JP3760787B2 - Mobile phone - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a mobile telephone configured to stop the supply of power to a part of a transmission system or to reduce the power to be supplied based on a comparison result obtained by comparing a physical quantity related to a transmission voice with a threshold value.In machineRelated.
[0002]
[Problems to be solved by the invention]
Conventionally, mobile phones such as mobile phones and in-vehicle phones have been widely used. Now, this type of mobile phone is generally provided with a VOX (Voice Operated Transmitter) function. With the VOX function, for example, the power of the transmitted voice input by the microphone is compared with a threshold value (voice power threshold value), and if the transmitted voice power is less than the threshold value, it is determined that there is a silent period. The power supply to some circuits in the system is stopped or the power supplied is reduced to reduce power consumption as a mobile telephone in a silent section.
[0003]
However, the conventional mobile phone has the following problems because the threshold value for determining whether sound is present or not is constant regardless of the use state of the mobile phone. In other words, the mobile phone can be used in a handset usage state in which both the handsfree microphone and the earphone microphone are not connected, a handsfree usage state in which the handsfree microphone is connected, and an earphone microphone connected. The characteristics of the transmitted voice input by each microphone are different from each other in each usage state.
[0004]
Therefore, if the threshold value is constant as described above, for example, even if the VOX function works properly in the handset use state, the VOX function may not work properly in the hands-free use state. As a result, there is a problem that sound quality deteriorates.
[0005]
In this case, the determination of the silent section is a method of comparing the power per unit time of the transmitted voice with a threshold (voice power difference threshold) in addition to the method of comparing the power of the transmitted voice with the threshold as described above. There are a method for comparing the power of a specific band of the transmitted voice with a threshold (band power threshold) and a method for comparing the frequency component (for example, reflection coefficient) of the transmitted voice with a threshold (frequency component threshold). In any of the methods, each threshold value is constant regardless of the usage state of the mobile telephone, so that the same problem as the above problem occurs in the same manner as described above.
[0006]
  The present invention has been made in view of the above-described circumstances, and an object of the present invention is to enable the VOX function to work properly in any of a plurality of use states, thereby improving sound quality. Mobile phone that can avoid deteriorationMachineIt is to provide.
[0007]
[Means for Solving the Problems]
  According to the mobile telephone set forth in claim 1, the storage means stores a plurality of threshold values corresponding to a plurality of use states of the mobile phone, and the use state detection means indicates that the mobile phone has a plurality of use states.The handset use state that processes the voice input by the handset microphone as the transmission voice, the hands-free use state that processes the voice input by the handsfree microphone as the transmission voice, and the voice input by the earphone microphone is processed as the transmission voice Any of the earphone usage statesDetect whether or not Then, the control means selects a threshold value corresponding to the detection result of the use state detection means from the plurality of threshold values stored in the storage means, operates the VOX control means based on the selected threshold value, and performs VOX control. The means compares the physical quantity related to the transmitted voice with a threshold value, and stops the supply of power to a part of the transmission system or reduces the supplied power based on the comparison result.
[0008]
  That is, according to this, the usage state of the mobile phone is detected, a threshold value corresponding to the usage state of the mobile phone is selected from a plurality of threshold values, and the physical quantity related to the transmitted voice is compared with the selected threshold value. Since the power supply to a part of the transmission system is stopped or the power supplied is reduced based on the comparison result, a value suitable for a plurality of use states is set as a plurality of threshold values. Keep your mobile phoneOf handset use state, hands-free use state and earphone use stateRegardless of the use state, the VOX function can be made to work properly, thereby preventing deterioration in sound quality.
[0009]
  According to the mobile phone of claim 2,The usage status detection means automatically detects the connection status of the handsfree microphone and the earphone microphone, thereby detecting which of the usage status of the handset usage status, the handsfree usage status, or the earphone usage status has been changed. To do.
[0010]
  That is, according to this one,Since it is configured to detect which of the handset use state, handsfree use state, and earphone use state is changed by automatically detecting the connection state of the handsfree microphone and earphone microphone. By not connecting both the hands-free microphone and the earphone microphone, the VOX function that is optimal for the handset use state can be automatically and accurately operated in the handset use state, and by connecting the hands-free microphone. In the hands-free use state, the VOX function that is optimal for the hands-free use state can be automatically activated, and by connecting the earphone microphone, the earphone use state is automatically set. The VOX function optimal for the work It is possible.
[0011]
  According to the mobile telephone set forth in claim 3, the use state detecting means comprises:By detecting a state in which a hands-free microphone is connected and the handset is attached to the cradle or equivalent thereto, the transition to the hands-free use state is detected.
[0012]
  That is, according to this one,Since it is configured to detect that the hands-free microphone is connected and the handset is mounted on the cradle or by detecting the state equivalent to the handset, the hands-free microphone is detected. And the VOX function optimal for the hands-free use state can be automatically and accurately operated in the hands-free use state by attaching the handset to the cradle or making it equivalent.
[0013]
  According to the mobile phone of claim 4,The storage means stores a plurality of threshold values corresponding to a plurality of use states of the mobile phone, and the use state detection means detects which use state of the plurality of use states the mobile phone has transitioned to. When the use state detecting unit detects that the control unit has transitioned to one use state, the control unit selects at least one threshold value having one unit, and the selected at least one one threshold value. When the use state detection means detects that the VOX control means is operated based on the state and the use state detection means detects that the use state has been changed to another use state different from the one use state, at least one other Another threshold having units is selected, and the VOX control means is operated based on the selected at least one other threshold.
[0014]
  That is, according to this one,If the transition is to one usage state, the VOX function is activated based on at least one threshold having one unit, while the transition is to another usage state different from the one usage state. Since the VOX function is configured to work based on at least one other threshold value having another unit different from one unit, an optimum threshold value having a different unit is selected according to each use state. By doing so, the VOX function can be made to work properly.
[0015]
  According to the mobile telephone set forth in claim 5, the control means includes:When the use state detecting means detects that the handset use state or the earphone use state has been changed, the threshold relating to the power of the transmitted voice and the threshold relating to the frequency component of the transmitted voice are selected, and the selected transmission When the VOX control unit is operated based on the threshold value related to the power of the voice and the threshold value related to the frequency component of the transmitted voice, and the usage state detection unit detects that the state is shifted to the hands-free usage state, A threshold value related to power is selected, and the VOX control means is operated based on the threshold value related to the power of the selected transmitted voice.
[0016]
  That is, according to this one,If the handset use state or the earphone use state is changed, the VOX function is activated based on the threshold value relating to the power of the transmitted voice and the threshold value relating to the frequency component of the transmitted voice, while the state is changed to the hands-free use state. In this case, since the VOX function is configured to work based on the threshold value related to the power of the transmitted voice, it is generally difficult to be influenced by ambient sounds when using the handset or using the earphone, while using hands-free. In view of the fact that it is easily affected by ambient sounds in the state, in the handset use state or the earphone use state, in addition to comparing the power of the transmitted voice with the threshold value, the frequency component of the transmitted voice is also set as the threshold value. By comparing, the VOX function can be made to work properly.
[0017]
  According to the mobile phone of claim 6,The storage means stores a plurality of band conditions corresponding to a plurality of use states, and the control means has one predetermined frequency band when the use state detection means detects that it has transitioned to one use state. Select one band condition, operate the VOX control unit based on the selected one band condition, and the use state detection unit detects that it has transitioned to another use state different from the one use state Then, another band condition having another predetermined frequency band different from the one predetermined frequency band is selected, and the VOX control means is operated based on the selected other band condition.
[0018]
  That is, according to this one,If the transition is to one usage state, the VOX function is activated based on one band condition having one predetermined frequency band, while if the transition is to another usage state different from the one usage state. Since the VOX function is made to work based on other band conditions having other predetermined frequency bands different from one predetermined frequency band, the optimum frequency band having different frequency bands depending on each use state By selecting the band condition, the VOX function can be worked properly.
[0019]
  According to the mobile telephone of claim 7,When the use state detecting means detects that the handset is being used or the earphone is being used, one band condition having one predetermined frequency band is selected, and VOX control is performed based on the selected one band condition. When the use state detecting means detects that the device has been operated and has transitioned to the hands-free use state, another band condition having another predetermined frequency band different from the one predetermined frequency band is selected, and The VOX control means is operated based on the other selected band condition.
[0020]
  That is, according to this one,If the handset use state or the earphone use state is changed, the VOX function is activated based on one band condition having one predetermined frequency band. On the other hand, if the handset use state is changed, one predetermined frequency is set. Since the VOX function is made to work based on other band conditions having other predetermined frequency bands different from the band, in general, in the hands-free use state, the VOX function is often used in the vehicle, In view of the fact that it is easily affected by the low frequency band of ambient sounds in, for example, by setting the frequency band obtained by removing the low frequency band from one predetermined frequency band to another predetermined frequency band, the VOX function can be accurately adjusted accordingly. Can work on.
[0021]
  According to the mobile telephone of claim 8, the storage means isA plurality of threshold values corresponding to a plurality of use states of the mobile phone are stored, and the use state detecting means detects which use state of the plurality of use states the mobile phone has transitioned to. Then, the control means selects a threshold corresponding to a predetermined operation in the operation means from among the plurality of threshold values stored in the storage means, operates the VOX control means based on the selected threshold, and the VOX control means The physical quantity related to the transmitted voice is compared with a threshold value, and the supply of power to a part of the transmission system is stopped or the supplied power is reduced based on the comparison result.
[0022]
  That is, according to this one,A threshold corresponding to a predetermined operation in the operating means is selected from a plurality of thresholds, the physical quantity related to the transmitted voice is compared with the selected threshold, and the power to a part of the transmission system is based on the comparison result. Since it is configured to stop the supply or reduce the power to be supplied, the VOX function can be made to work properly by manual operation regardless of the usage state of the mobile phone by performing a predetermined operation on the operation means. Can do.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
Hereinafter, a first embodiment in which the present invention is applied to a mobile phone will be described with reference to FIGS.
FIG. 1 shows a configuration of a transmission system in a cellular phone as a functional block diagram. The cellular phone 1 can process the voice input by the handset microphone 2 as a transmission voice, and the handsfree microphone 3 can be input by connecting the handsfree microphone 3 to a main body (not shown). It is possible to process the voice to be transmitted as the transmitted voice, and further, by connecting the earphone microphone 4 to the main body, the voice input by the earphone microphone 4 can be processed as the transmitted voice. Yes.
[0029]
The switching unit 5 detects the connection state of the above-described hands-free microphone 3 and the earphone microphone 4, and outputs the detection result to the use state detection unit 6 (use state detection means referred to in the present invention). In response, the transmission voice path is switched.
[0030]
That is, the switching unit 5 sets the route of the transmitted voice so that the voice input by the handset microphone 2 is output to the analog amplifier 7 as the transmitted voice if neither the hands-free microphone 3 nor the earphone microphone 4 is connected. If the hand-free microphone 3 is connected and the handset is attached to a cradle (not shown) or equivalent, the analog amplifier 7 uses the voice input by the hands-free microphone 3 as the transmission voice. If the earphone microphone 4 is connected, and the earphone microphone 4 is connected, the voice input route is output to the analog amplifier 7 as the voice to be transmitted. Is switched.
[0031]
When the analog amplifier 7 inputs the transmission voice from the handset microphone 2, the handsfree microphone 3, or the earphone microphone 4 through the switching unit 5, the analog amplifier 7 amplifies the input transmission voice and filters the transmission voice 8. When the transmission voice is input from the analog amplifier 7, the filter 8 removes unnecessary frequency components from the input transmission voice and outputs the transmission voice to the A / D converter 9.
[0032]
When the transmission voice is input from the filter 8, the A / D conversion unit 9 converts the input transmission voice from an analog signal to a digital signal, and converts the transmission voice into a VOX (Voice Operated Transmitter) control unit 10 ( (VOX control means in the present invention) and the voice encoding unit 11.
[0033]
In addition, when the detection result is input from the switching unit 5, the use state detection unit 6 detects the use state of the mobile phone 1 according to the input detection result, and the detection result is the control unit 12 (in the present invention). Control means).
[0034]
The storage unit 13 (storage means in the present invention) stores a program and, as shown in FIG. 2, a handset threshold / band condition table, a hands-free threshold / band condition table, and an earphone threshold / band. Three threshold / bandwidth condition tables of the condition table are stored. In this case, the storage unit 13 includes four threshold values / band condition tables for the handset use state, the hands-free use state, and the earphone use state: an audio power threshold value, an audio power difference threshold value, a band power threshold value, and a frequency component threshold value. The threshold value is stored as a value that optimizes the VOX function, and the band condition indicating the frequency band is stored.
[0035]
When the control unit 12 receives the detection result from the use state detection unit 6, the control unit 12 selects any one of the above-described three threshold value / band condition tables stored in the storage unit 13 in accordance with the input detection result. / Band condition table is selected, at least one threshold value is selected from the four threshold values stored in the selected threshold value / band condition table, the selected threshold value is read, and in some cases, the selected value is selected. The bandwidth condition stored in the threshold / bandwidth condition table is also read.
[0036]
Then, the control unit 12 outputs the threshold or band condition read from the storage unit 13 to the VOX threshold / band condition setting unit 14, and the VOX threshold / band condition setting unit 14 inputs the threshold or band condition from the control unit 12. Then, the input threshold value or band condition is output to the VOX control unit 10 described above.
[0037]
When only the threshold value is input from the VOX threshold / band condition setting unit 14, the VOX control unit 10 inputs the transmission voice from the A / D conversion unit 9, and sets the physical quantity related to the input transmission voice to the VOX threshold value. / By comparing with the threshold value input from the band condition setting unit 14, a voiced section or a silent section is determined, and the determination result is output to the speech encoding unit 11 and the transmission control unit 15 described above.
[0038]
Further, when the VOX control unit 10 inputs the threshold and the band condition from the VOX threshold / band condition setting unit 14, when the transmission voice is input from the A / D conversion unit 9, the VOX control unit 10 matches the input transmission voice. By comparing the physical quantity related to the frequency band indicated by the band condition with the threshold value input from the VOX threshold / band condition setting unit 14, the voiced section or the silent section is determined, and the determination result is the speech encoding unit 11 described above. And output to the transmission control unit 15.
[0039]
When the voice encoding unit 11 receives the transmission voice from the A / D conversion unit 9, the voice encoding unit 11 encodes the input transmission voice according to a predetermined voice encoding algorithm, and the determination result input from the VOX control unit 10 is obtained. If it indicates a voiced section, the transmitted voice is output to the transmission path encoding unit 16.
[0040]
When the transmission voice is input from the voice encoding unit 11, the transmission path encoding unit 16 performs transmission path encoding such as error correction and bit rearrangement on the input transmission voice, and outputs the transmission voice to the modulation unit 17. Then, when the transmission voice is input from the transmission path encoding section 16, the modulation section 17 modulates the input transmission voice and outputs the transmission voice to the wireless transmission section 18. The wireless transmission section 18 modulates the transmission voice. When the transmission voice is input from the unit 17, the input transmission voice is transmitted as a transmission radio wave from the antenna 18a.
[0041]
Here, in the configuration described above, the transmission control unit 15 supplies a predetermined level of power to the modulation unit 17 and the wireless transmission unit 18 if the determination result input from the VOX control unit 10 indicates a sound section. On the other hand, if the determination result input from the VOX control unit 10 indicates a silent section, the power to stop or supply a predetermined level of power to the modulation unit 17 and the wireless transmission unit 18 By making the value less than a predetermined level, it is possible to reduce the power consumption of the mobile phone 1 in the silent section.
[0042]
Next, the operation of the above configuration will be described with reference to FIGS. Here, as shown in FIG. 3, the control unit 12 reads only the audio power threshold value from the storage unit 13 in each use state, that is, the audio power that is a threshold value other than the audio power threshold value from the storage unit 13. It is assumed that the difference threshold value, the band power threshold value, and the frequency component threshold value are not read and the band condition is not read from the storage unit 13.
[0043]
The control unit 12 performs the following processing by executing a program stored in the storage unit 13. That is, the control unit 12 first determines whether or not a request (event) for detecting the usage state of the mobile phone 1 has occurred (step S1). Here, when a request for detecting the use state of the mobile phone 1 is generated, the control unit 12 determines “YES” in step S1, determines the detection result input from the use state detection unit 6 (step S2), The use state at that time is detected (first procedure in the present invention), and it is determined whether or not the use state at that time is the same as the immediately preceding use state (step S3).
[0044]
Here, if the use state at the time point and the previous use state are different from each other, the control unit 12 determines “NO” in step S3, and according to the detection result input from the use state detection unit 6, Thereafter, one of the threshold / bandwidth condition tables is selected from the three threshold / bandwidth condition tables of the handset threshold / bandwidth condition table, the hands-free threshold / bandwidth condition table, and the earphone threshold / bandwidth condition table, Here, only the audio power threshold value is read out from the selected threshold value / band condition table (second procedure in the present invention).
[0045]
That is, if the detection result input from the use state detection unit 6 indicates the handset use state, the control unit 12 determines “YES” in step S4, selects the handset threshold / bandwidth condition table, The voice power threshold (THS_P) is read from the selected handset threshold / band condition table (step S5).
[0046]
Then, the control unit 12 outputs the voice power threshold value (THS_P) read from the storage unit 13 to the VOX threshold value / band condition setting unit 14, and sets the VOX control unit 10 to the voice power threshold value (THS_P) read from the storage unit 13. The operation is performed based on the third procedure in the present invention. As a result, the VOX control unit 10 compares the power of the transmitted voice input from the A / D converter 9 with the voice power threshold (THS_P) that is a threshold for the handset, and the power of the transmitted voice is the voice power threshold ( If it is equal to or higher than (THS_P), it is determined that it is a voiced section.
[0047]
Further, if the detection result input from the use state detection unit 6 indicates a hands-free use state, the control unit 12 determines “NO” in Step S4, determines “YES” in Step S6, The free threshold / band condition table is selected, and the voice power threshold (THF_P) is read from the selected hands-free threshold / band condition table (step S7).
[0048]
Then, the control unit 12 outputs the voice power threshold value (THF_P) read from the storage unit 13 to the VOX threshold value / band condition setting unit 14, and sets the VOX control unit 10 to the voice power threshold value (THF_P) read from the storage unit 13. The operation is performed based on the third procedure in the present invention. Accordingly, the VOX control unit 10 compares the power of the transmitted voice input from the A / D conversion unit 9 with the voice power threshold (THF_P) that is a hands-free threshold, and the power of the transmitted voice is the voice power threshold. If it is equal to or higher than (THF_P), it is determined to be a voiced section, while if the power of the transmitted voice is less than the voice power threshold (THF_P), it is determined to be a silent section.
[0049]
Further, if the detection result input from the use state detection unit 6 indicates the earphone use state, the control unit 12 determines “NO” in step S4, determines “NO” in step S6, and The threshold / band condition table is selected, and the voice power threshold (TEM_P) is read from the selected earphone threshold / band condition table (step S8).
[0050]
Then, the control unit 12 outputs the voice power threshold value (TEM_P) read from the storage unit 13 to the VOX threshold value / band condition setting unit 14, and sets the VOX control unit 10 to the voice power threshold value (TEM_P) read from the storage unit 13. The operation is performed based on the third procedure in the present invention. As a result, the VOX control unit 10 compares the power of the transmission voice input from the A / D conversion unit 9 with the voice power threshold (TEM_P) that is a threshold for the earphone, and the power of the transmission voice is the voice power threshold ( If it is equal to or greater than (TEM_P), it is determined to be a voiced section, while if the transmitted voice power is less than the voice power threshold (TEM_P), it is determined to be a silent section.
[0051]
By the way, the above is a description of the configuration in which only the audio power threshold is read from each threshold / band condition table. However, the configuration is not limited to reading only the audio power threshold, and the audio power difference threshold, the band power threshold, and The configuration may be such that any one of the frequency component threshold values is read out, or a configuration in which a plurality of threshold values out of these four threshold values are combined and read out.
[0052]
In that case, if the voice power difference threshold value is read out, the control unit 12 compares the power per unit time of the transmitted voice with the voice power difference threshold value, and the power per unit time of the transmitted voice is determined. If it is greater than or equal to the voice power difference threshold, it is determined that it is a voiced section, while if the power per unit time of the transmitted voice is less than the voice power difference threshold, it is determined that it is a silent section.
[0053]
Further, if the control unit 12 reads the band power threshold, the control unit 12 compares the power of the specific band of the transmitted voice with the band power threshold, and the power of the specific band of the transmitted voice is equal to or higher than the band power threshold. If there is, it is determined that it is a voiced section. On the other hand, if the power of a specific band of the transmitted voice is less than the band power threshold, it is determined that it is a silent section.
[0054]
Further, if the frequency component threshold value is read out, the control unit 12 compares the frequency component (for example, reflection coefficient) of the transmitted voice with the frequency component threshold value, and the frequency component of the transmitted voice exceeds the frequency component threshold value. If it is, it will determine with it being a silence area.
[0055]
As described above, according to the first embodiment, at least one threshold value among the four threshold values of the voice power threshold value, the voice power difference threshold value, the band power threshold value, and the frequency component threshold value is set according to the use state of the mobile phone 1. Reading, transmission voice power, transmission voice power per unit time, power of a specific band of transmission voice, and at least one physical quantity of four physical quantities related to transmission voice of frequency components of transmission voice Is configured to stop the supply of power to the modulation unit 17 and the wireless transmission unit 18 that are part of the transmission system or to reduce the power to be supplied based on the comparison result. Therefore, by setting values suitable for each use state of the handset use state, the hands-free use state, and the earphone use state as the above four threshold values A portable telephone 1 is in any state of use, it is possible to work accurately VOX function, whereby it is possible to avoid in advance that the sound quality is deteriorated.
[0056]
In this case, since the connection state between the hands-free microphone 3 and the earphone microphone 4 is automatically detected to detect which use state is being changed, the hands-free microphone 3 and the earphones are detected. By not connecting both microphones 4, when using the handset, the VOX function optimal for the handset use state can be automatically activated, and the hands-free microphone 3 can be connected and the handset can be cradled. By attaching to or equivalent to a state (not shown), the VOX function optimal for the hands-free use state can be automatically activated in the hands-free use state. By connecting the, the earphone is automatically used in the earphone usage state. It can work precisely the best VOX function to use state.
[0057]
(Second Embodiment)
Next, a second embodiment of the present invention will be described with reference to FIG. The description of the same parts as those in the first embodiment is omitted, and different parts will be described below.
In the first embodiment described above, the threshold value having the same unit is read from the threshold value / band condition table of each of the handset use state, the hands-free use state, and the earphone use state. In the second embodiment, threshold values having different units are read out.
[0058]
That is, as shown in FIG. 5, when the handset is in a use state, the control unit 12 reads, for example, two threshold values of a voice power threshold value (THS_P) and a frequency component threshold value (THS_r) from the handset threshold value / band condition table, The VOX control unit 10 compares the power of the transmitted voice with the voice power threshold (THS_P) and compares the frequency component of the transmitted voice with the frequency component threshold (THS_r), that is, By comparing these two physical quantities with a threshold value, a voiced section or a silent section is determined.
[0059]
Further, when the control unit 12 is in the hands-free use state, the control unit 12 reads, for example, one threshold value of only the voice power threshold value (THF_P) from the hands-free threshold value / band condition table, and the VOX control unit 10 transmits the transmitted voice. Is compared with the voice power threshold value (THF_P), that is, by comparing one physical quantity related to the transmitted voice with the threshold value, the voiced section or the silent section is determined.
[0060]
Further, when the earphone is in use, the control unit 12 reads two threshold values, for example, a voice power threshold value (TEM_P) and a frequency component threshold value (TEM_r) from the earphone threshold value / band condition table, and the VOX control unit 10 By comparing the power of the transmitted voice with the voice power threshold (TEM_P) and comparing the frequency component of the transmitted voice with the frequency component threshold (TEM_r), that is, the two physical quantities related to the transmitted voice are set as the threshold values. By comparing, a voiced section or a silent section is determined.
[0061]
As described above, according to the second embodiment, the same operational effects as those of the first embodiment can be obtained. In particular, in this case, if the mobile phone 1 has transitioned to the handset use state or the earphone use state, the VOX function is activated based on two threshold values of the voice power threshold value and the frequency component threshold value. Since the VOX function is activated based on a single threshold of only the audio power threshold if the state is in the free usage state, in general, the handset usage state or the earphone usage state is affected by ambient sounds. On the other hand, in the hands-free use state, in consideration of being easily affected by ambient sounds, in the handset use state or the earphone use state, in addition to comparing the power of the transmitted voice with the voice power threshold, By comparing the frequency component of the speech with the frequency component threshold, the VOX function can be made to work properly. Kill.
[0062]
(Third embodiment)
Next, a third embodiment of the present invention will be described with reference to FIGS. The description of the same parts as those in the first embodiment is omitted, and different parts will be described below.
In the first embodiment described above, one threshold / bandwidth condition table is stored for each of the handset use state, the hands-free use state, and the earphone use state, that is, one handset threshold value / A band condition table is stored, one hands-free threshold / band condition table is stored for the hands-free use state, and one earphone threshold / band condition table is stored for the earphone use state. However, in the third embodiment, a plurality of threshold / band condition tables are stored for each use state.
[0063]
That is, as shown in FIGS. 6 to 8, the storage unit 13 has three threshold values / bandwidth condition table A to threshold / bandwidth condition table C for each of the handset use state, the hands-free use state, and the earphone use state. The threshold / band condition table is stored, that is, nine threshold / band condition tables are stored as a whole.
[0064]
Then, as the threshold / band condition table A (see FIG. 6), the storage unit 13 sets the voice power threshold, the voice power difference threshold, and the band power threshold in each of the handset use state, the hands-free use state, and the earphone use state. The VOX function is stored as a value larger than the optimum value, and the frequency component threshold value is stored as a value smaller than the optimum value of the VOX function, that is, compared with a threshold value / band condition table B described later. Then, each threshold value is set to a value that facilitates the VOX function.
[0065]
In addition, as the threshold / band condition table B (see FIG. 7), the storage unit 13 includes a voice power threshold, a voice power difference threshold, a band power threshold, and a handset use state, a hands-free use state, and an earphone use state. The frequency component threshold value is stored as a value that optimizes the VOX function.
[0066]
Further, as the threshold / band condition table C (see FIG. 8), the storage unit 13 sets the voice power threshold, the voice power difference threshold, and the band power threshold in each of the handset use state, the hands-free use state, and the earphone use state. The VOX function is stored as a smaller value than the optimum value, and the frequency component threshold value is stored as a value larger than the optimum value of the VOX function, that is, compared with the threshold value / band condition table B described above. Then, each threshold value is set to a value that makes it difficult for the VOX function to work.
[0067]
As described above, according to the third embodiment, the same operational effects as those of the first embodiment described above can be obtained. In particular, in this case, by configuring each threshold value to be read from the threshold value / band condition table A among the threshold value / band condition table A to threshold value / band condition table C, the VOX function can be made easier to work. On the other hand, by configuring each threshold value to be read from the threshold value / bandwidth condition table C among the threshold value / bandwidth condition table A to threshold value / bandwidth condition table C, the VOX function can be made difficult to work. Thereby, the degree to which the VOX function works can be made variable.
[0068]
(Fourth embodiment)
Next, a fourth embodiment of the present invention will be described with reference to FIG. The description of the same parts as those in the first embodiment is omitted, and different parts will be described below. In the first embodiment described above, in each of the handset use state, the hands-free use state, and the earphone use state, only the threshold value is read and the band condition is not read. That is, in each use state, the transmission voice is not transmitted. In contrast, in the fourth embodiment, in addition to reading out the threshold value, the band condition is also read out, in which the physical quantity in the same frequency band is compared with the threshold value. Thus, in each use state, a physical quantity in a different frequency band in the transmitted voice is compared with a threshold value.
[0069]
That is, the storage unit 13 stores, for example, 0.3 kHz to 3.4 kHz (one predetermined frequency band in the present invention) as the handset band condition (fHS_B) and the earphone band condition (fEM_B), For example, 0.5 kHz to 3.4 kHz (another predetermined frequency band in the present invention) excluding the low frequency band from the above 0.3 kHz to 3.4 kHz is stored as the hands free band condition (fHF_B).
[0070]
As shown in FIG. 9, when the handset is in use state, the control unit 12 reads, for example, the voice power threshold (THS_P) from the handset threshold / band condition table, reads the band condition (fHS_B), and performs VOX control. The unit 10 determines the voiced section or the silent section by comparing the power in the frequency band indicated by the band condition in the transmitted voice with the voice power threshold (THF_P).
[0071]
Further, when in the hands-free use state, the control unit 12 reads, for example, the voice power threshold value (THF_P) from the hands-free threshold value / band condition table, reads the band condition (fHF_B), and the VOX control unit 10 Determines the voiced or silent period by comparing the power in the frequency band indicated by the band condition in the transmitted voice with the voice power threshold (THF_P).
[0072]
Further, when the earphone is in use, the control unit 12 reads out, for example, the voice power threshold (TEM_P) from the earphone threshold / band condition table, reads out the band condition (fEM_B), and the VOX control unit 10 By comparing the power in the frequency band indicated by the band condition in the transmitted voice with the voice power threshold (TEM_P), the voiced section or the silent section is determined.
[0073]
As described above, according to the fourth embodiment, it is possible to obtain the same effects as those of the first embodiment described above. In particular, in this case, if the mobile phone 1 is shifted to the handset use state or the earphone use state, the VOX function is activated based on the band condition of the frequency band of 0.3 kHz to 3.4 kHz. Is in the hands-free use state, the VOX function is activated based on the band condition of the frequency band of 0.5 kHz to 3.4 kHz, for example, excluding the low frequency band from the frequency band of 0.3 kHz to 3.4 kHz. In general, in a hands-free use state, it is often used in the vehicle, and in view of being easily affected by the low frequency band of ambient sounds during driving, the low frequency band is excluded. Thus, the VOX function can be made to work properly.
[0074]
(Fifth embodiment)
Next, a fifth embodiment of the present invention will be described with reference to FIG. The same parts as those in the first embodiment are denoted by the same reference numerals and the description thereof is omitted. Hereinafter, different parts will be described.
In the first embodiment described above, the threshold / band condition table is selected in accordance with the detection result of detecting the connection state of the hands-free microphone 3 and the earphone microphone 4. In the fifth embodiment, the threshold / band condition table is selected in accordance with the detection result of detecting the key operation.
[0075]
That is, in the mobile phone 21, the operation unit 22 (operation means in the present invention) is a call start key for starting a call, a call end key for ending a call, and “0” for inputting a telephone number. A number of keys such as the number key of "9" and function keys for setting / cancelling various functions (function keys) are arranged. When a key is operated, the key operation indicates the key operation. The notification is output to the control unit 23 (control means in the present invention).
[0076]
When a key operation notification is input from the operation unit 22, the control unit 23 detects a key operation according to the input key operation notification, selects a threshold / band condition table according to the detection result, and selects the selected At least one threshold value is selected from the four threshold values stored in the threshold value / bandwidth condition table, the selected threshold value is read, and in some cases, the selected threshold value / bandwidth condition table is stored. Also reads the bandwidth condition.
[0077]
Further, the control unit 23 outputs a switching command to the switching unit 24 according to the detection result, and when the switching unit 24 inputs the switching command from the control unit 23, the transmission voice is transmitted according to the input switching command. Switch the route.
[0078]
As described above, according to the fifth embodiment, it is possible to obtain the same operational effects as those of the first embodiment described above. In particular, in this case, the threshold value or the band condition is read according to the operation on the operation unit 22, and the VOX function is activated based on the read threshold value or the band condition. Regardless of the usage state of the mobile phone 1, the VOX function can be accurately operated manually.
[0079]
(Other embodiments)
The present invention is not limited to the above-described embodiments, and can be modified or expanded as follows.
The mobile phone is not limited to a mobile phone, but may be an in-vehicle phone, a PDC (Personal Digital Cellular) phone, a CDMA (Code Division Multiple Access) phone, or a phone employing another communication method. It may be.
[0080]
In the third embodiment, the number of threshold / band condition tables as a whole is not limited to “9”, but may be any other number, and any one of the thresholds / bands according to the key operation. You may comprise so that a condition table may be selected.
In the fourth embodiment, the frequency band of the band condition in each use state is not limited to 0.3 kHz to 3.4 kHz or 0.5 kHz to 3.4 kHz, but may be other frequency bands.
A plurality of thresholds may be used for one physical quantity. For example, two thresholds are prepared as voice power thresholds, and the state where the power of the transmitted voice is less than one voice power threshold is continued for a certain period of time, If the power of the transmitted voice is greater than or equal to another voice power threshold, a configuration may be determined in which the voiced section is present.
[0081]
In each embodiment, the program for performing the above-described processing is not limited to the program stored in the storage unit from the beginning (for example, at the stage of commercialization). It may be transferred from the storage medium to the mobile phone and installed.
[Brief description of the drawings]
FIG. 1 is a functional block diagram showing an electrical configuration of a first embodiment of the present invention.
FIG. 2 is a diagram showing a threshold / bandwidth condition table
FIG. 3 is a diagram showing a relationship between a use state and a threshold / bandwidth condition.
FIG. 4 is a flowchart showing control contents.
FIG. 5 is a view corresponding to FIG. 3 showing a second embodiment of the present invention.
FIG. 6 is a view corresponding to FIG. 2 showing a third embodiment of the present invention.
7 is a view corresponding to FIG.
FIG. 8 is a view corresponding to FIG.
FIG. 9 is a view corresponding to FIG. 3, showing a fourth embodiment of the present invention.
FIG. 10 is a functional block diagram showing an electrical configuration of a fifth embodiment of the present invention.
[Explanation of symbols]
In the drawings, 1 is a mobile phone (mobile phone), 2 is a handset microphone, 3 is a hands-free microphone, 4 is an earphone microphone, 6 is a use state detection unit (use state detection unit), and 10 is a VOX control unit (VOX control unit). ), 12 is a control unit (control unit), 13 is a storage unit (storage unit), 21 is a mobile phone (mobile phone), 22 is an operation unit (operation unit), and 23 is a control unit (control unit).

Claims (8)

VOX control means for stopping the supply of power to a part of the transmission system or reducing the power to be supplied based on the comparison result obtained by comparing the physical quantity related to the transmitted voice with the threshold value, and the operation of the VOX control means. Control means for controlling, and as a plurality of use states , a handset use state in which a voice input by a handset microphone is processed as a transmission voice, a hands-free use in which a voice input by a hands-free microphone is processed as a transmission voice In a mobile phone configured to be able to transition to any use state of the state and the earphone use state that processes the voice input by the earphone microphone as the transmitted voice ,
Storage means for storing a plurality of threshold values corresponding to the plurality of usage states;
Use state detecting means for detecting which use state of the plurality of use states the mobile telephone is transitioning to,
The control means selects a threshold value according to the detection result of the use state detection means from a plurality of threshold values stored in the storage means, and operates the VOX control means based on the selected threshold value. A mobile phone characterized by. The use state detection means automatically detects the connection state of the handsfree microphone and the earphone microphone, thereby changing to any use state of the handset use state, the handsfree use state, and the earphone use state. 2. The mobile telephone according to claim 1, wherein it detects whether or not a transition is made . The use state detecting means detects that the hands-free microphone is connected and the handset is mounted on the cradle or detects a state equivalent to the state, thereby transitioning to the hands-free use state. The mobile telephone according to claim 2, wherein: VOX control means for stopping the supply of power to a part of the transmission system or reducing the power to be supplied based on the comparison result obtained by comparing the physical quantity related to the transmitted voice with the threshold value, and the operation of the VOX control means. In a mobile phone comprising a control means for controlling, and configured to be able to transition to a plurality of use states,
Storage means for storing a plurality of threshold values corresponding to the plurality of usage states;
Use state detecting means for detecting which use state of the plurality of use states the mobile telephone is transitioning to,
The VOX control means is configured to compare at least one physical quantity of a plurality of physical quantities having different units as physical quantities related to the transmitted voice with a threshold value,
The control means selects at least one threshold value having one unit when the usage state detection means detects that the state has transitioned to one usage state, and the selected at least one threshold value is selected. The VOX control means is operated based on the above, and when the use state detection means detects that the use state detection means has shifted to another use state different from the one use state, the one unit is different from the one use state. at least one select other thresholds, move the phone you characterized by operating the VOX control means based on at least one other thresholds the selected having the unit. As the plurality of usage states, a handset usage state in which a voice input by a handset microphone is processed as a transmission voice, a hands-free usage state in which a voice input by a hands-free microphone is processed as a transmission voice, and a voice input by an earphone microphone are included. It is configured to be able to transition to any of the earphone usage states that are processed as sent speech,
The VOX control means is configured to compare the power of the transmitted voice or the frequency component of the transmitted voice with a threshold as a physical quantity related to the transmitted voice ,
When the use state detection unit detects that the control unit has transitioned to the handset use state or the earphone use state, the control unit sets a threshold value related to the power of the transmitted voice and a threshold value related to the frequency component of the transmitted voice. It is selected that the VOX control means is operated on the basis of the threshold value related to the power of the selected transmitted voice and the threshold value related to the frequency component of the transmitted voice, and the use state is changed to the hands-free use state. when the detection unit detects, select the threshold according to the power of the transmission voice, claim 4 Symbol mounting, characterized in that for operating the VOX control means based on a threshold according to the power of the selected outgoing voice Mobile phone. VOX control means for stopping the supply of power to a part of the transmission system or reducing the power to be supplied based on the comparison result obtained by comparing the physical quantity related to the transmitted voice with the threshold value, and the operation of the VOX control means. In a mobile phone comprising a control means for controlling, and configured to be able to transition to a plurality of use states,
Storage means for storing a plurality of threshold values corresponding to the plurality of usage states;
Use state detecting means for detecting which use state of the plurality of use states the mobile telephone is transitioning to,
The storage means is configured to store a plurality of bandwidth conditions corresponding to the plurality of usage states,
The control means selects one band condition having one predetermined frequency band when the use state detecting means detects that the state has transitioned to one use state, and based on the selected one band condition The VOX control means is operated, and when the use state detection means detects that the use state has been changed to another use state different from the one use state, the one predetermined frequency band is different from the other one. other select bandwidth condition, move the phone you characterized by operating the VOX control means on the basis of the selected other bands condition having a predetermined frequency band. As the plurality of usage states, a handset usage state in which a voice input by a handset microphone is processed as a transmission voice, a hands-free usage state in which a voice input by a hands-free microphone is processed as a transmission voice, and a voice input by an earphone microphone are included. It is configured to be able to transition to any of the earphone usage states that are processed as sent speech,
The control means selects one band condition having one predetermined frequency band when the use state detecting means detects that the handset use state or the earphone use state has been changed, and selects the selected one band condition. When the use state detecting means detects that the VOX control means is operated based on the band condition and the transition to the hands-free use state is made, another predetermined frequency different from the one predetermined frequency band is obtained. other select bandwidth condition, the mobile telephone of claim 6 Symbol mounting, characterized in that for operating the VOX control means on the basis of the selected other bands conditions with bandwidth. VOX control means for stopping the supply of power to a part of the transmission system or reducing the power to be supplied based on the comparison result obtained by comparing the physical quantity related to the transmitted voice with the threshold value, and the operation of the VOX control means. In a mobile phone comprising a control means for controlling, and configured to be able to transition to a plurality of use states,
Storage means for storing a plurality of threshold values corresponding to the plurality of usage states;
Use state detecting means for detecting which use state of the plurality of use states the mobile telephone is transitioning to,
The control means selects a threshold corresponding to a predetermined operation in the operation means from a plurality of threshold values stored in the storage means, and operates the VOX control means based on the selected threshold. to that move phone.

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