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CN105101479A - Adaptive configuration method and device for network frequency band of mobile terminal - Google Patents

Adaptive configuration method and device for network frequency band of mobile terminal Download PDF

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Publication number
CN105101479A
CN105101479A CN201510287823.1A CN201510287823A CN105101479A CN 105101479 A CN105101479 A CN 105101479A CN 201510287823 A CN201510287823 A CN 201510287823A CN 105101479 A CN105101479 A CN 105101479A
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China
Prior art keywords
mobile terminal
frequency range
frequency band
hardware identifier
label
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CN201510287823.1A
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CN105101479B (en
Inventor
柏凤佳
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Nubia Technology Co Ltd
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Nubia Technology Co Ltd
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/02Terminal devices

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

The invention discloses an adaptive configuration method for a network frequency band of a mobile terminal. The adaptive configuration method comprises the steps: obtaining a hardware identification tag of the mobile terminal; obtaining a frequency band configuration tag corresponding to the hardware identification tag, and obtaining frequency band parameters corresponding to the frequency band configuration tag from a preset frequency band configuration file; writing the obtained frequency band parameters into corresponding parameter items of the mobile terminal. The invention further discloses an adaptive configuration device for the network frequency band of the mobile terminal. Software development and after-sales maintenance costs are effectively reduced.

Description

The network frequency band adaptive collocation method of mobile terminal and device
Technical field
The present invention relates to field of mobile terminals, particularly relate to network frequency band adaptive collocation method and the device of mobile terminal.
Background technology
At present, the development of the mobile terminal that 4G the whole network leads to is in the ascendant, and supporting that 4G the whole network leads to mode mobile terminal will be the main trend that future terminal develops.Meanwhile, in the project development process of mobile terminal, conveniently develop checking, reduce development cost and later maintenance cost, the hardware of most of exploration project is that unified the whole network leads to version, and software is all the general version supporting all functions and network formats.
But, according to the actual market demand, the delivery demand that such as Jingdone district channel, operator's channel, operator's degree of depth customization etc. are different, the terminal of final delivery due to targeted carrier's network frequency range difference and and the relevant demand of lock network, it is all diversified that the frequency range of hardware configures.Being generally provide corresponding configuration tool for different demands in prior art, to meet the frequency range configuration needs of terminal, but when a large amount of differentiation terminals is needed to carry out frequency range configuration, greatly increasing causing the cost of exploitation and maintenance.
Summary of the invention
The main purpose of the embodiment of the present invention is the network frequency band adaptive collocation method and the device that provide a kind of mobile terminal, is intended to effectively reduce software development and after-sales service cost.
For achieving the above object, embodiments provide a kind of network frequency band adaptive collocation method of mobile terminal, comprise the following steps:
Obtain the hardware identifier label of mobile terminal;
Obtain the frequency range label allocation corresponding with hardware identifier label, and obtain the frequency range parameter corresponding with described frequency range label allocation from the frequency range configuration file pre-set;
By in the relevant parameter item in obtained frequency range parameter read-in mobile terminal.
Preferably, the hardware identifier label of described acquisition mobile terminal comprises:
Read the state of each GPIO mouth on the hardware chip of mobile terminal;
According to the state of each GPIO mouth that this reads, obtain the hardware identifier label of mobile terminal.
Preferably, the frequency range label allocation that described acquisition is corresponding with hardware identifier label comprises:
This hardware identifier label is mated with the mapping relations of frequency range label allocation with pre-configured hardware identifier label, obtains the frequency range label allocation corresponding with hardware identifier label.
Preferably, described frequency range configuration file is stored in network frequency band adaptive inking device, or is stored in External memory equipment or server.
Preferably, also comprise before the hardware identifier label of described acquisition mobile terminal:
Detect mobile terminal when entering initialize mode, activate each GPIO mouth of mobile terminal.
In addition, for achieving the above object, present invention also offers a kind of network frequency band adaptive inking device of mobile terminal, comprising:
Hardware identification module, for obtaining the hardware identifier label of mobile terminal;
Frequency range parameter acquisition module, for obtaining the frequency range label allocation corresponding with hardware identifier label, and obtains the frequency range parameter corresponding with described frequency range label allocation from the frequency range configuration file pre-set;
Frequency range parameter configuration module, for by the relevant parameter item in obtained frequency range parameter read-in mobile terminal.
Preferably, described hardware identification module for: read the state of each GPIO mouth on the hardware chip of mobile terminal; According to the state of each GPIO mouth that this reads, obtain the hardware identifier label of mobile terminal.
Preferably, described frequency range parameter acquisition module is used for:
This hardware identifier label is mated with the mapping relations of frequency range label allocation with pre-configured hardware identifier label, obtains the frequency range label allocation corresponding with hardware identifier label.
Preferably, described frequency range configuration file is stored in network frequency band adaptive inking device, or is stored in External memory equipment or server.
Preferably, the network frequency band adaptive configuration of described mobile terminal also comprises:
Interface activation module, for detect mobile terminal enter initialize mode time, activate each GPIO mouth of mobile terminal.
The present invention is by identifying the hardware identifier label of mobile terminal, and according to identified hardware identifier label, for the network frequency range parameter that this mobile terminal configuration is corresponding, all adaptive configuration frequency range can be carried out to make the mobile terminal of there are differences hardware, no longer need for differentiation hardware terminal and arrange separately, thus effectively can reduce software development and after-sales service cost.
Accompanying drawing explanation
Fig. 1 is that the whole network of the present invention leads to terminal and the syndeton schematic diagram developing terminal;
Fig. 2 is the hardware structure schematic diagram developing terminal in Fig. 1;
Fig. 3 is the high-level schematic functional block diagram that the present invention develops network frequency band adaptive inking device first embodiment in terminal;
Fig. 4 is the high-level schematic functional block diagram that the present invention develops network frequency band adaptive inking device second embodiment in terminal;
Fig. 5 is the schematic flow sheet of network frequency band adaptive collocation method first embodiment of mobile terminal of the present invention;
Fig. 6 is the schematic flow sheet of network frequency band adaptive collocation method second embodiment of mobile terminal of the present invention.
The object of the invention realization, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.
Embodiment
Technical scheme of the present invention is further illustrated below in conjunction with Figure of description and specific embodiment.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.
The invention provides a kind of network frequency band adaptive allocation plan of mobile terminal, by identifying the hardware identifier label of mobile terminal, and according to identified hardware identifier label, for the network frequency range parameter that this mobile terminal configuration is corresponding, all adaptive configuration frequency range can be carried out to make the mobile terminal of there are differences hardware, no longer need for differentiation hardware terminal and arrange separately, thus effectively can reduce software development and after-sales service cost.
Above-mentioned mobile terminal is that the whole network leads to terminal, can comprise there is full net communication function mobile phone, smart phone, panel computer, palmtop PC, digit broadcasting receiver, guider and other there are other electronic equipments of full net communication function.The whole network leads to that terminal refers to can the terminal of compatible China Telecom cdma network, China Mobile GSM network and CHINAUNICOM's GSM network, namely leads to terminal by this whole network, no longer needs to change termination number and just can realize mobile UNICOM two and net simultaneously online.
In the project development process of above-mentioned mobile terminal, conveniently develop checking, reduce development cost and later maintenance cost, the hardware of most of exploration project is that unified the whole network leads to version, and software is all the general version supporting all functions and network formats.Therefore, as shown in Figure 1, the chip that this whole network leads to terminal 100 has 3 GPIO mouths, and the configuration status of GPIO mouth will to be realized by different resistance when hardware pcb board paster.Based on the configuration status of this GPIO mouth, the targeted carrier that this whole network leads to terminal can be set, i.e. terminal hardware identification (RFID) tag.Exploitation terminal 200 is connected with the chip that this whole network leads to terminal 100, namely connects this 3 GPIO mouths, to read the state of this GPIO mouth, to carry out the adaptive configuration device of network frequency range according to the state of this GPIO mouth.
As shown in Figure 2, this exploitation terminal 200 can comprise user input unit 210, output unit 220, memory 230, interface unit 240, processor 250 and power subsystem 260 etc.Fig. 2 shows the exploitation terminal with various assembly, it should be understood that, does not require to implement all assemblies illustrated.Can alternatively implement more or less assembly.Will be discussed in more detail below the element of exploitation terminal.
User input unit 210 can generate key input data to control to develop the various operations of terminal according to the order of user's input.User input unit 210 allows user to input various types of information, and can comprise keyboard, mouse, rocking bar, touch pad (such as, detecting the touch-sensitive assembly of the change of the resistance, pressure, electric capacity etc. that cause owing to being touched) etc.Especially, when touch pad superposes on the display unit as a layer, touch-screen can be formed.
Output unit 220 can comprise image-display units and audio output unit, and image-display units can comprise at least one in liquid crystal display (LCD), thin-film transistor LCD (TFT-LCD), Organic Light Emitting Diode (OLED) display, flexible display, three-dimensional (3D) display etc.Some in these displays can be constructed to transparence and watch from outside to allow user, and this can be called transparent display, and typical transparent display can be such as TOLED (transparent organic light emitting diode) display etc.According to the specific execution mode wanted, exploitation terminal can comprise two or more display units (or other display unit), such as, mobile terminal can comprise outernal display unit (not shown) and inner display unit (not shown).Touch-screen can be used for detecting touch input pressure and touch input position and touch and inputs area.Audio output unit can provide the audio frequency relevant to developing corresponding function that terminal 200 performs to export.Audio output unit can comprise loud speaker, buzzer etc.
Memory 230 software program that can store process and the control operation performed by processor 250 etc., or temporarily can store oneself through exporting the data that maybe will export.And, memory 230 can store about when touch be applied to touch-screen time the vibration of various modes that exports and the data of audio signal.Memory 230 can comprise the storage medium of at least one type, described storage medium comprises flash memory, hard disk, multimedia card, card-type memory (such as, SD or DX memory etc.), random access storage device (RAM), static random-access memory (SRAM), read-only memory (ROM), Electrically Erasable Read Only Memory (EEPROM), programmable read only memory (PROM), magnetic storage, disk, CD etc.And exploitation terminal 200 can be connected the memory function of execute store 230 network storage device with by network cooperates.
Interface unit 240 comprises the interface be connected with exploitation terminal 200 as at least one external device (ED).Such as, the interface be connected with the GPIO mouth of mobile terminal chip.This interface can also comprise external power source (or battery charger) port, wired or wireless FPDP, memory card port, for connecting audio frequency I/O (I/O) port, video i/o port etc.Interface unit 240 may be used for receive from external device (ED) input (such as, data message, electric power etc.) and the input received is transferred to exploitation terminal 200 in one or more element or may be used for exploitation terminal and external device (ED) between transmit data.
Processor 250 controls the overall operation of exploitation terminal usually.Such as, write software development code, in the chip of mobile terminal, realizes the software function of mobile terminal; Call the network frequency band adaptive inking device in exploitation terminal, according to the hardware identification label of mobile terminal, carry out the adaptive configuration of the parameter of network frequency range.
Power subsystem 260 receives external power or internal power and provides each element of operation and the suitable electric power needed for assembly under the control of processor 250.
Various execution mode described herein can to use such as computer software, the computer-readable medium of hardware or its any combination implements.For hardware implementation, execution mode described herein can by using application-specific IC (ASIC), digital signal processor (DSP), digital signal processing device (DSPD), programmable logic device (PLD), field programmable gate array (FPGA), processor, controller, microcontroller, microprocessor, being designed at least one performed in the electronic unit of function described herein and implementing, in some cases, such execution mode can be implemented in processor 250.For implement software, the execution mode of such as process or function can be implemented with allowing the independent software module performing at least one function or operation.Software code can be implemented by the software application (or program) write with any suitable programming language, and software code can be stored in memory 230 and to be performed by processor 250.
As shown in Figure 3, the present invention proposes a kind of network frequency band adaptive inking device one embodiment.The network frequency band adaptive inking device of the mobile terminal of this embodiment comprises:
Hardware identification module 310, for obtaining the hardware identifier label of mobile terminal;
Frequency range parameter acquisition module 320, for obtaining the frequency range label allocation corresponding with hardware identifier label, and obtains the frequency range parameter corresponding with described frequency range label allocation from the frequency range configuration file pre-set;
Frequency range parameter configuration module 330, for by the relevant parameter item in obtained frequency range parameter read-in mobile terminal.
Particularly, in above-mentioned hardware identification module 310, read the state of each GPIO mouth on the hardware chip of mobile terminal, then according to the state of this each GPIO mouth read, obtain the hardware identifier label of mobile terminal.In the present embodiment, by the state of each GPIO mouth in the mobile terminal of pre-configured different type of machines and the mapping relations of hardware identifier label.By after the state that obtains each GPIO mouth in this mobile terminal, just according to the pre-configured state of each the GPIO mouth corresponding with the type of this mobile terminal and the mapping relations of hardware identifier label, the hardware identifier label mated with each state can be obtained.In the present embodiment, this hardware identifier label can comprise: HW_A, HW_B, HW_C, HW_D, HW_E, HW_F etc.Suppose that this GPIO mouth comprises GPIO_A, GPIO_B, GPIO_C, and each GPIO mouth all there are three kinds of states: FLOAT, PULL_DOWN, PULL_UP.The hardware identifier label that the combinations of states of 3 GPIO mouths of the corresponding type of this mobile terminal pre-configured is corresponding.First, hardware identification module 310 obtains the state of these 3 GPIO mouths, such as GPIO_A=FLOAT, GPIO_B=PULL_DOWN, GPIO_C=PULL_DOWN, then the state of the state of the GPIO mouth got with pre-configured 3 GPIO mouths is mated with the mapping relations of hardware identifier label, obtain the Current hardware identification (RFID) tag that this mobile terminal is corresponding, such as HW_D.
After obtaining the Current hardware identification (RFID) tag of mobile terminal, this hardware identifier label mates with the mapping relations of frequency range label allocation with pre-configured hardware identifier label by frequency range parameter acquisition module 320, obtains the frequency range label allocation corresponding with hardware identifier label.Then, frequency range parameter acquisition module 320 transfers the frequency range configuration file corresponding with this frequency range label allocation, and extracts each frequency range parameter value from this frequency range configuration file.Such as, the configuration parameter of frequency range corresponding to each radio frequency standard (LTE, CDMA, GSM, WCDMA, TD-LTE, TD-SDCDMA etc.) of hardware supports can be comprised: static parameter and switch-linear hybrid etc., search net strategy use for the driving of software radio frequency circuit and switching on and shutting down.In the present embodiment, this frequency range configuration file can be stored in network frequency band adaptive inking device, also can be stored in other External memory equipment, or even in server, calls for network frequency band adaptive inking device.Be stored in network frequency band adaptive inking device by frequency range configuration file, can directly call when can need for frequency range parameter acquisition module 320, thus improve the acquisition speed of frequency range parameter.By in External memory equipment that frequency range configuration file is stored in other or server, although relatively reduce the acquisition speed of frequency range parameter, but which save the memory space of network frequency band adaptive inking device, and the unification of frequency range configuration file of all network frequency band adaptive inking devices can be realized, if when such as frequency range configuration file needs to upgrade, no longer need to upgrade each network frequency band adaptive inking device, only need to upgrade the frequency range configuration file of this External memory equipment or server.
After obtaining frequency range parameter, frequency range parameter configuration module 330, by the design parameter item of the chip of this frequency range parameter read-in mobile terminal, after starting, can carry out corresponding power-on operation based on the parameter of this write for this mobile terminal.
The embodiment of the present invention is by identifying the hardware identifier label of mobile terminal, and according to identified hardware identifier label, for the network frequency range parameter that this mobile terminal configuration is corresponding, all adaptive configuration frequency range can be carried out to make the mobile terminal of there are differences hardware, no longer need for differentiation hardware terminal and arrange separately, thus effectively can reduce software development and after-sales service cost.
Further, as shown in Figure 4, the adaptive configuration device of above-mentioned network frequency range also comprises:
Interface activation module 340, for detect mobile terminal enter initialize mode time, activate each GPIO mouth of mobile terminal.
Particularly, mobile terminal first time download software or with erase mode upgrade software time, mobile terminal will restart, and re-create file system, and mobile terminal carries out initialize mode.Now, interface activation module 340, by activating each GPIO mouth of this mobile terminal, so that hardware identification module 310 obtains the state of this GPIO mouth, carries out the adaptive configuration of network frequency range.
Accordingly, as shown in Figure 5, the present invention proposes a kind of adaptive configuring method one embodiment of network frequency range.The adaptive configuring method of the network frequency range of this embodiment comprises the following steps:
The hardware identifier label of step S110, acquisition mobile terminal;
Particularly, in above-mentioned steps S110, read the state of each GPIO mouth on the hardware chip of mobile terminal, then according to the state of this each GPIO mouth read, obtain the hardware identifier label of mobile terminal.In the present embodiment, by the state of each GPIO mouth in the mobile terminal of pre-configured different type of machines and the mapping relations of hardware identifier label.By after the state that obtains each GPIO mouth in this mobile terminal, just according to the pre-configured state of each the GPIO mouth corresponding with the type of this mobile terminal and the mapping relations of hardware identifier label, the hardware identifier label mated with each state can be obtained.In the present embodiment, this hardware identifier label can comprise: HW_A, HW_B, HW_C, HW_D, HW_E, HW_F etc.Suppose that this GPIO mouth comprises GPIO_A, GPIO_B, GPIO_C, and each GPIO mouth all there are three kinds of states: FLOAT, PULL_DOWN, PULL_UP.The hardware identifier label that the combinations of states of 3 GPIO mouths of the corresponding type of this mobile terminal pre-configured is corresponding.First, hardware identification module 310 obtains the state of these 3 GPIO mouths, such as GPIO_A=FLOAT, GPIO_B=PULL_DOWN, GPIO_C=PULL_DOWN, then the state of the state of the GPIO mouth got with pre-configured 3 GPIO mouths is mated with the mapping relations of hardware identifier label, obtain the Current hardware identification (RFID) tag that this mobile terminal is corresponding, such as HW_D.
Step S120, obtain the frequency range label allocation corresponding with hardware identifier label, and the frequency range parameter that acquisition is corresponding with described frequency range label allocation from the frequency range configuration file pre-set;
After obtaining the Current hardware identification (RFID) tag of mobile terminal, this hardware identifier label is mated with the mapping relations of frequency range label allocation with pre-configured hardware identifier label, obtains the frequency range label allocation corresponding with hardware identifier label.Then, transfer the frequency range configuration file corresponding with this frequency range label allocation, and extract each frequency range parameter value from this frequency range configuration file.Such as, the configuration parameter of the frequency range that each radio frequency standard (LTE, CDMA, GSM, WCDMA, TD-LTE, TD-SDCDMA etc.) of hardware supports is corresponding: static parameter and switch-linear hybrid etc., searches net strategy use for the driving of software radio frequency circuit and switching on and shutting down.In the present embodiment, this frequency range configuration file can be stored in network frequency band adaptive inking device, also can be stored in other External memory equipment, or even in server, calls for network frequency band adaptive inking device.Be stored in network frequency band adaptive inking device by frequency range configuration file, directly can call when can need for exploitation terminal 200, thus improve the acquisition speed of frequency range parameter.By in External memory equipment that frequency range configuration file is stored in other or server, although relatively reduce the acquisition speed of frequency range parameter, but which save the memory space of network frequency band adaptive inking device, and the unification of frequency range configuration file of all network frequency band adaptive inking devices can be realized, if when such as frequency range configuration file needs to upgrade, no longer need to upgrade each network frequency band adaptive inking device, only need to upgrade the frequency range configuration file of this External memory equipment or server.
Step S130, by the relevant parameter item in obtained frequency range parameter read-in mobile terminal.
After obtaining frequency range parameter, frequency range parameter configuration module 330, by the design parameter item of the chip of this frequency range parameter read-in mobile terminal, after starting, can carry out corresponding power-on operation based on the parameter of this write for this mobile terminal.
The embodiment of the present invention is by identifying the hardware identifier label of mobile terminal, and according to identified hardware identifier label, for the network frequency range parameter that this mobile terminal configuration is corresponding, all adaptive configuration frequency range can be carried out to make the mobile terminal of there are differences hardware, no longer need for differentiation hardware terminal and arrange separately, thus effectively can reduce software development and after-sales service cost.
Further, as shown in Figure 6, also comprise before above-mentioned steps S110:
Step S100, detect mobile terminal when entering initialize mode, activate each GPIO mouth of mobile terminal.
Particularly, mobile terminal first time download software or with erase mode upgrade software time, mobile terminal will restart, and re-create file system, and mobile terminal carries out initialize mode.Now, interface activation module 340, by activating each GPIO mouth of this mobile terminal, so that hardware identification module 310 obtains the state of this GPIO mouth, carries out the adaptive configuration of network frequency range.
The foregoing is only the preferred embodiments of the present invention; not thereby its scope of the claims is limited; every utilize specification of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; directly or indirectly be used in the technical field that other are relevant, be all in like manner included in scope of patent protection of the present invention.

Claims (10)

1. a network frequency band adaptive collocation method for mobile terminal, is characterized in that, the network frequency band adaptive collocation method of described mobile terminal comprises the following steps:
Obtain the hardware identifier label of mobile terminal;
Obtain the frequency range label allocation corresponding with hardware identifier label, and obtain the frequency range parameter corresponding with described frequency range label allocation from the frequency range configuration file pre-set;
By in the relevant parameter item in obtained frequency range parameter read-in mobile terminal.
2. the network frequency band adaptive collocation method of mobile terminal as claimed in claim 1, it is characterized in that, the hardware identifier label of described acquisition mobile terminal comprises:
Read the state of each GPIO mouth on the hardware chip of mobile terminal;
According to the state of each GPIO mouth that this reads, obtain the hardware identifier label of mobile terminal.
3. the network frequency band adaptive collocation method of mobile terminal as claimed in claim 1, is characterized in that, the described acquisition frequency range label allocation corresponding with hardware identifier label comprises:
This hardware identifier label is mated with the mapping relations of frequency range label allocation with pre-configured hardware identifier label, obtains the frequency range label allocation corresponding with hardware identifier label.
4. the network frequency band adaptive collocation method of mobile terminal as claimed in claim 1, it is characterized in that, described frequency range configuration file is stored in network frequency band adaptive inking device, or is stored in External memory equipment or server.
5. the network frequency band adaptive collocation method of the mobile terminal as described in any one of claim 1-4, is characterized in that, also comprises before the hardware identifier label of described acquisition mobile terminal:
Detect mobile terminal when entering initialize mode, activate each GPIO mouth of mobile terminal.
6. a network frequency band adaptive inking device for mobile terminal, is characterized in that, the network frequency band adaptive inking device of described mobile terminal comprises:
Hardware identification module, for obtaining the hardware identifier label of mobile terminal;
Frequency range parameter acquisition module, for obtaining the frequency range label allocation corresponding with hardware identifier label, and obtains the frequency range parameter corresponding with described frequency range label allocation from the frequency range configuration file pre-set;
Frequency range parameter configuration module, for by the relevant parameter item in obtained frequency range parameter read-in mobile terminal.
7. the network frequency band adaptive inking device of mobile terminal as claimed in claim 6, is characterized in that, described hardware identification module is for the state that reads each GPIO mouth on the hardware chip of mobile terminal; According to the state of each GPIO mouth that this reads, obtain the hardware identifier label of mobile terminal.
8. the network frequency band adaptive inking device of mobile terminal as claimed in claim 6, it is characterized in that, described frequency range parameter acquisition module is used for:
This hardware identifier label is mated with the mapping relations of frequency range label allocation with pre-configured hardware identifier label, obtains the frequency range label allocation corresponding with hardware identifier label.
9. the network frequency band adaptive inking device of mobile terminal as claimed in claim 6, it is characterized in that, described frequency range configuration file is stored in network frequency band adaptive inking device, or is stored in External memory equipment or server.
10. the network frequency band adaptive inking device of the mobile terminal as described in any one of claim 6-9, is characterized in that, the network frequency band adaptive configuration of described mobile terminal also comprises:
Interface activation module, for detect mobile terminal enter initialize mode time, activate each GPIO mouth of mobile terminal.
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