WO2017185215A1 - Method and device for supplying power to multiple devices - Google Patents

Abstract

Provided are a method and device for supplying power to multiple devices. The method comprises: upon monitoring connection of a new device requiring charging to a terminal using the method, determining all devices requiring charging and connected to the terminal, the devices requiring charging including the new device; determining power supply parameters of the respective devices requiring charging and a total amount of available power of the terminal; determining, according to the power supply parameters of the respective devices requiring charging and the total amount of available power, amounts of power to be supplied to the respective devices requiring charging; and supplying power to the respective devices requiring charging according to the amounts of power to be supplied to the respective devices requiring charging, such that the actual amounts of power supplied to the respective devices requiring charging are related to the power supply parameters. When a new device requiring charging is connected to a terminal, the invention enables power to be supplied to all devices requiring charging in a reasonable manner, thereby improving user experience.

Description

Method and device for multi-device power supply Technical field

The present invention relates to the field of computer technologies, and in particular, to a method and apparatus for powering multiple devices.

Background technique

With the rapid development of smart terminal technology, smart terminals have become an indispensable device for people's work and life. In order to enhance the service capability of the intelligent terminal, the power supply equipment for accessing the smart terminal is often increased. The power supply of the intelligent terminal is limited. When there are more power supply devices to be connected, the power supply of the device may be insufficient. In this case, when a new device that needs to be powered is connected, how to properly supply power to all the power supply devices of the intelligent terminal is directly Affect the user experience.

At present, power is supplied to each power supply device in sequence. For example, for the same intelligent terminal A, there are two existing power supply devices, namely device A and device B. When the new device C that needs to be powered is re-connected, if the power supply amount of the smart terminal A can simultaneously satisfy the consumption of the device A, the device B, and the device C, the smart terminal A supplies power to the device A, the device B, and the device C at the same time. The power consumption of device A, device B, and device C is satisfied. When it re-accesses the new device D that needs to be powered, if the power supply of the intelligent terminal A cannot meet the consumption of the device A, the device B, the device C, and the device D at the same time, the power consumption of the device A, the device B, and the device C is satisfied. The remaining power is supplied to the expansion device B.

The reason why the smart terminal A accesses the device D is that the user of the smart terminal A needs to use the device D immediately, and the power supplied by the above method to the device D cannot satisfy the consumption, so that the device D may not be used, thereby reducing the user experience.

Summary of the invention

In order to provide a reasonable power supply for all the power supply devices after the new device to be powered on, the embodiment of the present invention provides a method and device for powering multiple devices.

In one aspect, an embodiment of the present invention provides a method for powering multiple devices, where the method includes:

After detecting that the terminal where the method is located accesses a new device that needs to be powered, determining to access the terminal All of the power supply equipment to be powered, the power supply equipment including the new equipment;

Determining the power supply parameters of each power supply device and the total power supply of the terminal;

Determining the power supply amount of each power supply device according to the power supply parameters of each power supply device and the total power supply;

Supply power to each power supply device according to the power supply of each power supply device.

Optionally, the power supply parameter is an actual current, or the power supply parameter is an actual voltage, or the power supply parameter is actual power.

Optionally, the determining, according to the power supply parameter of each power supply device and the total power supply, determining the power supply amount of each power supply device, including:

Determining the power supply ratio of each power supply device according to the power supply parameters of each power supply device;

The power supply amount of each power supply device is determined according to the power supply ratio of each power supply device and the total power supply.

Optionally, the power supply parameter is a priority and a rated demand, the rated demand is a rated current, or the rated demand is a rated voltage, or the rated demand is a rated power.

Optionally, the determining, according to the power supply parameter of each power supply device and the total power supply, determining the power supply amount of each power supply device, including:

Select a power supply device according to the priority from large to small;

If the total amount of power supply can meet the rated demand of the selected power supply device, determine that the power supply amount of the selected power supply device is the rated demand of the selected power supply device, and the total power supply is The quantity is updated to the total amount of remaining power supply after satisfying the rated demand of the selected power supply equipment.

Optionally, after selecting a power supply device according to the priority from large to small, the method further includes:

If the total amount of power supply does not meet the rated demand of the selected power supply device, and the total power supply is greater than 0, determining that the power supply of the selected power supply device is the total power supply, The power supply amount of the power supply equipment that has not determined the power supply amount is determined to be 0, and the execution is performed according to the priority from the largest to the smallest, and then one power supply equipment step is selected in turn.

Optionally, after selecting a power supply device according to the priority from large to small, the method further includes:

If the total amount of power supply is not greater than 0, the power supply amount of the power supply device that has not determined the power supply amount is determined to be 0, and the execution is performed according to the priority from the largest to the smallest, and then one power supply device is selected in sequence.

In another aspect, an embodiment of the present invention provides a device for powering multiple devices, where the device includes:

a first determining module, configured to determine, when the terminal where the device is located, accesses a new device that needs to be powered, and determine that all the devices to be powered are connected to the terminal, where the device to be powered includes the new device;

a second determining module, configured to determine a power supply parameter of each power supply device, and a total power supply of the terminal;

a third determining module, configured to determine, according to power supply parameters of each power supply device and the total power supply, determine a power supply amount of each power supply device;

The power supply module is configured to supply power to each power supply device according to the power supply amount of each power supply device.

Optionally, the power supply parameter is an actual current, or the power supply parameter is an actual voltage, or the power supply parameter is actual power.

Optionally, the third determining module includes:

a first determining unit, configured to determine, according to power supply parameters of each power supply device, a power supply ratio of each power supply device;

The second determining unit is configured to determine the power supply amount of each power supply device according to the power supply ratio of each power supply device and the total power supply.

Optionally, the power supply parameter is a priority and a rated demand, the rated demand is a rated current, or the rated demand is a rated voltage, or the rated demand is a rated power.

Optionally, the third determining module includes:

Selecting units for selecting a power supply device in order from priority to priority;

a third determining unit, configured to determine, when the total amount of power supply meets the rated demand of the selected power supply device, that the power supply amount of the selected power supply device is the rated demand of the selected power supply device, And updating the total amount of power supply to a total amount of remaining power supply after satisfying the rated demand of the selected power supply device.

Optionally, the third determining unit is further configured to: when the total power supply quantity does not satisfy the rated demand quantity of the selected power supply equipment, and the total power supply quantity is greater than 0, determine the required selection The power supply amount of the power supply device is the total power supply amount, and the power supply amount of the power supply device that has not determined the power supply amount is determined to be 0, and the execution is performed according to the priority from the largest to the smallest, and then one power supply device is selected in turn.

Optionally, the third determining unit is further configured to: when the total amount of power supply is not greater than 0, determine a power supply amount of the power supply device that does not determine the power supply amount to be 0, and end the execution from a large priority to a maximum Small, select a power supply device step in turn.

The benefits are as follows:

After the new equipment to be powered is connected, determine the power supply parameters of each power supply equipment and the total power supply; and determine the power supply capacity of each power supply equipment according to the power supply parameters of each power supply equipment and the total power supply capacity; Finally, according to the power supply of each power supply device, power is supplied to each power supply device, so that the actual power supply amount of each power supply device is related to the power supply parameters of each power supply device, and all the devices need to be connected after the new device needs to be powered. Reasonable power supply for power supply equipment to enhance user experience.

DRAWINGS

Specific embodiments of the present invention will be described below with reference to the accompanying drawings, in which:

1 is a flow chart of a method for powering multiple devices provided in an embodiment of the present invention;

2 is a schematic structural diagram of a multi-device power supply device according to another embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a third determining module provided in another embodiment of the present invention;

FIG. 4 is a schematic structural diagram of another third determining module provided in another embodiment of the present invention.

detailed description

At present, when new devices that need to be powered are connected, power is supplied to each expansion device in sequence. This method cannot provide reasonable power supply to all power supply equipment and directly affects the user experience. This proposal provides a method of multi-device power supply, which is applied to a multi-device power supply device. The multi-device power supply method determines the power supply parameters of each power supply device and the total amount of power supply after the new device needs to be powered, and then determines the needs according to the power supply parameters of the power supply devices and the total power supply. The power supply of the power supply equipment; finally, the power supply of each power supply equipment is supplied to each power supply equipment, so that the actual power supply of each power supply equipment is related to the power supply parameters of each power supply equipment, and the new equipment that needs to be powered is connected. After entering, it will provide reasonable power supply to all power supply equipment to enhance the user experience.

In conjunction with the foregoing implementation environment, referring to FIG. 1, the embodiment provides a method for multi-device power supply. For convenience of explanation, the method provided by this embodiment is applied to the handheld device A, and the handheld device A includes a built-in modem A (modem). The handheld device is a handheld mobile device, including but not limited to: a smart phone, a PDA (Personal Digital Assistant), a handheld game console, and the like.

The process of the method provided in this embodiment is specifically as follows:

101: After monitoring the terminal where the method is located, accessing the new device that needs to be powered, reading the device type of the new device, and determining that the device type is located in a preset support device list;

For example, the handheld device A continuously monitors whether each expansion port is connected to a new device that needs to be powered. When the handheld device A detects the connection to the new modem B, it reads the device type of the modem B and determines whether the device type is in the preset support. In the device list. If the device type is in the preset support device list, the method provided in this embodiment is continued. If the device type is not in the preset support device list, it is determined not to supply power to the modem B, and the implementation is terminated. The method flow provided by the example.

The support device list is preset, and the driver of the device stored in the support device list is stored in the handheld device A, can be recognized by the handheld device A, and can be used on the handheld device A. Therefore, the handheld device A can supply power to the extended device in the list of supported devices. A device that is not in the list of supported devices, its driver is not stored in handheld device A, cannot be recognized by handheld device A, and cannot be used on handheld device A. Therefore, handheld device A does not extend to the extended device in the list of supported devices. powered by.

This step is a triggering step of the multi-device power supply method provided by the present application, that is, after performing step 101, the subsequent steps are also triggered. Step 101 is performed each time a new device that needs to be powered is detected.

102: Determine all power supply devices of the access terminal;

Among them, the power supply equipment needs to include new equipment.

The power supply equipment here includes all the power supply equipments carried by the handheld equipment A, and all the power supply equipments that are connected.

For example, if the handheld device A includes a built-in modem A, and then connects to an external modem B, it is determined that all the power supply devices of the handheld device A are modem A and modem B.

103: Obtain a power supply parameter of each expansion device.

The power supply parameter is used to describe the power supply condition required for the expansion device. For example, the power supply parameter is the actual current, or the power supply parameter is the actual voltage, or the power supply parameter is the actual power, or the power supply parameter priority and the rated demand.

Wherein, the rated demand is the rated current, or the rated demand is the rated voltage, or the rated demand is the rated power.

The method for determining the power supply parameter is the actual current, or the power supply parameter is the actual voltage, or the power supply parameter is the actual power, depending on the power supply device to be used. For example, for a power supply device with a transmitting function, it can be determined according to the current transmitting power of the power supply device to be used. For another example, for a power supply device having a display function, it may be determined according to a current display brightness of the power supply device, a resolution of the display screen, and the like.

For determining the priority, including but not limited to: determining the function or service currently used by the user of the handheld device A, the power supply device related to the function or the service has a high priority, and the function is not The required power supply equipment has a low priority.

For example, all the power supply devices of handheld device A are modem A and modem B. If the handheld device A determines that the modem A is being used for network data transmission, it is considered that the modem A is related to the currently used service, and the priority is considered to be high and the modem B priority is low.

104: Determine a total amount of power supply of the terminal;

In this step, the current remaining battery power of the handheld device A and the power consumption of the handheld device A itself can be determined to determine the current total power supply.

It should be noted that the total power supply can be related to the actual power and the power supply time of the handheld device A, and the unit can be watt-hour, or other units. In this embodiment, the specific unit of the total power supply is not limited.

The power is related to the voltage and current. Therefore, if the actual voltage is determined, the total power supply can be derived according to the rated current. Similarly, if the actual current is determined, the total power supply can also be derived according to the rated voltage. If the actual power is determined, A total amount of power can also be introduced. Further, knowing the actual power, or the actual voltage, or the actual current is equivalent to knowing the total amount of power that can be supplied.

In order to facilitate subsequent determination of the power supply capacity of each power supply device, this step may also directly obtain the actual power of the handheld device A, or the actual voltage of the handheld device A, or the actual current of the handheld device A, the actual power to be obtained, or , the actual voltage, or the actual current is determined as the total amount of power that can be supplied.

For example, if the power supply parameter obtained in step 103 is the actual current, this step may also determine the actual current of the handheld device A as the total power supply. If the power supply parameter obtained in step 103 is the actual voltage, this step may also determine the actual voltage of the handheld device A as the total power supply. If the power supply parameter obtained in step 103 is actual power, this step may also determine the actual power of the handheld device A as the total power supply.

The execution sequence between the step 103 and the step 104 is described by taking the step 103 and the step 104 as an example. In the actual application process, the step 103 and the step 104 may be performed simultaneously, or the step 104 may be performed first. Then step 103 is performed. This embodiment does not limit step 103. The order of execution between and step 104.

105: Determine the power supply amount of each power supply device according to the power supply parameters of each power supply device and the total power supply capacity;

The specific implementation manner of this step varies according to the power supply parameters obtained in step 103.

1) If the power supply parameter obtained in step 103 is the actual current, or the power supply parameter obtained in step 103 is the actual voltage, or the power supply parameter obtained in step 103 is the actual power, the implementation manner of this step may be: The power supply parameters of each power supply device determine the power supply ratio of each power supply device; the power supply amount of each power supply device is determined according to the power supply ratio of each power supply device and the total power supply.

For example, if all the power supply equipment of handheld device A is modem A and modem B, the actual current of modem A is 500 mA, and the actual current of modem B is 200 mA, according to the current power consumption of modem A and modem B. Make sure that the power supply ratio between modem A and modem B is 5:2. If the total power supply is 700 mA, the power supply of modem A is determined to be 500 mA, and the power supply of modem B is 200 mA.

It should be noted that, in this embodiment, the power supply parameter is taken as an example, and the actual value may be other parameters.

2) If the power supply parameter obtained in step 103 is the power supply parameter priority and the rated demand, wherein the rated demand is the rated current, or the rated demand is the rated voltage, or the rated demand is the rated power. The implementation manner of this step may be: selecting a power supply device according to the priority from large to small, and at this time, there are the following two relationships between the total power supply and the rated power demand of the selected power supply device:

The first relationship: the total amount of power supply can meet the rated demand of the selected power supply equipment;

If the relationship is the same, the implementation of the step 105 may be: determining that the power supply quantity of the selected power supply device is the rated demand quantity of the selected power supply device, and updating the total power supply quantity to meet the selected power supply device. The total amount of remaining power available after the rated demand.

The second relationship: the total amount of power that can be supplied does not meet the rated demand for the selected power supply equipment.

If the total amount of power supply is greater than 0, the implementation manner of step 105 may be: determining that the power supply amount of the selected power supply device is the total power supply amount, and the power supply amount of the power supply device that has not determined the power supply amount. Determine to 0, end the execution according to the priority from large to small, and then select a power supply device step.

If the total amount of power supply is not greater than 0, the implementation manner of step 105 may be: determining the power supply amount of the power supply device that has not determined the power supply amount to 0, ending the execution according to the priority from large to small, and sequentially selecting one power supply device. step.

For 2), the following implementation scenario will be described as an example. In this implementation scenario, the handheld device A is externally connected with four expansion devices, an expansion device 1, an expansion device 2, an expansion device 3, and an expansion device 4. The priority and rated current of each expansion device are shown in Table 1, wherein the priority is The smaller the number, the higher the priority.

Table 1

Extended device	priority	Rated current
Expansion device 1	1	200 mAh
Expansion device 2	2	100 mAh
Expansion device 3	3	400 mAh
Expansion device 4	4	200 mAh

Then: the order of the four extended devices in descending order of priority is: extended device 1, extended device 2, extended device 3, and extended device 4.

Example 1: If the current total power supply determined in step 104 is 300 mA, then

First select the expansion device 1, the total power supply capacity of 300 mA is not less than the rated power supply requirement of the expansion device 1 200 mA (the first relationship), determine the power supply capacity of the expansion device 1 is 200 mA, and the total power supply Updated to a total of 300 mA of power supply and a difference of 100 mA from the power supply of the expansion device 1 of 200 mA.

Then select the expansion device 2, the total power supply can be 100 mA, not less than the rated power supply of the expansion device 2. Find 100 mA (the first relationship), determine the power supply of the expansion device 2 to 100 mA, and update the total power supply to the difference between the total power supply capacity of 100 mA and the expansion device 2 power supply amount of 100 mA. 0 mAh.

Then select the expansion device 3, the total power supply 0 mA is less than the rated power supply requirement of the expansion device 3 400 mA (the second relationship), at this time, the total amount of power supply is not greater than 0, the expansion of the power supply will not be determined The device: the power supply amount of the expansion device 3 and the expansion device 4 are all determined to be 0 mA, and the execution of step 105 is ended.

Finally, the power supply amount of each expansion device shown in Table 2 is obtained.

Table 2

Extended device	Power supply
Expansion device 1	200 mAh
Expansion device 2	100 mAh
Expansion device 3	0 mAh
Expansion device 4	0 mAh

In this embodiment, the rated current is in milliamperes, and in actual applications, it may be other units.

Example 2: If the total amount of power supply determined in step 104 is 250 mA, then

First select the expansion device 1, the total power supply capacity of 250 mA is not less than the rated power supply requirement of the expansion device 1 200 mA (the first relationship), determine the power supply capacity of the expansion device 1 is 200 mA, and the total power supply Updated to a total of 250 mA of power supply and 50 mA difference between the power supply of the expansion device 1 and 200 mA.

Then, the expansion device 2 is selected, and the total power supply capacity is 20 mA less than the rated power supply requirement of the expansion device 2 (the second relationship). At this time, if the total power supply is greater than 0, the power supply of the expansion device 2 is determined to be The total amount of power supply can be 20 mA, and the power supply amount of the expansion device 3 and the expansion device 4 that have not determined the power supply amount is determined to be 0 mA, and the execution of step 105 is ended.

Finally, the power supply amount of each expansion device shown in Table 3 is obtained.

table 3

Extended device	Power supply
Expansion device 1	200 mAh
Expansion device 2	50 mAh
Expansion device 3	0 mAh
Expansion device 4	0 mAh

The foregoing method is only a few specific implementation manners of this step. In addition, other implementation manners may be used, and the embodiments are not listed one by one.

106: Supply power to each power supply device according to the power supply amount of each power supply device.

After the new device that needs to be powered on is connected, the power supply of each power supply device can be flexibly determined according to the power supply parameters of each power supply device, and the power supply amount of each power supply device is required. The power supply of the power supply device is related to the power supply parameters of the power supply devices. The power supply of the power supply devices is reasonable and the user experience is improved.

Beneficial effects:

After the new equipment to be powered is connected, determine the power supply parameters of each power supply equipment and the total power supply; and determine the power supply capacity of each power supply equipment according to the power supply parameters of each power supply equipment and the total power supply capacity; Finally, according to the power supply of each power supply device, power is supplied to each power supply device, so that the actual power supply amount of each power supply device is related to the power supply parameters of each power supply device, and all the devices need to be connected after the new device needs to be powered. Reasonable power supply for power supply equipment to enhance user experience.

Based on the same inventive concept, referring to the embodiment shown in FIG. 2, the present embodiment provides a multi-device power supply device. The principle of solving a problem by a multi-device power supply device is similar to that of a multi-device power supply method. The implementation of the powered device can be referred to the implementation of the method, and the repeated description will not be repeated.

Referring to FIG. 2, the multi-device power supply device includes:

The first determining module 201 is configured to: when detecting that the terminal where the device is located accesses a new device that needs to be powered, determine all the power-receiving devices of the access terminal, and the power-receiving device includes a new device;

a second determining module 202, configured to determine a power supply parameter of each power supply device, and a total power supply of the terminal;

The third determining module 203 is configured to determine, according to the power supply parameters of the power supply devices and the total power supply, the power supply amount of each power supply device;

The power supply module 204 is configured to supply power to each power supply device according to the power supply amount of each power supply device.

Optionally, the power supply parameter is an actual current, or the power supply parameter is an actual voltage, or the power supply parameter is actual power.

Referring to FIG. 3, the third determining module 203 includes:

The first determining unit 2031 is configured to determine, according to power supply parameters of each power supply device, a power supply ratio of each power supply device;

The second determining unit 2032 is configured to determine the power supply amount of each power supply device according to the power supply ratio of each power supply device and the total power supply.

Optionally, the power supply parameter is a priority and a rated demand, the rated demand is a rated current, or the rated demand is a rated voltage, or the rated demand is a rated power.

Referring to FIG. 4, the third determining module 203 includes:

The selecting unit 2033 is configured to sequentially select a power supply device according to a priority from large to small;

The third determining unit 2034 is configured to determine, when the total amount of power supply can meet the rated demand quantity of the selected power supply device, determine a power supply quantity of the selected power supply device, and select a required power supply device, and The quantity is updated to the total remaining power supply after satisfying the rated demand of the selected power supply equipment.

Optionally, the third determining unit 2034 is further configured to: when the total power supply quantity does not meet the rated demand quantity of the selected power supply equipment, and the total power supply quantity is greater than 0, determine that the power supply quantity of the selected power supply equipment is For the total amount of power supply, the power supply amount of the power supply equipment that has not determined the power supply amount is determined to be 0, and the execution is performed according to the priority from the largest to the smallest, and then one power supply equipment step is selected in turn.

Optionally, the third determining unit 2034 is further configured to: when the total amount of power supply is not greater than 0, determine a power supply amount of the power supply device that does not determine the power supply amount to be 0, and end the execution according to the priority from large to small, in turn Select a step to power the device.

The benefits are as follows:

After the new equipment to be powered is connected, determine the power supply parameters of each power supply equipment and the total power supply; and determine the power supply capacity of each power supply equipment according to the power supply parameters of each power supply equipment and the total power supply capacity; Finally, according to the power supply of each power supply device, power is supplied to each power supply device, so that the actual power supply amount of each power supply device is related to the power supply parameters of each power supply device, and all the devices need to be connected after the new device needs to be powered. Reasonable power supply for power supply equipment to enhance user experience.

For convenience of description, the various parts of the above described devices are described in terms of functions divided into various modules or units. Of course, the functions of the various modules or units may be implemented in one or more software or hardware in the practice of the invention.

Those skilled in the art will appreciate that embodiments of the present invention can be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment, or a combination of software and hardware. Moreover, the invention can take the form of a computer program product embodied on one or more computer-usable storage media (including but not limited to disk storage, CD-ROM, optical storage, etc.) including computer usable program code.

The present invention has been described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (system), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flowchart illustrations and/or FIG. These computer program instructions can be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing device to produce a machine for the execution of instructions for execution by a processor of a computer or other programmable data processing device. Means for implementing the functions specified in one or more of the flow or in a block or blocks of the flow chart.

The computer program instructions can also be stored in a computer readable memory that can direct a computer or other programmable data processing device to operate in a particular manner, such that the instructions stored in the computer readable memory produce an article of manufacture comprising the instruction device. The apparatus implements the functions specified in one or more blocks of a flow or a flow and/or block diagram of the flowchart.

These computer program instructions can also be loaded onto a computer or other programmable data processing device such that a series of operational steps are performed on a computer or other programmable device to produce computer-implemented processing for execution on a computer or other programmable device. The instructions provide steps for implementing the functions specified in one or more of the flow or in a block or blocks of a flow diagram.

While the preferred embodiment of the invention has been described, it will be understood that Therefore, the appended claims are intended to be interpreted as including the preferred embodiments and the modifications and

Claims (14)

1. A multi-device power supply method, characterized in that the method comprises:

   After the terminal where the method is located is connected to the new device that needs to be powered, all the devices to be powered that are connected to the terminal are determined, and the device to be powered includes the new device;

   Determining the power supply parameters of each power supply device and the total power supply of the terminal;

   Determining the power supply amount of each power supply device according to the power supply parameters of each power supply device and the total power supply;

   Supply power to each power supply device according to the power supply of each power supply device.
2. The method according to claim 1, wherein the power supply parameter is an actual current, or the power supply parameter is an actual voltage, or the power supply parameter is actual power.
3. The method according to claim 2, wherein the determining the power supply amount of each power supply device according to the power supply parameter of each power supply device and the total power supply amount includes:

   Determining the power supply ratio of each power supply device according to the power supply parameters of each power supply device;

   The power supply amount of each power supply device is determined according to the power supply ratio of each power supply device and the total power supply.
4. The method according to claim 1, wherein the power supply parameter is a priority and a rated demand, the rated demand is a rated current, or the rated demand is a rated voltage, or the rated The demand is rated power.
5. The method according to claim 4, wherein the determining the power supply amount of each power supply device according to the power supply parameter of each power supply device and the total power supply amount includes:

   Select a power supply device according to the priority from large to small;

   If the total amount of power supply can meet the rated demand of the selected power supply device, determine that the power supply amount of the selected power supply device is the rated demand of the selected power supply device, and the total power supply is The quantity is updated to the total amount of remaining power supply after satisfying the rated demand of the selected power supply equipment.
6. The method of claim 5 wherein said priority is from large to small. After selecting a device to be powered, it also includes:

   If the total amount of power supply does not meet the rated demand of the selected power supply device, and the total power supply is greater than 0, determining that the power supply of the selected power supply device is the total power supply, The power supply amount of the power supply equipment that has not determined the power supply amount is determined to be 0, and the execution is performed according to the priority from the largest to the smallest, and then one power supply equipment step is selected in turn.
7. The method according to claim 5, wherein after selecting a power supply device in order from priority to priority, the method further comprises:

   If the total amount of power supply is not greater than 0, the power supply amount of the power supply device that has not determined the power supply amount is determined to be 0, and the execution is performed according to the priority from the largest to the smallest, and then one power supply device is selected in sequence.
8. A multi-device power supply device, characterized in that the device comprises:

   a first determining module, configured to determine, when the terminal where the device is located, accesses a new device that needs to be powered, and determine that all the devices to be powered are connected to the terminal, where the device to be powered includes the new device;

   a second determining module, configured to determine a power supply parameter of each power supply device, and a total power supply of the terminal;

   a third determining module, configured to determine, according to power supply parameters of each power supply device and the total power supply, determine a power supply amount of each power supply device;

   The power supply module is configured to supply power to each power supply device according to the power supply amount of each power supply device.
9. The device according to claim 8, wherein the power supply parameter is an actual current, or the power supply parameter is an actual voltage, or the power supply parameter is actual power.
10. The apparatus according to claim 9, wherein the third determining module comprises:

    a first determining unit, configured to determine, according to power supply parameters of each power supply device, a power supply ratio of each power supply device;

    The second determining unit is configured to determine the power supply amount of each power supply device according to the power supply ratio of each power supply device and the total power supply.
11. The apparatus of claim 8 wherein said power supply parameter is prioritized And a rated demand, the rated demand is a rated current, or the rated demand is a rated voltage, or the rated demand is a rated power.
12. The apparatus according to claim 11, wherein the third determining module comprises:

    Selecting units for selecting a power supply device in order from priority to priority;

    a third determining unit, configured to determine, when the total amount of power supply meets the rated demand of the selected power supply device, that the power supply amount of the selected power supply device is the rated demand of the selected power supply device, And updating the total amount of power supply to a total amount of remaining power supply after satisfying the rated demand of the selected power supply device.
13. The device according to claim 12, wherein the third determining unit is further configured to: when the total amount of power supply does not meet the rated demand of the selected power supply device, and the total power supply is greater than 0, determining that the power supply amount of the selected power supply device is the total amount of power supply, determining the power supply amount of the power supply device that has not determined the power supply amount to 0, and ending the execution according to the priority from large to small, and sequentially selecting A step to power the device.
14. The device according to claim 12, wherein the third determining unit is further configured to: when the total amount of power supply is not greater than 0, determine a power supply amount of the power supply device that does not determine the power supply amount to be 0. End the execution according to the priority from large to small, and then select a power supply device step.

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