CN103869927A - Information processing method and electronic device - Google Patents

Abstract

The invention provides an information processing method and an electronic device. The method is applied to a battery manager in a battery, and the battery comprises a battery body connected with the battery manager. The method includes the steps: acquiring a control instruction for controlling a working mode of the battery; controlling the battery manager to be in a first mode with first power consumption when the battery is in a transportation mode by executing the control instruction; controlling the battery manager to be in a second mode with second power consumption when the battery is in a power supply mode by executing the control instruction. The first power consumption is lower than the second power consumption, and the first mode can be a sleep mode, so that electric quantity consumption of the battery can be reduced. The method solves the technical problems that when the electronic device is in a non-working state, as a control chip in the battery continue to consume electric energy, the power consumption of the battery is increased, and the service time of the battery is shortened in the prior art.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to electronic technology field, relate in particular to a kind of information processing method and electronic equipment.

Background technology

Along with the continuous progress of electronic technology, electronic equipment also provides larger convenient and better user's experience to user, such as notebook computer can also be applied except can user friendlyly carrying under each scene, owing to there being the existence of internal battery in notebook computer, therefore in the situation that not connecting external power supply, notebook computer also can operate normally, and then user-friendly.

But present inventor finds that prior art exists following technical matters or defect in enforcement process of the present invention:

Notebook computer all can mate an internal battery, when this internal battery is not installed on notebook computer, owing to being provided with an independently battery control chip in this battery, the lasting electric discharge of the control chip to this battery that battery main body in this battery still can continue, therefore at battery during in off working state, described control chip still will continue to consume electric energy, therefore can cause battery power consumption to increase, and reduce the technical matters of service time of battery.

Summary of the invention

The invention provides a kind of information processing method and electronic equipment, in order to solve in prior art battery when the off working state, described control chip still will continue to consume electric energy, therefore can cause battery power consumption to increase, the technical matters that reduces service time of battery, its technical scheme is as follows:

A kind of information processing method, is applied to the battery manager in a battery, and described battery also comprises the battery main body being connected with described battery manager, and described method comprises:

Obtain the steering order for controlling described battery operated pattern;

When carrying out described steering order and make described battery in Transportation Model, controlling described battery manager is the first mode of the first power consumption in power consumption;

When carrying out described steering order and make described battery in powering mode, controlling described battery manager is the second pattern of the second power consumption in power consumption, and wherein, described the first power consumption is lower than described the second power consumption.

Optionally, described acquisition is used for the steering order of the mode of operation of controlling described battery, specifically comprises:

Detect described battery and whether be connected with an electronic equipment, and generate a testing result;

In the time that described testing result characterizes described battery and is not connected with described electronic equipment, generate for controlling first steering order of described mode of operation in described Transportation Model.

Optionally, described in the time that described testing result characterizes described battery and is not connected with described electronic equipment, generate for controlling first steering order of described mode of operation in described Transportation Model, specifically comprise:

In the time that described testing result characterizes described battery and is not connected with described electronic equipment, detect the very first time that described battery is not connected with described electronic equipment;

Judge whether described the first tie-time exceed the first Preset Time, and generate one first result of determination;

When described the first result of determination characterizes the described very first time while exceeding described the first Preset Time, generate described the first steering order.

Optionally, after described the first steering order of described generation, described method also comprises:

Carry out described the first steering order, the power supply output unit in described battery is closed, so that described battery stops external out-put supply.

Optionally, the described battery manager of described control is the first mode of the first power consumption in power consumption, is specially: control described battery manager in park mode.

Optionally, whether be connected with an electronic equipment at the described battery of described detection, and after generating a testing result, described method also comprises:

In the time that described testing result characterizes described battery and is connected with described electronic equipment, obtain described battery and described electronic equipment in connection status continued the second time;

Judge whether described the second time exceed the second Preset Time, and generate the second judged result;

When described the second judged result characterizes described the second time while exceeding described the second Preset Time, generate for controlling second steering order of described mode of operation in described powering mode.

Optionally, the described battery manager of described control is the second pattern of the second power consumption in power consumption, is specially: control described battery manager in mode of operation.

A kind of electronic equipment, described electronic equipment comprises:

Battery main body;

Battery manager, is connected with described battery main body, for controlling described battery main body electric discharge or stopping electric discharge;

Acquiring unit, for obtaining the steering order of the mode of operation for controlling described battery;

Control module, for when when carrying out described steering order and make described battery in Transportation Model, controlling described battery manager is the first mode of the first power consumption in power consumption, when when carrying out described steering order and make described battery in powering mode, controlling described battery manager is the second pattern of the second power consumption in power consumption, wherein, described the first power consumption is lower than described the second power consumption.

Optionally, described acquiring unit comprises:

Whether detection module, be connected with an electronic equipment for detection of described battery, and generate a testing result;

Instruction generation module, while connection with described electronic equipment, generates for controlling first steering order of described mode of operation in described Transportation Model for characterize described battery when described testing result.

Optionally, described instruction generation module specifically comprises:

Time detecting submodule, while connection with described electronic equipment, detects the very first time that described battery is not connected with described electronic equipment for characterize described battery in described testing result;

Decision sub-module, for judging whether described the first tie-time exceed the first Preset Time, and generates one first result of determination;

Instruction generates submodule, for characterizing the described very first time when described the first result of determination while exceeding described the first Preset Time, generates described the first steering order.

At least there is following technique effect or advantage in one or more embodiment provided by the invention:

By passing through to detect the connection status of battery and electronic equipment in the embodiment of the present invention, thereby control circuit in battery is switched to park mode from normal mode of operation, portions of electronics element under park mode in this battery manager will quit work, and the important electronic component of part also will work on, the power consumption of saving battery that so just can be to a great extent on control circuit, thereby reduce the waste of battery power, promoted service time and the cruising time of battery.

Accompanying drawing explanation

Figure 1 shows that the process flow diagram of a kind of information processing method in the embodiment of the present invention;

Figure 2 shows that the concrete structure schematic diagram of a kind of electronic equipment in the embodiment of the present invention.

Embodiment

The invention provides a kind of information processing method and electronic equipment, the method is applied the battery manager in a battery, this battery also comprises the battery main body with battery manager, the method comprises: obtain the steering order for controlling battery operated pattern, when when carrying out this steering order and make this battery in Transportation Model, controlling this battery manager is the first mode of the first power consumption in power consumption, in the time making battery in powering mode by execution steering order, controlling this battery manager is the second pattern of the second power consumption in power consumption, wherein the first power consumption is lower than the second power consumption.Wherein, first mode can be park mode, thereby can reduce the electric quantity consumption of battery, thereby solve in prior art battery in the time of off working state, described control chip still will continue to consume electric energy, therefore can cause battery power consumption to increase, and reduce the technical matters of service time of battery.

Below by accompanying drawing and specific embodiment, technical solution of the present invention is described in detail, be to be understood that, concrete technical characterictic in the embodiment of the present invention and embodiment is the detailed description to technical solution of the present invention just, and be not limited to the technical solution, in the situation that not conflicting, the concrete technical characterictic in the embodiment of the present invention and embodiment can combine mutually.

Be illustrated in figure 1 a kind of information processing method process flow diagram in the embodiment of the present invention, the method comprises:

Step 101, obtains the steering order for controlling battery operated pattern.

First, the method is applied in a battery manager, this battery manager is connected with a battery main body, this battery manager can be controlled battery main body electric discharge or stop electric discharge, certainly this battery manager is just controlled battery main body, and the battery manager instruction that also extraneous condition generation control battery main body is received in the meeting of correspondence.

Specifically, because the electric discharge of this battery main body will relate to service time and the cruising time of battery, therefore, before obtaining steering order, whether this battery manager will detect this battery and be connected with an electronic equipment, and generate the testing result of a correspondence, in the time that this testing result characterizes this battery and is not connected with an electronic equipment, this battery manager also will continue to detect the trip time of this battery and this electronic equipment, it is the very first time, after battery manager is getting this very first time, this battery manager will be transferred the first Preset Time that is pre-stored in this battery manager, then the very first time of obtaining and the first Preset Time are compared, exceed the first Preset Time when this very first time, this battery manager will generate the first corresponding steering order, this first steering order can be controlled this battery manager and enter the first mode of the first power consumption, wherein this first mode is park mode, under the state of park mode, portions of electronics element or process chip in this battery manager will be closed, thereby can reduce the power consumption of battery manager.

Such as, be illustrated with notebook computer, in notebook computer, be all provided with an internal battery, in this battery, be provided with the control circuit of controlling battery discharge and stopping electric discharge, specifically, include an on-off element in this circuit, this control circuit can be controlled this on-off element, this control circuit can be controlled this on-off element disconnection or connect, thereby just can control battery discharge or stop electric discharge.

Whether the control circuit in battery disconnects this battery of detection with notebook computer, in the time that user pulls out battery from notebook computer, described control circuit detects that this battery and notebook computer disconnect, now this control circuit will directly be controlled described on-off element disconnection, control circuit will continue to detect the trip time of battery and computer simultaneously, this control circuit is also provided with a Preset Time simultaneously, this Preset Time can be 1 minute, after reaching 1 minute this trip time, control circuit will generate a steering order, this steering order can be adjusted to this control circuit the first mode of operation.

After getting the first instruction, this battery manager will perform step 102.

Step 102, when when carrying out this steering order and make this battery in Transportation Model, controlling this battery manager is the first mode of the first power consumption in power consumption.

After this steering order of obtaining, battery manager in this battery will be adjusted to this battery manager according to this steering order the first mode of the first power consumption, wherein, this first mode can be specifically park mode, under this pattern, in this battery manager, part electronic component will directly be closed, thereby can reduce like this power consumption of battery itself, thereby promote the service time of battery.

Below by concrete application scenarios, technical solution of the present invention is described in detail.

Or describe with the battery in notebook computer, notebook computer of the prior art is all provided with internal battery, this internal battery can be in the time that notebook computer connect external adapter, this internal battery can provide power supply, but, in the time dispatching from the factory, this internal battery all can be pulled out, if in prior art, this internal battery is after extracting notebook computer, and the control circuit in this battery, still by running order, that is to say that this control circuit is by the electric energy of storing in lasting consuming cells, therefore, can reduce internal battery can service time.

Therefore, in embodiments of the present invention, in the time that this battery is extracted from notebook computer, the control circuit of this battery will detect whether extracting from notebook computer of this battery, in the time detecting that this battery is extracted from notebook computer, this control circuit disconnects the on-off element in control circuit, thereby this battery will stop external electric discharge, this battery will detect the time disconnecting with notebook computer simultaneously, and in this control circuit, also preserve a Preset Time, after exceeding Preset Time the trip time of battery and notebook computer, this control circuit is by switching working mode, specifically be exactly that this control circuit will be switched to park mode from normal mode of operation, portions of electronics element under park mode in this control circuit will quit work, and the important electronic component of part also will work on, the power consumption of saving battery that so just can be to a great extent on control circuit, thereby reduce the waste of battery power, service time and the cruising time of battery are promoted.

Certainly, after battery manager enters into first mode, after user is connected on the first electronic equipment by this battery, this first electronic equipment will send an activation instruction in the battery manager of battery, this battery manager is after receiving this activation instruction, this battery manager will stop first mode, and can directly enter into the second pattern, this battery manager will detect the tie-time of this battery and electronic equipment simultaneously, and obtain battery and electronic equipment in the second time that connection status continued, and judge whether this second time exceedes the second Preset Time, and the second judged result corresponding to generation, when this second judged result characterizes this second time while exceeding this second Preset Time, generate for controlling second steering order of mode of operation in powering mode, after generating the second instruction, this battery manager will be controlled this and point out the on-off element connection that manager is connected, thereby this battery main body is by direct out-put supply, so that this battery can be given this electronic equipment power supply.

Such as, in notebook computer, in battery access notebook computer time, in this battery, control circuit will be switched to mode of operation from park mode, under mode of operation, this control circuit also can directly not opened on-off circuit, that is to say that this battery will can directly not provide power supply, control circuit in this battery is connected this battery of the detection connection duration with notebook computer, when this connection duration exceedes the Preset Time being pre-stored in control circuit and is, the control circuit in this battery is by direct opening switch circuit, thereby this battery just can provide power supply to notebook computer.

By passing through to detect the connection status of battery and electronic equipment in the embodiment of the present invention, thereby control circuit in battery is switched to park mode from normal mode of operation, portions of electronics element under park mode in this control circuit will quit work, and the important electronic component of part also will work on, the power consumption of saving battery that so just can be to a great extent on control circuit, thereby reduce the waste of battery power, promoted service time and the cruising time of battery.

The method of corresponding above-mentioned a kind of information processing, also provides a kind of electronic equipment in the embodiment of the present invention, be illustrated in figure 2 this kind of concrete structure schematic diagram of electronic equipment in inventive embodiments, this electronic equipment comprises:

Battery main body 201;

Battery manager 202, is connected with described battery main body, for controlling described battery main body electric discharge or stopping electric discharge;

Acquiring unit 203, for obtaining the steering order of the mode of operation for controlling described battery;

Control module 204, for when when carrying out described steering order and make described battery in Transportation Model, controlling described battery manager is the first mode of the first power consumption in power consumption, when when carrying out described steering order and make described battery in powering mode, controlling described battery manager is the second pattern of the second power consumption in power consumption, wherein, described the first power consumption is lower than described the second power consumption.

Wherein, this acquiring unit 203 has comprised detection module and instruction generation module, and whether this detection module is connected with an electronic equipment for detection of described battery, and generates a testing result; Then, when this instruction generation module is not connected with described electronic equipment for characterizing described battery when described testing result, generate for controlling first steering order of described mode of operation in described Transportation Model.

Wherein, this instruction generation module also comprises that time detecting submodule, decision sub-module, instruction generate submodule, when this detection sub-module is not connected with described electronic equipment for characterizing described battery in described testing result, detect the very first time that described battery is not connected with described electronic equipment; Decision sub-module, for judging whether described the first tie-time exceed the first Preset Time, and generates one first result of determination; Instruction generates submodule, for characterizing the described very first time when described the first result of determination while exceeding described the first Preset Time, generates described the first steering order.

At least there is following technique effect or advantage in one or more embodiment provided by the invention:

By passing through to detect the connection status of battery and electronic equipment in the embodiment of the present invention, thereby control circuit in battery is switched to park mode from normal mode of operation, portions of electronics element under park mode in this battery manager will quit work, and the important electronic component of part also will work on, the power consumption of saving battery that so just can be to a great extent on control circuit, thereby reduce the waste of battery power, promoted service time and the cruising time of battery.

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt complete hardware implementation example, completely implement software example or the form in conjunction with the embodiment of software and hardware aspect.And the present invention can adopt the form at one or more upper computer programs of implementing of computer-usable storage medium (including but not limited to magnetic disk memory, CD-ROM, optical memory etc.) that wherein include computer usable program code.

The present invention is with reference to describing according to process flow diagram and/or the block scheme of the method for the embodiment of the present invention, equipment (system) and computer program.Should understand can be by the flow process in each flow process in computer program instructions realization flow figure and/or block scheme and/or square frame and process flow diagram and/or block scheme and/or the combination of square frame.Can provide these computer program instructions to the processor of multi-purpose computer, special purpose computer, Embedded Processor or other programmable data processing device to produce a machine, the instruction that makes to carry out by the processor of computing machine or other programmable data processing device produces the device for realizing the function of specifying at flow process of process flow diagram or multiple flow process and/or square frame of block scheme or multiple square frame.

These computer program instructions also can be stored in energy vectoring computer or the computer-readable memory of other programmable data processing device with ad hoc fashion work, the instruction that makes to be stored in this computer-readable memory produces the manufacture that comprises command device, and this command device is realized the function of specifying in flow process of process flow diagram or multiple flow process and/or square frame of block scheme or multiple square frame.

These computer program instructions also can be loaded in computing machine or other programmable data processing device, make to carry out sequence of operations step to produce computer implemented processing on computing machine or other programmable devices, thereby the instruction of carrying out is provided for realizing the step of the function of specifying in flow process of process flow diagram or multiple flow process and/or square frame of block scheme or multiple square frame on computing machine or other programmable devices.

Obviously, those skilled in the art can carry out various changes and modification and not depart from the spirit and scope of the present invention the present invention.Like this, if within of the present invention these are revised and modification belongs to the scope of the claims in the present invention and equivalent technologies thereof, the present invention is also intended to comprise these changes and modification interior.

Claims (10)

1. an information processing method, is applied to the battery manager in a battery, and described battery also comprises the battery main body being connected with described battery manager, it is characterized in that, described method comprises:

Obtain the steering order for controlling described battery operated pattern;

When carrying out described steering order and make described battery in Transportation Model, controlling described battery manager is the first mode of the first power consumption in power consumption;

When carrying out described steering order and make described battery in powering mode, controlling described battery manager is the second pattern of the second power consumption in power consumption, and wherein, described the first power consumption is lower than described the second power consumption.

2. the method for claim 1, is characterized in that, described acquisition is used for the steering order of the mode of operation of controlling described battery, specifically comprises:

Detect described battery and whether be connected with an electronic equipment, and generate a testing result;

In the time that described testing result characterizes described battery and is not connected with described electronic equipment, generate for controlling first steering order of described mode of operation in described Transportation Model.

3. method as claimed in claim 2, is characterized in that, described in the time that described testing result characterizes described battery and is not connected with described electronic equipment, generates for controlling first steering order of described mode of operation in described Transportation Model, specifically comprises:

In the time that described testing result characterizes described battery and is not connected with described electronic equipment, detect the very first time that described battery is not connected with described electronic equipment;

Judge whether described the first tie-time exceed the first Preset Time, and generate one first result of determination;

When described the first result of determination characterizes the described very first time while exceeding described the first Preset Time, generate described the first steering order.

4. method as claimed in claim 3, is characterized in that, after described the first steering order of described generation, described method also comprises:

Carry out described the first steering order, the power supply output unit in described battery is closed, so that described battery stops external out-put supply.

5. the method for claim 1, is characterized in that, the described battery manager of described control is the first mode of the first power consumption in power consumption, is specially: control described battery manager in park mode.

6. whether method as claimed in claim 2, is characterized in that, be connected, and after generating a testing result, described method also comprises at the described battery of described detection with an electronic equipment:

In the time that described testing result characterizes described battery and is connected with described electronic equipment, obtain described battery and described electronic equipment in connection status continued the second time;

Judge whether described the second time exceed the second Preset Time, and generate the second judged result;

When described the second judged result characterizes described the second time while exceeding described the second Preset Time, generate for controlling second steering order of described mode of operation in described powering mode.

7. method as claimed in claim 6, is characterized in that, the described battery manager of described control is the second pattern of the second power consumption in power consumption, is specially: control described battery manager in mode of operation.

8. an electronic equipment, is characterized in that, described electronic equipment comprises:

Battery main body;

Battery manager, is connected with described battery main body, for controlling described battery main body electric discharge or stopping electric discharge;

Acquiring unit, for obtaining the steering order of the mode of operation for controlling described battery;

Control module, for when when carrying out described steering order and make described battery in Transportation Model, controlling described battery manager is the first mode of the first power consumption in power consumption, when when carrying out described steering order and make described battery in powering mode, controlling described battery manager is the second pattern of the second power consumption in power consumption, wherein, described the first power consumption is lower than described the second power consumption.

9. electronic equipment as claimed in claim 8, is characterized in that, described acquiring unit comprises:

Whether detection module, be connected with an electronic equipment for detection of described battery, and generate a testing result;

Instruction generation module, while connection with described electronic equipment, generates for controlling first steering order of described mode of operation in described Transportation Model for characterize described battery when described testing result.

10. electronic equipment as claimed in claim 8, is characterized in that, described instruction generation module specifically comprises:

Time detecting submodule, while connection with described electronic equipment, detects the very first time that described battery is not connected with described electronic equipment for characterize described battery in described testing result;

Decision sub-module, for judging whether described the first tie-time exceed the first Preset Time, and generates one first result of determination;

Instruction generates submodule, for characterizing the described very first time when described the first result of determination while exceeding described the first Preset Time, generates described the first steering order.

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