CN102487542A - Wireless network device with power supply management mechanism and power supply management method thereof - Google Patents

Abstract

The invention relates to a wireless network device and a power supply management method, wherein the wireless network device comprises a wireless network module, an auxiliary control unit and a power supply controller. During the operation of the wireless network device, the wireless network module can output a network event signal to the auxiliary control unit, the auxiliary control unit can apply the network event signal to produce a control signal and further drive the power supply controller to provide a switching signal, and then the operation of the wireless network module can be switched from a first mode to a second mode. According to the wireless network device disclosed by the invention, not only is user operation procedure simplified, but also power loss can be saved, and the wireless network device is very practical.

Description

The radio network device of tool electric power management mechanism and its method for managing power supply

Technical field

The present invention relates to a kind of radio network device, particularly relate to a kind of radio network device and method for managing power supply of tool electric power management mechanism.

Background technology

Because the technology of getting online without being tethered to a cable is flourish, advanced at present portable electronic product almost all has the function of wireless Internet access, such as notebook computer (Notebook), personal digital assistant (Personal Digital Assistant; PDA) and mobile phone (Mobile Phone) etc.That is; This portable electronic product can see through a wireless network module of The built-in and connect world-wide web; The network running such as supply a user to carry out to do shopping on data search, E-mail receiver/send, the line, in other words, this user can not be subject to the region and follows one's bent online.

Generally speaking, the control of the switch of this wireless network module is based on the manual mode of operation, when will using, is just opened by this user, no the time, is just closed by this user.Yet, if forgetting, this user closes this wireless network module no the time, can significantly waste the battery electric power of this portable electronic product.

Perhaps; If usually intermittent this wireless network module that uses of this user, for example intermittently opening this wireless network module comes reception information, and intermittently closes this wireless network module and wait for that other people respond; So intermittently switch closes, and then can cause using very not convenient.

Furthermore, open this wireless network module this user, and through FTP (File Transfer Protocol; When FTP) carrying out transfer of data; If the transmission time is oversize; Usually this user other things that can distract attention, then this user often can't learn immediately that transfer of data finishes, so this wireless network module can continue to open and waste battery electric power after end of file transfer.

On the other hand, open this wireless network module this user, and through HTTP (Hyper Text Transfer Protocol; When HTTP) browsing a webpage; If because of on other things that distract attention; Maybe this webpage is switched to the background operating mode from the prospect operating mode; But forget and close this wireless network module that this webpage of then not browsed by this user will make this wireless network module continue to open and the waste battery electric power.

Because the defective that above-mentioned existing wireless network module exists; The inventor is based on being engaged in this type of product design manufacturing abundant for many years practical experience and professional knowledge; And cooperate the utilization of scientific principle, actively study innovation, in the hope of radio network device and its method for managing power supply of the tool electric power management mechanism of founding a kind of new structure; Can improve general existing wireless network module, make it have more practicality.Through constantly research, design, and, found out the present invention of true tool practical value finally through after studying sample and improvement repeatedly.

Summary of the invention

The objective of the invention is to; Overcome the shortcoming of the radio network device existence of above-mentioned existing convention; And a kind of radio network device of tool electric power management mechanism of new structure is provided; Technical problem to be solved is, avoids wireless network module to continue to open and the waste battery electric power, is very suitable for practicality.

Another object of the present invention is to, a kind of method for managing power supply that applies to above-mentioned radio network device is provided, technical problem to be solved is, avoids wireless network module to continue to open and the waste battery electric power, is very suitable for practicality.

The object of the invention and to solve its technical problem be that technical scheme below adopting realizes.According to radio network device of the present invention; Comprise one and be used for carrying out the get online without being tethered to a cable wireless network module, of running and be electrically connected on the Auxiliary Control Element of this wireless network module, and one be electrically connected on this wireless network module and this Auxiliary Control Element power-supply controller of electric.

The network event signal that this Auxiliary Control Element is exported according to this wireless network module produces a control signal and is fed into this power-supply controller of electric.This power-supply controller of electric is to be used for providing one to switch signal to this wireless network module according to this control signal, and the running that makes this wireless network module is from one first mode switch to, second pattern.

The object of the invention and solve its technical problem and can also adopt following technical measures to come further to realize.

Preferable, aforesaid radio network device, wherein this first pattern is carried out the operator scheme that this is got online without being tethered to a cable and operates for this wireless network module, and this second pattern stops a park mode of this wireless Internet access running for this wireless network module; After this Auxiliary Control Element produces the accurate position of tool one dormancy according to this network event signal this first control signal was fed into this power-supply controller of electric, this switching signal that this power-supply controller of electric provided was to be used for making the running of this wireless network module to switch to this park mode from this operator scheme.

Preferable, aforesaid radio network device, wherein this first pattern stops the park mode that this wireless Internet access operates for this wireless network module, and this second pattern is operator scheme that this wireless network module is carried out this running of getting online without being tethered to a cable; After this first control signal that this Auxiliary Control Element wakes accurate position up according to this network event signal generation tool one was fed into this power-supply controller of electric, this switching signal that this power-supply controller of electric provided was to be used for making the running of this wireless network module to switch to this operator scheme from this park mode.

Preferable; Aforesaid radio network device; Wherein this wireless network module will be sent to this Auxiliary Control Element corresponding to this network event signal of a network communication protocol; And this Auxiliary Control Element promptly produces this first control signal according to this network event signal and is fed into this power-supply controller of electric, thereby makes this power-supply controller of electric according to this first control signal this switching signal is provided, so with the running of this wireless network module from this first mode switch to this second pattern.

Preferable, aforesaid radio network device, wherein this network communication protocol is a FTP FTP or a HTTP HTTP.

Preferable; Aforesaid radio network device; Wherein after this wireless network module will be sent to this Auxiliary Control Element corresponding to this network event signal that finishes a network event; This Auxiliary Control Element promptly produces this first control signal according to this network event signal and is fed into this power-supply controller of electric, thereby makes this power-supply controller of electric according to this first control signal this switching signal is provided, and then the running of this wireless network module is switched to a park mode from an operator scheme.

Preferable; Aforesaid radio network device; Wherein after this wireless network module will be sent to this Auxiliary Control Element corresponding to this network event signal of a network event that still remains on a background operating mode through a scheduled time; This Auxiliary Control Element promptly produces this first control signal according to this network event signal and is fed into this power-supply controller of electric; Thereby make this power-supply controller of electric this switching signal is provided, and then the running of this wireless network module is switched to a park mode from an operator scheme according to this first control signal.

Preferable; Aforesaid radio network device; Wherein at this network event when this background operating mode switches to a prospect operating mode; This wireless network module is about to be sent to this Auxiliary Control Element corresponding to this network event signal of this network event that switches to this prospect operating mode; And this Auxiliary Control Element is fed into this power-supply controller of electric according to this this first control signal of network event signal generation, thereby makes this power-supply controller of electric according to this first control signal this switching signal is provided, and then the running of this wireless network module is switched to this operator scheme from this park mode.

Preferable, aforesaid radio network device, wherein this radio network device also comprises:

One register is electrically connected on this wireless network module, and this register is to be used for writing down the time and the time that operates on this second pattern that this wireless network module operates on this first pattern, produces a running timetable according to this;

One record analysis unit is electrically connected on this register and this Auxiliary Control Element, this record analysis element analysis should the running timetable producing an analysis result, and drive this Auxiliary Control Element according to this analysis result and produce this first control signal; And

One memory cell is electrically connected between this register and this record analysis unit, this running timetable that this this register of cell stores is produced, and should be sent to this record analysis unit by the running timetable.

Preferable, aforesaid radio network device, wherein this register be used for writing down the period that this wireless network module operates on this first pattern every day should the running timetable with the period that operates on this second pattern to produce.

Preferable, aforesaid radio network device, this running timetable that wherein this register produced comprise the period that every day operate on this first pattern and the period that operate on this second pattern of this wireless network module in a predetermined fate in the past.

Preferable; Aforesaid radio network device; Wherein this record analysis unit is according to one first overlapping period that every day operate on this first pattern of this this wireless network module of running timetable analysis in this predetermined fate in the past; And analyze one second overlapping period that every day operate on this second pattern of this wireless network module in this predetermined fate in the past, and produce this analysis result according to this first overlapping period and this second overlapping period; And this Auxiliary Control Element is according to this analysis result; This first control signal that in this first overlapping period of every day, produces tool one first accurate position is fed into this power-supply controller of electric; Make this this switching signal of power-supply controller of electric output get into this first pattern automatically with the running of controlling this wireless network module; The generation tool differs from this this first control signal of one second accurate of first accurate and is fed into this power-supply controller of electric in this second overlapping period of every day, makes this power-supply controller of electric export this switching signal and gets into this second pattern automatically with the running of controlling this wireless network module.

Preferable; Aforesaid radio network device; Wherein this record analysis unit is according to one first overlapping period that operates on this first pattern in the percentage fate of this this wireless network module of running timetable analysis in this predetermined fate in the past every day; And analyze this wireless network module operates on this second pattern every day in this percentage fate of this predetermined fate in the past one second overlapping period, and produce this analysis result according to this first overlapping period and this second overlapping period; And this Auxiliary Control Element is according to this analysis result; This first control signal that in this first overlapping period of every day, produces tool one first accurate position is fed into this power-supply controller of electric; Make this this switching signal of power-supply controller of electric output get into this first pattern automatically with the running of controlling this wireless network module; The generation tool differs from this this first control signal of one second accurate of first accurate and is fed into this power-supply controller of electric in this second overlapping period of every day, makes this power-supply controller of electric export this switching signal and gets into this second pattern automatically with the running of controlling this wireless network module.

Preferable; Aforesaid radio network device; Wherein this radio network device also comprises: a timing unit and user's setup unit; Be electrically connected on this timing unit and this Auxiliary Control Element, this user's setup unit is to be used for providing a timing setting signal to this Auxiliary Control Element according to a user's setting, makes this Auxiliary Control Element in the scheduled time slot corresponding to this timing setting signal; Produce this first control signal and be fed into this power-supply controller of electric, make this switching signal of this power-supply controller of electric output with the running of controlling this wireless network module from this first mode switch to this second pattern.

Preferable; Aforesaid radio network device; Wherein this power-supply controller of electric further is used for receiving by one of the direct input of a user second control signal; Make this power-supply controller of electric according to this switching signal of this first controlling signal and this second control signal output, in order to the running of controlling this wireless network module from this first mode switch to this second pattern.

The object of the invention and to solve its technical problem be that technical scheme below adopting realizes.Comprise according to method for managing power supply of the present invention: this network event signal that this Auxiliary Control Element is exported according to this wireless network module produces this control signal and is fed into this power-supply controller of electric; This power-supply controller of electric provides this switching signal to this wireless network module according to this control signal; And the running of this wireless network module according to this switching signal from this first mode switch to this second pattern.

The object of the invention and solve its technical problem and can also adopt following technical measures to come further to realize.

Preferable; Aforesaid method for managing power supply, wherein the running of this wireless network module comprises according to the step of this switching signal from one first mode switch to, second pattern: the running of this wireless network module switches to a park mode according to this switching signal from an operator scheme.

Preferable; Aforesaid method for managing power supply, wherein the running of this wireless network module comprises according to the step of this switching signal from one first mode switch to, second pattern: the running of this wireless network module switches to an operator scheme according to this switching signal from a park mode.

Preferable; Aforesaid method for managing power supply; Wherein also comprise following steps: the time that operates on this first pattern according to this wireless network module produces this control signal with the time that operates on this second pattern; Make this power-supply controller of electric that this switching signal is provided according to this, with the running of this wireless network module from this first mode switch to this second pattern.

Beneficial effect of the present invention comprises: can high impedance be exported the design that the impedance inverter circuit plate that converts Low ESR output to directly is electrically connected on this condenser type sound head through handle; The situation of noise arround the lead induction can be effectively avoided, and the tonequality of made microphone can be significantly improved.

Beneficial effect of the present invention comprises: by the collocation running of this Auxiliary Control Element and this power-supply controller of electric; This wireless network module can be according to user radio the automatically switch pattern of its running of operating conditions of surfing the Net; So not only can simplify user's operation sequence; Also can save power consumption, so can reach the object of the invention really.

In sum, the present invention has obvious improvement technically, and has tangible good effect, really is the new design of a novelty, progress, practicality.

Above-mentioned explanation only is the general introduction of technical scheme of the present invention; Understand technological means of the present invention in order can more to know; And can implement according to the content of specification, and for let of the present invention above-mentioned with other purposes, feature and advantage can be more obviously understandable, below special act preferred embodiment; And conjunction with figs., specify as follows.

Description of drawings

Fig. 1 is the first preferred embodiment function block schematic diagram of the radio network device of explanation tool electric power management mechanism of the present invention.

Fig. 2 is the second preferred embodiment function block schematic diagram of the radio network device of explanation tool electric power management mechanism of the present invention.

Fig. 3 is the flow chart of the method for managing power supply of the above-mentioned radio network device of an explanation.

Embodiment

Reach technological means and the effect that predetermined goal of the invention is taked for further setting forth the present invention; Below in conjunction with accompanying drawing and preferred embodiment; To radio network device and its embodiment of its method for managing power supply, structure, step, characteristic and the effect thereof of the tool electric power management mechanism that proposes according to the present invention, specify as after.

Before the present invention is described in detail, be noted that in following description similar elements is to represent with identical numbering.

Consult Fig. 1; The radio network device 10 of the tool electric power management mechanism of the present invention's first preferred embodiment comprises wireless network module 11, is electrically connected on the power-supply controller of electric 12 of wireless network module 11, and is electrically connected on the Auxiliary Control Element 13 of wireless network module 11 and power-supply controller of electric 12.Wireless network module 11 can be Wi-Fi (Wireless-Fidelity) wireless communication module, blue bud (Bluetooth) wireless communication module or home radio (Home Radio Frequency; Home RF) communication module.

The network event signal that Auxiliary Control Element 13 is exported according to wireless network module 11 produces the first control signal Sc1 and is fed into power-supply controller of electric 12; Make power-supply controller of electric 12 provide one to switch signal SW, and then the running of wireless network module 11 is switched to one second pattern MODE2 from one first pattern MODE1 to wireless network module 11 according to the first control signal Sc1.

In one embodiment; The first pattern MODE1 is the operator scheme that wireless network module 11 is carried out a wireless Internet access running; The second pattern MODE2 is wireless network module 11 stop a to get online without being tethered to a cable park mode of running; After Auxiliary Control Element 13 produces the accurate position of tool one dormancy according to this network event signal the first control signal Sc1 was fed into power-supply controller of electric 12, the switching signal SW that power-supply controller of electric 12 is provided was used for making the running of wireless network module 11 to switch to this park mode from this operator scheme.

In another embodiment; The first pattern MODE1 is this park mode; The second pattern MODE2 is this operator scheme; Auxiliary Control Element 13 produced tool and differs from the first control signal Sc1 that wakes accurate position up in one of the accurate position of this dormancy and be fed into power-supply controller of electric 12 according to this network event signal after, this switching signal SW that power-supply controller of electric 12 is provided was used for making the running of wireless network module 11 to switch to this operator scheme from this park mode.

In the running of radio network device 10; If wireless network module 11 will be sent to Auxiliary Control Element 13 corresponding to this network event signal of a network communication protocol; Then Auxiliary Control Element 13 promptly produces the first control signal Sc1 according to this network event signal and is fed into power-supply controller of electric 12; Thereby make power-supply controller of electric 12 switching signal SW is provided, and then the running of wireless network module 11 is switched to this second pattern MODE2 from the first pattern MODE1 according to the first control signal Sc1.This network communication protocol can be FTP or HTTP, but not as limit.

If wireless network module 11 will be sent to Auxiliary Control Element 13 corresponding to this network event signal that finishes a network event; Then Auxiliary Control Element 13 produces the first control signal Sc1 according to this network event signal and is fed into power-supply controller of electric 12; Thereby make power-supply controller of electric 12 switching signal SW is provided, and then the running of wireless network module 11 is switched to this park mode from this operator scheme according to the first control signal Sc1.

For example; After wireless network module 11 utilization FTP accomplish a data transmission event; Wireless network module 11 will be sent to Auxiliary Control Element 13 corresponding to this network event signal of accomplishing this data transmission event; And Auxiliary Control Element 13 promptly produces the first control signal Sc1 according to this network event signal and is fed into power-supply controller of electric 12, makes power-supply controller of electric 12 switch to this park mode with the running with wireless network module 11 from this operator scheme according to first control signal Sc1 output switching signal SW.

Perhaps; 11 utilization HTTP show that a webpage supplies to browse at wireless network module; And after in this scheduled time, not having the generation interaction running relevant with this webpage; Wireless network module 11 will not be sent to Auxiliary Control Element 13 corresponding to having interactive this network event signal that operates with this webpage; And Auxiliary Control Element 13 promptly produces the first control signal Sc1 according to this network event signal and is fed into power-supply controller of electric 12, makes power-supply controller of electric 12 switch to this park mode with the running with wireless network module 11 from this operator scheme according to first control signal Sc1 output switching signal SW.

On the other hand; In the running of radio network device 10; If wireless network module 11 will be sent to Auxiliary Control Element 13 corresponding to this network event signal that still remains on this network event of a background operating mode through a scheduled time; Then Auxiliary Control Element 13 produces the first control signal Sc1 according to this network event signal and is fed into power-supply controller of electric 12; Thereby make power-supply controller of electric 12 switching signal SW is provided, and then the running of wireless network module 11 is switched to this park mode from this operator scheme according to the first control signal Sc1.

Thereafter; If this network event switches to a prospect operating mode from this background operating mode; Then wireless network module 11 will be sent to Auxiliary Control Element 13 corresponding to this network event signal of this network event that switches to this prospect operating mode; And just producing the first control signal Sc1 according to this network event signal, Auxiliary Control Element 13 is fed into power-supply controller of electric 12; Thereby make power-supply controller of electric 12 switching signal SW is provided, and then the running of wireless network module 11 is switched to this operator scheme from this park mode according to the first control signal Sc1.

Consult Fig. 2; The radio network device 20 of the tool electric power management mechanism of the present invention's second preferred embodiment comprises wireless network module 11, power-supply controller of electric 12, Auxiliary Control Element 13, be electrically connected on the register 14 of wireless network module 11, be electrically connected on register 14 timing unit 15, be electrically connected on register 14 memory cell 16, be electrically connected on the record analysis unit 17 of memory cell 16 and Auxiliary Control Element 13, and be electrically connected on user's setup unit 18 of timing unit 15 and Auxiliary Control Element 13.

This register 14 is to be used for writing down the time and the time that operates on the second pattern MODE2 that wireless network module 11 operates on the first pattern MODE1, produces a running timetable according to this.Timing unit 15 is to be used to provide a time signal, make register 14 can write down time and the time that operates on the second pattern MODE2 that wireless network module 11 operates on the first pattern MODE1 according to this, and then generation should the running timetable.

This running timetable that memory cell 16 store recording devices 14 are produced, and should be sent to record analysis unit 17 by the running timetable.Record analysis unit 17 analyze should the running timetable producing an analysis result, and produce the first control signal Sc1 to drive Auxiliary Control Element 13 according to this analysis result.

In one embodiment, register 14 be used for writing down the period that wireless network module operates on the first pattern MODE1 11 every days should the running timetable with the period that operates on MODE2 second pattern to produce.Furthermore, this running timetable of being produced of register 14 comprises the period that every day operate on first pattern MODE1 and the period that operate on second pattern MODE2 of wireless network module 11 in a predetermined fate in the past.

Therefore; One first overlapping period that every day operate on first pattern MODE1 of wireless network module 11 in this predetermined fate in the past can be analyzed according to this running timetable in record analysis unit 17; And analyze one second overlapping period that every day operate on second pattern MODE2 of wireless network module 11 in this predetermined fate in the past, and produce this analysis result according to this first overlapping period and this second overlapping period.

Perhaps; One first overlapping period that operates on the first pattern MODE1 in the percentage fate of wireless network module 11 in this predetermined fate in the past every day can be analyzed according to this running timetable in record analysis unit 17; And analyze wireless network module 11 operates on the second pattern MODE2 every day in this percentage fate of this predetermined fate in the past one second overlapping period, and produce this analysis result according to this first overlapping period and this second overlapping period.

Thereafter; Auxiliary Control Element 13 can be according to this analysis result; The first control signal Sc1 that in this first overlapping period of every day, produces tool one first accurate position is fed into power-supply controller of electric 12; Make power-supply controller of electric 12 output switching signal SW get into the first pattern MODE1 automatically with the running of control wireless network module 11; The generation tool differs from this first control signal Sc1 of one second accurate of first accurate and is fed into power-supply controller of electric 12 in this second overlapping period of every day, makes power-supply controller of electric 12 export switching signal SW with the automatic second pattern MODE2 of entering of the running of control wireless network module 11.

User's setup unit 18 is to be used for according to a user's setting so that timing setting signal a to Auxiliary Control Element 13 to be provided; This time signal that Auxiliary Control Element 13 can be provided based on timing unit 15; In a scheduled time slot corresponding to this timing setting signal; Produce the first control signal Sc1 and be fed into power-supply controller of electric 12, make power-supply controller of electric 12 output switching signal SW switch to the second pattern MODE2 from the first pattern MODE1 with the running of control wireless network module 11.

As shown in Figure 2; Power-supply controller of electric 12 can further be used for receiving the one second control signal Sc2 that is directly imported by this user; Make power-supply controller of electric 12 according to second control signal Sc2 output switching signal SW, switch to the second pattern MODE2 from the first pattern MODE1 in order to the running of controlling wireless network module 11.

Consult Fig. 3, the preferred embodiment of the method for managing power supply of radio network device 10 of the present invention through flow process 300 explanations as follows.

Behind powered, wireless network equipment 10, this network event signal that Auxiliary Control Element 13 is exported according to wireless network module 11 produces the first control signal Sc1 and is fed into power-supply controller of electric 12 (step S310); Make power-supply controller of electric 12 provide switching signal SW to wireless network module 11 (step S320) according to the first control signal Sc1; Thereafter, the running of wireless network module 11 promptly switches to the second pattern MODE2 (step S330) according to switching signal SW from the first pattern MODE1.

In one embodiment; The running of the described wireless network module 11 of step S330 switches to the second pattern MODE2 according to switching signal SW from the first pattern MODE1, and the running that comprises wireless network module 11 switches to this park mode according to switching signal SW from this operator scheme.In another embodiment; The running of the described wireless network module 11 of step S330 switches to the second pattern MODE2 according to switching signal SW from the first pattern MODE1, and the running that comprises wireless network module 11 switches to this operator scheme according to switching signal SW from this park mode.

In addition; In the method for managing power supply of radio network device 10; Auxiliary Control Element 13 can produce the first control signal Sc1 according to wireless network module 11 time that operates on the first pattern MODE1 and the time that operates on the second pattern MODE2; Make power-supply controller of electric 12 that switching signal is provided according to this, the running of wireless network module 11 is switched to the second pattern MODE2 from the first pattern MODE1.

In sum; In the running of radio network device of the present invention; By the collocation of this Auxiliary Control Element and this power-supply controller of electric running, this wireless network module can so not only can be simplified user's operation sequence according to user radio the automatically switch pattern of its running of operating conditions of surfing the Net; Also can save power consumption, so can reach the object of the invention really.

The above; Only being preferred embodiment of the present invention, is not that the present invention is done any pro forma restriction, though the present invention discloses as above with preferred embodiment; Yet be not in order to limit the present invention; Any professional and technical personnel of being familiar with makes a little change or is modified to the equivalent embodiment of equivalent variations when the technology contents of above-mentioned announcement capable of using in not breaking away from technical scheme scope of the present invention, is the content that does not break away from technical scheme of the present invention in every case;, all still belong in the scope of technical scheme of the present invention any simple modification, equivalent variations and modification that above embodiment did according to technical spirit of the present invention.

Claims (19)

1. the radio network device of a tool electric power management mechanism; It is characterized in that this radio network device comprises:

One wireless network module is used for carrying out a wireless Internet access running;

One Auxiliary Control Element is electrically connected on this wireless network module, and the network event signal that this Auxiliary Control Element is exported according to this wireless network module produces one first control signal; And

One power-supply controller of electric; Be electrically connected on this wireless network module and this Auxiliary Control Element; This power-supply controller of electric is to be used for providing one to switch signal to this wireless network module according to this first control signal, and the running that makes this wireless network module is from one first mode switch to, second pattern.

2. radio network device as claimed in claim 1 is characterized in that: this first pattern is carried out the operator scheme that this wireless Internet access operates for this wireless network module, and this second pattern stops a park mode of this wireless Internet access running for this wireless network module; After this Auxiliary Control Element produces the accurate position of tool one dormancy according to this network event signal this first control signal was fed into this power-supply controller of electric, this switching signal that this power-supply controller of electric provided was to be used for making the running of this wireless network module to switch to this park mode from this operator scheme.

3. radio network device as claimed in claim 1 is characterized in that: this first pattern stops the park mode that this wireless Internet access operates for this wireless network module, and this second pattern is operator scheme that this wireless network module is carried out this running of getting online without being tethered to a cable; After this first control signal that this Auxiliary Control Element wakes accurate position up according to this network event signal generation tool one was fed into this power-supply controller of electric, this switching signal that this power-supply controller of electric provided was to be used for making the running of this wireless network module to switch to this operator scheme from this park mode.

4. radio network device as claimed in claim 1; It is characterized in that: this wireless network module will be sent to this Auxiliary Control Element corresponding to this network event signal of a network communication protocol; And this Auxiliary Control Element promptly is fed into this power-supply controller of electric according to this this first control signal of network event signal generation; Thereby make this power-supply controller of electric this switching signal is provided according to this first control signal, so with the running of this wireless network module from this first mode switch to this second pattern.

5. radio network device as claimed in claim 4 is characterized in that: this network communication protocol is a FTP FTP or a HTTP HTTP.

6. radio network device as claimed in claim 4; This wireless network module it is characterized in that: after will be sent to this Auxiliary Control Element corresponding to this network event signal that finishes a network event; This Auxiliary Control Element promptly produces this first control signal according to this network event signal and is fed into this power-supply controller of electric; Thereby make this power-supply controller of electric this switching signal is provided, and then the running of this wireless network module is switched to a park mode from an operator scheme according to this first control signal.

7. radio network device as claimed in claim 4; This wireless network module it is characterized in that: after will be sent to this Auxiliary Control Element corresponding to this network event signal of a network event that still remains on a background operating mode through a scheduled time; This Auxiliary Control Element promptly produces this first control signal according to this network event signal and is fed into this power-supply controller of electric; Thereby make this power-supply controller of electric this switching signal is provided, and then the running of this wireless network module is switched to a park mode from an operator scheme according to this first control signal.

8. radio network device as claimed in claim 7; It is characterized in that: at this network event when this background operating mode switches to a prospect operating mode; This wireless network module is about to be sent to this Auxiliary Control Element corresponding to this network event signal of this network event that switches to this prospect operating mode; And this Auxiliary Control Element is fed into this power-supply controller of electric according to this this first control signal of network event signal generation; Thereby make this power-supply controller of electric this switching signal is provided, and then the running of this wireless network module is switched to this operator scheme from this park mode according to this first control signal.

9. radio network device as claimed in claim 1 is characterized in that this radio network device also comprises:

One register is electrically connected on this wireless network module, and this register is to be used for writing down the time and the time that operates on this second pattern that this wireless network module operates on this first pattern, produces a running timetable according to this;

One record analysis unit is electrically connected on this register and this Auxiliary Control Element, this record analysis element analysis should the running timetable producing an analysis result, and drive this Auxiliary Control Element according to this analysis result and produce this first control signal; And

One memory cell is electrically connected between this register and this record analysis unit, this running timetable that this this register of cell stores is produced, and should be sent to this record analysis unit by the running timetable.

10. radio network device as claimed in claim 9 is characterized in that: this register be used for writing down the period that this wireless network module operates on this first pattern every day should the running timetable with the period that operates on this second pattern to produce.

11. radio network device as claimed in claim 9 is characterized in that: this running timetable that this register produced comprises the period that every day operate on this first pattern and the period that operate on this second pattern of this wireless network module in a predetermined fate in the past.

12. radio network device as claimed in claim 11; It is characterized in that: this record analysis unit is according to one first overlapping period that every day operate on this first pattern of this this wireless network module of running timetable analysis in this predetermined fate in the past; And analyze one second overlapping period that every day operate on this second pattern of this wireless network module in this predetermined fate in the past, and produce this analysis result according to this first overlapping period and this second overlapping period; And this Auxiliary Control Element is according to this analysis result; This first control signal that in this first overlapping period of every day, produces tool one first accurate position is fed into this power-supply controller of electric; Make this this switching signal of power-supply controller of electric output get into this first pattern automatically with the running of controlling this wireless network module; The generation tool differs from this this first control signal of one second accurate of first accurate and is fed into this power-supply controller of electric in this second overlapping period of every day, makes this power-supply controller of electric export this switching signal and gets into this second pattern automatically with the running of controlling this wireless network module.

13. radio network device as claimed in claim 11; It is characterized in that: this record analysis unit is according to one first overlapping period that operates on this first pattern in the percentage fate of this this wireless network module of running timetable analysis in this predetermined fate in the past every day; And analyze this wireless network module operates on this second pattern every day in this percentage fate of this predetermined fate in the past one second overlapping period, and produce this analysis result according to this first overlapping period and this second overlapping period; And this Auxiliary Control Element is according to this analysis result; This first control signal that in this first overlapping period of every day, produces tool one first accurate position is fed into this power-supply controller of electric; Make this this switching signal of power-supply controller of electric output get into this first pattern automatically with the running of controlling this wireless network module; The generation tool differs from this this first control signal of one second accurate of first accurate and is fed into this power-supply controller of electric in this second overlapping period of every day, makes this power-supply controller of electric export this switching signal and gets into this second pattern automatically with the running of controlling this wireless network module.

14. radio network device as claimed in claim 1; It is characterized in that this radio network device also comprises: a timing unit and user's setup unit; This user's setup unit is electrically connected on this timing unit and this Auxiliary Control Element; This user's setup unit is to be used for providing a timing setting signal to this Auxiliary Control Element according to a user's setting; Make this Auxiliary Control Element in a scheduled time slot, produce this first control signal and be fed into this power-supply controller of electric corresponding to this timing setting signal, make this switching signal of this power-supply controller of electric output with the running of controlling this wireless network module from this first mode switch to this second pattern.

15. radio network device as claimed in claim 1; It is characterized in that: this power-supply controller of electric further is used for receiving by one of the direct input of a user second control signal; Make this power-supply controller of electric according to this switching signal of this first controlling signal and this second control signal output, in order to the running of controlling this wireless network module from this first mode switch to this second pattern.

16. the method for managing power supply of a radio network device, this radio network device comprise a wireless network module and a power-supply controller of electric, it is characterized in that this method for managing power supply comprises following steps:

A network event signal of exporting according to this wireless network module produces a control signal and is fed into this power-supply controller of electric;

This power-supply controller of electric provides one to switch signal to this wireless network module according to this control signal; And

The running of this wireless network module according to this switching signal from one first mode switch to, second pattern.

17. the method for managing power supply of radio network device as claimed in claim 16 is characterized in that: the running of this wireless network module comprises according to the step of this switching signal from one first mode switch to, second pattern: the running of this wireless network module switches to a park mode according to this switching signal from an operator scheme.

18. the method for managing power supply of radio network device as claimed in claim 16 is characterized in that: the running of this wireless network module comprises according to the step of this switching signal from one first mode switch to, second pattern: the running of this wireless network module switches to an operator scheme according to this switching signal from a park mode.

19. the method for managing power supply of radio network device as claimed in claim 16; It is characterized in that also comprising following steps: the time that operates on this first pattern according to this wireless network module produces this control signal with the time that operates on this second pattern; Make this power-supply controller of electric that this switching signal is provided according to this, with the running of this wireless network module from this first mode switch to this second pattern.

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