CN112913321B - Method, equipment and system for carrying out call by using Bluetooth headset - Google Patents

Abstract

The application discloses a method, equipment and a system for carrying out communication by using a Bluetooth headset, which relate to the field of short-distance communication, more than two people can conveniently realize communication by using the TWS headset, and the possibility of interference of environmental noise on communication effect is reduced. The main earplug and the auxiliary earplug of the TWS earphone are subjected to Bluetooth pairing; the main earplug and the electronic equipment are in Bluetooth pairing; the main earplug opens a microphone of the main earplug to collect a sound signal; the auxiliary earplug receives the instruction, and responds to the instruction, the auxiliary earplug opens a microphone of the auxiliary earplug to collect the sound signal; the main earplug and the auxiliary earplug establish a first voice link, and the first voice link is used for transmitting voice data from the main earplug to the auxiliary earplug and the voice data from the auxiliary earplug to the main earplug; the main earpiece and the electronic device establish a second voice link for transmitting voice data from the main earpiece to the electronic device and from the electronic device to the main earpiece.

Description

Method, equipment and system for carrying out call by using Bluetooth headset

Technical Field

The present application relates to the field of short-distance communication, and in particular, to a method, device, and system for performing a call using a bluetooth headset.

Background

The mobile phone is a necessity in daily life and work of people. The communication is the basic function of the mobile phone, and can meet the basic communication requirement between people. Sometimes, a user may choose to use a peripheral device, such as a bluetooth headset, as an audio input/output device of a cell phone to enable a call to free both hands. For example, as shown in fig. 1, a user 1 makes a call with a user 2 of a mobile phone 2 using a bluetooth headset connected to the mobile phone 1 to realize a call between the two users. When other users want to access the communication through the mobile phone 1 or the mobile phone 2, the external function of the mobile phone needs to be opened, which is inconvenient for the communication mode of more than two people by adopting the external device, and the communication effect is easily interfered by the environmental noise.

Disclosure of Invention

The embodiment of the application provides a method, equipment and a system for carrying out communication by using a Bluetooth headset, more than two people can conveniently carry out communication by using a True Wireless Stereo (TWS) headset, and the possibility of interference of environmental noise on communication effect is reduced.

The technical scheme adopted by the application is as follows:

in a first aspect of the present application, a method for making a call using a bluetooth headset is provided, which may be applied to a TWS headset, which may include a first earpiece and a second earpiece, both of which include a microphone; the method can comprise the following steps: the first earplug and the second earplug are in Bluetooth pairing; the first earplug and the electronic equipment are in Bluetooth pairing; the first earplug opens a microphone of the first earplug to collect a sound signal; the second earpiece receiving an instruction, in response to which the second earpiece opens a microphone of the second earpiece to pick up a sound signal; the first and second earpieces establish a first voice link, which may be a two-way voice link, i.e., the first voice link may be used to transmit voice data from the first earpiece to the second earpiece and voice data from the second earpiece to the first earpiece; the first earpiece and the electronic device establish a second voice link, which may be a two-way voice link, i.e., the second voice link may be used to transmit voice data from the first earpiece to the electronic device, and voice data from the electronic device to the first earpiece.

By adopting the technical scheme, the microphones of the two earplugs (such as the first earplug and the second earplug) of the TWS earphone connected with one mobile phone are opened and shared for two users to use, so that more than two persons can be conveniently communicated, namely, a multi-person teleconference can be realized. Moreover, the possibility that the environmental noise interferes with the call effect can be reduced.

In a possible implementation manner, the second earplug receives the instruction, and specifically may include: the second earpiece receives user operation of a first function key on the second earpiece. Therefore, the first function key is arranged on the second earplug, so that the microphone of the second earplug is opened by the second earplug through triggering of the first function key by a user, convenience is provided for realizing communication of more than two persons, and the use experience of the user is improved.

In another possible implementation manner, the method may further include: the first earpiece and the second earpiece establish a first control link; the second earplug receives the instruction, and specifically may include: the second earpiece receives the indication sent by the first earpiece over the first control link.

In another possible implementation manner, before the second earpiece receives the indication sent by the first earpiece through the first control link, the method may further include: the first earpiece receives user operation of a second function key on the first earpiece; in response to operation of the second function key, the first earpiece transmits an indication to the second earpiece over the first control link. Therefore, the second function key is arranged on the first earplug, so that the microphone of the second earplug is opened by the second earplug through triggering of the second function key by a user, convenience is provided for realizing communication of more than two persons, and the use experience of the user is improved.

In another possible implementation manner, the method may further include: the first earpiece establishes a second control link with the electronic device; before the second earpiece receives the indication sent by the first earpiece over the first control link, the method may further include: the first earpiece receives the indication sent by the electronic device over the second control link. For example, the electronic device may send an instruction to the first earpiece after receiving an instruction from the user, so that the second earpiece opens the microphone of the second earpiece according to the instruction, thereby providing convenience for realizing a call of more than two people.

In another possible implementation manner, the receiving, by the second earpiece, the instruction may specifically include: the second earpiece receives an indication transmitted by an earpiece box of the TWS headset. For example, the earphone box is provided with a function key, and in response to the triggering of the function key, the earphone box can send an instruction to the second earphone, so that the second earphone turns on a microphone of the second earphone, thereby providing convenience for realizing the call of more than two people.

In another possible implementation manner, the establishing of the first voice link by the first earpiece and the second earpiece may specifically include: the first and second earpieces establishing a unidirectional voice link for transmitting voice data from the first earpiece to the second earpiece; in response to the instruction, the first earpiece and the second earpiece delete the unidirectional voice link, establishing the first voice link. For example, the unidirectional voice link may be a bluetooth SCO/eSCO voice link, and the voice link is configured as a unidirectional link. The first voice link may be a bluetooth SCO/eSCO voice link, and the voice link is configured as a bi-directional link.

In another possible implementation manner, the establishing of the first voice link by the first earpiece and the second earpiece may specifically include: the first earpiece and the second earpiece establish a first unidirectional voice link that may be used to transmit voice data from the first earpiece to the second earpiece; in response to the instructions, the first earpiece and the second earpiece establish a second unidirectional voice link that may be used to transmit voice data from the second earpiece to the first earpiece; the first voice link may include the first unidirectional voice link and the second unidirectional voice link. For example, the first unidirectional voice link may be a bluetooth SCO/eSCO voice link, and the voice link is configured as a unidirectional link. The second unidirectional voice link may be a link established using SPP for bluetooth.

In another possible implementation manner, the method may further include: the first earplug collects a sound signal through a microphone of the first earplug and converts the sound signal into first voice data; the first earplug receives second voice data sent by the electronic equipment through a second voice link; after the first voice data and the second voice data are superposed, the first voice data and the second voice data are sent to the second earplug through the first voice link, and the second earplug plays the superposed first voice data and second voice data; the second earplug collects sound signals through a microphone of the second earplug and converts the sound signals into third voice data; the second earpiece transmits the third voice data to the first earpiece over the first voice link; the first earplug plays the second voice data and the third voice data after overlapping; and the first earplug is used for transmitting the first voice data and the third voice data to the electronic equipment through the second voice link after superposition processing. In this way, under the condition that the microphones of the first earphone and the second earphone of the TWS earphone are both in the opening state, the first earphone and the second earphone are respectively used by two users, and convenience is provided for other users to join in a call through the electronic equipment. The first earplug can transmit the voice data obtained by the microphone of the first earplug and the voice data obtained by the microphone of the electronic equipment to the second earplug for playing after superposition processing, and can transmit the voice data obtained by the microphone of the first earplug and the voice data obtained by the microphone of the second earplug to the electronic equipment after superposition processing, so that the electronic equipment can transmit the voice data to the electronic equipment for communication with the electronic equipment, and communication between more than two persons is realized.

In another possible implementation manner, the method may further include: the first earpiece transmitting connection parameters of the second voice link to the second earpiece; the first earplug collects sound signals through a microphone of the first earplug and converts the sound signals into first voice data; the first earplug receives second voice data sent by the electronic equipment through a second voice link; the first earplug sends the first voice data to the second earplug through a first voice link; the second earplug monitors a second voice link according to the connection parameters to obtain second voice data; the second earplug plays the first voice data and the second voice data after overlapping; the second earplug collects sound signals through a microphone of the second earplug and converts the sound signals into third voice data; the second earpiece transmits the third voice data to the first earpiece over the first voice link; the first earplug plays the second voice data and the third voice data after overlapping; and the first earplug is used for transmitting the first voice data and the third voice data to the electronic equipment through the second voice link after superposition processing. In this way, under the condition that the microphones of the first earplug and the second earplug of the TWS earphone are both in the opening state, the first earplug and the second earplug are respectively used by two users, and convenience is provided for other users to join in a call through the electronic equipment. The second earplug can perform superposition processing on the monitored voice data and the voice data from the first earplug and then play the data, the first earplug can perform superposition processing on the voice data obtained by the microphone of the first earplug and the voice data from the second earplug and then send the data to the electronic equipment, so that the electronic equipment can transmit the data to the electronic equipment for talking with the electronic equipment, and the voice data from the electronic equipment and the voice data from the second earplug can be played after superposition, thereby realizing talking of more than two people.

In another possible implementation, the first earpiece may be a primary earpiece of a TWS headset and the second earpiece may be a secondary earpiece of the TWS headset.

In a second aspect of the present application, a method for making a call using a bluetooth headset is provided, where the method may be applied to an electronic device, and the method may include: the electronic device is Bluetooth paired with a first earpiece of a TWS headset; the electronic device establishing a second control link with the first earpiece; the electronic device receives the instruction, and in response to the instruction, the electronic device sends an indication to the first earpiece over the second control link, which may be used to instruct a second earpiece of the TWS headset to turn on a microphone of the second earpiece.

By adopting the technical scheme, the electronic equipment sends the indication to the first earplug of the TWS earphone to open the microphone of the second earplug, so that the microphones of the two earplugs (such as the first earplug and the second earplug) of the TWS earphone connected with one mobile phone are both in an open state, and the two earplugs can be respectively shared by two users for use, thereby conveniently realizing the communication of more than two persons, namely realizing the multi-person teleconference. Moreover, the possibility that the environmental noise interferes with the call effect can be reduced.

In a possible implementation manner, the receiving, by the electronic device, the instruction may specifically include: the electronic equipment receives the operation of a user on a third function key on the electronic equipment; or, the electronic device receives the operation of the function control in the interface displayed by the electronic device by the user. Like this, through including the function control in setting up the third function key on electronic equipment or the interface that shows to the user is through the trigger to this third function key or function control, makes the microphone of second earplug opened to the second earplug, for realizing the conversation of more than two people provides convenience, has improved user's use and has experienced.

In another possible implementation manner, the interface may be a call interface, an answering interface or a setting interface; alternatively, the functionality control described above may be included in a notification bar.

In another possible implementation manner, the method may further include: the electronic device establishing a second voice link with the first earpiece, the second voice link operable to transmit voice data from the first earpiece to the electronic device and voice data from the electronic device to the first earpiece; the electronic equipment receives the second voice data, and the electronic equipment sends the second voice data to the first earplug through a second voice link; the electronic equipment receives the first voice data and the third voice data which are sent by the first earplug through the second voice link and are subjected to superposition processing, and sends the first voice data and the third voice data which are subjected to superposition processing, wherein the first voice data are obtained by processing the voice signals collected by the first earplug through the microphone of the first earplug, and the second voice data are obtained by processing the voice signals collected by the second earplug through the microphone of the second earplug.

In a third aspect of the present application, a method for conducting a call using a bluetooth headset is provided, which may be applied to a TWS headset, which may include a first earpiece and a second earpiece, both of which may include a microphone; the method can comprise the following steps: the first earplug and the second earplug are in Bluetooth pairing; the first earplug and the second earplug are respectively in Bluetooth pairing with the electronic equipment; the first earplug opens a microphone of the first earplug to collect a sound signal; the second earpiece receiving an instruction, in response to which the second earpiece turns on a microphone of the second earpiece to pick up a sound signal; the first and second earpieces establishing a first voice link that can be used to transmit voice data from the first earpiece to the second earpiece and voice data from the second earpiece to the first earpiece; the first earpiece and the electronic device establish a second voice link that may be used to transmit voice data from the first earpiece to the electronic device and voice data from the electronic device to the first earpiece; the second earpiece and the electronic device establish a third voice link that may be used to transmit voice data from the second earpiece to the electronic device, and voice data from the electronic device to the second earpiece.

By adopting the technical scheme, the microphones of the two earplugs (such as the first earplug and the second earplug) of the TWS earphone connected with one mobile phone are opened and shared for two users to use, so that more than two persons can be conveniently communicated, namely, a multi-person teleconference can be realized. Moreover, the possibility that the environmental noise interferes with the call effect can be reduced.

In a possible implementation manner, the receiving, by the second earpiece, the instruction may specifically include: the second earpiece receives user operation of a first function key on the second earpiece. Therefore, the first function key is arranged on the second earplug, so that the microphone of the second earplug is opened by the second earplug through triggering of the first function key by a user, convenience is provided for realizing communication of more than two persons, and the use experience of the user is improved.

In another possible implementation manner, the method may further include: the first earpiece establishes a first control link with the second earpiece; the second earplug receives the instruction, and specifically may include: the second earpiece receives the indication sent by the first earpiece over the first control link.

In another possible implementation manner, before the second earpiece receives the indication sent by the first earpiece through the first control link, the method may further include: the first earphone receives the operation of a second function key on the first earphone by a user; in response to operation of the second function key, the first earpiece transmits an indication to the second earpiece over the first control link. Therefore, the second function key is arranged on the first earplug, so that the microphone of the second earplug is opened by the second earplug through the triggering of the second function key by the user, convenience is provided for realizing the communication of more than two people, and the use experience of the user is improved.

In another possible implementation manner, the method may further include: the first earpiece establishes a second control link with the electronic device; before the second earpiece receives the indication sent by the first earpiece over the first control link, the method may further include: the first earpiece receives the indication sent by the electronic device over the second control link. For example, the electronic device may send an instruction to the first earpiece after receiving an instruction from the user, so that the second earpiece opens the microphone of the second earpiece according to the instruction, thereby providing convenience for realizing more than two people's conversation.

In another possible implementation manner, the receiving, by the second earpiece, the instruction may specifically include: the second earpiece receives an indication sent by an earpiece box of the TWS headset. For example, the earphone box is provided with a function key, and in response to the triggering of the function key, the earphone box can send an instruction to the second earphone, so that the second earphone turns on a microphone of the second earphone, thereby providing convenience for realizing the call of more than two people.

In another possible implementation manner, the method may further include: the second earpiece establishes a third control link with the electronic device; the second earplug receives the instruction, and specifically may include: the second earpiece receives an indication that the electronic device sent over the third control link. For example, the electronic device may send an instruction to the second earpiece after receiving the instruction of the user, so that the second earpiece opens a microphone of the second earpiece according to the instruction, thereby providing convenience for realizing more than two people's conversation.

In another possible implementation manner, the method may further include: the first earplug collects sound signals through a microphone of the first earplug and converts the sound signals into first voice data, the first earplug sends the first voice data to the second earplug through a first voice link, and the first voice data is sent to the electronic equipment through a second voice link; the first earplug receives second voice data sent by the electronic equipment through a second voice link; the second earplug collects sound signals through a microphone of the second earplug and converts the sound signals into third voice data, the second earplug sends the third voice data to the electronic equipment through a third voice link, and the third voice data are sent to the first earplug through the first voice link; the second earplug receives second voice data sent by the electronic equipment through a third voice link; the first earplug plays the second voice data and the third voice data after overlapping; the second earplug plays the first voice data and the second voice data after overlapping. In this way, under the condition that the microphones of the first earphone and the second earphone of the TWS earphone are both in the opening state, the first earphone and the second earphone are respectively used by two users, and convenience is provided for other users to join in a call through the electronic equipment.

In another possible implementation, the first earpiece may be a left earpiece and the second earpiece may be a right earpiece of a TWS headset. Alternatively, the first earpiece may be a right earpiece and the second earpiece may be a left earpiece of a TWS headset.

In a fourth aspect of the present application, a method for making a call using a bluetooth headset is provided, where the method may be applied to an electronic device, and the method may include: the electronic device is Bluetooth paired with a first earpiece and a second earpiece of a TWS headset respectively; the electronic device establishes a third control link with the second earpiece; the electronic device receives an instruction, in response to which the electronic device sends an indication to the second earpiece over the third control link, the indication instructing the second earpiece of the TWS headset to turn on a microphone of the second earpiece.

By adopting the technical scheme, the electronic equipment sends the indication to the second earplug of the TWS earphone so as to open the microphone of the second earplug, so that the microphones of the two earplugs (such as the first earplug and the second earplug) of the TWS earphone connected with one mobile phone are both in an open state, and the two earplugs can be shared by two users for use respectively, thereby more than two people can be conveniently communicated, namely, a multi-person teleconference can be realized. Moreover, the possibility that the environmental noise interferes with the call effect can be reduced.

In a possible implementation manner, the receiving, by the electronic device, the instruction may specifically include: the electronic equipment receives the operation of a user on a third function key on the electronic equipment; or, the electronic equipment receives the operation of the user on the function control in the interface displayed by the electronic equipment. Like this, through including the function control in setting up the third function key on electronic equipment or the interface that shows to the user is through the trigger to this third function key or function control, makes the microphone of second earplug opened to the second earplug, for realizing the conversation of more than two people provides convenience, has improved user's use and has experienced.

In another possible implementation manner, the interface may be a call interface, an answering interface or a setting interface; alternatively, the functionality control described above may be included in the notification bar.

In another possible implementation manner, the method may further include: the electronic device establishes a second voice link with the first earpiece, the second voice link for transmitting voice data from the first earpiece to the electronic device and voice data from the electronic device to the first earpiece; the electronic device establishing a third voice link with the second earpiece, the third voice link for transmitting voice data from the second earpiece to the electronic device and from the electronic device to the second earpiece; the electronic equipment receives second voice data, and sends the second voice data to the first earplug through the second voice link and sends the second voice data to the second earplug through the third voice link; the electronic equipment receives first voice data sent by the first earplug through the second voice link and third voice data sent by the second earplug through the third voice link, wherein the first voice data are obtained by processing sound signals collected by the first earplug through a microphone of the first earplug, and the second voice data are obtained by processing sound signals collected by the second earplug through a microphone of the second earplug; and the electronic equipment superposes the first voice data and the third voice data and sends the superposed first voice data and third voice data.

In a fifth aspect of the present application, a TWS headset is provided that may include a first earpiece and a second earpiece; the first and second earplugs may each include: the system comprises a processor, a memory, a wireless communication module, a receiver and a microphone; the memory, the wireless communication module, the earpiece and the microphone are coupled to the processor, the memory for storing computer program code, the computer program code including computer instructions; when the processor of the first earpiece executes computer instructions stored by the memory of the first earpiece, the first earpiece may perform the method of talking on a bluetooth headset as described in any one of the first aspect or possible implementations of the first aspect, or the third aspect or possible implementations of the third aspect; when the processor of the second earpiece executes computer instructions stored by the processor of the second earpiece, the second earpiece may perform the method of conducting a call using a bluetooth headset as described in the first aspect or any of the possible implementations of the first aspect, or any of the possible implementations of the third aspect or the third aspect.

In a sixth aspect of the present application, there is provided an electronic device, which may include: one or more processors, memory, wireless communication modules, and mobile communication modules; the memory, the wireless communication module and the mobile communication module are coupled to the one or more processors, the memory for storing computer program code comprising computer instructions which, when executed by the one or more processors, enable the electronic device to perform the method of talking using a bluetooth headset as described in the second aspect or any of the possible implementations of the second aspect, or any of the possible implementations of the fourth aspect or the fourth aspect.

A seventh aspect of the present application provides a bluetooth communication system, which may include: a TWS headset according to a fifth aspect, an electronic device according to the sixth aspect, and an electronic device for talking to the electronic device.

In an eighth aspect of the present application, there is provided a computer storage medium, characterized by comprising computer instructions that, when run on a first earpiece of a TWS headset, cause the first earpiece to perform the method of talking with a bluetooth headset as described in the first aspect or in any of the possible implementations of the first aspect, or in the third aspect or in any of the possible implementations of the third aspect; the computer instructions, when executed on a second earpiece of a TWS headset, cause the second earpiece to perform a method of conducting a call using a bluetooth headset as described in the first aspect or any of its possible implementations, or in the third aspect or any of its possible implementations.

In a ninth aspect of the present application, a computer storage medium is provided, which is characterized by comprising computer instructions, when the computer instructions are executed on an electronic device, the electronic device is caused to execute the method for making a call using a bluetooth headset as described in the second aspect or any of the possible implementations of the second aspect, or any of the possible implementations of the fourth aspect or the fourth aspect.

In a tenth aspect of the present application, there is provided a computer program product, when the computer program product runs on a computer, the computer is caused to execute any one of the above methods for making a call using a bluetooth headset.

It is to be understood that the TWS headset according to the fifth aspect, the electronic device according to the sixth aspect, the bluetooth communication system according to the seventh aspect, the computer storage medium according to the eighth aspect and the ninth aspect, and the computer program product according to the tenth aspect are all configured to perform the corresponding methods provided above, and therefore, the beneficial effects achieved by the TWS headset according to the fifth aspect can refer to the beneficial effects in the corresponding methods provided above, and are not described herein again.

Drawings

Fig. 1 is a schematic view of a call scenario provided in the prior art;

fig. 2 is a schematic diagram of a call system according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram of an earplug of a TWS earphone according to an embodiment of the present application;

FIG. 4 is a schematic diagram illustrating an example product form of a TWS headset according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure;

fig. 6 is a scene schematic diagram of a multi-person teleconference method according to an embodiment of the present application;

FIG. 7 is a schematic diagram of a display interface provided in an embodiment of the present application;

FIG. 8 is a schematic diagram of another display interface provided by an embodiment of the present application;

FIG. 9 is a schematic diagram of yet another display interface provided by an embodiment of the present application;

fig. 10 is a schematic view of another multi-person teleconference method according to an embodiment of the present application;

fig. 11 is a schematic view of a scene of another multi-person teleconference method according to the embodiment of the present application;

FIG. 12 is a schematic view of an earplug of another TWS earphone provided by an embodiment of the present application;

fig. 13 is a schematic structural diagram of another electronic device according to an embodiment of the present application.

Detailed Description

With the advancement of technology, TWS headphones gradually come into view of people. A TWS headset is a special bluetooth headset that includes two headset bodies, e.g., called left and right earplugs, respectively, and does not require a wire connection between the left and right earplugs.

Currently, the left and right earplugs of TWS headphones can be used as a pair of binaural headphones, or can be used alone. When the left earplug and the right earplug of the TWS earphone are used as a pair of double-ear earphones, the left earplug and the right earplug of the TWS earphone can be respectively connected with a mobile phone through Bluetooth. Based on the established bluetooth connection, the left and right earplugs of the TWS headset may be used as audio input/output devices of the handset to enable a call. Typically, both the left and right earplugs of a TWS headset contain Microphones (MICs). However, when the left and right earplugs of the TWS headset are used as an audio input/output device of a mobile phone to realize a call, only the microphone of one of the earplugs (such as the left or right earplugs) is turned on so as to collect a sound signal of a user.

The embodiment of the application provides a method for calling by using a Bluetooth headset, which is characterized in that when a user uses a left earplug and a right earplug of the TWS headset as audio input/output equipment of a mobile phone (such as a mobile phone 1) to realize calling, when other users want to access the calling through the mobile phone 1, microphones of the left earplug and the right earplug of the TWS headset can be turned on for collecting sound signals. Thus, the left earplug and the right earplug of the TWS earphone can be respectively used by two users (such as a user 1 and a user 3) to realize conversation. Thus, the user 1 and the user 3 can realize a three-person teleconference using the mobile phone 1 and the user 2 using the mobile phone 2 (the mobile phone which makes a call with the mobile phone 1 is referred to as the mobile phone 2).

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

As shown in fig. 2, the method for performing a call by using a bluetooth headset according to the embodiment of the present application may be applied to a call system formed by a peripheral device 201, a first electronic device 202, and a second electronic device 203.

The first electronic device 202 may be used as one end of a call to communicate with the second electronic device 203. The peripheral device 201 and the first electronic device 202 may establish a bluetooth connection using bluetooth. Based on the established bluetooth connection, short-distance data interaction between the peripheral device 201 and the first electronic device 202 can be realized. When the user does not want to hold the first electronic device 202 to talk with the second electronic device 203, the first electronic device 202 may switch to the peripheral device 201 to talk. That is, based on the bluetooth connection, the peripheral device 201 and the first electronic device 202 may transmit voice data during a call, so that the peripheral device 201 is used as an audio input/output device of the first electronic device 202 to implement the call.

In some embodiments, the peripheral device 201 may be a TWS headset, bluetooth speaker, smart glasses, or the like. The peripheral 201 comprises two bodies and no wire connections are required between the two bodies. As an example, the peripheral 201 shown in fig. 2 is illustrated as a TWS headset. The TWS headset includes two bodies (e.g., headset bodies), referred to as a left earbud 201-1 and a right earbud 201-2. The structure of the left and right earplugs 201-1 and 201-2 of the TWS headset may be as shown in FIG. 3 and will be described in detail in the following embodiments.

Wherein, the left earplug 201-1 and the right earplug 201-2 of the TWS headset may be used as a pair of binaural headsets to establish a bluetooth connection with the first electronic device 202. During the call, based on the established bluetooth connection, the first electronic device 202 may transmit voice data sent by the second electronic device 203 to the left ear plug 201-1 and the right ear plug 201-2 of the TWS headset for playing. When the user speaks, the TWS headset may collect corresponding sound signals and transmit to the first electronic device 202 after converting to voice data, so that the first electronic device 202 transmits the voice data to the second electronic device 203.

In this embodiment of the application, the specific examples of the TWS headset collecting the sound signal and converting the sound signal into the voice data may be: when a user uses the TWS headset to make a call, the microphone of one of the left ear piece 201-1 and the right ear piece 201-2 (e.g., the right ear piece 201-2) of the TWS headset is turned on. The right earpiece 201-2 may collect and convert the sound signal into voice data, which is then transmitted to the first electronic device 202 based on the bluetooth connection. When two users use the left earplug 201-1 and the right earplug 201-2 of the TWS headset to realize a call, the microphones of the left earplug 201-1 and the right earplug 201-2 of the TWS headset are both turned on. The left ear plug 201-1 and the right ear plug 201-2 of the TWS headset may collect and convert sound signals into voice data, respectively, and then transmit to the first electronic device 202 based on the bluetooth connection.

In some embodiments, the first electronic device 202 and the second electronic device 203 may be a mobile phone, a tablet computer, a desktop computer, a laptop computer, a handheld computer, a notebook computer, an ultra-mobile personal computer (UMPC), a netbook, a cellular phone, a Personal Digital Assistant (PDA), an Augmented Reality (AR) device, a Virtual Reality (VR) device, and the like, and the embodiments of the present application do not limit the specific form of the device. In addition, in the embodiment of the present application, the device forms of the first electronic device 202 and the second electronic device 203 may be the same, for example, the first electronic device 202 and the second electronic device 203 are both mobile phones. The device types of the first electronic device 202 and the second electronic device 203 may also be different, for example, the first electronic device 202 is a mobile phone, and the second electronic device 203 is a tablet computer. In the embodiment of the present application, the structures of the electronic devices (the first electronic device 202 and the second electronic device 203) may be as shown in fig. 5, which will be described in detail in the following embodiments.

Please refer to fig. 3, which is a schematic structural diagram of an earplug (a left earplug or a right earplug) of a TWS earphone according to an embodiment of the present application. As shown in fig. 3, the earplugs of the TWS headset may include: a processor 301, a memory 302, a sensor 303, a wireless communication module 304, at least one microphone 305, at least one microphone 306, and a power source 307.

The memory 302 may be used, among other things, to store application code, such as for establishing a bluetooth connection with another earpiece of a TWS headset, and for enabling pairing of the earpiece with an electronic device, such as the first electronic device 202 described above. The processor 301 may control execution of the above-mentioned application program code to implement the functionality of the earpieces of the TWS headset in the embodiments of the present application.

The memory 302 may also have stored therein a bluetooth address for uniquely identifying the earpiece and a bluetooth address of another earpiece of the TWS headset. In addition, the memory 302 may also store connection data with an electronic device that the earplug has successfully paired before. For example, the connection data may be a bluetooth address of the electronic device that was successfully paired with the earpiece. Based on the connection data, the ear bud can be automatically paired with the electronic device without having to configure a connection therewith, such as for legitimacy verification or the like. The bluetooth address may be a Media Access Control (MAC) address.

The sensor 303 may be a distance sensor or a proximity light sensor. The processor 301 of the ear plug may determine whether it is worn by the user via the sensor 303. For example, the processor 301 of the ear bud may utilize a proximity light sensor to detect whether an object is near the ear bud to determine whether the ear bud is being worn by the user. Upon determining that the earpiece is worn, the processor 301 of the earpiece may turn on the receiver 305. In some embodiments, the earplug may further include a bone conduction sensor, incorporated into a bone conduction earpiece. The bone conduction sensor can acquire a vibration signal of a vibration bone block of a sound part, and the processor 301 analyzes the voice signal to realize a control function corresponding to the voice signal. In other embodiments, the ear tip may further comprise a touch sensor or a pressure sensor for detecting a touch operation and a press operation of the user, respectively. In other embodiments, the ear bud may further include a fingerprint sensor for detecting a user's fingerprint, identifying the user's identity, and the like. In other embodiments, the earplug may further comprise an ambient light sensor, and the processor 301 of the earplug may adaptively adjust parameters, such as volume, according to the brightness of the ambient light sensed by the ambient light sensor.

A wireless communication module 304 for supporting short-range data interaction between the left and right earpieces of the TWS headset, and between the earpieces and various electronic devices, such as the first electronic device 202 described above. In some embodiments, the wireless communication module 304 may be a bluetooth transceiver. The earplugs of the TWS headset may establish a bluetooth connection with the first electronic device 202 through the bluetooth transceiver to enable short-range data interaction therebetween. The earplugs of the TWS earphone can also establish a Bluetooth connection with another earplug through the Bluetooth transceiver so as to realize short-distance data interaction between the two earplugs.

The receiver 305, which may also be referred to as a "handset," may be used to convert audio electrical signals into sound signals and play them. The audio electrical signal is audio data, and the audio data may include voice data in the embodiment of the present application. For example, when the ear buds of the TWS headset perform a call as the audio input/output device of the first electronic device 202 described above, the receiver 305 may convert the received voice data into a sound signal and play it.

The microphone 306, which may also be referred to as a "microphone," is used to convert sound signals into electrical audio signals. For example, when the ear buds of the TWS headset are used as the audio input/output device of the first electronic device 202 to enable a call, the microphone 306 may capture the user's voice signal and convert it into an audio electrical signal when the user speaks (e.g., a call or a voice message).

A power supply 307 may be used to supply power to the various components contained in the earplugs of the TWS headset. In some embodiments, the power source 307 may be a battery, such as a rechargeable battery.

Typically, a TWS headset will be equipped with a headset case (e.g., 401 shown in fig. 4). As shown in fig. 4, the earphone box 401 may include a cavity 401-1 and a box cover 401-2. The cavity 401-1 may be used to receive the left and right earplugs of a TWS headset. As shown in fig. 4 in conjunction with fig. 2, the cavity 401-1 of the headset case 401 may be used to house the left ear plug 201-1 and the right ear plug 201-2 of the TWS headset. In addition, the headset case 401 may also charge the left and right earplugs of the TWS headset. Accordingly, in some embodiments, the above TWS earpiece may further include: an input/output interface 308.

The input/output interface 308 may be used to provide any wired connection between the earplugs of the TWS headset and a headset case, such as the cavity 401-1 of the headset case 401 described above. In some embodiments, the input/output interface 308 may be an electrical connector. For example, when the earplugs of the TWS headset are placed in the cavity 401-1 of the headset case 401, the earplugs of the TWS headset may be electrically connected to the headset case 301 (e.g., to the input/output interface of the headset case 401) through the electrical connector. After this electrical connection is established, the headset case 401 may charge the power supply 307 of the earplugs of the TWS headset. The earpieces of the TWS headset may also be in data communication with the headset case 401 after the electrical connection is established. For example, the processor 301 of the earplugs of the TWS headset may receive pairing instructions from the headset case 401 through the electrical connection. The pairing command is used to instruct the processor 301 of the earplugs of the TWS headset to turn on the wireless communication module 304 so that the earplugs of the TWS headset may be paired with the first electronic device 202 using a corresponding wireless communication protocol, such as bluetooth.

Of course, the earplugs of the TWS headset described above may also not include the input/output interface 308. In this case, the ear bud may implement a charging or data communication function based on the bluetooth connection established with the earphone box 401 through the above-described wireless communication module 304.

Additionally, in some embodiments, the earphone cartridges (e.g., earphone cartridge 401 described above) may also include a processor, memory, etc. The memory may be used to store application program code and be controlled to be executed by the processor of the headset case 401 to implement the functionality of the headset case 401. For example. When the user opens the lid 401-2 of the earphone box 401, the processor of the earphone box 401 may send a pairing command or the like to the earplugs of the TWS headset in response to the user opening the lid 401-2 by executing application code stored in the memory.

It is understood that the illustrated structure of the embodiments of the present application does not constitute a specific limitation to the earplug of the TWS headset. It may have more or fewer components than shown in fig. 3, may combine two or more components, or may have a different configuration of components. For example, the earplug may further include an indicator light (which may indicate the status of the earplug, such as power), a dust screen (which may be used with the earpiece), and the like. The various components shown in fig. 3 may be implemented in hardware, software, or a combination of hardware and software, including one or more signal processing or application specific integrated circuits.

Please refer to fig. 5, which is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure. The first electronic device 202 and the second electronic device 203 in the call system shown in fig. 2 may have the structure shown in fig. 5.

As shown in fig. 5, the electronic device may include a processor 110, an external memory interface 120, an internal memory 121, a Universal Serial Bus (USB) interface 130, a charging management module 140, a power management module 141, a battery 142, an antenna 1, an antenna 2, a mobile communication module 150, a wireless communication module 160, an audio module 170, a speaker 170A, a receiver 170B, a microphone 170C, an earphone interface 170D, a sensor module 180, a button 190, a motor 191, an indicator 192, a camera 193, a display screen 194, a Subscriber Identification Module (SIM) card interface 195, and the like. The sensor module 180 may include a pressure sensor 180A, a gyroscope sensor 180B, an air pressure sensor 180C, a magnetic sensor 180D, an acceleration sensor 180E, a distance sensor 180F, a proximity light sensor 180G, a fingerprint sensor 180H, a temperature sensor 180J, a touch sensor 180K, an ambient light sensor 180L, a bone conduction sensor 180M, and the like.

It is to be understood that the illustrated structure of the embodiments of the present application does not constitute a specific limitation to electronic devices. In other embodiments, an electronic device may include more or fewer components than shown, or some components may be combined, some components may be split, or a different arrangement of components. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.

Processor 110 may include one or more processing units, such as: the processor 110 may include an Application Processor (AP), a modem processor, a Graphics Processing Unit (GPU), an Image Signal Processor (ISP), a controller, a memory, a video codec, a Digital Signal Processor (DSP), a baseband processor, and/or a neural-Network Processing Unit (NPU), etc. The different processing units may be separate devices or may be integrated into one or more processors.

The controller can be a neural center and a command center of the electronic device. The controller can generate an operation control signal according to the instruction operation code and the timing signal to complete the control of instruction fetching and instruction execution.

A memory may also be provided in processor 110 for storing instructions and data. In some embodiments, the memory in the processor 110 is a cache memory. The memory may hold instructions or data that have just been used or recycled by the processor 110.

In some embodiments, processor 110 may include one or more interfaces. The interface may include an integrated circuit (I2C) interface, an integrated circuit built-in audio (I2S) interface, a Pulse Code Modulation (PCM) interface, a universal asynchronous receiver/transmitter (UART) interface, a Mobile Industry Processor Interface (MIPI), a general-purpose input/output (GPIO) interface, a Subscriber Identity Module (SIM) interface, and/or a Universal Serial Bus (USB) interface, etc.

It should be understood that the connection relationship between the modules illustrated in this embodiment is only an exemplary illustration, and does not limit the structure of the electronic device. In other embodiments, the electronic device may also adopt different interface connection manners or a combination of multiple interface connection manners in the above embodiments.

The charging management module 140 is configured to receive charging input from a charger. The charging management module 140 may also supply power to the electronic device through the power management module 141 while charging the battery 142.

The power management module 141 is used to connect the battery 142, the charging management module 140 and the processor 110. The power management module 141 receives input from the battery 142 and/or the charge management module 140 and provides power to the processor 110, the internal memory 121, the external memory, the display 194, the camera 193, the wireless communication module 160, and the like. The power management module 141 may also be used to monitor parameters such as battery capacity, battery cycle count, battery state of health (leakage, impedance), etc. In some other embodiments, the power management module 141 may also be disposed in the processor 110. In other embodiments, the power management module 141 and the charging management module 140 may be disposed in the same device.

The wireless communication function of the electronic device may be implemented by the antenna 1, the antenna 2, the mobile communication module 150, the wireless communication module 160, the modem processor, the baseband processor, and the like.

The antennas 1 and 2 are used for transmitting and receiving electromagnetic wave signals. The mobile communication module 150 may provide a solution including 2G/3G/4G/5G wireless communication applied to the electronic device. The mobile communication module 150 may include at least one filter, a switch, a power amplifier, a Low Noise Amplifier (LNA), and the like. The mobile communication module 150 may receive the electromagnetic wave from the antenna 1, filter, amplify, etc. the received electromagnetic wave, and transmit the electromagnetic wave to the modem processor for demodulation. The mobile communication module 150 may also amplify the signal modulated by the modem processor, and convert the signal into electromagnetic wave through the antenna 1 to radiate the electromagnetic wave. In some embodiments, at least some of the functional modules of the mobile communication module 150 may be disposed in the processor 110. In some embodiments, at least some of the functional modules of the mobile communication module 150 may be disposed in the same device as at least some of the modules of the processor 110.

The modem processor may include a modulator and a demodulator. In some embodiments, the modem processor may be a stand-alone device. In other embodiments, the modem processor may be provided in the same device as the mobile communication module 150 or other functional modules, independent of the processor 110.

The wireless communication module 160 may provide solutions for wireless communication applied to electronic devices, including Wireless Local Area Networks (WLANs) (such as wireless fidelity (Wi-Fi) networks), bluetooth (BT), global Navigation Satellite Systems (GNSS), frequency Modulation (FM), near Field Communication (NFC), infrared (IR), and the like. The wireless communication module 160 may be one or more devices integrating at least one communication processing module. The wireless communication module 160 receives electromagnetic waves via the antenna 2, performs frequency modulation and filtering processing on electromagnetic wave signals, and transmits the processed signals to the processor 110. The wireless communication module 160 may also receive a signal to be transmitted from the processor 110, perform frequency modulation and amplification on the signal, and convert the signal into electromagnetic waves through the antenna 2 to radiate the electromagnetic waves.

In some embodiments, antenna 1 of the electronic device is coupled to mobile communication module 150 and antenna 2 is coupled to wireless communication module 160 so that the electronic device can communicate with networks and other devices through wireless communication techniques. The wireless communication technology may include global system for mobile communications (GSM), general Packet Radio Service (GPRS), code division multiple access (code division multiple access, CDMA), wideband Code Division Multiple Access (WCDMA), time-division code division multiple access (time-division code division multiple access, TD-SCDMA), long Term Evolution (LTE), BT, GNSS, WLAN, NFC, FM, and/or IR technologies, etc. The GNSS may include a Global Positioning System (GPS), a global navigation satellite system (GLONASS), a beidou satellite navigation system (BDS), a quasi-zenith satellite system (QZSS), and/or a Satellite Based Augmentation System (SBAS). For example, in the embodiment of the present application, the electronic device may utilize the wireless communication module 160 to establish a bluetooth connection with a peripheral device through a wireless communication technology, such as Bluetooth (BT). Based on the established bluetooth connection, the electronic device may send voice data to the peripheral device and may also receive voice data from the peripheral device.

The electronic device implements the display function through the GPU, the display screen 194, and the application processor, etc. The GPU is a microprocessor for image processing, and is connected to the display screen 194 and an application processor. The processor 110 may include one or more GPUs that execute program instructions to generate or alter display information.

The display screen 194 is used to display images, video, and the like. The display screen 194 includes a display panel. The display panel may adopt a Liquid Crystal Display (LCD), an organic light-emitting diode (OLED), an active-matrix organic light-emitting diode (active-matrix organic light-emitting diode, AMOLED), a flexible light-emitting diode (FLED), a miniature, a Micro-oeld, a quantum dot light-emitting diode (QLED), and the like. In some embodiments, the electronic device may include 1 or N display screens 194, N being a positive integer greater than 1.

The electronic device may implement a shooting function through the ISP, the camera 193, the video codec, the GPU, the display screen 194, the application processor, and the like.

The ISP is used to process the data fed back by the camera 193. In some embodiments, the ISP may be provided in camera 193. The camera 193 is used to capture still images or video. In some embodiments, the electronic device may include 1 or N cameras 193, N being a positive integer greater than 1. Video codecs are used to compress or decompress digital video. The electronic device may support one or more video codecs.

The external memory interface 120 may be used to connect an external memory card, such as a Micro SD card, to extend the storage capability of the electronic device. The external memory card communicates with the processor 110 through the external memory interface 120 to implement a data storage function. For example, files such as music, video, etc. are saved in an external memory card.

The internal memory 121 may be used to store computer-executable program code, which includes instructions. The processor 110 executes various functional applications of the electronic device and data processing by executing instructions stored in the internal memory 121. For example, in the embodiment of the present application, the processor 110 may perform functions such as establishing a bluetooth connection with a peripheral device through the wireless communication module 160 and performing short-range data interaction with the peripheral device by executing instructions stored in the internal memory 121, so as to implement a call through the peripheral device. The internal memory 121 may include a program storage area and a data storage area. The storage program area may store an operating system, an application program (such as a sound playing function, an image playing function, etc.) required by at least one function, and the like. The data storage area can store data (such as audio data, phone book and the like) created in the using process of the electronic device. In addition, the internal memory 121 may include a high-speed random access memory, and may further include a nonvolatile memory, such as at least one magnetic disk storage device, a flash memory device, a universal flash memory (UFS), and the like. In the embodiment of the present application, after the electronic device and the peripheral device establish a bluetooth connection using a wireless communication technology, such as bluetooth, the electronic device may store a bluetooth address of the peripheral device in the internal memory 121. In some embodiments, when the peripheral device is a two-body device, such as a TWS headset, the left and right earpieces of the TWS headset have respective bluetooth addresses, and when the left and right earpieces of the TWS headset establish a bluetooth connection with the electronic device as a pair of binaural headphones, the electronic device may store the bluetooth address associations of the left and right earpieces of the TWS headset in the internal memory 121.

The electronic device may implement audio functions via the audio module 170, the speaker 170A, the receiver 170B, the microphone 170C, the headphone interface 170D, and the application processor. Such as a conversation, music playing, recording, etc.

The audio module 170 is used to convert digital audio information into analog audio signals for output, and also used to convert analog audio inputs into digital audio signals. The audio module 170 may also be used to encode and decode audio signals. In some embodiments, the audio module 170 may be disposed in the processor 110, or some functional modules of the audio module 170 may be disposed in the processor 110.

The speaker 170A, also called a "horn", is used to convert the audio electrical signal into an acoustic signal. The electronic apparatus can listen to music through the speaker 170A or listen to a handsfree call.

The receiver 170B, also called "earpiece", is used to convert the electrical audio signal into an acoustic signal. When the electronic device answers a call or voice information, it can answer the voice by placing the receiver 170B close to the ear of the person.

The microphone 170C, also referred to as a "microphone," is used to convert sound signals into electrical signals. When making a call or sending voice information, the user can input a voice signal to the microphone 170C by uttering a voice signal close to the microphone 170C through the mouth of the user. The electronic device may be provided with at least one microphone 170C. In other embodiments, the electronic device may be provided with two microphones 170C to achieve a noise reduction function in addition to collecting sound signals. In other embodiments, the electronic device may further include three, four or more microphones 170C to collect sound signals, reduce noise, identify sound sources, and implement directional recording functions.

In an embodiment of the application, when the electronic device establishes a bluetooth connection with a peripheral device, such as a TWS headset, the TWS headset may be used as an audio input/output device of the electronic device. For example, the audio module 170 may receive an audio electrical signal transmitted by the wireless communication module 160, and implement functions such as answering a call through a TWS headset. For example, during a call made by a user, a TWS headset (e.g., the left and right earpieces of the TWS headset or one of the left and right earpieces) may capture a sound signal of the user, convert the sound signal into an audio electrical signal, and send the audio electrical signal to the wireless communication module 160 of the electronic device. The wireless communication module 160 transmits the audio electrical signal to the audio module 170. The audio module 170 may convert the received audio electrical signal into a digital audio signal, encode the digital audio signal, and transmit the encoded digital audio signal to the mobile communication module 150. And is transmitted to the opposite-end call device by the mobile communication module 150 to implement a call.

The earphone interface 170D is used to connect a wired earphone. The headset interface 170D may be the USB interface 130, or may be a 3.5mm open mobile electronic device platform (OMTP) standard interface, a cellular telecommunications industry association (cellular telecommunications industry association) standard interface of the USA.

The pressure sensor 180A is used for sensing a pressure signal, and can convert the pressure signal into an electrical signal. In some embodiments, the pressure sensor 180A may be disposed on the display screen 194. The pressure sensor 180A can be of a wide variety, such as a resistive pressure sensor, an inductive pressure sensor, a capacitive pressure sensor, and the like. When a force acts on the pressure sensor 180A, the capacitance between the electrodes changes. The electronics determine the strength of the pressure from the change in capacitance. When a touch operation is applied to the display screen 194, the electronic device detects the intensity of the touch operation according to the pressure sensor 180A. The electronic device may also calculate the position of the touch from the detection signal of the pressure sensor 180A. In some embodiments, the touch operations that are applied to the same touch position but different touch operation intensities may correspond to different operation instructions. For example: and when the touch operation with the touch operation intensity smaller than the first pressure threshold value acts on the short message application icon, executing an instruction for viewing the short message. And when the touch operation with the touch operation intensity larger than or equal to the first pressure threshold value acts on the short message application icon, executing an instruction of newly building the short message.

The gyro sensor 180B may be used to determine the motion pose of the electronic device. The gyroscope sensor 180B may also be used for navigation, somatosensory gaming scenes. The air pressure sensor 180C is used to measure air pressure. The magnetic sensor 180D includes a hall sensor. The acceleration sensor 180E can detect the magnitude of acceleration of the electronic device in various directions (typically three axes). A distance sensor 180F for measuring a distance. The electronic device can detect that the electronic device is held by a user and close to the ear for conversation by utilizing the proximity light sensor 180G, so that the screen is automatically extinguished, and the purpose of saving power is achieved. The proximity light sensor 180G can also be used in a holster mode, a pocket mode automatically unlocks and locks the screen. The ambient light sensor 180L is used to sense the ambient light level. The ambient light sensor 180L may also be used to automatically adjust the white balance when taking a picture. The ambient light sensor 180L may also cooperate with the proximity light sensor 180G to detect whether the electronic device is in a pocket to prevent accidental touches. The fingerprint sensor 180H is used to collect a fingerprint. The electronic equipment can utilize the collected fingerprint characteristics to realize fingerprint unlocking, access to an application lock, fingerprint photographing, fingerprint incoming call answering and the like. The temperature sensor 180J is used to detect temperature. The touch sensor 180K is also referred to as a "touch panel". The touch sensor 180K may be disposed on the display screen 194, and the touch sensor 180K and the display screen 194 form a touch screen, which is also called a "touch screen". The touch sensor 180K is used to detect a touch operation applied thereto or nearby. The touch sensor can communicate the detected touch operation to the application processor to determine the touch event type. Visual output associated with the touch operation may be provided via the display screen 194. In other embodiments, the touch sensor 180K may be disposed on the surface of the electronic device at a different position than the display screen 194. The bone conduction sensor 180M may acquire a vibration signal. The bone conduction sensor 180M may also contact the human pulse to receive the blood pressure pulsation signal. The application processor can analyze heart rate information based on the blood pressure beating signal acquired by the bone conduction sensor 180M, so that the heart rate detection function is realized.

The keys 190 include a power-on key, a volume key, and the like. The keys 190 may be mechanical keys. Or may be touch keys. The electronic device may receive a key input, and generate a key signal input related to user settings and function control of the electronic device. The motor 191 may generate a vibration cue. The motor 191 may be used for incoming call vibration cues, as well as for touch vibration feedback. Indicator 192 may be an indicator light that may be used to indicate a state of charge, a change in charge, or a message, missed call, notification, etc.

The SIM card interface 195 is used to connect a SIM card. The SIM card can be attached to and detached from the electronic device by being inserted into the SIM card interface 195 or being pulled out of the SIM card interface 195. The electronic equipment can support 1 or N SIM card interfaces, and N is a positive integer greater than 1. The SIM card interface 195 may support a Nano SIM card, a Micro SIM card, a SIM card, etc. The same SIM card interface 195 can be inserted with multiple cards at the same time. The types of the plurality of cards may be the same or different. The SIM card interface 195 is also compatible with different types of SIM cards. The SIM card interface 195 may also be compatible with external memory cards. The electronic equipment realizes functions of conversation, data communication and the like through the interaction of the SIM card and the network. In some embodiments, the electronic device employs esims, namely: an embedded SIM card. The eSIM card can be embedded in the electronic device and cannot be separated from the electronic device.

For example, in the following embodiments, the first electronic device and the second electronic device are mobile phones (for example, referring to fig. 6, fig. 10, or fig. 11, the first electronic device and the second electronic device may be a mobile phone 1 and a mobile phone 2, respectively), the peripheral device is a TWS headset, and the TWS headset includes a left earpiece and a right earpiece.

Wherein, the mobile phone 1 can communicate with the mobile phone 2. The left and right earplugs of the TWS headset may be used as a pair of binaural headphones to establish a bluetooth connection with the handset 1. Based on the established bluetooth connection, the mobile phone 1 and the TWS headset may transmit voice data during a call to implement a call function through the TWS headset.

When the TWS headset is used as a pair of binaural headphones, there are three connection modes of bluetooth connection between the TWS headset and the mobile phone 1, which are respectively called as: a forwarding mode, a monitoring mode and a dual-transmission mode. In the repeating mode and the listening mode, one of the left and right earplugs may serve as a primary earpiece of the TWS headset, and the other earpiece may serve as a secondary earpiece of the TWS headset. For example, the left ear plug serves as a primary ear plug of the TWS headset and the right ear plug serves as a secondary ear plug of the TWS headset. As another example, the right earplug serves as a primary earplug for the TWS headset and the left earplug serves as a secondary earplug for the TWS headset. Also, the primary and secondary roles of the left and right earplugs of the TWS headset may be interchanged.

Wherein, in the forwarding mode, the main earplug of the TWS headset establishes a bluetooth connection with the handset 1. Based on this bluetooth connection, voice data transmission can be performed between the main earpiece and the handset 1. The main earplug and the auxiliary earplug establish a Bluetooth connection. Based on this bluetooth connection, the main earpiece may forward the voice data transmitted by the handset 1 to the secondary earpiece.

In the listening mode, the main earpiece of the TWS headset establishes a bluetooth connection with the handset 1. Based on this bluetooth connection, voice data transmission can be performed between the main earpiece and the handset 1. The secondary earpiece acquires voice data by listening to the link between the primary earpiece and the handset 1.

In the dual mode, the left and right earplugs of the TWS headset establish a bluetooth connection with the mobile phone 1, respectively. Based on the bluetooth connections established respectively, the left earplug and the right earplug can transmit voice data with the mobile phone 1.

For convenience of understanding, the method for performing a call by using a bluetooth headset according to the embodiment of the present application is described in detail below with reference to the accompanying drawings and different connection manners of the bluetooth connection between the TWS headset and the mobile phone 1.

As shown in fig. 6, in the present embodiment, a connection mode of a bluetooth connection between a TWS headset and a mobile phone 1 is a forwarding mode, a user of the mobile phone 1 is referred to as a user 1, and a user of the mobile phone 2 is referred to as a user 2.

The left and right earplugs of the TWS headset establish a control link 1.

When the user 1 wishes to use the TWS headset for a call, the lid of the headset case of the TWS headset may be opened. The left earplug and the right earplug of the TWS earphone are automatically started or started after a function key is pressed. If the Bluetooth pairing is not completed before the left earplug and the right earplug, the left earplug and the right earplug can be automatically subjected to Bluetooth pairing, or the left earplug and the right earplug are subjected to Bluetooth pairing after the pairing function key is pressed down. If the bluetooth pairing has been completed before the left and right earplugs, the bluetooth pairing process may be omitted. After bluetooth pairing is completed, a control link 1 can be established between the left and right earplugs using bluetooth. Here, the control link 1 may be a first control link in this application.

Of the left and right earplugs of the TWS headset, the earpiece that is the primary earpiece (e.g., the right earpiece) establishes a control link 2 with the handset 1.

Wherein, any one of the left and right earplugs of the TWS earphone can be used as a main earplug. In some embodiments, the first one of the left and right earplugs to be taken out of the earphone case may be a main earplug, and the other one may be a sub earplug. Alternatively, the left and right earplugs include mating function keys, and the earplug whose mating function key is pressed first may serve as the primary earplug and the other earplug may serve as the secondary earplug. Alternatively, one of the left and right earplugs that is first worn over the ears may serve as the primary earplug, and the other earplug may serve as the secondary earplug. Or, which of the left and right earplugs is the main earplug and which of the left and right earplugs is the auxiliary earplug are predefined, for example, when the TWS headset leaves a factory, one of the left and right earplugs is configured as the main earplug, and the other one is configured as the auxiliary earplug. Wherein, the main earplug can be a first earplug in the application, and the auxiliary earplug can be a second earplug in the application.

Take the example of determining the primary and secondary earplugs according to the sequence of being worn on the ears. Illustratively, the right ear plug of the TWS headset is first worn by the user 1 onto the ear. For example, a proximity light sensor is included in the right earplug. When the right ear plug is worn on the ear, the right ear plug may detect an object near the right ear plug using the proximity light sensor, thereby determining that the right ear plug is worn by the user. Upon determining to be worn, the right earbud may transmit the paired broadcast out as the main earbud pair of the TWS headset. If the handset 1 has bluetooth enabled, the handset 1 may receive the pairing broadcast and prompt the user that the associated bluetooth device (e.g., TWS headset) has been scanned. When the TWS headset is selected as a connected device on the handset 1, the handset 1 may be bluetooth paired with a right earpiece as the primary earpiece. After the bluetooth pairing is completed, the handset 1 can establish a control link 2 with the right earplug as the main earplug using bluetooth. Of course, if the right earpieces of the handset 1 and the TWS headset have previously completed bluetooth pairing, the bluetooth pairing process may be omitted. That is, the handset 1, upon receiving the pairing broadcast, may automatically establish the control link 2 with the right earpiece, which is the master earpiece, using bluetooth. Wherein, the control link 2 may be a second control link in the present application.

In the embodiment of the present application, the control link 1 established between the left and right earpieces of the TWS headset and the control link 2 established between the right earpiece serving as the main earpiece and the handset 1 are used for transmitting control data (such as answering a call, hanging up a call, etc.). For realizing the transmission of voice data in the communication process, bluetooth is also needed to be adopted between the left and right earplugs of the TWS headset, and between the right earpiece serving as the main earpiece and the mobile phone 1 to establish voice links. In some embodiments, the voice link between the left and right earpieces (e.g., referred to as voice link 1, and voice link 1 may be the first voice link in this application) may be established after the primary and secondary earpieces acknowledge, or may be established when voice service (e.g., receiving an incoming call, receiving an operation to answer a call, or receiving an operation to make a call) is available. The voice link between the right earplug serving as the main earplug and the mobile phone 1 (for example, referred to as the voice link 2, the voice link 2 may be a second voice link in this application) may be established after the bluetooth pairing between the mobile phone 1 and the right earplug serving as the main earplug is completed, or may be established when there is voice service.

In some embodiments, the earpiece of the left and right earpieces of the TWS headset as the primary earpiece may also open the microphone of that earpiece for collection of sound signals. For example, the right earplug may also turn on the microphone of the right earplug after the right earplug is determined to be worn. The right earpiece acts as the primary earpiece of the TWS headset, while the left earpiece acts as the secondary earpiece of the TWS headset.

In addition, when the TWS headset is used as a pair of binaural headsets to realize a call, the left and right earpieces of the TWS headset are usually used by one user (such as the user 1), that is, only one user's voice signal needs to be collected. Therefore, only the microphone of the left and right earplugs of the TWS headset is opened as the earpiece of the main earpiece, and the microphone of the earpiece is not opened as the earpiece of the sub earpiece. For example, the microphone of the right ear plug as the main ear plug is opened, and the microphone of the left ear plug as the sub ear plug is not opened. In some embodiments, the right earplug, which is the primary earplug of the TWS headset, may be informed of the left earplug, which is the secondary earplug, via the control link 1 described above. In this way, the left earpiece does not open the microphone of the left earpiece, even if the left earpiece is worn over the ear.

When a conference call for a plurality of people is desired, for example, when a user 3 wants to access a call through the mobile phone 1, one of the left and right earpieces of the TWS headset can be shared with the user 3 for use. That is, the user 1 and the user 3 can talk using the left and right earpieces in the TWS headset, respectively. In the process of a teleconference among multiple persons, the requirement of collecting the voice signal of the user 1 and the requirement of collecting the voice signal of the user 3 exist. Therefore, not only the microphone of the earpiece of the TWS headset as the main earpiece needs to be turned on, but also the microphone of the earpiece as the sub earpiece needs to be turned on. In the embodiment of the present application, the user may open the microphone of the earpiece serving as the secondary earpiece by performing the first operation, thereby achieving that the microphones of both the left and right earpieces of the TWS headset are in an on state.

For example, if the left ear plug as the secondary ear plug is not worn, the user 1 will typically share the left ear plug for use by the user 3. After the user performs the first operation, the left earpiece serving as the secondary earpiece may open the microphone of the left earpiece to achieve that the microphones of the left and right earpieces of the TWS headset are both in an on state.

For another example, if the left ear plug as the secondary ear plug is worn by the user 1, the user 1 may share the right or left ear plug of the TWS headset with the user 3.

If the user 1 wants to share the left earplug as the secondary earplug with the user 3 for use, after the user performs the first operation, the left earplug as the secondary earplug can open the microphone of the left earplug, so that the microphones of the left and right earplugs of the TWS headset are both in an open state.

If the user 1 wants to share the right earplug serving as the main earplug with the user 3, the user first takes the right earplug off the ear and then performs the first operation, then, when the user 1 takes the right earplug off the ear, the right earplug can detect that the right earplug is changed from being worn to being unworn, and at this time, the left earplug and the right earplug can exchange roles. After the primary and secondary roles are exchanged, the left earplug is used as a primary earplug of the TWS earphone, and the right earplug is used as a secondary earplug of the TWS earphone. And, the right earplug as the sub earplug needs to turn off the microphone of the right earplug, and the left earplug as the main earplug needs to turn on the microphone of the left earplug. Then, after the user performs the first operation, the right earplug as the sub-earplug may open the microphone of the right earplug to achieve that the microphones of both the left and right earpieces of the TWS headset are in an on state.

If the user 1 wants to share the right earplug serving as the main earplug with the user 3 for use, the user performs the first operation first and then takes the right earplug off the ear, then after the user performs the first operation, the left earplug serving as the auxiliary earplug can open the microphone of the left earplug, so that the microphones of the left and right earplugs of the TWS headset are both in an open state. Then, when the user 1 takes the right earplug off the ear, the right earplug can detect that the right earplug is changed from being worn to not being worn, and at this time, the left and right earplugs can perform a primary-secondary role exchange. After the primary and secondary roles are exchanged, the left earplug is used as a primary earplug of the TWS earphone, and the right earplug is used as a secondary earplug of the TWS earphone. In some embodiments, the left and right earplugs may not be swapped for primary and secondary roles when the user 1 removes the right earpiece from the ear.

In some embodiments, when the right earplug, which is the master earplug, detects that the right earplug changes from being worn to not being worn, the specific process of the role exchange of the left and right earplugs may be: the right earplug, which is currently the primary earplug, transmits status information to the left earplug. The status information may include a bluetooth address (e.g., MAC address) of the TWS headset. This status information may be used to instruct the left earpiece to use the bluetooth address of the TWS headset instead of the right earpiece as the master earpiece and instead of the bluetooth connection (i.e. control link 2) between the right earpiece and the handset 1.

In addition, in the embodiment of the present application, if only the microphone of the earpiece, which is the main earpiece, of the left and right earpieces of the TWS headset is turned on, there is only a need for the main earpiece to transmit voice data to the sub-earpiece during a call. Thus, the voice link 1 described above may be a unidirectional voice link from the main ear plug to the secondary ear plug. However, if the microphones of the left and right earpieces of the TWS headset are both turned on, there is a need for the main earpiece to send voice data to the auxiliary earpiece, and also for the auxiliary earpiece to send voice data to the main earpiece during the communication. Thus, the above-mentioned voice link 1 may be a bi-directional voice link from the main earpiece to the secondary earpiece and vice-earbud to the main earpiece. In some embodiments, the bluetooth for establishing the voice link 1 between the left and right earpieces may specifically be: after the master earplug and the auxiliary earplug confirm or voice service exists or after Bluetooth pairing is completed, a bidirectional voice link is established by adopting Bluetooth. In some embodiments, the bi-directional voice link may be a synchronous connection-oriented/extended synchronous connection-SCO (SCO/eSCO) voice link of Bluetooth, and the voice link is configured as a bi-directional link. Or, after the confirmation of the main and auxiliary earplugs or when there is voice service between the left and right earplugs, a unidirectional voice link from the main earplug to the auxiliary earplug is established by using bluetooth (for example, the unidirectional voice link may be an SCO/eSCO voice link of bluetooth, and the voice link is configured as a unidirectional link), and then, after receiving the first operation of the user, a unidirectional voice link from the auxiliary earplug to the main earplug is established by using bluetooth (for example, the unidirectional voice link may be a link established by using a Serial Port Profile (SPP) of bluetooth), so that a bidirectional voice link between the left and right earplugs is established. Or, after the confirmation of the main and auxiliary earplugs or when there is voice service between the left and right earplugs, a unidirectional voice link from the main earplug to the auxiliary earplug is established by using bluetooth (for example, the unidirectional voice link may be an SCO/eSCO voice link of bluetooth, and the voice link is configured as a unidirectional link), and then, after receiving the first operation of the user, the previously established unidirectional voice link is removed, and then the bluetooth is used to establish a bidirectional voice link from the main earplug to the auxiliary earplug and from the auxiliary earplug to the main earplug (for example, the bidirectional voice link is an SCO/eSCO voice link of bluetooth, and the voice link is configured as a bidirectional link). It should be noted that, in the embodiment of the present application, the establishment process of the SCO/eSCO voice link may refer to the description of the corresponding content in the bluetooth standard protocol, and details are not described here again. As for the voice link 2, no matter the TWS headset opens the microphone of only one of the earpieces, or the microphones of both earpieces are open, during the call, there are both a requirement that the main earpiece transmits voice data to the mobile phone 1, and a requirement that the mobile phone 1 transmits voice data to the main earpiece, so the voice link 2 is a bidirectional voice link. That is, the handset 1 can send voice data to the main earpiece through the voice link 2, and the main earpiece can also send voice data to the handset 1 through the voice link 2.

In the embodiment of the present application, the implementation manner of the first operation may be various.

The first method is as follows: function keys, which are called conference mode function keys or other names, are configured on the earplugs or the earphone boxes of the TWS earphone, which is not limited in the embodiment of the present invention. The function keys are newly added keys on the earplug or the earphone box, or existing keys on the multiplexing earplug or the earphone box. The first operation is to trigger the function key, for example, pressing, or dialing, or touching, or knocking the function key. In the following, a conference mode function key is taken as an example, in this way, after the function key is triggered, the specific implementation that the auxiliary earplug opens the microphone of the auxiliary earplug can be as follows: for example, the conference mode function key is arranged on the earphone box of the TWS earphone, and the earphone box stores the main character and the auxiliary character information of the left and right earplugs. When the conference mode function key is activated, the earphone box of the TWS headset may send an indication to the main earpiece instructing the auxiliary earpiece to turn on the microphone of the auxiliary earpiece. The master earpiece may send this indication to the secondary earpiece via the control link 1 described above. Alternatively, the earphone box may also send the indication to the sub-earplug. The secondary earplug may turn on the microphone of the secondary earplug in accordance with the received indication. It should be noted that the earphone box may send the indication to the main or auxiliary earphone via a wireless connection (e.g., bluetooth connection) with the main or auxiliary earphone. The earphone box may also send the indication to the auxiliary earplug via a wired connection with the auxiliary earplug when the auxiliary earplug is not removed from the earphone box. Also for example, a conference mode function key is arranged on an ear plug of the TWS headset. The secondary earpiece may turn on the microphone of the secondary earpiece when the conference mode function key of the secondary earpiece (where the conference mode function key of the secondary earpiece may be the first function key in this application) is triggered. Alternatively, when the conference mode function key of the main earpiece (wherein the conference mode function key of the main earpiece may be the second function key in this application) is triggered, the main earpiece may send an indication to the secondary earpiece via the above-mentioned control link 1. The secondary earpiece may turn on the microphone of the secondary earpiece in accordance with the received indication.

The second method comprises the following steps: the mobile phone 1 is configured with a function key of hardware, and the function key is called a conference mode function key or other name, which is not limited in the embodiment of the present invention. The function key of the hardware may be a third function key in the present application. The function key is a newly added key of the mobile phone 1, or an existing key (such as a volume key or a power key) on the mobile phone 1 is multiplexed. The first operation is to trigger the function key, for example, pressing, or shifting, or touching, or knocking the function key. In the following, a conference mode function key is taken as an example, in this way, after the function key is triggered, the specific implementation that the auxiliary earplug opens the microphone of the auxiliary earplug can be as follows: for example, when the conference mode function key is activated, the handset 1 may send an indication to the primary earpiece of the TWS headset over the control link 2 described above, the indication instructing the secondary earpiece to turn on the microphone of the secondary earpiece. The master ear-piece may send this indication to the secondary ear-piece via the control link 1 described above. The secondary earplug may turn on the microphone of the secondary earplug in accordance with the received indication.

The third method comprises the following steps: the mobile phone 1 may display a function control in the interface, where the function control is called a conference mode control, a multi-person mode control, or another name, and this is not limited in the embodiment of the present invention. The first operation is to trigger the function control, for example, clicking, double clicking, or pressing again. The following description will be made by taking a conference mode control as an example, and the conference mode control may be included in a notification bar of the mobile phone 1. The conference mode control may also be included in a call interface, an answering interface, or a setting interface displayed by the mobile phone 1. For example, the mobile phone 1 is a calling device, and the mobile phone 2 is a called device. The handset 1 can receive an operation of making a call. As shown in fig. 7, in response to the operation of making a call, the handset 1 may display a call interface 701, and a conference mode control 702 is included in the call interface 701. When the handset 1 receives a user trigger to the conference mode control 702, the handset 1 may turn on the microphone of the secondary earpiece in response to the trigger. In response to the operation of making a call, the handset 1 may also transmit a call request message to the handset 2. When the user of the mobile phone 2 selects to answer the incoming call, the mobile phone 1 and the mobile phone 2 can communicate. For another example, as shown in fig. 8, during the call, the mobile phone 1 may display a call interface 801, where the call interface 801 includes a conference mode control 802. When the handset 1 receives a user trigger to the conference mode control 802, the handset 1 may turn on the microphone of the secondary earpiece in response to the trigger. For another example, the mobile phone 1 is a called device, and the mobile phone 2 is a calling device. When the mobile phone 1 receives the call request message from the mobile phone 2, as shown in fig. 9, the mobile phone 1 may display an answer interface 901, where the answer interface 901 includes a conference mode control 902. When the handset 1 receives a user trigger to the conference mode control 902, the handset 1 may turn on the microphone of the secondary earpiece in response to the trigger. An answer button 903 may also be included in the answer interface 901. The mobile phone 1 can also receive the click operation of the answer button 903 from the user, and in response to the click operation, the mobile phone 1 can communicate with the mobile phone 2. In this way, the specific implementation of the handset 1 opening the microphone of the secondary earpiece may be: for example, when the conference mode control (conference mode control 702, conference mode control 802, conference mode control 902, as described above) is triggered, the handset 1 may send an indication to the primary earpiece of the TWS headset over the control link 2, as described above, instructing the secondary earpiece to turn on the microphone of the secondary earpiece. The master earpiece may send this indication to the secondary earpiece via the control link 1 described above. The secondary earplug may turn on the microphone of the secondary earplug in accordance with the received indication.

Under the condition that the microphones of the left and right earplugs of the TWS earphone are both in an open state, the user 1 uses one earplug (such as the right earplug) of the TWS earphone, the user 3 uses the other earplug (such as the left earplug) of the TWS earphone and the user 2 using the mobile phone 2, the three earplugs can communicate, and therefore the three-person teleconference can be achieved. In conjunction with fig. 6, the right earplug is taken as the main earplug of the TWS earphone, and the left earplug is taken as the auxiliary earplug of the TWS earphone.

In some embodiments, the handset 2 may capture the voice signal of the user 2 during the speech of the user 2. The mobile phone 2 converts the collected sound signal into voice data, such as voice data 2, and then sends the voice data to the mobile phone 1. The voice data 2 may be the second voice data in the present application.

After receiving the voice data 2 from the handset 2, the handset 1 may send the voice data 2 to the right earpiece, which is the primary earpiece of the TWS headset, via the voice link 2.

The left ear plug as the sub ear plug can collect a sound signal by the microphone of the left ear plug and convert it into voice data, such as called voice data 3. The left earpiece may transmit this voice data 3 to the right earpiece over the voice link 1 described above. It should be noted that if the user 3 has speech, the speech data 3 may be speech data obtained by processing a sound signal for the user 3. If the user 3 is not speaking, the speech data 3 may be silent data. The voice data 3 may be the third voice data in the present application.

The right earpiece can perform superposition processing (or called mixing processing) on the voice data 2 and the voice data 3 to realize mixing effect. For example, the voice data subjected to the superimposition is referred to as voice data 2-3. The right earpiece may play the voice data 2-3 through a receiver (i.e., earpiece) of the right earpiece.

The right ear plug may also collect a sound signal via the microphone of the right ear plug and convert it to voice data, such as referred to as voice data 1. If the user 1 has a speech, the speech data 1 may be speech data obtained by sound signal processing for the user 1. If the user 1 does not speak, the voice data 1 may be mute data. The voice data 1 may be the first voice data in the present application.

The right earplug can superpose the voice data 1 and the received voice data 2 to realize the sound mixing effect. For example, the superimposed voice data is referred to as voice data 1-2. The right earpiece may send this voice data 1-2 to the left earpiece over the voice link 1 described above. After the left earplug receives the voice data 1-2, the voice data 1-2 can be played through a receiver of the left earplug.

In addition, the right earplug can also perform superposition processing on the voice data 1 and the voice data 3 to realize a sound mixing effect. For example, the superimposed voice data is referred to as voice data 1 to 3. The right earpiece may send the voice data 1-3 to the handset 1 over the voice link 2 as described above. After receiving the voice data 1-3, the mobile phone 1 can send the voice data 1-3 to the mobile phone 2, so that the mobile phone 2 can play the voice data 1-3.

It can be seen that the right earplug, which is the primary earplug of the TWS headset, requires an overlay (or mixing) process for multi-path voice data. For example, the right earplug needs to perform superposition processing on the voice data 2 from the mobile phone 1 and the voice data 3 from the left earplug, perform superposition processing on the voice data 1 collected by the right earplug and the voice data 2 from the mobile phone 1, and perform superposition processing on the voice data 1 collected by the right earplug and the voice data 3 from the left earplug. In the embodiment of the application, a mixer can be added in the right earplug which is the main earplug of the TWS earphone for performing the superposition processing on the multi-path voice data. Of course, since any one of the left and right earpieces of the TWS headset may possibly serve as the main earpiece, a mixer may be added to both the left and right earpieces of the TWS headset. Alternatively, the superposition processing of multiple voice data may be implemented by a processor included in the ear piece of the TWS headset using a software algorithm.

In other embodiments, if the user 1 and the user 3 are relatively close to each other and can hear the voice of the other party, the right earplug serving as the main earplug may not perform the above-mentioned overlapping process of the voice data 2 and the voice data 3, but may play the voice data 2 from the mobile phone 1 through the receiver of the right earplug. The right earplug does not need to perform the superposition processing of the voice data 1 and the voice data 2, but only needs to send the voice data 2 to the left earplug for playing.

Therefore, the microphones of the left and right earplugs of the TWS earphone connected with one mobile phone are both opened and shared by two users, so that more than two persons can be conveniently communicated, namely, a multi-person teleconference can be realized. Moreover, the possibility that the environmental noise interferes with the call effect can be reduced.

As shown in fig. 10, in this embodiment, a connection mode of a bluetooth connection between a TWS headset and a mobile phone 1 is a listening mode, and a user of the mobile phone 1 is referred to as a user 1, and a user of the mobile phone 2 is referred to as a user 2.

The left and right earplugs of the TWS headset establish a control link 1. Of the left and right earplugs of the TWS headset, the earpiece that is the primary earpiece (e.g., the right earpiece) establishes a control link 2 with the handset 1. Here, the control link 1 may be a first control link in this application. Control link 2 may be the second control link in this application. The primary earplug may be the first earplug and the secondary earplug may be the second earplug.

In this embodiment, for specific descriptions of establishing the control link 1 between the left and right earplugs and establishing the control link 2 between the earpiece serving as the main earpiece and the mobile phone 1, reference may be made to the specific descriptions of corresponding contents in the embodiment shown in fig. 6, which are not described in detail herein again.

For the voice link for transmitting voice data during a call, see, for example, voice link 1 and voice link 2 shown in fig. 10. The specific description of the voice link 2 may refer to the specific description of the corresponding contents in the embodiment shown in fig. 6. Voice link 1 may be the first voice link in this application. Voice link 2 may be the second voice link in this application. The detailed description of the voice link 1 is similar to that of the corresponding content in the embodiment shown in fig. 6, with the difference that:

the difference is that in the forwarding mode, the auxiliary earplug acquires the voice data from the mobile phone 1 through the forwarding of the main earplug. In the monitoring mode, the auxiliary earphone acquires the voice data from the mobile phone 1 by monitoring the voice link (such as the voice link 2) between the main earphone and the mobile phone 1. Therefore, unlike the voice link 1 in the embodiment shown in fig. 6, in the present embodiment, the voice link 1 is used for transmitting the voice data processed by the sound signal collected by the right ear plug and the voice data processed by the sound signal collected by the left ear plug. Wherein, the voice link 1 only has voice data transmission under the condition that the microphones of the left and right earplugs of the TWS earphone are both opened.

In the embodiment, the voice link 1 can be established not only after the primary and secondary earplugs are confirmed, but also when there is voice service, or after the bluetooth pairing of the left and right earplugs is completed, or after the first operation is received.

In the third difference, since the voice link 1 is used for transmitting the voice data obtained by processing the sound signal collected by the right earplug and the voice data obtained by processing the sound signal collected by the left earplug, in the present embodiment, once the voice link 1 is to be established, a bidirectional voice link needs to be established.

In addition, in the present embodiment, after the right earplug as the main earplug establishes the voice link 2 with the mobile phone 1, the right earplug can also send the connection parameters of the voice link 2 to the left earplug as the auxiliary earplug through the control link 1. For example, the connection parameters may include a bluetooth address of the mobile phone 1, codec parameters, clock parameters, encryption parameters negotiated by the mobile phone 1 and the master earpiece, and the like. The left earplug can monitor the voice link 2 between the main earplug and the mobile phone 1 according to the link parameter, so as to obtain the voice data sent by the mobile phone 1.

In some embodiments, the earpiece of the left and right earplugs of the TWS headset as the primary earpiece may also turn on the microphone of that earpiece for collection of the user's (e.g., user 1) sound signals. When a conference call for a plurality of people is desired, for example, when a user 3 wants to access a call through the mobile phone 1, one of the left and right earpieces of the TWS headset can be shared with the user 3 for use. That is, user 1 and user 3 may talk using the left and right earpieces, respectively, in the TWS headset. In the process of a teleconference among multiple persons, the requirement of collecting the voice signal of the user 1 and the requirement of collecting the voice signal of the user 3 exist. Thus, not only the microphone of the earpiece of the TWS headset as the primary earpiece needs to be turned on, but also the microphone of the earpiece as the secondary earpiece. In the embodiment of the present application, the user may open the microphone of the earpiece serving as the secondary earpiece by performing the first operation, thereby achieving that the microphones of both the left and right earpieces of the TWS headset are in an on state.

In this embodiment, for specific descriptions of the microphones of the left and right earpieces of the TWS headset being in the on state and the implementation of the first operation, reference may be made to the specific descriptions of corresponding contents in the embodiment shown in fig. 6, and details of this embodiment are not described herein again.

Under the condition that the microphones of the left and right earplugs of the TWS earphone are both in an open state, the user 1 uses one earplug (such as the right earplug) of the TWS earphone, the user 3 uses the other earplug (such as the left earplug) of the TWS earphone and the user 2 using the mobile phone 2, the three earplugs can communicate, and therefore the three-person teleconference can be achieved. In conjunction with fig. 10, the right earplug is taken as the main earplug of the TWS earphone, and the left earplug is taken as the auxiliary earplug of the TWS earphone.

In some embodiments, the handset 2 may capture the voice signal of the user 2 during the speech of the user 2. The mobile phone 2 converts the collected sound signal into voice data, such as voice data 2, and then sends the voice data to the mobile phone 1.

After receiving the voice data 2 from the handset 2, the handset 1 may send the voice data 2 to the right earpiece, which is the primary earpiece of the TWS headset, via the voice link 2. The voice data 2 may be the second voice data in the present application.

The left ear plug as the sub ear plug can collect a sound signal by the microphone of the left ear plug and convert it into voice data, such as called voice data 3. The left earpiece may send this voice data 3 to the right earpiece over the voice link 1 described above. It should be noted that if the user 3 has speech, the speech data 3 may be speech data obtained by processing a sound signal for the user 3. If the user 3 is not speaking, the speech data 3 may be silent data. The voice data 3 may be third voice data in the present application.

The right earplug can perform superposition processing (or called mixing processing) on the voice data 2 and the voice data 3 to realize mixing effect. For example, the voice data subjected to the superimposition is referred to as voice data 2-3. The right earpiece may play the voice data 2-3 through a receiver (i.e., earpiece) of the right earpiece.

The right ear plug may also collect a sound signal via the microphone of the right ear plug and convert it to voice data, such as referred to as voice data 1. If the user 1 has a speech, the speech data 1 may be speech data obtained by sound signal processing for the user 1. If the user 1 does not speak, the voice data 1 may be silent data. The right earpiece may send this voice data 1 to the left earpiece over the voice link 1 described above. The voice data 1 may be the first voice data in this application.

The left ear plug can also listen to the voice link 2 between the handset 1 and the right ear plug to obtain voice data 2.

The left ear plug can perform superposition processing on the voice data 1 and the voice data 2 to realize the sound mixing effect. The voice data after being superimposed, for example, is referred to as voice data 1-2. The left earpiece can play the voice data 1-2 through the receiver of the left earpiece.

In addition, the right earplug can also perform superposition processing on the voice data 1 and the voice data 3 to realize a sound mixing effect. For example, the superimposed voice data is referred to as voice data 1 to 3. The right earpiece may send the voice data 1-3 to the handset 1 over the voice link 2. After receiving the voice data 1-3, the mobile phone 1 can send the voice data 1-3 to the mobile phone 2, so that the mobile phone 2 can play the voice data 1-3.

It can be seen that the right earplug, which is the main earplug of the TWS headset, and the left earplug, which is the sub-earplug, need to be subjected to an overlap (or mixing) process on multiple voice data. For example, the right earplug needs to perform superposition processing on the voice data 2 from the mobile phone 1 and the voice data 3 from the left earplug, and performs superposition processing on the voice data 1 collected by the right earplug and the voice data 3 from the left earplug. The left ear plug needs to perform an overlay process of the voice data 1 from the right ear plug and the monitored voice data 2. In the embodiment of the present application, a mixer may be added to the left and right earpieces of the TWS headset, or a processor included in the earpieces of the TWS headset may also use a software algorithm to implement the superposition processing of multiple paths of voice data.

In other embodiments, if the user 1 and the user 3 are relatively close to each other and can hear the voice of the other party, the right earplug as the main earplug may not perform the above-mentioned overlapping process of the voice data 2 and the voice data 3, but may play the voice data 2 from the mobile phone 1 through the receiver of the right earplug. The right earplug does not need to transmit the voice data 1 to the left earplug, and the left earplug does not need to perform the superposition processing of the voice data 1 and the voice data 2, but only needs to play and monitor the voice data 2 obtained by the voice link 2. The voice link 1 may not be a bidirectional voice link, but a unidirectional voice link from a left earplug as a secondary earplug to a right earplug as a primary earplug, and is used for transmitting the left earplug and the right earplug to transmit the voice data 3, so that the right earplug performs mixing processing on the voice data 3 and the collected voice data 1 and sends the mixed voice data to the mobile phone 1.

Therefore, the microphones of the left and right earplugs of the TWS earphone connected with one mobile phone are opened and shared by two users for use, so that more than two persons can conveniently talk, namely, a multi-person teleconference can be realized. Moreover, the possibility that the environmental noise interferes with the call effect can be reduced.

As shown in fig. 11, in the present embodiment, the connection mode of the bluetooth connection between the TWS headset and the mobile phone 1 is a dual-mode connection mode, and the user of the mobile phone 1 is referred to as a user 1, and the user of the mobile phone 2 is referred to as a user 2.

The left and right earplugs of the TWS headset establish a control link 1.

In this embodiment, for the specific description of establishing the control link 1 between the left and right earplugs, reference may be made to the specific description of corresponding contents in the embodiment shown in fig. 6, which is not described in detail here. Wherein the left earplug can be a first earplug in the application, and the right earplug can be a second earplug in the application; alternatively, the left earplug may be the second earplug and the right earplug may be the first earplug. Control link 1 may be the first control link in this application.

The left and right earplugs of the TWS headset establish control links with the handset 1, respectively.

For example, as shown in fig. 11, the right ear plug establishes a control link 2 with the handset 1 and the left ear plug establishes a control link 3 with the handset 1. Control link 2 may be the second control link in this application. The control link 3 may be a third control link in the present application. In some embodiments, the specific process for the left and right earplugs of the TWS headset to establish the control link with the handset 1 respectively may be: either of the left and right earpieces of the TWS headset (e.g., the right earpiece) may transmit the paired broadcast out. If the handset 1 has bluetooth enabled, the handset 1 may receive the pairing broadcast and prompt the user that the associated bluetooth device (e.g., TWS headset) has been scanned. When the TWS headset is selected as a connected device on the handset 1, the handset 1 may be bluetooth paired with the right earpiece of the TWS headset. After the right earplug is Bluetooth paired with the mobile phone 1, the right earplug and the mobile phone 1 can establish a control link 2 by adopting Bluetooth. Of course, the bluetooth pairing process may be omitted if the handset 1 has previously completed bluetooth pairing with the right earplug of the TWS headset. That is, the mobile phone 1 can automatically establish the control link 2 with the right earplug using bluetooth after receiving the pairing broadcast. The right earpiece may send the bluetooth address of the handset 1 to the left earpiece so that the left earpiece establishes a control link with the handset 1. For example, the right earplug may transmit the bluetooth address of the handset 1 to the left earplug via the control link 1 and inform the left earplug to transmit the paired broadcast to the outside. In this way, the handset 1 can receive the pairing broadcast sent by the left earpiece and perform bluetooth pairing with the left earpiece. After the left earplug and the mobile phone 1 are bluetooth paired, the left earplug and the mobile phone 1 can establish a control link 3 by using bluetooth. Of course, if the handset 1 and the left earpiece of the TWS headset have previously completed bluetooth pairing, the bluetooth pairing process may be omitted. That is, the mobile phone 1 can automatically establish the control link 3 with the left earphone by bluetooth after receiving the pairing broadcast.

It should be noted that the above procedure for establishing control links between the left and right earplugs of the TWS headset and the handset 1 is only an example. In some embodiments, the mobile phone 1 may also perform bluetooth pairing with the left earpiece of the TWS headset and establish a control link, and then the left earpiece transmits a bluetooth address of the mobile phone to the right earpiece by sending a pairing broadcast to the outside by the left earpiece, so that the right earpiece performs bluetooth pairing with the mobile phone 1 and establishes a control link. In some other embodiments, the left earplug and the right earplug of the TWS headset may respectively send pairing broadcasts to the outside after being powered on, so that the left earplug and the right earplug can respectively perform bluetooth pairing with the mobile phone 1 and respectively establish a control link with the mobile phone 1. In addition, in the embodiment of the application, the triggering condition for the left earplug or the right earplug of the TWS headset to send the paired broadcast to the outside may be that the box cover of the headset box of the TWS headset is opened, or that the bluetooth pairing of the left earplug and the right earplug of the TWS headset is completed, or that the pairing function key is pressed. Wherein, the pairing function key can be arranged on an earphone box of the TWS earphone. For example, the earphone box of the TWS earphone is provided with a pairing function key, when the pairing function key is pressed, the left earphone or the right earphone of the TWS earphone can send the pairing broadcast to the outside. Pairing function keys may also be provided on the left and right earpieces of the TWS headset. For example, a left earpiece and/or a right earpiece of a TWS headset is configured with a pairing function key, when the pairing function key is pressed, the corresponding earpiece transmits a pairing broadcast to the outside.

In some embodiments, since the TWS headset is used as a pair of binaural headphones for conversation, the left and right earpieces of the TWS headset are typically intended for one user (e.g., user 1), i.e., only one user's voice signal needs to be picked up. Thus, the earpiece of either of the left or right earpieces of a TWS headset may also turn on the microphone of that earpiece for the collection of sound signals of a user (e.g., user 1). For example, in some embodiments, the earpiece of the left and right earplugs that was first removed from the headset case may have its microphone turned on, and the microphone of the other earpiece may not be turned on. Or, the earphone which is firstly paired with the mobile phone in the left and right earphones opens the microphone of the earphone, and the microphone of the other earphone can not be opened. Alternatively, the left and right earplugs include mating function keys, and the earpiece whose mating function key is pressed first may have its microphone turned on, and the microphone of the other earpiece may not be turned on. Alternatively, the one of the left and right earplugs that is first worn over the ear may have its microphone turned on, and the microphone of the other earpiece may not be turned on.

Take the example of determining which earplug opens the microphone and which does not open the microphone according to the sequence of pairing with the mobile phone bluetooth. For example, the right earplug is first bluetooth paired with the mobile phone 1, and then the right earplug may open the microphone of the right earplug, and the left earplug may not open the microphone of the left earplug. In some embodiments, the right earplug may inform the left earplug, via control link 1 as described above, that the right earplug has the microphone turned on. In this way, the left earpiece does not open the microphone of the left earpiece, even if the left earpiece is worn over the ear.

When a conference call is desired for a plurality of people, for example, when the user 3 wants to access a call through the mobile phone 1, one of the left and right earpieces of the TWS headset may be shared with the user 3. That is, user 1 and user 3 may talk using the left and right earpieces, respectively, in the TWS headset. In the process of a teleconference among multiple persons, the requirement of collecting the voice signal of the user 1 and the requirement of collecting the voice signal of the user 3 exist. Thus, not only the microphone of one of the earpieces (e.g. the right earpiece) of the TWS headset needs to be turned on, but also the microphone of the other earpiece (e.g. the left earpiece). In the embodiment of the present application, the user can open the microphone of the other earpiece by performing the first operation, so that the microphones of the left and right earpieces of the TWS headset are both in the on state.

For example, in some embodiments, an ear bud with a microphone open may be defined as a primary ear bud, and an ear bud without a microphone open may be defined as a secondary ear bud. Correspondingly, for specific descriptions of the microphones of the left and right earpieces of the TWS headset being in the on state and the implementation of the first operation, reference may be made to the specific descriptions of corresponding contents in the embodiment shown in fig. 6, which is not described in detail herein. In other embodiments, the handset 1 may also record which of the left and right earpieces of the TWS headset has its microphone on and which one has not. After the user performs the first operation, the handset 1 may send an instruction to the earpiece without the microphone open through the control link with the earpiece, so as to instruct the earpiece to open the microphone.

For the voice link for transmitting voice data during a call, see, for example, voice link 1, voice link 2, and voice link 3 shown in fig. 11. Voice link 1 may be the first voice link in this application. Voice link 2 may be the second voice link in this application. The voice link 3 may be a third voice link in the present application. The detailed description of the voice link 2 can refer to the detailed description of the corresponding contents in the embodiment shown in fig. 6. The detailed description of the voice link 1 is similar to that of the corresponding content in the embodiment shown in fig. 6, with the difference that:

the difference is that in the forwarding mode, the auxiliary earplug obtains the voice data from the mobile phone 1 through the forwarding of the main earplug. In the dual mode, the handset 1 can transmit voice data to the left ear plug and the right ear plug, respectively. Therefore, unlike the voice link 1 in the embodiment shown in fig. 6, in this embodiment, the voice link 1 is used to transmit the voice data processed by the sound signal collected by the right ear plug and the voice data processed by the sound signal collected by the left ear plug. Wherein, the voice link 1 only has voice data transmission under the condition that the microphones of the left and right earplugs of the TWS earphone are both opened.

In the embodiment, the voice link 1 may be established when there is voice service, may be established after the bluetooth pairing of the left and right earpieces is completed, and may also be established after the first operation is received.

In the third difference, since the voice link 1 is used for transmitting the voice data obtained by processing the sound signal collected by the right earplug and the voice data obtained by processing the sound signal collected by the left earplug, in the present embodiment, once the voice link 1 is to be established, a bidirectional voice link needs to be established.

The voice link 1 may be not only a bluetooth SCO/eSCO voice link but also a connection-based isochronous audio stream (CIS) link based on an Isochronous (ISO) channel (channel). In the embodiment of the present application, reference may be made to the description of corresponding contents in the standard protocol related to the ISO channel for the establishment process of the CIS link based on the ISO channel, and details are not described herein again.

In addition, in this embodiment, not only the right ear plug of the TWS headset is to establish a voice link with the handset 1, such as the voice link 2 described above, but also the left ear plug is to establish a voice link with the handset 1, such as the voice link 3. The left earplug can obtain the voice data sent by the mobile phone 1 through the voice link 3, and can also send the voice data to the mobile phone 1.

With reference to fig. 11, when the microphones of the left and right earpieces of the TWS headset are both in the on state, the user 1 can use one earpiece (e.g., the right earpiece) of the TWS headset, the user 3 can use the other earpiece (e.g., the left earpiece) of the TWS headset and the user 2 using the mobile phone 2, and the three can have a conversation, i.e., a three-person teleconference can be achieved.

In some embodiments, the handset 2 may capture the voice signal of the user 2 during the speech of the user 2. The mobile phone 2 converts the collected sound signal into voice data, such as voice data 2, and then sends the voice data to the mobile phone 1.

After receiving the voice data 2 from the handset 2, the handset 1 may send the voice data 2 to the right earpiece of the TWS headset via the voice link 2. The handset 1 may also send this voice data 2 to the left earpiece of the TWS headset over the voice link 3 described above. The voice data 2 may be the second voice data in the present application.

The left earpiece may collect the sound signal through the microphone of the left earpiece and convert it to voice data, referred to as voice data 3. The left earpiece may transmit this voice data 3 to the right earpiece over the voice link 1 described above. The left earpiece may also send this voice data 3 to the handset 1 via the voice link 3 as described above. It should be noted that if the user 3 has speech, the speech data 3 may be speech data obtained by processing a sound signal for the user 3. If the user 3 is not speaking, the speech data 3 may be silent data. The voice data 3 may be third voice data in the present application.

The right earplug can perform superposition processing (or called mixing processing) on the voice data 2 and the voice data 3 to realize mixing effect. For example, the voice data subjected to the superimposition is referred to as voice data 2-3. The right earpiece may play the voice data 2-3 through a receiver (i.e., earpiece) of the right earpiece.

The right ear plug may also collect a sound signal via the microphone of the right ear plug and convert it to voice data, such as referred to as voice data 1. If the user 1 has a speech, the speech data 1 may be speech data obtained by sound signal processing for the user 1. If the user 1 does not speak, the voice data 1 may be silent data. The right earpiece may send this voice data 1 to the left earpiece over the voice link 1 described above. The right ear plug may also transmit the voice data 1 to the handset 1 via the voice link 2 as described above. The voice data 1 may be the first voice data in the present application.

The left ear plug can perform superposition processing on the voice data 1 and the voice data 2 to realize the sound mixing effect. The voice data after being superimposed, for example, is referred to as voice data 1-2. The left earpiece can play the voice data 1-2 through the receiver of the left earpiece.

In addition, the mobile phone 1 can also perform superposition processing on the voice data 1 and the voice data 3 to achieve a sound mixing effect. For example, the superimposed voice data is referred to as voice data 1 to 3. The mobile phone 1 can send the voice data 1-3 to the mobile phone 2 so that the mobile phone 2 can play the voice data 1-3.

It can be seen that the right earplug, the left earplug and the mobile phone 1 need to perform superposition (or mixing) processing on multiple voice data. For example, the right ear plug needs to perform an overlay process of the voice data 2 from the handset 1 and the voice data 3 from the left ear plug. The left earpiece needs to overlap the voice data 1 from the right earpiece and the voice data 2 from the handset 1. The handset 1 needs to perform an overlay process of the voice data 1 from the right ear plug and the voice data 3 from the left ear plug. In the embodiment of the present application, a mixer may be added to each of the left and right earpieces of the TWS headset, or a processor included in the earpieces of the TWS headset may also implement the superposition processing of multiple voice data by using a software algorithm. A mixer may be added to the mobile phone 1, or a processor of the mobile phone 1 may also use a software algorithm to implement superposition processing of multiple paths of voice data.

In other embodiments, if the user 1 and the user 3 are relatively close to each other and can hear the voice of the other, the left and right earplugs may not perform the above-mentioned voice data superposition process, but play the voice data 2 from the mobile phone 1 through the receiver. In this way, no voice link, i.e. the above-mentioned voice link 1, can be established between the left and right earplugs.

Therefore, the microphones of the left and right earplugs of the TWS earphone connected with one mobile phone are opened and shared by two users for use, so that more than two persons can conveniently talk, namely, a multi-person teleconference can be realized. Moreover, the possibility that the environmental noise interferes with the call effect can be reduced.

In addition, in the embodiments shown in fig. 6, 10 and 11, the handset 2 may also be connected to a TWS headset for use by two users, so that a four-person teleconference may be achieved. It should be noted that the connection mode of the bluetooth connection between the mobile phone 2 and the TWS headset may be any one of the forwarding mode, the listening mode, and the dual mode. The connection mode of the bluetooth connection between the mobile phone 1 and the TWS headset may be the same as or different from the connection mode of the bluetooth connection between the mobile phone 2 and the TWS headset. For specific implementation of the TWS headset serving as the audio input/output device of the mobile phone 2 to implement a call, reference may be made to specific description of corresponding contents in the call implemented by the TWS headset serving as the audio input/output device of the mobile phone 1 in the foregoing embodiment, which is not described in detail herein.

In still other embodiments of the present application, a peripheral device is provided, such as a TWS headset. As shown in fig. 12, the earplugs of the TWS headset may include: one or more processors 1201; a memory 1202; a communication interface 1203; a receiver 1204; a microphone 1205; and one or more computer programs 1206, which may be connected via one or more communication buses 1207. Wherein the one or more computer programs 1206 are stored in the memory 1202 and configured to be executed by the one or more processors 1201, the one or more computer programs 1206 comprising instructions which may be used to perform the steps as performed by the earplugs (e.g. left earpiece, right earpiece) of the TWS headset in the respective embodiments of fig. 6, 10 or 11. Of course, the earplugs of the TWS headset shown in fig. 12 may further include other devices such as sensors, and the embodiments of the present application do not limit this.

Still other embodiments of the present application provide an electronic device, as shown in fig. 13, the electronic device may include: a touch screen 1301, wherein the touch screen 1301 may include a touch sensitive surface 1306 and a display screen 1307; one or more processors 1302; a memory 1303; and one or more computer programs 1304 that may be coupled via one or more communication buses 1305. Wherein the one or more computer programs 1304 are stored in the memory 1303 and configured to be executed by the one or more processors 1302, the one or more computer programs 1304 include instructions that can be used to perform the steps performed by the electronic device in the embodiments corresponding to fig. 6, fig. 10, or fig. 11. Of course, the electronic device shown in fig. 13 may also include other devices such as a sensor module, an audio module, and a SIM card interface, which is not limited in this embodiment.

Through the description of the foregoing embodiments, it will be clear to those skilled in the art that, for convenience and simplicity of description, only the division of the functional modules is illustrated, and in practical applications, the above function distribution may be completed by different functional modules as needed, that is, the internal structure of the apparatus may be divided into different functional modules to complete all or part of the above described functions. For the specific working processes of the system, the apparatus and the unit described above, reference may be made to the corresponding processes in the foregoing method embodiments, and details are not described here again.

In the several embodiments provided in this embodiment, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules or units is only one logical division, and there may be other divisions when actually implemented, for example, a plurality of units or components may be combined or may be integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, each functional unit in the embodiments of the present embodiment may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present embodiment essentially or partially contributes to the prior art, or all or part of the technical solution may be embodied in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a personal computer, a server, or a network device) or a processor to execute all or part of the steps of the method described in the embodiments. And the aforementioned storage medium includes: flash memory, removable hard drive, read only memory, random access memory, magnetic or optical disk, and the like.

The above descriptions are only specific embodiments of the present embodiment, but the scope of the present embodiment is not limited thereto, and any changes or substitutions within the technical scope of the present embodiment should be covered by the scope of the present embodiment. Therefore, the protection scope of the present embodiment shall be subject to the protection scope of the claims.

Claims (32)

1. A method of making a call using a bluetooth headset, characterized in that it is applied to a true wireless stereo TWS headset, the TWS headset comprising a first earpiece and a second earpiece, both the first earpiece and the second earpiece comprising a microphone; the method comprises the following steps:

the first earpiece is bluetooth paired with the second earpiece;

the first earpiece is Bluetooth paired with an electronic device;

the first ear bud opens a microphone of the first ear bud to collect a sound signal;

the second earpiece receiving an instruction, in response to which the second earpiece opens a microphone of the second earpiece to pick up a sound signal such that the microphone of the first earpiece and the microphone of the second earpiece are both in an on state;

the first and second earpieces establishing a first voice link for transmitting voice data from the first earpiece to the second earpiece and voice data from the second earpiece to the first earpiece;

the first earpiece and the electronic device establish a second voice link for transmitting voice data from the first earpiece to the electronic device and voice data from the electronic device to the first earpiece.

2. The method of claim 1, wherein the second earpiece receives instructions comprising: the second earpiece receives user operation of a first function key on the second earpiece.

3. The method of claim 1, further comprising: the first earpiece establishing a first control link with the second earpiece;

the second earpiece receives instructions, including: the second earpiece receives an indication that the first earpiece transmitted over the first control link.

4. The method of claim 3, further comprising, prior to the second earpiece receiving the indication sent by the first earpiece over the first control link:

the first earpiece receiving user operation of a second function key on the first earpiece;

in response to operation of the second function key, the first earpiece transmits the indication to the second earpiece over the first control link.

5. The method of claim 3, further comprising: the first earpiece establishes a second control link with the electronic device;

prior to the second earpiece receiving the indication sent by the first earpiece over the first control link, further comprising: the first earpiece receives the indication sent by the electronic device over the second control link.

6. The method of claim 1, wherein the second earpiece receives instructions comprising:

the second earpiece receives an indication sent by an earpiece box of the TWS earpiece.

7. The method of any of claims 1-6, wherein the first and second earpieces establish a first voice link, comprising:

the first and second earpieces establishing a unidirectional voice link for transmitting voice data from the first earpiece to the second earpiece;

in response to the instruction, the first earpiece and the second earpiece delete the unidirectional voice link, establishing the first voice link.

8. The method of any of claims 1-6, wherein the first and second earpieces establish a first voice link, comprising:

the first and second earpieces establishing a first unidirectional voice link for transmitting voice data from the first earpiece to the second earpiece;

in response to the instruction, the first and second earpieces establish a second unidirectional voice link for transmitting voice data from the second earpiece to the first earpiece;

wherein the first voice link comprises the first unidirectional voice link and the second unidirectional voice link.

9. The method according to any one of claims 1-6, further comprising:

the first earplug collects sound signals through a microphone of the first earplug and converts the sound signals into first voice data;

the first earphone receives second voice data sent by the electronic equipment through the second voice link;

after the first voice data and the second voice data are superposed by the first earplug, the first voice data and the second voice data are sent to the second earplug through the first voice link, and the second earplug plays the superposed first voice data and second voice data;

the second earplug collects sound signals through a microphone of the second earplug and converts the sound signals into third voice data;

the second earpiece transmitting the third voice data to the first earpiece over the first voice link;

the first earplug plays the second voice data and the third voice data after overlapping;

and after the first voice data and the third voice data are superposed by the first earplug, the first earplug is sent to the electronic equipment through the second voice link.

10. The method according to any one of claims 1-6, further comprising:

the first earpiece transmitting connection parameters of the second voice link to the second earpiece;

the first earplug collects sound signals through a microphone of the first earplug and converts the sound signals into first voice data;

the first earpiece receives second voice data sent by the electronic device over the second voice link;

the first earpiece transmitting the first voice data over the first voice link to the second earpiece;

the second earpiece listening for the second voice link according to the connection parameters to obtain the second voice data;

the second earplug plays the first voice data and the second voice data after overlapping;

the second earplug collects sound signals through a microphone of the second earplug and converts the sound signals into third voice data;

the second earpiece transmitting the third voice data to the first earpiece over the first voice link;

the first earplug plays the second voice data and the third voice data after overlapping;

and after the first voice data and the third voice data are superposed by the first earplug, the first earplug is sent to the electronic equipment through the second voice link.

11. The method of any of claims 1-6, wherein the first earpiece is a primary earpiece of the TWS headset and the second earpiece is a secondary earpiece of the TWS headset.

12. A method for calling by using a Bluetooth headset is applied to an electronic device, and the method comprises the following steps:

the electronic device is Bluetooth paired with a first earpiece of a true wireless stereo TWS headset;

the electronic device establishing a second control link with the first earpiece;

the electronic device receives an instruction, and in response to the instruction, the electronic device sends an indication to the first earpiece through the second control link, the indication instructing a second earpiece of the TWS headset to turn on a microphone of the second earpiece, such that the microphone of the first earpiece and the microphone of the second earpiece are both in an on state.

13. The method of claim 12, wherein the electronic device receives instructions comprising:

the electronic equipment receives operation of a user on a third function key on the electronic equipment; alternatively, the first and second electrodes may be,

the electronic equipment receives the operation of a user on a function control in an interface displayed by the electronic equipment.

14. The method of claim 13, wherein the interface is a call interface, an answer interface, or a setup interface; alternatively, the functionality control is included in a notification bar.

15. The method according to any one of claims 12-14, further comprising:

the electronic device establishing a second voice link with the first earpiece, the second voice link for transmitting voice data from the first earpiece to the electronic device and voice data from the electronic device to the first earpiece;

the electronic device receiving second voice data, the electronic device sending the second voice data to the first earpiece over the second voice link;

the electronic equipment receives first voice data and third voice data which are sent by the first earplug through the second voice link and subjected to superposition processing, and sends the first voice data and the third voice data which are subjected to superposition processing, wherein the first voice data are obtained by processing sound signals collected by the first earplug through a microphone of the first earplug, and the second voice data are obtained by processing sound signals collected by the second earplug through a microphone of the second earplug.

16. A method of making a call using a bluetooth headset, characterized in that it is applied to a true wireless stereo TWS headset, the TWS headset comprising a first earpiece and a second earpiece, both the first earpiece and the second earpiece comprising a microphone; the method comprises the following steps:

the first earpiece is bluetooth paired with the second earpiece;

the first and second earplugs are respectively Bluetooth paired with an electronic device;

the first ear bud opens a microphone of the first ear bud to collect a sound signal;

the second earpiece receiving an instruction in response to which the second earpiece turns on a microphone of the second earpiece to pick up a sound signal;

the first and second earpieces establishing a first voice link for transmitting voice data from the first earpiece to the second earpiece and voice data from the second earpiece to the first earpiece;

the first earpiece and the electronic device establish a second voice link for transmitting voice data from the first earpiece to the electronic device and voice data from the electronic device to the first earpiece;

the second earpiece and the electronic device establish a third voice link for transmitting voice data from the second earpiece to the electronic device and voice data from the electronic device to the second earpiece.

17. The method of claim 16, wherein the second earplug receives the instruction comprising: the second earpiece receives user operation of a first function key on the second earpiece.

18. The method of claim 16, further comprising: the first earpiece establishing a first control link with the second earpiece;

the second earpiece receives instructions, including: the second earpiece receives an indication that the first earpiece transmitted over the first control link.

19. The method of claim 18, further comprising, prior to the second earpiece receiving the indication sent by the first earpiece over the first control link:

the first earpiece receiving user operation of a second function key on the first earpiece;

in response to operation of the second function key, the first earpiece transmits the indication to the second earpiece over the first control link.

20. The method of claim 18, further comprising: the first earpiece establishes a second control link with the electronic device;

prior to the second earpiece receiving the indication sent by the first earpiece over the first control link, further comprising: the first earpiece receives the indication sent by the electronic device over the second control link.

21. The method of claim 16, wherein the second earplug receives instructions comprising:

the second earpiece receives an indication sent by an earpiece box of the TWS earpiece.

22. The method of claim 16, further comprising: the second earpiece establishes a third control link with the electronic device;

the second earpiece receives instructions, including: the second earpiece receives an indication sent by the electronic device over the third control link.

23. The method according to any one of claims 16-22, further comprising:

the first earplug collects sound signals through a microphone of the first earplug and converts the sound signals into first voice data, the first earplug sends the first voice data to the second earplug through the first voice link, and the first voice data is sent to the electronic equipment through the second voice link;

the first earphone receives second voice data sent by the electronic equipment through the second voice link;

the second earplug collects sound signals through a microphone of the second earplug and converts the sound signals into third voice data, the second earplug sends the third voice data to the electronic equipment through the third voice link, and the third voice data is sent to the first earplug through the first voice link;

the second earpiece receives the second voice data sent by the electronic device over the third voice link;

the first earplug plays the second voice data and the third voice data after overlapping;

the second earplug plays the first voice data and the second voice data after overlapping.

24. A method for calling by using a Bluetooth headset is applied to an electronic device, and the method comprises the following steps:

the electronic equipment is respectively in Bluetooth pairing with a first earplug and a second earplug of a real wireless stereo TWS (two-way satellite system) earphone;

the electronic device establishing a third control link with the second earpiece;

the electronic device receives an instruction, in response to which the electronic device sends an indication to the second earpiece over the third control link, the indication instructing a second earpiece of the TWS headset to turn on a microphone of the second earpiece.

25. The method of claim 24, wherein the electronic device receives instructions comprising:

the electronic equipment receives operation of a user on a third function key on the electronic equipment; alternatively, the first and second liquid crystal display panels may be,

the electronic equipment receives the operation of a user on a function control in an interface displayed by the electronic equipment.

26. The method of claim 25, wherein the interface is a call interface, an answer interface, or a setup interface; alternatively, the functionality control is included in a notification bar.

27. The method according to any one of claims 24-26, further comprising:

the electronic device establishing a second voice link with the first earpiece, the second voice link for transmitting voice data from the first earpiece to the electronic device and voice data from the electronic device to the first earpiece;

the electronic device establishing a third voice link with the second earpiece, the third voice link for transmitting voice data from the second earpiece to the electronic device and voice data from the electronic device to the second earpiece;

the electronic device receiving second voice data, the electronic device sending the second voice data to the first ear plug over the second voice link, the electronic device sending the second voice data to the second ear plug over the third voice link;

the electronic equipment receives first voice data sent by the first earplug through the second voice link and third voice data sent by the second earplug through the third voice link, wherein the first voice data are obtained by processing sound signals collected by the first earplug through a microphone of the first earplug, and the second voice data are obtained by processing sound signals collected by the second earplug through a microphone of the second earplug;

and the electronic equipment superposes the first voice data and the third voice data and sends the superposed first voice data and the superposed third voice data.

28. A true wireless stereo TWS headset, wherein the TWS headset comprises a first earpiece and a second earpiece;

the first and second earplugs each include: the system comprises a processor, a memory, a wireless communication module, a receiver and a microphone; the memory, the wireless communication module, the earpiece, and the microphone are coupled with the processor, the memory to store computer program code, the computer program code comprising computer instructions;

when the processor of the first earpiece executes computer instructions stored by the memory of the first earpiece, the first earpiece performs the method of talking on a bluetooth headset of any of claims 1-11, 16-23;

the second earpiece, when executed by a processor of the second earpiece with computer instructions stored by the processor of the second earpiece, performs the method of talking on a bluetooth headset of any of claims 1-11, 16-23.

29. An electronic device, comprising: one or more processors, memory, wireless communication modules, and mobile communication modules;

the memory, the wireless communication module, and the mobile communication module are coupled with the one or more processors, the memory for storing computer program code comprising computer instructions which, when executed by the one or more processors, cause the electronic device to perform the method of talking on a bluetooth headset of any of claims 12-15, 24-27.

30. A bluetooth communication system, the bluetooth communication system comprising:

a true wireless stereo TWS headset according to claim 28, an electronic device according to claim 29, and an electronic device that is engaged in a conversation with the electronic device.

31. A computer storage medium comprising computer instructions which, when run on a first earpiece of a true wireless stereo TWS headset, cause the first earpiece to perform the method of conducting a call using a bluetooth headset of any of claims 1-11, 16-23;

when the computer instructions are run on a second earpiece of the TWS headset, cause the second earpiece to perform the method of calling with a bluetooth headset of any of claims 1-11, 16-23.

32. A computer storage medium comprising computer instructions which, when run on an electronic device, cause the electronic device to perform the method of talking on a bluetooth headset of any one of claims 12-15, 24-27.

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