CN110650403A - Earphone device with local call environment mode - Google Patents
Earphone device with local call environment mode Download PDFInfo
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- CN110650403A CN110650403A CN201910980560.0A CN201910980560A CN110650403A CN 110650403 A CN110650403 A CN 110650403A CN 201910980560 A CN201910980560 A CN 201910980560A CN 110650403 A CN110650403 A CN 110650403A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R1/00—Details of transducers, loudspeakers or microphones
- H04R1/10—Earpieces; Attachments therefor ; Earphones; Monophonic headphones
- H04R1/1091—Details not provided for in groups H04R1/1008 - H04R1/1083
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R2201/00—Details of transducers, loudspeakers or microphones covered by H04R1/00 but not provided for in any of its subgroups
- H04R2201/10—Details of earpieces, attachments therefor, earphones or monophonic headphones covered by H04R1/10 but not provided for in any of its subgroups
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Abstract
The present invention provides an earphone device, including: the first microphone is arranged at a position close to the lips of the user and is used for acquiring a first sound signal; the second microphone is arranged in the direction far away from the lips of the user and is used for collecting a second sound signal; a micro-processing unit having a plurality of local call environment modes, each local call environment mode corresponding to a predetermined type of ambient sound; the wireless communication module is used for establishing wireless communication connection with external electronic equipment, transmitting the audio signal from the micro-processing unit to the external electronic equipment and receiving the audio signal from the external electronic equipment; a speaker for playing an audio signal to a user; in a local call environment mode, a first microphone collects a first sound signal, a second microphone collects a second sound signal, and a micro-processing unit carries out selective noise reduction processing on the first sound signal based on the second sound signal, reserves preset type of environment sound corresponding to the local call environment mode, and eliminates other types of environment sound. In this way, only a predetermined type of ambient sound can be heard at the remote site.
Description
The application date of the invention is as follows: 2016, 9, 7.D., having the patent application number of 201610807780.X, entitled "earphone device with local call condition confirmation mode", filed by divisional application of the Chinese patent application.
[ technical field ] A method for producing a semiconductor device
The present invention relates to the field of earphones, and in particular, to an earphone device having a local call condition confirmation mode.
[ background of the invention ]
With the wide application of mobile internet terminals such as mobile phones and network audio and video software, people can more and more conveniently realize communication anytime and anywhere, and in view of the complexity and diversity of communication environments, people can be more and more in a noise environment when communicating, and the negative influence of noise in the communication environment on the communication quality is increasingly obvious. For example, in a noisy street, room, or square, or in a vehicle such as a car or train, the negative influence of the surrounding background noise on the communication quality of both parties can be very serious. For users of portable multimedia digital devices wearing earphones to listen to music, watch movies, or play video games, the negative impact of noise on the user experience is more intolerable. In addition, in some situations, people often do not want the other party of the call to hear the environment in which they are located.
At present, the earphone is widely applied, and in most cases, people can talk and listen to music and the like through the earphone. However, when people generally wear earphones to listen to music or talk, the sound emitted by the people is large, because when the earphones are worn, the brain cannot know the volume of the external environment, but only can use the sound played in the earphones as the volume of the environment, and therefore if the sound played by the earphones is loud, the brain judges that the current environment is loud according to the sound, and the speaker is automatically controlled to improve the gloomy. In addition, since the earphones generally adopt some passive noise reduction designs, for example, the earphones are made of sound insulation materials, such as in-ear earphones and headphones. When the user uses the earphones, the ambient sound is isolated, so that the user can hear little or no voice uttered by the user. At this time, the user may misunderstand that his/her own voice is small, and the volume of the voice is increased unconsciously.
Therefore, there is a need for an improved solution to the above problems.
[ summary of the invention ]
The invention aims to provide an earphone device, which can enable a local user to know the listening effect of a far-end calling party and is convenient for the user to use.
In order to achieve the above object, the present invention provides an earphone device including: the first microphone is arranged at a position close to the lips of the user and is used for acquiring a first sound signal; the second microphone is arranged in the direction far away from the lips of the user and is used for collecting a second sound signal; a micro-processing unit having a local call situation confirmation mode; the wireless communication module is used for establishing wireless communication connection with external electronic equipment, transmitting the audio signal from the micro-processing unit to the external electronic equipment and receiving the audio signal from the external electronic equipment; a speaker for playing an audio signal to a user; in the local call condition confirmation mode, the first microphone collects a first sound signal, the second microphone collects a second sound signal, the micro-processing unit performs noise reduction processing on the first sound signal based on the second sound signal so as to eliminate environmental noise in the first sound signal, records the sound signal subjected to the noise reduction processing, and plays the recorded sound signal subjected to the noise reduction processing through the loudspeaker.
Further, when the local call condition confirmation mode is started in the process that the earphone device is connected to the telephone and communicates with the far-end, the sound signals collected by the first microphone and the second microphone are not sent to the far-end until the local call condition confirmation mode is exited.
Further, the speakers include a left channel speaker and a right channel speaker, and in the local call condition confirmation mode, the audio signal currently to be played is played through one of the left channel speaker and the right channel speaker, and the recorded first sound signal subjected to the noise reduction processing by the dual microphones is played through the other one of the left channel speaker and the right channel speaker.
Further, when the first sound signal subjected to the noise reduction processing by the two microphones is played, the playing of the audio signal which needs to be played in the loudspeaker currently is paused.
Further, after recording the sound signal subjected to the noise reduction processing for a predetermined time period, the recorded sound signal subjected to the noise reduction processing for the predetermined time period is played through the speaker.
Further, the micro-processing unit is also provided with a plurality of local call environment modes, each local call environment mode corresponds to a preset type of environment sound, in a local call environment mode, a first microphone collects a first sound signal, a second microphone collects a second sound signal, a microprocessing unit carries out selective noise reduction processing on the first sound signal based on the second sound signal and reserves the preset type of environment sound corresponding to the local call environment mode, and eliminating the rest types of environmental sounds, the micro-processing unit identifying the environmental sounds of the preset type corresponding to the local communication environmental mode from the second sound signals, and removing the identified environmental sound of the preset type corresponding to the local communication environment mode from the second sound signal, and performing noise reduction processing on the first sound signal by using the residual sound signal.
Furthermore, the micro-processing unit is also provided with an environment sound reminding mode, and in the environment sound reminding mode, the first microphone and/or the second microphone are/is used for collecting environment sounds, and the collected environment sounds are played through the loudspeaker in real time so as to remind the user of the current environment sounds.
Further, in the ambient sound alert mode, the playing of the audio signal currently required to be played in the speaker is paused.
Furthermore, the speakers comprise a left channel speaker and a right channel speaker, and in the ambient sound reminding mode, the audio signal to be played currently is played through one of the left channel speaker and the right channel speaker, and the collected ambient sound is played through the other of the left channel speaker and the right channel speaker in real time.
Further, the earphone device further comprises a command interface, which can receive control commands from the outside, wherein the control commands are commands for informing the micro-processing unit to enter the corresponding mode, and the command interface transmits the commands to the micro-processing unit after receiving the commands, so that the micro-processing unit enters the corresponding mode. Compared with the prior art, the earphone device has a local call condition confirmation mode, and under the local call condition confirmation mode, the sound signal to be sent to the far-end call party can be recorded and played through the local loudspeaker, so that a local user can really know the listening effect of the far-end call party, and the earphone device is convenient for the user to use.
[ description of the drawings ]
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:
fig. 1 is a block diagram of an earphone device according to an embodiment of the present invention;
FIG. 2 is a functional flow chart of the ambient sound alert mode of the earphone device of the present invention;
FIG. 3 is a block diagram of the architecture of the micro-processing unit in one embodiment;
fig. 4 is a functional flow diagram of a decibel alert mode of the earphone device according to an embodiment of the present invention;
fig. 5 is a functional flowchart of a local call situation confirmation mode of the ear speaker device in the present invention in one embodiment.
[ detailed description ] embodiments
The following detailed description of the invention refers to the accompanying drawings.
In the present invention, the terms "in one embodiment" and "in an embodiment" do not specifically mean that they are in the same embodiment, and may be in different embodiments.
The invention provides a multifunctional earphone device which can provide multiple auxiliary functions for a user and improve the use experience of the user. The headset device may be a known or future-capable wireless headset such as a bluetooth headset.
Fig. 1 is a block diagram of an embodiment of an earphone device 100 according to the present invention. As shown in fig. 1, the earphone device 100 includes a first microphone 110, a second microphone 120, a micro processing unit 130, a speaker 150, a command interface 160, a wireless communication module 170, and a storage unit 180.
The first microphone 110 is disposed at a position close to the user's lips, and as a specific embodiment, when the earphone device 100 is a headphone or an in-ear earphone, the first microphone 110 is disposed on a structure body of the earphone body extending to the user's lips; or as another specific embodiment, the first microphone 110 may be worn near the user's lips for a separate device. The first microphone 110 is used for collecting a first sound signal, which mainly includes user voice, but also includes ambient sound. The first microphone 110 may be a microphone or a microphone array;
in contrast to the first microphone 110, the second microphone 120 is disposed away from the lips of the user; in one embodiment, when the earphone device 100 is a headphone or an in-ear earphone, the second microphone 120 is disposed on the earphone body at a position farthest from the lips of the user and opposite to the lips of the user. Or as another specific embodiment, the second microphone 120 may be a separate device that is worn on the user away from his lips. The second microphone 120 is used for collecting a second sound signal, which mainly includes the ambient sound, but also includes the user voice. The second microphone 120 may be a microphone or a microphone array;
the wireless communication module 170 is used to establish a wireless communication connection with an external electronic device (e.g., a smart phone, a tablet computer, a notebook computer, a desktop computer, a vehicle-mounted communication system, etc.), transmit an audio signal from the microprocessor unit 130 to the microprocessor unit 130, and receive an audio signal from the external electronic device. The wireless communication module 170 may be a bluetooth communication module.
The speaker 150 is used to play audio signals.
The micro processing unit 130 is used to control the respective modules, and may have a variety of functional modes.
The command interface 160 can receive external control commands, which are commands for informing the micro-processing unit to enter the corresponding functional mode, and after receiving these commands, the command interface 160 transmits the commands to the micro-processing unit 130, so that the micro-processing unit 130 enters the corresponding functional mode.
The command interface 160 may be a plurality of buttons, or one button, which is triggered to issue an instruction to enter a corresponding mode to the micro processing unit 130. The command interface 160 may also be a voice recognition interface, and a user speaks a preset voice control command, and the voice recognition interface recognizes the voice control command and sends an instruction to enter a corresponding mode to the micro processing unit.
One of the features and advantages of the earphone device 100 of the present invention is: the micro-processing unit 130 has one or more functional modes, each having its own corresponding control instructions. The added functional modes of the earphone device 100 will be described below one by one.
Ambient sound alert mode
In one embodiment, the MPU 130 has an ambient sound alert mode, and at this time, the control command includes an enter ambient sound alert mode command and an exit ambient sound alert command.
Fig. 2 is a functional flow chart of the ambient sound alert mode of the earphone device according to the present invention. As shown in fig. 2, it is determined whether an ambient sound alert mode command is received at step 210, and after receiving the ambient sound alert mode entering command, the mcu enters an ambient sound alert mode at step 220.
In the ambient sound alert mode, step 230 is entered to collect ambient sound by using the first microphone 110, and step 240 is entered to play the collected ambient sound through the speaker 150 in real time to alert the user of the current real-time ambient sound. Of course, in alternative embodiments, the second microphone 120 may also be selected to capture ambient sound. It should be noted that the environmental sounds collected by the first microphone 110 or the second microphone 120 are played through the speaker 150 in real time and in time, rather than recording the environmental sounds for a period of time and then playing the recorded environmental sounds, so that the user can hear the real-time environmental sounds as much as possible without significant delay. The delay time from when the ambient sound is collected to when the ambient sound is played by the speaker is very short, for example, the delay time may be less than 1 second. In one example, the captured ambient sound may be buffered using a buffer and then played back through a speaker in real-time.
Then, step 250 is entered to determine whether an instruction to exit the ambient sound alert mode is received, and after receiving the instruction to exit the ambient sound alert mode, the micro-processing unit exits the ambient sound alert mode in step 260. In another alternative embodiment, the ambient sound alert mode may be automatically exited after the ambient sound alert mode has been in the predetermined duration, and the ambient sound alert mode may not be exited. Of course, other ways of exiting the ambient sound alert mode may also be used.
Therefore, when a user wears the earphone device to listen to music or make a call, if the user needs to call or speak with other people, the user only needs to send an environmental sound reminding mode instruction through the command interface 160, so that the earphone device can enter an environmental sound reminding mode, the user can also listen to external environmental sound without taking off the earphone, for example, the sound of other people, the user can also communicate with other people by using normal volume, and the earphone device is greatly convenient for people to use. In real life, it can be seen that a user wearing the earphone to listen to music can listen to the sound of other people only by picking off the earphone when communicating with other people, and can communicate with other people with normal volume, but the earphone device is not picked off in the invention.
When the command interface 160 is a key, the key may be triggered to issue an instruction to enter the ambient sound alert mode and/or an instruction to exit the ambient sound alert mode, where the key may be a specific key newly added to the earphone, for example, pressing a specific key indicates entering the ambient sound alert mode, and then pressing the specific key indicates exiting the ambient sound alert mode; or a 'specific key' formed after a specific operation mode is set for a conventional key on the earphone, for example, continuously pressing the volume + key on the earphone for 3 times enters an ambient sound reminding mode. That is, if the user in the call is worried that the speaking voice is too loud, the user can listen to the environmental voice of the user by pressing the specific key, and the volume of the user can be adjusted according to the environmental voice. This application is also practical for users who sing with headphones. It is known that when people who have a fever with earphones sing with the music, people often feel booming and suspicion of people around because the people cannot hear or cannot hear the sound produced by the people, and the people always get out of tune when the people actually sing. The environment sound reminding mode provided by the earphone device can enable the following player to hear the music sound and the following sound after wearing the earphone, so that the following player can correct the singing sound of the following player in time. Therefore, the invention can record and listen to the surrounding environmental sound and the sound emitted by the user in real time through the earphone device while using the earphone to communicate or listen to the voice content such as music and the like, thereby creating a voice environment as if the user does not wear the earphone, and the invention has simple operation and convenient use and can avoid some unnecessary embarrassment.
When the command interface is a voice recognition interface, a plurality of voice control instruction templates may be trained for each voice control instruction in the voice recognition interface in advance, and then a user speaks a preset voice control instruction, so that the voice recognition interface can recognize the voice control instruction. Specifically, a user trains a voice control instruction template in advance for an instruction of entering the ambient sound reminding mode, the user speaks a section of 'entering the ambient sound reminding mode' for multiple times, and then when the user speaks 'entering the ambient sound reminding mode' during formal use, the voice recognition interface can recognize that the instruction is 'entering the ambient sound reminding mode'. Based on the same mode, the user can also train a voice control instruction template in advance for the instruction of exiting the environmental sound reminding mode, and then can send the instruction of exiting the environmental sound reminding mode through voice. When the method is applied, when a user wants to communicate with other people, the user only needs to say that the user enters the environment sound reminding mode, can hear external environment sound, can normally communicate with other people, and can exit the environment sound reminding mode only by saying that the user exits the environment sound reminding mode after the communication is finished.
In one embodiment, in the ambient sound alert mode, the playing of the audio signal currently desired to be played in the speaker may be paused. For example, when the user is listening to music, after entering the ambient sound alert mode, the user may pause the currently playing music and start playing the recorded ambient sound. And after the environment sound reminding mode is exited, resuming the playing of the audio signal which needs to be played in the loudspeaker at present.
In a preferred embodiment, the earphone device is a stereo earphone device, and the speakers 150 include a left channel speaker and a right channel speaker. Under the ambient sound reminding mode, the audio signal which needs to be played currently can be played through one of the left channel loudspeaker and the right channel loudspeaker, and meanwhile, the collected ambient sound can be played in real time through the other one of the left channel loudspeaker and the right channel loudspeaker. Therefore, the music played at present can be heard, and the external environment sound can be heard, so that better experience is provided for users.
In a preferred embodiment, the micro-processing unit 130 performs Voice Detection (Voice Activity Detection) on the first sound signal collected by the first microphone 110, and when a Voice is detected, an instruction to enter the ambient sound alert mode is issued, so that the micro-processing unit 130 enters the ambient sound alert mode. In this way, the MPU 130 can enter the ambient sound alert mode without entering control commands through the command interface 160.
In one embodiment, each time the ambient sound alert mode is maintained for a predetermined period of time, the ambient sound alert mode can be automatically exited after the ambient sound alert mode is maintained for the predetermined period of time.
Decibel reminding mode
In one embodiment, the micro-processing unit 130 has a decibel alert mode, and the control instruction may include an instruction to enter the decibel alert mode, and after receiving the instruction to enter the decibel alert mode, the micro-processing unit enters the decibel alert mode. In the decibel alert mode, the microprocessor unit 130 detects and obtains the decibel value of the sound heard by the user, and broadcasts the decibel value through the speaker. In another embodiment, the mcu 130 can be in the db alert mode at all times without a corresponding instruction.
In one embodiment, the control instruction may further include an exit decibel alert mode instruction, and the microprocessor unit exits the decibel alert mode after receiving the exit decibel alert mode instruction. In another alternative embodiment, the ambient sound alert mode may be automatically exited after the decibel alert mode command has been issued for a predetermined length of time or alternatively, after the decibel value has been broadcast. Of course, other modes can be adopted to exit the decibel reminding mode.
The decibel reminding mode can be started simultaneously when the micro-processing unit is in other functional modes, so that the decibel value of sound transmitted into the ears of the user can be monitored at any time, and the hearing of the user is protected.
FIG. 3 is a block diagram of the microprocessor unit 130 in one embodiment. As shown in fig. 3, the micro-processing unit 130 includes a decibel value forming unit 131 and a decibel voice forming unit 132. The decibel value forming unit 131 is configured to obtain a decibel value thereof according to sound heard by a user in a decibel alert mode, and the decibel voice forming unit 132 is configured to perform voice synthesis on the decibel value formed by the decibel value forming unit 131 in the decibel alert mode to obtain a decibel voice signal, and send the decibel voice signal to the speaker for playing.
In one embodiment, as shown in fig. 1, the earphone device 100 further includes a third microphone (not shown) near the ear hole of the user when the earphone device is worn on the head of the user. Fig. 4 is a functional flowchart of the decibel alert mode of the earphone device according to an embodiment of the present invention. As shown in fig. 4, in the decibel alert mode, sounds near the ear hole of the user are collected by the third microphone 180 at step 410, and then decibel values of the sounds collected by the third microphone are calculated at step 420. The sound collected by the third microphone 180 may include sound played by the speaker 150, and may also include sound transmitted from the external environment to the vicinity of the ear hole of the user. Then, in step 430, the decibel value obtained by calculation is speech-synthesized to obtain a decibel speech signal. Finally, in step 440, the decibel voice signal is broadcast by a speaker. In this way, the user can hear the decibel value alert, thereby protecting the user's ear, and if the sound exceeds 80 decibels, the user may decrease the volume or make less stays in the area. In this embodiment, the earphone device is preferably a headphone device, not an in-ear earphone device, so that there is enough space to place the third microphone 180.
In another alternative embodiment, the storage unit 180 stores a corresponding relationship between output power consumption of the earphone device and a decibel value of a sound heard by a user, and the larger the output power consumption is, the larger the corresponding decibel value is. The corresponding relationship can be obtained by testing in advance, specifically, the output power consumption of the earphone device is at different values, when the output power consumption is at one value, a professional decibel value measuring device is used for measuring the decibel value at the loudspeaker 150, and the corresponding relationship between the output power consumption value and the decibel value is recorded. In the decibel alert mode, the decibel value forming unit 131 detects the output power consumption of the earphone device, and finds out the decibel value of the sound heard by the user through the corresponding relationship between the output power consumption of the earphone device and the decibel value of the sound heard by the user, at this time, the influence of the audio signal that the speaker 150 needs to play is mainly considered, and the audio signal played by the speaker 150 may be an audio signal from an external electronic device, or an audio signal from the first microphone 110, or an audio signal from the second microphone 120; the micro-processing unit 130 may also perform noise reduction processing on the first sound signal based on the second sound signal to eliminate the ambient noise in the first sound signal, and output the sound signal after the noise reduction processing to the speaker 150 as the audio signal required to be played by the speaker 150, or output the sound signal after the noise reduction processing to the speaker 150 after mixing with the audio signal from the external electronic device as the audio signal required to be played by the speaker 150.
In a more preferred embodiment, the storage unit 180 further stores a predetermined decibel threshold and a duration threshold corresponding to the predetermined decibel threshold, and when the decibel value detected by the microprocessor 130 exceeds the predetermined decibel threshold and continues to exceed the duration threshold corresponding to the predetermined decibel threshold, the detected decibel value may be broadcasted, the volume of the speaker 150 may also be automatically reduced, and the playing of the current audio signal may also be automatically stopped. This may provide better protection to the user's hearing.
In one embodiment, in the decibel alert mode, the decibel value is broadcast once every predetermined time. For example, decibel values are broadcast every 20 seconds. In another embodiment, in the decibel alert mode, when the decibel value obtained by the micro processing unit 130 based on the sound collected by the third microphone exceeds a predetermined decibel threshold (e.g., 80 decibels, 90 decibels, etc.), the decibel value is broadcast through the speaker 150.
When the command interface 160 is a button, the button may be triggered to issue an instruction to enter the decibel alert mode or exit the decibel alert mode, and the button may be a specific button newly added to the headset or a "specific button" formed after setting a specific operation mode for a conventional button on the headset. For example, triggering a specific key indicates entering the decibel alert mode instruction, and triggering the specific key again indicates exiting the decibel alert mode instruction. That is, if the user wants to know the level of the currently heard sound, the user only needs to trigger the specific key, the speaker 150 broadcasts the decibel value at this time, and the user can exit the decibel alert mode instruction by triggering the specific key again. Of course, the decibel reminding mode can also be automatically exited after the decibel value is broadcasted.
When the command interface is a voice recognition interface, a plurality of voice control instruction templates can be trained for each voice control instruction in the voice recognition interface in advance, and then a user speaks a preset voice control instruction, so that the voice control instruction can be recognized by the voice recognition interface. Specifically, a voice control instruction template is trained in advance for an instruction of entering a decibel reminding mode by a user, the user speaks a section of entering the decibel reminding mode for multiple times, and then the voice recognition interface can recognize that the speech recognition interface enters the decibel reminding mode when the user speaks entering the decibel reminding mode during formal use. Based on the same mode, a voice control instruction template can be trained in advance for the instruction of exiting the decibel reminding mode by the user.
Local call condition confirmation mode
In one embodiment, the earphone device 100 of the present invention may have a dual-microphone noise reduction function, that is, the first microphone 110 collects a first sound signal, the second microphone 120 collects a second sound signal, and the micro processing unit 130 performs noise reduction processing on the first sound signal based on the second sound signal to eliminate ambient noise in the first sound signal, so that the first sound signal can be transmitted to a far-end opposite party more clearly, thereby improving the quality of voice call.
The earphone device 100 of the present invention may further have an active noise reduction function, that is, the second microphone 120 collects a second sound signal, the microprocessor unit 130 generates an inverse noise waveform based on the second sound signal, and plays the inverse noise waveform through the speaker, so as to achieve the purpose of canceling the ambient noise. The earphone device 100 greatly eliminates the influence of the environmental noise on the earphone user by combining the active noise elimination and the passive noise reduction design, and can obtain a clearer listening effect.
However, the conventional dual-microphone noise reduction function has an unstable noise reduction effect due to various reasons such as a noise reduction algorithm and noise specificity under different environments. The active noise reduction function enables the earphone user to be unable to clearly hear the sound emitted by the user. In some specific applications, the headset user does not want the other party to hear the ambient sound he is in, such as when receiving a call in a conference, does not want the other party to hear any conference content, and in this case, the headset user may have to leave the conference site because he cannot confirm whether the dual-microphone noise reduction function of the headset is actually useful or needs to ensure that the other party only hears what he is willing to hear. In other specific applications, the user of the earphone also needs to listen to the sound generated by the user in time to control the volume, correct the pronunciation, etc.
The local call condition confirmation mode of the invention can help the user to master the sound sent by the user and the content heard by the opposite side in time.
In one embodiment, the micro processing unit 130 has a local call condition confirmation mode, in which case the control command includes a command to enter the local call condition confirmation mode, and after receiving the command to enter the local call condition confirmation mode, the micro processing unit enters the local call condition confirmation mode.
Fig. 5 is a functional flowchart of a local call situation confirmation mode of the ear speaker device in the present invention in one embodiment. In the local call situation confirmation mode, in one embodiment, at step 510, the first voice signal subjected to the two-microphone noise reduction processing may be recorded, and then, at step 520, the recorded first voice signal subjected to the two-microphone noise reduction processing may be played through the speaker 150; thus, the local call condition confirmation mode of the invention enables the earphone user to hear the sound made by the user and to know the voice effect heard by the other party. In one embodiment, the recorded sound signal after the noise reduction processing is recorded for a predetermined time period, and then the recorded sound signal after the noise reduction processing is played through the loudspeaker for the predetermined time period.
In one embodiment, when the first sound signal subjected to the noise reduction processing by the two microphones is played, the playing of the audio signal currently required to be played in the speakers may be paused, and the audio signal currently required to be played in the speakers may be music data or a sound source at a far end.
In another preferred embodiment, the speakers 150 include a left channel speaker and a right channel speaker, and in the local call condition confirmation mode, the audio signal currently to be played may be played through one of the left channel speaker and the right channel speaker, and the recorded first sound signal subjected to the two-microphone noise reduction processing may be played through the other one of the left channel speaker and the right channel speaker. Therefore, under the local call condition confirmation mode, the voice effect listened by the opposite party can be known, the playing of the current audio signal (such as a far-end sound source) needing to be played can be not hindered, and the user experience is improved.
After playing, the local call condition confirmation mode can be automatically exited. Of course, in other embodiments, the local call situation confirmation mode may be exited in other manners, such as exiting the local call situation confirmation mode by exiting the local call situation confirmation mode instruction.
When the command interface 160 is a key, the instruction to enter the local call condition confirmation mode may be issued by activating the key, for example, pressing a specific key indicates an instruction to enter the local call condition confirmation mode.
When the command interface 160 is a voice recognition interface, the user speaks a preset voice control command, and the voice recognition interface recognizes the voice control command and issues a command to enter a local call condition confirmation mode.
Selection of local call environment mode
In one embodiment, the mcu 130 has a plurality of local call environment modes, and the control command includes a command to enter each local call environment mode, and after receiving the command to enter the corresponding local call environment mode, the mcu enters the corresponding local call environment mode. In a local communication environment mode, a first microphone collects a first sound signal, a second microphone collects a second sound signal, and a micro-processing unit selectively performs noise reduction processing on the first sound signal based on the second sound signal, so as to retain a predetermined type of environment noise (or called environment sound) corresponding to the local communication environment mode and eliminate the rest types of environment noise.
In application, the plurality of local call environment modes may include an office call environment mode, a highway call environment mode, a home call environment mode, and the like, and which local call environment mode to enter may be selected. When entering a local call environment mode, such as a home call environment mode, the ambient noise associated with the home environment in the first sound signal is allowed to remain, while ambient noise not associated with the home environment, which may include a child's voice, a doorbell, etc., is removed.
Similarly, when entering the office call environment mode, the first sound signal is allowed to have the environmental noise associated with the office environment preserved, while the environmental noise not associated with the office environment is removed, which may include a landline ring tone or the like.
In one embodiment, the microprocessor unit identifies a predetermined type of ambient sound corresponding to the local communication environment mode from the second sound signal, removes the identified predetermined type of ambient sound corresponding to the local communication environment mode from the first sound signal, and performs noise reduction processing on the first sound signal by using the remaining sound signal.
In one embodiment, the micro processing unit 130 separates the user voice and the ambient noise based on the second sound signal and the first sound signal, and adjusts a mixing ratio of the user voice and the ambient sound according to a user selection.
When the command interface 160 is a key, the key may be activated to issue an instruction to enter each local call environment mode, for example, pressing a specific key indicates an instruction to enter a local call environment mode. When the command interface 160 is a voice recognition interface, the user speaks a preset voice control command, and the voice recognition interface recognizes the voice control command and issues a command to enter each local call environment mode.
The foregoing description has disclosed fully preferred embodiments of the present invention. It should be noted that those skilled in the art can make modifications to the embodiments of the present invention without departing from the scope of the appended claims. Accordingly, the scope of the appended claims is not to be limited to the specific embodiments described above.
Claims (6)
1. An earphone device, characterized in that it comprises:
the first microphone is arranged at a position close to the lips of the user and is used for acquiring a first sound signal;
the second microphone is arranged in the direction far away from the lips of the user and is used for collecting a second sound signal;
a micro-processing unit having a plurality of local call environment modes, each local call environment mode corresponding to a predetermined type of ambient sound,
the wireless communication module is used for establishing wireless communication connection with external electronic equipment, transmitting the audio signal from the micro-processing unit to the external electronic equipment and receiving the audio signal from the external electronic equipment;
a speaker for playing an audio signal to a user;
in a local call environment mode, a first microphone collects a first sound signal, a second microphone collects a second sound signal, and a micro-processing unit carries out selective noise reduction processing on the first sound signal based on the second sound signal, reserves preset type of environment sound corresponding to the local call environment mode, and eliminates other types of environment sound.
2. The headphone apparatus as claimed in claim 1, wherein the microprocessor unit identifies the predetermined type of ambient sound corresponding to the local communication environment mode from the second sound signal, removes the identified predetermined type of ambient sound corresponding to the local communication environment mode from the second sound signal, and performs noise reduction processing on the first sound signal using the remaining sound signal.
3. The earphone device of claim 1,
the micro-processing unit also has an ambient sound alert mode,
and in the ambient sound reminding mode, the first microphone and/or the second microphone are/is used for collecting ambient sound, and the collected ambient sound is played through the loudspeaker in real time so as to remind the user of the current ambient sound.
4. The earphone device of claim 3,
and in the environment sound reminding mode, pausing the playing of the audio signals which need to be played in the loudspeaker currently.
5. The earphone device of claim 3,
the speakers include a left channel speaker and a right channel speaker,
under the ambient sound reminding mode, the audio signal which needs to be played currently is played through one of the left channel loudspeaker and the right channel loudspeaker, and the collected ambient sound is played through the other one of the left channel loudspeaker and the right channel loudspeaker in real time.
6. The headphone apparatus as claimed in one of claims 1 to 3, further comprising a command interface capable of receiving a control command from outside, the control command being a command for notifying the microprocessor unit to enter a corresponding mode, the command interface transmitting the command to the microprocessor unit to cause the microprocessor unit to enter the corresponding mode after receiving the commands.
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CN201610807780.XA CN106210960B (en) | 2016-09-07 | 2016-09-07 | Headphone device with local call situation affirmation mode |
CN201910980560.0A CN110650403A (en) | 2016-09-07 | 2016-09-07 | Earphone device with local call environment mode |
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CN201910980582.7A Pending CN110636402A (en) | 2016-09-07 | 2016-09-07 | Earphone device with local call condition confirmation mode |
CN201610807780.XA Active CN106210960B (en) | 2016-09-07 | 2016-09-07 | Headphone device with local call situation affirmation mode |
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