electric field level control voltage such further have a memory for storing the antenna matching circuit control unit incorporates a variable matching circuit capacitance is provided a variable varicap diode by an applied voltage, by the control unit The mobile radio terminal apparatus according to claim 1, wherein matching of the antenna impedance is performed by control to the matching circuit control unit .

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