CN103856274A - Radio frequency hardware configuration setting method and communication device thereof - Google Patents

Abstract

A radio frequency hardware configuration setting method and a communication device thereof are provided, wherein the radio frequency hardware configuration setting method comprises the following steps: detecting a configuration set value set before the communication device leaves a factory; determining the radio frequency hardware configuration of the communication device according to the configuration setting value; and performing radio frequency hardware configuration setting on the communication device according to the radio frequency hardware configuration. The radio frequency hardware configuration setting method and the communication device thereof can simplify the software management of a communication device production line and reduce the difficulty and inconvenience of maintaining the communication device.

Description

Radio frequency hardware configuration establishing method and communicator thereof

Technical field

The present invention has the radio frequency hardware configuration (RF hardware configuration) about communicator, and is particularly to the technology of setting by the multiple radio frequency hardware configuration of single software support.

Background technology

Such as, on the production line of communicator (mobile phone, smart mobile phone etc.), conventionally need to download suitable software version for the hardware configuration of communicator and set to carry out relevant hardware configuration to communicator, for example, set calibration parameter etc.But because same manufacturer has the communicator product of different hardware configurations conventionally, and different hardware configuration corresponds to different software versions.For example, due to the 3G frequency range difference of various countries or each department, same manufacturer conventionally can production outward appearance identical but communicator product that radio frequency hardware configuration is different.Therefore, may download the situation of wrong software version to communicator.In this case, due to downloaded be wrong software, the related setting of communicator cannot normal operation.In addition, be only that software is downloaded wrong in the situation that not yet understanding, probably communicator that cannot normal operation can be return to production division to differentiate problem place, to such an extent as to increase production cost.Although prior art can be downloaded by producing the reductions such as line traffic control pipe the probability of faulty software version, different software versions need to have QC flow process separately, in the time that software version is more, except keyholed back plate becomes complicated, has also increased the time of QC flow process.In addition, send when maintenance back to when communicator fault, conventionally need to take the shell of communicator apart, and be attached to bar code outside chip etc. by scanning and confirm radio frequency hardware configuration, increase maintenance difficult and inconvenience.

Summary of the invention

In view of this, the invention provides a kind of radio frequency hardware configuration establishing method and communicator thereof.

A kind of radio frequency hardware configuration establishing method, comprising: detect the configuration set point of having set before communicator dispatches from the factory; Determine the radio frequency hardware configuration of this communicator according to this configuration set point; And according to this radio frequency hardware configuration, this communicator is carried out to the setting of radio frequency hardware configuration.

A kind of communicator, comprising: antenna, in order to transmit and the radiofrequency signal that receives at least one frequency range; Radio frequency unit, is coupled to this antenna, processes this radiofrequency signal; And fundamental frequency processing unit, be coupled to this radio frequency unit, this fundamental frequency processing unit comprises: micro-control unit, detect the configuration set point of having set before this communicator dispatches from the factory, determine the radio frequency hardware configuration of this communicator according to this configuration set point, and according to this radio frequency hardware configuration, this communicator is carried out to the setting of radio frequency hardware configuration.

Radio frequency hardware configuration establishing method of the present invention and communicator thereof can be simplified the software administration of communicator production line and reduce difficulty and the inconvenience of Maintenance communication device.

Brief description of the drawings

Fig. 1 is according to the flow chart of the radio frequency hardware configuration establishing method of the communicator of embodiment of the present invention description.

Fig. 2 is according to the schematic diagram of the communicator of first embodiment of the invention description.

Fig. 3 a is the schematic diagram that according to the first radio frequency hardware configuration, radio frequency unit is carried out the setting of radio frequency hardware configuration.

Fig. 3 b is the schematic diagram that according to the second radio frequency hardware configuration, radio frequency unit is carried out the setting of radio frequency hardware configuration.

Fig. 4 is according to the schematic diagram of the communicator of second embodiment of the invention description.

Fig. 5 a ~ 5c is the schematic diagram that radio frequency unit is carried out to the setting of radio frequency hardware configuration.

Fig. 6 is according to the schematic diagram of the communicator of third embodiment of the invention description.

Fig. 7 is according to the schematic diagram of the communicator of first embodiment of the invention description.

Embodiment

In the middle of specification and claims, use some vocabulary to censure specific element.Person of ordinary skill in the field should understand, and hardware manufacturer may be called same element with different nouns.This specification and claims book is using the difference of title as the mode of distinguishing element, but using element the difference in function as the criterion of distinguishing.In the whole text, in specification and claim, be an open term mentioned " comprising ", therefore should be construed to " comprise but be not limited to ".In addition, " coupling " word comprises directly any and is indirectly electrically connected means at this.Therefore, be coupled to the second device if describe first device in literary composition, represent that first device can directly be electrically connected in the second device, or be indirectly electrically connected to the second device through other device or connection means.

Ensuing description is to realize most preferred embodiment of the present invention, and it is the object in order to describe the principle of the invention, not limitation of the present invention.Understandably, the embodiment of the present invention can be realized by software, hardware, firmware or its combination in any.

Fig. 1 is according to the flow chart of the radio frequency hardware configuration establishing method 1 of the communicator of embodiment of the present invention description.After communicator start, first, in step S1, detect the configuration set point of having set before communicator dispatches from the factory.This configuration set point, corresponding to the radio frequency hardware configuration of communicator, has been set and can not be modified before dispatching from the factory.Then, in step S2, determine the radio frequency hardware configuration of this communicator according to this configuration set point, then in step S3, according to this radio frequency hardware configuration, this communicator is carried out to the setting of radio frequency hardware configuration.By four embodiment, above-mentioned radio frequency hardware configuration establishing method is described below.

[the first embodiment]

Fig. 2 is according to the schematic diagram of the communicator 2 of first embodiment of the invention description.Communicator 2 comprises fundamental frequency processing unit 20, radio frequency unit 22 and antenna 24.Fundamental frequency processing unit 20 comprises micro-control unit 210, universal input/output (General Purpose Input/Output, is designated hereinafter simply as GPIO) controller 220 and GPIO port 222.GPIO controller 220 receives configuration set point CSV1 by GPIO port 222, and configuration set point CSV1 is sent to micro-control unit 210.Micro-control unit 210 determines the radio frequency hardware configuration of communicator 2 according to configuration set point CSV1, and correspondence is carried out the setting of radio frequency hardware configuration.In the present embodiment, configuration set point CSV1 is magnitude of voltage.For example, before communicator 2 dispatches from the factory, the radio frequency hardware configuration according to communicator 2 is selected corresponding resistance R 1 with R2 and is disposed in communicator 2, and by resistance R 1 and the dividing potential drop that R2 forms, configure set point CSV1, be coupled to the GPIO port 222 of fundamental frequency processing unit.For example, in the time that communicator 2 is the first radio frequency hardware configuration (band support 1 and frequency range 8), resistance R 1 is 2 short circuits of high resistance resistance R, and in the time that communicator 2 is the second radio frequency hardware configuration (band support 2 with frequency range 5), resistance R 1 short circuit and resistance R 2 is high resistance.For instance, resistance R 1 or R2 short circuit are to use Zero-ohm resistor (that is being the resistance of minimum resistance value).Or, though be not to use Zero-ohm resistor, use and can allow the configuration set point CSV1 being produced be the resistance (resistance of for example 1K or 2K ohm) of 0 or 1 level.Therefore after communicator 2 starts, GPIO controller 220 receives configuration set point CSV1 by GPIO port 222, and configuration set point CSV1 is sent to micro-control unit 210.Then micro-control unit 210 carries out the setting of radio frequency hardware configuration according to configuration set point CSV1 to radio frequency unit 22.It is noted that, the communicator of Fig. 2 is only example, and not in order to limit the present invention, such as fundamental frequency processing unit also can comprise digital signal processor, digital to analog converter etc.

For example, in the time that configuration set point CSV1 is electronegative potential (resistance R 1 is 2 short circuits of high resistance resistance R), micro-control unit 210 determines that communicator 2 is the first radio frequency hardware configuration, be that communicator 2 is band support 1 and the communicator of frequency range 8, therefore micro-control unit 210 carries out corresponding radio frequency hardware configuration setting according to the first radio frequency hardware configuration, as shown in Figure 3 a.Fig. 3 a is the schematic diagram that according to the first radio frequency hardware configuration, radio frequency unit 32A is carried out the setting of radio frequency hardware configuration.Radio frequency unit 32A comprises radio-frequency module 321A, be coupled to the antenna handover module 322A of antenna 34A, be coupled to frequency range 1 duplexer (duplexer) 323A of antenna handover module 322A and frequency range 8 duplexer 325A, for the frequency range 1 amplifier 324A of amplifying signal power before the signal that transmits frequency range 1 and for the frequency range 8 amplifier 326A of amplifying signal power before the signal that transmits frequency range 8.Radio-frequency module 321A comprises reception input port RX1～RX6 and transmits output port TX1～TX4.Due to radio frequency unit 32A band support 1 and frequency range 8, frequency range 1 must be set to suitable reception input port and transmit output port with frequency range 8 reception signal separately and transmission signal, to be connected to suitable RX path and transfer path, and avoid the interference between signal.As shown in Figure 3 a, micro-control unit 210 is set as receiving the signal of frequency range 1, the signal that reception input port RX6 is set as receiving frequency range 8, the signal that transmission output port TX2 is set as transmitting frequency range 1, the signal that transmission output port TX3 is set as transmitting frequency range 8 according to the first radio frequency hardware configuration by receiving input port RX2.

For example, in the time that configuration set point CSV1 is high potential (resistance R 1 short circuit and resistance R 2 is high resistance), micro-control unit 210 determines that communicator 2 is the second radio frequency hardware configuration, be that communicator 2 is band support 2 and the communicator of frequency range 5, therefore micro-control unit 210 carries out corresponding radio frequency hardware configuration setting according to the second radio frequency hardware configuration, as shown in Figure 3 b.Fig. 3 b is the schematic diagram that according to the second radio frequency hardware configuration, radio frequency unit 32B is carried out the setting of radio frequency hardware configuration.Radio frequency unit 32B comprises radio-frequency module 321B, be coupled to the antenna handover module 322B of antenna 34B, be coupled to the frequency range 2 duplexer 323B of antenna handover module 322B and frequency range 5 duplexer 325B, for the frequency range 2 amplifier 324B of amplifying signal power before the signal that transmits frequency range 2 and for the frequency range 5 amplifier 326B of amplifying signal power before the signal that transmits frequency range 5.Radio-frequency module 321B comprises reception input port RX1～RX6 and transmits output port TX1～TX4.Due to radio frequency unit 32B band support 2 and frequency range 5, frequency range 2 must be set to suitable reception input port and transmit output port with frequency range 5 reception signal separately and transmission signal, to be connected to suitable RX path and transfer path, and avoid the interference between signal.As shown in Figure 3 b, micro-control unit 210 is set as receiving the signal of frequency range 2, the signal that reception input port RX4 is set as receiving frequency range 5, the signal that transmission output port TX1 is set as transmitting frequency range 2, the signal that transmission output port TX4 is set as transmitting frequency range 5 according to the second radio frequency hardware configuration by receiving input port RX1.

In the above-described embodiments, micro-control unit 210 can be set the transmission output port and reception input port that couple by transmitting switch and reception switch.It is noted that, it is only to illustrate that the radio frequency hardware configuration shown in Fig. 3 a and Fig. 3 b is set, and not in order to limit the present invention, the setting of radio frequency hardware configuration also comprises according to this radio frequency hardware configuration sets calibration parameter etc.

[the second embodiment]

Fig. 4 is according to the schematic diagram of the communicator 4 of second embodiment of the invention description.Communicator 4 is similar with the communicator 2 of Fig. 2, comprises radio frequency unit 42, fundamental frequency processing unit 40 and antenna 44, and its difference is that the fundamental frequency processing unit 40 of communicator 4 also comprises analog-to-digital converter 420.Analog-to-digital converter 420 receives and conversion configurations set point CSV2 becomes digital value, and digital value is sent to micro-control unit 410.Micro-control unit 410 determines the radio frequency hardware configuration of communicator 4 according to digital value after conversion, and correspondence is carried out the setting of radio frequency hardware configuration.In the present embodiment, configuration set point CSV2 is magnitude of voltage.For example, before communicator 4 dispatches from the factory, the radio frequency hardware configuration according to communicator 4 is selected corresponding resistance R 3 with R4 and is disposed in communicator 4, and by resistance R 3 and the dividing potential drop that R4 forms, configure set point CSV2, be coupled to analog-to-digital converter 420.For example, in the time that communicator 4 is the first radio frequency hardware configuration (band support 1 and frequency range 8), resistance R 3 is respectively 300k Ω and 100k Ω with R4, and therefore configuring set point CSV2 is the first voltage, i.e. 0.25VDD.In the time that communicator 4 is the second radio frequency hardware configuration (band support 2 and frequency range 5), resistance R 3 is all 100k Ω with R4, and therefore configuring set point CSV2 is second voltage, i.e. 0.5VDD.In the time that communicator 4 is the 3rd radio frequency hardware configuration, resistance R 3 is respectively 100k Ω and 300k Ω with R4, and therefore configuring set point CSV2 is tertiary voltage, i.e. 0.75VDD.After communicator 4 starts, analog-to-digital converter 420 reads configuration set point CSV2, and configuration set point CSV2 is for example simulated, to digital translation (" 00 ", " 01 ", " 10 " and " 11 " etc.) to be sent to micro-control unit 410.Then micro-control unit 410 carries out the setting of radio frequency hardware configuration according to the digital value after conversion to radio frequency unit 42.It is noted that, the communicator of Fig. 4 is only example, and not in order to limit the present invention, such as fundamental frequency processing unit also can comprise digital signal processor, digital to analog converter etc.

Fig. 5 a ~ 5c is the schematic diagram that radio frequency unit is carried out to the setting of radio frequency hardware configuration.When digital value is during corresponding to the configuration set point CSV2 of the first voltage, micro-control unit 410 determines that communicator 4 is the first radio frequency hardware configuration, and carries out corresponding radio frequency hardware configuration according to the first radio frequency hardware configuration and set, as shown in Figure 5 a.Radio frequency hardware configuration shown in Fig. 5 a is set and is similar to Fig. 3 a, wherein radio frequency unit 52A comprise radio-frequency module 521A, be coupled to the antenna handover module 522A of antenna 54A, the frequency range 1 duplexer 523A that is coupled to antenna handover module 522A and frequency range 8 duplexer 525A, for the frequency range 1 amplifier 524A of amplifying signal power before the signal that transmits frequency range 1 and for the frequency range 8 amplifier 526A of amplifying signal power before the signal that transmits frequency range 8, therefore no longer repeat here.

When digital value is during corresponding to the configuration set point CSV2 of second voltage, micro-control unit 410 determines that communicator 4 is the second radio frequency hardware configuration, and carries out corresponding radio frequency hardware configuration according to the second radio frequency hardware configuration and set, as shown in Figure 5 b.Radio frequency hardware configuration shown in Fig. 5 b is set and is similar to Fig. 3 b, wherein radio frequency unit 52B comprise radio-frequency module 521B, be coupled to the antenna handover module 522B of antenna 54B, the frequency range 2 duplexer 523B that are coupled to antenna handover module 522B and frequency range 5 duplexer 525B, for the frequency range 2 amplifier 524B of amplifying signal power before the signal that transmits frequency range 2 and for the frequency range 5 amplifier 526B of amplifying signal power before the signal that transmits frequency range 5, therefore no longer repeat here.

When digital value is during corresponding to the configuration set point CSV2 of tertiary voltage, micro-control unit 410 determines that communicator 4 is the 3rd radio frequency hardware configuration, be that communicator 4 is band support 1 and the communicator of frequency range 5, therefore micro-control unit 410 carries out corresponding radio frequency hardware configuration setting according to the 3rd radio frequency hardware configuration, as shown in Figure 5 c.Fig. 5 c is the schematic diagram that according to the 3rd radio frequency hardware configuration, radio frequency unit 52C is carried out the setting of radio frequency hardware configuration.Radio frequency unit 52C comprises radio-frequency module 521C, be coupled to the antenna handover module 522C of antenna 54C, be coupled to the frequency range 1 duplexer 523C of antenna handover module 522C and frequency range 5 duplexer 525C, for the frequency range 1 amplifier 524C of amplifying signal power before the signal that transmits frequency range 1 and for the frequency range 5 amplifier 526C of amplifying signal power before the signal that transmits frequency range 5.Radio-frequency module 521C comprises reception input port RX1～RX6 and transmits output port TX1～TX4.Due to radio frequency unit 52C band support 1 and frequency range 5, frequency range 1 must be set to suitable reception input port and transmit output port with frequency range 5 reception signal separately and transmission signal, to be connected to suitable RX path and transfer path, and avoid the interference between signal.As shown in Figure 5 c, micro-control unit 410 is set as receiving the signal of frequency range 1, the signal that reception input port RX5 is set as receiving frequency range 5, the signal that transmission output port TX2 is set as transmitting frequency range 1, the signal that transmission output port TX3 is set as transmitting frequency 5 according to the 3rd radio frequency hardware configuration by reception input port RX3.

In the above-described embodiments, micro-control unit 410 can be set the transmission output port and reception input port that couple by transmitting switch and reception switch.It is noted that, it is only to illustrate that the radio frequency hardware configuration shown in Fig. 5 a to 5c is set, and not in order to limit the present invention, the setting of radio frequency hardware configuration also comprises according to this radio frequency hardware configuration sets calibration parameter etc.

[the 3rd embodiment]

Fig. 6 is according to the schematic diagram of the communicator 6 of third embodiment of the invention description.Communicator 6 comprises fundamental frequency processing unit 60, radio frequency unit 62 and antenna 64.Fundamental frequency processing unit 60 comprises micro-control unit 610 and electrical fuse device (being called again fuse unit) 620.In the present embodiment, configuration set point CSV3 is stored in electrical fuse device 620, and configuration set point CSV3 is communicator hardware number.Before communicator 6 dispatches from the factory, according to the radio frequency hardware configuration of communicator 6 by burned corresponding communicator hardware number to electrical fuse device 620 to form configuration set point CSV3.For example, in the time that communicator 6 is the first radio frequency hardware configuration, by burned the first value to electrical fuse device 620.In the time that communicator 6 is the second radio frequency hardware configuration, by burned the second value to electrical fuse device 620.In the time that communicator 6 is the 3rd radio frequency hardware configuration, by burned to electrical fuse device 620 the 3rd value.

After communicator 6 starts, micro-control unit 610 reads configuration set point CSV3 from electrical fuse device 620, determine the radio frequency hardware configuration of communicator 6, and correspondence is carried out the setting of radio frequency hardware configuration according to configuration set point CSV3.For example, in the time that configuration set point CSV3 is the first value, communicator 6 is the first radio frequency hardware configuration, and micro-control unit 610 carries out the setting of radio frequency hardware configuration according to the first radio frequency hardware configuration to radio frequency unit 62, as shown in Figure 5 a.In the time that configuration set point CSV3 is the second value, communicator 6 is the second radio frequency hardware configuration, and micro-control unit 610 carries out the setting of radio frequency hardware configuration according to the second radio frequency hardware configuration to radio frequency unit 62, as shown in Figure 5 b.In the time that configuration set point CSV3 is the 3rd value, communicator 6 is the 3rd radio frequency hardware configuration, and micro-control unit 610 carries out the setting of radio frequency hardware configuration according to the 3rd radio frequency hardware configuration to radio frequency unit 62, as shown in Figure 5 c.Communicator 6 is not limited to three kinds of radio frequency hardware configuration, and for example it can have more radio frequency hardware configuration.Micro-control unit 610 can be set the transmission output port of wanting to couple and receive input port with receiving switch by transmission switch, and the setting of radio frequency hardware configuration also comprises according to this radio frequency hardware configuration sets calibration parameter etc.

[the 4th embodiment]

Fig. 7 is according to the schematic diagram of the communicator 7 of first embodiment of the invention description.Communicator 7 comprises fundamental frequency processing unit 70, radio frequency unit 72, antenna 74 and flash memory 720.In the present embodiment, configuration set point CSV4 is stored in flash memory 720, and configuration set point CSV4 is communicator barcode value, and this communicator barcode value is with to paste numerical value at the bar code of communicator 7 inside consistent.Before communicator 7 dispatches from the factory, according to the radio frequency hardware configuration of communicator 7, corresponding bar code is pasted inner at communicator 7 and the numerical value of bar code is stored in flash memory 720.For example, in the time that communicator 7 is the first radio frequency hardware configuration, the first barcode value is stored in flash memory 720, in the time that communicator 7 is the second radio frequency hardware configuration, the second barcode value is stored in flash memory 720, by that analogy.

After communicator 7 starts, micro-control unit 710 reads configuration set point CSV4 from flash memory 720, determine the radio frequency hardware configuration of communicator 7, and correspondence is carried out the setting of radio frequency hardware configuration according to configuration set point CSV4.

Above-described embodiment is narrated respectively micro-control unit and judges according to the magnitude of voltage, the digital value receiving by analog-to-digital converter, the communicator hardware number reading from electrical fuse device that receive by GPIO port and the communicator barcode value that reads from flash memory the radio frequency hardware configuration of communicator, but the present invention is not limited thereto.In another embodiment, micro-control unit can judge according to the combination in any of the magnitude of voltage receiving by GPIO port, the digital value receiving by analog-to-digital converter, the communicator hardware number reading from electrical fuse device and the communicator barcode value reading from flash memory the radio frequency hardware configuration of communicator.For example, micro-control unit can comprehensively judge according to the magnitude of voltage receiving by GPIO port and the communicator reading from flash memory barcode value the radio frequency hardware configuration of communicator, and correspondence is carried out the setting of radio frequency hardware configuration.

In the above-described embodiments, different configuration set points correspond to different radio frequency hardware configuration, manufacturer can carry out the corresponding table of noting that first set configuration set point and radio frequency hardware configuration before above-mentioned radio frequency hardware configuration establishing method, and presets the content of the radio frequency hardware configuration setting of institute's wish execution under each radio frequency hardware configuration.In addition, above-mentioned radio frequency hardware configuration establishing method also can provide user interface, allows user pass through this user interface and selects testing mechanism, for example one of them or its combination in any of above-mentioned first to fourth embodiment.

Method of the present invention, or specific kenel or its part, can exist with the kenel of program code.Program code can be contained in tangible media, as floppy disk, disc, hard disk or any other electronic equipment or machine readable are got (as embodied on computer readable) Storage Media, also or be not limited to the computer program of external form, wherein, when program code is by machine, when loading and carry out as computer, this machine becomes to participate in device of the present invention or system, and can carry out method step of the present invention.Program code also can pass through some transfer mediums, as electric wire or cable, optical fiber or any transmission kenel transmit, wherein, when program code is by electronic equipment or machine, when receiving, load and carry out as computer, this machine becomes to participate in system of the present invention or device.When in general service processing unit implementation, program code provides a class of operation to be similar to the unique apparatus of application particular logic circuit in conjunction with processing unit.

By above-described embodiment, the present invention is able to by the multiple radio frequency hardware configuration of single software detection, and corresponding radio frequency hardware configuration is carried out the setting of radio frequency hardware configuration, the software administration of simplification communicator production line, and difficulty and the inconvenience of reduction Maintenance communication device.

The above is the general introduction feature of embodiment.The technical staff in the technical field should utilize easily the present invention for basic engineering or adjust to carry out identical object and/or reach the same advantage of the embodiment of introduction herein.The technical staff in the technical field also should be appreciated that identical configuration should not deviate from spirit and the scope of this creation, can make various changes, replacement and alternately not deviating under the spirit of this creation and scope them.Illustrative method only represents exemplary step, but these steps might not be carried out with represented order.Can add in addition, replacement, change order and/or removal process to be optionally to adjust, and consistent with disclosed embodiment spirit and scope.

The sequence word of the modified elements in claims such as picture " first ", " second ", " the 3rd " and do not mean that self there is any priority, time sequencing that the grade of priority or an element is carried out higher than another element or method, and as just label for distinguishing an element and another element with same names (except modifying sequence word) with definite title.

Though the present invention discloses as above with preferred embodiment, but it is not in order to limit scope of the present invention, and any person that is familiar with technique, without departing from the spirit and scope of the present invention, does impartial variation and modification, all belongs to covering scope of the present invention.

Claims (15)

1. a radio frequency hardware configuration establishing method, comprising:

Detect the configuration set point of having set before communicator dispatches from the factory;

Determine the radio frequency hardware configuration of this communicator according to this configuration set point; And

According to this radio frequency hardware configuration, this communicator is carried out to the setting of radio frequency hardware configuration.

2. radio frequency hardware configuration establishing method as claimed in claim 1, is characterized in that, this configuration set point can not be modified.

3. radio frequency hardware configuration establishing method as claimed in claim 2, it is characterized in that the communicator hardware number reading corresponding to the digital value of magnitude of voltage, from the electrical fuse device of this communicator that this configuration set point receives for the magnitude of voltage that receives by universal input/o controller or analog-to-digital converter, to communicator bar code or its combination in any that should communicator.

4. radio frequency hardware configuration establishing method as claimed in claim 2, is characterized in that, this radio frequency hardware configuration comprises the relevant information of at least one frequency range of supporting with this communicator.

5. radio frequency hardware configuration establishing method as claimed in claim 4, is characterized in that, this radio frequency hardware configuration is set and more comprised:

According to this radio frequency hardware configuration, radio frequency reception input port and radio frequency that corresponding each this at least one frequency range is set transmit output port.

6. radio frequency hardware configuration establishing method as claimed in claim 2, is characterized in that, this radio frequency hardware configuration is set and more comprised:

Set the calibration parameter of this communicator according to this radio frequency hardware configuration.

7. a communicator, comprising:

Antenna, in order to transmit and the radiofrequency signal that receives at least one frequency range;

Radio frequency unit, is coupled to this antenna, processes this radiofrequency signal; And

Fundamental frequency processing unit, is coupled to this radio frequency unit, and this fundamental frequency processing unit comprises:

Micro-control unit, detects the configuration set point of having set before this communicator dispatches from the factory, and determines the radio frequency hardware configuration of this communicator according to this configuration set point, and according to this radio frequency hardware configuration, this communicator is carried out to the setting of radio frequency hardware configuration.

8. communicator as claimed in claim 7, is characterized in that, this configuration set point can not be modified.

9. communicator as claimed in claim 8, is characterized in that, this configuration set point is magnitude of voltage, and this fundamental frequency processing unit more comprises:

Universal input/o controller, is coupled to this micro-control unit, receives this magnitude of voltage by the input port of universal input/output, and this magnitude of voltage is sent to this micro-control unit.

10. communicator as claimed in claim 8, is characterized in that, this configuration set point is magnitude of voltage, and this fundamental frequency processing unit more comprises:

Analog-to-digital converter, is coupled to this micro-control unit, receives the digital value corresponding to this magnitude of voltage, and this digital value is sent to this micro-control unit.

11. communicators as claimed in claim 8, is characterized in that, this configuration set point is communicator hardware number, and this fundamental frequency processing unit more comprises:

Electrical fuse device, stores this communicator hardware number;

Wherein this micro-control unit reads this communicator hardware number from this electrical fuse device.

12. communicators as claimed in claim 8, is characterized in that, this configuration set point is communicator barcode value, and this communicator more comprises:

Flash memory, stores this communicator barcode value, and this communicator barcode value conforms to the numerical value that is attached to the bar code in this communicator;

Wherein this micro-control unit reads this communicator barcode value from this flash memory.

13. communicators as claimed in claim 8, is characterized in that, this radio frequency hardware configuration comprises the relevant information of at least one frequency range of supporting with this communicator.

14. communicators as claimed in claim 13, is characterized in that, radio frequency reception input port and radio frequency that this micro-control unit arranges corresponding each this at least one frequency range according to this radio frequency hardware configuration transmit output port.

15. communicators as claimed in claim 8, is characterized in that, this micro-control unit is set the calibration parameter of this communicator according to this radio frequency hardware configuration.

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