CN104349433A - System for supporting mobile terminal to realize dual model switching and mobile terminal using same - Google Patents

Abstract

The invention discloses a system for supporting a mobile terminal to realize dual mode switching. The system comprises an application processor and a baseband processor which are connected with each other, a first mode peripheral group connected with the application processor and a second mode peripheral group connected with the baseband processor; when the mobile terminal is in a first mode, the application processor operates, the baseband processor operates synergistically, the first mode peripheral group is powered on and the second mode peripheral group is powered off; when the mobile terminal is in a second mode, the application processor is dormant, the baseband processor operates independently, the first mode peripheral group is powered off, and the second mode peripheral group is powered on. By virtue of applying the system, a user can switch the first mode and the second mode; when the electric quantity of the mobile terminal is insufficient and basic functions such as communication need to be ensured, the user can switch to the second mode so as to realize the purpose of saving power; when needing to recover the first mode, the user switches to the first mode. The invention also discloses a mobile terminal comprising the system.

Description

For supporting that mobile terminal realizes the system of double mode switching and uses its mobile terminal

Technical field

The present invention relates to mobile device technical field, particularly relating to a kind of for supporting that mobile terminal realizes the system of double mode switching and uses its mobile terminal.

Background technology

Along with the development of mobile terminal technology, mobile terminal, except having basic radio communication function, can also realize intelligent use function by running corresponding software.

In prior art, the mobile terminal that can realize radio communication function and intelligent use function comprises application processor AP and baseband processor CP.AP is the core component realizing intelligent use function for mobile terminal, and baseband processor CP is responsible for the radio communication function supporting mobile terminal.Communicated with AP by serial ports, parallel port or dual port RAM between CP and AP.

Compared to the mobile terminal that only can realize radio communication function, the power consumption that can realize the mobile terminal of radio communication function and intelligent use function is large, battery consumption is fast, flying power is poor, this mainly due to AP, memory, display screen etc. support the power consumption of the basic element of character of intelligent use function comparatively large caused by, what thus make it possible to the mobile terminal realizing radio communication function and intelligent use function treats that the electricity time is too short.

But mobile terminal is as portable communications instrument, and the radio communication function such as to converse, send short messages is the primary demand of its demand fulfillment user, even if it can realize intelligent use function, also should not affect these primary demands of user.

In order to head it off, manufacturer takes a lot of method, and as increased battery electric quantity, Optimum Operation system etc., but these solutions all fundamentally solve the excessive problem of mobile terminal power consumption that intelligent use function causes.

Summary of the invention

In view of this, the present invention proposes a kind of for supporting that mobile terminal realizes the system of double mode switching and uses its mobile terminal, to solve the problem.

For achieving the above object, the technical scheme of the embodiment of the present invention is achieved in that

For supporting that mobile terminal realizes a system for double mode switching, comprising: the application processor be connected with each other and baseband processor and the first mode peripheral hardware group being connected described application processor, connect the second pattern peripheral hardware group of described baseband processor;

When mobile terminal is in first mode, described application processor runs, and described baseband processor is worked in coordination with described application processor and run, and described first mode peripheral hardware group powers on operation, described second pattern peripheral hardware group power-off;

When mobile terminal is in the second pattern, described application processor dormancy, described baseband processor independent operating, and the power-off of described first mode peripheral hardware group, described second pattern peripheral hardware group power on operation.

When described application processor perceives after the mode switching operation of selection second pattern when mobile terminal is in first mode, described application processor to described baseband processor send the second pattern switching command and to described baseband processor synchronous mobile terminal communication data and described synchronously complete after close described first mode peripheral hardware group and enter dormancy; When described baseband processor receives after described second pattern switching command when mobile terminal is in first mode, described baseband processor starts described second pattern peripheral hardware group;

After the power-on operation being moved terminal when mobile terminal is in the second pattern when described application processor wakes up, described application processor starts described first mode peripheral hardware group and mode switching operation according to the selection first mode perceived sends first mode switching command to described baseband processor; When described baseband processor receives after described first mode switching command when mobile terminal is in the second pattern, described baseband processor closes described second pattern peripheral hardware group and to the communication data of described application processor synchronous mobile terminal.

Preferably, this system comprises further: radio-frequency (RF) transceiver and the front end of being responsible for communication; Described radio-frequency (RF) transceiver and front end are connected with described baseband processor.

Preferably, described application processor and described baseband processor are integrated in Same Physical chip, or described application processor and described baseband processor are respectively phy chip independent of each other.

Preferably, this system comprises further: the Audio Controller be all connected with described application processor and described baseband processor and the shared call element group be connected with described Audio Controller;

When the first mode of triggering mobile terminals, described shared call element group is switched to the audio interface of described application processor by described Audio Controller;

When the second pattern of triggering mobile terminals, described shared call element group is switched to the audio interface of described baseband processor by described Audio Controller.

Preferably, described shared call element group comprises: receiver, microphone and loud speaker.

Preferably, this system comprises further: the Audio Controller be all connected with described baseband processor with described application processor, and the shared call element group be connected with described Audio Controller, first mode personal call element group, the second mode-specific are conversed element group;

When the first mode of triggering mobile terminals, described shared call element group is switched to the audio interface of described application processor by described Audio Controller;

When the second pattern of triggering mobile terminals, described shared call element group is switched to the audio interface of described baseband processor by described Audio Controller;

And described first mode personal call element group converses element group by described Audio Controller and described baseband processor Chang Lian by described Audio Controller and described application processor Chang Lian, described second mode-specific.

Preferably, described shared call element group comprises microphone and loud speaker;

Described first mode personal call element group comprises first mode receiver; Described second mode-specific call element group comprises the second pattern receiver.

Preferably, described second pattern receiver and described loud speaker are integrated in Same Physical device.

Preferably, described first mode peripheral hardware group comprises: application processor Power Management Unit, touch-screen, display screen module, first memory.

Preferably, described second pattern peripheral hardware group comprises: second memory, display screen and keyboard.

Preferably, when described application processor and described baseband processor are integrated in Same Physical chip, the periphery of described baseband processor is provided with displaying screen controller, keyboard controller, Memory Controller, to control described display screen, described keyboard and described second memory respectively.

Preferably, when described application processor and described baseband processor be respectively independently phy chip time, described baseband processor is provided with display screen interface, keyboard interface, memory interface, to control described display screen, described keyboard and described second memory respectively.

Preferably, the outer of described baseband processor is arranged with SIM card controller, to communicate with the SIM card of outside;

The periphery of described baseband processor is also provided with GPIO interface, uses for follow-up expansion.

Preferably, described baseband processor is also provided with SIM card interface, to communicate with the SIM card of outside.

The embodiment of the present invention also provides a kind of mobile terminal, comprises system as above.

Beneficial effect of the present invention is, user can carry out the exchange of first mode and the second pattern:

When mobile terminal electricity is not enough, when having basic functions such as needing guarantee communication, user can be switched to the second pattern, now, application processor will maintain the data syn-chronization of radio communication to baseband processor, then application processor and first mode peripheral hardware group enter deep sleep or closed condition, and baseband processor starts the second pattern peripheral hardware group and to power on operation, to realize the object of power saving;

When recovering first mode, user carries out handover operation, and application processor is waken up, baseband processor by the data syn-chronization of radio communication to application processor, then baseband processor closes its peripheral hardware, and application processor starts first mode peripheral hardware group, and mobile terminal recovers first mode.

Accompanying drawing explanation

What Fig. 1 a and Fig. 1 b all illustrated the embodiment of the present invention is respectively phy chip independent of each other for supporting that mobile terminal realizes the System Working Principle block diagram of double mode switching based on application processor and baseband processor;

Fig. 2 show the embodiment of the present invention based on application processor and baseband processor be integrated in Same Physical chip for supporting that mobile terminal realizes the System Working Principle block diagram of double mode switching;

The first mode that Fig. 3 shows the embodiment of the present invention is switched to the flow chart of the second pattern;

The second pattern that Fig. 4 shows the embodiment of the present invention is switched to the flow chart of first mode.

Embodiment

In order to make object of the present invention, technical scheme and advantage clearly understand, below by way of specific embodiment and see accompanying drawing, the present invention is described in detail.

The embodiment of the present invention provides a kind of for supporting that mobile terminal realizes the system of double mode switching, as shown in Fig. 1 a, Fig. 1 b and Fig. 2, comprise: the application processor AP be connected with each other and baseband processor CP and the first mode peripheral hardware group being connected application processor AP, connect the second pattern peripheral hardware group of baseband processor CP;

When mobile terminal is in first mode, application processor AP runs, to support the intelligent use function of mobile terminal, baseband processor CP synergistic application processor A P runs, to support the radio communication function of mobile terminal, and first mode peripheral hardware group powers on operation, the second pattern peripheral hardware group power-off;

When mobile terminal is in the second pattern, application processor AP dormancy, baseband processor CP independent operating, to support the radio communication function of mobile terminal, and the power-off of first mode peripheral hardware group, the second pattern peripheral hardware group power on operation.

In practical application, by this system, user can carry out the exchange of first mode and the second pattern:

When mobile terminal electricity is not enough, when having basic functions such as needing guarantee communication, user can be switched to the second pattern.Now, when application processor AP perceives after user selects the mode switching operation of the second pattern when mobile terminal is in first mode, application processor AP sends the second pattern switching command and to the communication data of baseband processor CP synchronous mobile terminal and close first mode peripheral hardware group and enter dormancy after synchronously completing to baseband processor CP; When baseband processor CP receives after the second pattern switching command when mobile terminal is in first mode, baseband processor CP starts the second pattern peripheral hardware group;

When user needs to return to first mode, user carries out handover operation, wakes application processor AP up.After application processor AP is waken up by the power-on operation of user when mobile terminal is in the second pattern, application processor AP starts first mode peripheral hardware group and selects the mode switching operation of first mode to send first mode switching command to baseband processor CP according to the user perceived; After baseband processor CP receives first mode switching command when mobile terminal is in the second pattern, baseband processor CP closes the second pattern peripheral hardware group and to the communication data of application processor AP synchronous mobile terminal.

Wherein, first mode peripheral hardware group comprises: application processor Power Management Unit 27, touch-screen 22, display screen module 21, first memory 26.

Second pattern peripheral hardware group comprises: second memory 14, display screen 11 and keyboard 12.

In practical application, first memory 26 is generally mass storage (RAM & ROM), and second memory 14 is generally small-capacity memory (RAM & ROM).

In practical application, this integrated system also comprises: radio-frequency (RF) transceiver and the front end 16 of being responsible for communication; Radio-frequency (RF) transceiver and front end 16 are connected with baseband processor CP.Baseband processor Power Management Unit 15 on baseband processor CP is responsible for powering to radio-frequency (RF) transceiver and front end 16.

Application processor AP is the core of the mobile terminal supporting intelligent use function, and display screen module 21, touch-screen 22, camera module 23, bluetooth & WiFi & FM24, GPS25, first memory 26, application processor Power Management Unit 27 etc. support that the parts of mobile terminal work are all connected on application processor AP.Baseband processor CP, as the slave unit of application processor AP, is communicated with application processor AP by serial ports, parallel port or dual port RAM.It is responsible for the radio communication with 2G, 3G or 4G network, and radio-frequency (RF) transceiver and front end 16 are all connected on baseband processor CP.When mobile terminal does not communicate with network, baseband processor CP is in sleep state, and power consumption is very little; When mobile terminal communicates with network, baseband processor CP is in wake-up states, and now, baseband processor CP is also the parts that in mobile terminal, power consumption is large.

When baseband processor CP works, need the second memory 14(RAM & ROM be connected on baseband processor CP simultaneously), the support of the parts such as baseband processor Power Management Unit 15.

In practical application, the call element under first mode and the call element under the second pattern are all controlled by Audio Controller 17.Such as:

As shown in Figure 1a, this system also comprises further: the Audio Controller 17 be all connected with application processor AP and baseband processor CP and the shared call element group be connected with Audio Controller 17;

When the first mode of triggering mobile terminals, share call element group is switched to application processor AP audio interface by Audio Controller 17; When the second pattern of triggering mobile terminals, share call element group is switched to described baseband processor CP audio interface by Audio Controller 17.

Share call element group to comprise: receiver 32, microphone 19 and loud speaker 31.

Or,

As shown in Figure 1 b, this system also comprises further: the Audio Controller 17 be all connected with application processor AP and baseband processor CP, and the shared call element group be connected with Audio Controller 17, first mode personal call element group, the second mode-specific are conversed element group;

When the first mode of triggering mobile terminals, share call element group is switched to application processor AP audio interface by Audio Controller 17; When the second pattern of triggering mobile terminals, share call element group is switched to baseband processor CP audio interface by Audio Controller 17; And first mode personal call element group converses element group by Audio Controller 17 and baseband processor CP Chang Lian by Audio Controller 17 and application processor AP Chang Lian, the second mode-specific.

Wherein, share call element group and comprise microphone 19 and loud speaker; First mode personal call element group comprises first mode receiver 28; Second mode-specific call element group comprises the second pattern receiver.

In addition, in order to the simplified design of low cost, the second pattern receiver and loud speaker can also be integrated in Same Physical device 18.

In practical application, application processor AP and baseband processor CP is integrated in Same Physical chip, and as shown in Figure 2, or application processor AP and baseband processor CP is respectively phy chip independent of each other, as shown in Figure 1.Under two states, the second pattern peripheral hardware group is different from the connected mode of baseband processor CP.

As illustrated in figs. ia and ib, when application processor AP and baseband processor CP is respectively phy chip independent of each other, under this kind of structure, baseband processor CP is provided with display screen interface, keyboard interface, memory interface, to control display screen 11, keyboard 12 and second memory 14 respectively.

In addition, baseband processor CP is also provided with SIM card interface, to communicate with the SIM card 13 of outside.

Like this, being switched under the second pattern, with baseband processor CP for core, and add display screen 11, the keyboard 12 of connected peripheral hardware.Add the parts such as the baseband processor Power Management Unit 15 of baseband processor CP periphery, second memory 14, radio-frequency (RF) transceiver and front end 16, and call element, the common system 10 forming the second pattern.

When mobile terminal is in the second pattern, the communication of the mobile terminal primary responsibility being core with baseband processor CP and network, and other common functions, as played phone, receive and dispatch note, search telephone directory, alarm clock or web page browsing etc.

As shown in Figure 2, application processor AP and baseband processor CP is integrated in Same Physical chip.Under this kind of structure, baseband processor CP do not have spare interface.Under this kind of state, in the periphery of baseband processor CP, be provided with displaying screen controller 31, keyboard controller 32, Memory Controller 34, to control display screen 11, keyboard 12 and second memory 14 respectively.Then, the interface of each controller is drawn out to the pin of whole phy chip.

In addition, the outer of baseband processor CP is arranged with SIM card controller 33, to communicate with the SIM card 13 of outside; The periphery of baseband processor CP is also provided with GPIO interface 35, uses for follow-up expansion.

Like this, the baseband processor CP being integrated in Same Physical chip also can add the ancillary equipment such as display screen 11, keyboard 12, does not embody in fig. 2 with the system 10(being built into the second complete pattern).

In practical application, the switching of first mode and the second pattern, by software simulating, can arrange " the second pattern " option in interface of mobile terminal.During use, press key with the head of a household, mobile terminal just ejects options menu, and user can select; Under the second mode, press key with the head of a household, whether mobile terminal prompting user " exits the second pattern ", switches back first mode to make user.

Fig. 3 is the software flow pattern that first mode is switched to the second pattern.As shown in Figure 3, to be switched to the process of the second pattern as follows for first mode:

Step 301: user selects to be switched to the second pattern;

Step 302: application processor AP shields other operations of user, enters step 303;

Step 303: application processor AP notifies that baseband processor CP enters offline mode, and baseband processor CP enters offline mode, then enters step 304;

Step 304: application processor AP switches voice-grade channel to baseband processor CP side, to make baseband processor CP be connected with audio control chip 17, then enters step 305;

Step 305: application processor AP sends switching command to baseband processor CP, and then baseband processor CP performs step 306 and step 311 simultaneously;

Step 306: baseband processor CP sends Data Update request to application processor AP, then enters step 307;

Step 307: application processor AP sends the data such as address book, note, time, alarm clock to baseband processor CP, enters step 308;

Step 308: baseband processor CP is new data more;

Step 309: judge whether baseband processor CP is updated successfully, if so, enter step 310, if not, return step 306;

Step 310: application processor AP closes peripheral hardware;

Step 311: application processor AP enters deep sleep state;

Step 312: the second pattern peripheral hardware group equipment such as baseband processor CP initialization display screen 11 and keyboard 12;

Step 313: baseband processor CP exits offline mode, finds network again;

So far, the second pattern has started.

Fig. 4 is the software flow pattern that the second pattern is switched to first mode.As shown in Figure 4, to be switched to the process of first mode as follows for the second pattern:

Step 401: mobile terminal is in the second pattern;

Step 402: press mobile terminal-opening key with the head of a household, to wake application processor AP up;

Step 403: the touch-screen of mobile terminal is lighted, display " whether exiting the second pattern " option, shields other operation simultaneously, and enters step 404;

Step 404: user selects, if select "Yes", enters step 405, if select "No", mobile terminal performs step 401;

Step 405: notice baseband processor CP enters offline mode;

Step 406: application processor AP sends switching command to baseband processor CP, and baseband processor CP performs step 407 and step 408 simultaneously;

Step 407: baseband processor CP shields user's operation under the second mode, and enters step 409;

Step 408: baseband processor CP closes the peripheral hardware such as display screen 11 and keyboard 12;

Step 409: application processor AP switches voice-grade channel and sends Data Update request to baseband processor CP, enters step 410;

Step 410: baseband processor CP sends the data such as address book, short breath, time, alarm clock to application processor AP;

Step 411: application processor AP more new data;

Step 412: baseband processor CP exits offline mode, looks for net again;

So far, systematic evaluation completes, and mobile terminal enters first mode.

The embodiment of the present invention also provides a kind of mobile terminal, comprises system as above.

During practical application, display screen 11 is arranged at the side relative with touch-screen 22 with keyboard 12.Like this, the two sides of mobile terminal is respectively the using forestland of first mode and the second pattern, easy to use.

In addition, battery of mobile terminal can be built-in, or remain and be designed to dismountable pattern.If be designed to detachable battery, the bonnet of mobile terminal needs the circuit interface retaining keyboard 12 and chip.In addition, the backside space of mobile terminal is very large, and camera can retain.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment made, equivalent replacement, improvement etc., all should be included within the scope of protection of the invention.

Claims (16)

1. one kind for supporting that mobile terminal realizes the system of double mode switching, it is characterized in that, this system comprises: the application processor be connected with each other and baseband processor and the first mode peripheral hardware group being connected described application processor, connect the second pattern peripheral hardware group of described baseband processor;

When mobile terminal is in first mode, described application processor runs, and described baseband processor is worked in coordination with described application processor and run, and described first mode peripheral hardware group powers on operation, described second pattern peripheral hardware group power-off;

When mobile terminal is in the second pattern, described application processor dormancy, described baseband processor independent operating, and the power-off of described first mode peripheral hardware group, described second pattern peripheral hardware group power on operation.

2. system according to claim 1, is characterized in that,

When described application processor perceives after the mode switching operation of selection second pattern when mobile terminal is in first mode, described application processor to described baseband processor send the second pattern switching command and to described baseband processor synchronous mobile terminal communication data and described synchronously complete after close described first mode peripheral hardware group and enter dormancy; When described baseband processor receives after described second pattern switching command when mobile terminal is in first mode, described baseband processor starts described second pattern peripheral hardware group;

After the power-on operation being moved terminal when mobile terminal is in the second pattern when described application processor wakes up, described application processor starts described first mode peripheral hardware group and mode switching operation according to the selection first mode perceived sends first mode switching command to described baseband processor; When described baseband processor receives after described first mode switching command when mobile terminal is in the second pattern, described baseband processor closes described second pattern peripheral hardware group and to the communication data of described application processor synchronous mobile terminal.

3. system according to claim 1, is characterized in that, comprises further: radio-frequency (RF) transceiver and front end; Described radio-frequency (RF) transceiver and front end are connected with described baseband processor.

4. system according to claim 1, is characterized in that, described application processor and described baseband processor are integrated in Same Physical chip, or described application processor and described baseband processor are respectively phy chip independent of each other.

5. system according to claim 1, is characterized in that, comprises further: the Audio Controller be all connected with described application processor and described baseband processor and the shared call element group be connected with described Audio Controller;

When the first mode of triggering mobile terminals, described shared call element group is switched to the audio interface of described application processor by described Audio Controller;

When the second pattern of triggering mobile terminals, described shared call element group is switched to the audio interface of described baseband processor by described Audio Controller.

6. system according to claim 5, is characterized in that, described shared call element group comprises: receiver, microphone and loud speaker.

7. system according to claim 1, it is characterized in that, comprise further: the Audio Controller be all connected with described baseband processor with described application processor, and the shared call element group be connected with described Audio Controller, first mode personal call element group, the second mode-specific are conversed element group;

When the first mode of triggering mobile terminals, described shared call element group is switched to the audio interface of described application processor by described Audio Controller;

When the second pattern of triggering mobile terminals, described shared call element group is switched to the audio interface of described baseband processor by described Audio Controller;

And described first mode personal call element group converses element group by described Audio Controller and described baseband processor Chang Lian by described Audio Controller and described application processor Chang Lian, described second mode-specific.

8. system according to claim 7, is characterized in that, described shared call element group comprises microphone and loud speaker;

Described first mode personal call element group comprises first mode receiver; Described second mode-specific call element group comprises the second pattern receiver.

9. system according to claim 8, is characterized in that, described second pattern receiver and described loud speaker are integrated in Same Physical device.

10. system according to claim 1, is characterized in that, described first mode peripheral hardware group comprises: application processor Power Management Unit, touch-screen, display screen module, first memory.

11. systems according to claim 4, is characterized in that, described second pattern peripheral hardware group comprises: second memory, display screen and keyboard.

12. systems according to claim 11, it is characterized in that, when described application processor and described baseband processor are integrated in Same Physical chip, the periphery of described baseband processor is provided with displaying screen controller, keyboard controller, Memory Controller, to control described display screen, described keyboard and described second memory respectively.

13. systems according to claim 11, it is characterized in that, when described application processor and described baseband processor be respectively independently phy chip time, described baseband processor is provided with display screen interface, keyboard interface, memory interface, to control described display screen, described keyboard and described second memory respectively.

14. systems according to claim 12, is characterized in that, the outer of described baseband processor is arranged with SIM card controller, to communicate with the SIM card of outside;

The periphery of described baseband processor is also provided with GPIO interface, uses for follow-up expansion.

15. systems according to claim 13, is characterized in that, described baseband processor is also provided with SIM card interface, to communicate with the SIM card of outside.

16. 1 kinds of mobile terminals, is characterized in that, comprise the system according to any one of claim 1 ~ 15.