JP2009071609A - Charging system, mobile terminal, charging unit, and voice output method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a charging system capable of power saving control at the time of viewing and listening with a mobile terminal in a state of being connected to a charging unit. <P>SOLUTION: A charging system 100 includes a mobile terminal 20 and a charging stand 8. The mobile terminal 20 includes a first speaker amplifier 1 for amplifying a voice signal, a first speaker 2 for outputting the voice signal amplified by the first speaker amplifier 1, a detector unit 3 for detecting that the mobile terminal 20 is connected to the charging stand 8, a control unit 4 for suspending the amplification processing of the first speaker amplifier 1 when the connection to the charging stand 8 is detected, and an output unit 5 for outputting the voice signal to the charging stand 8 when the connection to the charging stand 8 is detected. The charging stand 8 includes a second speaker amplifier 6 for amplifying the voice signal supplied from the output unit 5, and a second speaker 7 for outputting the voice signal amplified by the second speaker amplifier 6. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a charging system, a portable terminal, a charging device, and an audio output method, and in particular, power saving control can be performed particularly when a mobile phone with a television receiving function is viewed on a television connected to the charging device. The present invention relates to a charging system, a portable terminal, a charging device, and an audio output method.

  It is important to reduce power consumption of portable terminals. In particular, since a battery is often used as a power source, and power consumption is directly related to battery life, reduction of power consumption is an important issue. In response to such a problem, a digital broadcast receiver capable of reducing power consumption without increasing the number of devices is known.

  The digital broadcast receiver includes a high frequency unit that receives a digital broadcast signal and amplifies a broadcast signal corresponding to a designated station, an error correction unit that performs error correction processing on the broadcast signal processed by the high frequency unit, A reproduction processing unit that performs reproduction processing based on a broadcast signal that has been subjected to error correction processing by the error correction unit, and an error rate detection unit that detects an error rate in the error correction processing, and the error rate detection unit Supply power reduction means for reducing supply power to the high-frequency unit when the detected error rate exceeds a preset reference value. In this digital broadcast receiver, when the reception state of the TV radio wave is good, the power supplied to the high-frequency unit can be reduced to reduce the power consumption of the entire apparatus (see, for example, Patent Document 1).

JP 2005-109912 A

  However, in the above-described conventional digital broadcast receiver, when the user watches the television with the charging device connected, the battery charging time becomes longer due to the power consumption due to the television viewing. Also, in addition to self-heating due to charging, the contact area between the terminal and the charging stand becomes particularly hot, and the battery heats up further due to circuit heating when watching TV, resulting in a deterioration in battery life and a risk of user burns. .

  The present invention has been made in view of the above-described conventional circumstances, and is a charging system, a portable terminal, and a charging device that can perform power saving control when viewing with the portable terminal connected to the charging device. And an audio output method.

  To achieve the above object, a first charging system of the present invention includes a main body, a first speaker amplifier that amplifies an audio signal, and a first audio signal that is amplified by the first speaker amplifier. When the connection between the speaker, the detection unit detecting that the main body is connected to the charging device, and the detection unit is detected by the detection unit, the amplification processing of the first speaker amplifier is stopped. A portable terminal having a control unit and an output unit that outputs an audio signal to the charging device when connection with the charging device is detected by the detection unit, and amplifies the audio signal supplied from the output unit The second speaker amplifier, the second speaker that outputs the audio signal amplified by the second speaker amplifier, and the charging device are provided.

  According to the above configuration, when the connection with the charging device is detected, the amplification process of the first speaker amplifier is stopped, so that power saving control of the portable terminal can be performed, and heat generation is prevented and the battery is charged. Time can be shortened. In addition, it is possible to improve the sound quality by using the high-quality amplifier of the second speaker amplifier of the charging device, and it is possible to prevent image quality and sound quality disturbance due to heat generation of the circuit.

  In the second charging system of the present invention, the first speaker amplifier is a digital amplifier.

  According to the above configuration, for example, when a digital amplifier is used as the first speaker amplifier and simultaneously watching TV, wireless noise may occur and the image may be disturbed. By using it, it is possible to minimize the influence of radio noise. In addition, power efficiency is improved by using a digital amplifier.

  Further, the third charging system of the present invention has a receiving circuit for the portable terminal to receive a signal received by the antenna, and the control unit is connected to the charging device when the antenna is connected. When the received electric field strength of the signal received at is above a predetermined threshold, the gain of the receiving circuit is reduced.

  According to the above configuration, when the mobile terminal is connected to the charging device, the gain of the receiving circuit is reduced, so that power saving control of the mobile terminal can be performed, and the second speaker amplifier of the charging device can Quality audio can be output.

  In the fourth charging system of the present invention, the portable terminal selects a plurality of antennas and an antenna having the best reception sensitivity from the plurality of antennas, or combines signals received by the plurality of antennas. And an antenna selection circuit for performing diversity processing, and the antenna selection circuit stops the diversity processing when connected to the charging device.

  According to the above configuration, when the mobile terminal is connected to the charging device, the diversity function is turned off, and the antenna having the best reception sensitivity is selected and operated, so that the power for operating the diversity function is reduced. And power saving control of the portable terminal can be performed.

  In the fifth charging system of the present invention, the diversity processing is performed again when the antenna selection circuit switches the reception channel.

  According to the above configuration, since the antenna having the best reception sensitivity is selected again when the channel is switched, it is possible to prevent the image quality and sound quality from being disturbed due to the channel switching and to perform the power saving control of the portable terminal.

A first portable terminal of the present invention includes a main body, a speaker amplifier that amplifies an audio signal,
A speaker that outputs an audio signal amplified by the speaker amplifier, a detection unit that detects that the main body is connected to a charging device, and a connection between the charging device and the detection unit that is detected by the detection unit; A control unit that stops the amplification process of the speaker amplifier and an output unit that outputs an audio signal to the charging device when the detection unit detects a connection with the charging device.

  According to the above configuration, when the connection with the charging device is detected, the amplification processing of the speaker amplifier is stopped, so that the power saving control of the mobile terminal can be performed, the heat generation is prevented, and the battery charging time is shortened. can do.

  The first charging device of the present invention amplifies an audio signal supplied from the portable terminal when the amplification process of the charging power source for charging the portable terminal and the speaker amplifier of the portable terminal is stopped. A speaker amplifier and a speaker that outputs an audio signal amplified by the speaker amplifier are provided.

  According to the above configuration, the sound quality can be improved by using the high-quality amplifier for the speaker amplifier that amplifies the audio signal supplied from the mobile terminal.

  The first audio output method of the present invention includes a step of amplifying an audio signal in the portable terminal, a step of outputting the amplified audio signal in the portable terminal, and the portable terminal connected to a charging device. Detecting the connection, detecting the connection between the portable terminal and the charging device, stopping the amplification process, and detecting the connection between the portable terminal and the charging device. The method includes a step of outputting a sound signal to the device, a step of amplifying a sound signal supplied from the portable terminal in the charging device, and a step of outputting the sound signal amplified in the charging device.

  According to the above method, for example, when the connection between the charging device and the portable terminal is detected, the amplification process of the first speaker amplifier is stopped, so that the power saving control of the portable terminal can be performed and the heat generation is prevented. In addition, the battery charging time can be shortened. Further, for example, it is possible to improve the sound quality by using a high quality amplifier of the second speaker amplifier of the charging device, and it is possible to prevent the image quality and sound quality from being disturbed due to the heat generation of the circuit.

  As described above, according to the charging system, the portable terminal, the charging device, and the audio output method according to the present invention, when the connection with the charging device is detected, the amplification process of the first speaker amplifier is stopped. Thus, power saving control of the portable terminal can be performed, heat generation can be prevented, and the battery charging time can be shortened. In addition, a high quality amplifier can be used as the second speaker amplifier of the charging device, and the image quality and the sound quality can be prevented from being disturbed due to the heat generated by the circuit.

  A charging system, a portable terminal, a charging device, and an audio output method according to an embodiment of the present invention will be described below with reference to the drawings.

  FIG. 1 is a block diagram illustrating an example of a configuration of a charging system 100 according to an embodiment of the present invention. The charging system 100 includes a mobile terminal 20 incorporating a battery and a charging base 8 that charges the battery.

  The mobile terminal 20 includes a first speaker amplifier 1, a first speaker 2, a detection unit 3, a control unit 4, an output unit 5, a first antenna 10, a second antenna 11, and an antenna selection circuit 12. A reception circuit 13, a demodulation circuit 14, a DSP (Digital Signal Processor) (signal processing unit) 15, a D / A (Digital / Analog) converter 16, and an LCD (Liquid Crystal Display) 17. Is done. As the mobile terminal 20, a mobile phone, a personal digital assistant (PDA), or the like can be considered.

  The casing of the mobile terminal 20 is an example of a “main body”. The charging stand 8 is an example of a “charging device”.

  The first speaker amplifier 1 amplifies the analog audio signal supplied from the D / A converter 16 and stops the amplification process based on the control signal from the control unit 4 when the charging stand 8 is connected. Here, an analog amplifier or a digital amplifier is used as the first speaker amplifier 1. Here, an example of a comparison table of the analog amplifier (AB class) and the digital amplifier (D class) is shown in Table 1.

  From Table 1, it can be understood that radio noise tends to occur when a digital amplifier is used. For example, if a digital amplifier is used when watching TV, wireless noise may occur and the image may be distorted. Even in such a case, by using the second speaker amplifier 6 of the charging stand 8, it is possible to minimize the influence of wireless noise. In addition, power efficiency is improved by using a digital amplifier.

  The first speaker 2 outputs sound by the sound signal supplied from the first speaker amplifier 1.

  The detection unit 3 detects that the mobile terminal 20 is connected to the charging base 8 and outputs a detection signal to the control unit 4.

  The control unit 4 performs signal processing, power saving control, and the like. For example, the control unit 4 controls the antenna selection circuit 12 and stops the amplification process of the first speaker amplifier 1 when the detection unit 3 detects the connection with the charging base 8. Further, the control unit 4 transmits various control signals.

  The output unit 5 outputs the audio signal supplied from the D / A converter 16 to the charging table 8 when the detection unit 3 detects the connection with the charging table 8.

  The first antenna 10 and the second antenna 11 transmit and receive various data.

  The antenna selection circuit 12 selects an antenna used for communication according to the reception sensitivity of signals (radio waves) of the first antenna 10 and the second antenna 11 having a diversity function. Further, the antenna selection circuit 12 may select the antennas so that the signals of the first antenna 10 and the second antenna 11 can be combined with, for example, the same phase. Thereby, selection diversity reception and combination diversity reception are possible. In addition, the antenna selection circuit 12 turns off the diversity function when connected to the charging stand 8 and selects and operates the antenna with the best reception sensitivity, and reselects the antenna with the best reception sensitivity when switching channels. To do.

  The reception circuit 13 performs reception processing on the signal from the antenna selection circuit 12. For example, the receiving circuit 13 receives and amplifies the high-frequency signal of the antenna selected by the antenna selection circuit 12 and gains with respect to the high-frequency signal based on the control signal from the control unit 4 during connection with the charging stand 8. Reduce.

  The demodulation circuit 14 demodulates the high frequency signal supplied from the reception circuit 13 to generate a low frequency signal.

  The DSP 15 separates the video signal and the audio signal from the low frequency signal supplied from the receiving circuit 13, and processes the video signal and the audio signal at high speed.

  The D / A converter 16 converts the digital audio signal supplied from the DSP 15 into an analog audio signal.

  The LCD 17 is supplied with a video signal from the DSP 15 and displays a video.

  The charging stand 8 includes a second speaker amplifier 6, a second speaker 7, and a charging power source 9.

  The second speaker amplifier 6 amplifies the audio signal supplied from the output unit 5 of the mobile terminal 20.

  The second speaker 7 outputs sound by the sound signal supplied from the second speaker amplifier 6.

  The charging power source 9 is a power source for charging a battery built in the mobile terminal 20.

  Next, an example of the operation of the charging system 100 is shown in FIGS. FIG. 2 is a flowchart for explaining an example of an operation of stopping the first speaker amplifier 1 of the mobile terminal 20 when the connection between the mobile terminal 20 and the charging stand 8 is detected.

  First, in step S101, when the charging stand 8 is not connected to the mobile terminal 20, the first speaker 2 outputs sound.

  Subsequently, in step S <b> 102, the detection unit 3 determines whether the charging base 8 is connected to the mobile terminal 20. When the connection of the charging base 8 is detected (Yes), the process proceeds to the next step S103, and when the connection of the charging base 8 is not detected (No), the process returns to step S101.

  Subsequently, in step S103, when the connection between the portable terminal 20 and the charging stand 8 is detected, the control unit 4 stops the first speaker amplifier 1.

  Subsequently, in step S <b> 104, the control unit 4 turns on the output unit 5 of the mobile terminal 20 and starts outputting an audio signal to the charging stand 8.

  Subsequently, in step S105, the second speaker 7 outputs sound.

  According to the charging system 100 that performs the processing of FIG. 2, when the connection between the mobile terminal 20 and the charging stand 8 is detected, the amplification process of the first speaker amplifier 1 of the mobile terminal 20 is stopped. Power saving control can be performed, heat generation can be prevented, and the battery charging time can be shortened. In addition, a high quality amplifier can be used as the second speaker amplifier of the charging stand 8 and the image quality and sound quality can be prevented from being disturbed due to circuit heat generation.

  FIG. 3 is a flowchart for explaining an example of an operation for reducing the gain of the receiving circuit 13 when the connection between the portable terminal 20 and the charging stand 8 is detected. Steps that perform the same processing as in FIG. 2 are assigned the same step numbers, and descriptions thereof are omitted.

  First, the mobile terminal 20 performs the processes of steps S101 to S105.

  Subsequently, in step S206, the demodulator 14 determines whether the received electric field strength of the signal received by the antenna supplied via the receiving circuit 13 is equal to or greater than a predetermined threshold value. If the received electric field strength is greater than or equal to the threshold (Yes), the process proceeds to the next step S207, and if the received electric field strength is not greater than or equal to the threshold (No), the process returns to step S105.

  Subsequently, in step S207, the control unit 4 reduces the gain of the receiving circuit 13.

  Subsequently, in step S208, the second speaker 7 outputs sound.

  According to the charging system 100 that performs the process of FIG. 3, the amplification process of the first speaker amplifier 1 of the mobile terminal 20 is stopped when the connection between the mobile terminal 20 and the charging stand 8 is detected. Power saving control can be performed, heat generation can be prevented, and the battery charging time can be shortened. Further, when the received electric field strength is equal to or higher than the threshold value, the control unit 4 reduces the gain of the receiving circuit 13, so that the operating power of the receiving circuit 13 can be reduced and the power saving control of the portable terminal 20 can be performed. .

  FIG. 4 is a flowchart for explaining an example of the operation of stopping the antenna selection circuit 12 by comparing the received electric field strength when the connection between the mobile terminal 20 and the charging stand 8 is detected. Steps that perform the same processing as in FIG. 2 are assigned the same step numbers, and descriptions thereof are omitted.

  First, the mobile terminal 20 performs the processes of steps S101 to S105.

  Subsequently, in step S306, the control unit 4 performs a timer process (eg, 1 second) for measuring the elapsed time.

  Subsequently, in step S307, the control unit 4 compares the received electric field strengths of the first antenna 10 and the second antenna 2 (11).

  Subsequently, in step S308, the control unit 4 stops the antenna selection circuit 12 and fixes it to an antenna having a high received electric field strength.

  Subsequently, in step S309, the demodulator 14 determines whether the received electric field strength is equal to or greater than a threshold value. If the received electric field strength is greater than or equal to the threshold (Yes), the process proceeds to the next step S310, and if the received electric field strength is not greater than or equal to the threshold (No), the process returns to step S105.

  Subsequently, in step S310, the control unit 4 reduces the gain of the receiving circuit 13.

  Subsequently, in step S311, the second speaker 7 outputs sound.

  According to the charging system 100 that performs the processing of FIG. 4, when the mobile terminal 20 is connected to the charging base 8, the diversity function is turned off, the antenna having the best reception sensitivity is fixed, and the antenna selection circuit 12 is stopped. Therefore, power for operating the diversity function can be reduced, and power saving control of the mobile terminal 20 can be performed. Further, when the received electric field strength is equal to or higher than the threshold value, the control unit 4 reduces the gain of the receiving circuit 13, so that the operating power of the receiving circuit 13 can be reduced and power saving control of the portable terminal can be performed.

  In FIG. 4, the selection diversity is described. However, the synthesis diversity may be performed.

  FIG. 5 is a flowchart for explaining an example of the operation when the reception channel is changed when the connection between the portable terminal 20 and the charging stand 8 is detected. Steps that perform the same processing as in FIG. 2 are assigned the same step numbers, and descriptions thereof are omitted.

  First, the mobile terminal 20 performs the processes of steps S101 to S105.

  Subsequently, in step S406, a timer process (eg, 1 second) for measuring the elapsed time is performed.

  Subsequently, in step S407, the control unit 4 compares the received electric field strengths of the first antenna 10 and the second antenna 11.

  Subsequently, in step S408, the control unit 4 stops the antenna selection circuit 12 and fixes it to an antenna having a high received electric field strength.

  Subsequently, in step S409, the control unit 4 determines whether there is a change in the reception channel. If there is a change in the reception channel (Yes), the process returns to step S105. If there is no change in the reception channel (No), the process proceeds to the next step S410.

  Subsequently, in step S410, the demodulator 14 determines whether the received electric field strength is equal to or greater than a threshold value. If the received electric field strength is greater than or equal to the threshold (Yes), the process proceeds to the next step S411, and if the received electric field strength is not greater than or equal to the threshold (No), the process returns to step S105.

  Subsequently, in step S411, the control unit 4 reduces the gain of the reception circuit 13.

  Subsequently, in step S412, the second speaker 7 outputs sound.

  According to the charging system 100 that performs the processing of FIG. 5, the antenna having the best reception sensitivity is selected again at the time of channel switching, so that image quality and sound quality disturbance due to channel switching is prevented and power saving of the mobile terminal 20 is achieved. Control can be performed.

  Note that the processing in FIG. 5 may be repeatedly performed every time there is a change in the reception channel, for example, when viewing TV.

  According to such a charging system 100, the second speaker 7 and the second speaker amplifier 6 are mounted on the charging stand 8 for charging the battery built in the portable terminal 20, and the portable terminal 20 is connected to the charging stand 8. At the same time, the first speaker amplifier 1 of the portable terminal 20 is automatically turned off and the TV speaker is switched to be output from the second speaker 7 of the charging stand 8, thereby simultaneously reducing the power consumption of the portable terminal 20. The heat generation of the circuit of the mobile terminal 20 can be reduced.

  Further, when viewing the television with the charging base 8 and the mobile terminal 20 connected, the reception of the TV radio wave is received because the first speaker amplifier 1 of the mobile terminal 20 is OFF and the fixed point reception state. By utilizing the fact that the strength is stable and reducing the sensitivity of the receiving circuit 13, the power consumption of the mobile terminal 20 can be reduced, and at the same time, the heat generation of the circuit of the mobile terminal 20 can be reduced.

  Furthermore, when viewing the television with the mobile terminal 20 connected to the charging stand 8, the first speaker amplifier 1 of the mobile terminal 20 is turned off, and the reception intensity of the TV radio wave is in a fixed point reception state. If the antenna selection circuit 12 is stopped in a state where reception is performed with only one antenna having the best reception sensitivity, the power required for the antenna selection circuit 12 and diversity processing can be reduced. At the same time, circuit heat generation of the mobile terminal 20 can be reduced.

  Further, when the reception channel for watching TV is switched according to a user instruction, the antenna selection circuit 12 is restarted, for example, the antenna having the best reception sensitivity is detected and selected, and then the antenna selection circuit 12 is stopped. In addition, it is possible to prevent the image quality and sound quality from being disturbed due to the channel switching, and to save the power of the mobile terminal 20.

  Here, the case of viewing the television has been mainly described, but the present invention can also be applied to the case of viewing the radio and other received contents.

  INDUSTRIAL APPLICABILITY The present invention is useful as a charging system, a portable terminal, a charging device, and the like that can perform power saving control when viewing with a portable terminal connected to the charging device.

The block diagram which shows an example of a structure of the charging system concerning embodiment of this invention. The flowchart for demonstrating an example of the operation | movement which stops the 1st speaker amplifier of a portable terminal, when the connection of the portable terminal and charging stand concerning embodiment of this invention is detected. The flowchart for demonstrating an example of the operation | movement which reduces the gain of a receiving circuit, when the connection of the portable terminal and charging stand concerning embodiment of this invention is detected. The flowchart for demonstrating an example of the operation | movement which compares the received electric field strength and stops the antenna selection circuit 12 when the connection of the portable terminal and charging stand concerning embodiment of this invention is detected. The flowchart for demonstrating an example of operation | movement in the case of changing a receiving channel, when the connection of the portable terminal and charging stand concerning embodiment of this invention is detected.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 1st speaker amplifier 2 1st speaker 3 Detection part 4 Control part 5 Output part 6 2nd speaker amplifier 7 2nd speaker 8 Charging stand 9 Charging power supply 10 1st antenna 11 2nd antenna 12 Antenna selection circuit 13 Reception circuit 14 Demodulator 15 DSP
16 D / A converter 17 LCD
20 mobile terminal 100 charging system

Claims (8)

The body,
A first speaker amplifier for amplifying an audio signal;
A first speaker that outputs an audio signal amplified by the first speaker amplifier;
A detection unit for detecting that the main body is connected to a charging device;
A control unit that stops amplification processing of the first speaker amplifier when the detection unit detects a connection with the charging device;
An output unit that outputs an audio signal to the charging device when connection with the charging device is detected by the detection unit;
A mobile terminal having
A second speaker amplifier for amplifying an audio signal supplied from the output unit;
A second speaker that outputs an audio signal amplified by the second speaker amplifier;
The charging device comprising:
With a charging system. The charging system according to claim 1,
The charging system, wherein the first speaker amplifier is a digital amplifier. The charging system according to claim 1 or 2,
The portable terminal has a reception circuit for performing reception processing of a signal received by an antenna,
The control unit is configured to reduce a gain of the reception circuit when a reception electric field strength of a signal received by the antenna is equal to or higher than a predetermined threshold when connected to the charging device. The charging system according to any one of claims 1 to 3,
The portable terminal is
Multiple antennas,
An antenna selection circuit for performing diversity processing to select an antenna having the best reception sensitivity from the plurality of antennas, or to combine signals received by the plurality of antennas;
The antenna selection circuit is a charging system that stops the diversity processing when connected to the charging device. The charging system according to any one of claims 1 to 4,
The antenna selection circuit is a charging system that performs the diversity processing again when the reception channel is switched. The body,
A speaker amplifier that amplifies the audio signal;
A speaker that outputs an audio signal amplified by the speaker amplifier;
A detection unit for detecting that the main body is connected to a charging device;
A control unit that stops amplification processing of the speaker amplifier when the detection unit detects a connection with the charging device;
A portable terminal comprising: an output unit that outputs an audio signal to the charging device when the detection unit detects a connection with the charging device. A charging power source to charge the mobile device,
A speaker amplifier that amplifies an audio signal supplied from the portable terminal when amplification processing of the speaker amplifier of the portable terminal is stopped;
A charging device comprising: a speaker that outputs an audio signal amplified by the speaker amplifier. Amplifying the audio signal in the mobile terminal;
Outputting an amplified audio signal in the mobile terminal;
Detecting that the mobile device is connected to a charging device;
When the connection between the portable terminal and the charging device is detected, stopping the amplification process;
Outputting a voice signal to the charging device when a connection between the portable terminal and the charging device is detected;
Amplifying an audio signal supplied from the portable terminal in the charging device;
An audio output method comprising: outputting an audio signal amplified in the charging device.

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