CN104348511A - Radio frequency circuit and electronic equipment - Google Patents
Radio frequency circuit and electronic equipment Download PDFInfo
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- CN104348511A CN104348511A CN201310347416.6A CN201310347416A CN104348511A CN 104348511 A CN104348511 A CN 104348511A CN 201310347416 A CN201310347416 A CN 201310347416A CN 104348511 A CN104348511 A CN 104348511A
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Abstract
The invention relates to the field of a communication technology and discloses a radio frequency circuit and electronic equipment, aiming to solve the technical problem in the prior art that the radio frequency circuit has complicated wire arrangement. The radio frequency circuit comprises N communication modules, an address decoder and a configuration bus, wherein the address decoder is connected with the N communication modules; the configuration bus is connected with the address decoder; a first configuration parameter is sent to the address decoder after the configuration bus obtains the first configuration parameter, so that first address information is obtained, and the first communication module corresponding to the first address information is determined from the N communication modules; then the first configuration parameter is sent to the first communication module and is used for carrying out parameter setting on the first communication module by the first configuration parameter. Namely, the parameter setting of at least two communication modules can be realized by using only one configuration bus, so that the quantity of the configuration bus is reduced, and the technical effect of the wire arrangement complexity of the radio frequency circuit is achieved.
Description
Technical field
The present invention relates to communication technical field, particularly a kind of radio circuit and electronic equipment.
Background technology
Along with the development of science and technology, electronic technology have also been obtained development at full speed, and then also creates increasing electronic equipment, such as: mobile phone, panel computer, notebook computer etc.The function that these electronic equipments have from strength to strength, has become a part indispensable in people's life.
And a lot of electronic equipment all has communication function, and then can receiving or send data, in order to realize communication function, in these electronic equipments, being all provided with radio circuit, as Fig. 1 is somebody's turn to do, be the schematic diagram of a radio circuit, specifically comprise:
WLAN (wireless local area network) (WLAN:Wireless Local Area Networks) module 10a, for carrying out transfer of data by WLAN (wireless local area network);
Bluetooth (Bluetooth) module 10b, for carrying out transfer of data by Bluetooth protocol;
FM broadcasting (FM:Frequency Modulation) module 10c, for passing through FM radio receiver data;
Radio-frequency front-end 11, is connected with this bluetooth module 10b with this Wireless LAN module 10a;
First antenna 12a, is connected with this radio-frequency front-end 11, and for sending this Wireless LAN module 10a first sends second of signal or this bluetooth module 10b sends signal; And receive first Received signal strength corresponding with this Wireless LAN module 10a and second Received signal strength corresponding with this bluetooth module 10b;
Second antenna 12b, is connected to this FM broadcasting module 10b, for receiving the 3rd Received signal strength, and transfers to this FM broadcasting module 10b;
Input/output interface 13, is connected to this Wireless LAN module 10a, this bluetooth module 10b and this FM broadcasting module 10c;
First data transmission interface 14a, is connected with this Wireless LAN module 10a by this input/output interface 13, for providing the first data to this Wireless LAN module 10a;
Second data transmission interface 14b, is connected with this bluetooth module 10b by this input/output interface 13, for providing the first data to this bluetooth module 10b;
3rd data transmission interface 14c, is connected with this FM broadcasting module 10b by this input/output interface 13, for providing the first data to this FM broadcasting module 10b;
First configuration bus 15a, is connected with this Wireless LAN module 10a by this input/output interface 13, for providing the first configuration parameter to this Wireless LAN module 10a, to carry out optimum configurations by this first configuration parameter to this Wireless LAN module 10a;
Second configuration bus 15b, is connected with this bluetooth module 10b by this input/output interface 13, for providing the second configuration parameter to this bluetooth module 10b, to carry out optimum configurations by this second configuration parameter to this bluetooth module 10b;
3rd configuration bus 15c, is connected with this FM broadcasting module 10c by this input/output interface 13, for providing the 3rd configuration parameter to this FM broadcasting module 10c, to carry out optimum configurations by the 3rd configuration parameter to this FM broadcasting module 10c.
Present inventor finds at least there is following technical problem in prior art:
In prior art, multiple communication module is included at radio circuit, the configuration bus of equal number can be included, to give this multiple communication module transmission configuration parameter respectively, and then optimum configurations is carried out to this multiple communication module, so cause the configuration bus quantity of radio circuit in prior art too much, thus cause in prior art, there is the complicated technical problem of radio circuit wiring.
Summary of the invention
The embodiment of the present invention provides a kind of radio circuit and electronic equipment, for solving the technical problem of the radio circuit wiring complexity also existed in prior art.
According to a first aspect of the present invention, a kind of radio circuit is provided, comprises: N number of communication module, wherein N be more than or equal to 2 positive integer; Address decoder, is connected to described N number of communication module; Configuration bus, is connected to described address decoder; Wherein, after described configuration bus obtains the first configuration parameter, described first configuration parameter is sent to described address decoder, described address decoder carries out address decoding to described first configuration parameter and then obtains the first address information, and then from described N number of communication module, determine first communication module corresponding to described first address information, then described first configuration parameter is sent to described first communication module, to carry out optimum configurations by described first configuration parameter to described first communication module.
In conjunction with first aspect, in the implementation that the first is possible, described N number of communication module, is specially: at least two communication modules in Wireless LAN module or bluetooth module or FM broadcasting module.
In conjunction with first aspect, in the implementation that the second is possible, described radio circuit also comprises: input/output interface, by described input/output interface, described N number of communication module is connected with described address decoder, to be realized the data cube computation between described N number of communication module and described address decoder by described input/output interface.
In conjunction with the implementation that the second of first aspect is possible, in the implementation that the third is possible, described radio circuit also comprises: N number of data transmission interface, i-th data transmission interface in described N number of data transmission interface is connected with i-th communication module in described N number of communication module by described input/output interface, be sent to for providing the i-th transmission subdata or acquisition i-th communication module to described i-th communication module i-th receives subdata, and wherein i is arbitrary integer of 1 to N.
In conjunction with first aspect, in the 4th kind of possible implementation, described radio circuit also comprises:
Radio-frequency front-end, is connected to described N number of communication module, for processing the Received signal strength corresponding to described N number of communication module or transmission signal.
In conjunction with in the 4th kind of possible implementation of first aspect, in the 5th kind of possible implementation, described radio circuit also comprises: antenna, be connected at least one communication module in described radio-frequency front-end or described N number of communication module, for receiving described Received signal strength or sending described transmission signal.
According to second aspect, the embodiment of the present invention provides a kind of electronic equipment, comprising: shell;
Any one possible implementation in the implementation that first aspect present invention or first aspect the first to six kind is possible introduce described in radio circuit, be arranged at described case surface or inside; Processor, is arranged at described enclosure, is connected with described radio circuit, provides the reception data sending data or obtain the reception of described radio circuit for providing to described radio circuit to described radio circuit.
Beneficial effect of the present invention is as follows:
Due in embodiments of the present invention, provide a kind of radio circuit, described radio circuit comprises at least two communication modules, and these at least two communication modules are connected with same configuration bus by address decoder, when described configuration bus obtains the first configuration parameter, the first address information can determining corresponding to described first configuration parameter by described address decoder, and then from described at least two communication modules, determine first communication module corresponding to the first address information, finally described first configuration parameter is sent to described first communication module, and then by described first configuration parameter, optimum configurations is carried out to described first communication module, that is at least two communication modules only need a configuration bus just can realize optimum configurations, so decrease the quantity of configuration bus, reach the technique effect reducing radio circuit routing complexity.
Accompanying drawing explanation
Fig. 1 is the structure chart of radio circuit in prior art;
Fig. 2 is the structure chart of radio circuit in the embodiment of the present invention;
Fig. 3 is the structure chart of the further refinement of embodiment of the present invention radio circuit;
Fig. 4 is the structure chart of radio circuit in the embodiment of the present invention one;
Fig. 5 is the structure chart of radio circuit in the embodiment of the present invention two;
Fig. 6 is the structure chart of electronic equipment in the embodiment of the present invention.
Embodiment
The embodiment of the present invention provides a kind of radio circuit and electronic equipment, for solving the technical problem of the radio circuit wiring complexity also existed in prior art.
Technical scheme in the embodiment of the present invention is solve above-mentioned technical problem, and general thought is as follows:
A kind of radio circuit is provided, comprises: N number of communication module, wherein N be more than or equal to 2 positive integer; Address decoder, is connected to N number of communication module; Configuration bus, is connected to address decoder; Wherein, after configuration bus obtains the first configuration parameter, first configuration parameter is sent to address decoder, address decoder carries out address decoding to the first configuration parameter and then obtains the first address information, and then from N number of communication module, determine first communication module corresponding to the first address information, then the first configuration parameter is sent to first communication module, to carry out optimum configurations by the first configuration parameter to first communication module.
Due in such scheme, N number of communication module only needs a configuration bus just can realize optimum configurations, so decrease the quantity of configuration bus, reaches the technique effect reducing radio circuit routing complexity.
In order to better understand technique scheme, below by accompanying drawing and specific embodiment, technical solution of the present invention is described in detail, the specific features being to be understood that in the embodiment of the present invention and embodiment is the detailed description to technical solution of the present invention, instead of the restriction to technical solution of the present invention, when not conflicting, the technical characteristic in the embodiment of the present invention and embodiment can combine mutually.
On the one hand, the embodiment of the present invention provides a kind of radio circuit, please refer to Fig. 2, and radio circuit specifically comprises:
N number of communication module 20, wherein N be more than or equal to 2 positive integer;
Address decoder 21, is connected to N number of communication module 20;
Configuration bus 22, is connected to address decoder 21;
In specific implementation process, N number of communication module 20 above, address decoder 21 and configuration bus 22 are all arranged at radio frequency chip 2 surface;
After configuration bus 22 obtains the first configuration parameter, first configuration parameter is sent to address decoder 21, address decoder 21 carries out address decoding to the first configuration parameter and then obtains the first address information, and then from N number of communication module 20, determine first communication module corresponding to the first address information, then the first configuration parameter is sent to first communication module, to carry out optimum configurations by the first configuration parameter to first communication module.
As further preferred embodiment, N number of communication module 20, is specially: at least two communication modules in Wireless LAN module or bluetooth module or FM broadcasting module.
In specific implementation process, Wireless LAN module specifically refers to and utilizes radio frequency (RF:Radio Frequency) technology to replace the communication module that old-fashioned twisted-pair feeder carries out transfer of data;
In specific implementation process, bluetooth module specifically refers to the communication module of being carried out transfer of data by Bluetooth transmission protocol, bluetooth module is the communication module of a kind of support equipment short haul connection (general 10m in), can carry out wireless messages exchange comprising between numerous equipment such as mobile phone, PDA, wireless headset, notebook computer, related peripherals.Utilize bluetooth module can communication successfully between simplified apparatus and internet Internet, thus transfer of data become efficient more rapidly, is radio communication widening road.
In specific implementation process, FM broadcasting module refer to allotment broadcast (76-108MHz, China be 87.5-108MHz, Japan is for 76-90MHz) carry out the communication module that controls.
In specific embodiment process, based on the difference of first communication module, also different to the optimum configurations of first communication module, three kinds of enumerating below are wherein introduced, and certainly, in specific implementation process, are not limited to following three kinds of situations.
The first, first communication module is Wireless LAN module, when carrying out optimum configurations by the first configuration information to Wireless LAN module, is mainly configured following parameter: network name, key, communication channel, traffic rate, transmitting power etc.
The second, first communication module is bluetooth module, when carrying out optimum configurations by the first configuration information to bluetooth module, is mainly configured following parameter: network name, unpaired message, key, frequency-hopping sequences, traffic rate, transmitting power etc.
The third, first communication module is FM broadcasting module, when carrying out optimum configurations by the first configuration information frequency-modulation broadcasting module, is mainly configured following parameter: listen to frequency, modulation system etc.
As further preferred embodiment, please refer to Fig. 3, radio circuit also comprises:
Input/output interface 23, is connected N number of communication module 20 with address decoder 21 by input/output interface 23, to be realized the data cube computation between N number of communication module and address decoder 21 by input/output interface 23.
Specifically, namely after address decoder 21 obtains and carries out the configuration information of optimum configurations to N number of communication module, first transmit it to input/output interface 23, then transfer to the first communication module in N number of communication module by input/output interface 23.
As further preferred embodiment, please continue to refer to Fig. 3, radio circuit also comprises:
N number of data transmission interface 24, i-th data transmission interface in N number of data transmission interface 24 is connected with i-th communication module in N number of communication module 20 by input/output interface 23, be sent to for providing the i-th transmission subdata or acquisition i-th communication module to i-th communication module i-th receives subdata, and wherein i is arbitrary integer of 1 to N.
In specific implementation process, i-th data transmission interface in N number of data transmission interface 24 can accept by the CPU(central processing unit of the electronic equipment being provided with radio circuit: CentralProcessingUnit) or MPU(microprocessor: Micro Processor Unit) be sent to the i-th transmission subdata, then send it to i-th communication module; Or after i-th communication module receives the i-th reception subdata, send it to CPU or MPU by i-th data transmission interface, and then by CPU or MPU, the i-th reception subdata is processed.
As further preferred embodiment, please continue to refer to Fig. 3, radio circuit also comprises:
Radio-frequency front-end 25, is connected to N number of communication module 20, for processing the Received signal strength corresponding to N number of communication module 20 or transmission signal.
Further, radio-frequency front-end 25 specifically comprises: receiving path and transmitting path.
Further, receiving path comprises the devices such as low noise amplifier (LNA), filter, comprise the indexs such as gain, sensitivity, radio frequency reception bandwidth, will design according to products characteristics, object is that the radiofrequency signal ensured can pick up out from space complete, without distortion and the circuit such as frequency conversion, intermediate frequency amplification flowing to rear class processes.
Transmitting path specifically for the work such as power amplification, filtering, the transmission signal sent is carried out modulate, digital-to-analogue conversion, a series of process of power amplification etc.
As further preferred embodiment, please continue to refer to Fig. 3, radio circuit also comprises:
Antenna 26, is connected at least one communication module in radio-frequency front-end 25 or N number of communication module 20, for receiving Received signal strength or sending signal.
Antenna 26 is mainly used in receiving and carries out the transmission signal processed or the transmission signal transferred to by least one communication module in N number of communication module 20 by radio-frequency front-end 25, is then sent; Or for receiving the Received signal strength that other electronic equipment sends, and sent radio-frequency front-end 25 and processed.
Introduce the method for the electronic equipment of the information processing in the present invention below by way of several specific embodiment, the following examples mainly describe the several possible application scenarios of the method for information processing.It should be noted that, the embodiment in the present invention only for explaining the present invention, and can not be used for limiting the present invention.All meet the embodiment of inventive concept all within protection scope of the present invention, and those skilled in the art know naturally should how thought according to the present invention be out of shape.
Embodiment one
In the present embodiment for N number of communication module for Wireless LAN module and bluetooth module introduce radio frequency chip.
Please refer to Fig. 4, radio frequency chip specifically comprises following structure:
Wireless LAN module 40a, for carrying out transfer of data by WLAN (wireless local area network);
Bluetooth module 40b, for carrying out transfer of data by Bluetooth protocol;
Input/output interface 41, is connected to Wireless LAN module 40a and bluetooth module 41b;
Address decoder 42, is connected with bluetooth module 40b with Wireless LAN module 40a by input/output interface 41;
Configuration bus 43, is connected to address decoder 42;
First data transmission interface 44, be connected with Wireless LAN module 40a by input/output interface 41, send data for sending the first son to Wireless LAN module 40a or the first son of Wireless LAN module 40a reception is received CPU or MPU that data are sent to electronic equipment;
Second data transmission interface 45, is connected with bluetooth module 40b by input/output interface 41, sends data for sending the second son to bluetooth module 40b or the second son of bluetooth module 40b reception is received CPU or MPU that data are sent to electronic equipment;
Radio-frequency front-end 46, with Wireless LAN module 40a and bluetooth module 40b;
Antenna 47, is connected to radio-frequency front-end 46, antenna 47 for send Wireless LAN module 40a corresponding first son send signal and bluetooth module 40b corresponding second son send signal; Antenna 47 also for after receiving the first sub-Received signal strength, transmits it to Wireless LAN module 40a, and after receiving the second sub-Received signal strength, transmits it to bluetooth module 40b;
In specific implementation process, above-mentioned Wireless LAN module 40a, bluetooth module 40b, input/output interface 41, address decoder 42, configuration bus 43 and radio-frequency front-end 46 are all arranged at a radio frequency chip 4.
Suppose to there is corresponding relation as shown in table 1 in the electronic device:
Table 1
| Address | Communication module |
| 1 | Wireless LAN module |
| 2 | Bluetooth module |
After configuration bus 43 receives the first configuration information sent by the CPU/MPU of the electronic equipment being provided with radio circuit, first address resolution is carried out to the first configuration information, and then determine the first address information, then by above-mentioned corresponding relation, the first communication module corresponding to the first configuration information can be determined, such as: if the first address information is 1, so the first configuration information is sent to Wireless LAN module 40a, and then optimum configurations can be carried out by the first configuration information to Wireless LAN module 40a; If the first address information is 2, so the first configuration information is sent to bluetooth module 40b, and then optimum configurations can be carried out by the first configuration information to bluetooth module 40b.
Embodiment two
In the present embodiment for N number of communication module be Wireless LAN module, bluetooth module and FM broadcasting module introduce radio frequency chip.
Please refer to Fig. 5, radio circuit specifically comprises following structure:
Wireless LAN module 50a, for carrying out transfer of data by WLAN (wireless local area network);
Bluetooth module 50b, for carrying out transfer of data by Bluetooth protocol;
FM broadcasting module 50c, for passing through FM radio receiver data;
Radio-frequency front-end 51, is connected with bluetooth module 50b with Wireless LAN module 50a;
First antenna 52a, is connected with bluetooth module 50b with Wireless LAN module 50a by radio-frequency front-end 51;
Second antenna 52b, is connected with FM broadcasting module 50c;
Input/output interface 53, is connected to Wireless LAN module 50a, bluetooth module 50b and FM broadcasting module 50c;
First data transmission interface 54a, be connected with Wireless LAN module 50a by input/output interface 53, send data for sending the first son to Wireless LAN module 50a or the first son of Wireless LAN module 50a reception is received CPU or MPU of transfer of data to electronic equipment;
Second data transmission interface 54b, is connected with bluetooth module 50b by input/output interface 53, sends data or the second son of bluetooth module 50b reception is received CPU or MPU that data are sent to electronic equipment for providing the second son to bluetooth module 50b;
3rd data transmission interface 54c, be connected with FM broadcasting module 50c by input/output interface 53, send data for providing the 3rd son to FM broadcasting module 50c or the 3rd son of FM broadcasting module 50c reception is received CPU or MPU that data are sent to electronic equipment;
Address decoder 55, is connected with input/output interface 53, and then is connected to Wireless LAN module 50a, bluetooth module 50b and FM broadcasting module 50c by input input interface 53;
Configuration bus 56, is connected with address decoder 55;
After configuration bus 56 receives the first configuration parameter that the electronic equipment that is provided with radio circuit is sent to, first configuration parameter is sent to address decoder 55, and then from the first configuration parameter, determine the first address information by address decoder, and then the first configuration information is transferred to first communication module corresponding to the first address information by input/output interface 53 by address decoder 55.
In specific implementation process, Wireless LAN module 50a, bluetooth module 50b, FM broadcasting module 50c, radio-frequency front-end 51, input/output interface 53, address decoder 55, configuration bus 56 are all arranged at above a radio frequency chip 5.
Suppose to there is corresponding relation as shown in table 2 in the electronic device:
Table 2
| Address | Communication module |
| 03 | Wireless LAN module |
| 02 | Bluetooth module |
| 01 | FM broadcasting module |
Wherein, the front two defined in the first configuration parameter represents address, suppose that CPU sends following first configuration parameter " 03-power15-v11m " by configuration bus 56 to address decoder 55, address decoder 55 is resolved the first configuration parameter, and then determine that address is: 03, so determine that first communication module is Wireless LAN module 50a, so the first configuration information is sent to Wireless LAN module 50a, Wireless LAN module 50a detects " power ", so determine to arrange the transmitting power of Wireless LAN module 50a, so by transmission power level: 15 write related registers, and then the transmitting power of Wireless LAN module 50a is set to 15dBm, Wireless LAN module 50a detects " v " simultaneously, so determine to adjust the traffic rate of Wireless LAN module 50a, so by traffic rate value: 11 write related registers, and then the traffic rate of Wireless LAN module 50a is set to 11Mbps.
Suppose that CPU sends following first configuration parameter " 02-power5-v1m " by configuration bus 56 to address decoder 55, address decoder 55 is resolved the first configuration parameter, and then determine that address is: 02, so determine that first communication module is bluetooth module 50b, so the first configuration information is sent to bluetooth 50b, bluetooth module 50b detects " power ", so determine that the transmitting power of frequency-modulation broadcasting module 50b is arranged, so by transmission power level: 5 write related registers, and then the transmitting power of bluetooth module 50b is set to 5dBm; Bluetooth module 50b detects " v ", so determine to adjust the traffic rate of bluetooth module 50b, so by traffic rate value simultaneously: 1 write related register, and then the traffic rate of FM broadcasting module 50b is set to 1Mbps.
Suppose that CPU sends following first configuration parameter " 01-fre1039-mFM " by configuration bus 56 to address decoder 55, address decoder 55 is resolved the first configuration parameter, and then determine that address is: 01, so determine that first communication module is FM broadcasting module 50c, so the first configuration information is sent to FM broadcasting module 50c, FM broadcasting module 50c detects " fre ", so determine that the frequency of frequency-modulation broadcasting module 50c is arranged, so by frequency values: 1039 write related registers, and then be 1039MHz by the set of frequency of FM broadcasting module 50c, FM broadcasting module 50c detects " m " simultaneously, so determine that the mode of frequency regulation of frequency-modulation broadcasting module 50c adjusts, so traffic rate value: FM is write related register, and then the mode of frequency regulation of FM broadcasting module 50c is set to: fm demodulation receives.
According to a second aspect of the invention, provide a kind of electronic equipment, please refer to Fig. 6, electronic equipment specifically comprises:
Shell 60;
The radio circuit 61 that any embodiment of the present invention is introduced, is arranged at shell 60 surface or inner 60;
Processor 62, is arranged at shell 60 inner, is connected with radio circuit 61, for providing the reception data sending data or obtain radio circuit 61 reception to radio circuit 61.
Due to the electronic equipment that the embodiment of the present invention is introduced, for being provided with the electronic equipment of the radio circuit that the embodiment of the present invention is introduced, so based on the electronic equipment that the embodiment of the present invention is introduced, those skilled in the art can understand concrete structure and the distortion of the electronic equipment that the embodiment of the present invention is introduced, so introduce no longer in detail at this.
One or more technical schemes that the application provides, at least have following technique effect or advantage:
Due in embodiments of the present invention, provide a kind of radio circuit, radio circuit comprises at least two communication modules, and these at least two communication modules are connected with same configuration bus by address decoder, when configuration bus obtains the first configuration parameter, the first address information can determining corresponding to the first configuration parameter by address decoder, and then from least two communication modules, determine first communication module corresponding to the first address information, finally the first configuration parameter is sent to first communication module, and then by the first configuration parameter, optimum configurations is carried out to first communication module, that is at least two communication modules only need a configuration bus just can realize optimum configurations, so decrease the quantity of configuration bus, reach the technique effect reducing radio circuit routing complexity.
Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.
Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.
Claims (7)
1. a radio circuit, is characterized in that, comprising:
N number of communication module, wherein N be more than or equal to 2 positive integer;
Address decoder, is connected to described N number of communication module;
Configuration bus, is connected to described address decoder;
Wherein, after described configuration bus obtains the first configuration parameter, described first configuration parameter is sent to described address decoder, described address decoder carries out address decoding to described first configuration parameter and then obtains the first address information, and then from described N number of communication module, determine first communication module corresponding to described first address information, then described first configuration parameter is sent to described first communication module, to carry out optimum configurations by described first configuration parameter to described first communication module.
2. radio circuit as claimed in claim 1, it is characterized in that, described N number of communication module, is specially: at least two communication modules in Wireless LAN module or bluetooth module or FM broadcasting module.
3. radio circuit as claimed in claim 1, it is characterized in that, described radio circuit also comprises:
Input/output interface, is connected described N number of communication module with described address decoder by described input/output interface, to be realized the data cube computation between described N number of communication module and described address decoder by described input/output interface.
4. radio circuit as claimed in claim 3, it is characterized in that, described radio circuit also comprises:
N number of data transmission interface, i-th data transmission interface in described N number of data transmission interface is connected with i-th communication module in described N number of communication module by described input/output interface, be sent to for providing the i-th transmission subdata or acquisition i-th communication module to described i-th communication module i-th receives subdata, and wherein i is arbitrary integer of 1 to N.
5. radio circuit as claimed in claim 1, it is characterized in that, described radio circuit also comprises:
Radio-frequency front-end, is connected to described N number of communication module, for processing the Received signal strength corresponding to described N number of communication module or transmission signal.
6. radio circuit as claimed in claim 5, it is characterized in that, described radio circuit also comprises:
Antenna, is connected at least one communication module in described radio-frequency front-end or described N number of communication module, for receiving described Received signal strength or sending described transmission signal.
7. an electronic equipment, is characterized in that, comprising:
Shell;
Radio circuit as described in claim as arbitrary in claim 1-6, is arranged at described case surface or inside;
Processor, is arranged at described enclosure, is connected with described radio circuit, provides the reception data sending data or obtain the reception of described radio circuit for providing to described radio circuit to described radio circuit.
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