JP2001044928A - Mobile radio equipment, mobile communication system and signal transmitting method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To appropriately decide maximum transmission power when transmitting a signal from mobile radio equipment to a base station. SOLUTION: A controlling part 7 decides the transmission speed of a signal to be transmitted based on whether or not a terminal 13 for data communication is connected and determines maximum transmission power corresponding to the transmission speed. Also, the part 7 decides maximum transmission power based on information inputted by a user through a user interface 17. Further, an attenuation quantity calculating part calculates propagation attenuation quantity with a base station 30 and decides maximum transmission power corresponding to the propagation attenuation quantity. When an external antenna 10 is connected, maximum transmission power is decided by taking the gain difference between the gain of a main body attached antenna 3 and the gain of the antenna 10 into consideration.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile radio for determining a maximum transmission power and transmitting a signal to a base station according to the maximum transmission power, a mobile communication system provided with the mobile radio,
And a signal transmission method for transmitting a signal from a mobile radio to a base station.

[0002]

2. Description of the Related Art In conventional mobile communication, when a mobile radio device transmits a signal to a base station, a maximum transmission power is set in consideration of setting of a communicable area and the like. At that time, one maximum transmission power is set irrespective of the transmission speed of the signal to be transmitted, the amount of propagation attenuation with the base station, and the like.

[0003]

If the maximum transmission power of a signal is increased from P ₁ to P ₂ , the transmission power increases when the transmission power has been suppressed to P ₁ until now (greater than P _1). P ₂ less than or equal to) in some cases. When the transmission power of a signal increases, interference with other communications increases, which is a problem. In addition, the influence on the capacity and communication quality of the mobile communication system may become a problem. Therefore, it is not desirable to set the maximum transmission power higher than necessary.

[0004] In a transmission circuit of a mobile radio, a multistage amplifier using a plurality of amplifying elements is configured according to a set maximum transmission power. For this reason, the power consumption of the mobile radio is determined by the number of amplifying elements to be driven. Since a linear or quasi-linear amplifier circuit is used for amplifying a digital radio signal, power is consumed internally even when the amplification factor is small, and the power consumption increases as the maximum transmission power increases. Therefore, if the transmission circuit is operated in a state where the required maximum transmission power is exceeded,
The power consumption inside the mobile radio increases unnecessarily, and the communication time of the mobile radio driven by a limited power supply such as a battery is shortened.

[0005] Generally, in a mobile communication system of the digital transmission system, in the case of voice communication, a voice signal is compressed and transmitted.
b / s. In the case of data communication, for example, in the Internet and image communication services, several tens of kb / s to several hundred kb / s are used in order to transmit video signals efficiently.
s, or even several Mb / s. Since the received power (power of the received signal) required for transmitting a digital radio signal increases in proportion to the transmission rate, a base station needs to provide a service using a plurality of transmission rates in a mobile communication system. The received power varies depending on the transmission speed, and the transmission power required for the mobile radio device also varies depending on the transmission speed.

For this reason, even if one (one) communicable area of the mobile radio is set, if one maximum transmission power is set as in the conventional mobile radio, the communicable area depends on the signal transmission speed. Variations occur.
For example, consider voice communication and data communication having a higher transmission speed than voice communication.

FIG. 4 is a diagram showing an example of a communicable area in voice communication and a communicable area in data communication when the maximum transmission power is one. As shown in FIG. 4, when the maximum transmission power is one, the communicable area 62 in voice communication is smaller than the communicable area 64 in data communication.

By setting the maximum transmission power in accordance with the transmission rate of data communication, and setting the communicable area of the mobile radio (the communicable area 64 in FIG. 4), the maximum transmission power in voice communication becomes more than necessary. It becomes big.

On the other hand, when the maximum transmission power is set in accordance with the transmission speed of voice communication, the communicable area of the mobile radio is set (to the communicable area 62 in FIG. 4)
The mobile radio 44 can transmit a data signal to the base station 32, but the mobile radio 42 cannot transmit a data signal to the base station 32 (the signal received by the base station 32 satisfies a predetermined quality). Absent). That is, in this case, in the data communication, the maximum transmission power has not reached the required amount, and the area 6 is set as the communicable area of the mobile radio.
There is a part which cannot communicate in 2.

Therefore, as in the conventional mobile radio, one
If one maximum transmission power is set, it is not possible to transmit a signal with a required minimum maximum transmission power while setting and securing one communicable area. Further, if the transmission circuit of the mobile wireless device is operated in a state where the required maximum transmission power is exceeded, power consumption inside the mobile wireless device increases more than necessary.

FIG. 5 is a diagram for explaining interference caused by signal transmission of a mobile radio device to other communications. here,
The propagation attenuation between the base station 34 and the mobile wireless device 46 (the signal when communication is performed) is based on the base station 34 and the mobile wireless device 4.
8 is smaller than the propagation attenuation. When the mobile radio 46 and the mobile radio 48 transmit signals with the same transmission power, the reception power (reception level) at the base station
Is larger for the signal transmitted by the mobile radio 46,
The interference with other communications (transmission from another mobile radio to the base station) is also large.

[0012] Therefore, from the viewpoint of preventing interference, it is effective to suppress the maximum transmission power of a mobile radio having a small amount of propagation attenuation with a base station (at a position). Also,
In general, the transmission power required for a mobile radio having a small propagation attenuation with a base station is smaller than a mobile radio having a large propagation attenuation with a base station. Even if the size is reduced, problems rarely occur. Also,
If the transmission circuit of the mobile radio device is operated in a state where the required maximum transmission power is exceeded, power consumption inside the mobile radio device unnecessarily increases. However, in the conventional mobile radio, one maximum transmission power is set irrespective of the propagation attenuation with the base station.

An object of the present invention is to appropriately determine the maximum transmission power when transmitting a signal from a mobile radio to a base station.

[0014]

According to one aspect of the present invention, there is provided a mobile wireless device, comprising:
A transmission unit for transmitting a signal to the base station, and a maximum transmission power determination unit for determining a maximum transmission power, wherein the transmission unit transmits a signal to the base station according to the maximum transmission power determined by the maximum transmission power determination unit. It is characterized by transmitting.

According to a second aspect of the present invention, in the mobile wireless device according to the first aspect, the maximum transmission power determining means includes:
The transmission speed of a signal to be transmitted is determined, and the maximum transmission power is determined according to the transmission speed.

According to a third aspect of the present invention, in the mobile wireless device according to the second aspect, the maximum transmission power determining means includes:
Judge the transmission speed of the signal to be transmitted as the transmission speed of the audio signal or the transmission speed of the data signal, determine the maximum transmission power according to the transmission speed of the audio signal or the maximum transmission power according to the transmission speed of the data signal, The transmission speed of the audio signal is lower than the transmission speed of the data signal, and the maximum transmission power according to the transmission speed of the audio signal is smaller than the maximum transmission power according to the transmission speed of the data signal.

According to a fourth aspect of the present invention, there is provided the mobile radio device according to the third aspect, wherein the maximum transmission power determining means includes:
When a data communication terminal is connected to the mobile wireless device, the transmission speed of a signal to be transmitted is determined as the transmission speed of the data signal, and the maximum transmission power is determined according to the transmission speed. I do.

According to a fifth aspect of the present invention, there is provided the mobile radio device according to the third or fourth aspect, wherein the maximum transmission power determining means is provided when an earphone microphone is connected to the mobile radio device. The transmission rate of the signal to be transmitted is determined as the transmission rate of the audio signal, and the maximum transmission power is determined according to the transmission rate.

According to a sixth aspect of the present invention, in the mobile wireless device according to any one of the third to fifth aspects, the maximum transmission power determining means has an external antenna connected to the mobile wireless device. In this case, the transmission rate of the signal to be transmitted is determined as the transmission rate of the data signal, and the maximum transmission power is determined according to the transmission rate.

According to a seventh aspect of the present invention, there is provided the mobile radio according to any one of the first to sixth aspects, wherein a propagation attenuation detecting means for detecting a propagation attenuation of a signal transmitted from the base station. The maximum transmission power determining means further comprises:
The maximum transmission power is determined according to the propagation attenuation detected by the propagation attenuation detecting means.

According to an eighth aspect of the present invention, there is provided the mobile radio according to any one of the first to seventh aspects, wherein a gain difference between an antenna gain of the mobile radio and an external antenna is detected. Further comprising a gain difference detecting means, wherein the maximum transmission power determining means, when the mobile radio uses an external antenna for signal transmission, takes into account the gain difference detected by the gain difference detecting means, Power is determined.

According to a ninth aspect of the present invention, there is provided the mobile radio device according to any one of the first to eighth aspects, wherein a user of the mobile radio device inputs information for determining a maximum transmission power. Input means for determining the maximum transmission power based on the information input by the input means.

According to a tenth aspect of the present invention, there is provided the mobile radio device according to any one of the first to ninth aspects and a base station.

[0024] The invention according to claim 11 is a signal transmission method for transmitting a signal from a mobile radio to a base station, wherein the step of determining a maximum transmission power and the step of transmitting a signal in accordance with the determined maximum transmission power. And characterized in that:

According to the above configuration, when transmitting a signal from a mobile radio to a base station, it is possible to appropriately determine the maximum transmission power.

The maximum transmission power is determined in accordance with the transmission speed of the signal to be transmitted, and the signal is transmitted in accordance with the maximum transmission power. Can be sent.

Further, by determining the maximum transmission power in accordance with the amount of propagation attenuation with the base station and transmitting a signal in accordance with the maximum transmission power, it is possible to reduce interference with other communications. If the maximum transmission power of the mobile radio is determined in accordance with the amount of propagation attenuation between the base station and the base station, for example, rough transmission power control is performed by limiting the maximum transmission power, and the conventional general transmission power is controlled. Fine control of transmission power can be performed by control (for example, control of transmission power of a mobile radio device according to the quality of a received signal of a base station).

By transmitting a signal in accordance with the minimum required maximum transmission power, unnecessary power consumption inside the mobile radio can be prevented.

[0029]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a diagram showing a configuration example of a mobile radio device according to an embodiment of the present invention.

The mobile radio device 40 according to the present embodiment includes a transmission / reception unit 1, a maximum transmission power setting unit 2, an antenna attached to the main unit (antenna of the mobile radio device 40) 3, a reception power detection unit 4, and a base station information reading unit 5. , Attenuation calculation / calculation unit 6, control unit 7, external antenna detection unit 8, external antenna connection port 9, data communication terminal detection unit 11, data communication terminal connection port 12, earphone jack 14, earphone microphone detection unit 1.
5, user interface 17, reception power comparison unit 19,
And a storage unit 20.

The control unit 7 controls the maximum transmission power and the like.
The maximum transmission power setting unit 2 sets the maximum transmission power according to an instruction from the control unit 7. The transmitting and receiving unit 1 is an antenna 3 attached to the main body.
(Or an external antenna 10) to transmit and receive signals to and from the base station 30. At this time, a signal is transmitted to the base station 30 according to the maximum transmission power set by the maximum transmission power setting unit 2.

The mobile radio 40 (the control unit 7) according to the present embodiment determines the maximum transmission power in accordance with the result of determining the transmission speed of the signal to be transmitted and the result of detecting the amount of propagation attenuation with the base station. I do. Further, the external antenna 10 is used for signal transmission.
Is used, the maximum transmission power is determined in consideration of the gain difference between the gain of the antenna 3 attached to the main body of the mobile wireless device (main body) and the gain of the external antenna 10. The mobile radio 4
When there is information input from a user 0, the maximum transmission power is determined based on the information.

The maximum transmission power according to the transmission speed of the voice signal and the maximum transmission power according to the transmission speed of the data signal are stored in the storage unit 20 in advance. Since the transmission speed of the voice signal is lower than the transmission speed of the data signal,
The maximum transmission power according to the transmission speed of the voice signal is set smaller than the maximum transmission power according to the transmission speed of the data signal. In the present embodiment, the maximum transmission power according to the two transmission speeds of the voice signal and the data signal is stored. However, the signals are classified in another form and the maximum transmission power according to the transmission speed is stored. May be stored, or the maximum transmission power according to the transmission rates of three or more signals may be stored. Further, the relationship between the transmission speed and the maximum transmission power may be expressed by an equation to determine the maximum transmission power.

The maximum transmission power according to the transmission speed of the voice signal further differs according to the amount of propagation attenuation with the base station.
In the present embodiment, the threshold TA _1, TA _2, TA ₃ to the propagation attenuation between the base station, a ... provided, the maximum transmission power when the propagation attenuation amount is smaller than TA ₁ to P _1,
The maximum transmit power P ₂ when the propagation attenuation amount is smaller than TA ₁ or TA _2, the maximum transmission power P ₃ when the propagation attenuation amount is smaller than TA ₂ or TA _3, and so on ... Have assigned. At this time, the smaller the propagation attenuation, the smaller the maximum transmission power. Here, the relationship between the propagation attenuation and the maximum transmission power may be expressed by an equation, and the maximum transmission power may be obtained. The maximum transmission power according to the data signal transmission speed is the same as the maximum transmission power according to the audio signal transmission speed.

FIG. 2 is a diagram showing an example in which an external antenna is connected to the mobile radio device according to the present embodiment. An external antenna 10 can be connected to the mobile wireless device 40 according to the present embodiment, and signals can be transmitted and received to and from the base station using the external antenna instead of the antenna 3 attached to the main body of the mobile wireless device 40.

In consideration of the case where the external antenna 10 is used, the storage unit 20 also stores the correction amount of the maximum transmission power when the external antenna 10 is used for signal transmission. This is because the maximum transmission power stored in the storage unit 20 is set on the assumption that a signal is transmitted by the antenna 3 attached to the main body. The correction is performed by subtracting the correction amount from the maximum transmission power. In the present embodiment,
Threshold values TB ₁ , TB ₂ , TB ₃ ,... Are provided for a gain difference G ₂ −G ₁ between the gain G _{1 of the} antenna 3 attached to the main body of the mobile radio device and the gain G ₂ of the external antenna 10. Gain difference is TB ₁
A correction amount A ₁ in the case of less than the maximum transmit power to the A ₂ when the propagation attenuation amount is less than TB ₁ or TB _2, the maximum transmission when the propagation attenuation amount is less than TB ₂ or TB ₃ A power
₃ and so on. Since capable of transmitting signals with smaller transmitting power gain G ₂ is larger external antenna 10, the amount corrected as gain difference G ₂ -G _1, the larger. If G ₂ −G ₁ > 0, A> 0, and if G ₂ −G ₁ <0, A <0. Here, the relationship between the maximum transmission power correction amount and the gain difference is represented by an equation,
The correction amount of the maximum transmission power may be obtained. Further, without using the correction amount, depending on the gain difference G ₂ -G _1, for example, may be a maximum transmit power from P _{i + 1} so that the P _i.

The control unit 7 confirms that the data communication terminal 13 is connected to the data communication terminal connection port 12.
When the data communication terminal detection unit 11 detects the signal transmission speed, it determines the transmission speed of the signal as the transmission speed of the data signal.
Maximum transmission power (value) according to the data signal transmission speed from
And transmit a signal at the maximum transmission power. This is because when the data communication terminal 13 is connected, it is generally considered that a data signal is transmitted. The control unit 7 notifies the user of the mobile wireless device 40 through the user interface 17 that the transmission rate of the signal is determined to be the transmission rate of the data signal.

The control unit 7 has an earphone jack 14
When the earphone microphone detection unit 15 detects that the earphone microphone 16 is connected, the transmission speed of the signal is determined to be the transmission speed of the audio signal, and the maximum transmission power according to the transmission speed of the audio signal is determined from the storage unit 20. And transmit a signal at the maximum transmission power. This is because, when the earphone microphone 16 is connected, it is generally considered that an audio signal is transmitted. The control unit 7 informs the user of the mobile wireless device 40 through the user interface 17 that the transmission rate of the signal is determined to be the transmission rate of the audio signal.

In this embodiment, when both the data communication terminal 13 and the earphone microphone 16 are connected, the maximum transmission power according to the transmission speed of the data signal is taken into consideration, for example, to secure a communicable area. However, the maximum transmission power may be set according to the transmission speed of the audio signal.

Further, when the external antenna detecting unit 8 detects that the external antenna 10 is connected to the external antenna connection port 9, the control unit 7 determines that the signal transmission speed is the data signal transmission speed. The maximum transmission power according to the transmission rate of the data signal is extracted from the storage unit 20, and the signal is transmitted at the maximum transmission power. This is because, when the external antenna 10 is connected, it is considered that a data signal is often transmitted. Control unit 7
The user interface 17 determines that the transmission rate of the signal is the transmission rate of the data signal.
Notify users.

However, the possibility of transmitting a data signal when the external antenna 10 is connected is considered to be lower than the possibility of transmitting a voice signal when the earphone microphone 16 is connected. Therefore, in the present embodiment, when both the earphone microphone 16 and the external antenna 10 are connected, the maximum transmission power is set according to the transmission speed of the audio signal.

The user of the mobile radio device 40 can input information for determining the maximum transmission power by operating the buttons via the user interface 17. In the present embodiment, the user can set (manually) whether to perform voice communication or data communication. However, you can choose from a wider variety,
The transmission speed itself of the signal to be transmitted may be set. Further, the amount of propagation attenuation with the base station and the maximum transmission power itself can be set.

When detecting that the setting has been made by the user interface 17, the control section 7 receives the set (input) information and determines the maximum transmission power based on the information. That is, when the user sets the voice communication, the signal is transmitted at the maximum transmission power according to the transmission speed of the voice signal. Further, when the user sets the data communication, the signal is transmitted at the maximum transmission power according to the transmission speed of the data signal. The control unit 7 notifies the user of the mobile wireless device 40 via the user interface 17 whether the maximum transmission power has been set according to the transmission speed of the voice signal or the maximum transmission power has been set according to the transmission speed of the data signal.

In this embodiment, when determining the maximum transmission power, the setting information of the user has the highest priority. That is, for example, even when the data communication terminal 13 is connected to the data communication terminal connection port 12, if the user sets the voice communication by the user interface 17, the maximum corresponding to the transmission speed of the voice signal is obtained. The signal is transmitted at the transmission power. Therefore, the above-described data communication terminal 1
If the user knows from the user interface 17 that the automatic determination of the signal transmission speed due to the connection of the earphone / microphone 16 or the connection of the earphone / microphone 16 or the connection of the external antenna 10 is incorrect, the user can manually set the correct transmission. The speed may be set.

In the present embodiment, when none of the data communication terminal 13, the earphone microphone 16, and the external antenna 10 are connected to the mobile radio 40, and no manual setting is performed by the user, Although the maximum transmission power is set in accordance with the transmission speed of the data signal in consideration of securing a communicable area, the maximum transmission power may be set in accordance with the transmission speed of the audio signal.

After determining the maximum transmission power according to the transmission rate of the voice signal or the maximum transmission power according to the transmission rate of the data signal, the control unit 7 A specific maximum transmission power is determined according to the amount of propagation attenuation from the station 30.

FIG. 3 is a diagram for explaining a method in which the mobile radio according to the present embodiment detects the amount of propagation attenuation from the base station. The base station 30 includes, in a signal to be transmitted to the mobile radio device 40, information on transmission power at the time of transmitting the signal. The mobile radio 40 receives the signal, and the received power detector 4 detects the received power. Further, the base station information reading unit 5 reads the transmission power of the signal included in the signal at the base station. Then, the attenuation calculator 6 calculates the propagation attenuation of the signal based on the detected reception power and the read transmission power,
That is, the propagation attenuation from the base station is calculated. Control unit 7
Receives the propagation attenuation from the attenuation calculator 6 and determines the maximum transmission power corresponding to the propagation attenuation by referring to the storage 20.

In the present embodiment, the mobile radio 40 reads the information including the information of the transmission power at the time of transmitting the signal in the signal transmitted by the base station 30.
If the transmission power at the time of transmitting a signal at the base station 30 is predetermined, such processing need not be performed.

The propagation attenuation is as shown in FIG.
Generally, the larger the distance between the base station 30 and the mobile radio 40, the larger the distance. Therefore, for example, the maximum transmission power according to the distance may be stored in the storage unit 20, and the maximum transmission power may be set based on the distance input by the user via the user interface 17.

When transmitting a signal using the external antenna 10, the control unit 7 extracts a correction amount of the maximum transmission power from the storage unit 20. Mobile radio 40 in this embodiment
When the external antenna 10 is connected, signals are transmitted and received using the external antenna 10 instead of the antenna 3 attached to the main body. Therefore, when the external antenna detection unit 8 detects that the external antenna 10 is connected to the external antenna connection port 9, it determines that signals are transmitted and received using the external antenna 10.

The correction amount of the maximum transmission power is determined based on a gain difference between the gain of the antenna 3 attached to the main body and the gain of the external antenna 10. The gain difference between the gain of the antenna 3 attached to the main body and the gain of the external antenna 10 is obtained as follows. That is, the reception power detection unit 4 detects the reception power of the signal by the antenna 3 attached to the main body and the reception power of the signal by the external antenna 10. Then, the received power comparing section 19 obtains a gain difference from the difference between these received powers. The control unit 7
The gain difference is received from the reception power comparison unit 19 and stored in the storage unit 20.
, The corresponding correction amount is taken out, and the maximum transmission power is corrected.

As described above, the control unit 7 determines the maximum transmission power and instructs the maximum transmission power setting unit 2 to make the maximum transmission power. The transmission / reception unit 1 is connected to the base station 30 according to the maximum transmission power set by the maximum transmission power setting unit 2 via the antenna 3 attached to the main body (or the external antenna 10).
Send a signal to.

In the present embodiment, the maximum transmission power is determined based on both the transmission rate of the signal to be transmitted and the propagation attenuation from the base station. Alternatively, the maximum transmission power may be determined based only on the other.

[0055]

As described above, according to the present invention,
When transmitting a signal from a mobile wireless device to a base station, the maximum transmission power can be appropriately determined.

The maximum transmission power is determined according to the transmission speed of the signal to be transmitted, and the signal is transmitted according to the maximum transmission power. Can be sent.

Further, by determining the maximum transmission power in accordance with the amount of propagation attenuation between the base station and the base station and transmitting a signal in accordance with the maximum transmission power, interference with other communications can be reduced. If the maximum transmission power of the mobile radio is determined in accordance with the amount of propagation attenuation between the base station and the base station, for example, rough transmission power control is performed by limiting the maximum transmission power, and the conventional general transmission power is controlled. Fine control of transmission power can be performed by the control.

If a signal is transmitted in accordance with the minimum required maximum transmission power, unnecessary power consumption inside the mobile radio can be prevented.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating a configuration example of a mobile wireless device according to an embodiment of the present invention.

FIG. 2 is a diagram illustrating an example in which an external antenna is connected to the mobile wireless device according to the embodiment of the present invention.

FIG. 3 is a diagram illustrating a method in which the mobile wireless device according to the embodiment of the present invention detects a propagation attenuation from a base station.

FIG. 4 is a diagram illustrating an example of a communicable area in voice communication and a communicable area in data communication when the maximum transmission power is one;

FIG. 5 is a diagram for explaining interference caused by signal transmission of a mobile wireless device to another communication.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Transmission / reception part 2 Maximum transmission power setting part 3 Main body attached antenna 4 Reception power detection part 5 Base station information reading part 6 Attenuation calculation part 7 Control part 8 External antenna detection part 9 External antenna connection port 10 External antenna 11 Data communication terminal Detection unit 12 Data communication terminal connection port 13 Data communication terminal 14 Earphone jack 15 Earphone microphone detection unit 16 Earphone microphone 17 User interface 19 Received power comparison unit 20 Storage unit 30, 32, 34 Base station 40, 42, 44, 46 , 48 Mobile radio 62 Communication area in voice communication 64 Communication area in data communication

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Seiji Hagiwara F-term in NTT Mobile Communication Network Co., Ltd. 2-1-1 Toranomon, Minato-ku, Tokyo 5K067 AA03 AA43 BB01 BB21 DD44 EE02 EE10 GG08 HH21 KK03

Claims (11)

[Claims] 1. A mobile radio, comprising: transmitting means for transmitting a signal to a base station; and maximum transmission power determining means for determining a maximum transmission power, wherein the transmitting means is provided by the maximum transmission power determining means. A mobile radio device for transmitting a signal to a base station according to the determined maximum transmission power. 2. The mobile radio according to claim 1, wherein:
The mobile radio device, wherein the maximum transmission power determining means determines a transmission speed of a signal to be transmitted, and determines a maximum transmission power according to the transmission speed. 3. The mobile wireless device according to claim 2, wherein said maximum transmission power determining means determines a transmission speed of a signal to be transmitted as a transmission speed of a voice signal or a transmission speed of a data signal, and Determine the maximum transmission power according to the transmission speed of the data signal or the maximum transmission power according to the transmission speed of the data signal, the transmission speed of the audio signal is smaller than the transmission speed of the data signal, according to the transmission speed of the audio signal The mobile radio device, wherein the maximum transmission power is smaller than a maximum transmission power according to a transmission rate of the data signal. 4. The mobile radio according to claim 3, wherein:
When a data communication terminal is connected to the mobile wireless device, the maximum transmission power determination means determines a transmission speed of a signal to be transmitted as a transmission speed of a data signal, and determines a maximum transmission speed according to the transmission speed. A mobile radio device for determining power. 5. The mobile wireless device according to claim 3, wherein said maximum transmission power determining means is configured to transmit a signal to be transmitted when an earphone microphone is connected to said mobile wireless device. Is determined as the transmission rate of the audio signal, and the maximum transmission power is determined according to the transmission rate. 6. The mobile wireless device according to claim 3, wherein said maximum transmission power determining means is provided when an external antenna is connected to said mobile wireless device.
A mobile radio, wherein a transmission rate of a signal to be transmitted is determined as a transmission rate of a data signal, and a maximum transmission power is determined according to the transmission rate. 7. The mobile radio according to claim 1, further comprising a propagation attenuation detecting means for detecting a propagation attenuation of a signal transmitted from a base station, wherein said maximum transmission is performed. The mobile radio device, wherein the power determining means determines the maximum transmission power according to the propagation attenuation detected by the propagation attenuation detecting means. 8. The mobile wireless device according to claim 1, further comprising a gain difference detecting means for detecting a gain difference between an antenna gain of the mobile wireless device and a gain of an external antenna. The maximum transmission power determining means determines the maximum transmission power in consideration of the gain difference detected by the gain difference detecting means when the mobile radio uses an external antenna for signal transmission. Mobile radio. 9. The mobile wireless device according to claim 1, further comprising: input means for allowing a user of the mobile wireless device to input information for determining a maximum transmission power. The mobile radio device, wherein the maximum transmission power determining means determines a maximum transmission power based on information input by the input means. 10. A mobile communication system comprising the mobile radio according to claim 1 and a base station. 11. A signal transmission method for transmitting a signal from a mobile radio to a base station, comprising: determining a maximum transmission power; and transmitting a signal according to the determined maximum transmission power. The signal transmission method to be performed.