JPH09139711A - Radio communication terminal equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the power consumption by reducing a transmission output when a distance between a receiver side and a base station is short. SOLUTION: A reception level detection section 11 detects a reception level from a base station and a distance up to the base station is estimated based on the level and a gain adjustment section 12 controls a transmission amplifier 6 based on the distance estimated by the reception level detection section 11. Thus, a transmission output is varied to reduce a transmission output when a distance up to the base station is short and the power consumption is excellently reduced. A reception level rate of change detection section 13 detects a rate of change of the estimated distance by the detection section 11 and a gain adjustment inhibit section 14 inhibits transmission output variable control to make a transmission output constant when a rate of change in the estimated distance is a prescribed value or over.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless communication terminal device that wirelessly exchanges information with a base station.

[0002]

2. Description of the Related Art In a wireless communication terminal device such as a mobile phone device which wirelessly transmits and receives information to and from a base station, the size of the wireless communication terminal device is rapidly reduced so that it can be easily carried, and The percentage of battery weight is increasing. Therefore, there is a demand for downsizing of batteries, and in connection therewith, further reduction of power consumption is strongly demanded.

By the way, in the conventional portable telephone device, various power consumption reduction measures are taken, but the transmission output is constant regardless of the distance from the base station.

[0004]

However, when the transmission output is constant irrespective of the distance from the base station as in the conventional portable telephone device, the transmission output is larger than necessary when the base station is close. As a result, it was a waste of power consumption. In other words, transmission consumes more power than reception, and if the distance from the base station is short, the base station side can receive well enough even if the transmission output is reduced, so the transmission output is increased more than necessary. This wastes much power.

The present invention has been proposed in view of the above points, and it is an object of the present invention to provide a wireless communication terminal apparatus capable of favorably reducing power consumption.

[0006]

In order to achieve the above object, the wireless communication terminal device of the invention described in claim 1 is a wireless communication terminal device which wirelessly exchanges information with a base station. A distance estimation means for detecting a reception level from the base station and estimating a distance to the base station based on the level, and a transmission output varying means for varying the transmission output based on the distance estimated by the distance estimation means. And the transmission output is reduced when the distance to the base station is short.

A wireless communication terminal device according to a second aspect of the present invention is the wireless communication terminal device according to the first aspect, wherein the estimated distance change rate for detecting the change rate of the distance estimated by the distance estimation means. When the rate of change in the estimated distance detected by the detection unit and the estimated distance change rate detection unit is equal to or greater than a predetermined value, the transmission output variable control unit prohibits the transmission output variable control by the transmission output variable unit to keep the transmission output constant. And a control prohibiting means.

Further, the wireless communication terminal device of the invention described in claim 3 is the wireless communication terminal device according to claim 2, wherein the operation for forcibly actuating the transmission output variable control prohibiting means by a user's operation. It has a means.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be specifically described below with reference to the drawings.

FIG. 1 is a circuit block diagram of a main part of a mobile phone device as an example of a wireless communication terminal device according to the present invention. The mobile phone device includes an antenna 1, a duplexer 2, filters 3 and 4, Reception amplifier 5, transmission amplifier 6, filters 7 and 8, demodulator 9, modulator 10, reception level detection unit 11, gain adjustment unit 12, reception level change rate detection unit 1
3, a gain adjustment prohibition unit 14, and operation keys 15. Of course, this mobile phone device includes a large number of circuits and mechanical parts other than the above, but the description thereof is omitted because it is not directly related to the gist of the present invention.

The antenna 1 receives a radio wave emitted from a base station (not shown), converts the radio wave into a high frequency signal and outputs the high frequency signal to the duplexer 2, and also converts the high frequency signal from the duplexer 2 into a radio wave. Then, the light is emitted toward the base station. The duplexer 2 outputs the high frequency signal from the antenna 1 to the filter 3 and outputs the high frequency signal from the filter 4 to the antenna 1. The filter 3 removes an unnecessary frequency component of the high frequency signal from the antenna 1 and outputs it to the reception amplifier 5. The filter 4 removes the unnecessary frequency component of the high frequency signal from the transmission amplifier 6 and outputs it to the duplexer 2. The reception amplifier 5 amplifies the high frequency signal from the filter 3 and outputs it to the filter 7 and the reception level detection unit 11. The transmission amplifier 6 amplifies the high frequency signal from the filter 8 with an amplification factor according to the instruction from the gain adjusting unit 12 and outputs the amplified high frequency signal to the filter 4. The filter 7 is the reception amplifier 5
Demodulator 9 by removing unnecessary frequency components of the high frequency signal from
Output to The filter 8 removes the unnecessary frequency component of the high frequency signal from the modulator 10 and outputs it to the transmission amplifier 6. The demodulator 9 demodulates, for example, digital received data from the high frequency signal from the filter 7 and outputs it to a predetermined circuit (not shown). The modulator 10 modulates, for example, digital transmission data from a predetermined circuit (not shown) and outputs the high frequency signal to the filter 8.

The reception level detecting section 11 is provided with, for example, a comparator and the like, samples the level of the high frequency signal from the reception amplifier 5, that is, the reception level, at predetermined time intervals, and the reception level is determined in three predetermined levels, for example. It determines which of the levels it corresponds to, and outputs the result of the determination to the gain adjustment unit 12 and the gain adjustment prohibition unit 14. For example, if the reception level is high, medium, or small,
It is represented by numerical values of 2 and 3, and the numerical values are output to the gain adjustment unit 12 and the gain adjustment prohibition unit 14. The reception level detection unit 11 constitutes a distance estimation unit that detects the reception level from the base station and estimates the distance to the base station based on the level. That is, since the magnitude of the reception level is inversely proportional to the square of the distance from the base station, if the transmission output of the base station is known in advance, the distance to the base station can be almost determined from the magnitude of the reception level. When the magnitude of the reception level is classified into, for example, large, medium, and small, it corresponds to the fact that the distance to the base station is short, medium, and long.

The gain adjusting section 12 is a reception level detecting section 1
The gain of the transmission amplifier 6 is controlled based on the detection result from 1. The gain adjusting unit 12 is the reception level detecting unit 1
The transmission output varying means is configured to vary the transmission output based on the distance estimated by the distance estimating means realized by 1. For example, when the reception level detected by the reception level detection unit 11 is high, the distance to the base station is short, and therefore the gain of the transmission amplifier 6 is reduced. If the reception level is medium, the distance to the base station is medium, so
Set the gain of the transmission amplifier 6 to the inside. Similarly, when the reception level is low, the distance to the base station is long, so the gain of the transmission amplifier 6 is increased.

The reception level change rate detection unit 13 calculates the change rate of the detection result by the reception level detection unit 11. For example, the high, medium, and low reception levels are represented by numerical values of 1, 2, and 3, the absolute value of the difference from the previous sampling value is calculated for each sampling, and the absolute value is accumulated a predetermined number of times, and the numerical value is gained. Output to the adjustment prohibition unit 14. That is, the reception level change rate detection unit 13 constitutes an estimated distance change rate detection unit that detects the change rate of the distance estimated by the distance estimation unit realized by the reception level detection unit 11.

The gain adjustment prohibiting unit 14 controls the gain adjusting unit 12 when the numerical value indicating the rate of change from the reception level change rate detecting unit 13 is equal to or more than a predetermined value, and the receiving level detecting unit 1 is controlled.
Regardless of the detected value from 1, the gain of the transmission amplifier 6 is fixed to a large value, for example. That is, the gain adjustment prohibiting unit 14 causes the gain adjusting unit 12 to operate when the estimated distance change rate detected by the estimated distance change rate detecting unit realized by the reception level change rate detecting unit 13 is equal to or more than a predetermined value. The transmission output variable control prohibiting means for prohibiting the transmission output variable control by the realized transmission output varying means to make the transmission output constant is configured.

The operation key 15 is used by the user to manually operate the gain adjustment prohibiting section 14.
That is, the operation key 15 constitutes an operation means for forcibly operating the gain adjustment prohibiting section 14 by the operation of the user.

Note that the reception level change rate detection unit 13, the gain adjustment prohibition unit 14, and the like may be realized by software using a CPU (not shown) that controls the entire mobile phone device, or by using a logic circuit or the like. It may be realized by hardware.

Next, the operation of the portable telephone device thus constructed will be described. First, in the case of reception, the radio wave emitted from the base station enters the antenna 1 and is converted into a high frequency signal. This high frequency signal is input to the filter 3 via the duplexer 2, the unnecessary frequency component is removed by the filter 3, amplified by the reception amplifier 5, and supplied to the filter 7 and the reception level detection unit 11. Then, unnecessary frequency components are removed by the filter 7 and demodulated by the demodulator 9 into digital reception data. The received data is converted into an analog voice signal by a predetermined circuit, finally converted into a sound wave by a speaker (not shown), and output as a voice of a communication partner.

On the other hand, in the case of transmission, the voice of the speaker is converted into an analog voice signal by a microphone (not shown) and converted into digital transmission data by a predetermined circuit (not shown). This transmission data is modulated by the modulator 10 and output to the filter 8 as a high frequency signal. The high frequency signal has unnecessary frequency components removed by the filter 8 and is amplified by the transmission amplifier 6. The amplified high frequency signal has its unnecessary frequency components removed by the filter 4, and is output to the antenna 1 via the duplexer 2. As a result, the antenna 1 converts the high frequency signal from the duplexer 2 into a radio wave and emits it to the base station.

By the way, it is amplified by the receiving amplifier 5.
The level of the high frequency signal is detected by the reception level detector 11.
Is detected and out of three predetermined size ranges
It is determined which one belongs to, and the determination result is the gain adjustment unit.
12 and the reception level change rate detection unit 13.
That is, A₁<A_TwoAnd the reception level is A ₁
Less than, small, A₁Or more A_TwoIf less than, medium, A_TwoLess than
If it is above, it is judged as large, if it is small, it is 3, and if it is medium,
If the value is 2, the value is 1 if the value is large.
It is output to the level change rate detection unit 13.

As a result, the gain adjusting section 12 controls the gain of the transmission amplifier 6 according to the numerical value from the reception level detecting section 11. That is, if the numerical value from the reception level detection unit 11 is 3, the reception level is low, in other words, the distance to the base station is long, so the gain of the transmission amplifier 6 is increased. If the numerical value from the reception level detector 11 is 2, the reception level is medium, in other words, the distance to the base station is medium, so the gain of the transmission amplifier 6 is set to medium. Similarly,
If the value from the reception level detector 11 is 1, the reception level is high, in other words, the distance to the base station is short,
The gain of the transmission amplifier 6 is reduced. Therefore, the transmission output increases as the distance from the base station increases, and the transmission output decreases as the distance from the base station decreases.

Further, the numerical value inversely proportional to the magnitude of the received level from the received level detecting section 11 is also output to the receiving level change rate detecting section 13, and the absolute value of the difference from the previous numerical value is calculated each time, It is accumulated a predetermined number of times, and the numerical value is output to the gain adjustment prohibition unit 14. For example, the numerical values from the reception level detection unit 11 are 1, 1, 1, 1, 2, 3,
If it is 1,3, the absolute value of the difference from the previous value is 0,0,0,1,1,2,2. If these are accumulated three times, the cumulative value is 0,1. , 2, 4, 5, and these are output from the reception level change rate detection unit 13 to the gain adjustment prohibition unit 14.

As a result, the gain adjustment inhibiting unit 14 should fix the gain of the transmission amplifier 6 to the predetermined value in the gain adjusting unit 12 when the cumulative value from the reception level change rate detecting unit 13 exceeds the predetermined value. A command to that effect is output. For example,
When the cumulative value from the reception level change rate detection unit 13 becomes 4 or more, an instruction is given to increase the gain of the transmission amplifier 6 regardless of the numerical value from the reception level detection unit 11.

As a result, the gain adjusting section 12 fixes the gain of the transmission amplifier 6 to a large value. This fixing is continued until the cumulative value from the reception level change rate detection unit 13 becomes 3 or less. So, for example, while traveling by car,
In a situation where the reception level changes frequently due to an obstacle such as a building, the gain of the transmission amplifier 6 is fixed. As a result, it is possible to satisfactorily avoid the inconvenience that the gain adjustment of the transmission amplifier 6 cannot follow the change in the reception level and communication failure occurs.

The gain adjustment prohibiting unit 14 also operates when the user presses the operation key 15, and the gain adjusting unit 1
2 is controlled to fix the gain of the transmission amplifier 6 to a large value.
This fixing is continued until the user next pushes the operation key 15. Therefore, for example, when used in an area of a base station having a transmission output different from that of the base station in the normal use area, pressing the operation key 15 causes the gain adjustment of the transmission amplifier 6 due to the difference in the transmission output of the base station. It is possible to avoid the situation where it is not performed accurately.

The essential points of the operations of the reception level detecting section 11, the gain adjusting section 12, the reception level change rate detecting section 13, and the gain adjustment inhibiting section 14 will be described again with reference to the flowchart of FIG. First, the reception level detection unit 11 determines whether or not the reception level is high (S1), and if the reception level is high (S1: YES), the gain adjustment unit 12
However, the gain of the transmission amplifier 6 is reduced (S2). If the reception level is not high (S1: NO), the reception level detection unit 11 determines whether the reception level is medium (S: NO).
3) If the reception level is medium (S3: YES), the gain adjustment unit 12 sets the gain of the transmission amplifier 6 to medium (S).
4). If the reception level is not medium (S3: NO), the reception level is low, so the gain adjusting unit 12 increases the gain of the transmission amplifier 6 (S5).

Then, the reception level change rate detection unit 13
The absolute value of the difference in reception level from the previous time is accumulated a predetermined number of times (S
6) The gain adjustment prohibiting unit 14 determines whether the cumulative value by the reception level change rate detecting unit 13 is equal to or more than a predetermined value (S7). If it is not less than the predetermined value (S7: YES), the gain adjusting unit 12 fixes the gain of the transmission amplifier 6 to a large value (S8), and ends the process. If the cumulative value is not equal to or more than the predetermined value (S7: NO), the gain adjustment prohibiting unit 14 determines whether or not the manual fixing mode in which the gain of the transmission amplifier 6 is fixed to a large value by the user's key operation ( If the manual fixing mode is set in S9) (S9: YES), the gain adjusting unit 12 fixes the gain of the transmission amplifier 6 to a large value in S8. If it is not the manual fixing mode (S9: NO), the process is terminated as it is.

The above process is repeated within an extremely short time, and is substantially always performed.

In this way, the reception level detecting section 11 detects the reception level from the base station, estimates the distance to the base station based on the level, and then the gain adjusting section 12
By controlling the transmission amplifier 6 based on the distance estimated by the reception level detection unit 11, the transmission output is made variable, so that the transmission output becomes small when the distance to the base station is short, thus reducing power consumption. It can be reduced well.

The reception level change rate detection unit 13 detects the distance change rate estimated by the reception level detection unit 11, and the gain adjustment prohibition unit 14 detects the distance change rate estimation unit 13. When the rate of change in distance is equal to or greater than a predetermined value, the transmission output variable control by the gain adjustment unit 12 is prohibited to keep the transmission output constant, so that an obstacle such as a building may cause the transmission output to become constant. Under a situation where the reception level changes frequently, the gain of the transmission amplifier 6 is fixed. As a result, it is possible to satisfactorily avoid the inconvenience that the gain adjustment of the transmission amplifier 6 cannot follow the change in the reception level and communication failure occurs.

Further, since the user presses the operation key 15 to forcibly activate the gain adjustment prohibition unit 14, for example, the gain adjustment prohibition unit 14 is used in an area of a base station having a transmission output different from that of a base station in a normal usage area. In such a case, by pressing the operation key 15, it is possible to avoid a situation in which the gain adjustment of the transmission amplifier 6 is not accurately performed due to the difference in the transmission output of the base station.

In the above embodiment, the detection of the reception level by the reception level detection unit 11, that is, the detection of the distance to the base station is classified into three stages, and the reception level change rate detection unit 13 accumulates the numerical values from the reception level detection unit 11. Although the number of times is set to three times, these numerical values are not limited to such values and may be set as appropriate according to various design conditions.

In the above embodiment, a digital type mobile telephone device has been described as an example of the wireless communication terminal device, but the present invention is not limited to a base station such as an analog type mobile telephone device or a portable facsimile device. The present invention can be widely applied to various other wireless communication terminal devices that wirelessly exchange information with each other.

Furthermore, in the above embodiment, the reception level determination unit 11 sets the reception level determination criterion to one type, but it may be configured to be switched to a plurality of types by the operation of the user. In this way, the transmission output is known even when it is used in an area where the transmission output of the base station is different from the normal usage area, and if there is a type of judgment criterion for the reception level corresponding to that, the transmission output Can be automatically adjusted.

[0035]

As described above, according to the wireless communication terminal device of the invention described in claim 1, the distance for detecting the reception level from the base station and estimating the distance to the base station based on the level is detected. Since the estimation means and the transmission output varying means for varying the transmission output based on the distance estimated by the distance estimating means are provided and the transmission output is reduced when the distance to the base station is short, When the distance is short, the transmission output becomes small, so that the power consumption can be favorably reduced.

According to the wireless communication terminal device of the invention described in claim 2, the estimated distance change rate detecting means for detecting the change rate of the distance estimated by the distance estimating means and the estimated distance change rate detecting means. The transmission output variable control inhibiting means for inhibiting the transmission output variable control by the transmission output varying means to make the transmission output constant when the detected change rate of the estimated distance is equal to or more than a predetermined value. In addition to the effects of the invention described in, for example, while traveling by car,
In a situation where the reception level changes frequently due to an obstacle such as a building, the transmission output is fixed, so it is possible to satisfactorily avoid the inconvenience that the transmission output adjustment cannot follow the change in the reception level and a communication failure occurs. .

Further, according to the wireless communication terminal device of the invention described in claim 3, since it has an operating means for forcibly actuating the transmission output variable control prohibiting means by an operation of the user, for example, in a normal use area. When used in an area of a base station that has a different transmission output from the base station, the user may operate the operating means to prevent the transmission output from being adjusted properly due to the difference in the transmission output of the base station. Can be avoided satisfactorily.

[Brief description of the drawings]

FIG. 1 is a circuit block diagram of a main part of a mobile phone device as an example of a wireless communication terminal device according to the present invention.

FIG. 2 is a flowchart illustrating the main points of operation of a mobile phone device as an example of a wireless communication terminal device according to the present invention.

[Explanation of symbols]

 6 transmission amplifier 11 reception level detection unit 12 gain adjustment unit 13 reception level change rate detection unit 14 gain adjustment prohibition unit 15 operation key

Claims (3)

[Claims] 1. A wireless communication terminal device for wirelessly transmitting and receiving information to and from a base station, which detects a reception level from the base station and estimates a distance to the base station based on the level. And a transmission output varying unit that varies the transmission output based on the distance estimated by the distance estimating unit, and reduces the transmission output when the distance to the base station is short. A wireless communication terminal device. 2. An estimated distance change rate detecting means for detecting a change rate of the distance estimated by the distance estimating means, and a change rate of the estimated distance detected by the estimated distance change rate detecting means is a predetermined value or more. The wireless communication terminal device according to claim 1, further comprising: a transmission output variable control prohibiting unit that prohibits the transmission output variable control by the transmission output changing unit to keep the transmission output constant. 3. The wireless communication terminal device according to claim 2, further comprising operation means for forcibly operating the variable transmission output control prohibiting means by a user's operation.