WO2018077034A1

WO2018077034A1 - Terminal device having dual-mode switching function

Info

Publication number: WO2018077034A1
Application number: PCT/CN2017/105791
Authority: WO
Inventors: 唐冲
Original assignee: 捷开通讯(深圳)有限公司
Priority date: 2016-10-26
Filing date: 2017-10-12
Publication date: 2018-05-03
Also published as: CN106604369A; CN106604369B

Abstract

Disclosed is a terminal device having a dual-mode switching function. The terminal device comprises: a first processor, a second processor, and at least two functional circuits. The first processor has better performance than the second processor and the two processors are both connected to at least one functional circuit; the terminal device at least selectively operates in a first mode or a second mode; when the terminal device is operating in the first mode, the first processor operates and the second processor is turned off or operates in a low power consumption mode; when the terminal device is operating in the second mode, the first processor is turned off or operates in a low power consumption mode and the second processor operates. According to the method, the power consumption of a terminal may be reduced, thereby reducing the problem of lack of battery power which may affect important communications, and improving usability of a terminal device.

Description

Terminal device with dual mode switching function

【技术领域】[Technical Field]

The present invention relates to the field of mobile terminals, and in particular to a terminal device having a dual mode switching function.

【背景技术】【Background technique】

With the maturity and popularity of smart devices, smartphones are widely used. With the increasing functionality of mobile phones, their display size and performance are becoming more and more powerful, resulting in higher and higher power consumption of smart phones, and mobile phone battery technology has been in a bottleneck state. Most users often use high-performance smart phones. Faced with the problem of affecting important communications due to insufficient battery power. The current solution is to use mobile power or "standby" to solve the problem of low battery.

However, the use of mobile power or "standby" requires the user to carry two terminal devices at the same time, which is inconvenient to operate. At the same time, when using the "standby machine", it is necessary to replace the SIM card and other cumbersome operations, and important information such as phone book, call record, and text message cannot be synchronized in real time, affecting the use of the smart phone.

【发明内容】 [Summary of the Invention]

The technical problem to be solved by the present invention is to provide a terminal device with dual mode switching function, which can reduce the power consumption of the terminal, thereby reducing the problem of insufficient battery power and affecting important communication, and improving the usability of the terminal device.

In order to solve the above technical problem, a technical solution adopted by the present invention is: a terminal device having a dual mode switching function, comprising: a first processor, a second processor, at least two functional circuits; and the first processor Performance is stronger than the second processor, and both are connected to at least one of the functional circuits;

Wherein the terminal device is selectively operable in at least a first mode and a second mode, when the first mode is running, the first processor is running and the second processor is turned off or in a low power mode run;

When the second mode is running, the first processor is turned off or operates in a low power mode while the second processor is running;

The first processor and the second processor communicate by using an AT command or a shared data storage space to negotiate to enter the first mode or the second mode;

The terminal device selectively runs at least the first operating system and the second operating system, the first operating system runs on the first mode, and the second operating system runs on the second mode;

The function program corresponding to the second operating system is less than the function program corresponding to the first operating system.

A further technical solution adopted by the present invention is: a terminal device having a dual mode switching function, comprising: a first processor, a second processor, and at least two function circuits; wherein the performance of the first processor is stronger than the a second processor, and both are connected to at least one of the functional circuits; wherein the terminal device is selectively operable in at least a first mode and a second mode, and when operating in the first mode, the first The processor is running and the second processor is turned off or operating in a low power mode; when the second mode is running, the first processor is turned off or operating in a low power mode and the second processor is running.

Wherein, when the second mode is executed, at least one of the at least two functional circuits is turned off or operates in a low power consumption manner.

The function circuit includes a first type circuit and a second type circuit, and the first type circuit is a basic operation circuit of the terminal device, including a radio frequency device, a display device, an input device, and a storage device, and the second type circuit An auxiliary circuit other than the basic operating circuit; the first processor and the second processor are both connected to the first type of circuit, and the second processor is not connected to the second type of circuit; In the first mode, the first type circuit and the second type circuit all operate normally, and when the second mode is executed, the first type circuit runs into a low power mode, and the second type circuit shut down.

Wherein, the display device enters a low power mode operation means that only a partial screen black and white display.

The first processor and the second processor communicate via an AT command or a shared data storage space to negotiate to enter the first mode or the second mode.

The terminal device selectively runs at least the first operating system and the second operating system, the first operating system runs on the first mode, and the second operating system runs on the second mode; The function program corresponding to the second operating system is less than the function program corresponding to the first operating system.

The first mode and the second mode can be arbitrarily switched.

The timing of the switching between the first mode and the second mode includes: monitoring that the remaining power of the terminal device reaches a preset threshold, confirming that an operation of the switching mode needs to be performed; or receiving a switching instruction of the user switching mode .

A further technical solution adopted by the present invention is: a method for dual mode switching, the method includes: monitoring whether the remaining power of the terminal device reaches a preset threshold, and if the threshold is reached, prompting the user to switch the first mode to the second mode. Or operating the first mode, the terminal device includes a first processor, a second processor, and at least two function circuits; when operating in the first mode, the first processor operates and the second The processor is turned off or operating in a low power mode; when the second mode is running, the first processor is turned off or operating in a low power mode and the second processor is running.

The beneficial effects of the present invention are: when the battery capacity of the terminal device is insufficient, the high-performance first processor is turned off to run the second processor, and the terminal device operates the second mode on the second processor, which can reduce the power consumption of the terminal. In turn, the problem of insufficient communication power is affected, and the problem of important communication is affected, and the usability of the terminal device is improved.

【附图说明】 [Description of the Drawings]

1 is a schematic structural diagram of a first embodiment of a terminal device of the present invention;

2 is a schematic structural diagram of a second embodiment of a terminal device of the present invention;

3 is a schematic structural diagram of a third embodiment of a terminal device of the present invention;

4 is a flow chart of mode switching of the terminal device of the present invention.

【具体实施方式】【detailed description】

The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

The terminal device provided by the embodiment of the present invention includes an electronic product such as a smart phone or a tablet computer. In order to explain the technical solution of the embodiment of the present invention more conveniently and clearly, the smart phone is taken as an example.

Moreover, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, features defining "first" or "second" may include at least one of the features, either explicitly or implicitly. In the description of the present invention, the meaning of "a plurality" is at least two, such as two, three, etc., unless specifically defined otherwise.

1 is a schematic structural view of a first embodiment of a terminal device of the present invention. The terminal device includes: a first processor 10, a second processor 20, a function circuit 30, and a function circuit 40. The first processor 10 and the second processor 20 are both connected to at least one functional circuit. In this embodiment, the first processor 10 is coupled to the functional circuit 30 and the functional circuit 40, the second processor 20 is coupled to the functional circuit 30, and the functional circuit 30 is coupled to the functional circuit 40.

The first processor 10 is a high-order processor, and the second processor 20 is a low-order processor. The performance of the first processor 10 is stronger than that of the second processor 20, and the power consumption of the second processor 20 is lower than that of the first processor 10. The functional circuit 30 is a basic operational circuit of the terminal device, and the functional circuit 40 is an auxiliary circuit other than the basic operational circuit.

The terminal device is selectively operable in at least the first mode and the second mode. When operating in the first mode, the first processor 10 operates and the second processor 20 is turned off or operates in a low power mode, and the function circuit 30 The functional circuit 40 operates simultaneously; when the second mode is running, the first processor 10 is turned off or operates in a low power mode while the second processor 20 is operating, the functional circuit 30 is operational, and the functional circuit 40 is turned off. Further, the first mode is an intelligent mode. In the smart mode, the first processor 10 is in an operating state, and provides a rich data link and function module for the terminal, such as: wireless network, Bluetooth, etc., and telephone, photo, web browsing , instant messaging or third-party apps, etc. The second mode is a functional mode in which the first processor 10 is turned off or operating in a low power mode and the second processor 20 is operating. The terminal only provides a limited number of basic functional modules, such as: telephone and text messaging.

Through the above method, the power consumption of the terminal can be reduced, thereby reducing the problem that the battery power is insufficient and affecting important communication, and improving the usability of the terminal device.

2 is a schematic structural view of a second embodiment of a terminal device of the present invention. As shown in the figure, the first type circuit 300 is a basic operating circuit of the terminal device, and includes: a display device 301, an input device 302, a storage device 303, a radio frequency device 304, and the like. The second type of circuit 400 is an auxiliary circuit other than the basic operating circuit, and includes: a wifi device 401, a Bluetooth device 402, a third party software device 403, and the like.

The first processor 100 is coupled to the first type circuit 300 and the second type circuit 400, the second processor 200 is coupled to the first type circuit 300, and the function circuit 300 is coupled to the second type circuit 400. . When the first mode is run, the first type circuit 300 and the second type circuit 400 are all running normally, and the user can normally use all the function programs of the terminal; when the second mode is running, the first type circuit 300 enters the low power mode. The second type of circuit 400 is turned off.

Further, when the first processor 100 is running, the display device 301 is displayed in a normal mode of full screen. When the first processor 100 is turned off and the second processor 200 is running, the display device 301 is low in power consumption in a partial black and white display manner. Run, which reduces the power consumption of the terminal device and reduces the battery power consumption.

Further, the first processor 100 and the second processor 200 communicate through an AT command or a shared data storage space to negotiate to enter the first mode or the second mode.

Referring to FIG. 3, FIG. 3 is a schematic structural diagram of a third embodiment of the terminal device of the present invention. The terminal device selectively runs at least the first operating system 50 and the second operating system 60, wherein the first operating system 50 runs at the first In the mode, the second operating system 60 runs on the second mode, and the second operating system 60 corresponds to the function program corresponding to the first operating system 50. The first operating system 50 is a smart operating system. When the first mode is running under the first processor, the user can run a third-party APP program such as wireless network, Bluetooth, telephone, photo and web browsing, instant messaging, etc. on the smart operating system. . The second operating system 60 is a real-time operating system. When the second mode is running under the second processor, the user can only run basic phone and short message functions on the real-time operating system to reduce the consumption of the terminal battery.

4 is a flowchart of mode switching of the terminal device of the present invention. The first mode and the second mode involved in the foregoing embodiment may be arbitrarily switched. The specific steps are as follows:

S1: It is monitored whether the remaining power of the terminal device reaches a preset threshold. If yes, step S2 is performed, and if not, step S4 is directly performed.

S2: Whether it is necessary to perform the operation of the switching mode, if yes, execute step S3, if not, directly execute step S4.

S3: Switch the terminal operating mode.

S4: End.

The user can preset the threshold of the remaining power. When the remaining power is less than or equal to the threshold, the user is reminded to switch the first mode to the second mode to reduce the power consumption of the terminal device and save battery power consumption. For example, when the battery power of the terminal is less than 20%, the system automatically reminds the user whether to switch the first mode to the second mode. The user can also set, when the battery power is less than 20%, the system automatically switches from the first mode to the second mode. Similarly, in order to further extend the usage time of the terminal power, the user can use the mobile phone when the remaining power does not reach the threshold. A mode is switched to the second mode.

Through the above method, the terminal device runs the second mode on the second processor to reduce the power consumption of the terminal, thereby reducing the problem that the battery power is insufficient to affect the important communication, and improving the usability of the terminal device.

The above is only the embodiment of the present invention, and is not intended to limit the scope of the invention, and the equivalent structure or equivalent process transformations made by the description of the invention and the drawings are directly or indirectly applied to other related technologies. The fields are all included in the scope of patent protection of the present invention.

Claims

A terminal device with dual mode switching function, including:

a first processor, a second processor, and at least two functional circuits;

The first processor is more powerful than the second processor, and both are connected to at least one of the functional circuits;

Wherein the terminal device is selectively operable in at least a first mode and a second mode, when the first mode is running, the first processor is running and the second processor is turned off or in a low power mode run;

When the second mode is running, the first processor is turned off or operates in a low power mode while the second processor is running;

The first processor and the second processor communicate by using an AT command or a shared data storage space to negotiate to enter the first mode or the second mode;

The terminal device selectively runs at least the first operating system and the second operating system, the first operating system runs on the first mode, and the second operating system runs on the second mode;

The function program corresponding to the second operating system is less than the function program corresponding to the first operating system.
The terminal device according to claim 1, wherein at least one of said at least two functional circuits is turned off or operates in a low power consumption mode when said second mode is operated.
The terminal device according to claim 2, wherein the function circuit comprises a first type circuit and a second type circuit, wherein the first type circuit is a basic operation circuit of the terminal device, including a radio frequency device, a display device, and an input device. And a storage device, the second type of circuit being an auxiliary circuit other than the basic operating circuit;

The first processor and the second processor are both connected to the first type of circuit, and the second processor is not connected to the second type of circuit;

When the first mode is executed, the first type circuit and the second type circuit all operate normally, and when the second mode is executed, the first type circuits all enter a low power mode operation, where the The second type of circuit is turned off.
The terminal device according to claim 3, wherein the operation of the display device to enter a low power consumption mode means only a partial screen black and white display.
The terminal device according to claim 4, wherein the first mode and the second mode are arbitrarily switchable.
The terminal device according to claim 5, wherein the timing of switching between the first mode and the second mode comprises:

Monitoring that the remaining power of the terminal device reaches a preset threshold, confirming that an operation of the switching mode needs to be performed; or receiving a switching instruction of the user switching mode.
A terminal device with dual mode switching function, including:

a first processor, a second processor, and at least two functional circuits;

The first processor is more powerful than the second processor, and both are connected to at least one of the functional circuits;

Wherein the terminal device is selectively operable in at least a first mode and a second mode, when the first mode is running, the first processor is running and the second processor is turned off or in a low power mode run;

When the second mode is run, the first processor is turned off or operates in a low power mode while the second processor is running.
The terminal device according to claim 7, wherein at least one of said at least two functional circuits is turned off or operates in a low power consumption mode when said second mode is operated.
The terminal device according to claim 8, wherein the function circuit comprises a first type circuit and a second type circuit, wherein the first type circuit is a basic operation circuit of the terminal device, including a radio frequency device, a display device, and an input device. And a storage device, the second type of circuit being an auxiliary circuit other than the basic operating circuit;

The first processor and the second processor are both connected to the first type of circuit, and the second processor is not connected to the second type of circuit;

When the first mode is executed, the first type circuit and the second type circuit all operate normally, and when the second mode is executed, the first type circuits all enter a low power mode operation, where the The second type of circuit is turned off.
The terminal device according to claim 9, wherein the operation of the display device into the low power consumption mode refers to only a partial screen black and white display.
The terminal device according to claim 10, wherein said first processor and said second processor communicate via an AT command or a shared data storage space to negotiate entry into said first mode or said second mode .
The terminal device according to claim 10, wherein the terminal device selectively runs at least a first operating system and a second operating system, the first operating system runs on a first mode, and the second operating system runs In the second mode;

The function program corresponding to the second operating system is less than the function program corresponding to the first operating system.
The terminal device according to claim 12, wherein the first mode and the second mode are arbitrarily switchable.
The terminal device according to claim 13, wherein the timing of switching between the first mode and the second mode comprises:

Monitoring that the remaining power of the terminal device reaches a preset threshold, confirming that an operation of the switching mode needs to be performed; or receiving a switching instruction of the user switching mode.
A method for dual mode switching, wherein the method comprises:

Detecting whether the remaining power of the terminal device reaches a preset threshold, and if the threshold is reached, the user is prompted to switch the first mode to the second mode, otherwise the first mode is run, the terminal device includes a first processor, a second processor, and at least Two functional circuits;

When operating in the first mode, the first processor is running and the second processor is off or operating in a low power mode;

When the second mode is run, the first processor is turned off or operating in a low power mode and the second processor is running.
The method of dual mode switching according to claim 15, wherein at least one of said at least two functional circuits is turned off or operates in a low power consumption mode when said second mode is operated.
The method of dual mode switching according to claim 16, wherein the function circuit comprises a first type circuit and a second type circuit, wherein the first type circuit is a basic operation circuit of the terminal device, including a radio frequency device and a display device. And an input device and a storage device, the second type of circuit being an auxiliary circuit other than the basic operating circuit;

The first processor and the second processor are both connected to the first type of circuit, and the second processor is not connected to the second type of circuit;

When the first mode is executed, the first type circuit and the second type circuit all operate normally, and when the second mode is executed, the first type circuits all enter a low power mode operation, where the The second type of circuit is turned off.
The dual mode switching method of claim 17, wherein said first processor and said second processor communicate via an AT command or a shared data storage space to negotiate entry into said first mode or said The second mode.
The method of dual mode switching according to claim 17, wherein the terminal device selectively runs at least a first operating system and a second operating system, the first operating system running on the first mode, the second The operating system runs on the second mode;

The function program corresponding to the second operating system is less than the function program corresponding to the first operating system.
The method of dual mode switching according to claim 17, wherein the timing of switching between the first mode and the second mode comprises:

Monitoring that the remaining power of the terminal device reaches a preset threshold, confirming that an operation of the switching mode needs to be performed; or receiving a switching instruction of the user switching mode.