CN105357379A - Method and system for making intelligent terminal still be effective after being restarted under specific mode - Google Patents
Method and system for making intelligent terminal still be effective after being restarted under specific mode Download PDFInfo
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- CN105357379A CN105357379A CN201510703719.6A CN201510703719A CN105357379A CN 105357379 A CN105357379 A CN 105357379A CN 201510703719 A CN201510703719 A CN 201510703719A CN 105357379 A CN105357379 A CN 105357379A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/725—Cordless telephones
- H04M1/72502—Cordless telephones with one base station connected to a single line
- H04M1/72505—Radio link set-up procedures
- H04M1/72513—On hold, intercom or transfer communication modes
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
- H04M1/72403—User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality
- H04M1/72418—User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality for supporting emergency services
- H04M1/72424—User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality for supporting emergency services with manual activation of emergency-service functions
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
- H04M1/72484—User interfaces specially adapted for cordless or mobile telephones wherein functions are triggered by incoming communication events
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- Computer Networks & Wireless Communication (AREA)
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- Business, Economics & Management (AREA)
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- Human Computer Interaction (AREA)
- Mobile Radio Communication Systems (AREA)
- Telephone Function (AREA)
Abstract
The invention provides a method and system for making an intelligent terminal still be effective after being restarted under a specific mode. The method at least comprises the following steps: after the intelligent terminal is normally started, deciding whether to directly enter a last state or normally start according to the state before the last power failure by judging whether a memory has a storage instruction; if a last specific radio frequency work pattern is conserved, then marking a normal work pattern discovery flag bit flag as 1; if the last specific radio frequency work pattern is not conserved, then marking the normal work pattern discovery flag bit flag as 0; and using the normal work pattern discovery flag bit flag to judge whether to enter the last work pattern or other work patterns. The invention realizes a method for remembering one state of intelligent terminals such as a mobile phone before power failure, and the implementation of the method can facilitate the debugging of radio-frequency circuits and save the debugging time.
Description
Technical field
The present invention relates to radio circuit debugging field, particularly relate to the method and system still come into force after a kind of intelligent terminal is restarted in a particular mode.
Background technology
In data communication system equipment, under needing to be placed in certain special mode of operation time radio circuit is through being everlasting and debugging, such as need intelligent terminal as mobile phone repeatedly be operated in certain band pattern under, under software needs to continue to make PA or switch be operated in this frequency range, this situation is all generally that RFPA forces emission state.For Radio Frequency Engineer, then may need repeatedly to enter start work that PA sends out by force pattern go debugging after power-off again, therefore, wish very much to realize the method that is remembered mobile phone power-off preceding state in the operation of reality, the realization of this method can facilitate the debugging of radio circuit.
At present, the method realizing aforesaid operations conventional in radio frequency laboratory is under utilizing platform tools software QRCT to send instructions allow it be placed in certain pattern to mobile phone, such as, under certain PA needs to be placed in which band, which power mode, which bias voltage, could realize after all needing to send instructions to mobile phone respectively one by one, but even so, once after power-off, mobile phone remains after starting shooting again to be needed to perform the operation once sent instructions again, and this repeatable operation is lost time very much.
Summary is got off, the shortcoming of prior art is up to now lost time exactly, need Radio Frequency Engineer constantly to go operational order to realize the mode state of demand, and instruction or step just likely need to re-execute, so not very conveniently do not carry out circuit debugging once wrong.
Such as, patent documentation: notification number: CN101699836A, denomination of invention: a kind of method by microstrip line debugging radio-frequency circuit, this invention discloses a kind of method by microstrip line debugging radio-frequency circuit, because it needs the shape to microstrip line, such as the width of microstrip line, length and thickness etc. are adjusted, just can reach the object of debugging radio-frequency circuit.Because adjustment method of the present invention does not need electronic devices and components, so reduce cost.By a method for microstrip line debugging radio-frequency circuit, it is characterized in that, described debugging changes the shape of the microstrip line of described radio circuit, to realize the debugging of radio frequency circuit.Disclose a kind of method by microstrip line debugging radio-frequency circuit, such as the width of microstrip line, length and thickness etc. are adjusted, just can reach the object of debugging radio-frequency circuit.Some technical schemes that above-mentioned disclosed patented technology document is just debugged existing radio circuit, inconsistent with institute's issue to be resolved of the present invention.
In view of the foregoing, the method and system that a kind of new intelligent terminal still comes into force after restarting in a particular mode, such as realize one and remember mobile phone power-off preceding state, realize facilitating the invention of the method and system of the debugging of radio circuit to be imperative.
Summary of the invention
The shortcoming of prior art in view of the above, under needing to be placed in certain special mode of operation when the object of the present invention is to provide a kind of radio circuit through being everlasting and debugging, such as need mobile phone permanent be operated in certain band pattern under, under software needs to continue to make PA or switch be operated in this frequency range, Radio Frequency Engineer may need start work repeatedly to go debugging after power-off again, realize the method that is remembered mobile phone power-off preceding state, to facilitate the debugging of radio circuit.
For achieving the above object and other relevant objects, the method and system still come into force after restarting under the invention provides a kind of intelligent terminal AD HOC, comprising:
The method still come into force after restarting under intelligent terminal AD HOC, it at least comprises the steps:
Whether the state or the normal boot-strap that need the Determines before according to power-off last time whether directly to enter last time after intelligent terminal normal boot-strap, utilize memory to have storage instruction to judge,
If the specific Operation mode of last time has preservation, then normal mode of operation finds that flag bit flag is designated as 1;
If do not preserved, normal mode of operation finds that flag bit flag is designated as 0;
The mode of operation that flag bit flag judges whether to enter last time or other mode of operation is found by above-mentioned normal mode of operation.
Preferably, the method still come into force after restarting under described intelligent terminal AD HOC, under the normal mode of operation of intelligent terminal described in it, the step entering Operation mode first comprises:
If detect that normal mode of operation finds that flag bit flag is 0, then enter manualexecute pattern, manual input instruction after start, memory is backup instruction simultaneously;
Manual input instruction complete laggard enter Operation mode;
Will make a decision the need of amendment after Operation mode terminates, if need amendment, then again manual input instruction simultaneous memory backs up again;
Preserve the instruction of this execution;
Power-off shutdown.
Preferably, the method still come into force after restarting under described intelligent terminal AD HOC, the instruction of manually input described in it is corresponding when arranging to be backuped in memory, when next time, start then directly can perform instruction, enter the Operation mode of last time, the instruction backed up before allowing intelligent terminal automatically perform power-off last time.
Preferably, the method still come into force after restarting under described intelligent terminal AD HOC, again change the parameter in Operation mode after using Operation mode to complete described in it, and again start shooting after later power-off and also need the operating procedure entering Operation mode as follows:
If detect that normal mode of operation finds that flag bit flag is 0, then enter manualexecute pattern, manual input instruction after start, memory is backup instruction simultaneously;
Manual input instruction complete laggard enter Operation mode.
Will make a decision the need of amendment after Operation mode terminates, if need amendment, then again manual input instruction simultaneous memory backs up again;
Manual input instruction, memory simultaneously backup instruction, manually perform instruction complete laggard enter Operation mode;
Will make a decision the need of amendment after radio frequency operation terminates, if need amendment, then again manually input instruction, simultaneous memory backs up again;
Preserve the instruction of this execution;
Power-off shutdown.
Preferably, the method still come into force after restarting under described intelligent terminal AD HOC, the Operation mode preserved before intelligent terminal power-off last time described in it, if detect that after again starting shooting normal mode of operation finds that flag bit flag is 1, then automatically perform the instruction in memory, automatically enter the Operation mode before power-off last time; That is,
If detect that normal mode of operation finds that flag bit flag is 1, then enter automaticexecute pattern, the instruction stored before automatically performing power-off last time;
Automatically perform the instruction stored in current storage;
Automatically perform order complete laggard enter Operation mode;
To make a decision the need of amendment after Operation mode terminates, if need amendment, then need again manually to input instruction simultaneous memory and again back up;
Preserve the instruction of this execution;
Power-off shutdown.
Preferably, the method still come into force after restarting under described intelligent terminal AD HOC, after intelligent terminal start described in it, normal mode of operation finds that flag bit flag is 0, namely instruction is not stored in memory, and manually do not input instruction, then intelligent terminal operates in normal mode of operation, that is:
If detect that normal mode of operation finds that flag bit flag is 0, then enter manualexecute pattern after start, manually input instruction;
When detecting after start that normal mode of operation finds that flag bit flag is after 0, also not instruction input when, be then in normal operating state;
Power-off shutdown.
The system still come into force after restarting under intelligent terminal AD HOC, it at least comprises:
Whether mode decision module: the state or the normal boot-strap that whether directly enter last time according to the Determines before power-off last time, utilize memory to have storage instruction to judge;
Flag bit detection module: if the specific Operation mode of last time has preservation, then normal mode of operation finds that flag bit flag is designated as 1; If do not preserved, normal mode of operation finds that flag bit flag is designated as 0;
Pattern Executive Module: find the mode of operation that flag bit flag judges whether to enter last time and other mode of operation by above-mentioned normal mode of operation.
Preferably, the system still come into force after restarting under described intelligent terminal AD HOC, under the normal mode of operation of intelligent terminal described in it, the step entering Operation mode first comprises:
If detect that normal mode of operation finds that flag bit flag is 0, then enter manualexecute pattern, manual input instruction after start, memory is backup instruction simultaneously;
Manual input complete laggard enter Operation mode;
Will make a decision the need of amendment after Operation mode terminates, if need amendment, then again manual input instruction simultaneous memory backs up again;
Preserve the instruction of this execution;
Power-off shutdown.
Preferably, the system still come into force after restarting under described intelligent terminal AD HOC, the instruction of manually input described in it is corresponding when arranging to be backuped in memory, when next time, start just directly can perform instruction, enter the Operation mode of last time, the instruction backed up before allowing intelligent terminal automatically perform power-off last time.
Preferably, the system still come into force after restarting under described intelligent terminal AD HOC, again change some parameter in Operation mode after using Operation mode to complete described in it, and again start shooting after later power-off and also need the operating procedure entering Operation mode as follows:
If detect that normal mode of operation finds that flag bit flag is 0, then enter manualexecute pattern, manual input instruction after start, memory is backup instruction simultaneously;
Manual input complete laggard enter Operation mode.
To make a decision the need of amendment after Operation mode terminates, if need amendment, then again manually input instruction simultaneous memory and again back up;
Manual input instruction, memory simultaneously backup instruction, manual complete laggard enter Operation mode;
Will make a decision the need of amendment after Operation mode terminates, if need amendment, then again manually input instruction, simultaneous memory backs up again;
Preserve the instruction of this execution;
Power-off shutdown.
Preferably, the system still come into force after restarting under described intelligent terminal AD HOC, the Operation mode preserved before intelligent terminal power-off last time described in it, if detect that after again starting shooting normal mode of operation finds that flag bit flag is 1, then automatically perform the instruction in memory, automatically enter the Operation mode before power-off last time; That is,
If detect that normal mode of operation finds that flag bit flag is 1, then enter automaticexecute pattern, the instruction stored before automatically performing power-off last time;
Automatically perform the instruction stored in current storage;
Automatically perform order complete laggard enter Operation mode;
To make a decision the need of amendment after Operation mode terminates, if need amendment, then again manually input instruction simultaneous memory and again back up;
Preserve the instruction of this execution;
Power-off shutdown.
Preferably, the system still come into force after restarting under described intelligent terminal AD HOC, after intelligent terminal start described in it, normal mode of operation finds that flag bit flag is 0, namely instruction is not stored in memory, and manually do not input instruction, then intelligent terminal operates in normal mode of operation, that is:
If detect that normal mode of operation finds that flag bit flag is 0, then enter manualexecute pattern after start, manually input instruction;
When detecting after start that normal mode of operation finds that flag bit flag is after 0, also not instruction input when, be then in normal operating state;
Power-off shutdown.
As mentioned above, the method and system still come into force after restarting under intelligent terminal AD HOC of the present invention, have following beneficial effect:
The method and system still come into force after restarting under intelligent terminal AD HOC provided by the invention realize the method that is remembered the power-off preceding state such as intelligent terminal such as mobile phone, to facilitate the debugging of radio circuit, save the time of radio frequency debugging.
Accompanying drawing explanation
The method step schematic flow sheet that Fig. 1 still comes into force after restarting under being shown as intelligent terminal AD HOC of the present invention.
The block diagram of the method that Fig. 2 still comes into force after restarting under being shown as intelligent terminal AD HOC of the present invention.
The system schematic that Fig. 3 still comes into force after restarting under being shown as intelligent terminal AD HOC of the present invention.
Fig. 4 is shown as the operating procedure schematic diagram that the execution RF2 pattern described in the embodiment of the present invention needs.
Element numbers explanation
101 mode decision modules
102 flag bit detection modules
103 pattern Executive Modules
(1) ~ (10) step (1) ~ (10)
S31 ~ S33 step S31 ~ S33
Embodiment
Below by way of specific instantiation, embodiments of the present invention are described, those skilled in the art the content disclosed by this specification can understand other advantages of the present invention and effect easily.The present invention can also be implemented or be applied by embodiments different in addition, and the every details in this specification also can based on different viewpoints and application, carries out various modification or change not deviating under spirit of the present invention.It should be noted that, when not conflicting, the feature in following examples and embodiment can combine mutually.
It should be noted that, the diagram provided in following examples only illustrates basic conception of the present invention in a schematic way, then only the assembly relevant with the present invention is shown in graphic but not component count, shape and size when implementing according to reality is drawn, it is actual when implementing, and the kenel of each assembly, quantity and ratio can be a kind of change arbitrarily, and its assembly layout kenel also may be more complicated.
Refer to Fig. 1, Fig. 2, the invention provides the method and system still come into force after a kind of intelligent terminal is restarted in a particular mode.The present invention realizes the method that is remembered the power-off preceding state such as intelligent terminal such as mobile phone, and the realization of this method can facilitate the debugging of radio circuit.Following step description detailed for Typical Representative-mobile phone for intelligent terminal being realized the method:
Step (1):
Perform step S31, the state or the normal boot-strap that need the Determines before according to power-off last time whether directly to enter last time after mobile phone normal boot-strap, memory can be utilized whether to have storage instruction to judge;
Perform step S32, if the specific RF pattern of last time has preservation, then flag is designated as 1, if do not preserved, flag is designated as 0;
Perform step S33, can judge whether with this flag bit the mode of operation entering last time.
Step (2) manualexecute pattern: if mobile phone detects that flag is 0, then enter manualexecute pattern after mobile phone power-on, now need the input instruction of the manual rule of RF engineer oneself.
Step (3) automaticexecute pattern: if mobile phone detects that flag is 1, then mobile phone enters automaticexecute pattern, the instruction that mobile phone stores before automatically performing power-off last time.
Step (4) when detecting after mobile phone power-on that flag is after 0, also not instruction input when, mobile phone is in normal operating state.
Step (5) when the manually every bar instruction of input, then needs memory to back up each instruction simultaneously.
Step (6) automatically performs the instruction stored in current storage.
The mode of operation of RF is entered after step (7) is manually complete.
Step (8) automatically performs the mode of operation entering RF after order completes.
To make a decision the need of amendment after step (9) RF end-of-job, if need amendment, then need again manually to input instruction simultaneous memory and again back up.
Step (10) preserves the instruction of this execution.
Step (11) power-off shutdown.
As follows by the different demands according to mode of operation, the above-mentioned different concrete steps that different working modes performs, introduce the steps flow chart introduction that specific works pattern is corresponding respectively:
Flow process 1: step (1)-step (2)-step (5)-step (7)-step (9)-step (10)-step (11)
Step (1):
Perform step S31, the state or the normal boot-strap that need the Determines before according to power-off last time whether directly to enter last time after mobile phone normal boot-strap, memory can be utilized whether to have storage instruction to judge,
Perform step S32, if the specific RF pattern of last time has preservation, then flag is designated as 1, if do not preserved, flag is designated as 0,
Perform step S33, can judge whether with this flag bit the mode of operation entering last time.
Step (2) manualexecute pattern: if mobile phone detects that flag is 0, then enter manualexecute pattern after mobile phone power-on, now need the input instruction of the manual rule of RF engineer oneself.
Step (5) when the manually every bar instruction of input, then needs memory to back up each instruction simultaneously.
The mode of operation of RF is entered after step (7) is manually complete.
To make a decision the need of amendment after step (9) RF end-of-job, if need amendment, then need again manually to input instruction simultaneous memory and again back up.
Step (10) preserves the instruction of this execution.
Step (11) power-off shutdown.
Under the pattern that this flow process 1 mainly normally works at mobile phone, enter the flow chart under RF1 mode of operation first, this scene is also often use, what such as one normal mobile phone used does not launch signal suddenly, then need to look at whether PA normally works from being switched to pattern that RF sends out by force, this scene is exactly the mode of operation of flow process 1 this moment.
Concrete example illustrates: need to enter RF1 module cellphone first and enter, RF1 module is under RF engineer wants to make mobile phone be placed in FDD_band3_HPM_ pattern, and we need operating procedure in QRCT as follows:
Also for performing the operating procedure that RF2 pattern needs shown in Fig. 4, seem suitable tediously long of step, and to operate time step is more and more be also relatively easily make mistakes.
Fig. 4 left side blueness font display be the instruction performing action need each time, described instruction is as follows:
1.QLIB_SetLibraryMode(QMSL_INTERNAL)
2.QLIB_GetAvailablePhonesPortList()
ComPortList=COM3
3.QLIB_ConnectServerWithWait(COM3,2000)
4.QLIB_IsPhoneConnected()
5.QLIB_DIAG_READ_ESN_F()
ESN=0X0
6.QLIB_DIAG_EXT_BUILD_ID_F()
Hw/SwVersion=384014108
MPSS.JO.1.0.c4-00034-M8909EAAAANVZM-1.25020.1
7.QLIB_DIAG_CONTROL_F(MODE_FTM_F)
8.QLIB_FTM_SET_MODE_ID(LTE)
9.QLIB_FTM_SET_MODE(PHONE_MODE_LTE_B3)
10.QLIB_FTM_SET_MODE_ID(LTE)
11.QLIB_FTM_LTE_SET_TX_BANDWIDTH(3)
12.QLIB_FTM_SET_MODE_ID(LTE)
13.QLIB_FTM_LTE_SET_RX_BANDWIDTH(3)
14.QLIB_FTM_SET_MODE_ID(LTE)
15.QLIB_FTM_SET_CHAN(19575)
16QLIB_FTM_SET_MODE_ID(LTE)
17.QLIB_FTM_SET_SECONDARY_CHAIN(FTM_ON)
18.QLIB_FTM_SET_MODE_ID(LTE)
19.QLIB_FTM_LTE_SET_TX_WAVEFORM(2,6,0,10)
20.QLIB_FTM_SET_MODE_ID(LTE)
21.QLIB_FTM_SET_PA_RANGE(0)
22.QLIB_FTM_SET_MODE_ID(LTE)
Can find out that entering RF1 pattern needs execution twenties order, these orders are all need RF engineer to perform one by one, although be click tools, make mistakes than being easier to when order is many.
Certainly, can when arranging, the instruction of these correspondences be backuped in the memory of mobile phone formulation, when next time, start just directly can perform instruction, when entering the RF mode of operation of last time, same operation can be carried out again, the instruction backed up before mobile phone only need be allowed to automatically perform power-off last time, can conveniently save time like this.
Flow process 2: step (1)-step (2)-step (5)-step (7)-step (9)-step (5)-step (7)-step (9)-step (10)-step (11)
State or normal boot-strap that whether the Determines before according to power-off last time directly enters last time is needed after step (1) mobile phone normal boot-strap, memory can be utilized whether to have storage instruction to judge, if the specific RF pattern of last time has preservation, then flag is designated as 1, if do not preserved, flag is designated as 0, can judge whether with this flag bit the mode of operation entering last time.
Step (2) manualexecute pattern: if mobile phone detects that flag is 0, then enter manualexecute pattern after mobile phone power-on, now need the input instruction of the manual rule of RF engineer oneself.
Step (5) when the manually every bar instruction of input, then needs memory to back up each instruction simultaneously.
The mode of operation of RF is entered after step (7) is manually complete.
To make a decision the need of amendment after step (9) RF end-of-job, if need amendment, then need again manually to input instruction simultaneous memory and again back up.
Step (5) when the manually every bar instruction of input, then needs memory to back up each instruction simultaneously.
The mode of operation of RF is entered after step (7) is manually complete.
To make a decision the need of amendment after step (9) RF end-of-job, if need amendment, then need again manually to input instruction simultaneous memory and again back up.
Step (10) preserves the instruction of this execution.
Step (11) power-off shutdown.
This flow process 2 mainly thinks some parameter again changed in RF pattern after using RF Pattern completion, and again starts shooting after power-off later and also need to enter the operating process of RF scene.
When place in rf mode, needs some parameter under amendment RF pattern at present, as channel number, channel width etc.When the ch19575 of LTE_B3 is changed into ch19300 then need in QRCT from amendment channel instruction instruction down all need to re-execute, so the instruction of correspondence needs again to back up, corresponding in above-mentioned instruction from the 15th article: QLIB_FTM_SET_CHAN (19575) needs re-execute backup, 14 then do not need again to back up above, are saved in memory before having backed up rear shutdown again.
Flow process 3: step (1)-step (3)-step (6)-step (8)-step (9)-step (10)-step (11)
State or normal boot-strap that whether the Determines before according to power-off last time directly enters last time is needed after step (1) mobile phone normal boot-strap, memory can be utilized whether to have storage instruction to judge, if the specific RF pattern of last time has preservation, then flag is designated as 1, if do not preserved, flag is designated as 0, can judge whether with this flag bit the mode of operation entering last time.
Step (3) automaticexecute pattern: if mobile phone detects that flag is 1, then mobile phone enters automaticexecute pattern, the instruction that mobile phone stores before automatically performing power-off last time.
Step (6) automatically performs the instruction stored in current storage.
Step (8) automatically performs the mode of operation entering RF after order completes.
To make a decision the need of amendment after step (9) RF end-of-job, if need amendment, then need again manually to input instruction simultaneous memory and again back up.
Step (10) preserves the instruction of this execution.
Step (11) power-off shutdown.
This flow process 3 mainly directly transfers the instruction of preserving last time, directly enter RF pattern, this kind of pattern is the most frequently used to be arrived, the RF pattern that before such as power-off last time, mobile phone has preserved, if find that flag is 1 after current start, then automatically perform the instruction in memory, mobile phone enters the RF pattern before power-off last time automatically.Because in the debugging of RF Circuit Matching, need the matching value that RF engineer's trial is again and again different, so need constantly to start shooting again fill order one by one, so very time-consuming, even affect debug time and research and development progress, if after performing this flow process 3, mobile phone directly automatically performs order after powering on and starting shooting, and saves the time of manually input command one by one, also greatly reduces the probability of makeing mistakes.
Flow process 4: step (1)-step (2)-step (4)-step (11)
State or normal boot-strap that whether the Determines before according to power-off last time directly enters last time is needed after step (1) mobile phone normal boot-strap, memory can be utilized whether to have storage instruction to judge, if the specific RF pattern of last time has preservation, then flag is designated as 1, if do not preserved, flag is designated as 0, can judge whether with this flag bit the mode of operation entering last time.
Step (2) manualexecute pattern: if mobile phone detects that flag is 0, then enter manualexecute pattern after mobile phone power-on, now need RF engineer oneself manually to input instruction one by one.
Step (4) when detecting after mobile phone power-on that flag is after 0, also not instruction input when, mobile phone is in normal operating state.
Step (11) power-off shutdown.
This flow process 4 be exactly after mobile phone power-on normal mode of operation find that flag bit flag is 0, namely do not store instruction in memory, and manually do not input instruction yet, then operating handset does not work in rf mode, under mobile phone operates in normal mode of operation.
Refer to Fig. 3, the system that the present invention still comes into force after restarting under also providing a kind of intelligent terminal AD HOC, it at least comprises:
Whether mode decision module 101: the state or the normal boot-strap that whether directly enter last time according to the Determines before power-off last time, utilize memory to have storage instruction to judge;
Flag bit detection module 102: if the specific Operation mode of last time has preservation, then normal mode of operation finds that flag bit flag is designated as 1; If do not preserved, normal mode of operation finds that flag bit flag is designated as 0;
Pattern Executive Module 103: find the mode of operation that flag bit flag judges whether to enter last time and other mode of operation by above-mentioned normal mode of operation.
The operating procedure of other mode of operations is similar as described in said method item, again repeats no more.
In sum, under needing to be placed in certain special mode of operation when the invention provides a kind of radio circuit through being everlasting and debugging, such as need mobile phone permanent be operated in certain band pattern under, under software needs to continue to make PA or switch be operated in this frequency range, Radio Frequency Engineer may need start work repeatedly to go debugging after power-off again, realize the method that is remembered mobile phone power-off preceding state, to facilitate the debugging of radio circuit, save the time of radio frequency debugging.
Above-described embodiment is illustrative principle of the present invention and effect thereof only, but not for limiting the present invention.Any person skilled in the art scholar all without prejudice under spirit of the present invention and category, can modify above-described embodiment or changes.Therefore, such as have in art usually know the knowledgeable do not depart from complete under disclosed spirit and technological thought all equivalence modify or change, must be contained by claim of the present invention.
Claims (12)
1. the method still come into force after restarting under intelligent terminal AD HOC, it is characterized in that, it at least comprises the steps:
Memory is utilized whether to have storage instruction to need the Determines before according to power-off last time whether directly to enter state or the normal boot-strap of last time after judging intelligent terminal normal boot-strap,
If the specific Operation mode of last time has preservation, then normal mode of operation finds that flag bit flag is designated as 1;
If do not preserved, normal mode of operation finds that flag bit flag is designated as 0;
The mode of operation that flag bit flag judges whether to enter last time or other mode of operation is found by above-mentioned normal mode of operation.
2. the method still come into force after restarting under intelligent terminal AD HOC as claimed in claim 1, it is characterized in that, under the normal mode of operation of described intelligent terminal, the step entering Operation mode first comprises:
If detect that normal mode of operation finds that flag bit flag is 0, then enter manualexecute pattern, manual input instruction after start, memory is backup instruction simultaneously;
Manual input instruction complete laggard enter Operation mode;
Will make a decision the need of amendment after Operation mode terminates, if need amendment, then again manual input instruction simultaneous memory backs up again;
Preserve the instruction of this execution;
Power-off shutdown.
3. the method still come into force after restarting under intelligent terminal AD HOC as claimed in claim 2, it is characterized in that, the instruction of described manual input is corresponding when arranging to be backuped in memory, when next time, start then directly performs instruction, enter the Operation mode of last time, the instruction backed up before allowing intelligent terminal automatically perform power-off last time.
4. the method still come into force after restarting under intelligent terminal AD HOC as claimed in claim 2, it is characterized in that, again change the parameter in Operation mode after described use Operation mode completes, and again start shooting after later power-off and also need the operating procedure entering Operation mode as follows:
If detect that normal mode of operation finds that flag bit flag is 0, then enter manualexecute pattern, manual input instruction after start, memory is backup instruction simultaneously;
Manual input instruction complete laggard enter Operation mode.
Will make a decision the need of amendment after Operation mode terminates, if need amendment, then again manual input instruction simultaneous memory backs up again;
Manual input instruction, memory simultaneously backup instruction, manually perform instruction complete laggard enter Operation mode;
Will make a decision the need of amendment after Operation mode terminates, as needed amendment, then again manually input instruction, simultaneous memory backs up again;
Preserve the instruction of this execution;
Power-off shutdown.
5. the method still come into force after restarting under intelligent terminal AD HOC as claimed in claim 2, it is characterized in that, the Operation mode preserved before power-off last time of described intelligent terminal, if detect that after again starting shooting normal mode of operation finds that flag bit flag is 1, then automatically perform the instruction in memory, automatically enter the Operation mode before power-off last time; That is,
If detect that normal mode of operation finds that flag bit flag is 1, then enter automaticexecute pattern, the instruction stored before automatically performing power-off last time;
Automatically perform the instruction stored in current storage;
Automatically perform order complete laggard enter Operation mode;
To make a decision the need of amendment after Operation mode terminates, if need amendment, then need again manually to input instruction simultaneous memory and again back up;
Preserve the instruction of this execution;
Power-off shutdown.
6. the method still come into force after restarting under intelligent terminal AD HOC as claimed in claim 2, it is characterized in that, after described intelligent terminal start, normal mode of operation finds that flag bit flag is 0, namely instruction is not stored in memory, and manually do not input instruction, the then mode of operation of intelligent terminal normal operation, that is:
If detect that normal mode of operation finds that flag bit flag is 0, then enter manualexecute pattern after start, manually input instruction;
When detecting after start that normal mode of operation finds that flag bit flag is after 0, also not instruction input when, be then in normal operating state;
Power-off shutdown.
7. the system still come into force after restarting under intelligent terminal AD HOC, it is characterized in that, it at least comprises:
Whether mode decision module: the state or the normal boot-strap that whether directly enter last time according to the Determines before power-off last time, utilize memory to have storage instruction to judge;
Flag bit detection module: if the specific Operation mode of last time has preservation, then normal mode of operation finds that flag bit flag is designated as 1; If do not preserved, normal mode of operation finds that flag bit flag is designated as 0;
Pattern Executive Module: find the mode of operation that flag bit flag judges whether to enter last time and other mode of operation by above-mentioned normal mode of operation.
8. the system still come into force after restarting under intelligent terminal AD HOC as claimed in claim 7, it is characterized in that, under the normal mode of operation of described intelligent terminal, the step entering Operation mode first comprises:
If detect that normal mode of operation finds that flag bit flag is 0, then enter manualexecute pattern after start, manually input instruction, memory is backup instruction simultaneously;
Manual input instruction complete laggard enter Operation mode;
To make a decision the need of amendment after Operation mode terminates, as needed amendment, then again manually input instruction simultaneous memory and again back up;
Preserve the instruction of this execution;
Power-off shutdown.
9. the system still come into force after restarting under intelligent terminal AD HOC as claimed in claim 7, it is characterized in that, the instruction of described manual input is corresponding when arranging to be backuped in memory, when next time, start just directly performs instruction, enter the Operation mode of last time, the instruction backed up before allowing intelligent terminal automatically perform power-off last time.
10. the system still come into force after restarting under intelligent terminal AD HOC as claimed in claim 8, it is characterized in that, again change some parameter in Operation mode after described use Operation mode completes, and again start shooting after later power-off and also need the operating procedure entering Operation mode as follows:
If detect that normal mode of operation finds that flag bit flag is 0, then enter manualexecute pattern after start, manually input instruction, memory is backup instruction simultaneously;
Manual input instruction complete laggard enter Operation mode.
To make a decision the need of amendment after Operation mode terminates, if need amendment, then again manually input instruction simultaneous memory and again back up;
Manual input instruction, memory simultaneously backup instruction, manual complete laggard enter Operation mode;
Will make a decision the need of amendment after Operation mode terminates, if need amendment, then again manually input instruction, simultaneous memory backs up again;
Preserve the instruction of this execution;
Power-off shutdown.
The system still come into force after restarting under 11. intelligent terminal AD HOC as claimed in claim 7, it is characterized in that, the Operation mode preserved before power-off last time of described intelligent terminal, if detect that after again starting shooting normal mode of operation finds that flag bit flag is 1, then automatically perform the instruction in memory, automatically enter the Operation mode before power-off last time; That is,
If detect that normal mode of operation finds that flag bit flag is 1, then enter automaticexecute pattern, the instruction stored before automatically performing power-off last time;
Automatically perform the instruction stored in current storage;
Above-mentioned automatically perform order complete laggard enter Operation mode;
To make a decision the need of amendment after Operation mode terminates, if need amendment, then again manually input instruction simultaneous memory and again back up;
Preserve the instruction of this execution;
Power-off shutdown.
The system still come into force after restarting under 12. intelligent terminal AD HOC as claimed in claim 7, it is characterized in that, after described intelligent terminal start, normal mode of operation finds that flag bit flag is 0, namely instruction is not stored in memory, and manually do not input instruction, then intelligent terminal operates in normal mode of operation, that is:
If detect that normal mode of operation finds that flag bit flag is 0, then enter manualexecute pattern after start, manually input instruction;
When detecting after start that normal mode of operation finds that flag bit flag is after 0, also not instruction input when, be then in normal operating state;
Power-off shutdown.
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