CN104615227A - Power supply control method and electronic equipment - Google Patents

Abstract

The invention provides a power supply control method and electronic equipment. The power supply control method comprises the following steps: obtaining parameter information of power supply modules included by N functional modules in M functional modules for combining the electronic equipment; controlling the power supply modules included by the N functional modules to supply power for the M functional modules according to a predetermined strategy on the basis of the parameter information of the power supply modules included by the N functional modules. The power supply module included by any functional module in the N functional modules can be used for supply power for the functional module when the functional module is separated from the electronic equipment, so that the power supply modules can be used for independently supplying power for the functional modules, the power supply structure of the electronic equipment can be adjusted by taking each power supply module as a unit when the functional modules of the electronic equipment change, the granularity of the adjustment is relatively small and the adjustment is more flexible.

Description

A kind of method for controlling power supply and electronic equipment

Technical field

The application relates to electronic information field, particularly relates to a kind of method for controlling power supply and electronic equipment.

Background technology

In existing electronic equipment, power supply or power supply adaptor all design according to the peak power of electronic equipment entirety, in this case, if electronic equipment is upgraded, existing supply module then can be caused cannot to meet the power consumption of electronic equipment, therefore, need to change the whole supply module of electronic equipment.

As can be seen here, the method for adjustment of the existing supply module to electronic equipment lacks dirigibility.

Summary of the invention

This application provides a kind of method for controlling power supply and electronic equipment, object is to solve because the power consumption of supply module foundation electronic equipment entirety designs, and the method for adjustment of the supply module to electronic equipment caused lacks the problem of dirigibility.

To achieve these goals, this application provides following technical scheme:

A kind of method for controlling power supply, described method is applied in electronic equipment, and described method comprises:

Obtain be combined into N number of functional module group in M functional module group of described electronic equipment the parameter information of each self-contained power supply module; Wherein, any one functional module group in described N number of functional module group, its power supply module comprised can when this functional module group be separated from described electronic equipment, and functional module group is powered for this reason; M and N is positive integer, and M >=N >=2;

Based on described N number of functional module group each self-contained power supply module parameter information, to control described N number of functional module group each self-contained power supply module according to predetermined policy be that a described M functional module group is powered.

Alternatively, if M=N, described based on described N number of functional module group each self-contained power supply module parameter information, to control described N number of functional module group each self-contained power supply module according to predetermined policy be that a described M functional module group is powered and comprised:

The described N number of functional module group of described parameter information instruction each self-contained power supply module all can support the power consumption of functional module group at its place time, described N number of functional module group uses its each self-contained power supply module to be power itself.

Alternatively, described based on described N number of functional module group each self-contained power supply module parameter information, to control described N number of functional module group each self-contained power supply module according to predetermined policy be that a described M functional module group is powered, also comprise:

The first power supply module that the first functional module group in the described N number of functional module group of described parameter information instruction comprises is not enough to the power consumption supporting described first functional module group, then the power supply module of other functional module group is used to be that described first functional module group is powered.

Alternatively, described parameter information comprises current value, and the first power supply module that the first functional module group in the described N number of functional module group of described parameter information instruction comprises is not enough to support the power consumption of described first functional module group, comprising:

The current value of the power supply module of described first functional module group is less than the first numerical value, and described first numerical value is not more than the load current value of described first functional module group.

Alternatively, the power supply module of described other functional module group of use is that described first functional module group is powered and comprised:

Use described N number of functional module group meet first condition in each self-contained power supply module power supply module be that described first functional module group is powered, described first condition comprises described power supply module current idle, or the power of described power supply module is greater than the use power of the functional module group at its place.

Alternatively, the powering and comprise for described first functional module group of described other functional module group of use:

By described N number of functional module group each self-contained power supply module sort according to the size of performance number;

According to performance number order from small to large, the general power of each power supply module in described common source assembly set successively each self-contained power supply module of described N number of functional module group added in common source assembly set, until can meet the power demand of described first functional module group.

Alternatively, if M>N, described parameter information comprises maximum power value;

Described based on described N number of functional module group each self-contained power supply module parameter information, to control described N number of functional module group each self-contained power supply module according to predetermined policy be that a described M functional module group is powered and comprised:

According to described N number of functional module group the maximum power value of each self-contained power supply module, be enough to the power supply module of support second functional module group, select the power supply module meeting first condition to be that described second functional module group is powered from maximum power value, described first condition comprises described power supply module current idle, or, the power of described power supply module is greater than the use power of the functional module group at its place, and described second functional module group is the functional module group not comprising power supply module.

Alternatively, if M>N, described parameter information comprises maximum power value;

Described based on described N number of functional module group each self-contained power supply module parameter information, to control described N number of functional module group each self-contained power supply module according to predetermined policy be that a described M functional module group is powered and comprised:

By described N number of functional module group each self-contained power supply module sort according to the size of performance number;

According to performance number order from small to large, successively each self-contained power supply module of described N number of functional module group is added in common source assembly set, until the general power of each power supply module in described common source assembly set can meet the power demand of the second functional module group, described second functional module group is the functional module group not comprising power supply module.

A kind of electronic equipment, comprising:

Be combined into M functional module group of described electronic equipment, each self-contained power supply module of the N number of functional module group in a described M functional module group; Wherein, any one functional module group in described N number of functional module group, its power supply module comprised can when this functional module group be separated from described electronic equipment, and functional module group is powered for this reason; M and N is positive integer, and M >=N >=2;

Processor module is also comprised in a described M functional module group;

Described processor module for obtain be combined into described electronic equipment M functional module group in N number of functional module group the parameter information of each self-contained power supply module, and based on described N number of functional module group each self-contained power supply module parameter information, to control each self-contained power supply module of described N number of functional module group according to predetermined policy be that a described M functional module group is powered.

Alternatively, if M=N, described processor module is used for based on the parameter information of each self-contained power supply module of described N number of functional module group institute, is that a described M functional module group is powered and comprised according to predetermined policy control described N number of functional module group each self-contained power supply module:

Described processor module specifically for, the described N number of functional module group of described parameter information instruction each self-contained power supply module all can support the power consumption of functional module group at its place time, described N number of functional module group uses its each self-contained power supply module to be power itself.

Alternatively, described processor module also for: the first power supply module that the first functional module group in the described N number of functional module group of described parameter information instruction comprises is not enough to the power consumption supporting described first functional module group, then use the power supply module of other functional module group to be that described first functional module group is powered.

Alternatively, described processor module for obtain be combined into described electronic equipment M functional module group in N number of functional module group the parameter information of each self-contained power supply module, comprising:

Described processor module specifically for, obtain be combined into N number of functional module group in M functional module group of described electronic equipment the current value of each self-contained power supply module;

Described processor module tool is used for, the first power supply module that the first functional module group in the described N number of functional module group of described parameter information instruction comprises is not enough to the power consumption supporting described first functional module group, then use powering for described first functional module group of other functional module group, comprising:

Described processor module specifically for, when the current value of the power supply module of described first functional module group is less than the first numerical value, then use powering for described first functional module group of other functional module group, described first numerical value is not more than the load current value of described first functional module group.

Alternatively, described processor module is that described first functional module group is powered and comprised for using the power supply module of other functional module group:

Described processor module specifically for, use described N number of functional module group meet first condition in each self-contained power supply module power supply module be that described first functional module group is powered, described first condition comprises described power supply module current idle, or the power of described power supply module is greater than the use power of the functional module group at its place.

Alternatively, described processor module is that described first functional module group is powered and comprised for using the power supply module of other functional module group:

Described processor module specifically for, by described N number of functional module group each self-contained power supply module sort according to the size of performance number;

According to performance number order from small to large, the general power of each power supply module in described common source assembly set successively each self-contained power supply module of described N number of functional module group added in common source assembly set, until can meet the power demand of described first functional module group.

Alternatively, if M>N, described processor module for obtain be combined into described electronic equipment M functional module group in N number of functional module group the parameter information of each self-contained power supply module comprise:

Described processor module specifically for, obtain be combined into N number of functional module group in M functional module group of described electronic equipment the maximum power value of each self-contained power supply module;

Described processor module is used for based on the parameter information of each self-contained power supply module of described N number of functional module group institute, is that a described M functional module group is powered and comprised according to predetermined policy control described N number of functional module group each self-contained power supply module:

Described processor module specifically for, according to described N number of functional module group the maximum power value of each self-contained power supply module, be enough to the power supply module of support second functional module group, select the power supply module meeting first condition to be that described second functional module group is powered from maximum power value, described first condition comprises described power supply module current idle, or, the power of described power supply module is greater than the use power of the functional module group at its place, and described second functional module group is the functional module group not comprising power supply module.

Alternatively, if M>N, described processor module for obtain be combined into described electronic equipment M functional module group in N number of functional module group the parameter information of each self-contained power supply module comprise:

Described processor module specifically for, obtain be combined into N number of functional module group in M functional module group of described electronic equipment the maximum power value of each self-contained power supply module;

Described processor module is used for based on the parameter information of each self-contained power supply module of described N number of functional module group institute, is that a described M functional module group is powered and comprised according to predetermined policy control described N number of functional module group each self-contained power supply module:

Described processor module specifically for, by described N number of functional module group each self-contained power supply module sort according to the size of performance number;

According to performance number order from small to large, successively each self-contained power supply module of described N number of functional module group is added in common source assembly set, until the general power of each power supply module in described common source assembly set can meet the power demand of the second functional module group, described second functional module group is the functional module group not comprising power supply module.

Method for controlling power supply described in the application and electronic equipment, obtain be combined into N number of functional module group in M functional module group of described electronic equipment the parameter information of each self-contained power supply module, based on described N number of functional module group the parameter information of each self-contained power supply module, controlling each self-contained power supply module of described N number of functional module group according to predetermined policy is that a described M functional module group is powered, because any one functional module group in N number of functional module group, its power supply module comprised can when this functional module group be separated from described electronic equipment, functional module group is powered for this reason, visible, power supply module can separately for the functional module group at its place be powered, so, when the functional module of electronic equipment changes, the electric power-feeding structure of electronic equipment can be adjusted in units of power supply module, the granularity of adjustment is less, therefore, adjust more flexible.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present application or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the application, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of electronic equipment;

The process flow diagram of Fig. 2 a kind of method for controlling power supply disclosed in the embodiment of the present application;

Fig. 3 is the process flow diagram of the embodiment of the present application another method for controlling power supply disclosed;

Fig. 4 is the process flow diagram of the embodiment of the present application another method for controlling power supply disclosed;

Fig. 5 is the process flow diagram of the embodiment of the present application another method for controlling power supply disclosed;

Fig. 6 is the process flow diagram of the embodiment of the present application another method for controlling power supply disclosed;

The process flow diagram of Fig. 7 a kind of method for controlling power supply disclosed in the embodiment of the present application;

The structural representation of Fig. 8 a kind of electronic equipment disclosed in the embodiment of the present application.

Embodiment

The embodiment of the present application discloses a kind of method for controlling power supply and electronic equipment, can apply on an electronic device, electronic equipment described in the embodiment of the present application as shown in Figure 1, combined by M functional module group, wherein, independently power supply module is included in N number of functional module group, the power supply module of any one functional module group, when all can be separated in this functional module group from then on electronic equipment, functional module group is powered for this reason, namely the power supply module in each functional module group, all can functional module group power separately for this reason, in the embodiment of the present application, M and N is positive integer, and M >=N >=2.

Below in conjunction with the accompanying drawing in the embodiment of the present application, be clearly and completely described the technical scheme in the embodiment of the present application, obviously, described embodiment is only some embodiments of the present application, instead of whole embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the application's protection.

A kind of method for controlling power supply disclosed in the embodiment of the present application, as described in Figure 2, comprises the following steps:

S201: obtain be combined into N number of functional module group in M functional module group of described electronic equipment the parameter information of each self-contained power supply module;

S202: based on described N number of functional module group each self-contained power supply module parameter information, to control described N number of functional module group each self-contained power supply module according to predetermined policy be that a described M functional module group is powered.

In the present embodiment, because electronic equipment is combined by each functional module group modular, and wherein comprise independently power supply module in all or some functional module group, therefore, when the need for electricity of some functional module group changes, can adjust in units of power supply module, the granularity of variation is less, so, adjust more flexible.

The embodiment of the present application another method for controlling power supply disclosed, in the present embodiment, includes the power supply module into its power supply, i.e. M=N in the functional module group of electronic equipment.As described in Figure 3, described in the present embodiment, method comprises the following steps:

S301: obtain be combined into each functional module group of electronic equipment the parameter information of each self-contained power supply module;

S302: when parameter information indicates the power supply module comprised in each functional module group all can support the power consumption of functional module group at its place, each functional module group uses its each self-contained power supply module to be power itself;

S303: when the first power supply module that parameter information indicates the first functional module group in N number of functional module group to comprise is not enough to the power consumption supporting described first functional module group, then what use other functional module group is that the first functional module group is powered.

In the prior art, supply module designs according to the need for electricity of electronic equipment entirety usually, after electronic equipment is upgraded, if original supply module is not enough to the power consumption supporting electronic equipment, then need the supply module more renewed, and this causes the waste of supply module undoubtedly.

And the method described in the present embodiment, because electronic equipment is combined by multiple functional module group, and each functional module group all have independently power supply module for power supply, so, after certain functional module group is upgraded, if its power supply module deficiency thinks that it provides required electricity, the power supply module in other functional module group then can be used to power for it, therefore, original power supply module in electronic equipment need not be changed, thus waste can be avoided, reduce costs.

The embodiment shown in Fig. 4 and Fig. 5 is used to be described in more detail the embodiment shown in Fig. 3 below.

Figure 4 shows that another method for controlling power supply, comprise the following steps:

S401: obtain be combined into N number of functional module group in M functional module group of described electronic equipment the current value of each self-contained power supply module;

S402: if described current value is less than the first numerical value, then determine that the first power supply module that the first functional module group comprises is not enough to support the power consumption of described first functional module group;

Wherein, the first numerical value can for the numerical value pre-set, because whether the first numerical value is enough to the foundation of the power consumption of support first functional module group as judgement first power supply module, so the first numerical value is not more than the load current value of the first functional module group.

S403: use N number of functional module group meet first condition in each self-contained power supply module power supply module be that described first functional module group is powered, described first condition comprises described power supply module current idle, or the power of described power supply module is greater than the use power of the functional module group at its place.

That is, current power supply capacity is used to have power supply module more than needed to power to the first functional module group.

In the present embodiment, the power supply module of other functional module group is used to be that the specific implementation that the first functional module group is powered can comprise: only to use the power supply module of other functional module group to be that the first functional module group is powered, or the power supply module using the power supply module of the first functional module group self and other functional module group is that the first functional module group is powered jointly.

Such as, in electronic equipment as shown in Figure 1, the power of the first functional module group is 50 watts, the available peak power of power supply module in first functional module group is 50 watts, the power of the 3rd functional module group is 100 watts, the available peak power of its power supply module is 150 watts, and the power of the 4th functional module group is 100 watts, and the available peak power of its power supply module is 150 watts.After first functional module group upgrading, power rises to 100 watts by 50 watts, in first functional module group, original power supply module is not enough to the need for electricity of support first functional module group, therefore, if the 3rd functional module group is not in working order (such as, module of taking pictures is not activated), then power supply module idle in the 3rd functional module group can be used to be that the first functional module group is powered; Or, power supply module in 4th functional module group is except powering for the 4th functional module group, power supply capacity also has more than needed, therefore, the power supply module in the first power supply module in the first functional module group and the 4th functional module group can be used to be that the first functional module group is powered jointly.

Except the method shown in Fig. 4, can also make otherwise to select power supply module to power to the first functional module group.The present embodiment another method for controlling power supply disclosed, as shown in Figure 5, comprises the following steps:

S501: obtain be combined into N number of functional module group in M functional module group of described electronic equipment the current value of each self-contained power supply module;

S502: if described current value is less than the first numerical value, then determine that the first power supply module that the first functional module group comprises is not enough to support the power consumption of described first functional module group;

Wherein, the first numerical value can for the numerical value pre-set, because whether the first numerical value is enough to the foundation of the power consumption of support first functional module group as judgement first power supply module, so the first numerical value is not more than the load current value of the first functional module group.

S503: by N number of functional module group each self-contained power supply module sort according to the size of performance number;

S504: according to performance number order from small to large, the general power of each power supply module in described common source assembly set successively each self-contained power supply module of described N number of functional module group added in common source assembly set, until can meet the power demand of described first functional module group.

Such as, in electronic equipment as shown in Figure 1, the power of the first functional module group is 50 watts, the available peak power of power supply module in first functional module group is 50 watts, the power of the 3rd functional module group is 100 watts, the available peak power of its power supply module is 120 watts, and the power of the 4th functional module group is 100 watts, and the available peak power of its power supply module is 150 watts.

After first functional module group upgrading, power rises to 100 watts by 50 watts, in first functional module group, original power supply module is not enough to the need for electricity of support first functional module group, therefore, the size of power supply module in all functions module according to its maximum power value is sorted, its order is from small to large: the first power supply module, the 3rd power supply module, the 4th power supply module, then select the first power supply module and second source assembly to be just enough to the power consumption of support first functional module group.

Method described in the present embodiment, the maximum power value according to power supply module selects the power supply module participating in power supply, can realize the maximization of the service efficiency distributing according to need and realize power supply module.

It should be noted that, in practical application except directly adopting the step described in S504, also can be the method shown in composition graphs 4, namely, successively by described N number of functional module group each self-contained power supply module add a kind of specific implementation in common source assembly set can be by: successively the power supply module meeting first condition in each for described N number of functional module group self-contained power supply module is added in common source assembly set, the object done like this is, preferentially ensures that power supply module is that respective functional module group is powered.

Except the situation of above M=N, also there is the situation of M>N, in the functional module group namely in electronic equipment, there is the functional module group not comprising independent current source assembly.

The present embodiment another power control method disclosed, as shown in Figure 6, comprises the following steps:

S601: obtain be combined into N number of functional module group in M functional module group of electronic equipment the maximum power value of each self-contained power supply module;

S602: according to described N number of functional module group the maximum power value of each self-contained power supply module, be enough to the power supply module of support second functional module group, select the power supply module meeting first condition to be that described second functional module group is powered from maximum power value.

Wherein, first condition comprises power supply module current idle, or the power of power supply module is greater than the use power of the functional module group at its place, and described second functional module group is the functional module group not comprising power supply module.

Such as, in electronic equipment as shown in Figure 1, the power of the first functional module group is 50 watts, the available peak power of power supply module in first functional module group is 50 watts, and the power of the second functional module group is 50 watts, and the power of the 3rd functional module group is 100 watts, the available peak power of its power supply module is 120 watts, the power of the 4th functional module group is 100 watts, and the available peak power of its power supply module is 150 watts, and does not comprise power supply module in the second functional module group.In situation, if the first functional module group is not activated, then the power supply module of the first functional module group can be used to power to the second functional module group, or, use the power supply module of the 4th functional module group to power to the second functional module group.

Method described in the present embodiment, can according to the maximum power value of each power supply module, and flexible combination power supply module is powered to functional module group, thus the utilization ratio that can realize power supply module maximizes.

The embodiment of the present application another method for controlling power supply disclosed, as shown in Figure 7, comprises the following steps:

S701: obtain be combined into N number of functional module group in M functional module group of electronic equipment the maximum power value of each self-contained power supply module;

S702: by described N number of functional module group each self-contained power supply module sort according to the size of performance number;

S703: according to performance number order from small to large, successively each self-contained power supply module of described N number of functional module group is added in common source assembly set, until the general power of each power supply module in described common source assembly set can meet the power demand of the second functional module group, described second functional module group is the functional module group not comprising power supply module.

Such as, in electronic equipment as shown in Figure 1, the power of the first functional module group is 50 watts, the available peak power of power supply module in first functional module group is 50 watts, the power of the second functional module group is 200 watts, and the power of the 3rd functional module group is 100 watts, and the available peak power of its power supply module is 120 watts, the power of the 4th functional module group is 100 watts, and the available peak power of its power supply module is 150 watts.

Power supply module is not comprised in second functional module group, therefore need to use the power supply module in other functional module group to be its power supply, the size of power supply module in all functions module according to its maximum power value is sorted, its order is from small to large: the first power supply module, the 3rd power supply module, the 4th power supply module, then select the first power supply module, the 3rd power supply module and the 4th power supply module to be just enough to the power consumption of support first functional module group.

Equally, in practical application except directly adopting the step described in S703, also can be the method shown in composition graphs 6, namely, successively by described N number of functional module group each self-contained power supply module add a kind of specific implementation in common source assembly set can be by: successively the power supply module meeting first condition in each for described N number of functional module group self-contained power supply module is added in common source assembly set, the object done like this is, preferentially ensures that power supply module is that respective functional module group is powered.

With said method embodiment accordingly, the embodiment of the present application also discloses a kind of electronic equipment, as shown in Figure 8, comprising:

Be combined into M functional module group 801 of described electronic equipment, each self-contained power supply module of the N number of functional module group in a described M functional module group; Wherein, any one functional module group in described N number of functional module group, its power supply module comprised can when this functional module group be separated from described electronic equipment, and functional module group is powered for this reason; M and N is positive integer, and M >=N >=2;

Processor module 8011 is also comprised in a described M functional module group;

Described processor module for obtain be combined into described electronic equipment M functional module group in N number of functional module group the parameter information of each self-contained power supply module, and based on described N number of functional module group each self-contained power supply module parameter information, to control each self-contained power supply module of described N number of functional module group according to predetermined policy be that a described M functional module group is powered.

Optionally, if M=N, processor module based on described N number of functional module group each self-contained power supply module parameter information, controlling specific implementation that each self-contained power supply module of described N number of functional module group institute powers for a described M functional module group according to predetermined policy can be by: when described parameter information indicates each self-contained power supply module of described N number of functional module group all can support the power consumption of functional module group at its place, described N number of functional module group uses its each self-contained power supply module to be power itself.

Further, processor module can also be used for: the first power supply module that the first functional module group in the described N number of functional module group of described parameter information instruction comprises is not enough to the power consumption supporting described first functional module group, then use the power supply module of other functional module group to be that described first functional module group is powered.

Again further, parameter information can be current value, the first power supply module that first functional module group of processor module in the described N number of functional module group of described parameter information instruction comprises is not enough to the power consumption supporting described first functional module group, the specific implementation of powering for described first functional module group of other functional module group is then used to be: when the current value of the power supply module of described first functional module group is less than the first numerical value, then use powering for described first functional module group of other functional module group, described first numerical value is not more than the load current value of described first functional module group.

Alternatively, the specific implementation that processor module uses the power supply module of other functional module group to power for described first functional module group can be by: use the power supply module meeting first condition in each self-contained power supply module of described N number of functional module group to be that described first functional module group is powered, described first condition comprises described power supply module current idle, or the power of described power supply module is greater than the use power of the functional module group at its place.

Or, by described N number of functional module group each self-contained power supply module sort according to the size of performance number;

According to performance number order from small to large, the general power of each power supply module in described common source assembly set successively each self-contained power supply module of described N number of functional module group added in common source assembly set, until can meet the power demand of described first functional module group.

Alternatively, if M>N, parameter information can be maximum power value, processor module based on described N number of functional module group the parameter information of each self-contained power supply module, according to predetermined policy control described N number of functional module group each self-contained power supply module specific implementation of powering for a described M functional module group can be by: according to the maximum power value of each self-contained power supply module of described N number of functional module group, be enough to the power supply module of support second functional module group, select the power supply module meeting first condition to be that described second functional module group is powered from maximum power value, described first condition comprises described power supply module current idle, or, the power of described power supply module is greater than the use power of the functional module group at its place, described second functional module group is the functional module group not comprising power supply module.

Or, by described N number of functional module group each self-contained power supply module sort according to the size of performance number;

According to performance number order from small to large, successively each self-contained power supply module of described N number of functional module group is added in common source assembly set, until the general power of each power supply module in described common source assembly set can meet the power demand of the second functional module group, described second functional module group is the functional module group not comprising power supply module.

In electronic equipment described in the present embodiment, processor module carries out the concrete flow process controlled to the power supply of electronic equipment and see said method embodiment, can repeat no more here.

Electronic equipment described in the present embodiment, is combined by multiple functional module group, and the power supply for electronic equipment can be allocated each power supply module by processor module and realize, thus realizes the flexible control to power supply.

If the function described in the embodiment of the present application method using the form of SFU software functional unit realize and as independently production marketing or use time, can be stored in a computing equipment read/write memory medium.Based on such understanding, the part of the part that the embodiment of the present application contributes to prior art or this technical scheme can embody with the form of software product, this software product is stored in a storage medium, comprising some instructions in order to make a computing equipment (can be personal computer, server, mobile computing device or the network equipment etc.) perform all or part of step of method described in each embodiment of the application.And aforesaid storage medium comprises: USB flash disk, portable hard drive, ROM (read-only memory) (ROM, Read-OnlyMemory), random access memory (RAM, Random Access Memory), magnetic disc or CD etc. various can be program code stored medium.

In this instructions, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiment, between each embodiment same or similar part mutually see.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the application.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from the spirit or scope of the application, can realize in other embodiments.Therefore, the application can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (16)

1. a method for controlling power supply, is characterized in that, described method is applied in electronic equipment, and described method comprises:

Obtain be combined into N number of functional module group in M functional module group of described electronic equipment the parameter information of each self-contained power supply module; Wherein, any one functional module group in described N number of functional module group, its power supply module comprised can when this functional module group be separated from described electronic equipment, and functional module group is powered for this reason; M and N is positive integer, and M >=N >=2;

Based on described N number of functional module group each self-contained power supply module parameter information, to control described N number of functional module group each self-contained power supply module according to predetermined policy be that a described M functional module group is powered.

2. method according to claim 1, it is characterized in that, if M=N, described based on described N number of functional module group each self-contained power supply module parameter information, to control described N number of functional module group each self-contained power supply module according to predetermined policy be that a described M functional module group is powered and comprised:

The described N number of functional module group of described parameter information instruction each self-contained power supply module all can support the power consumption of functional module group at its place time, described N number of functional module group uses its each self-contained power supply module to be power itself.

3. method according to claim 2, it is characterized in that, described based on described N number of functional module group each self-contained power supply module parameter information, to control described N number of functional module group each self-contained power supply module according to predetermined policy be that a described M functional module group is powered, also comprise:

The first power supply module that the first functional module group in the described N number of functional module group of described parameter information instruction comprises is not enough to the power consumption supporting described first functional module group, then the power supply module of other functional module group is used to be that described first functional module group is powered.

4. method according to claim 3, it is characterized in that, described parameter information comprises current value, and the first power supply module that the first functional module group in the described N number of functional module group of described parameter information instruction comprises is not enough to support the power consumption of described first functional module group, comprising:

The current value of the power supply module of described first functional module group is less than the first numerical value, and described first numerical value is not more than the load current value of described first functional module group.

5. method according to claim 3, is characterized in that, the power supply module of described other functional module group of use is that described first functional module group is powered and comprised:

Use described N number of functional module group meet first condition in each self-contained power supply module power supply module be that described first functional module group is powered, described first condition comprises described power supply module current idle, or the power of described power supply module is greater than the use power of the functional module group at its place.

6. method according to claim 3, is characterized in that, comprising for described first functional module group is powered of described other functional module group of use:

By described N number of functional module group each self-contained power supply module sort according to the size of performance number;

According to performance number order from small to large, the general power of each power supply module in described common source assembly set successively each self-contained power supply module of described N number of functional module group added in common source assembly set, until can meet the power demand of described first functional module group.

7. method according to claim 1, is characterized in that, if M>N, described parameter information comprises maximum power value;

Described based on described N number of functional module group each self-contained power supply module parameter information, to control described N number of functional module group each self-contained power supply module according to predetermined policy be that a described M functional module group is powered and comprised:

According to described N number of functional module group the maximum power value of each self-contained power supply module, be enough to the power supply module of support second functional module group, select the power supply module meeting first condition to be that described second functional module group is powered from maximum power value, described first condition comprises described power supply module current idle, or, the power of described power supply module is greater than the use power of the functional module group at its place, and described second functional module group is the functional module group not comprising power supply module.

8. method according to claim 1, is characterized in that, if M>N, described parameter information comprises maximum power value;

Described based on described N number of functional module group each self-contained power supply module parameter information, to control described N number of functional module group each self-contained power supply module according to predetermined policy be that a described M functional module group is powered and comprised:

By described N number of functional module group each self-contained power supply module sort according to the size of performance number;

According to performance number order from small to large, successively each self-contained power supply module of described N number of functional module group is added in common source assembly set, until the general power of each power supply module in described common source assembly set can meet the power demand of the second functional module group, described second functional module group is the functional module group not comprising power supply module.

9. an electronic equipment, is characterized in that, comprising:

Be combined into M functional module group of described electronic equipment, each self-contained power supply module of the N number of functional module group in a described M functional module group; Wherein, any one functional module group in described N number of functional module group, its power supply module comprised can when this functional module group be separated from described electronic equipment, and functional module group is powered for this reason; M and N is positive integer, and M >=N >=2;

Processor module is also comprised in a described M functional module group;

Described processor module for obtain be combined into described electronic equipment M functional module group in N number of functional module group the parameter information of each self-contained power supply module, and based on described N number of functional module group each self-contained power supply module parameter information, to control each self-contained power supply module of described N number of functional module group according to predetermined policy be that a described M functional module group is powered.

10. electronic equipment according to claim 9, it is characterized in that, if M=N, described processor module is used for based on the parameter information of each self-contained power supply module of described N number of functional module group institute, is that a described M functional module group is powered and comprised according to predetermined policy control described N number of functional module group each self-contained power supply module:

Described processor module specifically for, the described N number of functional module group of described parameter information instruction each self-contained power supply module all can support the power consumption of functional module group at its place time, described N number of functional module group uses its each self-contained power supply module to be power itself.

11. electronic equipments according to claim 10, it is characterized in that, described processor module also for: the first power supply module that the first functional module group in the described N number of functional module group of described parameter information instruction comprises is not enough to the power consumption supporting described first functional module group, then use the power supply module of other functional module group to be that described first functional module group is powered.

12. electronic equipments according to claim 11, is characterized in that, described processor module for obtain be combined into described electronic equipment M functional module group in N number of functional module group the parameter information of each self-contained power supply module, comprising:

Described processor module specifically for, obtain be combined into N number of functional module group in M functional module group of described electronic equipment the current value of each self-contained power supply module;

Described processor module tool is used for, the first power supply module that the first functional module group in the described N number of functional module group of described parameter information instruction comprises is not enough to the power consumption supporting described first functional module group, then use powering for described first functional module group of other functional module group, comprising:

Described processor module specifically for, when the current value of the power supply module of described first functional module group is less than the first numerical value, then use powering for described first functional module group of other functional module group, described first numerical value is not more than the load current value of described first functional module group.

13. electronic equipments according to claim 11, is characterized in that, described processor module is that described first functional module group is powered and comprised for using the power supply module of other functional module group:

Described processor module specifically for, use described N number of functional module group meet first condition in each self-contained power supply module power supply module be that described first functional module group is powered, described first condition comprises described power supply module current idle, or the power of described power supply module is greater than the use power of the functional module group at its place.

14. electronic equipments according to claim 11, is characterized in that, described processor module is that described first functional module group is powered and comprised for using the power supply module of other functional module group:

Described processor module specifically for, by described N number of functional module group each self-contained power supply module sort according to the size of performance number;

According to performance number order from small to large, the general power of each power supply module in described common source assembly set successively each self-contained power supply module of described N number of functional module group added in common source assembly set, until can meet the power demand of described first functional module group.

15. electronic equipments according to claim 9, it is characterized in that, if M>N, described processor module for obtain be combined into described electronic equipment M functional module group in N number of functional module group the parameter information of each self-contained power supply module comprise:

Described processor module specifically for, obtain be combined into N number of functional module group in M functional module group of described electronic equipment the maximum power value of each self-contained power supply module;

Described processor module is used for based on the parameter information of each self-contained power supply module of described N number of functional module group institute, is that a described M functional module group is powered and comprised according to predetermined policy control described N number of functional module group each self-contained power supply module:

Described processor module specifically for, according to described N number of functional module group the maximum power value of each self-contained power supply module, be enough to the power supply module of support second functional module group, select the power supply module meeting first condition to be that described second functional module group is powered from maximum power value, described first condition comprises described power supply module current idle, or, the power of described power supply module is greater than the use power of the functional module group at its place, and described second functional module group is the functional module group not comprising power supply module.

16. electronic equipments according to claim 9, it is characterized in that, if M>N, described processor module for obtain be combined into described electronic equipment M functional module group in N number of functional module group the parameter information of each self-contained power supply module comprise:

Described processor module specifically for, obtain be combined into N number of functional module group in M functional module group of described electronic equipment the maximum power value of each self-contained power supply module;

Described processor module is used for based on the parameter information of each self-contained power supply module of described N number of functional module group institute, is that a described M functional module group is powered and comprised according to predetermined policy control described N number of functional module group each self-contained power supply module:

Described processor module specifically for, by described N number of functional module group each self-contained power supply module sort according to the size of performance number;

According to performance number order from small to large, successively each self-contained power supply module of described N number of functional module group is added in common source assembly set, until the general power of each power supply module in described common source assembly set can meet the power demand of the second functional module group, described second functional module group is the functional module group not comprising power supply module.