CN101097521A - Windows processing system of hand-hold equipment - Google Patents

Abstract

The invention discloses a Windows process system of hand-hold equipment, it includes: a data processor which can use several operation systems, thereinto: the first operation system guides all drive program of hardware and all application program of hand-hold equipment; a detecting module which detects hand-hold equipment in closing state and decides whether the guiding signal is sent; a program loading module is used to start when it receives guiding signal, it selects some operation system and guides the operation system to memory based on manual operation of user or hand-hold equipment automatically. User just needs to start the second operation system to realize some function, the function action can be accomplished in the second operation system, it possesses advantages that memory resource can be used fully, speed of starting is fast, speed of calculation is fast, energy is saved.

Description

A kind of Windows process system of hand-hold equipment

Affiliated technical field

The present invention relates to electronic technology field, relate to a kind of Windows process system of hand-hold equipment particularly.

Background technology

At present, along with the use of mobile phone is more and more universal, people also have higher requirement to the function and the performance of mobile phone.But all disposal systems based on the mobile phone under the Windows Mobile platform all include only an operating system, all hardware driver and all application software of this operating system boot-loader handheld device on storer.Need to realize the functions such as function, radio-frequency (RF) calibration of alarm, charging and shielding conversation, all must after starting this operating system, could work, functions such as the function that can't realize shutting down alarm, shutdown charging and shielding are conversed, the radio-frequency (RF) calibration of shutting down.Because this operating system all started all hardware and softwares, then subsidiaryly started many unnecessary functions, wasted system resource, the time is slow, and this is very inconvenient to the user.

Summary of the invention

In order to overcome the existing deficiency of existing Windows process system of hand-hold equipment, the invention provides a kind of Windows process system of hand-hold equipment, can select or equipment be given tacit consent to automatically and selects a certain operating system according to the user, then toggle speed soon, more power saving.

The technical solution adopted for the present invention to solve the technical problems is: a kind of Windows process system of hand-hold equipment, and it comprises:

One can use the data processor of several operating systems in a processor, wherein: all hardware driver and all application software of first operating system boot-loader handheld device on storer; The part hardware drive program and the certain applications software of second operating system boot-loader handheld device on storer;

One detection module that is used under off-mode, detecting handheld device and determines whether to send pilot signal according to testing result;

Once being used for receiving the program load-on module that begins to start after the pilot signal, its according to the user manual or handheld device give tacit consent to automatically and select a certain operating system and this booting operating system is gone into storer to start this operating system then.

The beneficial effect of the technical program is: finish certain function action and need not to call all hardware and softwares on handheld device, only need call some hardware and software can finish, this disposal system has two operating systems, one of them operating system has only been loaded necessary hardware drive program and the certain applications software of realizing certain function action, then the user realizes that this function action only need start second operating system and can finish, in second operating system, finish this function action, have and made full use of memory source, toggle speed is fast, computing velocity is fast, the advantage of power saving.

Whether described detection module detects the outside under off-mode have charging equipment to insert, if having then send pilot signal; Described program load-on module is given tacit consent to automatically according to handheld device and is selected second operating system and this second booting operating system is gone into storer to start then; This second operating system management charging module and be matched with other correlation module of charging module.The beneficial effect of present technique feature is: open second operating system and can finish charge function, because second operating system is only loaded the charging module and the relevant module of handheld device, so charging rate is fast, power saving; Wherein, this correlation module is for realizing in the charge function necessary all the other modules except charging module, as display panel module, Keysheet module, USB module, ADC module.

Whether described detection module detects handheld device under off-mode have the RF of startup calibration module, if then send pilot signal; Described program load-on module is given tacit consent to automatically according to handheld device and is selected second operating system and this second booting operating system is gone into storer to start then; This second operating system management RF calibration module and be matched with other correlation module of RF calibration module.The beneficial effect of present technique feature is: open second operating system and can finish the RF calibration function, because second operating system is only loaded the RF calibration module and the relevant module of handheld device, so calibration speed is fast, power saving; Wherein, this correlation module is for realizing in the RF calibration function necessary all the other modules except the RF calibration module, as display panel module, Keysheet module, Flash memory module.

Whether described detection module detects handheld device inside under off-mode counter equals predetermined value, if then send pilot signal; This second operating system management has the quarter-bell module and is matched with other correlation module of quarter-bell module.The beneficial effect of present technique feature is: open second operating system and can finish alarm, because second operating system is only loaded the quarter-bell module and the relevant module of handheld device, so the quarter-bell response speed is fast, power saving; Wherein, this correlation module is for realizing in the alarm necessary all the other modules except charging module, as display panel module, Keysheet module, audio-frequency module, vibration module, counter module.

The technical solution adopted for the present invention to solve the technical problems is: the disposal route of Windows process system of hand-hold equipment, and it comprises:

Detection module detects handheld device and determines whether to send pilot signal according to testing result under off-mode;

The program load-on module receives and just begins after the pilot signal to start, and manual or handheld device is given tacit consent to automatically and selected a certain operating system according to the user;

Should go into storer and start this operating system by selecteed booting operating system.

The technical solution adopted for the present invention to solve the technical problems is: the application process of Windows process system of hand-hold equipment comprises:

A. under the open state in first operating system user quarter-bell is set, counter is set and creates a break in service thread;

B. judge switching on and shutting down: if the user keeps start, first operating system is controlled this break in service thread to realize alarm, and flow process finishes; If user's shutdown then enables to change the source module interruption of waking up, system enters sleep state and step is down carried out in preparation;

C. judge whether the counter in the handheld device equals predetermined value: if wake up and can change awake source module, and carry out step down; If not, system keeps sleep state;

D. whether detection module detects and can change the source module of waking up and be waken up: if then send pilot signal with the bootstrap loader load-on module, and carry out step down; If not, system keeps sleep state;

E. system bootstrap loading procedure load-on module, program load-on module select also to start second operating system;

F. the second os starting quarter-bell module is sent quarter-bell reminding the user by calling audio-frequency module, or, by display panel module and vibration module to remind the user.

Also comprise:

G. judge whether the user sends quarter-bell cancellation instruction:

If, then closing the quarter-bell module and remove the counter setting and the break in service thread creation, system continues to keep sleep state;

If not, then the quarter-bell module judges whether current quarter-bell multiplicity surpasses the total degree that the quarter-bell module is allowed: if not, then the quarter-bell module is reseted or the user resets the quarter-bell delay time automatically, and multiplicity adds 1, preserve above-mentioned data, enable wake source then and interrupt, system reenters sleep state, and flow process enters step c once more; If, closing the quarter-bell module and remove the counter setting and the break in service thread creation, system continues to keep sleep state.

Among the described step b: if user's shutdown is then interrupted changing awake source module, and power management module is set, system enters sleep state;

Among the described step e: system bootstrap loading procedure load-on module, the state that reads power management module is to change startup over to by the direct startup of hardware or by sleep state to detect this startup:

If hardware directly starts, then start first operating system, flow process finishes;

If change startup over to, then on DDR RAM, mark is set, and judges marking whether effectively of being provided with: if the quarter-bell mark then is set and starts second operating system by sleep state; If not, then flow process finishes.

The technical solution adopted for the present invention to solve the technical problems is: the application process of Windows process system of hand-hold equipment comprises:

A. under the off-mode, judge whether the RF calibration function button of handheld device is pressed: if then wake up and can change awake source module, and carry out step down; If not, system keeps sleep state;

B. whether detection module detects and can change the source module of waking up and be waken up: if then send pilot signal with the bootstrap loader load-on module, and carry out step down; If not, system keeps sleep state;

C. system bootstrap loading procedure load-on module and the radio-frequency (RF) calibration mark is set;

D. the program load-on module is selected and is started second operating system, and second operating system judges that radio-frequency (RF) calibration marks whether effectively: if invalid, then flow process finishes, and system enters sleep state; If effectively, then carry out step down;

E. second operating system loads radio protocol stack and calibration parameter file from system file, and the intiating radio protocol stack;

F. calling radio-frequency (RF) calibration uses to show the calibration interface by display panel module and to begin to carry out calibration;

G. whether the radio-frequency (RF) calibration applying detection is calibrated and is finished:

If then will upgrade calibration data and be saved to system file, and the radio-frequency (RF) calibration mark of removing in second operating system is closed restarting equipment again, the flow process end then;

If not, then whether keyboard scan withdraws from the RF calibration to detect: if the radio-frequency (RF) calibration mark of then removing in second operating system is closed restarting equipment more then, flow process finishes; If not, then flow process enters step g once more.

The technical solution adopted for the present invention to solve the technical problems is: the application process of Windows process system of hand-hold equipment comprises:

A. under the off-mode, judged whether that charging equipment inserts handheld device: if then wake up and can change awake source module, and carry out step down; If not, system keeps sleep state;

B. whether detection module detects and can change the source module of waking up and be waken up: if then send pilot signal with the bootstrap loader load-on module, and carry out step down; If not, system keeps sleep state;

C. system bootstrap loading procedure load-on module and shutdown charging mark is set;

D. the program load-on module is selected and is started second operating system, and second operating system judges that charging marks whether effectively: if invalid, then flow process finishes, and system enters sleep state; If effectively, then carry out step down;

E. second operating system is called charging module and is begun charging, and calls display panel module and begin to show charged state;

F. whether charging module detects to charge and finishes:

If, then to remove the charging mark in second operating system, and call the state that charging module shows that charging finishes, flow process finishes;

If not, then whether keyboard scan has the start key to press to detect: if, the start request promptly being arranged, the charging mark in System Cleaning second operating system then, flow process finishes; If not, then carry out step down;

G. detect whether unexpected this charging that stops is arranged: if, then remove the charging mark in second operating system, flow process finishes; If not, then flow process enters step f once more.

The invention has the beneficial effects as follows:

One, on handheld device, finish certain function action and need not to call all hardware and softwares, only need call some hardware and software can finish, this disposal system has two operating systems, one of them operating system has only been loaded necessary hardware drive program and the certain applications software of realizing certain function action, then the user realizes that this function action only need start second operating system and can finish, in second operating system, finish this function action, have made full use of memory source, toggle speed is fast, computing velocity is fast, the advantage of power saving;

They are two years old, the user can realize the clock alarming function and be to utilize the startup second operating system OS (ULDR) to respond under off-mode, starting the first operating system OS (Image) response with utilization compares, toggle speed soon, more power saving, regularly accurately and can when clock alarming, reset automatically the quarter-bell time, to remind the user once more, parameter is adjustable;

They are three years old, the startup second operating system OS (ULDR) realization charge function charges with the startup first operating system OS (Image) and compares under off-mode, and the initial voltage with requirement is low, charging rate fast, can be implemented in the advantage that shields the function of conversation under the state that charges that shuts down;

They are four years old, start the second operating system OS (ULDR) and realize that the RF orientation ratio starts the first operating system OS (Imag) calibration and changes more fast and automatically, and because have only Image Update can upgrade calibration data, so this mode is more safe and reliable and renewable.

Embodiment

A kind of Windows process system of hand-hold equipment, it comprises a data processor, a detection module and a program load-on module.

Data processor can use the data processor of several operating systems in a processor, wherein: all hardware driver and all application software of first operating system boot-loader handheld device on storer; The part hardware drive program and the certain applications software of second operating system boot-loader handheld device on storer.

Detection module is used for detecting handheld device and determines whether to send pilot signal according to testing result under off-mode.

The program load-on module just begins to start after receiving pilot signal, its according to the user manual or handheld device give tacit consent to automatically and select a certain operating system and this booting operating system is gone into storer to start this operating system then.

Wherein, in order to realize different functions, hardware drive program difference, application software difference that second booting operating system loads.

For example, in order to realize the alarm that shuts down: second operating system management has: quarter-bell module (application module of ALARM APP quarter-bell), RTC real-time counter module, Key key-press module, Flash memory module, Display display panel module, Audio audio-frequency module, Sleep module etc., power module.Those modules are in conjunction with realizing alarm, and those skilled in the art person need not creativeness can draw those modules for realizing the required module of alarm.

For example, in order to realize the charge function that shuts down: second operating system management has: charging module (CHARGE APP charge application module), Key key-press module, Flash memory module, Display display panel module, power module, USB module, ADC module, Sleep module etc.Those modules are in conjunction with realizing charge function, and those skilled in the art person need not creativeness can draw those modules for realizing the required module of charge function.

For example, in order to realize the RF calibration function: second operating system management has: radio-frequency (RF) calibration module (RFCALIBRATION APP radio-frequency (RF) calibration application module), Key key-press module, Flash memory module, Display display panel module, NLED module, USB module, Sleep module.Those modules are in conjunction with realizing the RF calibration function, and those skilled in the art person need not creativeness can draw those modules for realizing the required module of RF calibration function.

A kind of disposal route of Windows process system of hand-hold equipment, it comprises:

Detection module detects handheld device and determines whether to send pilot signal according to testing result under off-mode;

The program load-on module receives and just begins after the pilot signal to start, and manual or handheld device is given tacit consent to automatically and selected a certain operating system according to the user;

Should go into storer and start this operating system by selecteed booting operating system.

Below to realize that the shutdown alarm is the application process that example specifies the Windows process system of hand-hold equipment of present embodiment.

A. under the open state in the first operating system OS (IMAGE) user quarter-bell is set, RTC real-time counter module (RTC ALARM module) is set and creates a break in service thread;

B. judge switching on and shutting down: if the user keeps start, first operating system is controlled this break in service thread to realize alarm, and flow process finishes; If user's shutdown is then interrupted changing awake source module, and power management module (PMU module) is set, system enters sleep state (SLEEP state);

C. judge whether the counter (RTC ALARM) in the handheld device equals predetermined value: if wake up and can change awake source module (wake up resets, and is exactly from Deep Sleep/Sleep state wakeup process with CPU), and carry out step down; If not, system keeps sleep state;

D. whether detection module detects and can change the source module of waking up and be waken up: if then send pilot signal with bootstrap loader load-on module (IPL Initial Program Loader), and carry out step down; If not, system keeps sleep state;

E. system bootstrap loading procedure load-on module, the state that reads power management module (PMU module) is directly to be started (Hardware Reset) or changed over to startup (Low PowerState Exit Reset) by sleep state by hardware to detect this startup:

If hardware directly starts, then start the first operating system OS (IMAGE), flow process finishes;

If change startup (RTC ALARM) over to by sleep state, variable mark (it also is to write DDR RAM FLAG that ALARM RAM FLAG is set) then is set on DDR RAM, and marking whether effectively of judge being provided with: if, quarter-bell mark (Alarm Flag then is set, and write FLASH FLAG the mark that mark Alarm incident produces) and start the second operating system OS (ULDR); If not, then flow process finishes;

F. the second operating system OS (ULDR) is in start-up course, whether detect is quarter-bell mark (AlarmFlag): if, then second operating system is provided for user prompt and mutual timing application (ALARMAPP), start the quarter-bell module, send quarter-bell to remind the user by calling audio-frequency module, or, reminding the user, and carry out step down by display panel module and vibration module (VIBRATOR); If not, then flow process finishes;

G. judge whether the user sends quarter-bell cancellation instruction (prompting " whether cancelling quarter-bell " on the display screen):

If (selection "Yes") then closed the quarter-bell module and removed energy counter setting and break in service thread creation, system continues to keep sleep state (rewrite RTC and be provided with, operate the PMU module);

(select the not input of "No" or mobile phone) if not, then the quarter-bell module judges whether current quarter-bell multiplicity surpasses the total degree that the quarter-bell module is allowed: if not, then the quarter-bell module is reseted or the user resets the quarter-bell delay time automatically, and multiplicity adds 1, preserve above-mentioned data, enable wake source then and interrupt, system reenters sleep state, and flow process enters step c once more; If, closing the quarter-bell module and remove the counter setting and the break in service thread creation, system continues to keep sleep state, waits for being waken up next time.

Wherein, wake up and can change awake source module: CPU is waken up to RUN (FULL ON) state (this wakeup process resets wake up) from the Sleep state, and said process is finished by hardware; Wake back CPU up and begin to carry out the Software instruction, we can read the zone bit of this said process in software, to handle accordingly.

Wherein, CPU is recovered (waking up) from NO Active state (FULL OFF, Low Power State (Sleep/DeepSleep)) and all be called Reset to the process of Active state.Hardware Reset is exactly hardware-initiated process, and Low Power State Exit Reset is exactly from (Sleep/Deep Sleep) Wakeup process.

Below to realize that the shutdown charge function is the application process that example specifies the Windows process system of hand-hold equipment of present embodiment.

A. under the off-mode, ADC module (A/D converter controller) detects the AC mouth or whether the USB mouth has charging equipment to insert handheld device: if then wake up and can change awake source module (wake up), and carry out step down; If not, system keeps sleep state;

B. whether detection module detects and can change the source module of waking up and be waken up: if then send pilot signal with bootstrap loader load-on module (IPL), and carry out step down; If not, system keeps sleep state;

C. system bootstrap loading procedure load-on module and shutdown charging mark (Power Off ChargingFlag) is set;

D. the program load-on module is selected and is started second operating system, and second operating system judges whether charging mark (Charging Flag) is effective: if invalid, then flow process finishes, and system enters sleep state; If effectively, then carry out step down;

E. second operating system is called charging module (Charge App) and is begun charging, and calls display panel module and begin to show charged state;

F. whether charging module (Charge App) detects to charge and finishes:

If, then to remove the charging mark (Charging Flag) in second operating system, and call the state that charging module (Charge App) shows that charging finishes, flow process finishes;

If not, then whether keyboard scan has the start key to press to detect: if, the start request promptly being arranged, the charging mark (Charging Flag) in System Cleaning second operating system then, flow process finishes; If not, then carry out step down;

G. detect whether unexpected this charging that stops is arranged: if, then remove the charging mark (Charging Flag) in second operating system, flow process finishes; If not, then flow process enters step f once more.

Below to realize that shutdown RF function is the application process that example specifies the Windows process system of hand-hold equipment of present embodiment.

A. under the off-mode, judge whether the RF calibration function button of handheld device is pressed: if then wake up and can change awake source module, and carry out step down; If not, system keeps sleep state;

B. whether detection module detects and can change the source module of waking up and be waken up: if then send pilot signal with the bootstrap loader load-on module, and carry out step down; If not, system keeps sleep state;

C. system bootstrap loading procedure load-on module and radio-frequency (RF) calibration mark (RF Calibration Flag) is set;

D. the program load-on module is selected and started second operating system, and second operating system judges whether radio-frequency (RF) calibration mark (Calibration Flag) is effective: if invalid, then flow process finishes, and system enters sleep state; If effectively, then carry out step down;

E. second operating system loads radio protocol stack (Radio) and calibration parameter file (Calibration) from system file (IMAGE), and intiating radio protocol stack (Radio Stack);

F. call radio-frequency (RF) calibration and use (RF Calibration APP) to show the calibration interface by display panel module and to begin to carry out calibration;

G. whether radio-frequency (RF) calibration application (RF Calibration APP) detects to calibrate and finishes:

If then will upgrade calibration data (Update Calibration) and be saved to system file (IMGFS), and the radio-frequency (RF) calibration mark of removing in second operating system (RF Calibration Flag) is closed restarting equipment again, the flow process end then;

If not, then whether keyboard scan withdraws from RF calibration (showing " whether withdrawing from calibration " on the display screen) to detect: if (selection "Yes"), the radio-frequency (RF) calibration mark of then removing in second operating system (RF Calibration Flag) is closed restarting equipment more then, and flow process finishes; If not (if the user selects "No" or do not have any input), then flow process enters step g once more.

As mentioned above, only for preferred embodiment of the present invention, so can not limit scope of the invention process with this, i.e. the equivalence of doing according to the present patent application claim and description changes and modification, all should still belong in the scope that patent of the present invention contains.

Claims (10)

1. Windows process system of hand-hold equipment, it is characterized in that: it comprises:

One can use the data processor of several operating systems in a processor, wherein: all hardware driver and all application software of first operating system boot-loader handheld device on storer; The part hardware drive program and the certain applications software of second operating system boot-loader handheld device on storer;

One detection module that is used under off-mode, detecting handheld device and determines whether to send pilot signal according to testing result;

Once being used for receiving the program load-on module that begins to start after the pilot signal, its according to the user manual or handheld device give tacit consent to automatically and select a certain operating system and this booting operating system is gone into storer to start this operating system then.

2. Windows process system of hand-hold equipment according to claim 1 is characterized in that: whether described detection module detects the outside under off-mode have charging equipment to insert, if having then send pilot signal; Described program load-on module is given tacit consent to automatically according to handheld device and is selected second operating system and this second booting operating system is gone into storer to start then; This second operating system management charging module and be matched with other correlation module of charging module.

3. Windows process system of hand-hold equipment according to claim 1 is characterized in that: whether described detection module detects handheld device under off-mode have the RF of startup calibration module, if then send pilot signal; Described program load-on module is given tacit consent to automatically according to handheld device and is selected second operating system and this second booting operating system is gone into storer to start then; This second operating system management RF calibration module and be matched with other correlation module of RF calibration module.

4. Windows process system of hand-hold equipment according to claim 1 is characterized in that: whether described detection module detects handheld device inside under off-mode counter equals predetermined value, if then send pilot signal; This second operating system management has the quarter-bell module and is matched with other correlation module of quarter-bell module.

5. according to the disposal route of claim 1 or 2 or 3 or 4 described Windows process system of hand-hold equipment, it is characterized in that: it comprises:

Detection module detects handheld device and determines whether to send pilot signal according to testing result under off-mode;

The program load-on module receives and just begins after the pilot signal to start, and manual or handheld device is given tacit consent to automatically and selected a certain operating system according to the user;

Should go into storer and start this operating system by selecteed booting operating system.

6. according to the application process of claim 1 or 4 described Windows process system of hand-hold equipment, it is characterized in that: comprising:

A. under the open state in first operating system user quarter-bell is set, counter is set and creates a break in service thread;

B. judge switching on and shutting down: if the user keeps start, first operating system is controlled this break in service thread to realize alarm, and flow process finishes; If user's shutdown then enables to change the source module interruption of waking up, system enters sleep state and step is down carried out in preparation;

C. judge whether the counter in the handheld device equals predetermined value: if wake up and can change awake source module, and carry out step down; If not, system keeps sleep state;

D. whether detection module detects and can change the source module of waking up and be waken up: if then send pilot signal with the bootstrap loader load-on module, and carry out step down; If not, system keeps sleep state;

E. system bootstrap loading procedure load-on module, program load-on module select also to start second operating system;

F. the second os starting quarter-bell module is sent quarter-bell reminding the user by calling audio-frequency module, or, by display panel module and vibration module to remind the user.

7. the application process of Windows process system of hand-hold equipment according to claim 6 is characterized in that: also comprise:

G. judge whether the user sends quarter-bell cancellation instruction:

If, then closing the quarter-bell module and remove the counter setting and the break in service thread creation, system continues to keep sleep state;

If not, then the quarter-bell module judges whether current quarter-bell multiplicity surpasses the total degree that the quarter-bell module is allowed: if not, then the quarter-bell module is reseted or the user resets the quarter-bell delay time automatically, and multiplicity adds 1, preserve above-mentioned data, enable wake source then and interrupt, system reenters sleep state, and flow process enters step c once more; If, closing the quarter-bell module and remove the counter setting and the break in service thread creation, system continues to keep sleep state.

8. according to the application process of claim 6 or 7 described Windows process system of hand-hold equipment, it is characterized in that:

Among the described step b: if user's shutdown is then interrupted changing awake source module, and power management module is set, system enters sleep state;

Among the described step e: system bootstrap loading procedure load-on module, the state that reads power management module is to change startup over to by the direct startup of hardware or by sleep state to detect this startup:

If hardware directly starts, then start first operating system, flow process finishes;

If change startup over to, then on DDR RAM, mark is set, and judges marking whether effectively of being provided with: if the quarter-bell mark then is set and starts second operating system by sleep state; If not, then flow process finishes.

9. according to the application process of claim 1 or 3 described Windows process system of hand-hold equipment, it is characterized in that: comprising:

A. under the off-mode, judge whether the RF calibration function button of handheld device is pressed: if then wake up and can change awake source module, and carry out step down; If not, system keeps sleep state;

B. whether detection module detects and can change the source module of waking up and be waken up: if then send pilot signal with the bootstrap loader load-on module, and carry out step down; If not, system keeps sleep state;

C. system bootstrap loading procedure load-on module and the radio-frequency (RF) calibration mark is set;

D. the program load-on module is selected and is started second operating system, and second operating system judges that radio-frequency (RF) calibration marks whether effectively: if invalid, then flow process finishes, and system enters sleep state; If effectively, then carry out step down;

E. second operating system loads radio protocol stack and calibration parameter file from system file, and the intiating radio protocol stack;

F. calling radio-frequency (RF) calibration uses to show the calibration interface by display panel module and to begin to carry out calibration;

G. whether the radio-frequency (RF) calibration applying detection is calibrated and is finished:

If then will upgrade calibration data and be saved to system file, and the radio-frequency (RF) calibration mark of removing in second operating system is closed restarting equipment again, the flow process end then;

If not, then whether keyboard scan withdraws from the RF calibration to detect: if the radio-frequency (RF) calibration mark of then removing in second operating system is closed restarting equipment more then, flow process finishes; If not, then flow process enters step g once more.

10. the application process of Windows process system of hand-hold equipment according to claim 1 and 2 is characterized in that: comprising:

A. under the off-mode, judged whether that charging equipment inserts handheld device: if then wake up and can change awake source module, and carry out step down; If not, system keeps sleep state;

B. whether detection module detects and can change the source module of waking up and be waken up: if then send pilot signal with the bootstrap loader load-on module, and carry out step down; If not, system keeps sleep state;

C. system bootstrap loading procedure load-on module and shutdown charging mark is set;

D. the program load-on module is selected and is started second operating system, and second operating system judges that charging marks whether effectively: if invalid, then flow process finishes, and system enters sleep state; If effectively, then carry out step down;

E. second operating system is called charging module and is begun charging, and calls display panel module and begin to show charged state;

F. whether charging module detects to charge and finishes:

If, then to remove the charging mark in second operating system, and call the state that charging module shows that charging finishes, flow process finishes;

If not, then whether keyboard scan has the start key to press to detect: if, the start request promptly being arranged, the charging mark in System Cleaning second operating system then, flow process finishes; If not, then carry out step down;

G. detect whether unexpected this charging that stops is arranged: if, then remove the charging mark in second operating system, flow process finishes; If not, then flow process enters step f once more.