WO2023124455A1 - Communication control method and apparatus, radio frequency system, communication device, and storage medium - Google Patents
Communication control method and apparatus, radio frequency system, communication device, and storage medium Download PDFInfo
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- WO2023124455A1 WO2023124455A1 PCT/CN2022/127001 CN2022127001W WO2023124455A1 WO 2023124455 A1 WO2023124455 A1 WO 2023124455A1 CN 2022127001 W CN2022127001 W CN 2022127001W WO 2023124455 A1 WO2023124455 A1 WO 2023124455A1
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- 238000004891 communication Methods 0.000 title claims abstract description 212
- 238000000034 method Methods 0.000 title claims abstract description 51
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- 238000012545 processing Methods 0.000 claims description 26
- 238000004590 computer program Methods 0.000 claims description 18
- 238000002955 isolation Methods 0.000 claims description 13
- 230000005540 biological transmission Effects 0.000 claims description 11
- 238000010586 diagram Methods 0.000 description 8
- 238000005516 engineering process Methods 0.000 description 7
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- 230000001360 synchronised effect Effects 0.000 description 7
- 238000006243 chemical reaction Methods 0.000 description 6
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- 101150041689 SLC25A5 gene Proteins 0.000 description 2
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B1/00—Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
- H04B1/38—Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
- H04B1/40—Circuits
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04J—MULTIPLEX COMMUNICATION
- H04J11/00—Orthogonal multiplex systems, e.g. using WALSH codes
- H04J11/0023—Interference mitigation or co-ordination
- H04J11/0063—Interference mitigation or co-ordination of multipath interference, e.g. Rake receivers
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/80—Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/02—Terminal devices
- H04W88/06—Terminal devices adapted for operation in multiple networks or having at least two operational modes, e.g. multi-mode terminals
Definitions
- the present application relates to the technical field of communication, and in particular to a communication control method, device, radio frequency system, communication equipment and storage medium.
- LTE Long Term Evolution
- LTE Long Term Evolution
- New Radio New Radio
- WIFI Wireless Fidelity
- WIFI Wireless Fidelity
- Bluetooth technology Bluetooth, Bluetooth
- a communication control method, device, radio frequency system, communication device and storage medium which can select a matching coexistence working mode in a coexistence scenario of different communication standards to improve communication quality.
- the present application provides a communication control method, which is applied to a radio frequency system, and the radio frequency system includes a first transceiver circuit and a second transceiver circuit, and the first transceiver circuit and the second transceiver circuit are used for Support the sending and receiving processing of short-distance wireless communication signals of different communication standards; the method includes:
- the first transceiver circuit When there is interference between the first transceiver circuit and the second transceiver circuit, acquire anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit, and acquire the impact of the first communication signal on the second transceiver circuit.
- the interference information of the second communication signal received by the first transceiver circuit
- the first transceiving circuit and the second transceiving circuit are controlled to work simultaneously in a frequency division multiplexing mode.
- the present application provides a communication control device, which is applied to a radio frequency system, and the radio frequency system includes a first transceiver circuit and a second transceiver circuit, and the first transceiver circuit and the second transceiver circuit are used for Support the sending and receiving processing of short-distance wireless communication signals of different communication formats;
- the device includes:
- An information acquisition module configured to acquire anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit when there is interference between the first transceiver circuit and the second transceiver circuit, and acquire the Interference information of the first communication signal on the second communication signal received by the first transceiver circuit;
- a first control module configured to control the first transceiving circuit and the second transceiving circuit to work in frequency division multiplexing when the anti-blocking information satisfies a first threshold condition and the interference information satisfies a second threshold condition modes work simultaneously.
- the present application provides a radio frequency system, including:
- the processing circuit is connected to the first transceiver circuit and the second transceiver circuit respectively, and is used to acquire the pairing of the first transceiver circuit to the second transceiver circuit when there is interference between the first transceiver circuit and the second transceiver circuit.
- the anti-blocking information of the first communication signal transmitted by the transceiver circuit, and the interference information of the first communication signal on the second communication signal received by the first transceiver circuit when the anti-blocking information satisfies the first threshold condition and the When the interference information satisfies the second threshold condition, control the first transceiver circuit and the second transceiver circuit to work simultaneously in frequency division multiplexing mode;
- the first transceiving circuit and the second transceiving circuit are respectively used to support transceiving processing of short-distance wireless communication signals of different communication standards.
- the present application provides a communication device, including a memory and a processor, the memory stores a computer program, and the processor implements the steps of the foregoing method when executing the computer program.
- the present application provides a computer-readable storage medium on which a computer program is stored, and when the computer program is executed by a processor, the steps of the aforementioned method are implemented.
- Fig. 1 is one of the structural schematic diagrams of the radio frequency system of an embodiment
- Fig. 2 is one of the flowcharts of the communication control method of an embodiment
- Fig. 3 is the second flow chart of the communication control method of an embodiment
- FIG. 4 is a specific flow chart of acquiring anti-blocking information in an embodiment
- FIG. 5 is a specific flow chart of obtaining interference information in an embodiment
- Fig. 6 is one of the structural block diagrams of the communication control device of an embodiment
- Fig. 7 is the second structural block diagram of the communication control device of an embodiment
- FIG. 8 is a second structural schematic diagram of a radio frequency system according to an embodiment
- FIG. 9 is a third structural schematic diagram of a radio frequency system according to an embodiment.
- Fig. 10 is an internal structural diagram of a communication device according to an embodiment.
- first, second and the like used in this application may be used to describe various elements herein, but these elements are not limited by these terms. These terms are only used to distinguish one element from another element.
- a first client could be termed a second client, and, similarly, a second client could be termed a first client, without departing from the scope of the present application.
- Both the first client and the second client are clients, but they are not the same client.
- time division multiplexing technology is used for communication. That is, the radio frequency system performs time-division reception of signals of different communication standards.
- BT Bluetooth
- WIFI networks of different communication standards will compete for hardware periodically. If the hardware is grabbed by Bluetooth, it will cause the communication between WIFI and router to be interrupted, and vice versa.
- Relevant improvement technologies can suppress the above contention problem, but the suppression process will have a great impact on the rate of WIFI and Bluetooth, increase the signal delay, and may lead to an increase in the frequency of WIFI and Bluetooth stuttering.
- blindly using multiple communication technologies to work at the same time it may cause the two communications to interfere with each other and make it impossible to communicate, resulting in a decrease in communication quality.
- the embodiment of the present application provides a communication control method, which can be applied to a radio frequency system, so that the radio frequency system is in a coexistence working mode matching the anti-blocking information and interference information, and improves communication quality.
- the radio frequency system includes a first transceiver circuit 110 and a second transceiver circuit 120 .
- the first transceiver circuit 110 and the second transceiver circuit 120 are respectively used to support the transceiver processing of short-distance wireless communication signals of different communication systems, so that the radio frequency system supports short-distance wireless communication of multiple different communication systems, such as WIFI communication, Bluetooth communication etc.
- the first transceiver circuit 110 supports WIFI communication
- the second transceiver circuit 120 supports Bluetooth communication
- the second transceiver circuit 120 supports WIFI communication
- the first transceiver circuit 110 supports Bluetooth communication
- WIFI communication and Bluetooth communication can be 2.4G Bluetooth communication and 5G WIFI communication, where 2.4G refers to the 2402MHz-2482MHz of the ISM frequency band; 5G refers to the 5170Mhz-5835Mhz of the existing 5G and future WIFI 6E expansion frequency band.
- the first transceiver circuit 110 and the second transceiver circuit 120 are respectively connected to the same antenna, so that the first transceiver circuit 110 and the second transceiver circuit 120 support the transmission and reception of communication signals through the same antenna;
- a transceiver circuit 110 and a second transceiver circuit 120 are respectively connected to different antennas (Fig. 1 is taken as an illustration, only for illustration, not limited), so that the first transceiver circuit 110 and the second transceiver circuit 120 are respectively supported by different antennas. Transmission and reception of communication signals.
- the radio frequency system further includes a processing circuit 130, and the processing circuit 130 may include one or more processors.
- the processing circuit 130 may include a short-range wireless communication processor (for example, WIFI&BT chip ) and the CPU.
- the short-distance wireless communication processor can be used to complete the conversion and inverse conversion process from digital signal to radio frequency signal, including encapsulation and framing of digital signal, conversion of digital-to-analog signal, modulation, up-conversion and other processes, and finally generates the corresponding WIFI signal or Bluetooth signal, or after receiving the signal, send it to the central processing unit through a series of reverse processes.
- the inverse process may include processes such as down-conversion, demodulation, analog-to-digital signal conversion, and decapsulation.
- the central processing unit can be used to analyze and process the signal output by the short-distance wireless communication processor, and can be used to control the conduction control of each switch in the radio frequency system, etc.
- Fig. 2 is a flowchart of a communication control method in an embodiment. As shown in FIG. 2 , the communication control method includes step 202 to step 204 .
- Step 202 when there is interference between the first transceiver circuit and the second transceiver circuit, obtain the anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit, and obtain the anti-blocking information of the first communication signal to the first transceiver circuit. Interference information of the received second communication signal.
- the transceiver circuit in the signal transmitting state will interfere with the reception of the signal by the transceiver circuit in the signal receiving state when transmitting a signal, thereby possibly reducing the The reception quality of the transceiver circuit.
- the first transceiver circuit is used as the transceiver circuit in the receiving state
- the second transceiver circuit is used as the transceiver circuit in the transmitting state.
- the interference of the second transceiver circuit in the transmitting state on the first transceiver circuit in the receiving state includes blocking interference and noise interference of the first communication signal transmitted by the second transceiver circuit on the second communication signal received by the first transceiver circuit.
- Blocking interference refers to the blockage of the first communication signal to the demodulation of the second communication signal by the receiver of the first transceiver circuit;
- noise interference refers to the interference of the noise generated when the first communication signal is transmitted to the reception of the second communication signal.
- the noise is an interference signal within the receiving frequency range of the first transceiver circuit, which may lead to deterioration of the signal-to-noise ratio of the first transceiver circuit.
- the anti-blocking information refers to information related to the first transceiver circuit's resistance to blocking interference of the first communication signal
- the interference information refers to information related to noise interference of the first communication signal that the first transceiver circuit withstands.
- the coexistence interference parameters of each operating frequency of the second transceiver circuit to each operating frequency of the first transceiver circuit can be preset, and then according to The actually measured coexistence interference parameter is compared with the preset coexistence interference parameter to determine whether there is interference between the first transceiver circuit and the second transceiver circuit.
- the coexistence interference parameters of each operating frequency of the first transceiver circuit to each operating frequency of the second transceiver circuit can be preset, and then the actual measured coexistence interference parameters are compared with the preset coexistence interference parameters , to determine whether there is interference between the first transceiver circuit and the second transceiver circuit.
- Step 204 when the anti-blocking information satisfies the first threshold condition and the interference information satisfies the second threshold condition, control the first transceiving circuit and the second transceiving circuit to work simultaneously in frequency division multiplexing mode.
- the first threshold condition is a preset condition that the blocking interference is within the tolerable range of the first transceiver circuit.
- the first transceiver circuit can withstand the blocking interference caused by the current second transceiver circuit.
- a receiver of the transceiver circuit is capable of demodulating the received second communication signal.
- the second threshold condition is a preset condition that the noise interference is within the tolerable range of the first transceiver circuit.
- the first transceiver circuit can withstand the noise interference caused by the current second transceiver circuit, and the reception quality in the tolerable range.
- the interference between the first transceiver circuit and the second transceiver circuit of different communication standards is very small, and the first transceiver circuit and the second transceiver circuit Simultaneous communication of the circuits does not affect each other, and can support the simultaneous operation of the first transceiver circuit and the second transceiver circuit of different communication standards, so that the first transceiver circuit and the second transceiver circuit can be controlled to work simultaneously in the frequency division multiplexing working mode.
- the anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit is obtained to obtain the first Interference information of the communication signal on the second communication signal received by the first transceiver circuit;
- the anti-blocking information satisfies the first threshold condition and the interference information satisfies the second threshold condition the first transceiver circuit and the second transceiver circuit are controlled to use frequency division multiplexing Simultaneously work in the working mode, so that the radio frequency system is in the coexistence working mode matching the anti-blocking information and interference information, so as to improve the communication quality.
- the method also includes:
- Step 206 when the anti-blocking information does not meet the first threshold condition and/or the interference information does not meet the second threshold condition, control the first transceiver circuit and the second transceiver circuit to work independently of each other in a time division multiplexing mode.
- the first transceiver circuit when the anti-blocking information does not meet the first threshold condition, the first transceiver circuit cannot withstand the blocking interference caused by the current second transceiver circuit, and the first communication signal blocks the demodulation of the receiver of the first transceiver circuit.
- the interference information does not meet the second threshold condition, the first transceiver circuit cannot bear the current noise interference caused by the second transceiver circuit, and the noise interference will worsen the noise in the receiving frequency band of the first transceiver circuit, resulting in deterioration of the signal-to-noise ratio.
- the anti-blocking information does not meet the first threshold condition and/or the interference information does not meet the second threshold condition, it indicates that the interference between the first transceiver circuit and the second transceiver circuit of different communication standards is relatively large, and the first transceiver circuit Simultaneous communication with the second transceiver circuit will affect each other, and the first transceiver circuit and the second transceiver circuit of different communication standards are not supported to be carried out simultaneously, thereby controlling the first transceiver circuit and the second transceiver circuit to work independently of each other in a time-division multiplexing mode. That is to say, the first transceiver circuit and the second transceiver circuit are controlled to communicate in time intervals, thereby avoiding mutual interference between the first transceiver circuit and the second transceiver circuit, and improving communication quality.
- the priority of the first threshold condition is higher than that of the second threshold condition, and when the anti-blocking information does not meet the first threshold condition, the first communication signal blocks the demodulation of the receiver of the first transceiver circuit, and the first The receiver of the transceiver circuit cannot demodulate the second communication signal, and it can directly determine that the first transceiver circuit cannot withstand the interference of the second transceiver circuit to control the first transceiver circuit and the second transceiver circuit to work independently of each other in time-division multiplexing mode. It is then determined whether the interference information satisfies the second threshold condition, thereby saving determination time and improving determination efficiency and communication efficiency.
- the anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit is obtained to obtain the first Interference information of the communication signal on the second communication signal received by the first transceiver circuit; when the anti-blocking information does not meet the first threshold condition and/or the interference information does not meet the second threshold condition, control the first transceiver circuit and the second transceiver circuit
- the time-division multiplexing working mode is adopted to work independently of each other, so that the radio frequency system is in a co-existing working mode matching the anti-blocking information and interference information, and the communication quality is improved.
- the method may further include: when the anti-blocking information does not meet the first threshold condition and/or the interference information does not meet the second threshold condition, the second transceiver circuit that controls the transmission state reduces the first The transmission power of the communication signal, and the signal reception strength of the first transceiver circuit that controls the receiving state to receive the second communication signal, and re-execute step 202 and other related steps.
- obtaining the anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit includes:
- Step 302 acquiring an energy value generated when the second transceiver circuit transmits the first communication signal.
- Step 304 acquiring a first suppression capability value of the first transceiver circuit for suppressing blocking of the first communication signal.
- Step 306 acquiring anti-blocking information according to the energy value and the first suppression capability value.
- the anti-blocking information includes information related to resisting blocking interference of the first communication signal, for example, information about the magnitude of blocking interference and the ability of the first transceiver circuit to resist blocking interference.
- the size of the blocking interference can be fed back through the energy value generated when the second transceiver circuit transmits the first communication signal, that is, the energy value can be used to feed back the size of the blocking interference; the ability of the first transceiver circuit to resist blocking interference
- the information may include the first suppression capability value of the first transceiver circuit for suppressing the blocking of the first communication signal, specifically, the first suppression capability value of the first transceiver circuit for suppressing the blocking of the main frequency of the first communication signal to the receiver .
- the first transceiver circuit can suppress the blocking of the first communication signal by setting the first filter, so that the first suppression capability value can be the suppression capability value of the first filter to the transmission frequency point of the second transceiver circuit , can also be understood as the filtering capability of the first filter.
- the first suppression ability of the first transceiver circuit to suppress the blocking of the first communication signal is obtained. value, and then the anti-blocking information can be obtained according to the energy value and the first suppression capability value to determine the current anti-blocking situation of the first transceiver circuit and determine whether the first transceiver circuit can demodulate the received second communication signal.
- the anti-blocking information is a difference between the energy value and the first suppression capability value
- the first threshold condition includes that the anti-blocking information is smaller than the first threshold.
- the difference between the energy value and the first suppression capability value reflects the current blocking interference actually borne by the receiver of the first transceiver circuit. By judging whether the difference satisfies the first threshold condition, it can be judged whether the blocking interference of the second transceiver circuit is within the tolerable range of the first transceiver circuit.
- the first threshold condition includes that the anti-blocking information is smaller than the first threshold, and comparing the difference with the first threshold can determine whether the blocking interference is within the tolerable range of the first transceiver circuit.
- the first transceiver circuit and the second transceiver circuit are respectively connected to the same antenna, the first threshold is the tolerance value of the first transceiver circuit to an interference signal, and the interference signal is the first The noise received by the transceiver circuit; or the first transceiver circuit and the second transceiver circuit are respectively connected to different antennas, and the first threshold is the sum of the tolerance value and the antenna isolation.
- the interference signal is noise received by the first transceiver circuit when the second transceiver circuit transmits the first communication signal, and the noise falls within the receiving frequency range of the first transceiver circuit.
- the antenna isolation refers to the isolation between different antennas when the first transceiver circuit and the second transceiver circuit are connected to different antennas, and the isolation can be adjusted by switching the antennas.
- the first threshold is the tolerance value of the first transceiver circuit to the interference signal, when the difference between the energy value and the first suppression capability value is less than the tolerance value , to determine that the first transceiver circuit can withstand the blocking interference of the second transceiver circuit; Block interference.
- the tolerance value can be set according to actual communication service requirements.
- the first threshold is the sum of the tolerance value of the first transceiver circuit to the interference signal and the antenna isolation, when the energy value and the first suppression capability value are If the difference is less than the sum of the tolerance value and the antenna isolation, it is determined that the first transceiver circuit can withstand the blocking interference of the second transceiver circuit; when the difference between the energy value and the first suppression capability value is greater than or equal to the tolerance value and the antenna.
- the sum of the isolation degrees determines that the first transceiver circuit cannot withstand the blocking interference of the second transceiver circuit.
- acquiring interference information of the first communication signal on the second communication signal received by the first transceiver circuit includes:
- Step 402 acquiring noise generated when the second transceiver circuit transmits the first communication signal, where the noise is an interference signal located within a receiving frequency range of the first transceiver circuit.
- Step 404 acquiring a second suppression capability value of the second transceiver circuit for suppressing noise received by the first transceiver circuit.
- Step 406 acquiring interference information according to the noise and the second suppression capability value.
- the interference information refers to information related to the first communication signal noise interference suffered by the first transceiver circuit
- the interference information includes, for example, the size of the noise interference falling within the receiving frequency range of the first transceiver circuit when the second transceiver circuit transmits, and the second Information such as the ability of the transceiver circuit to suppress noise received by the first transceiver circuit.
- the magnitude of the noise interference is the noise that falls within the receiving frequency range of the first transceiver circuit when the second transceiver circuit transmits, and the magnitude of the noise can be understood as the rise of the interference signal compared to the noise floor in a clean environment;
- the second The capability information of the second transceiver circuit for suppressing noise received by the first transceiver circuit may include a second suppression capability value of the second transceiver circuit for suppressing noise received by the first transceiver circuit.
- the second transceiver circuit can set the second filter to realize the out-of-band noise generated when it transmits itself, thereby suppressing the noise from being received by the first transceiver circuit and reducing the signal-to-noise ratio of the receiving frequency band of the first transceiver circuit.
- the second suppression capability value can be understood as the filtering capability of the second filter.
- the noise suppressed by the second transceiver circuit is obtained by the first transceiver circuit.
- the second suppression ability value received by the transceiver circuit can then obtain interference information according to the noise and the second suppression capability value to determine the actual interference suffered by the first transceiver circuit, and then judge the current interference situation of the first transceiver circuit to determine the second Whether the first transceiver circuit can withstand the interference of the second transceiver circuit.
- the interference information is a difference between a noise parameter value and a second suppression capability value
- the second threshold condition includes that the interference information is greater than or equal to the second threshold.
- the parameter value of the noise can be understood as a parameter value measuring the size of the noise, and the difference between the parameter value of the noise and the second suppression capability value reflects the actual noise interference situation that the receiver of the first transceiver circuit currently bears.
- the second threshold condition includes that the interference information is smaller than the second threshold, and comparing the difference with the second threshold can determine whether the noise interference is within the tolerable range of the first transceiver circuit.
- the first transceiver circuit and the second transceiver circuit are respectively connected to the same antenna, and the second threshold is a preset threshold that the first transceiver circuit can withstand interference; or the first transceiver circuit and the second transceiver circuit are respectively connected to different antennas , the second threshold is the sum of the preset threshold and the antenna isolation.
- the second threshold is the preset threshold value of the interference that the first transceiver circuit can withstand, when the interference information is the difference between the parameter value of the noise and the second suppression capability value value is less than the preset threshold, it is determined that the first transceiver circuit can withstand the noise interference of the second transceiver circuit; when the interference information is that the difference between the noise parameter value and the second suppression capability value is greater than or equal to the preset threshold, it is determined that the The transceiver circuit cannot withstand noise interference from the second transceiver circuit.
- the preset threshold can be set according to actual communication service requirements. For example, the preset threshold can be set to 3dB. When the difference between the parameter value of the interference information being noise and the second suppression capability value is less than 3dB, it can be considered that the second A transceiver circuit can withstand noise interference from a second transceiver circuit.
- the second threshold is the sum of the preset threshold and the antenna isolation, and when the difference between the parameter value of the interference information being noise and the second suppression capability value is less than The sum of the preset threshold and the antenna isolation determines that the first transceiver circuit can withstand the noise interference of the second transceiver circuit; when the interference information is that the difference between the noise parameter value and the second suppression capability value is greater than or equal to the preset threshold The sum of the isolation degree and the antenna determines that the first transceiver circuit cannot withstand the noise interference of the second transceiver circuit.
- the second transceiver circuit may also be used as the transceiver circuit in the receiving state, and the first transceiver circuit may be used as the transceiver circuit in the transmitting state. It can be understood that when the second transceiver circuit is used as the transceiver circuit in the receiving state, and the first transceiver circuit is used as the transceiver circuit in the transmitting state, the relevant steps of the communication control method are only to replace the first transceiver circuit and the second transceiver circuit, specifically The steps and procedures still refer to the relevant descriptions of the above embodiments, and will not be repeated here.
- FIGS. 2-5 may include multiple sub-steps or multiple stages. These sub-steps or stages are not necessarily performed at the same time, but may be performed at different times. These sub-steps or The execution order of the stages is not necessarily performed sequentially, but may be executed alternately or alternately with at least a part of other steps or substeps of other steps or stages.
- Fig. 6 is a structural block diagram of a communication control device according to an embodiment, and the communication control device is used to execute the relevant steps of the embodiment shown in Fig. 2 .
- the communication control device is applied to the radio frequency system shown in FIG. 1 .
- the communication control device includes:
- the information acquisition module 502 is configured to acquire the anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit when there is interference between the first transceiver circuit and the second transceiver circuit, and acquire the first communication signal pair Interference information of the second communication signal received by the first transceiver circuit.
- the first control module 504 is configured to control the first transceiver circuit and the second transceiver circuit to work simultaneously in frequency division multiplexing mode when the anti-blocking information satisfies the first threshold condition and the interference information satisfies the second threshold condition.
- the communication control device obtains the first Interference information of the communication signal on the second communication signal received by the first transceiver circuit; when the anti-blocking information satisfies the first threshold condition and the interference information satisfies the second threshold condition, the first transceiver circuit and the second transceiver circuit are controlled to use frequency division multiplexing Simultaneously work in the working mode, so that the radio frequency system is in the coexistence working mode matching the anti-blocking information and interference information, so as to improve the communication quality.
- the communication control device further includes:
- the second control module 506 is configured to control the first transceiver circuit and the second transceiver circuit to work independently of each other in a time division multiplexing mode when the anti-blocking information does not meet the first threshold condition and/or the interference information does not meet the second threshold condition .
- the communication control device obtained in this embodiment obtains the first Interference information of the communication signal on the second communication signal received by the first transceiver circuit; when the anti-blocking information does not meet the first threshold condition and/or the interference information does not meet the second threshold condition, control the first transceiver circuit and the second transceiver circuit
- the time-division multiplexing working mode is adopted to work independently of each other, so that the radio frequency system is in a co-existing working mode matching the anti-blocking information and interference information, and the communication quality is improved.
- FIG. 1 is a structural block diagram of a radio frequency system according to an embodiment.
- the radio frequency system includes: a first transceiver circuit 110 , a second transceiver circuit 120 and a processing circuit 130 .
- the first transceiving circuit 110 and the second transceiving circuit 120 are respectively used to support transceiving processing of short-distance wireless communication signals of different communication standards.
- the processing circuit 130 is respectively connected with the first transceiver circuit 110 and the second transceiver circuit 120, and is used to acquire the information of the first transceiver circuit 110 on the second transceiver circuit 110 when there is interference between the first transceiver circuit 110 and the second transceiver circuit 120.
- the anti-blocking information of the first communication signal transmitted by the circuit 120 is used to obtain the interference information of the first communication signal on the second communication signal received by the first transceiver circuit 110; when the anti-blocking information satisfies the first threshold condition and the interference information satisfies the second threshold When conditions are met, the first transceiver circuit 110 and the second transceiver circuit 120 are controlled to work simultaneously in the frequency division multiplexing working mode.
- the first transceiver circuit 110 the second transceiver circuit 120 , and the processing circuit 130 , refer to the related descriptions of the above embodiments, and details are not repeated here.
- the radio frequency system provided in this embodiment includes a first transceiver circuit 110, a second transceiver circuit 120, and a processing circuit 130.
- the processing circuit 130 obtains the first transceiver circuit 110 and the second transceiver circuit 120.
- the circuit 110 obtains the anti-blocking information of the first communication signal transmitted by the second transceiver circuit 120, and obtains the interference information of the first communication signal to the second communication signal received by the first transceiver circuit 110; when the anti-blocking information satisfies the first threshold condition and When the interference information satisfies the second threshold condition, control the first transceiver circuit 110 and the second transceiver circuit 120 to work simultaneously in the frequency division multiplexing mode, so that the radio frequency system is in a coexistence mode that matches the anti-blocking information and the interference information , to improve communication quality.
- the processing circuit 130 is further configured to control the first transceiving circuit and the second transceiving circuit to adopt time division multiplexing when the anti-blocking information does not satisfy the first threshold condition and/or the interference information does not satisfy the second threshold condition
- the working modes work independently of each other, so that the radio frequency system is in a co-existing working mode matching the anti-blocking information and interference information, thereby improving communication quality.
- the radio frequency system further includes: a first filter 140 and a second filter 150 .
- the first filter 140 is set in the first transceiver circuit 110, and is used for suppressing the blocking of the transmission signal of the second transceiver circuit 120 on demodulating the first signal when the first transceiver circuit 110 receives the first signal; When the first transceiver circuit 110 transmits the second signal, the noise generated when transmitting the second signal is suppressed from being received by the second transceiver circuit 120 .
- the second filter 150 is set in the second transceiver circuit 120, and is used for suppressing the blocking of the transmission signal of the first transceiver circuit 110 on demodulating the third signal when the second transceiver circuit 120 receives the third signal; When the second transceiver circuit 120 transmits the fourth signal, the noise generated when transmitting the fourth signal is suppressed from being received by the first transceiver circuit 110 .
- the first filter 140 is used for suppressing the blocking of the transmission signal of the second transceiver circuit 120 to the demodulation of the first signal when the first transceiver circuit 110 receives the first signal, so that the receiver of the first transceiver circuit 110 realizes Demodulation of the first signal; it is also used to suppress the noise generated by itself from falling into the receiving frequency range of the second transceiver circuit 120 when the first transceiver circuit 110 transmits the second signal, so as to suppress the noise from being captured by the second transceiver circuit 120 Receiving, to avoid deterioration of the signal-to-noise ratio due to noise in the receiving frequency band of the second transceiver circuit 120 .
- the first filter 140 when the first signal and the second signal are high-frequency signals, the first filter 140 is a low-frequency filter to suppress low-frequency band signals; when the first signal and the second signal are low-frequency signals, The first filter 140 is a high frequency filter to suppress high frequency band signals.
- the second filter 150 is used for suppressing the blocking of the transmission signal of the first transceiver circuit 110 on demodulating the third signal when the second transceiver circuit 120 receives the third signal, so that the receiver of the second transceiver circuit 120 realizes Demodulation of the third signal; it is also used to suppress the noise generated by itself from falling into the receiving frequency range of the first transceiver circuit 110 when the second transceiver circuit 120 transmits the fourth signal, so as to suppress the noise from being transmitted by the first transceiver circuit 110 Receiving, to avoid deterioration of the signal-to-noise ratio due to noise in the receiving frequency band of the first transceiver circuit 110 .
- the second filter 150 when the third signal and the fourth signal are high-frequency signals, the second filter 150 is a low-frequency filter to suppress low-frequency band signals; when the third signal and the fourth signal are low-frequency signals, The second filter 150 is a high frequency filter to suppress high frequency band signals.
- the first filter 140 and the second filter 150 are selected according to the transceiver frequency bands of the first transceiver circuit 110 and the second transceiver circuit 120, for example, when the transceiver frequency band of the first transceiver circuit 110 is 5G, and the second transceiver When the transceiver frequency band of the circuit 120 is 2.4G, the first filter 140 can be a low-frequency filter to filter out the blocking and noise interference of the 2.4G signal, and the second filter 150 can be a high-frequency filter to filter out the blocking of the 5G signal and noise interference.
- the first transceiver circuit 110 and the second transceiver circuit 120 are respectively connected to different antennas, for example, when they are respectively connected to the first antenna Ant1 and the second antenna Ant2, the first filter 140 They are respectively connected to the first antenna Ant1 and the processing circuit 130, and the second filter 150 is connected to the second antenna Ant2 and the processing circuit 130 respectively.
- the radio frequency system when the first transceiver circuit 110 and the second transceiver circuit 120 are respectively connected to the same antenna, the radio frequency system further includes: a combiner 160, which is connected to the first transceiver circuit 110 respectively.
- the filter 140, the second filter 150 in the second transceiver circuit 120, and the antenna Ant3 are connected, and are used for combining the communication signal sent and received by the first transceiver circuit 110 with the communication signal sent and received by the second transceiver circuit 120, so as to realize
- the radio frequency system with common antennas saves the number of antennas and reduces the insertion loss of signals.
- first transceiver circuit 110 and the second transceiver circuit 120 in FIG. 8 and FIG. 9 only show the first filter 140 and the second filter 150, according to actual needs, the first The transceiver circuit 120 is also provided with other devices with corresponding functions, such as power amplifiers, low noise amplifiers, duplexers, etc., which are not specifically limited here.
- each module in the above communication control device and radio frequency system is only for illustration. In other embodiments, the communication control device and radio frequency system can be divided into different modules according to needs, so as to complete the communication control device and radio frequency system. full or partial functionality.
- Each module in the above-mentioned communication control device and radio frequency system may be fully or partially realized by software, hardware and combinations thereof.
- the above-mentioned modules can be embedded in or independent of the processor in the computer device in the form of hardware, and can also be stored in the memory of the computer device in the form of software, so that the processor can invoke and execute the corresponding operations of the above-mentioned modules.
- the present application also provides a communication device, including the radio frequency system in any one of the foregoing embodiments.
- the radio frequency system can be applied to communication devices, which can be handheld devices, smart cars, vehicle-mounted devices, wearable devices, computing devices, or other processing devices connected to wireless modems, as well as various forms of user equipment (User Equipment, UE ) (for example, mobile phone), mobile station (Mobile Station, MS) and so on.
- UE User Equipment
- mobile phone mobile station
- MS Mobile Station
- the present application also provides another communication device, including a memory and a processor, where a computer program is stored in the memory, and when the computer program is executed by the processor, the processor executes the method described in the above embodiment.
- the steps of the communication control method are shown in FIG. 10 .
- the communication device further includes a network interface connected to the processor and the memory through a system bus.
- the processor of the communication device is used to provide computing and control capabilities.
- the memory of the communication device includes a non-volatile storage medium and an internal memory.
- the non-volatile storage medium stores an operating system, computer programs and databases.
- the internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage medium.
- the network interface of the communication device is used to communicate with an external terminal through a network connection. When the computer program is executed by the processor, a communication control method is realized.
- the present application also provides a computer-readable storage medium, on which a computer program is stored.
- a computer program is stored.
- the steps of the selection method described in the above embodiments are realized, and/or the steps of the selection method described in the above embodiments are realized.
- the steps of the communication control method are realized.
- the present application also provides a computer program product, including a computer program.
- a computer program product including a computer program.
- the steps of the communication method described in the above embodiments are implemented.
- Non-volatile memory can include ROM (Read-Only Memory, read-only memory), PROM (Programmable Read-only Memory, programmable read-only memory), EPROM (Erasable Programmable Read-Only Memory, erasable programmable read-only memory) Memory), EEPROM (Electrically Erasable Programmable Read-only Memory, Electrically Erasable Programmable Read-only Memory) or flash memory.
- Volatile memory can include RAM (Random Access Memory, Random Access Memory), which is used as external cache memory.
- RAM is available in various forms, such as SRAM (Static Random Access Memory, static random access memory), DRAM (Dynamic Random Access Memory, dynamic random access memory), SDRAM (Synchronous Dynamic Random Access Memory , synchronous dynamic random access memory), double data rate DDR SDRAM (Double Data Rate Synchronous Dynamic Random Access memory, double data rate synchronous dynamic random access memory), ESDRAM (Enhanced Synchronous Dynamic Random Access memory, enhanced synchronous dynamic random access memory access memory), SLDRAM (Sync Link Dynamic Random Access Memory, synchronous link dynamic random access memory), RDRAM (Rambus Dynamic Random Access Memory, bus dynamic random access memory), DRDRAM (Direct Rambus Dynamic Random Access Memory, interface dynamic random access memory) memory).
- SRAM Static Random Access Memory, static random access memory
- DRAM Dynanamic Random Access Memory, dynamic random access memory
- SDRAM Synchronous Dynamic Random Access Memory , synchronous dynamic random access memory
- double data rate DDR SDRAM Double Data Rate Synchronous Dynamic Random Access memory, double
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Abstract
The present application relates to a communication control method and apparatus, a radio frequency system, a communication device, and a storage medium. The communication control method comprises: when interference is present between a first transceiver circuit and a second transceiver circuit, obtaining anti-blocking information of a first communication signal transmitted by the first transceiver circuit to the second transceiver circuit, and obtaining interference information of the first communication signal on a second communication signal received by the first transceiver circuit; and when the anti-blocking information satisfies a first threshold condition and when the interference information satisfies a second threshold condition, controlling the first transceiver circuit and the second transceiver circuit to simultaneously work in a frequency division multiplexing working mode, so that the radio frequency system is in a coexistence working mode matching the anti-blocking information and interference information.
Description
相关申请的交叉引用Cross References to Related Applications
本申请要求于2021年12月31日提交中国专利局、申请号为2021116710392、发明名称为“通信控制方法、装置、射频系统、通信设备和存储介质”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。This application claims the priority of the Chinese patent application with the application number 2021116710392 and the title of the invention "communication control method, device, radio frequency system, communication equipment and storage medium" submitted to the China Patent Office on December 31, 2021, the entire content of which Incorporated in this application by reference.
本申请涉及通信技术领域,特别是涉及一种通信控制方法、装置、射频系统、通信设备和存储介质。The present application relates to the technical field of communication, and in particular to a communication control method, device, radio frequency system, communication equipment and storage medium.
这里的陈述仅提供与本申请有关的背景信息,而不必然地构成示例性技术。The statements herein merely provide background information related to the present application and do not necessarily constitute exemplary techniques.
随着设备入网需求以及设备间互联需求的持续增加,单一通信方式已经无法满足需求,因此越来越多的设备搭载了多种通信方式以满足入网和互联的需求,例如长期演进(Long Term Evolution,LTE),新无线电(New Radio,NR),无线保真(Wireless Fidelity,WIFI),蓝牙技术(Bluetooth,蓝牙)等等。With the continuous increase of device network access requirements and inter-device interconnection requirements, a single communication method can no longer meet the demand, so more and more devices are equipped with multiple communication methods to meet network access and interconnection requirements, such as Long Term Evolution (LTE) , LTE), New Radio (New Radio, NR), Wireless Fidelity (Wireless Fidelity, WIFI), Bluetooth technology (Bluetooth, Bluetooth) and so on.
对于多种技术共存的设备,如果盲目使用多种通信技术同时工作,可能导致两种通信互相干扰而无法通信的情况,从而导致通信质量下降。For devices with coexistence of multiple technologies, if multiple communication technologies are blindly used to work at the same time, the two communications may interfere with each other and cannot communicate, resulting in a decrease in communication quality.
发明内容Contents of the invention
根据本申请的各种实施例,提供了一种通信控制方法、装置、射频系统、通信设备和存储介质,可以在不同通信制式共存场景下,选择相匹配的共存工作模式,改善通信质量。According to various embodiments of the present application, a communication control method, device, radio frequency system, communication device and storage medium are provided, which can select a matching coexistence working mode in a coexistence scenario of different communication standards to improve communication quality.
第一方面,本申请提供了一种通信控制方法,应用于射频系统,所述射频系统包括第一收发电路和第二收发电路,所述第一收发电路和所述第二收发电路分别用于支持对不同通信制式的短距离无线通信信号的收发处理;所述方法包括:In a first aspect, the present application provides a communication control method, which is applied to a radio frequency system, and the radio frequency system includes a first transceiver circuit and a second transceiver circuit, and the first transceiver circuit and the second transceiver circuit are used for Support the sending and receiving processing of short-distance wireless communication signals of different communication standards; the method includes:
当所述第一收发电路和所述第二收发电路之间存在干扰时,获取第一收发电路对第二收发电路发射的第一通信信号的抗阻塞信息,获取所述第一通信信号对所述第一收发电路接收的第二通信信号的干扰信息;When there is interference between the first transceiver circuit and the second transceiver circuit, acquire anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit, and acquire the impact of the first communication signal on the second transceiver circuit. The interference information of the second communication signal received by the first transceiver circuit;
当所述抗阻塞信息满足第一阈值条件且所述干扰信息满足第二阈值条件时,控制所述第一收发电路和所述第二收发电路采用频分复用工作模式同时工作。When the anti-blocking information satisfies a first threshold condition and the interference information satisfies a second threshold condition, the first transceiving circuit and the second transceiving circuit are controlled to work simultaneously in a frequency division multiplexing mode.
第二方面,本申请提供了一种通信控制装置,应用于射频系统,所述射频系统包括第一收发电路和第二收发电路,所述第一收发电路和所述第二收发电路分别用于支持对不同通信制式的短距离无线通信信号的收发处理;所述装置包括:In a second aspect, the present application provides a communication control device, which is applied to a radio frequency system, and the radio frequency system includes a first transceiver circuit and a second transceiver circuit, and the first transceiver circuit and the second transceiver circuit are used for Support the sending and receiving processing of short-distance wireless communication signals of different communication formats; the device includes:
信息获取模块,用于当所述第一收发电路和所述第二收发电路之间存在干扰时,获取第一收发电路对第二收发电路发射的第一通信信号的抗阻塞信息,获取所述第一通信信号对所述第一收发电路接收的第二通信信号的干扰信息;An information acquisition module, configured to acquire anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit when there is interference between the first transceiver circuit and the second transceiver circuit, and acquire the Interference information of the first communication signal on the second communication signal received by the first transceiver circuit;
第一控制模块,用于当所述抗阻塞信息满足第一阈值条件且所述干扰信息满足第二阈值条件时,控制所述第一收发电路和所述第二收发电路采用频分复用工作模式同时工作。A first control module, configured to control the first transceiving circuit and the second transceiving circuit to work in frequency division multiplexing when the anti-blocking information satisfies a first threshold condition and the interference information satisfies a second threshold condition modes work simultaneously.
第三方面,本申请提供了一种射频系统,包括:In a third aspect, the present application provides a radio frequency system, including:
第一收发电路;a first transceiver circuit;
第二收发电路;the second transceiver circuit;
处理电路,分别与所述第一收发电路、所述第二收发电路连接,用于当所述第一收发电路和所述第二收发电路之间存在干扰时,获取第一收发电路对第二收发电路发射的第一 通信信号的抗阻塞信息,获取所述第一通信信号对所述第一收发电路接收的第二通信信号的干扰信息;当所述抗阻塞信息满足第一阈值条件且所述干扰信息满足第二阈值条件时,控制所述第一收发电路和所述第二收发电路采用频分复用工作模式同时工作;The processing circuit is connected to the first transceiver circuit and the second transceiver circuit respectively, and is used to acquire the pairing of the first transceiver circuit to the second transceiver circuit when there is interference between the first transceiver circuit and the second transceiver circuit. The anti-blocking information of the first communication signal transmitted by the transceiver circuit, and the interference information of the first communication signal on the second communication signal received by the first transceiver circuit; when the anti-blocking information satisfies the first threshold condition and the When the interference information satisfies the second threshold condition, control the first transceiver circuit and the second transceiver circuit to work simultaneously in frequency division multiplexing mode;
其中,所述第一收发电路和所述第二收发电路分别用于支持对不同通信制式的短距离无线通信信号的收发处理。Wherein, the first transceiving circuit and the second transceiving circuit are respectively used to support transceiving processing of short-distance wireless communication signals of different communication standards.
第四方面,本申请提供了一种通信设备,包括存储器和处理器,所述存储器存储有计算机程序,所述处理器执行所述计算机程序时实现前述的方法的步骤。In a fourth aspect, the present application provides a communication device, including a memory and a processor, the memory stores a computer program, and the processor implements the steps of the foregoing method when executing the computer program.
第五方面,本申请提供了一种计算机可读存储介质,其上存储有计算机程序,所述计算机程序被处理器执行时实现前述的方法的步骤。In a fifth aspect, the present application provides a computer-readable storage medium on which a computer program is stored, and when the computer program is executed by a processor, the steps of the aforementioned method are implemented.
本申请的一个或多个实施例的细节在下面的附图和描述中提出。本申请的其他特征、目的和优点将从说明书、附图以及权利要求书变得明显。The details of one or more embodiments of the application are set forth in the accompanying drawings and the description below. Other features, objects and advantages of the present application will be apparent from the description, drawings and claims.
为了更清楚地说明本申请实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本申请的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。In order to more clearly illustrate the technical solutions in the embodiments of the present application or the prior art, the following will briefly introduce the drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description are only These are some embodiments of the present application. Those skilled in the art can also obtain other drawings based on these drawings without creative work.
图1为一实施例的射频系统的结构示意图之一;Fig. 1 is one of the structural schematic diagrams of the radio frequency system of an embodiment;
图2为一实施例的通信控制方法的流程图之一;Fig. 2 is one of the flowcharts of the communication control method of an embodiment;
图3为一实施例的通信控制方法的流程图之二;Fig. 3 is the second flow chart of the communication control method of an embodiment;
图4为一实施例的获取抗阻塞信息的具体流程图;FIG. 4 is a specific flow chart of acquiring anti-blocking information in an embodiment;
图5为一实施例的获取干扰信息的具体流程图;FIG. 5 is a specific flow chart of obtaining interference information in an embodiment;
图6为一实施例的通信控制装置的结构框图之一;Fig. 6 is one of the structural block diagrams of the communication control device of an embodiment;
图7为一实施例的通信控制装置的结构框图之二;Fig. 7 is the second structural block diagram of the communication control device of an embodiment;
图8为一实施例的射频系统的结构示意图之二;FIG. 8 is a second structural schematic diagram of a radio frequency system according to an embodiment;
图9为一实施例的射频系统的结构示意图之三;FIG. 9 is a third structural schematic diagram of a radio frequency system according to an embodiment;
图10为一实施例的通信设备的内部结构图。Fig. 10 is an internal structural diagram of a communication device according to an embodiment.
为了使本申请的目的、技术方案及优点更加清楚明白,以下结合附图及实施例,对本申请进行进一步详细说明。应当理解,此处所描述的具体实施例仅仅用以解释本申请,并不用于限定本申请。In order to make the purpose, technical solution and advantages of the present application clearer, the present application will be further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the present application, and are not intended to limit the present application.
可以理解,本申请所使用的术语“第一”、“第二”等可在本文中用于描述各种元件,但这些元件不受这些术语限制。这些术语仅用于将第一个元件与另一个元件区分。举例来说,在不脱离本申请的范围的情况下,可以将第一客户端称为第二客户端,且类似地,可将第二客户端称为第一客户端。第一客户端和第二客户端两者都是客户端,但其不是同一客户端。It can be understood that the terms "first", "second" and the like used in this application may be used to describe various elements herein, but these elements are not limited by these terms. These terms are only used to distinguish one element from another element. For example, a first client could be termed a second client, and, similarly, a second client could be termed a first client, without departing from the scope of the present application. Both the first client and the second client are clients, but they are not the same client.
在一些相关技术中,为了避免同频段同时工作时的干扰问题,会采用时分复用技术进行通信。即,射频系统对不同通信制式的信号进行分时接收。但是,以蓝牙(Bluetooth,BT)和WIFI为例,不同通信制式网络会周期性地争抢硬件。若硬件被蓝牙抢到,就会导致WIFI和路由器之间的通信中断,反之亦然。相关的改善技术能够抑制上述争抢问题,但在抑制过程会对WIFI和蓝牙的速率产生很大的影响,增大信号时延,并可能导致WIFI和蓝牙的卡顿现象的发生频率增加。然而,如果盲目使用多种通信技术同时工作,可能导致两种通信互相干扰而无法通信的情况,从而导致通信质量下降。In some related technologies, in order to avoid interference problems when working in the same frequency band at the same time, time division multiplexing technology is used for communication. That is, the radio frequency system performs time-division reception of signals of different communication standards. However, taking Bluetooth (BT) and WIFI as examples, networks of different communication standards will compete for hardware periodically. If the hardware is grabbed by Bluetooth, it will cause the communication between WIFI and router to be interrupted, and vice versa. Relevant improvement technologies can suppress the above contention problem, but the suppression process will have a great impact on the rate of WIFI and Bluetooth, increase the signal delay, and may lead to an increase in the frequency of WIFI and Bluetooth stuttering. However, if blindly using multiple communication technologies to work at the same time, it may cause the two communications to interfere with each other and make it impossible to communicate, resulting in a decrease in communication quality.
本申请实施例提供了一种通信控制方法,可以应用于射频系统中,使射频系统处于与 该抗阻塞信息、干扰信息相匹配的共存工作模式,改善通信质量。如图1所示,射频系统包括第一收发电路110和第二收发电路120。The embodiment of the present application provides a communication control method, which can be applied to a radio frequency system, so that the radio frequency system is in a coexistence working mode matching the anti-blocking information and interference information, and improves communication quality. As shown in FIG. 1 , the radio frequency system includes a first transceiver circuit 110 and a second transceiver circuit 120 .
第一收发电路110和第二收发电路120分别用于支持对不同通信制式的短距离无线通信信号的收发处理,从而射频系统支持对多个不同通信制式的短距离无线通信,例如WIFI通信、蓝牙通信等。The first transceiver circuit 110 and the second transceiver circuit 120 are respectively used to support the transceiver processing of short-distance wireless communication signals of different communication systems, so that the radio frequency system supports short-distance wireless communication of multiple different communication systems, such as WIFI communication, Bluetooth communication etc.
可选地,第一收发电路110支持WIFI通信,第二收发电路120支持蓝牙通信;可选地,第二收发电路120支持WIFI通信,第一收发电路110支持蓝牙通信。可选地,WIFI通信、蓝牙通信可以是2.4G蓝牙通信和5G WIFI通信,其中,2.4G指的是ISM频段的2402MHz-2482MHz;5G指的是现有5G的5170Mhz-5835Mhz以及未来WIFI 6E扩展的频段。Optionally, the first transceiver circuit 110 supports WIFI communication, and the second transceiver circuit 120 supports Bluetooth communication; optionally, the second transceiver circuit 120 supports WIFI communication, and the first transceiver circuit 110 supports Bluetooth communication. Optionally, WIFI communication and Bluetooth communication can be 2.4G Bluetooth communication and 5G WIFI communication, where 2.4G refers to the 2402MHz-2482MHz of the ISM frequency band; 5G refers to the 5170Mhz-5835Mhz of the existing 5G and future WIFI 6E expansion frequency band.
可选地,第一收发电路110和第二收发电路120分别连接至同一天线,从而第一收发电路110和第二收发电路120通过同一天线支持对通信信号的发射和接收;可选地,第一收发电路110和第二收发电路120分别连接至不同的天线(图1以此为示意,仅为示意,不做限定),从而第一收发电路110和第二收发电路120分别通过不同天线支持对通信信号的发射和接收。Optionally, the first transceiver circuit 110 and the second transceiver circuit 120 are respectively connected to the same antenna, so that the first transceiver circuit 110 and the second transceiver circuit 120 support the transmission and reception of communication signals through the same antenna; A transceiver circuit 110 and a second transceiver circuit 120 are respectively connected to different antennas (Fig. 1 is taken as an illustration, only for illustration, not limited), so that the first transceiver circuit 110 and the second transceiver circuit 120 are respectively supported by different antennas. Transmission and reception of communication signals.
可选地,如图1所示,射频系统还包括处理电路130,处理电路130可包括一个或多个处理器,示例性的,处理电路130可包括短距离无线通信处理器(例如,WIFI&BT芯片)和中央处理器。其中,短距离无线通信处理器可用于完成数字信号到射频信号的转换和逆转换过程,包括数字信号的封装成帧,数模信号的转换,调制,上变频等等过程,最终生成了相应的WIFI信号或者蓝牙信号,或者接收到信号后经过一系列逆过程送到中央处理器。其中,逆过程可包括下变频,解调,模数信号的转换,解封装等过程。中央处理器,可用于对短距离无线通信处理器输出的信号进行分析处理,并可用于控制射频系统中各个开关的导通控制等。Optionally, as shown in FIG. 1, the radio frequency system further includes a processing circuit 130, and the processing circuit 130 may include one or more processors. Exemplarily, the processing circuit 130 may include a short-range wireless communication processor (for example, WIFI&BT chip ) and the CPU. Among them, the short-distance wireless communication processor can be used to complete the conversion and inverse conversion process from digital signal to radio frequency signal, including encapsulation and framing of digital signal, conversion of digital-to-analog signal, modulation, up-conversion and other processes, and finally generates the corresponding WIFI signal or Bluetooth signal, or after receiving the signal, send it to the central processing unit through a series of reverse processes. Wherein, the inverse process may include processes such as down-conversion, demodulation, analog-to-digital signal conversion, and decapsulation. The central processing unit can be used to analyze and process the signal output by the short-distance wireless communication processor, and can be used to control the conduction control of each switch in the radio frequency system, etc.
图2为一个实施例中通信控制方法的流程图。如图2所示,通信控制方法包括步骤202至步骤204。Fig. 2 is a flowchart of a communication control method in an embodiment. As shown in FIG. 2 , the communication control method includes step 202 to step 204 .
步骤202,当第一收发电路和第二收发电路之间存在干扰时,获取第一收发电路对第二收发电路发射的第一通信信号的抗阻塞信息,获取第一通信信号对第一收发电路接收的第二通信信号的干扰信息。 Step 202, when there is interference between the first transceiver circuit and the second transceiver circuit, obtain the anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit, and obtain the anti-blocking information of the first communication signal to the first transceiver circuit. Interference information of the received second communication signal.
其中,当第一收发电路和第二收发电路之间存在干扰时,则处于信号发射状态的收发电路在发射信号时将干扰处于信号接收状态的收发电路对信号的接收,从而可能降低接收状态的收发电路的接收质量。在本实施例中,以第一收发电路作为接收状态的收发电路,第二收发电路作为发射状态的收发电路。Wherein, when there is interference between the first transceiver circuit and the second transceiver circuit, the transceiver circuit in the signal transmitting state will interfere with the reception of the signal by the transceiver circuit in the signal receiving state when transmitting a signal, thereby possibly reducing the The reception quality of the transceiver circuit. In this embodiment, the first transceiver circuit is used as the transceiver circuit in the receiving state, and the second transceiver circuit is used as the transceiver circuit in the transmitting state.
其中,发射状态的第二收发电路对接收状态的第一收发电路的干扰,包括第二收发电路发射的第一通信信号对第一收发电路接收的第二通信信号的阻塞干扰和噪声干扰。阻塞干扰,是指第一通信信号对第一收发电路的接收机解调第二通信信号的阻塞;噪声干扰,是指第一通信信号发射时产生的噪声对接收第二通信信号的干扰,该噪声为位于第一收发电路接收频段范围内的干扰信号,将可能导致第一收发电路的信噪比恶化。对应地,抗阻塞信息是指第一收发电路抵抗第一通信信号阻塞干扰的相关信息,干扰信息是指第一收发电路承受的第一通信信号噪声干扰的相关信息。Wherein, the interference of the second transceiver circuit in the transmitting state on the first transceiver circuit in the receiving state includes blocking interference and noise interference of the first communication signal transmitted by the second transceiver circuit on the second communication signal received by the first transceiver circuit. Blocking interference refers to the blockage of the first communication signal to the demodulation of the second communication signal by the receiver of the first transceiver circuit; noise interference refers to the interference of the noise generated when the first communication signal is transmitted to the reception of the second communication signal. The noise is an interference signal within the receiving frequency range of the first transceiver circuit, which may lead to deterioration of the signal-to-noise ratio of the first transceiver circuit. Correspondingly, the anti-blocking information refers to information related to the first transceiver circuit's resistance to blocking interference of the first communication signal, and the interference information refers to information related to noise interference of the first communication signal that the first transceiver circuit withstands.
其中,可选地,对第一收发电路和第二收发电路之间是否存在干扰的判定,可以预设第二收发电路的各个工作频率对第一收发电路各个工作频率的共存干扰参数,继而根据实际测量的共存干扰参数与预设的共存干扰参数进行对比,以确定第一收发电路和第二收发电路之间是否存在干扰。可以理解,在其他实施例中,可以预设第一收发电路的各个工作频率对第二收发电路各个工作频率的共存干扰参数,继而根据实际测量的共存干扰参数与预设的共存干扰参数进行对比,以确定第一收发电路和第二收发电路之间是否存在干扰。Wherein, optionally, to determine whether there is interference between the first transceiver circuit and the second transceiver circuit, the coexistence interference parameters of each operating frequency of the second transceiver circuit to each operating frequency of the first transceiver circuit can be preset, and then according to The actually measured coexistence interference parameter is compared with the preset coexistence interference parameter to determine whether there is interference between the first transceiver circuit and the second transceiver circuit. It can be understood that in other embodiments, the coexistence interference parameters of each operating frequency of the first transceiver circuit to each operating frequency of the second transceiver circuit can be preset, and then the actual measured coexistence interference parameters are compared with the preset coexistence interference parameters , to determine whether there is interference between the first transceiver circuit and the second transceiver circuit.
步骤204,当抗阻塞信息满足第一阈值条件且干扰信息满足第二阈值条件时,控制第一收发电路和第二收发电路采用频分复用工作模式同时工作。 Step 204, when the anti-blocking information satisfies the first threshold condition and the interference information satisfies the second threshold condition, control the first transceiving circuit and the second transceiving circuit to work simultaneously in frequency division multiplexing mode.
其中,第一阈值条件为阻塞干扰处于第一收发电路可承受范围的预设条件,当抗阻塞信息满足第一阈值条件时,第一收发电路能够承受当前第二收发电路造成的阻塞干扰,第一收发电路的接收机能够解调接收的第二通信信号。Wherein, the first threshold condition is a preset condition that the blocking interference is within the tolerable range of the first transceiver circuit. When the anti-blocking information satisfies the first threshold condition, the first transceiver circuit can withstand the blocking interference caused by the current second transceiver circuit. A receiver of the transceiver circuit is capable of demodulating the received second communication signal.
其中,第二阈值条件为噪声干扰处于第一收发电路可承受范围的预设条件,当干扰信息满足第二阈值条件时,第一收发电路能够承受当前第二收发电路造成的噪声干扰,接收质量处于可承受范围。Wherein, the second threshold condition is a preset condition that the noise interference is within the tolerable range of the first transceiver circuit. When the interference information satisfies the second threshold condition, the first transceiver circuit can withstand the noise interference caused by the current second transceiver circuit, and the reception quality in the tolerable range.
当抗阻塞信息满足第一阈值条件且干扰信息满足第二阈值条件时,说明当前不同通信制式的第一收发电路和第二收发电路之间存在的干扰很小,第一收发电路和第二收发电路同时通信互不影响,可以支持不同通信制式的第一收发电路和第二收发电路同时进行,从而可以控制第一收发电路和第二收发电路采用频分复用工作模式同时工作。When the anti-blocking information satisfies the first threshold condition and the interference information satisfies the second threshold condition, it means that the interference between the first transceiver circuit and the second transceiver circuit of different communication standards is very small, and the first transceiver circuit and the second transceiver circuit Simultaneous communication of the circuits does not affect each other, and can support the simultaneous operation of the first transceiver circuit and the second transceiver circuit of different communication standards, so that the first transceiver circuit and the second transceiver circuit can be controlled to work simultaneously in the frequency division multiplexing working mode.
本实施例提供的通信控制方法,通过当第一收发电路和第二收发电路之间存在干扰时,获取第一收发电路对第二收发电路发射的第一通信信号的抗阻塞信息,获取第一通信信号对第一收发电路接收的第二通信信号的干扰信息;当抗阻塞信息满足第一阈值条件且干扰信息满足第二阈值条件时,控制第一收发电路和第二收发电路采用频分复用工作模式同时工作,以使射频系统处于与该抗阻塞信息、干扰信息相匹配的共存工作模式,改善通信质量。In the communication control method provided in this embodiment, when there is interference between the first transceiver circuit and the second transceiver circuit, the anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit is obtained to obtain the first Interference information of the communication signal on the second communication signal received by the first transceiver circuit; when the anti-blocking information satisfies the first threshold condition and the interference information satisfies the second threshold condition, the first transceiver circuit and the second transceiver circuit are controlled to use frequency division multiplexing Simultaneously work in the working mode, so that the radio frequency system is in the coexistence working mode matching the anti-blocking information and interference information, so as to improve the communication quality.
在一些实施例中,如图3所示,方法还包括:In some embodiments, as shown in Figure 3, the method also includes:
步骤206,当抗阻塞信息不满足第一阈值条件和/或干扰信息不满足第二阈值条件时,控制第一收发电路和第二收发电路采用时分复用工作模式彼此独立工作。 Step 206, when the anti-blocking information does not meet the first threshold condition and/or the interference information does not meet the second threshold condition, control the first transceiver circuit and the second transceiver circuit to work independently of each other in a time division multiplexing mode.
其中,当抗阻塞信息不满足第一阈值条件时,第一收发电路不能够承受当前第二收发电路造成的阻塞干扰,第一通信信号阻塞第一收发电路接收机的解调。当干扰信息不满足第二阈值条件时,第一收发电路不能够承受当前第二收发电路造成的噪声干扰,噪声干扰将恶化第一收发电路接收频段的噪声,导致信噪比恶化。Wherein, when the anti-blocking information does not meet the first threshold condition, the first transceiver circuit cannot withstand the blocking interference caused by the current second transceiver circuit, and the first communication signal blocks the demodulation of the receiver of the first transceiver circuit. When the interference information does not meet the second threshold condition, the first transceiver circuit cannot bear the current noise interference caused by the second transceiver circuit, and the noise interference will worsen the noise in the receiving frequency band of the first transceiver circuit, resulting in deterioration of the signal-to-noise ratio.
当抗阻塞信息不满足第一阈值条件和/或干扰信息不满足第二阈值条件时,说明当前不同通信制式的第一收发电路和第二收发电路之间存在的干扰较大,第一收发电路和第二收发电路同时通信将互相影响,不支持不同通信制式的第一收发电路和第二收发电路同时进行,从而控制第一收发电路和第二收发电路采用时分复用工作模式彼此独立工作,也即控制第一收发电路和第二收发电路分时段进行通信,从而避开第一收发电路和第二收发电路之间的相互干扰,提高通信质量。When the anti-blocking information does not meet the first threshold condition and/or the interference information does not meet the second threshold condition, it indicates that the interference between the first transceiver circuit and the second transceiver circuit of different communication standards is relatively large, and the first transceiver circuit Simultaneous communication with the second transceiver circuit will affect each other, and the first transceiver circuit and the second transceiver circuit of different communication standards are not supported to be carried out simultaneously, thereby controlling the first transceiver circuit and the second transceiver circuit to work independently of each other in a time-division multiplexing mode. That is to say, the first transceiver circuit and the second transceiver circuit are controlled to communicate in time intervals, thereby avoiding mutual interference between the first transceiver circuit and the second transceiver circuit, and improving communication quality.
可选地,第一阈值条件的优先级高于第二阈值条件的优先级,当抗阻塞信息不满足第一阈值条件时,第一通信信号阻塞第一收发电路接收机的解调,第一收发电路接收机无法解调第二通信信号,可以直接判定第一收发电路无法承受第二收发电路的干扰以控制第一收发电路和第二收发电路采用时分复用工作模式彼此独立工作,不需要再对干扰信息是否满足第二阈值条件进行判定,从而节省判定时间,提高判定效率和通信效率。Optionally, the priority of the first threshold condition is higher than that of the second threshold condition, and when the anti-blocking information does not meet the first threshold condition, the first communication signal blocks the demodulation of the receiver of the first transceiver circuit, and the first The receiver of the transceiver circuit cannot demodulate the second communication signal, and it can directly determine that the first transceiver circuit cannot withstand the interference of the second transceiver circuit to control the first transceiver circuit and the second transceiver circuit to work independently of each other in time-division multiplexing mode. It is then determined whether the interference information satisfies the second threshold condition, thereby saving determination time and improving determination efficiency and communication efficiency.
本实施例提供的通信控制方法,通过当第一收发电路和第二收发电路之间存在干扰时,获取第一收发电路对第二收发电路发射的第一通信信号的抗阻塞信息,获取第一通信信号对第一收发电路接收的第二通信信号的干扰信息;当抗阻塞信息不满足第一阈值条件和/或干扰信息不满足第二阈值条件时,控制第一收发电路和第二收发电路采用时分复用工作模式彼此独立工作,以使射频系统处于与该抗阻塞信息、干扰信息相匹配的共存工作模式,改善通信质量。In the communication control method provided in this embodiment, when there is interference between the first transceiver circuit and the second transceiver circuit, the anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit is obtained to obtain the first Interference information of the communication signal on the second communication signal received by the first transceiver circuit; when the anti-blocking information does not meet the first threshold condition and/or the interference information does not meet the second threshold condition, control the first transceiver circuit and the second transceiver circuit The time-division multiplexing working mode is adopted to work independently of each other, so that the radio frequency system is in a co-existing working mode matching the anti-blocking information and interference information, and the communication quality is improved.
需要说明的是,在其他实施例中,方法还可以包括:当抗阻塞信息不满足第一阈值条件和/或干扰信息不满足第二阈值条件时,控制发射状态的第二收发电路降低第一通信信号的发射功率,及控制接收状态的第一收发电路接收第二通信信号的信号接收强度,并重 新执行步骤202等相关步骤。It should be noted that, in other embodiments, the method may further include: when the anti-blocking information does not meet the first threshold condition and/or the interference information does not meet the second threshold condition, the second transceiver circuit that controls the transmission state reduces the first The transmission power of the communication signal, and the signal reception strength of the first transceiver circuit that controls the receiving state to receive the second communication signal, and re-execute step 202 and other related steps.
在一些实施例中,如图4所示,获取第一收发电路对第二收发电路发射的第一通信信号的抗阻塞信息,包括:In some embodiments, as shown in FIG. 4 , obtaining the anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit includes:
步骤302,获取第二收发电路发射第一通信信号时产生的能量值。 Step 302, acquiring an energy value generated when the second transceiver circuit transmits the first communication signal.
步骤304,获取第一收发电路抑制第一通信信号的阻塞的第一抑制能力值。 Step 304, acquiring a first suppression capability value of the first transceiver circuit for suppressing blocking of the first communication signal.
步骤306,根据能量值和第一抑制能力值获取抗阻塞信息。 Step 306, acquiring anti-blocking information according to the energy value and the first suppression capability value.
其中,抗阻塞信息包括抵抗第一通信信号阻塞干扰的相关信息,例如包括阻塞干扰的大小和第一收发电路抵抗阻塞干扰的能力信息。在本实施例中,阻塞干扰的大小,可以通过第二收发电路发射第一通信信号时产生的能量值进行反馈,即通过能量值可以反馈阻塞干扰的大小;第一收发电路抵抗阻塞干扰的能力信息,可以包括第一收发电路抑制第一通信信号的阻塞的第一抑制能力值,具体地,为第一收发电路抑制第一通信信号的主频对接收机产生的阻塞的第一抑制能力值。可选地,第一收发电路可以通过设置第一滤波器实现对第一通信信号的阻塞的抑制,从而第一抑制能力值可以是第一滤波器对第二收发电路发射频点的抑制能力值,也可以理解为是第一滤波器的滤波能力。Wherein, the anti-blocking information includes information related to resisting blocking interference of the first communication signal, for example, information about the magnitude of blocking interference and the ability of the first transceiver circuit to resist blocking interference. In this embodiment, the size of the blocking interference can be fed back through the energy value generated when the second transceiver circuit transmits the first communication signal, that is, the energy value can be used to feed back the size of the blocking interference; the ability of the first transceiver circuit to resist blocking interference The information may include the first suppression capability value of the first transceiver circuit for suppressing the blocking of the first communication signal, specifically, the first suppression capability value of the first transceiver circuit for suppressing the blocking of the main frequency of the first communication signal to the receiver . Optionally, the first transceiver circuit can suppress the blocking of the first communication signal by setting the first filter, so that the first suppression capability value can be the suppression capability value of the first filter to the transmission frequency point of the second transceiver circuit , can also be understood as the filtering capability of the first filter.
当第一收发电路和第二收发电路之间存在干扰时,通过获取第二收发电路发射第一通信信号时产生的能量值,获取第一收发电路抑制第一通信信号的阻塞的第一抑制能力值,继而可以根据能量值和第一抑制能力值获取抗阻塞信息,以判定当前第一收发电路的抗阻塞情况,确定第一收发电路是否能够解调接收的第二通信信号。When there is interference between the first transceiver circuit and the second transceiver circuit, by obtaining the energy value generated when the second transceiver circuit transmits the first communication signal, the first suppression ability of the first transceiver circuit to suppress the blocking of the first communication signal is obtained. value, and then the anti-blocking information can be obtained according to the energy value and the first suppression capability value to determine the current anti-blocking situation of the first transceiver circuit and determine whether the first transceiver circuit can demodulate the received second communication signal.
可选地,抗阻塞信息为能量值和第一抑制能力值之间的差值,其中:第一阈值条件包括抗阻塞信息小于第一阈值。能量值和第一抑制能力值之间的差值反映当前第一收发电路接收机实际承受的阻塞干扰情况。通过判断差值是否满足第一阈值条件,可以判定第二收发电路的阻塞干扰是否处于第一收发电路可承受范围。在本实施例中,第一阈值条件包括抗阻塞信息小于第一阈值,将差值与第一阈值进行比较,即可判定阻塞干扰是否处于第一收发电路可承受范围。Optionally, the anti-blocking information is a difference between the energy value and the first suppression capability value, wherein: the first threshold condition includes that the anti-blocking information is smaller than the first threshold. The difference between the energy value and the first suppression capability value reflects the current blocking interference actually borne by the receiver of the first transceiver circuit. By judging whether the difference satisfies the first threshold condition, it can be judged whether the blocking interference of the second transceiver circuit is within the tolerable range of the first transceiver circuit. In this embodiment, the first threshold condition includes that the anti-blocking information is smaller than the first threshold, and comparing the difference with the first threshold can determine whether the blocking interference is within the tolerable range of the first transceiver circuit.
可选地,第一收发电路和第二收发电路分别连接至同一天线,第一阈值为第一收发电路对干扰信号的容忍能力值,干扰信号为第二收发电路发射第一通信信号时第一收发电路接收的噪声;或者第一收发电路和第二收发电路分别连接不同的天线,第一阈值为容忍能力值与天线隔离度之和。Optionally, the first transceiver circuit and the second transceiver circuit are respectively connected to the same antenna, the first threshold is the tolerance value of the first transceiver circuit to an interference signal, and the interference signal is the first The noise received by the transceiver circuit; or the first transceiver circuit and the second transceiver circuit are respectively connected to different antennas, and the first threshold is the sum of the tolerance value and the antenna isolation.
其中,干扰信号为第二收发电路发射第一通信信号时第一收发电路接收的噪声,该噪声落在第一收发电路的接收频段范围内。天线隔离度是指当第一收发电路和第二收发电路分别连接不同的天线时,不同天线间的隔离度,隔离度的大小可以通过切换天线进行调整。Wherein, the interference signal is noise received by the first transceiver circuit when the second transceiver circuit transmits the first communication signal, and the noise falls within the receiving frequency range of the first transceiver circuit. The antenna isolation refers to the isolation between different antennas when the first transceiver circuit and the second transceiver circuit are connected to different antennas, and the isolation can be adjusted by switching the antennas.
第一收发电路和第二收发电路分别连接至同一天线时,第一阈值为第一收发电路对干扰信号的容忍能力值,当能量值和第一抑制能力值之间的差值小于容忍能力值,判定第一收发电路能够承受第二收发电路的阻塞干扰;当能量值和第一抑制能力值之间的差值大于或等于容忍能力值,判定第一收发电路不能够承受第二收发电路的阻塞干扰。容忍能力值可以根据实际的通信业务需求进行设定。When the first transceiver circuit and the second transceiver circuit are respectively connected to the same antenna, the first threshold is the tolerance value of the first transceiver circuit to the interference signal, when the difference between the energy value and the first suppression capability value is less than the tolerance value , to determine that the first transceiver circuit can withstand the blocking interference of the second transceiver circuit; Block interference. The tolerance value can be set according to actual communication service requirements.
第一收发电路和第二收发电路分别连接至不同天线时,第一阈值为第一收发电路对干扰信号的容忍能力值与天线隔离度之和,当能量值和第一抑制能力值之间的差值小于容忍能力值与天线隔离度之和,判定第一收发电路能够承受第二收发电路的阻塞干扰;当能量值和第一抑制能力值之间的差值大于或等于容忍能力值与天线隔离度之和,判定第一收发电路不能够承受第二收发电路的阻塞干扰。When the first transceiver circuit and the second transceiver circuit are respectively connected to different antennas, the first threshold is the sum of the tolerance value of the first transceiver circuit to the interference signal and the antenna isolation, when the energy value and the first suppression capability value are If the difference is less than the sum of the tolerance value and the antenna isolation, it is determined that the first transceiver circuit can withstand the blocking interference of the second transceiver circuit; when the difference between the energy value and the first suppression capability value is greater than or equal to the tolerance value and the antenna The sum of the isolation degrees determines that the first transceiver circuit cannot withstand the blocking interference of the second transceiver circuit.
在一些实施例中,如图5所示,获取第一通信信号对第一收发电路接收的第二通信信号的干扰信息,包括:In some embodiments, as shown in FIG. 5 , acquiring interference information of the first communication signal on the second communication signal received by the first transceiver circuit includes:
步骤402,获取第二收发电路发射第一通信信号时产生的噪声,噪声为位于第一收发电路接收频段范围内的干扰信号。 Step 402, acquiring noise generated when the second transceiver circuit transmits the first communication signal, where the noise is an interference signal located within a receiving frequency range of the first transceiver circuit.
步骤404,获取第二收发电路抑制噪声被第一收发电路接收的第二抑制能力值。 Step 404, acquiring a second suppression capability value of the second transceiver circuit for suppressing noise received by the first transceiver circuit.
步骤406,根据噪声和第二抑制能力值获取干扰信息。 Step 406, acquiring interference information according to the noise and the second suppression capability value.
其中,干扰信息是指第一收发电路承受的第一通信信号噪声干扰的相关信息,干扰信息例如包括第二收发电路发射时落入第一收发电路接收频段范围内的噪声干扰的大小和第二收发电路抑制噪声被第一收发电路接收的能力等信息。在本实施例中,噪声干扰的大小,为第二收发电路发射时落入第一收发电路接收频段范围内的噪声,噪声的大小可以理解为干扰信号相比干净环境底噪抬升的大小;第二收发电路抑制噪声被第一收发电路接收的能力信息,可以包括第二收发电路抑制噪声被第一收发电路接收的第二抑制能力值。可选地,第二收发电路可以通过设置第二滤波器实现对自己发射时产生的带外噪声,从而抑制噪声被第一收发电路接收,降低第一收发电路接收频段的信噪比。第二抑制能力值可以理解为是第二滤波器的滤波能力。Wherein, the interference information refers to information related to the first communication signal noise interference suffered by the first transceiver circuit, and the interference information includes, for example, the size of the noise interference falling within the receiving frequency range of the first transceiver circuit when the second transceiver circuit transmits, and the second Information such as the ability of the transceiver circuit to suppress noise received by the first transceiver circuit. In this embodiment, the magnitude of the noise interference is the noise that falls within the receiving frequency range of the first transceiver circuit when the second transceiver circuit transmits, and the magnitude of the noise can be understood as the rise of the interference signal compared to the noise floor in a clean environment; the second The capability information of the second transceiver circuit for suppressing noise received by the first transceiver circuit may include a second suppression capability value of the second transceiver circuit for suppressing noise received by the first transceiver circuit. Optionally, the second transceiver circuit can set the second filter to realize the out-of-band noise generated when it transmits itself, thereby suppressing the noise from being received by the first transceiver circuit and reducing the signal-to-noise ratio of the receiving frequency band of the first transceiver circuit. The second suppression capability value can be understood as the filtering capability of the second filter.
当第一收发电路和第二收发电路之间存在干扰时,通过获取第二收发电路发射第一通信信号时落入第一收发电路接收频段内的噪声,获取第二收发电路抑制噪声被第一收发电路接收的第二抑制能力值,继而可以根据噪声和第二抑制能力值获取干扰信息,以判定第一收发电路实际承受的干扰大小,继而判断当前第一收发电路的受干扰情况,确定第一收发电路是否能够承受第二收发电路的干扰。When there is interference between the first transceiver circuit and the second transceiver circuit, by obtaining the noise falling into the receiving frequency band of the first transceiver circuit when the second transceiver circuit transmits the first communication signal, the noise suppressed by the second transceiver circuit is obtained by the first transceiver circuit. The second suppression ability value received by the transceiver circuit can then obtain interference information according to the noise and the second suppression capability value to determine the actual interference suffered by the first transceiver circuit, and then judge the current interference situation of the first transceiver circuit to determine the second Whether the first transceiver circuit can withstand the interference of the second transceiver circuit.
可选地,干扰信息为噪声的参数值和第二抑制能力值之间的差值,其中:第二阈值条件包括干扰信息大于或等于第二阈值。噪声的参数值可以理解为衡量噪声大小的参数值,噪声的参数值和第二抑制能力值之间的差值反映当前第一收发电路接收机实际承受的噪声干扰情况。通过判断差值是否满足第二阈值条件,可以判定第二收发电路的噪声干扰是否处于第一收发电路可承受范围。在本实施例中,第二阈值条件包括干扰信息小于第二阈值,将差值与第二阈值进行比较,即可判定噪声干扰是否处于第一收发电路可承受范围。Optionally, the interference information is a difference between a noise parameter value and a second suppression capability value, wherein: the second threshold condition includes that the interference information is greater than or equal to the second threshold. The parameter value of the noise can be understood as a parameter value measuring the size of the noise, and the difference between the parameter value of the noise and the second suppression capability value reflects the actual noise interference situation that the receiver of the first transceiver circuit currently bears. By judging whether the difference satisfies the second threshold condition, it can be judged whether the noise interference of the second transceiver circuit is within the tolerable range of the first transceiver circuit. In this embodiment, the second threshold condition includes that the interference information is smaller than the second threshold, and comparing the difference with the second threshold can determine whether the noise interference is within the tolerable range of the first transceiver circuit.
可选地,第一收发电路和第二收发电路分别连接相同的天线,第二阈值为第一收发电路可承受干扰的预设阈值;或者第一收发电路和第二收发电路分别连接不同的天线,第二阈值为预设阈值与天线隔离度之和。Optionally, the first transceiver circuit and the second transceiver circuit are respectively connected to the same antenna, and the second threshold is a preset threshold that the first transceiver circuit can withstand interference; or the first transceiver circuit and the second transceiver circuit are respectively connected to different antennas , the second threshold is the sum of the preset threshold and the antenna isolation.
第一收发电路和第二收发电路分别连接至同一天线时,第二阈值为第一收发电路可承受干扰的预设阈值,当干扰信息为噪声的参数值和第二抑制能力值之间的差值小于预设阈值,判定第一收发电路能够承受第二收发电路的噪声干扰;当干扰信息为噪声的参数值和第二抑制能力值之间的差值大于或等于预设阈值,判定第一收发电路不能够承受第二收发电路的噪声干扰。预设阈值可以根据实际的通信业务需求进行设定,例如,可以设置预设阈值为3dB,当干扰信息为噪声的参数值和第二抑制能力值之间的差值小于3dB时,可以认为第一收发电路能够承受第二收发电路的噪声干扰。When the first transceiver circuit and the second transceiver circuit are respectively connected to the same antenna, the second threshold is the preset threshold value of the interference that the first transceiver circuit can withstand, when the interference information is the difference between the parameter value of the noise and the second suppression capability value value is less than the preset threshold, it is determined that the first transceiver circuit can withstand the noise interference of the second transceiver circuit; when the interference information is that the difference between the noise parameter value and the second suppression capability value is greater than or equal to the preset threshold, it is determined that the The transceiver circuit cannot withstand noise interference from the second transceiver circuit. The preset threshold can be set according to actual communication service requirements. For example, the preset threshold can be set to 3dB. When the difference between the parameter value of the interference information being noise and the second suppression capability value is less than 3dB, it can be considered that the second A transceiver circuit can withstand noise interference from a second transceiver circuit.
第一收发电路和第二收发电路分别连接至不同天线时,第二阈值为预设阈值与天线隔离度之和,当干扰信息为噪声的参数值和第二抑制能力值之间的差值小于预设阈值与天线隔离度之和,判定第一收发电路能够承受第二收发电路的噪声干扰;当干扰信息为噪声的参数值和第二抑制能力值之间的差值大于或等于预设阈值与天线隔离度之和,判定第一收发电路不能够承受第二收发电路的噪声干扰。When the first transceiver circuit and the second transceiver circuit are respectively connected to different antennas, the second threshold is the sum of the preset threshold and the antenna isolation, and when the difference between the parameter value of the interference information being noise and the second suppression capability value is less than The sum of the preset threshold and the antenna isolation determines that the first transceiver circuit can withstand the noise interference of the second transceiver circuit; when the interference information is that the difference between the noise parameter value and the second suppression capability value is greater than or equal to the preset threshold The sum of the isolation degree and the antenna determines that the first transceiver circuit cannot withstand the noise interference of the second transceiver circuit.
可以理解,在其他实施例中,也可以将第二收发电路作为接收状态的收发电路,第一收发电路作为发射状态的收发电路。可以理解,当将第二收发电路作为接收状态的收发电路,第一收发电路作为发射状态的收发电路时,通信控制方法的相关步骤仅是将第一收发电路和第二收发电路进行置换,具体的步骤过程仍参数上述实施例的相关描述,在此不再赘述。It can be understood that in other embodiments, the second transceiver circuit may also be used as the transceiver circuit in the receiving state, and the first transceiver circuit may be used as the transceiver circuit in the transmitting state. It can be understood that when the second transceiver circuit is used as the transceiver circuit in the receiving state, and the first transceiver circuit is used as the transceiver circuit in the transmitting state, the relevant steps of the communication control method are only to replace the first transceiver circuit and the second transceiver circuit, specifically The steps and procedures still refer to the relevant descriptions of the above embodiments, and will not be repeated here.
应该理解的是,虽然图2-图5的流程图中的各个步骤按照箭头的指示依次显示,但是这些步骤并不是必然按照箭头指示的顺序依次执行。除非本文中有明确的说明,这些步骤的执行并没有严格的顺序限制,这些步骤可以以其它的顺序执行。而且,图2-图5中的至 少一部分步骤可以包括多个子步骤或者多个阶段,这些子步骤或者阶段并不必然是在同一时刻执行完成,而是可以在不同的时刻执行,这些子步骤或者阶段的执行顺序也不必然是依次进行,而是可以与其它步骤或者其它步骤的子步骤或者阶段的至少一部分轮流或者交替地执行。It should be understood that although the various steps in the flow charts of FIGS. 2-5 are shown sequentially as indicated by the arrows, these steps are not necessarily executed sequentially in the order indicated by the arrows. Unless otherwise specified herein, there is no strict order restriction on the execution of these steps, and these steps can be executed in other orders. Moreover, at least some of the steps in FIGS. 2-5 may include multiple sub-steps or multiple stages. These sub-steps or stages are not necessarily performed at the same time, but may be performed at different times. These sub-steps or The execution order of the stages is not necessarily performed sequentially, but may be executed alternately or alternately with at least a part of other steps or substeps of other steps or stages.
图6为一个实施例的通信控制装置的结构框图,通信控制装置用于执行图2所示实施例的相关步骤。通信控制装置应用于如图1所示的射频系统。如图6所示,通信控制装置包括:Fig. 6 is a structural block diagram of a communication control device according to an embodiment, and the communication control device is used to execute the relevant steps of the embodiment shown in Fig. 2 . The communication control device is applied to the radio frequency system shown in FIG. 1 . As shown in Figure 6, the communication control device includes:
信息获取模块502,用于当第一收发电路和第二收发电路之间存在干扰时,获取第一收发电路对第二收发电路发射的第一通信信号的抗阻塞信息,获取第一通信信号对第一收发电路接收的第二通信信号的干扰信息。The information acquisition module 502 is configured to acquire the anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit when there is interference between the first transceiver circuit and the second transceiver circuit, and acquire the first communication signal pair Interference information of the second communication signal received by the first transceiver circuit.
第一控制模块504,用于当抗阻塞信息满足第一阈值条件且干扰信息满足第二阈值条件时,控制第一收发电路和第二收发电路采用频分复用工作模式同时工作。The first control module 504 is configured to control the first transceiver circuit and the second transceiver circuit to work simultaneously in frequency division multiplexing mode when the anti-blocking information satisfies the first threshold condition and the interference information satisfies the second threshold condition.
本实施例提供的通信控制装置,通过当第一收发电路和第二收发电路之间存在干扰时,获取第一收发电路对第二收发电路发射的第一通信信号的抗阻塞信息,获取第一通信信号对第一收发电路接收的第二通信信号的干扰信息;当抗阻塞信息满足第一阈值条件且干扰信息满足第二阈值条件时,控制第一收发电路和第二收发电路采用频分复用工作模式同时工作,以使射频系统处于与该抗阻塞信息、干扰信息相匹配的共存工作模式,改善通信质量。The communication control device provided in this embodiment obtains the first Interference information of the communication signal on the second communication signal received by the first transceiver circuit; when the anti-blocking information satisfies the first threshold condition and the interference information satisfies the second threshold condition, the first transceiver circuit and the second transceiver circuit are controlled to use frequency division multiplexing Simultaneously work in the working mode, so that the radio frequency system is in the coexistence working mode matching the anti-blocking information and interference information, so as to improve the communication quality.
可选地,如图7所示(通信控制装置用于执行图3所示实施例的相关步骤),通信控制装置还包括:Optionally, as shown in FIG. 7 (the communication control device is used to execute the relevant steps of the embodiment shown in FIG. 3 ), the communication control device further includes:
第二控制模块506,用于当抗阻塞信息不满足第一阈值条件和/或干扰信息不满足第二阈值条件时,控制第一收发电路和第二收发电路采用时分复用工作模式彼此独立工作。The second control module 506 is configured to control the first transceiver circuit and the second transceiver circuit to work independently of each other in a time division multiplexing mode when the anti-blocking information does not meet the first threshold condition and/or the interference information does not meet the second threshold condition .
本实施例提供的通信控制装置,通过当第一收发电路和第二收发电路之间存在干扰时,获取第一收发电路对第二收发电路发射的第一通信信号的抗阻塞信息,获取第一通信信号对第一收发电路接收的第二通信信号的干扰信息;当抗阻塞信息不满足第一阈值条件和/或干扰信息不满足第二阈值条件时,控制第一收发电路和第二收发电路采用时分复用工作模式彼此独立工作,以使射频系统处于与该抗阻塞信息、干扰信息相匹配的共存工作模式,改善通信质量。The communication control device provided in this embodiment obtains the first Interference information of the communication signal on the second communication signal received by the first transceiver circuit; when the anti-blocking information does not meet the first threshold condition and/or the interference information does not meet the second threshold condition, control the first transceiver circuit and the second transceiver circuit The time-division multiplexing working mode is adopted to work independently of each other, so that the radio frequency system is in a co-existing working mode matching the anti-blocking information and interference information, and the communication quality is improved.
请继续辅助参见图1,图1为一个实施例的射频系统的结构框图,射频系统包括:第一收发电路110、第二收发电路120及处理电路130。Please continue to refer to FIG. 1 . FIG. 1 is a structural block diagram of a radio frequency system according to an embodiment. The radio frequency system includes: a first transceiver circuit 110 , a second transceiver circuit 120 and a processing circuit 130 .
其中,第一收发电路110和第二收发电路120分别用于支持对不同通信制式的短距离无线通信信号的收发处理。Wherein, the first transceiving circuit 110 and the second transceiving circuit 120 are respectively used to support transceiving processing of short-distance wireless communication signals of different communication standards.
其中,处理电路130分别与第一收发电路110、第二收发电路120连接,用于当第一收发电路110和第二收发电路120之间存在干扰时,获取第一收发电路110对第二收发电路120发射的第一通信信号的抗阻塞信息,获取第一通信信号对第一收发电路110接收的第二通信信号的干扰信息;当抗阻塞信息满足第一阈值条件且干扰信息满足第二阈值条件时,控制第一收发电路110和第二收发电路120采用频分复用工作模式同时工作。Wherein, the processing circuit 130 is respectively connected with the first transceiver circuit 110 and the second transceiver circuit 120, and is used to acquire the information of the first transceiver circuit 110 on the second transceiver circuit 110 when there is interference between the first transceiver circuit 110 and the second transceiver circuit 120. The anti-blocking information of the first communication signal transmitted by the circuit 120 is used to obtain the interference information of the first communication signal on the second communication signal received by the first transceiver circuit 110; when the anti-blocking information satisfies the first threshold condition and the interference information satisfies the second threshold When conditions are met, the first transceiver circuit 110 and the second transceiver circuit 120 are controlled to work simultaneously in the frequency division multiplexing working mode.
第一收发电路110、第二收发电路120及处理电路130参见上述实施例的相关描述,在此不再赘述。For the first transceiver circuit 110 , the second transceiver circuit 120 , and the processing circuit 130 , refer to the related descriptions of the above embodiments, and details are not repeated here.
本实施例提供的射频系统,包括第一收发电路110、第二收发电路120及处理电路130,当第一收发电路110和第二收发电路120之间存在干扰时,处理电路130获取第一收发电路110对第二收发电路120发射的第一通信信号的抗阻塞信息,获取第一通信信号对第一收发电路110接收的第二通信信号的干扰信息;当抗阻塞信息满足第一阈值条件且干扰信息满足第二阈值条件时,控制第一收发电路110和第二收发电路120采用频分复用工作模式同时工作,以使射频系统处于与该抗阻塞信息、干扰信息相匹配的共存工作模式,改善 通信质量。The radio frequency system provided in this embodiment includes a first transceiver circuit 110, a second transceiver circuit 120, and a processing circuit 130. When there is interference between the first transceiver circuit 110 and the second transceiver circuit 120, the processing circuit 130 obtains the first transceiver circuit 110 and the second transceiver circuit 120. The circuit 110 obtains the anti-blocking information of the first communication signal transmitted by the second transceiver circuit 120, and obtains the interference information of the first communication signal to the second communication signal received by the first transceiver circuit 110; when the anti-blocking information satisfies the first threshold condition and When the interference information satisfies the second threshold condition, control the first transceiver circuit 110 and the second transceiver circuit 120 to work simultaneously in the frequency division multiplexing mode, so that the radio frequency system is in a coexistence mode that matches the anti-blocking information and the interference information , to improve communication quality.
在一些实施例中,处理电路130还被配置为当抗阻塞信息不满足第一阈值条件和/或干扰信息不满足第二阈值条件时,控制第一收发电路和第二收发电路采用时分复用工作模式彼此独立工作,以使射频系统处于与该抗阻塞信息、干扰信息相匹配的共存工作模式,改善通信质量。In some embodiments, the processing circuit 130 is further configured to control the first transceiving circuit and the second transceiving circuit to adopt time division multiplexing when the anti-blocking information does not satisfy the first threshold condition and/or the interference information does not satisfy the second threshold condition The working modes work independently of each other, so that the radio frequency system is in a co-existing working mode matching the anti-blocking information and interference information, thereby improving communication quality.
在一些实施例中,如图8所示,射频系统还包括:第一滤波器140和第二滤波器150。In some embodiments, as shown in FIG. 8 , the radio frequency system further includes: a first filter 140 and a second filter 150 .
第一滤波器140,设于第一收发电路110中,用于在第一收发电路110接收第一信号时,抑制第二收发电路120的发射信号对解调第一信号的阻塞;还用于在第一收发电路110发射第二信号时,抑制发射第二信号时产生的噪声被第二收发电路120接收。The first filter 140 is set in the first transceiver circuit 110, and is used for suppressing the blocking of the transmission signal of the second transceiver circuit 120 on demodulating the first signal when the first transceiver circuit 110 receives the first signal; When the first transceiver circuit 110 transmits the second signal, the noise generated when transmitting the second signal is suppressed from being received by the second transceiver circuit 120 .
第二滤波器150,设于第二收发电路120中,用于在第二收发电路120接收第三信号时,抑制第一收发电路110的发射信号对解调第三信号的阻塞;还用于在第二收发电路120发射第四信号时,抑制发射第四信号时产生的噪声被第一收发电路110接收。The second filter 150 is set in the second transceiver circuit 120, and is used for suppressing the blocking of the transmission signal of the first transceiver circuit 110 on demodulating the third signal when the second transceiver circuit 120 receives the third signal; When the second transceiver circuit 120 transmits the fourth signal, the noise generated when transmitting the fourth signal is suppressed from being received by the first transceiver circuit 110 .
其中,第一滤波器140用于在第一收发电路110接收第一信号时,抑制第二收发电路120的发射信号对解调第一信号的阻塞,以使第一收发电路110的接收机实现对第一信号的解调;还用于在第一收发电路110发射第二信号时,抑制自身产生的噪声落入到第二收发电路120的接收频段范围内以抑制噪声被第二收发电路120接收,避免恶化第二收发电路120接收频段的噪声而导致信噪比恶化。可选地,当第一信号和第二信号为高频信号时,第一滤波器140为低频滤波器,以实现的低频频段信号的抑制;当第一信号和第二信号为低频信号时,第一滤波器140为高频滤波器,以实现的高频频段信号的抑制。Wherein, the first filter 140 is used for suppressing the blocking of the transmission signal of the second transceiver circuit 120 to the demodulation of the first signal when the first transceiver circuit 110 receives the first signal, so that the receiver of the first transceiver circuit 110 realizes Demodulation of the first signal; it is also used to suppress the noise generated by itself from falling into the receiving frequency range of the second transceiver circuit 120 when the first transceiver circuit 110 transmits the second signal, so as to suppress the noise from being captured by the second transceiver circuit 120 Receiving, to avoid deterioration of the signal-to-noise ratio due to noise in the receiving frequency band of the second transceiver circuit 120 . Optionally, when the first signal and the second signal are high-frequency signals, the first filter 140 is a low-frequency filter to suppress low-frequency band signals; when the first signal and the second signal are low-frequency signals, The first filter 140 is a high frequency filter to suppress high frequency band signals.
其中,第二滤波器150用于在第二收发电路120接收第三信号时,抑制第一收发电路110的发射信号对解调第三信号的阻塞,以使第二收发电路120的接收机实现对第三信号的解调;还用于在第二收发电路120发射第四信号时,抑制自身产生的噪声落入到第一收发电路110的接收频段范围内以抑制噪声被第一收发电路110接收,避免恶化第一收发电路110接收频段的噪声而导致信噪比恶化。可选地,当第三信号和第四信号为高频信号时,第二滤波器150为低频滤波器,以实现的低频频段信号的抑制;当第三信号和第四信号为低频信号时,第二滤波器150为高频滤波器,以实现的高频频段信号的抑制。可以理解,第一滤波器140和第二滤波器150具体根据第一收发电路110、第二收发电路120的收发频段进行选择,例如,当第一收发电路110的收发频段为5G、第二收发电路120的收发频段为2.4G时,第一滤波器140可以是低频滤波器以滤除2.4G信号的阻塞和噪声干扰,第二滤波器150可以是高频滤波器以滤除5G信号的阻塞和噪声干扰。Wherein, the second filter 150 is used for suppressing the blocking of the transmission signal of the first transceiver circuit 110 on demodulating the third signal when the second transceiver circuit 120 receives the third signal, so that the receiver of the second transceiver circuit 120 realizes Demodulation of the third signal; it is also used to suppress the noise generated by itself from falling into the receiving frequency range of the first transceiver circuit 110 when the second transceiver circuit 120 transmits the fourth signal, so as to suppress the noise from being transmitted by the first transceiver circuit 110 Receiving, to avoid deterioration of the signal-to-noise ratio due to noise in the receiving frequency band of the first transceiver circuit 110 . Optionally, when the third signal and the fourth signal are high-frequency signals, the second filter 150 is a low-frequency filter to suppress low-frequency band signals; when the third signal and the fourth signal are low-frequency signals, The second filter 150 is a high frequency filter to suppress high frequency band signals. It can be understood that the first filter 140 and the second filter 150 are selected according to the transceiver frequency bands of the first transceiver circuit 110 and the second transceiver circuit 120, for example, when the transceiver frequency band of the first transceiver circuit 110 is 5G, and the second transceiver When the transceiver frequency band of the circuit 120 is 2.4G, the first filter 140 can be a low-frequency filter to filter out the blocking and noise interference of the 2.4G signal, and the second filter 150 can be a high-frequency filter to filter out the blocking of the 5G signal and noise interference.
可选地,如图8所示,当第一收发电路110、第二收发电路120分别连接至不同的天线时,例如分别连接至第一天线Ant1、第二天线Ant2时,第一滤波器140分别与第一天线Ant1、处理电路130连接,第二滤波器150分别与第二天线Ant 2、处理电路130连接。Optionally, as shown in FIG. 8, when the first transceiver circuit 110 and the second transceiver circuit 120 are respectively connected to different antennas, for example, when they are respectively connected to the first antenna Ant1 and the second antenna Ant2, the first filter 140 They are respectively connected to the first antenna Ant1 and the processing circuit 130, and the second filter 150 is connected to the second antenna Ant2 and the processing circuit 130 respectively.
可选地,如图9所示,当第一收发电路110和第二收发电路120分别连接至相同天线时,射频系统还包括:合路器160,分别与第一收发电路110中的第一滤波器140、第二收发电路120中的第二滤波器150、天线Ant3连接,用于将第一收发电路110收发的通信信号与第二收发电路120收发的通信信号进行合路处理,以实现共天线的射频系统,节省天线数量并降低信号的插入损耗。Optionally, as shown in FIG. 9, when the first transceiver circuit 110 and the second transceiver circuit 120 are respectively connected to the same antenna, the radio frequency system further includes: a combiner 160, which is connected to the first transceiver circuit 110 respectively. The filter 140, the second filter 150 in the second transceiver circuit 120, and the antenna Ant3 are connected, and are used for combining the communication signal sent and received by the first transceiver circuit 110 with the communication signal sent and received by the second transceiver circuit 120, so as to realize The radio frequency system with common antennas saves the number of antennas and reduces the insertion loss of signals.
可以理解,虽然图8和图9中第一收发电路110和第二收发电路120仅示出了第一滤波器140和第二滤波器150,但根据实际需要,第一收发电路110和第二收发电路120还设有其他相应功能的器件,比如功率放大器、低噪声放大器、双工器等等,在此不做具体限定。It can be understood that although the first transceiver circuit 110 and the second transceiver circuit 120 in FIG. 8 and FIG. 9 only show the first filter 140 and the second filter 150, according to actual needs, the first The transceiver circuit 120 is also provided with other devices with corresponding functions, such as power amplifiers, low noise amplifiers, duplexers, etc., which are not specifically limited here.
上述通信控制装置、射频系统中各个模块的划分仅仅用于举例说明,在其他实施例中,可将通信控制装置、射频系统按照需要划分为不同的模块,以完成上述通信控制装置、射频系统的全部或部分功能。The division of each module in the above communication control device and radio frequency system is only for illustration. In other embodiments, the communication control device and radio frequency system can be divided into different modules according to needs, so as to complete the communication control device and radio frequency system. full or partial functionality.
关于通信控制装置、射频系统的具体限定可以参见上文中对于通信控制方法的限定,在此不再赘述。上述通信控制装置、射频系统中的各个模块可全部或部分通过软件、硬件及其组合来实现。上述各模块可以硬件形式内嵌于或独立于计算机设备中的处理器中,也可以以软件形式存储于计算机设备中的存储器中,以便于处理器调用执行以上各个模块对应的操作。For specific limitations on the communication control device and the radio frequency system, refer to the above-mentioned limitations on the communication control method, which will not be repeated here. Each module in the above-mentioned communication control device and radio frequency system may be fully or partially realized by software, hardware and combinations thereof. The above-mentioned modules can be embedded in or independent of the processor in the computer device in the form of hardware, and can also be stored in the memory of the computer device in the form of software, so that the processor can invoke and execute the corresponding operations of the above-mentioned modules.
本申请还提供了一种通信设备,包括上述任一实施例中的射频系统。射频系统可以应用于通信设备中,通信设备可以为手持设备、智能汽车、车载设备、可穿戴设备、计算设备或连接到无线调制解调器的其他处理设备,以及各种形式的用户设备(User Equipment,UE)(例如,手机),移动台(Mobile Station,MS)等等。为方便描述,上面提到的设备统称为通信设备。The present application also provides a communication device, including the radio frequency system in any one of the foregoing embodiments. The radio frequency system can be applied to communication devices, which can be handheld devices, smart cars, vehicle-mounted devices, wearable devices, computing devices, or other processing devices connected to wireless modems, as well as various forms of user equipment (User Equipment, UE ) (for example, mobile phone), mobile station (Mobile Station, MS) and so on. For convenience of description, the devices mentioned above are collectively referred to as communication devices.
本申请还提供了另一种通信设备,包括存储器及处理器,所述存储器中储存有计算机程序,所述计算机程序被所述处理器执行时,使得所述处理器执行如上实施例所述的通信控制方法的步骤。可选地,如图10所示,通信设备还包括通过系统总线与处理器、存储器连接的网络接口。该通信设备的处理器用于提供计算和控制能力。该通信设备的存储器包括非易失性存储介质和内存储器。该非易失性存储介质存储有操作系统、计算机程序和数据库。该内存储器为非易失性存储介质中的操作系统和计算机程序的运行提供环境。该通信设备的网络接口用于与外部的终端通过网络连接通信。该计算机程序被处理器执行时以实现一种通信控制方法。The present application also provides another communication device, including a memory and a processor, where a computer program is stored in the memory, and when the computer program is executed by the processor, the processor executes the method described in the above embodiment. The steps of the communication control method. Optionally, as shown in FIG. 10 , the communication device further includes a network interface connected to the processor and the memory through a system bus. The processor of the communication device is used to provide computing and control capabilities. The memory of the communication device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs and databases. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage medium. The network interface of the communication device is used to communicate with an external terminal through a network connection. When the computer program is executed by the processor, a communication control method is realized.
本申请还提供了一种计算机可读存储介质,其上存储有计算机程序,所述计算机程序被处理器执行时实现如上实施例所述的选择方法的步骤,和/或实现如上实施例所述的通信控制方法的步骤。The present application also provides a computer-readable storage medium, on which a computer program is stored. When the computer program is executed by a processor, the steps of the selection method described in the above embodiments are realized, and/or the steps of the selection method described in the above embodiments are realized. The steps of the communication control method.
本申请还提供了一种计算机程序产品,包括计算机程序,该计算机程序被处理器执行时实现如上实施例所述的通信方法的步骤。The present application also provides a computer program product, including a computer program. When the computer program is executed by a processor, the steps of the communication method described in the above embodiments are implemented.
本申请所使用的对存储器、存储、数据库或其它介质的任何引用可包括非易失性和/或易失性存储器。非易失性存储器可包括ROM(Read-Only Memory,只读存储器)、PROM(Programmable Read-only Memory,可编程只读存储器)、EPROM(Erasable Programmable Read-Only Memory,可擦除可编程只读存储器)、EEPROM(Electrically Erasable Programmable Read-only Memory,电可擦除可编程只读存储器)或闪存。易失性存储器可包括RAM(Random Access Memory,随机存取存储器),它用作外部高速缓冲存储器。作为说明而非局限,RAM以多种形式可得,诸如SRAM(Static Random Access Memory,静态随机存取存储器)、DRAM(Dynamic Random Access Memory,动态随机存取存储器)、SDRAM(Synchronous Dynamic Random Access Memory,同步动态随机存取存储器)、双数据率DDR SDRAM(Double Data Rate Synchronous Dynamic Random Access memory,双数据率同步动态随机存取存储器)、ESDRAM(Enhanced Synchronous Dynamic Random Access memory,增强型同步动态随机存取存储器)、SLDRAM(Sync Link Dynamic Random Access Memory,同步链路动态随机存取存储器)、RDRAM(Rambus Dynamic Random Access Memory,总线式动态随机存储器)、DRDRAM(Direct Rambus Dynamic Random Access Memory,接口动态随机存储器)。Any reference to memory, storage, database, or other medium as used herein may include non-volatile and/or volatile memory. Non-volatile memory can include ROM (Read-Only Memory, read-only memory), PROM (Programmable Read-only Memory, programmable read-only memory), EPROM (Erasable Programmable Read-Only Memory, erasable programmable read-only memory) Memory), EEPROM (Electrically Erasable Programmable Read-only Memory, Electrically Erasable Programmable Read-only Memory) or flash memory. Volatile memory can include RAM (Random Access Memory, Random Access Memory), which is used as external cache memory. By way of illustration and not limitation, RAM is available in various forms, such as SRAM (Static Random Access Memory, static random access memory), DRAM (Dynamic Random Access Memory, dynamic random access memory), SDRAM (Synchronous Dynamic Random Access Memory , synchronous dynamic random access memory), double data rate DDR SDRAM (Double Data Rate Synchronous Dynamic Random Access memory, double data rate synchronous dynamic random access memory), ESDRAM (Enhanced Synchronous Dynamic Random Access memory, enhanced synchronous dynamic random access memory access memory), SLDRAM (Sync Link Dynamic Random Access Memory, synchronous link dynamic random access memory), RDRAM (Rambus Dynamic Random Access Memory, bus dynamic random access memory), DRDRAM (Direct Rambus Dynamic Random Access Memory, interface dynamic random access memory) memory).
以上所述实施例仅表达了本申请的几种实施方式,其描述较为具体和详细,但并不能因此而理解为对本申请专利范围的限制。应当指出的是,对于本领域的普通技术人员来说,在不脱离本申请构思的前提下,还可以做出若干变形和改进,这些都属于本申请的保护范围。因此,本申请专利的保护范围应以所附权利要求为准。The above-mentioned embodiments only express several implementation modes of the present application, and the description thereof is relatively specific and detailed, but should not be construed as limiting the patent scope of the present application. It should be noted that those skilled in the art can make several modifications and improvements without departing from the concept of the present application, and these all belong to the protection scope of the present application. Therefore, the scope of protection of the patent application should be based on the appended claims.
Claims (20)
- 一种通信控制方法,应用于射频系统,所述射频系统包括第一收发电路和第二收发电路,所述第一收发电路和所述第二收发电路分别用于支持对不同通信制式的短距离无线通信信号的收发处理;所述方法包括:A communication control method, applied to a radio frequency system, the radio frequency system includes a first transceiver circuit and a second transceiver circuit, the first transceiver circuit and the second transceiver circuit are respectively used to support short-distance communication for different communication systems Transceiving and processing of wireless communication signals; the method includes:当所述第一收发电路和所述第二收发电路之间存在干扰时,获取第一收发电路对第二收发电路发射的第一通信信号的抗阻塞信息,获取所述第一通信信号对所述第一收发电路接收的第二通信信号的干扰信息;When there is interference between the first transceiver circuit and the second transceiver circuit, acquire anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit, and acquire the impact of the first communication signal on the second transceiver circuit. The interference information of the second communication signal received by the first transceiver circuit;当所述抗阻塞信息满足第一阈值条件且所述干扰信息满足第二阈值条件时,控制所述第一收发电路和所述第二收发电路采用频分复用工作模式同时工作。When the anti-blocking information satisfies a first threshold condition and the interference information satisfies a second threshold condition, the first transceiving circuit and the second transceiving circuit are controlled to work simultaneously in a frequency division multiplexing mode.
- 根据权利要求1所述的方法,其中所述获取第一收发电路对第二收发电路发射的第一通信信号的抗阻塞信息,包括:The method according to claim 1, wherein said acquiring the anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit comprises:获取所述第二收发电路发射所述第一通信信号时产生的能量值;acquiring an energy value generated when the second transceiver circuit transmits the first communication signal;获取所述第一收发电路抑制所述第一通信信号的阻塞的第一抑制能力值;Acquiring a first suppression capability value for the first transceiver circuit to suppress blocking of the first communication signal;根据所述能量值和所述第一抑制能力值获取所述抗阻塞信息。Acquiring the anti-blocking information according to the energy value and the first suppression capability value.
- 根据权利要求2所述的方法,其中所述抗阻塞信息为所述能量值和所述第一抑制能力值之间的差值,其中:所述第一阈值条件包括所述抗阻塞信息小于第一阈值。The method according to claim 2, wherein the anti-blocking information is the difference between the energy value and the first suppression capability value, wherein: the first threshold condition includes that the anti-blocking information is less than the first a threshold.
- 根据权利要求3所述的方法,其中所述第一收发电路和所述第二收发电路分别连接至同一天线,所述第一阈值为所述第一收发电路对干扰信号的容忍能力值,所述干扰信号为所述第二收发电路发射所述第一通信信号时所述第一收发电路接收的噪声;或者所述第一收发电路和所述第二收发电路分别连接至不同的天线,所述第一阈值为所述容忍能力值与天线隔离度之和。The method according to claim 3, wherein the first transceiver circuit and the second transceiver circuit are respectively connected to the same antenna, and the first threshold is the tolerance value of the first transceiver circuit to interference signals, so The interference signal is the noise received by the first transceiver circuit when the second transceiver circuit transmits the first communication signal; or the first transceiver circuit and the second transceiver circuit are respectively connected to different antennas, so The first threshold is the sum of the tolerance value and the antenna isolation.
- 根据权利要求1所述的方法,其中所述获取所述第一通信信号对所述第一收发电路接收的第二通信信号的干扰信息,包括:The method according to claim 1, wherein said obtaining the interference information of the first communication signal on the second communication signal received by the first transceiver circuit comprises:获取所述第二收发电路发射所述第一通信信号时产生的噪声,所述噪声为位于所述第一收发电路接收频段范围内的干扰信号;Acquiring noise generated when the second transceiver circuit transmits the first communication signal, where the noise is an interference signal within a receiving frequency range of the first transceiver circuit;获取所述第二收发电路抑制所述噪声被所述第一收发电路接收的第二抑制能力值;Acquiring a second suppression capability value for the second transceiver circuit to suppress the noise from being received by the first transceiver circuit;根据所述噪声和所述第二抑制能力值获取所述干扰信息。Acquire the interference information according to the noise and the second suppression capability value.
- 根据权利要求5所述的方法,其中所述干扰信息为所述噪声的参数值和所述第二抑制能力值之间的差值,其中:所述第二阈值条件包括所述干扰信息大于或等于第二阈值。The method according to claim 5, wherein the interference information is the difference between the parameter value of the noise and the second suppression capability value, wherein: the second threshold condition includes that the interference information is greater than or equal to the second threshold.
- 根据权利要求6所述的方法,其中所述第一收发电路和所述第二收发电路分别连接至同一天线,所述第二阈值为所述第一收发电路可承受干扰的预设阈值;或者所述第一收发电路和所述第二收发电路分别连接至不同的天线,所述第二阈值为所述预设阈值与天线隔离度之和。The method according to claim 6, wherein the first transceiving circuit and the second transceiving circuit are respectively connected to the same antenna, and the second threshold is a preset threshold at which the first transceiving circuit can withstand interference; or The first transceiving circuit and the second transceiving circuit are respectively connected to different antennas, and the second threshold is a sum of the preset threshold and antenna isolation.
- 根据权利要求1所述的方法,其中所述方法还包括:The method according to claim 1, wherein said method further comprises:当所述抗阻塞信息不满足第一阈值条件和/或所述干扰信息不满足第二阈值条件时,控制所述第一收发电路和所述第二收发电路采用时分复用工作模式彼此独立工作。When the anti-blocking information does not meet the first threshold condition and/or the interference information does not meet the second threshold condition, control the first transceiver circuit and the second transceiver circuit to work independently of each other in a time division multiplexing mode .
- 根据权利要求1所述的方法,其中所述第一通信信号为WIFI信号,所述第二通信信号为蓝牙信号;或者所述第二通信信号为WIFI信号,所述第一通信信号为蓝牙信号。The method according to claim 1, wherein the first communication signal is a WIFI signal, and the second communication signal is a Bluetooth signal; or the second communication signal is a WIFI signal, and the first communication signal is a Bluetooth signal .
- 一种通信控制装置,应用于射频系统,所述射频系统包括第一收发电路和第二收发电路,所述第一收发电路和所述第二收发电路分别用于支持对不同通信制式的短距离无线通信信号的收发处理;所述装置包括:A communication control device, applied to a radio frequency system, the radio frequency system includes a first transceiver circuit and a second transceiver circuit, the first transceiver circuit and the second transceiver circuit are respectively used to support short-distance communication for different communication systems Transceiving and processing of wireless communication signals; the device includes:信息获取模块,用于当所述第一收发电路和所述第二收发电路之间存在干扰时,获取第一收发电路对第二收发电路发射的第一通信信号的抗阻塞信息,获取所述第一通信信号对所述第一收发电路接收的第二通信信号的干扰信息;An information acquisition module, configured to acquire anti-blocking information of the first communication signal transmitted by the first transceiver circuit to the second transceiver circuit when there is interference between the first transceiver circuit and the second transceiver circuit, and acquire the Interference information of the first communication signal on the second communication signal received by the first transceiver circuit;第一控制模块,用于当所述抗阻塞信息满足第一阈值条件且所述干扰信息满足第二阈 值条件时,控制所述第一收发电路和所述第二收发电路采用频分复用工作模式同时工作。A first control module, configured to control the first transceiving circuit and the second transceiving circuit to work in frequency division multiplexing when the anti-blocking information satisfies a first threshold condition and the interference information satisfies a second threshold condition modes work simultaneously.
- 根据权利要求10所述的装置,其中所述通信控制装置还包括:The device according to claim 10, wherein the communication control device further comprises:第二控制模块,用于当所述抗阻塞信息不满足所述第一阈值条件或所述干扰信息不满足所述第二阈值条件时,控制所述第一收发电路和所述第二收发电路采用时分复用工作模式彼此独立工作。A second control module, configured to control the first transceiving circuit and the second transceiving circuit when the anti-blocking information does not satisfy the first threshold condition or the interference information does not satisfy the second threshold condition They work independently of each other in time-division multiplexing mode.
- 根据权利要求10所述的装置,其中所述通信控制装置还包括:The device according to claim 10, wherein the communication control device further comprises:第二控制模块,用于当所述抗阻塞信息不满足所述第一阈值条件和所述干扰信息不满足所述第二阈值条件时,控制所述第一收发电路和所述第二收发电路采用时分复用工作模式彼此独立工作。A second control module, configured to control the first transceiving circuit and the second transceiving circuit when the anti-blocking information does not satisfy the first threshold condition and the interference information does not satisfy the second threshold condition They work independently of each other in time-division multiplexing mode.
- 一种射频系统,包括:A radio frequency system comprising:第一收发电路;a first transceiver circuit;第二收发电路;the second transceiver circuit;处理电路,分别与所述第一收发电路、所述第二收发电路连接,用于当所述第一收发电路和所述第二收发电路之间存在干扰时,获取第一收发电路对第二收发电路发射的第一通信信号的抗阻塞信息,获取所述第一通信信号对所述第一收发电路接收的第二通信信号的干扰信息;当所述抗阻塞信息满足第一阈值条件且所述干扰信息满足第二阈值条件时,控制所述第一收发电路和所述第二收发电路采用频分复用工作模式同时工作;The processing circuit is connected to the first transceiver circuit and the second transceiver circuit respectively, and is used to acquire the pairing of the first transceiver circuit to the second transceiver circuit when there is interference between the first transceiver circuit and the second transceiver circuit. The anti-blocking information of the first communication signal transmitted by the transceiver circuit, and the interference information of the first communication signal on the second communication signal received by the first transceiver circuit; when the anti-blocking information satisfies the first threshold condition and the When the interference information satisfies the second threshold condition, control the first transceiver circuit and the second transceiver circuit to work simultaneously in frequency division multiplexing mode;其中,所述第一收发电路和所述第二收发电路分别用于支持对不同通信制式的短距离无线通信信号的收发处理。Wherein, the first transceiving circuit and the second transceiving circuit are respectively used to support transceiving processing of short-distance wireless communication signals of different communication standards.
- 根据权利要求13所述的射频系统,其中,所述处理电路还被配置为当所述抗阻塞信息不满足所述第一阈值条件或所述干扰信息不满足所述第二阈值条件时,控制第一收发电路和第二收发电路采用时分复用工作模式彼此独立工作。The radio frequency system according to claim 13, wherein the processing circuit is further configured to control The first transceiver circuit and the second transceiver circuit work independently of each other in a time division multiplexing mode.
- 根据权利要求13所述的射频系统,其中,所述处理电路还被配置为当所述抗阻塞信息不满足所述第一阈值条件和所述干扰信息不满足所述第二阈值条件时,控制第一收发电路和第二收发电路采用时分复用工作模式彼此独立工作。The radio frequency system according to claim 13, wherein the processing circuit is further configured to control The first transceiver circuit and the second transceiver circuit work independently of each other in a time division multiplexing mode.
- 根据权利要求13所述的射频系统,其中所述射频系统还包括:The radio frequency system according to claim 13, wherein said radio frequency system further comprises:第一滤波器,设于所述第一收发电路中,用于在所述第一收发电路接收第一信号时,抑制所述第二收发电路的发射信号对解调所述第一信号的阻塞;还用于在所述第一收发电路发射第二信号时,抑制发射所述第二信号时产生的噪声被所述第二收发电路接收。The first filter, set in the first transceiver circuit, is used to suppress the blocking of the transmission signal of the second transceiver circuit to the demodulation of the first signal when the first transceiver circuit receives the first signal ; It is also used to suppress the noise generated when the second signal is transmitted from being received by the second transceiver circuit when the first transceiver circuit transmits the second signal.
- 根据权利要求13所述的射频系统,其中所述射频系统还包括:The radio frequency system according to claim 13, wherein said radio frequency system further comprises:第二滤波器,设于所述第二收发电路中,用于在所述第二收发电路接收第三信号时,抑制所述第一收发电路的发射信号对解调所述第三信号的阻塞;还用于在所述第二收发电路发射第四信号时,抑制发射所述第四信号时产生的噪声被所述第一收发电路接收。The second filter, set in the second transceiver circuit, is used to suppress the blockage of the transmission signal of the first transceiver circuit to the demodulation of the third signal when the second transceiver circuit receives the third signal ; It is also used to suppress the noise generated when the fourth signal is transmitted from being received by the first transceiver circuit when the second transceiver circuit transmits the fourth signal.
- 根据权利要求13所述的射频系统,其中所述第一收发电路和所述第二收发电路分别连接至相同天线,所述射频系统还包括:The radio frequency system according to claim 13, wherein the first transceiver circuit and the second transceiver circuit are respectively connected to the same antenna, and the radio frequency system further comprises:合路器,分别与所述第一收发电路中的所述第一滤波器、所述第二收发电路中的所述第二滤波器、所述天线连接,用于将所述第一收发电路收发的通信信号与所述第二收发电路收发的通信信号进行合路处理。A combiner, respectively connected to the first filter in the first transceiver circuit, the second filter in the second transceiver circuit, and the antenna, for connecting the first transceiver circuit The communication signal sent and received is combined with the communication signal sent and received by the second transceiver circuit.
- 一种通信设备,包括存储器和处理器,所述存储器存储有计算机程序,所述处理器执行所述计算机程序时实现权利要求1所述的方法的步骤。A communication device, comprising a memory and a processor, the memory stores a computer program, and the processor implements the steps of the method according to claim 1 when executing the computer program.
- 一种计算机可读存储介质,其上存储有计算机程序,所述计算机程序被处理器执行时实现权利要求1所述的方法的步骤。A computer-readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the steps of the method according to claim 1 are implemented.
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