CN112242863A - Communication device and antenna switching method - Google Patents
Communication device and antenna switching method Download PDFInfo
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- CN112242863A CN112242863A CN201910645765.3A CN201910645765A CN112242863A CN 112242863 A CN112242863 A CN 112242863A CN 201910645765 A CN201910645765 A CN 201910645765A CN 112242863 A CN112242863 A CN 112242863A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/04—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
- H04B7/06—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station
- H04B7/0602—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station using antenna switching
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/04—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
- H04B7/0404—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas the mobile station comprising multiple antennas, e.g. to provide uplink diversity
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/04—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
- H04B7/06—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/04—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
- H04B7/08—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the receiving station
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/04—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
- H04B7/08—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the receiving station
- H04B7/0802—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the receiving station using antenna selection
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- Computer Networks & Wireless Communication (AREA)
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- Mobile Radio Communication Systems (AREA)
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Abstract
The application provides a communication device and an antenna switching method. The communication device comprises a plurality of Wi-Fi antennas, a control circuit, a Wi-Fi chip, a peripheral chip and a switch circuit. The output end of the peripheral chip is electrically connected with the first input end of the control circuit, and a successful matching message for indicating that the peripheral chip is successfully matched with the external equipment is sent to the control circuit. The first input end and the second input end of the switch circuit are respectively and electrically connected with the signal end of the Wi-Fi chip and the signal end of the peripheral chip, and each output end of the switch circuit is electrically connected with one Wi-Fi antenna. The output end of the control circuit is electrically connected with the control end of the switch circuit, and the Wi-Fi chip is controlled to be electrically connected with the first preset antenna and the peripheral chip is controlled to be electrically connected with the second preset antenna through the switch circuit. The Wi-Fi chip controls the communication equipment to carry out Wi-Fi communication through the first preset antenna, the peripheral chip controls the external equipment to communicate with the communication equipment through the second preset antenna, the idle Wi-Fi antenna is reasonably utilized, and various low-delay scenes are met.
Description
Technical Field
The present application relates to the field of communications technologies, and in particular, to a communication device and an antenna switching method.
Background
Communication devices (such as tablet computers, mobile phones and other terminals) are widely used in daily life and work of users. Meanwhile, in order to meet various demands of users, external devices such as a mouse, a keyboard, etc. connected to the communication device are also increasing.
At present, the external equipment can be connected with the communication equipment by adopting a wired interface, the operation of a user is not convenient enough, and the cost is increased due to the external connection of conversion equipment when the interface of the communication equipment is less. Therefore, the external device often communicates with the terminal device using wireless bluetooth. However, the wireless bluetooth communication method cannot meet the low latency requirements such as game scenes due to the increased operation latency, and the experience of the user is reduced.
Disclosure of Invention
The embodiment of the application provides a communication device and an antenna switching method, which can guarantee normal Wi-Fi communication of the communication device, can reasonably utilize an idle Wi-Fi antenna, and realize communication between the communication device and external equipment, so that the utilization rate of the Wi-Fi antenna is improved, the communication speed between the external equipment and the communication device is also improved, and the requirements of various low-delay scenes are met.
In a first aspect, an embodiment of the present application provides a communication device, including: the wireless communication device comprises a plurality of Wi-Fi antennas, a control circuit, a Wi-Fi chip, a peripheral chip and a switch circuit. The Wi-Fi antenna comprises a control circuit, a switch circuit, a Wi-Fi chip, a signal end and a second input end, wherein the first input end of the control circuit is electrically connected with the output end of the peripheral chip, the output end of the control circuit is electrically connected with the control end of the switch circuit, the signal end of the Wi-Fi chip is electrically connected with the first input end of the switch circuit, the signal end of the peripheral chip is electrically connected with the second input end of the switch circuit, and each output end of the. And the peripheral chip is used for sending a matching success message to the control circuit, wherein the matching success message is used for indicating that the peripheral chip is successfully matched with the external equipment. And the control circuit is used for controlling the Wi-Fi chip to be electrically connected with the first preset antenna through the switch circuit when a matching success message is received, and controlling the peripheral chip to be electrically connected with the second preset antenna through the switch circuit, wherein the first preset antenna and the second preset antenna are arranged in advance from the plurality of Wi-Fi antennas, the first preset antenna is used for Wi-Fi communication of the communication equipment, and the second preset antenna is used for communication between the external equipment and the communication equipment. The Wi-Fi chip is used for controlling the communication equipment to carry out Wi-Fi communication through the first preset antenna. And the peripheral chip is used for controlling the external equipment to communicate with the communication equipment through a second preset antenna.
With the communication device provided by the first aspect, a first preset antenna and a second preset antenna are set in advance from a plurality of Wi-Fi antennas, wherein the first preset antenna is used for Wi-Fi communication of the communication device, and the second preset antenna is used for communication between an external device and the communication device. And two output ends of the switch circuit are respectively and electrically connected with the first preset antenna and the second preset antenna, the first input end of the switch circuit is electrically connected with the signal end of the Wi-Fi chip, the second input end of the switch circuit is electrically connected with the signal end of the peripheral chip, the output end of the control end of the switch circuit is electrically connected, and the output end of the peripheral chip is electrically connected with the input end of the control circuit. Based on the electrical connection relationship, when the peripheral chip is successfully matched with the external device, the peripheral chip can send a matching success message to the control circuit. When the control circuit receives the matching success message, the Wi-Fi chip can be controlled by the switch circuit to be electrically connected with the first preset antenna and the peripheral chip can be controlled to be electrically connected with the second preset antenna. Therefore, the Wi-Fi chip can control the communication equipment to carry out Wi-Fi communication through the first preset antenna, and the peripheral chip can control the external equipment to carry out communication with the communication equipment through the second preset antenna. In the embodiment of the application, normal Wi-Fi communication of the communication equipment can be guaranteed, communication between the communication equipment and the external equipment can be achieved by reasonably utilizing the idle Wi-Fi antenna, the difficulty of overall layout of the antenna is reduced without newly adding the Wi-Fi antenna, the utilization rate of the Wi-Fi antenna is improved, the communication speed between the external equipment and the communication equipment is improved, various low-delay scenes are met, a user can operate flexibly, and the external equipment is convenient for the user to use.
In one possible design, the second input of the control circuit is electrically connected to the output of the Wi-Fi chip. The Wi-Fi chip is used for judging the communication quality of the Wi-Fi antennas; and sending a judgment result to the control circuit, wherein the judgment result is that the communication quality of the first target antenna is superior to that of the second target antenna, the first target antenna is used for Wi-Fi communication of the communication equipment, and the second target antenna is used for searching the external equipment by the peripheral chip. And the control circuit is used for controlling the Wi-Fi chip to be switched to be electrically connected with the first target antenna through the switch circuit and controlling the peripheral chip to be switched to be electrically connected with the second target antenna through the switch circuit when receiving the judgment result. And the Wi-Fi chip is used for controlling the communication equipment to carry out Wi-Fi communication through the first target antenna. And the peripheral chip is used for controlling the peripheral chip to search the peripheral equipment through the second target antenna.
The communication device provided by the embodiment, wherein two output ends of the switch circuit are respectively electrically connected with the first target antenna and the second target antenna, a first input end of the switch circuit is electrically connected with a signal end of the Wi-Fi chip, a second input end of the switch circuit is electrically connected with a signal end of the peripheral chip, an output end of the Wi-Fi chip is electrically connected with an input end of the control circuit, and an output end of the control circuit is electrically connected with a control end of the switch circuit. Based on the electrical connection relationship, the Wi-Fi chip can judge the communication quality of the Wi-Fi antennas and send a judgment result to the control circuit, wherein the judgment result is that the communication quality of the first target antenna is superior to that of the second target antenna. When the control circuit receives the judgment result, the first target antenna can be determined to be used for the communication device to carry out Wi-Fi communication, the second target antenna is used for the external chip to search for external equipment, and the Wi-Fi chip and the first target antenna can be controlled to be electrically connected through the switch circuit, and the external equipment chip and the second target antenna can be controlled to be electrically connected through the switch circuit. Therefore, the Wi-Fi chip can control the communication device to carry out Wi-Fi communication through the first target antenna, and the peripheral chip can control the peripheral chip to search for the external device through the second target antenna. In the embodiment of the application, normal Wi-Fi communication of the communication equipment can be guaranteed, idle Wi-Fi antennas can be reasonably utilized, the process that external equipment is searched by a peripheral chip is achieved, the utilization rate of the Wi-Fi antennas is improved, the Wi-Fi antennas can be optimized and reused, and the using performance of the Wi-Fi antennas is effectively guaranteed while the number of the Wi-Fi antennas is reduced.
In one possible design, the control circuit is configured to determine whether a current state of the switch circuit is a preset state when a matching success message is received, where the current state is a state in which the Wi-Fi chip is electrically connected to the first target antenna through the switch circuit, and the peripheral chip is electrically connected to the second target antenna through the switch circuit, and the preset state is a state in which the Wi-Fi chip is set in advance to be electrically connected to the first preset antenna through the switch circuit, and the peripheral chip is electrically connected to the second preset antenna through the switch circuit.
In one possible design, the control circuit is configured to lock the current state of the switch circuit when the current state of the switch circuit is determined to be the preset state, so that the Wi-Fi chip controls the communication device to perform Wi-Fi communication through the first target antenna and the peripheral chip controls the external device to perform communication with the communication device through the second target antenna. And the control circuit is used for updating the current state of the switch circuit to the preset state when the current state of the switch circuit is judged not to be the preset state so as to control the Wi-Fi chip to be switched to be electrically connected with the first preset antenna through the switch circuit and control the peripheral chip to be switched to be electrically connected with the second preset antenna through the switch circuit.
With the communication device provided by the embodiment, after the communication device performs Wi-Fi communication through the first target antenna and the peripheral chip searches for the external device through the second target Wi-Fi antenna, when the peripheral chip is successfully matched with the external device, the control circuit may determine whether the current state of the switch circuit is the preset state. If yes, the control circuit can determine that the first target antenna is the first preset antenna, and the second target antenna is the second preset antenna, so that the current state of the switch circuit can be locked. If not, the control circuit can adjust the current state of the switch circuit to a preset state, so that the Wi-Fi chip is electrically connected with the first preset antenna and the peripheral chip is electrically connected with the second preset antenna. Therefore, the communication device can carry out Wi-Fi communication through the first preset antenna, and the external device can carry out communication with the communication device through the second preset antenna.
In one possible design, the control circuit is further configured to lock the current state of the switching circuit after updating the current state of the switching circuit to the preset state.
In one possible design, the Wi-Fi chip is used for judging the communication quality of the plurality of Wi-Fi antennas according to the Received Signal Strength Indicator (RSSI) of the plurality of Wi-Fi antennas.
In one possible design, the plurality of Wi-Fi antennas includes: a first Wi-Fi antenna and a second Wi-Fi antenna. The first Wi-Fi antenna is located in the upper half area of the communication equipment in the vertical screen state, a preset distance exists between the first Wi-Fi antenna and the bottom edge of the communication equipment in the horizontal screen state, and the second Wi-Fi antenna is located in the upper half area of the communication equipment in the horizontal screen state. When the communication equipment is in a horizontal screen state, the first preset antenna is a second Wi-Fi antenna, and the second preset antenna is a first Wi-Fi antenna. When the communication equipment is in a vertical screen state, the first preset antenna is a first Wi-Fi antenna, and the second preset antenna is a second Wi-Fi antenna.
In one possible design, the communication device further includes: a third Wi-Fi antenna. The third Wi-Fi antenna is positioned in the upper half area of the communication equipment in the vertical screen state and is positioned in the upper half area of the communication equipment in the horizontal screen state; the other signal end of the Wi-Fi chip is electrically connected with a third Wi-Fi antenna, and the third Wi-Fi antenna is used for Wi-Fi communication of the communication device so as to ensure Wi-Fi communication of the communication device 1.
In one possible design, when the communication device is in the landscape state, the second Wi-Fi antenna and the third Wi-Fi antenna may jointly form a MIMO antenna, so as to implement Wi-Fi communication of the communication device 1.
In one possible design, when the communication device is in a vertical screen state, the first Wi-Fi antenna and the third Wi-Fi antenna may jointly form a MIMO antenna, so as to implement Wi-Fi communication of the communication device 1.
In one possible design, the external device is a keyboard and/or a mouse.
In one possible design, the switching circuit is a double pole double throw switch.
In one possible design, the communication device further includes: the communication equipment 1 is provided with a peripheral charging interface, wherein the peripheral charging interface is located in the lower half area of the communication equipment in the first state, and the peripheral charging interface is close to the bottom edge of the lower half area, so that the communication equipment is convenient to charge to the external equipment.
In a second aspect, an embodiment of the present application provides an antenna switching method, which is applied to a communication device, where the communication device includes: the wireless fidelity Wi-Fi wireless communication system comprises a plurality of wireless fidelity Wi-Fi antennas, a control circuit, a Wi-Fi chip, an external chip and a switch circuit; the Wi-Fi antenna comprises a control circuit, a switch circuit, a Wi-Fi chip, a signal end and a second input end, wherein the first input end of the control circuit is electrically connected with the output end of the peripheral chip, the output end of the control circuit is electrically connected with the control end of the switch circuit, the signal end of the Wi-Fi chip is electrically connected with the first input end of the switch circuit, the signal end of the peripheral chip is electrically connected with the second input end of the switch circuit, and each output end of the.
The method comprises the following steps: and the peripheral chip sends a matching success message to the control circuit, wherein the matching success message is used for indicating that the peripheral chip is successfully matched with the external equipment. When the control circuit receives the matching success message, the Wi-Fi chip is controlled to be switched to be electrically connected with the first preset antenna through the switch circuit, the peripheral chip is controlled to be switched to be electrically connected with the second preset antenna through the switch circuit, the first preset antenna and the second preset antenna are arranged in the plurality of Wi-Fi antennas in advance, the first preset antenna is used for Wi-Fi communication of the communication equipment, and the second preset antenna is used for communication between the external equipment and the communication equipment. The Wi-Fi chip controls the communication equipment to carry out Wi-Fi communication through the first preset antenna. And the peripheral chip controls the external equipment to communicate with the communication equipment through a second preset antenna.
In one possible design, the second input of the control circuit is electrically connected to the output of the Wi-Fi chip. The method further comprises the following steps: the Wi-Fi chip judges the communication quality of the Wi-Fi antennas. And the Wi-Fi chip sends a judgment result to the control circuit, wherein the judgment result is that the communication quality of the first target antenna is superior to that of the second target antenna, the first target antenna is used for Wi-Fi communication of the communication equipment, and the second target antenna is used for searching the external equipment by the peripheral chip. And when the control circuit receives the judgment result, the Wi-Fi chip is controlled to be switched to be electrically connected with the first target antenna through the switch circuit, and the peripheral chip is controlled to be switched to be electrically connected with the second target antenna through the switch circuit. The Wi-Fi chip controls the communication device to conduct Wi-Fi communication through the first target antenna. And the peripheral chip controls the peripheral chip to search for the peripheral equipment through the second target antenna.
In one possible design, before the control circuit controls the Wi-Fi chip to be switched to be electrically connected to the first preset antenna through the switch circuit and controls the peripheral chip to be switched to be electrically connected to the second preset antenna through the switch circuit when the control circuit receives the matching success message, the method further includes: the control circuit judges whether the current state of the switch circuit is a preset state or not, wherein the current state is a state that the current Wi-Fi chip is electrically connected with the first target antenna through the switch circuit, and the peripheral chip is electrically connected with the second target antenna through the switch circuit, and the preset state is a state that the Wi-Fi chip is electrically connected with the first preset antenna through the switch circuit and the peripheral chip is electrically connected with the second preset antenna through the switch circuit in advance.
In one possible design, when the control circuit receives the matching success message, the control circuit controls the Wi-Fi chip to be switched to be electrically connected with the first preset antenna through the switch circuit, and controls the peripheral chip to be switched to be electrically connected with the second preset antenna through the switch circuit, including: when the control circuit judges that the current state of the switch circuit is the preset state, the current state of the switch circuit is locked, so that the Wi-Fi chip controls the communication equipment to carry out Wi-Fi communication through the first target antenna, and the peripheral chip controls the external equipment to carry out communication with the communication equipment through the second target antenna. When the control circuit judges that the current state of the switch circuit is not the preset state, the current state of the switch circuit is updated to be the preset state, so that the Wi-Fi chip is controlled to be switched to be electrically connected with the first preset antenna through the switch circuit and the peripheral chip is controlled to be switched to be electrically connected with the second preset antenna through the switch circuit.
In one possible design, the method further includes: the control circuit locks the current state of the switch circuit after updating the current state of the switch circuit to a preset state.
The beneficial effects of the antenna switching method provided in the second aspect and each possible design of the second aspect may refer to the beneficial effects brought by each possible implementation manner of the first aspect, and are not described herein again.
In a third aspect, an embodiment of the present application provides a communication device, including: a memory and a processor;
the memory is used for storing program instructions;
the processor is configured to invoke program instructions in the memory to perform the second aspect and any one of the possible designs of the second aspect.
In a fourth aspect, an embodiment of the present application provides a readable storage medium, where an execution instruction is stored in the readable storage medium, and when at least one processor of the communication device executes the execution instruction, the communication device executes the antenna switching method in any one of the possible designs of the second aspect and the second aspect.
In a fifth aspect, the present application provides a program product, where the program product includes an execution instruction, and the execution instruction is stored in a readable storage medium. The at least one processor of the communication device may read the executable instructions from the readable storage medium, and the execution of the executable instructions by the at least one processor causes the communication device to implement the antenna switching method of the second aspect and any one of the possible designs of the second aspect.
In a sixth aspect, the present invention provides a chip, where the chip is connected to a memory, or a memory is integrated on the chip, and when a software program stored in the memory is executed, the antenna switching method in any one of the possible designs of the second aspect and the second aspect is implemented.
Drawings
Fig. 1 is a schematic structural diagram of an exemplary communication device provided in an embodiment of the present application;
fig. 2 is a schematic structural diagram of an exemplary communication device provided in an embodiment of the present application;
fig. 3 is a schematic structural diagram of an exemplary communication device in a landscape state according to an embodiment of the present application;
fig. 4 is a schematic structural diagram of an exemplary communication device in a vertical screen state according to an embodiment of the present application;
fig. 5 is a schematic structural diagram of an exemplary communication device in a landscape state according to an embodiment of the present application;
fig. 6 is a flowchart of an exemplary antenna switching method according to an embodiment of the present application;
fig. 7 is a flowchart of an exemplary antenna switching method according to an embodiment of the present application;
fig. 8 is a schematic hardware structure diagram of an exemplary communication device according to an embodiment of the present disclosure.
Description of reference numerals:
1-a communication device;
11-Wi-Fi antenna; 12-a control circuit;
13-Wi-Fi chip; 14-peripheral chip;
15-a switching circuit; 16-peripheral charging interface.
Detailed Description
In the description of the embodiments of the present application, it should be construed that the terms "center", "longitudinal", "lateral", "upper", "lower", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the embodiments of the present application and simplifying the description, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the embodiments of the present application. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In the embodiments of the present application, "at least one" means one or more, "a plurality" means two or more. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone, wherein A and B can be singular or plural. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship. "at least one of the following" or similar expressions refer to any combination of these items, including any combination of the singular or plural items. For example, at least one (one) of a, b, or c, may represent: a, b, c, a-b, a-c, b-c, or a-b-c, wherein a, b, c may be single or multiple.
The embodiment of the application provides communication equipment and an antenna switching method, on the basis of ensuring normal Wi-Fi communication of the communication equipment, an idle Wi-Fi antenna in the communication equipment can be utilized to realize communication between external equipment and the communication equipment, so that a user can complete corresponding operation through the external equipment, the operation delay is effectively reduced, various low-delay scene requirements are met, and the user experience is improved.
In order to meet the requirement of low time delay, the embodiment of the application provides a communication device and an antenna switching method, and a first preset antenna and a second preset antenna are set in advance from a plurality of Wi-Fi antennas of the communication device according to the position of the Wi-Fi antennas in the communication device and by combining practical experience, the first preset antenna is used for Wi-Fi communication of the communication device, and the second preset antenna is used for communication between an external device and the communication device. In the communication equipment, two output ends of the switch circuit are respectively and electrically connected with a first preset antenna and a second preset antenna, a first input end of the switch circuit is electrically connected with a signal end of the Wi-Fi chip, a second input end of the switch circuit is electrically connected with a signal end of the peripheral chip, and a control end of the switch circuit is electrically connected with an output end of the control circuit. Therefore, when the matching between the peripheral chip and the external equipment is successful, the peripheral chip can send a matching success message to the control circuit. When the control circuit receives the successful matching message, the Wi-Fi chip can be controlled by the switch circuit to be electrically connected with the first preset antenna, and the peripheral chip can be controlled to be electrically connected with the second preset antenna, so that the Wi-Fi chip can control the communication equipment to realize Wi-Fi communication through the first preset antenna, and the peripheral chip can control the external equipment to realize communication with the communication equipment through the second preset antenna. In the embodiment of the application, normal Wi-Fi communication of the communication equipment is guaranteed, communication between the communication equipment and the external equipment is achieved by using the idle Wi-Fi antenna, the utilization rate of the Wi-Fi antenna in the communication equipment is improved, the communication speed between the external equipment and the communication equipment is accelerated, the problem that the requirement of low time delay cannot be met due to large time delay in the traditional Bluetooth technology is solved, the operation smoothness of a user is guaranteed, and the experience and use feeling of the user are improved.
The communication device mentioned in the embodiment of the present application may include, but is not limited to, a terminal, where: the wireless terminal can be a wireless terminal or a wired terminal, and the wireless terminal can be a device with a wireless transceiving function, can be deployed on land, and comprises indoor or outdoor, handheld or vehicle-mounted; can also be deployed on the water surface (such as a ship and the like); and may also be deployed in the air (e.g., airplanes, balloons, satellites, etc.). The terminal may be a personal computer, a game machine, an MP3 player, a mobile phone (mobile phone), a tablet computer (Pad), a computer with wireless transceiving function, a printer, a Virtual Reality (VR) terminal, an Augmented Reality (AR) terminal, a wireless terminal in industrial control (industrial control), a wireless terminal in self driving (self driving), a wireless terminal in remote medical (remote medical), a wireless terminal in smart grid (smart grid), a wireless terminal in transportation safety, a wireless terminal in city (smart city), a wireless terminal in smart home (smart home), and the like, but is not limited thereto.
In addition, the external devices provided by the embodiments of the present application may include, but are not limited to, a keyboard, a mouse, a headset, a printing device, a storage device, and other devices.
Hereinafter, the technical solution of the communication device in the embodiment of the present application will be described with reference to the drawings in the embodiment of the present application.
Fig. 1 is a schematic structural diagram of an exemplary communication device provided in an embodiment of the present application, and as shown in fig. 1, the communication device 1 includes: a plurality of Wi-Fi antennas 11, a control circuit 12, a Wi-Fi chip 13, a peripheral chip 14 and a switch circuit 15.
The embodiment of the application does not limit the position, the specific size and the manufacturing process of the Wi-Fi antenna 11 in the communication device 1, and only the number of the Wi-Fi antennas 11 is required to be more than or equal to two.
Those skilled in the art will appreciate that in different application scenarios, the communication device 1 generally uses part of the Wi-Fi antenna 11 to implement Wi-Fi communication of the communication device 1, so that the rest of the Wi-Fi antenna 11 will be idle. And the location of each Wi-Fi antenna 11 at the communication device 1 is typically set after shipment of the communication device 1.
Based on the foregoing description, in the embodiment of the present application, according to the position of each Wi-Fi antenna 11 and by combining practical experience, a first preset antenna suitable for the communication device 1 to perform Wi-Fi communication and a second preset antenna suitable for the communication between the external device and the communication device 1 in each application scenario may be determined from the plurality of Wi-Fi antennas 11.
In the embodiment of the application, under the same application scenario, the first preset antenna and the second preset antenna are different. In different application scenarios, the first preset antenna and the second preset antenna may be the same or different. The number of the first preset antennas may be Multiple, so as to form a Multiple-Input Multiple-Output (MIMO) antenna, or may be one, which is not limited in this embodiment of the present application. The number of the second preset antennas may be one or multiple, so as to form a MIMO antenna to work, which is not limited in this embodiment of the application.
In the embodiment of the present application, each output end of the switch circuit 15 is electrically connected to one Wi-Fi antenna 11, that is, a first preset antenna and a second preset antenna are electrically connected to an output side of the switch circuit 15. And a first input end of the switch circuit 15 is electrically connected with a signal end of the Wi-Fi chip 13, and a second input end of the switch circuit 15 is electrically connected with a signal end of the peripheral chip 14.
In this way, the output end of the control circuit 12 is electrically connected to the control end of the switch circuit 15, and can control the connection or disconnection of a path between any input end and any output end of the switch circuit 15, so as to adjust whether the Wi-Fi chip 13 and the peripheral chip 14 are electrically connected to any Wi-Fi antenna 11, that is, adjust whether the Wi-Fi chip 13 and the peripheral chip 14 are electrically connected to the first preset antenna and the second preset antenna, respectively.
The control circuit 12 may be an original control circuit 12 in the communication device 1, or may be a newly added control circuit 12, which is not limited in this embodiment of the present application. For example, the control circuit 12 may be a Central Processing Unit (CPU) in the communication apparatus 1.
The embodiments of the present application do not limit the types and the numbers of the Wi-Fi chips 13 and the peripheral chips 14. And, the Wi-Fi chip 13 may include, but is not limited to, functions of collecting signals of the respective Wi-Fi antennas 11, analyzing performance of the respective Wi-Fi antennas 11, and warning whether the respective Wi-Fi antennas 11 are malfunctioning. The peripheral chip 14 may include, but is not limited to, functions of searching and matching the external device, collecting parameters of the external device, and acquiring a communication signal between the external device and the communication device 1.
The control circuit 12, the Wi-Fi chip 13, and the peripheral chip 14 may be discrete components or may be combined arbitrarily. For example, the control circuit 12, the Wi-Fi chip 13 and the peripheral chip 14 are integrally arranged, or the control circuit 12 and the Wi-Fi chip 13 are integrally arranged, or the control circuit 12 and the peripheral chip 14 are integrally arranged, which is not limited in this embodiment of the present application.
In the embodiment of the present application, the type and the number of the switch circuits 15 are not limited. Alternatively, the switch circuit 15 may be a switch integrated device such as a multi-pole multi-throw switch, or may be a circuit formed by combining a plurality of switches. For example, when the two output terminals of the switch circuit 15 are electrically connected to the first predetermined antenna and the second predetermined antenna, respectively, the switch circuit 15 may be a double-pole double-throw switch. For convenience of explanation, the switch circuit 15 in fig. 1 is illustrated as a double-pole double-throw switch.
Based on the above description, the peripheral chip 14 may send a matching success message to the control circuit 12 when the external device is successfully matched. The matching success message may include, but is not limited to, various forms of numbers, letters, binary values, and the like. In this way, the control circuit 12, upon receiving the matching success message, can know that there is an external device that needs to communicate with the communication device 1.
When knowing that the external device needs to communicate with the communication device 1, the control circuit 12 needs to provide not only the Wi-Fi antenna 11 for Wi-Fi communication to the communication device 1 but also the Wi-Fi antenna 11 suitable for communicating with the communication device 1 to the external device. Further, the control circuit 12 may perform the following operation procedures in parallel based on the foregoing description.
On one hand, the control circuit 12 can control the Wi-Fi chip 13 to be electrically connected with the first preset antenna by turning on a path between the input end of the switch circuit 15 electrically connected with the Wi-Fi chip 13 and the output end of the switch circuit 15 electrically connected with the first preset antenna, so as to realize Wi-Fi communication of the communication device 1.
Since the Wi-Fi chip 13 is electrically connected to the first preset antenna, the Wi-Fi chip 13 may control the communication device 1 to perform Wi-Fi communication through the first preset antenna, such as sending and receiving Wi-Fi signals required by the communication device 1, so as to ensure that the communication device 1 may perform normal Wi-Fi communication.
On the other hand, the control circuit 12 may control the peripheral chip 14 to be electrically connected to the second predetermined antenna by turning on a path between the input terminal of the switch circuit 15 electrically connected to the peripheral chip 14 and the output terminal of the switch circuit 15 electrically connected to the second predetermined antenna, so as to implement communication between the external device and the communication device 1.
Because the peripheral chip 14 is electrically connected to the second preset antenna, the peripheral chip 14 can control the external device to communicate with the communication device 1 through the second preset antenna, for example, send and receive Wi-Fi signals to the communication device 1, so that the second preset antenna can be used as a special antenna for the external device to communicate with the communication device 1, so as to ensure that the external device communicates with the communication device 1, and not only is the idle Wi-Fi antenna reasonably utilized, but also the cost is reduced without separately configuring the Wi-Fi antenna (for example, a Wi-Fi antenna in a 2.4GHz or 5GHz band is separately configured for a keyboard mouse), thereby solving the problem that the performance is poor because the antenna needs to ensure good clearance, effectively reducing the difficulty of the overall layout and design of the antenna, and being suitable for various communication requirements with small time delay.
It should be noted that the communication device 1 may further include any one component, such as a display screen, a protective housing, a rear cover, a front frame, a circuit board, and a battery, which is not limited in this embodiment of the application.
According to the communication device provided by the embodiment of the application, the first preset antenna and the second preset antenna are arranged in the plurality of Wi-Fi antennas in advance, wherein the first preset antenna is used for Wi-Fi communication of the communication device, and the second preset antenna is used for communication between the external device and the communication device. And two output ends of the switch circuit are respectively and electrically connected with the first preset antenna and the second preset antenna, the first input end of the switch circuit is electrically connected with the signal end of the Wi-Fi chip, the second input end of the switch circuit is electrically connected with the signal end of the peripheral chip, the output end of the control end of the switch circuit is electrically connected, and the output end of the peripheral chip is electrically connected with the input end of the control circuit. Based on the electrical connection relationship, when the peripheral chip is successfully matched with the external device, the peripheral chip can send a matching success message to the control circuit. When the control circuit receives the matching success message, the Wi-Fi chip can be controlled by the switch circuit to be electrically connected with the first preset antenna and the peripheral chip can be controlled to be electrically connected with the second preset antenna. Therefore, the Wi-Fi chip can control the communication equipment to carry out Wi-Fi communication through the first preset antenna, and the peripheral chip can control the external equipment to carry out communication with the communication equipment through the second preset antenna. In the embodiment of the application, normal Wi-Fi communication of the communication equipment can be guaranteed, communication between the communication equipment and the external equipment can be achieved by reasonably utilizing the idle Wi-Fi antenna, the difficulty of overall layout of the antenna is reduced without newly adding the Wi-Fi antenna, the utilization rate of the Wi-Fi antenna is improved, the communication speed between the external equipment and the communication equipment is improved, various low-delay scenes are met, a user can operate flexibly, and the external equipment is convenient for the user to use.
Exemplarily, on the basis of the embodiment shown in fig. 1, the communication device 1 according to the embodiment of the present application further has an idle Wi-Fi antenna 11 on the premise of ensuring normal Wi-Fi communication, so that the peripheral chip 14 can implement external device search by using the idle Wi-Fi antenna 11 in addition to the conventional bluetooth technology. Next, with reference to fig. 2, a detailed description will be given of an implementation process of the peripheral chip 14 in the embodiment of the present application for searching for an external device by using the Wi-Fi antenna 11.
Those skilled in the art will understand that, no matter in different application scenarios, the communication device 1 generally selects the Wi-Fi antenna 11 with better communication quality for Wi-Fi communication, so as to ensure the quality of Wi-Fi communication. In the embodiment of the present application, the Wi-Fi chip 13 may determine the communication quality of each Wi-Fi antenna 11 to obtain a determination result. And judging that the communication quality of the first target antenna is better than that of the second target antenna. Thus, the first target antenna may be used for Wi-Fi communication of the communication device 1, and the second target antenna may be used for the peripheral chip 14 to search for the external device, so that the second target antenna may be a dedicated antenna for the peripheral chip 14 to search for the external device.
In the embodiment of the application, under the same application scene, the first target antenna and the second target antenna are different. In different application scenarios, the first target antenna and the second target antenna may be the same or different. The number of the first target antennas may be multiple, so as to form a MIMO antenna, or may be one, which is not limited in this embodiment of the present application. The number of the second target antennas may be one or multiple, so as to form a MIMO antenna to operate, which is not limited in this embodiment of the application.
In the embodiment of the present application, the basis for determining the quality of communication of each Wi-Fi antenna 11 is not limited. For example, the Wi-Fi chip 13 may determine a Received Signal Strength Indication (RSSI) of each Wi-Fi antenna 11 according to the collected signal of each Wi-Fi antenna 11, and determine the communication quality of each Wi-Fi antenna 11 according to the RSSI of each Wi-Fi antenna 11.
In the embodiment of the present application, each output terminal of the switch circuit 15 is electrically connected to one Wi-Fi antenna 11, that is, the output side of the switch circuit 15 is electrically connected to a first target antenna and a second target antenna. And a first input end of the switch circuit 15 is electrically connected with a signal end of the Wi-Fi chip 13, and a second input end of the switch circuit 15 is electrically connected with a signal end of the peripheral chip 14.
In this way, the output end of the control circuit 12 is electrically connected to the control end of the switch circuit 15, and can control the connection or disconnection of a path between any input end and any output end of the switch circuit 15, so as to adjust whether the Wi-Fi chip 13 and the peripheral chip 14 are electrically connected to any Wi-Fi antenna 11, that is, whether the Wi-Fi chip 13 and the peripheral chip 14 are electrically connected to the first target antenna and the second target antenna, respectively.
Based on the above description, as shown in fig. 2, the output terminal of the Wi-Fi chip 13 may transmit the determination result to the control circuit 12 through an electrical connection with the second input terminal of the control circuit 12. The judgment result may include, but is not limited to, a number, a second-level system value, a letter, a character, and other various forms for representing. Thus, the control circuit 12 can know that the communication quality of the first target antenna is better than that of the second target antenna when receiving the judgment result, and can implement Wi-Fi communication of the communication device 1 through the first target antenna and implement a process of searching for an external device by the peripheral chip 14 through the second target antenna.
Further, the control circuit 12 may execute the following operation processes in parallel.
On one hand, the control circuit 12 can control the Wi-Fi chip 13 to be electrically connected with the first target antenna by turning on a path between the input end of the switch circuit 15 electrically connected with the Wi-Fi chip 13 and the output end of the switch circuit 15 electrically connected with the first target antenna, so as to realize Wi-Fi communication of the communication device 1.
Since the Wi-Fi chip 13 is electrically connected to the first target antenna, the Wi-Fi chip 13 may control the communication device 1 to perform Wi-Fi communication through the first target antenna, such as sending and receiving Wi-Fi signals required by the communication device 1, to ensure that the communication device 1 can perform normal Wi-Fi communication.
On the other hand, the control circuit 12 may control the peripheral chip 14 to be electrically connected to the second target antenna by turning on a path between the input terminal of the switch circuit 15 electrically connected to the peripheral chip 14 and the output terminal of the switch circuit 15 electrically connected to the second target antenna, so as to implement the function of the peripheral chip 14 to search for the external device.
Since the peripheral chip 14 is electrically connected to the second target antenna, the peripheral chip 14 may control the peripheral chip 14 to search for the external device through the second target antenna. For example, when the external device is powered on and placed within a certain distance from the peripheral chip 14, the peripheral chip 14 may search for the external device through the second target antenna. Further, the peripheral chip 14 may match the searched external device, such as checking whether the external device is an authorized device, determining whether the operating environment of the external device is safe, and the like. In general, if the external device and the peripheral chip 14 are not matched, the peripheral chip 14 may be matched with the searched external device. If the external device and the peripheral chip 14 are successfully matched, the peripheral chip 14 may be directly and successfully matched with the searched external device.
The communication equipment provided by the embodiment of the application is electrically connected with a first target antenna and a second target antenna through two output ends of a switch circuit respectively, a first input end of the switch circuit is electrically connected with a signal end of a Wi-Fi chip, a second input end of the switch circuit is electrically connected with a signal end of a peripheral chip, an output end of the Wi-Fi chip is electrically connected with an input end of a control circuit, and an output end of the control circuit is electrically connected with a control end of the switch circuit. Based on the electrical connection relationship, the Wi-Fi chip can judge the communication quality of the Wi-Fi antennas and send a judgment result to the control circuit, wherein the judgment result is that the communication quality of the first target antenna is superior to that of the second target antenna. When the control circuit receives the judgment result, the first target antenna can be determined to be used for the communication device to carry out Wi-Fi communication, the second target antenna is used for the external chip to search for external equipment, and the Wi-Fi chip and the first target antenna can be controlled to be electrically connected through the switch circuit, and the external equipment chip and the second target antenna can be controlled to be electrically connected through the switch circuit. Therefore, the Wi-Fi chip can control the communication device to carry out Wi-Fi communication through the first target antenna, and the peripheral chip can control the peripheral chip to search for the external device through the second target antenna. In the embodiment of the application, normal Wi-Fi communication of the communication equipment can be guaranteed, idle Wi-Fi antennas can be reasonably utilized, the process that external equipment is searched by a peripheral chip is achieved, the utilization rate of the Wi-Fi antennas is improved, the Wi-Fi antennas can be optimized and reused, and the using performance of the Wi-Fi antennas is effectively guaranteed while the number of the Wi-Fi antennas is reduced.
In addition, when the communication device 1 performs Wi-Fi communication through the first target antenna and the peripheral chip 14 searches for and matches a successful external device through the second target antenna, the peripheral chip 14 may send a matching success message to the control circuit 12, so that the control circuit 12 knows that the external device needs to communicate with the communication device 1. Thus, the control circuit 12 may determine that it is necessary to control the Wi-Fi chip 13 to be electrically connected to the first predetermined antenna, and that it is necessary to control the peripheral chip 14 to be electrically connected to the second predetermined antenna.
Whether the Wi-Fi chip 13 is electrically connected to the first preset antenna and whether the peripheral chip 14 is electrically connected to the second preset antenna depends on the connection or disconnection of the path between the input terminal and the output terminal of the switch circuit 15, so that the control circuit 12 may set in advance that the Wi-Fi chip 13 is electrically connected to the first preset antenna through the switch circuit 15, and the peripheral chip 14 is electrically connected to the second preset antenna through the switch circuit 15 in a preset state.
To achieve the above process, the control circuit 12 may adjust the current state of the switching circuit 15 to a preset state. At this time, the Wi-Fi chip 13 is electrically connected to the first target antenna through the switch circuit 15, and the peripheral chip 14 is electrically connected to the second target antenna through the switch circuit 15, so that the control circuit 12 can obtain the current state of the switch circuit 15, that is, the current state is a state in which the Wi-Fi chip 13 is electrically connected to the first target antenna through the switch circuit 15, and the peripheral chip 14 is electrically connected to the second target antenna through the switch circuit 15. Therefore, the control circuit 12 can determine whether the current state of the switch circuit 15 is a preset state, and adjust the electrical connection relationship between the Wi-Fi chip 13 and the peripheral chip 14 and the Wi-Fi antenna 11, so that the Wi-Fi chip 13 can be electrically connected with the first preset antenna and the peripheral chip 14 can be electrically connected with the second preset antenna.
When the control circuit 12 determines that the current state of the switch circuit 15 is the preset state, the control circuit 12 may lock the current state of the switch circuit 15, so that the Wi-Fi chip 13 may control the communication device 1 to perform Wi-Fi communication through the first target antenna (i.e., the first preset antenna), and the peripheral chip 14 controls the external device to perform communication with the communication device 1 through the second target antenna (i.e., the second preset antenna).
When the control circuit 12 determines that the current state of the switch circuit 15 is not the preset state, the control circuit 12 may update the current state of the switch circuit 15 to the preset state, so that the Wi-Fi chip 13 may be switched to be electrically connected to the first preset antenna through the switch circuit 15, thereby implementing a process of Wi-Fi communication of the communication device 1 through the first preset antenna, and the peripheral chip 14 may be switched to be electrically connected to the second preset antenna through the switch circuit 15, thereby implementing a communication process between the external device and the communication device 1 through the second preset antenna.
Optionally, after updating the current state of the switch circuit 15 to the preset state, the control circuit 12 may further lock the current state of the switch circuit 15, that is, the state where the Wi-Fi chip 13 is electrically connected to the first preset antenna and the peripheral chip 14 is electrically connected to the second preset antenna.
In the embodiment of the application, after the communication device performs Wi-Fi communication through the first target antenna and the peripheral chip searches for the external device through the second target Wi-Fi antenna, when the peripheral chip is successfully matched with the external device, the control circuit can judge whether the current state of the switch circuit is a preset state. If yes, the control circuit can determine that the first target antenna is the first preset antenna, and the second target antenna is the second preset antenna, so that the current state of the switch circuit can be locked. If not, the control circuit can adjust the current state of the switch circuit to a preset state, so that the Wi-Fi chip is electrically connected with the first preset antenna and the peripheral chip is electrically connected with the second preset antenna. Therefore, the communication device can carry out Wi-Fi communication through the first preset antenna, and the external device can carry out communication with the communication device through the second preset antenna.
For example, in the embodiment of the present application, the first predetermined antenna and the second predetermined antenna may be located at any positions of the communication device 1, and are usually set in combination with practical experience. The positions of the first default antenna and the second default antenna are described below with reference to fig. 3-4. For convenience of illustration, the plurality of Wi-Fi antennas 11 is illustrated as including a first Wi-Fi antenna and a second Wi-Fi antenna.
It will be understood by those skilled in the art that when the user holds the short side of the communication apparatus 1 with both hands, the communication apparatus 1 is normally in the landscape state, as shown in fig. 3. When the user holds the long side of the communication apparatus 1 with both hands, the communication apparatus 1 is normally in the portrait screen state as shown in fig. 4. It should be noted that the above manner is only one optional manner for defining the communication device 1 in the portrait screen state and the landscape screen state, and the embodiment of the present application is not limited to this manner.
As shown in fig. 3, when the communication apparatus 1 is in the landscape state, the user can hold the position area of the short side of the communication apparatus 1 near the bottom side of the communication apparatus 1 more easily, and can not hold the other position areas of the communication apparatus 1 easily. As shown in fig. 4, when the communication apparatus 1 is in the portrait state, the user can hold the position area on the long side of the communication apparatus 1 and near the bottom side of the communication apparatus 1 more easily, and can not hold the other position areas of the communication apparatus 1 easily.
Based on the above description, with reference to fig. 3 and 4, in order to be applicable to different scenarios when the communication device 1 is in the portrait screen state and the landscape screen state, in the embodiment of the present application, a second Wi-Fi antenna (illustrated by taking one second Wi-Fi antenna as an example in fig. 3 and 4) may be disposed in the upper half area when the communication device 1 is in the landscape screen state, so as to avoid the second Wi-Fi antenna from being blocked when the communication device 1 is in the landscape screen state. In the embodiment of the application, the first Wi-Fi antenna (illustrated in fig. 3 and 4 by taking one first Wi-Fi antenna as an example) may be disposed in the upper half area of the communication device 1 in the vertical screen state, so that the first Wi-Fi antenna is prevented from being blocked when the communication device 1 is in the vertical screen state.
The embodiment of the application does not limit the specific positions and the number of the first Wi-Fi antenna and the second Wi-Fi antenna. For example, the second Wi-Fi antenna may be located in a central position on the top of the communication device 1 in the landscape state of the communication device 1. The first Wi-Fi antenna may be located in a central position of the top of the communication device 1 in the portrait screen state of the communication device 1.
Because the communication device 1 is tightly attached to the supporting structures such as the desktop when in the landscape state, and the performance of the first Wi-Fi antenna is reduced, in the embodiment of the present application, on the basis that the first Wi-Fi antenna is disposed in the upper half area of the communication device 1 in the portrait state, it is also necessary to set that the first Wi-Fi antenna has a preset distance from the bottom side of the communication device 1 in the landscape state. The preset distance may be combined with actual experience to perform equipment, which is not limited in the embodiment of the present application.
As shown in fig. 3, when the communication device 1 is in the landscape state, the first Wi-Fi antenna is more likely to be held by hand and the performance of the first Wi-Fi antenna is degraded than the second Wi-Fi antenna, so that the second Wi-Fi antenna may be set as the first preset antenna in advance, and the first Wi-Fi antenna may be set as the second preset antenna in the embodiment of the present application.
As shown in fig. 4, when the communication device 1 is in the vertical screen state, compared with the first Wi-Fi antenna, the second Wi-Fi antenna is more likely to be held by a hand and the performance of the second Wi-Fi antenna is reduced, so that the first Wi-Fi antenna may be set as the first preset antenna in advance, and the second Wi-Fi antenna may be set as the second preset antenna in the embodiment of the present application.
On the basis of the embodiments shown in fig. 3 to 4, as shown in fig. 5 (for convenience of explanation, fig. 5 only shows the embodiment shown in fig. 3 as a basis), the communication device 1 may further include: a third Wi-Fi antenna (one third Wi-Fi antenna is illustrated in fig. 5). Wherein, the other signal terminal of the Wi-Fi chip 13 is electrically connected with a third Wi-Fi antenna.
Since the third Wi-Fi antenna is located in the upper half area of the communication device 1 in the vertical screen state and in the upper half area of the communication device 1 in the horizontal screen state, the third Wi-Fi antenna is not easily held by a hand no matter the communication device 1 is in the horizontal screen state or the vertical screen state.
Based on the above description, the third Wi-Fi antenna may be used for Wi-Fi communication of the communication device 1 to ensure Wi-Fi communication of the communication device 1. When the communication device 1 is in the landscape state, the second Wi-Fi antenna and the third Wi-Fi antenna can jointly form a MIMO antenna, and Wi-Fi communication of the communication device 1 is achieved. When the communication equipment 1 is in a vertical screen state, the first Wi-Fi antenna and the third Wi-Fi antenna can jointly form an MIMO antenna, and Wi-Fi communication of the communication equipment 1 is achieved.
The embodiment of the application does not limit the specific position and number of the third Wi-Fi antenna. For example, the third Wi-Fi antenna may be located in a central position on the top of the communication device 1 in the landscape state of the communication device 1. The third Wi-Fi antenna may be located in a central position on top of the communication device 1 in the portrait screen state of the communication device 1.
With continued reference to fig. 5, the communication device 1 may further include: the charging interface 16 is provided externally (the charging interface 16 is illustrated in a plurality of circles in fig. 5). The peripheral charging interface 16 is located in the lower half area of the communication device 1 in the first state, and the peripheral charging interface 16 is close to the bottom edge of the lower half area, so that the communication device 1 can charge the external device conveniently.
The specific location, number and type of the charging interface 16 are not limited in the embodiment of the present application. In addition, the first state may be a horizontal screen state or a vertical screen state, which is not limited in this application embodiment. For example, the peripheral charging interface 16 may be located at the center of the bottom side of the communication device 1 in the landscape state of the communication device 1. When the communication device 1 is in the vertical screen state, the peripheral charging interface 16 may be located at a center position of a bottom side of the communication device 1.
For example, if the communication device 1 is a tablet, the tablet case is covered with the tablet case, and the external device is placed on the tablet case, at this time, the tablet can be charged to the external device through the tablet case via the peripheral charging interface 16. It should be noted that the above charging method is only an exemplary method for charging the external device by the communication device 1 through the peripheral charging interface 16, and the embodiment of the present application is not limited to the above charging method.
For example, the present application further provides an antenna switching method, which may be implemented by the communication device in the embodiments shown in fig. 1 to 5 in a software and/or hardware manner, and may be implemented by setting a first preset antenna and a second preset antenna in advance from a plurality of Wi-Fi antennas, where the first preset antenna is used for Wi-Fi communication of the communication device, and the second preset antenna is used for communication between an external device and the communication device, so that based on an electrical connection relationship between components in the communication device, not only normal Wi-Fi communication of the communication device may be implemented through the first preset antenna, but also communication between the communication device and the external device may be implemented through an idle Wi-Fi antenna (i.e., the second preset antenna), so as to improve a utilization rate of the Wi-Fi antenna and improve a communication rate between the external device and the communication device, various scenes with low time delay in operation are met, and flexible operation and convenient use of a user are guaranteed.
Fig. 6 is a flowchart of an exemplary antenna switching method according to an embodiment of the present application. As shown in fig. 6, an antenna switching method according to an embodiment of the present application may include:
s101, the peripheral chip sends a matching success message to the control circuit, wherein the matching success message is used for indicating that the peripheral chip and the external equipment are successfully matched.
S102, when the control circuit receives the matching success message, the Wi-Fi chip is controlled to be switched to be electrically connected with a first preset antenna through the switch circuit, the peripheral chip is controlled to be switched to be electrically connected with a second preset antenna through the switch circuit, the first preset antenna and the second preset antenna are arranged in advance from the plurality of Wi-Fi antennas, the first preset antenna is used for Wi-Fi communication of the communication equipment, and the second preset antenna is used for communication between the external equipment and the communication equipment.
S103, controlling the communication equipment to carry out Wi-Fi communication through the first preset antenna by the Wi-Fi chip.
And S104, the peripheral chip controls the external equipment to communicate with the communication equipment through a second preset antenna.
The antenna switching method provided in this embodiment of the present application may adopt the communication device in the embodiment of fig. 1 to perform a process, and an implementation manner and a technical effect thereof are similar, and this embodiment of the present application is not described herein again.
For example, the antenna switching method according to the embodiment of the present application may further be configured to, when it is determined that the communication quality of the first target antenna is better than the communication quality of the second target antenna, based on the electrical connection relationship between each component in the communication device, not only achieve normal Wi-Fi communication of the communication device through the first target antenna, but also achieve a process of searching for an external device by using an idle Wi-Fi (i.e., the second target antenna), so as to improve a utilization rate of the Wi-Fi antenna.
Fig. 7 is a flowchart of an exemplary antenna switching method according to an embodiment of the present application. As shown in fig. 7, an antenna switching method according to an embodiment of the present application may include:
s201, the Wi-Fi chip judges the communication quality of the Wi-Fi antennas.
S202, the Wi-Fi chip sends a judgment result to the control circuit, wherein the judgment result is that the communication quality of the first target antenna is superior to that of the second target antenna, the first target antenna is used for Wi-Fi communication of the communication equipment, and the second target antenna is used for searching the external equipment by the peripheral chip.
S203, when the control circuit receives the judgment result, the Wi-Fi chip is controlled to be switched to be electrically connected with the first target antenna through the switch circuit, and the peripheral chip is controlled to be switched to be electrically connected with the second target antenna through the switch circuit.
And S204, controlling the communication equipment to carry out Wi-Fi communication through the first target antenna by the Wi-Fi chip.
And S205, the peripheral chip controls the peripheral chip to search the peripheral through the second target antenna.
The antenna switching method provided in this embodiment of the present application may adopt the communication device in the embodiment of fig. 2 to perform a process, and an implementation manner and a technical effect thereof are similar, and this embodiment of the present application is not described herein again.
In addition, the communication device may perform the steps shown in fig. 7 such that the communication device performs Wi-Fi communication through the first target antenna and the external device chip searches for the external device through the second target antenna. When the peripheral chip searches for the external device by using the second target antenna and successfully matches the external device, the communication device may perform the steps shown in fig. 6, so that the communication device performs Wi-Fi communication through the first preset antenna, and the external device communicates with the communication device through the second preset antenna.
However, since the Wi-Fi chip is electrically connected to the first target antenna and the peripheral chip is electrically connected to the second target antenna at the end of the step shown in fig. 7, it can be seen that the current state of the switch circuit is a state in which the Wi-Fi chip is electrically connected to the first target antenna through the switch circuit and the peripheral chip is electrically connected to the second target antenna through the switch circuit. However, in the step shown in fig. 6, the Wi-Fi chip needs to be electrically connected to the first predetermined antenna, and the peripheral chip needs to be electrically connected to the second predetermined antenna. For convenience of description, the preset state of the switch circuit may be set in advance to a state in which the Wi-Fi chip is electrically connected to the first preset antenna through the switch circuit, and the peripheral chip is electrically connected to the second preset antenna through the switch circuit.
Based on the above description, before the communication device performs the steps shown in fig. 6, the control circuit may optionally determine whether the current state of the switch circuit is a preset state.
When the control circuit judges that the current state of the switch circuit is the preset state, the control circuit can lock the current state of the switch circuit, so that the Wi-Fi chip controls the communication equipment to carry out Wi-Fi communication through the first target antenna (namely the first preset antenna), and the peripheral chip controls the external equipment to carry out communication with the communication equipment through the second target antenna (namely the second preset antenna).
When the control circuit judges that the current state of the switch circuit is not the preset state, the control circuit can update the current state of the switch circuit to the preset state so as to control the Wi-Fi chip to be switched to be electrically connected with the first preset antenna through the switch circuit and control the peripheral chip to be switched to be electrically connected with the second preset antenna through the switch circuit.
Optionally, after the control circuit updates the current state of the switch circuit to the preset state, the current state of the switch circuit may be locked, that is, the Wi-Fi chip is electrically connected to the first preset antenna, and the peripheral chip is electrically connected to the second preset antenna.
In the embodiment of the application, after the communication device performs Wi-Fi communication through the first target antenna and the peripheral chip searches for the external device through the second target Wi-Fi antenna, when the peripheral chip is successfully matched with the external device, the control circuit can judge whether the current state of the switch circuit is a preset state. If yes, the control circuit can determine that the first target antenna is the first preset antenna, and the second target antenna is the second preset antenna, so that the current state of the switch circuit can be locked. If not, the control circuit can adjust the current state of the switch circuit to a preset state, so that the Wi-Fi chip is electrically connected with the first preset antenna and the peripheral chip is electrically connected with the second preset antenna. Therefore, the communication device can carry out Wi-Fi communication through the first preset antenna, and the external device can carry out communication with the communication device through the second preset antenna.
Fig. 8 is a schematic diagram of a hardware structure of an exemplary communication device provided in an embodiment of the present application, and as shown in fig. 8, the communication device may include, but is not limited to, a terminal, where: the wireless terminal can be a wireless terminal or a wired terminal, and the wireless terminal can be a device with a wireless transceiving function, can be deployed on land, and comprises indoor or outdoor, handheld or vehicle-mounted; can also be deployed on the water surface (such as a ship and the like); and may also be deployed in the air (e.g., airplanes, balloons, satellites, etc.). The terminal may be a personal computer, a game machine, an MP3 player, a mobile phone (mobile phone), a tablet computer (Pad), a computer with wireless transceiving function, a printer, a Virtual Reality (VR) terminal, an Augmented Reality (AR) terminal, a wireless terminal in industrial control (industrial control), a wireless terminal in self driving (self driving), a wireless terminal in remote medical (remote medical), a wireless terminal in smart grid (smart grid), a wireless terminal in transportation safety, a wireless terminal in city (smart city), a wireless terminal in smart home (smart home), etc., but is not limited thereto, and is used to implement the operation of the communication device through software and/or hardware in the above-described method embodiments shown in fig. 6 to 7. The communication device 100 of the embodiment of the present application may include: a memory 101 and a processor 102. The memory 101 and the processor 102 may be connected by a bus 103.
A memory 101 for storing program codes;
the processor 102 invokes program code, which when executed, is configured to perform the antenna switching method in any of the above embodiments. Reference may be made in particular to the description relating to the method embodiments described above.
Optionally, the embodiment of the present application further includes a communication interface 104, and the communication interface 104 may be connected to the processor 102 through the bus 103. The processor 102 may control the communication interface 103 to implement the above-described receiving and transmitting functions of the communication device 100.
The communication device of the embodiment of the present application may be configured to execute the technical solutions in the above method embodiments, and the implementation principles and technical effects are similar, which are not described herein again.
In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described device embodiments are merely illustrative, and for example, the division of the modules is only one logical division, and other divisions may be realized in practice, for example, a plurality of modules may be combined or 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 modules, and may be in an electrical, mechanical or other form.
The modules described as separate parts may or may not be physically separate, and parts displayed as modules 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 modules can be selected according to actual needs to achieve the purpose of the solution of the embodiments of the present application.
In addition, functional modules in the embodiments of the present application may be integrated into one processing unit, or each module may exist alone physically, or two or more modules are integrated into one unit. The unit formed by the modules can be realized in a hardware form, and can also be realized in a form of hardware and a software functional unit.
The integrated module implemented in the form of a software functional module may be stored in a computer-readable storage medium. The software functional module is stored in a storage medium and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device) or a processor (processor) to execute some steps of the methods according to the embodiments of the present application.
It should be understood that the Processor may be a Central Processing Unit (CPU), other general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), etc. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of a method disclosed in connection with the present invention may be embodied directly in a hardware processor, or in a combination of the hardware and software modules within the processor.
The memory may comprise a high-speed RAM memory, and may further comprise a non-volatile storage NVM, such as at least one disk memory, and may also be a usb disk, a removable hard disk, a read-only memory, a magnetic or optical disk, etc.
The bus may be an Industry Standard Architecture (ISA) bus, a Peripheral Component Interconnect (PCI) bus, an Extended ISA (EISA) bus, or the like. The bus may be divided into an address bus, a data bus, a control bus, etc. For ease of illustration, the buses in the figures of the present application are not limited to only one bus or one type of bus.
The present application further provides a readable storage medium, in which an execution instruction is stored, and when at least one processor of the communication device executes the execution instruction, the communication device executes the antenna switching method in the foregoing method embodiment.
The application also provides a chip, wherein the chip is connected with the memory, or the chip is integrated with the memory, and when a software program stored in the memory is executed, the antenna switching method in the embodiment of the method is realized.
The present application also provides a program product comprising execution instructions stored in a readable storage medium. The at least one processor of the communication device may read the execution instruction from the readable storage medium, and the execution of the execution instruction by the at least one processor causes the communication device to implement the antenna switching method in the above-described method embodiment.
In the above embodiments, the implementation may be wholly or partially realized by software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When loaded and executed on a computer, cause the processes or functions described in accordance with the embodiments of the application to occur, in whole or in part. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device. The computer instructions may be stored in a computer readable storage medium or transmitted from one computer readable storage medium to another, for example, from one website site, computer, server, or data center to another website site, computer, server, or data center via wired (e.g., coaxial cable, fiber optic, Digital Subscriber Line (DSL)) or wireless (e.g., infrared, wireless, microwave, etc.). The computer-readable storage medium can be any available medium that can be accessed by a computer or a data storage device, such as a server, a data center, etc., that incorporates one or more of the available media. The usable medium may be a magnetic medium (e.g., floppy Disk, hard Disk, magnetic tape), an optical medium (e.g., DVD), or a semiconductor medium (e.g., Solid State Disk (SSD)), among others.
Claims (16)
1. A communication device, comprising: the Wi-Fi control circuit comprises a plurality of Wi-Fi antennas, a control circuit, a Wi-Fi chip, a peripheral chip and a switch circuit;
the first input end of the control circuit is electrically connected with the output end of the peripheral chip, the output end of the control circuit is electrically connected with the control end of the switch circuit, the signal end of the Wi-Fi chip is electrically connected with the first input end of the switch circuit, the signal end of the peripheral chip is electrically connected with the second input end of the switch circuit, and each output end of the switch circuit is electrically connected with one Wi-Fi antenna;
the peripheral chip is used for sending a matching success message to the control circuit, wherein the matching success message is used for indicating that the peripheral chip is successfully matched with external equipment;
the control circuit is configured to control the Wi-Fi chip to be electrically connected to a first preset antenna through the switch circuit and control the peripheral chip to be electrically connected to a second preset antenna through the switch circuit when the matching success message is received, where the first preset antenna and the second preset antenna are set in advance from the plurality of Wi-Fi antennas, the first preset antenna is used for Wi-Fi communication of the communication device, and the second preset antenna is used for communication between the external device and the communication device;
the Wi-Fi chip is used for controlling the communication equipment to carry out Wi-Fi communication through the first preset antenna;
and the peripheral chip is used for controlling the external equipment to communicate with the communication equipment through the second preset antenna.
2. The communication device of claim 1, wherein a second input of the control circuit is electrically connected to an output of the Wi-Fi chip;
the Wi-Fi chip is used for judging the communication quality of the Wi-Fi antennas; sending a judgment result to the control circuit, wherein the judgment result is that the communication quality of a first target antenna is superior to that of a second target antenna, the first target antenna is used for Wi-Fi communication of the communication equipment, and the second target antenna is used for searching external equipment by the peripheral chip;
the control circuit is used for controlling the Wi-Fi chip to be switched to be electrically connected with the first target antenna through the switch circuit and controlling the peripheral chip to be switched to be electrically connected with the second target antenna through the switch circuit when the judgment result is received;
the Wi-Fi chip is used for controlling the communication equipment to carry out Wi-Fi communication through the first target antenna;
and the peripheral chip is used for controlling the peripheral chip to search for the external equipment through the second target antenna.
3. The communication device of claim 2,
the control circuit is used for judging whether the current state of the switch circuit is a preset state or not when the matching success message is received, wherein the current state is a state that the Wi-Fi chip is electrically connected with the first target antenna through the switch circuit, the peripheral chip is electrically connected with the second target antenna through the switch circuit, the preset state is a state that the Wi-Fi chip is arranged in advance and electrically connected with the first preset antenna through the switch circuit, and the peripheral chip is electrically connected with the second preset antenna through the switch circuit.
4. The communication device of claim 3,
the control circuit is used for locking the current state of the switch circuit when the current state of the switch circuit is judged to be the preset state, so that the Wi-Fi chip controls the communication equipment to carry out Wi-Fi communication through the first target antenna, and the peripheral chip controls the external equipment to carry out communication with the communication equipment through the second target antenna;
the control circuit is used for updating the current state of the switch circuit to the preset state when the current state of the switch circuit is judged not to be the preset state, so that the Wi-Fi chip is controlled to be switched to be electrically connected with the first preset antenna through the switch circuit and the peripheral chip is controlled to be switched to be electrically connected with the second preset antenna through the switch circuit.
5. The communication device of claim 4,
the control circuit is further configured to lock the current state of the switching circuit after updating the current state of the switching circuit to the preset state.
6. The communication device according to any of claims 2-5, wherein the Wi-Fi chip is configured to determine the communication quality of the plurality of Wi-Fi antennas according to the Received Signal Strength Indication (RSSI) of the plurality of Wi-Fi antennas.
7. The communication device of any of claims 1-6, wherein the plurality of Wi-Fi antennas comprises: a first Wi-Fi antenna and a second Wi-Fi antenna; the first Wi-Fi antenna is located in the upper half area of the communication equipment in the vertical screen state, a preset distance exists between the first Wi-Fi antenna and the bottom edge of the communication equipment in the horizontal screen state, and the second Wi-Fi antenna is located in the upper half area of the communication equipment in the horizontal screen state;
when the communication equipment is in a landscape state, the first preset antenna is the second Wi-Fi antenna, and the second preset antenna is the first Wi-Fi antenna;
when the communication equipment is in a vertical screen state, the first preset antenna is the first Wi-Fi antenna, and the second preset antenna is the second Wi-Fi antenna.
8. The communication device of claim 7, further comprising: a third Wi-Fi antenna;
the third Wi-Fi antenna is located in the upper half area of the communication equipment in the vertical screen state and located in the upper half area of the communication equipment in the horizontal screen state; the other signal end of the Wi-Fi chip is electrically connected with the third Wi-Fi antenna, and the third Wi-Fi antenna is used for Wi-Fi communication of the communication equipment.
9. The communication device according to any of claims 1-8, wherein the external device is a keyboard and/or a mouse.
10. The communication device of any of claims 1-9, wherein the switching circuit is a double pole double throw switch.
11. The communication device according to any of claims 1-10, wherein the communication device further comprises: the communication equipment comprises a peripheral charging interface, wherein the peripheral charging interface is located in a lower half area of the communication equipment in a first state, and the peripheral charging interface is close to the bottom edge of the lower half area.
12. An antenna switching method is applied to a communication device, and the communication device comprises: the wireless fidelity Wi-Fi wireless communication system comprises a plurality of wireless fidelity Wi-Fi antennas, a control circuit, a Wi-Fi chip, an external chip and a switch circuit; the first input end of the control circuit is electrically connected with the output end of the peripheral chip, the output end of the control circuit is electrically connected with the control end of the switch circuit, the signal end of the Wi-Fi chip is electrically connected with the first input end of the switch circuit, the signal end of the peripheral chip is electrically connected with the second input end of the switch circuit, and each output end of the switch circuit is electrically connected with one Wi-Fi antenna;
the method comprises the following steps:
the peripheral chip sends a matching success message to the control circuit, wherein the matching success message is used for indicating that the peripheral chip is successfully matched with the external equipment;
when the control circuit receives the matching success message, the Wi-Fi chip is controlled to be switched to be electrically connected with a first preset antenna through the switch circuit, and the peripheral chip is controlled to be switched to be electrically connected with a second preset antenna through the switch circuit, wherein the first preset antenna and the second preset antenna are arranged in the Wi-Fi antennas in advance, the first preset antenna is used for Wi-Fi communication of the communication equipment, and the second preset antenna is used for communication between the external equipment and the communication equipment;
the Wi-Fi chip controls the communication equipment to carry out Wi-Fi communication through the first preset antenna;
and the peripheral chip controls the external equipment to communicate with the communication equipment through the second preset antenna.
13. The method of claim 12, wherein a second input of the control circuit is electrically connected to an output of the Wi-Fi chip;
the method further comprises the following steps:
the Wi-Fi chip judges the communication quality of the Wi-Fi antennas;
the Wi-Fi chip sends a judgment result to the control circuit, wherein the judgment result is that the communication quality of a first target antenna is superior to that of a second target antenna, the first target antenna is used for Wi-Fi communication of the communication equipment, and the second target antenna is used for the peripheral chip to search for external equipment;
when the control circuit receives the judgment result, the Wi-Fi chip is controlled to be switched to be electrically connected with the first target antenna through the switch circuit, and the peripheral chip is controlled to be switched to be electrically connected with the second target antenna through the switch circuit;
the Wi-Fi chip controls the communication equipment to carry out Wi-Fi communication through the first target antenna;
and the peripheral chip controls the peripheral chip to search for the external equipment through the second target antenna.
14. The method of claim 13,
when the control circuit receives the matching success message, the Wi-Fi chip is controlled to be switched to be electrically connected with a first preset antenna through the switch circuit, and before the peripheral chip is controlled to be switched to be electrically connected with a second preset antenna through the switch circuit, the method further comprises the following steps:
the control circuit judges whether the current state of the switch circuit is a preset state or not, wherein the current state is the current state that the Wi-Fi chip is electrically connected with the first target antenna through the switch circuit, the peripheral chip is electrically connected with the second target antenna through the switch circuit, the preset state is a state that the Wi-Fi chip is arranged in advance through the switch circuit and the first preset antenna, and the peripheral chip is electrically connected with the second preset antenna through the switch circuit.
15. The method of claim 14, wherein the control circuit, upon receiving the matching success message, controls the Wi-Fi chip to switch to be electrically connected to a first predetermined antenna through the switch circuit, and controls the peripheral chip to switch to be electrically connected to a second predetermined antenna through the switch circuit, including:
when the control circuit judges that the current state of the switch circuit is the preset state, the current state of the switch circuit is locked, so that the Wi-Fi chip controls the communication equipment to carry out Wi-Fi communication through the first target antenna, and the peripheral chip controls the external equipment to carry out communication with the communication equipment through the second target antenna;
when the control circuit judges that the current state of the switch circuit is not the preset state, the current state of the switch circuit is updated to the preset state so as to control the Wi-Fi chip to be switched to be electrically connected with the first preset antenna through the switch circuit and control the peripheral chip to be switched to be electrically connected with the second preset antenna through the switch circuit.
16. The method of claim 15, further comprising:
and after the current state of the switch circuit is updated to the preset state by the control circuit, the current state of the switch circuit is locked.
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CN201910645765.3A CN112242863B (en) | 2019-07-17 | 2019-07-17 | Communication device and antenna switching method |
PCT/CN2020/102573 WO2021008597A1 (en) | 2019-07-17 | 2020-07-17 | Communication device and antenna switching method |
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CN201910645765.3A CN112242863B (en) | 2019-07-17 | 2019-07-17 | Communication device and antenna switching method |
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