CN214755527U - Power supply module and electronic equipment - Google Patents

Abstract

The application provides a power supply module and electronic equipment, relates to electronic equipment technical field. Wherein, power module for supply power to electronic equipment, power module includes: a power utilization module; the power supply module is electrically connected with the power utilization module; a switch unit provided in a power supply circuit between the power supply module and the power consumption module; the control component is connected with the switch component and can control the on-off state of the switch component according to the operating parameters of the electronic equipment so as to adjust the power supply parameters of the power supply module for supplying power to the power utilization module. The technical scheme of the application can ensure the normal use of the power utilization module.

Description

Power supply module and electronic equipment

Technical Field

The application relates to the technical field of electronic equipment, in particular to a power supply module and electronic equipment.

Background

In the power supply design of the workstation, the power supply usually includes a plurality of power supply components, each power supply component is independent, and different power consumption components are supplied with power by independent power supply components, but when the component is upgraded, the maximum power required by the component is usually increased, because the maximum power that can be provided by the power supply component is not changed, when the load of the power consumption component reaches a certain value, the maximum power that can be provided by the power supply component cannot meet the power required by the power consumption component, and thus a new component cannot be supported.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application aims to provide a power supply module and electronic equipment so as to ensure normal use of a power utilization module.

In order to solve the above technical problem, an embodiment of the present application provides the following technical solutions:

this application first aspect provides a power module for supply power to electronic equipment, power module includes:

a power utilization module;

the power supply module is electrically connected with the power utilization module;

a switch unit provided in a power supply circuit between the power supply module and the power consumption module;

the control component is connected with the switch component and can control the on-off state of the switch component according to the operating parameters of the electronic equipment so as to adjust the power supply parameters of the power supply module for supplying power to the power utilization module.

In some modified embodiments of the first aspect of the present application, the power supply module includes a plurality of power supply terminals, at least some of the power supply terminals are connected to the power utilization module through the switch component, and the control component can control the on-off state of the switch component according to the operation parameter, so as to adjust the number of power supply terminals for supplying power to the power utilization module, and further adjust the power supply parameter.

Specifically, the control means can control the switching state of the switching means so that the plurality of power supply terminals supply power to the power consuming module in series or in parallel.

In particular, the power consuming module comprises at least one power consuming terminal electrically connected with at least two power supply terminals, wherein at least one of the power supply circuits between the at least one power consuming terminal and the at least two power supply terminals is provided with the switching member.

Specifically, the plurality of power supply ends include a first power supply end and a second power supply end, the power consumption end includes a first power supply end and a second power supply end, the first power supply end is electrically connected with the first power supply end and the second power supply end, and the second power supply end is electrically connected with the first power supply end and the second power supply end;

a first switch is arranged on a power supply circuit between the first power supply end and the second power end, and a second switch is arranged on the power supply circuit between the second power supply end and the first power end;

and/or a third switch is arranged on a power supply circuit between the first power supply end and the first power utilization end, and a fourth switch is arranged on the power supply circuit between the second power supply end and the second power utilization end.

Specifically, the plurality of power supply ends further comprise a third power supply end, the power utilization end further comprises a third power supply end, and the third power supply end is electrically connected with the third power supply end;

a fifth switch is arranged on a power supply circuit between the third power supply end and the first power utilization end;

and/or a sixth switch is arranged on a circuit between the third power supply end and the second power end;

and/or a seventh switch is arranged on a power supply circuit between the first power supply end and the third power supply end;

and/or an eighth switch is arranged on a power supply circuit between the second power supply end and the third power supply end.

Specifically, the method further comprises the following steps: the monitoring component is in signal connection with the control component and an operation component of the electronic equipment, and the monitoring component is used for acquiring attribute parameters and/or operation parameters of the operation component.

Specifically, the control component is an embedded controller or a basic input and output system or a control program; and/or the presence of a gas in the atmosphere,

the operating component is a hardware component or a software component of the electronic device.

Specifically, the power utilization module includes a central processing unit, a graphics processor, and any one or more of a drive, a hard disk, and a memory.

A second aspect of the present application provides an electronic device, comprising:

the power supply module of any preceding claim.

Compare in prior art, the power module that this application first aspect provided includes: the power utilization device comprises a power utilization module, a power supply module, a switch component and a control component, wherein the switch component is arranged on a power supply circuit between the power supply module and the power utilization module, and the control component can control the on-off state of the switch component according to the operating parameters of the electronic equipment so as to adjust the power supply parameters of the power supply module for supplying power to the power utilization module. In the prior art, a power supply part directly supplies power to a power utilization module, when the load of the power utilization module is too large, the power supply of the power supply part is insufficient, and then the power utilization module cannot be supported.

The electronic device provided by the second aspect of the present application has the same beneficial effects as the power supply module provided by the first aspect, and details are not repeated herein.

Drawings

The above and other objects, features and advantages of exemplary embodiments of the present application will become readily apparent from the following detailed description read in conjunction with the accompanying drawings. Several embodiments of the present application are illustrated by way of example and not by way of limitation in the figures of the accompanying drawings and in which like reference numerals refer to similar or corresponding parts and in which:

fig. 1 schematically illustrates a structural schematic diagram of a power supply module provided in an embodiment of the present application;

fig. 2 schematically illustrates another structural schematic diagram of a power supply module provided in an embodiment of the present application;

fig. 3 schematically illustrates another structural schematic diagram of the power supply module provided in the embodiment of the present application;

fig. 4 schematically illustrates another structure diagram of a power supply module provided in an embodiment of the present application;

fig. 5 schematically illustrates another structural diagram of the power supply module provided in the embodiment of the present application;

the reference numbers illustrate:

the power utilization system comprises a power utilization module 1, a first power end 11, a second power end 12, a power supply module 2, a power supply end 20, a first power supply end 21, a second power supply end 22, a switch component 3, a first switch 31, a second switch 32, a third switch 33, a fourth switch 34, a control component 4 and a monitoring component 5.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which this application belongs.

The present application provides a power supply module for supplying power to an electronic device, as shown in fig. 1 and 2, the power supply module includes: an electricity utilization module 1; a power supply module 2 electrically connected to the power consumption module 1; a switch unit 3 provided in a power supply circuit between the power supply module 2 and the power consumption module 1; and the control component 4 is connected with the switch component 3, and the control component 4 can control the switch state of the switch component 3 according to the operating parameters of the electronic equipment so as to adjust the power supply parameters of the power supply module 2 for supplying power to the power utilization module 1.

The power supply module can be arranged in a notebook computer, a mobile phone, a host and other devices, the power supply module 2 can supply power for the power utilization module 1, and the power utilization module 1 can be a Central Processing Unit (CPU), a Graphics Processing Unit (GPU) or a Hard Disk Drive (HDD), a Solid State Disk (SSD), a memory and the like. The control unit 4 may be a controller EC or BIOS of the electronic device, or the control unit 4 may be a software program. The connection between the control part 4 and the switching part 3, in particular, the electrical or communication connection between the control part 4 and the switching part 3, is possible. And a switch component 3 is arranged on a power supply circuit between the power supply module 2 and the power utilization module 1, and a control component 4 can control the on-off state of the switch component 3 according to the operating parameters of the electronic equipment so as to adjust the power supply parameters of the power supply module 2 for supplying power to the power utilization module 1. Specifically, the switching state of the switching component 3 includes on and off, and the operation parameter of the electronic device may be an operation load of an electronic component in the electronic device, for example, an operation load of a CPU, an operation load of a GPU, and an operation load of an HDD may be the operation parameter of the electronic device. The power supply parameter may be whether the power supply module 2 supplies power to the power consumption module 1 or whether the power supply module 2 outputs voltage, current, power, and the like to the power consumption module 1.

In the prior art, a power supply part directly supplies power to an electricity utilization module 1, when the load of the electricity utilization module 1 is too large, the power supply of the power supply part is insufficient, and then the electricity utilization module 1 cannot be supported, according to the embodiment provided by the application, a power supply module 2 can be added to supply power to the electricity utilization module 1, a switch part 3 is added between the power supply module 2 and the electricity utilization module 1, when the operating parameter of the electronic device exceeds a preset value, the control part 4 controls the switch part 3 to be switched on, so that the power supply module 2 can supply power to the electricity utilization module 1, at the moment, the power supply module 2 and the power supply part supply power to the electricity utilization module 1 together, and the normal use of the electricity utilization module 1 is ensured.

In some modified embodiments of the first aspect of the present application, the power supply module 2 includes a plurality of power supply terminals 20, at least some of the power supply terminals 20 are connected to the power utilization module 1 through the switch component 3, and the control component 4 can control the on-off state of the switch component 3 according to the operating parameter, so as to adjust the number of the power supply terminals 20 that supply power to the power utilization module 1, and further adjust the power supply parameter.

As shown in fig. 4 and 5, the number of the power utilization modules 1 may be one, and the power supply module 2 may include a plurality of power supply terminals 20, the plurality of power supply terminals 20 may be electrically connected to the power utilization modules, and at least some of the plurality of power supply terminals 20 may be connected to the power utilization modules 1 through a switch component, specifically, as shown in fig. 5, each power supply terminal 20 may be connected to the power utilization module 1 through a switch component, and as shown in fig. 4, only some of the power supply terminals 20 may be electrically connected to the power utilization modules 1 through a switch component 3. Specifically, one power supply terminal 20 may be electrically connected directly to the power consuming module 1, while the other power supply terminal 20 is electrically connected to the power consuming module 1 through the switching part 3, the number of the other power supply terminals 20 is at least one, the number of the corresponding switch parts 3 may be one or more, when the operating parameters of the electronic device exceed the preset values, the control unit 4 controls all or part of the switch units 3 to be turned on, so that the number of the power supply terminals 20 connected to the power module 1 is increased, and then make the quantity of the power supply end 20 that supplies power for power module 1 increase for power module 2 can be for the maximum power increase that power module 1 can provide, even the operating parameter of electronic equipment surpasss the default this moment, power module 2 still can provide sufficient power for power module 1, guarantees that power module 1 can be supported, can normal operating.

Specifically, the control part 4 can control the switching state of the switching part 3 so that the plurality of power supply terminals 20 supply power to the power consuming module 1 in series or in parallel.

The plurality of power supply terminals 20 supply power to the power module 1 in series or in parallel.

Specifically, as shown in fig. 2 and 3, the power module 1 includes at least one power consuming terminal electrically connected to at least two power supply terminals 20, wherein at least one of the power supply circuits between the at least one power consuming terminal and the at least two power supply terminals 20 is provided with the switching component 3.

Wherein, at least one power utilization end in the power utilization module 1 is electrically connected with at least two power supply ends 20 in the power supply module 2, specifically, the number of the power utilization ends can be one or more, and one of the power utilization ends can be electrically connected with two or more power supply ends 20; or a part of the plurality of power consuming terminals is electrically connected to the two or more power supplying terminals 20, wherein the part of the plurality of power consuming terminals may include at least two power consuming terminals; or each of the plurality of power consuming terminals is electrically connected to two or more power supplying terminals 20, wherein the number of the power supplying terminals 20 to which each of the power consuming terminals is connected is different.

And at least one of the power supply circuits between the at least one power utilization terminal and the at least two power supply terminals 20 is provided with the switch component 3, specifically, the power utilization terminals connected with the at least two power supply terminals 20 in the power utilization module 1 may form a first part, the power utilization terminals in the first part are electrically connected with the at least two power supply terminals 20, each power utilization terminal in the first part is set to be electrically connected with N power supply terminals 20, N is a positive integer greater than or equal to 2, and the N power supply terminals 20 may form a second part, wherein each power utilization terminal in the first part corresponds to a plurality of power supply terminals 20 in a group of second parts, the plurality of power supply terminals 20 corresponding to each power utilization terminal may be repeated, that is, one power supply terminal 20 may be simultaneously electrically connected with the at least two power utilization terminals. At least one of the power supply circuits between the power consuming terminals in the first portion and the power supplying terminals 20 in the second portion is provided with a switch component 3, specifically, each power consuming terminal in the first portion is connected to N power supplying terminals 20 in the second portion, and the switch component 3 is provided between each power consuming terminal and at least one of the N power supplying terminals 20, that is, each power consuming terminal may be provided with a switch component 3 between each power consuming terminal and some or all of the power supplying terminals 20 in the second portion, wherein the partial power supplying terminals 20 may include one power supplying terminal 20 or may be a plurality of power supplying terminals 20.

Specifically, as shown in fig. 2 and 3, the plurality of power supply terminals 20 includes a first power supply terminal 21 and a second power supply terminal 22, the power consumption terminals include a first power supply terminal 11 and a second power supply terminal 12, the first power supply terminal 21 is electrically connected to the first power supply terminal 11 and the second power supply terminal 12, and the second power supply terminal 22 is electrically connected to the first power supply terminal 11 and the second power supply terminal 12;

as shown in fig. 3, a first switch 31 is disposed on the power supply circuit between the first power supply end 21 and the second power end 12, and a second switch 32 is disposed on the power supply circuit between the second power supply end 22 and the first power end 11; the first power supply terminal 21 can be directly electrically connected to the first power supply terminal 11, the second power supply terminal 22 can be directly electrically connected to the second power supply terminal 22, the control unit 4 can be electrically connected to the first switch 31 and the second switch 32, the control unit 4 can determine whether the first power supply terminal 21 can satisfy the power consumption requirement of the first power supply terminal 11 according to the operation parameter, if the operation parameter of the electronic device exceeds the preset value, it indicates that the first power supply terminal 21 cannot satisfy the power consumption requirement of the first power supply terminal 11, at this time, the control unit 4 controls the second switch 32 to be turned on, and the first power supply terminal 21 and the second power supply terminal 22 simultaneously supply power to the first power supply terminal 11, and similarly, when the second power supply terminal 22 cannot meet the power demand of the second power supply terminal 12, the control unit 4 controls the first switch 31 to be turned on, so that the first power supply terminal 21 and the second power supply terminal 22 jointly supply power to the second power supply terminal 12.

And/or as shown in fig. 2, a third switch 33 is disposed on the power supply circuit between the first power supply terminal 21 and the first power terminal 11, and a fourth switch 34 is disposed on the power supply circuit between the second power supply terminal 22 and the second power terminal 12; the first switch 31, the second switch 32, the third switch 33 and the fourth switch 34 all belong to the switch part 3, and the first switch 31, the second switch 32, the third switch 33 and the fourth switch 34 are all electrically connected with the control part 4. Specifically, only the first switch 31 and the second switch 32 may be provided, only the third switch 33 and the fourth switch 34 may be provided, and of course, the first switch 31, the second switch 32, the third switch 33, and the fourth switch 34 may be provided at the same time. When only the third switch 33 and the fourth switch 34 are arranged, the first power supply end 21 is directly electrically connected to the second power end 12, and the second power supply end 22 is directly electrically connected to the first power end 11, when the first power supply end 21 cannot meet the power consumption requirement of the second power end 12, the control part 4 controls the fourth switch 34 to be closed, so that the second power supply end 22 is also electrically connected to the second power end 12, and when the second power supply end 22 cannot meet the power consumption requirement of the first power end 11, the control part 4 controls the third switch 33 to be closed, so that the first power supply end 21 and the second power supply end 22 simultaneously supply power to the first power end 11. Further, as shown in fig. 2, when the first switch 31, the second switch 32, the third switch 33 and the fourth switch 34 are provided in the power supply module at the same time, the control part 4 may be in a normally closed state for the third switch 33 and the fourth switch 34, and then the control part 4 controls the switching states of the first switch 31 and the second switch 32 according to the operation parameters of the electronic device, or the control part 4 controls the first switch 31 and the second switch 32 in a normally closed state for the first switch 31 and the second switch 32, and then the control part 4 controls the switching states of the third switch 33 and the fourth switch 34 according to the operation parameters of the electronic device.

Specifically, the plurality of power supply terminals 20 further include a third power supply terminal, and the power utilization terminal further includes a third power supply terminal, and the third power supply terminal is electrically connected to the third power supply terminal, wherein the third power supply terminal can not only supply power to the third power supply terminal, but also supply power to the first power supply terminal 11 and the second power supply terminal 12.

A fifth switch is arranged on the power supply circuit between the third power supply end and the first power utilization end 11; specifically, the third power supply terminal may also supply power to the first power supply terminal 11, and when the first power supply terminal 21 cannot meet the power supply requirement of the first power supply terminal 11, the control unit 4 may control one or both of the second switch 32 and the fifth switch to be closed, so that one or both of the second power supply terminal 22 and the third power supply terminal supply power to the first power supply terminal 11.

And/or a sixth switch is arranged on a circuit between the third power supply end and the second power end 12; specifically, the third power supply terminal may also supply power to the second power terminal 12, and when the second power supply terminal 22 cannot meet the power supply requirement of the second power terminal 12, the control unit 4 controls any one or both of the first switch 31 and the sixth switch to be closed, so that any one or both of the first power supply terminal 21 and the third power supply terminal may supply power to the second power terminal 12.

And/or a seventh switch is arranged on a power supply circuit between the first power supply end 21 and the third power supply end; specifically, the first power supply terminal 21 may supply power to the third power supply terminal, and when the third power supply terminal cannot meet the power demand of the third power supply terminal, the control unit 4 controls the seventh switch to be turned on, so that the first power supply terminal 21 and the third power supply terminal jointly supply power to the third power supply terminal.

And/or an eighth switch is arranged on the power supply circuit between the second power supply end 22 and the third power supply end; specifically, the second power supply terminal 22 may also supply power to the third power supply terminal, and when the third power supply terminal cannot meet the power demand of the third power supply terminal, the control unit 4 controls the eighth switch to be closed, so that the second power supply terminal 22 and the third power supply terminal jointly supply power to the third power supply terminal. The power supply module can also be provided with a seventh switch and an eighth switch at the same time, and when the third power supply end cannot meet the power consumption requirement of the third power supply end, the control part 4 controls any one or two of the seventh switch and the eighth switch to be closed, so that any one or two of the first power supply end 21 and the second power supply end 22 and the third power supply end supply power to the third power supply end together. The fifth switch, the sixth switch, the seventh switch and the eighth switch all belong to the switch component 3 and are all electrically connected with the control component 4.

Specifically, as shown in fig. 1, the power supply module further includes: and the monitoring component 5 is in signal connection with the control component and an operation component of the electronic equipment, and the monitoring component 5 is used for acquiring attribute parameters and/or operation parameters of the operation component. The monitoring component 5 is in signal connection with the control component and the operation component, specifically, the monitoring component is in communication connection or electrical connection with the control component and the operation component, the monitoring component 5 sends the monitored attribute parameters and/or the operation parameters to the control component 4, and the control component 4 controls the on-off state of the switch component 3 according to the attribute parameters and/or the operation parameters. The operating component may be the power consumption module 1, and the operating parameter may be a load parameter of the power consumption module 1. Specifically, when the monitoring part 5 monitors that the load parameter of the power consumption module 1 exceeds the first threshold, the switching part 3 may be controlled to be in the on state. For example, when the power supply module includes a first power supply terminal 21, a second power supply terminal 22, a first power supply terminal 11 and a second power supply terminal 12, a first switch 31 is disposed between the first power supply terminal 21 and the second power supply terminal 12, and a second switch 32 is disposed between the second power supply terminal 22 and the first power supply terminal 11, when the first switch 31 and the second switch 32 are in an off state, the power of the first power supply terminal 11 may reflect the load parameter of the first power supply terminal 11, and the power of the second power supply terminal 12 may reflect the load parameter of the second power supply terminal 12, so that the monitoring component 5 may obtain the powers of the first power supply terminal 21 and the second power supply terminal 22, the first power supply terminal 21 has a first rated power, the second power supply terminal 22 has a second rated power, when the monitoring component 5 obtains that the power of the first power supply terminal 21 is greater than a preset percentage of the first rated power, it indicates that the load parameter of the first power supply terminal 11 is greater than a first sub-threshold, the control component 4 controls the second switch 32 to be closed according to the load parameter monitored by the monitoring component 5, and similarly, when the power of the second power supply terminal 22 is greater than the preset percentage of the second rated power, it indicates that the load parameter of the second electrical terminal 12 is greater than the second sub-threshold, and the control component 4 controls the first switch 31 to be closed according to the load parameter monitored by the monitoring component 5, so that the first power supply terminal 21 and the second power supply terminal 22 both supply power to the second electrical terminal 12.

Specifically, the control component is an embedded controller or a basic input and output system or a control program; and/or the operating component is a hardware component or a software component of the electronic device.

The operating component may be a hardware component of the electronic device, specifically a CPU, a GPU, or the like, and when the operating component is a software component, the operating component may be audio software, video software, game software, or the like downloaded in the electronic device.

Specifically, the power utilization module 1 includes a central processing unit, a graphics processor, and any one or more of a drive, a hard disk, and a memory.

At least one of the first electric terminal 11, the second electric terminal 12 and the third electric terminal is one of a central processing unit, a graphic processor, a driver, a hard disk and a memory, or the first electric terminal 11, the second electric terminal 12 and the third electric terminal are any three of the central processing unit, the graphic processor, the driver, the hard disk and the memory.

A second aspect of the present application provides an electronic device, comprising: the power supply module provided in any of the above embodiments. Therefore, the electronic device provided in this embodiment has all the advantages of the electronic device provided in any of the above embodiments, and details are not described herein.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A power module for supplying power to an electronic device, the power module comprising:

a power utilization module;

the power supply module is electrically connected with the power utilization module;

a switch unit provided in a power supply circuit between the power supply module and the power consumption module;

the control component is connected with the switch component and can control the on-off state of the switch component according to the operating parameters of the electronic equipment so as to adjust the power supply parameters of the power supply module for supplying power to the power utilization module.

2. The power supply module as set forth in claim 1,

the power supply module comprises a plurality of power supply ends, at least part of the power supply ends are connected to the power utilization module through the switch component, and the control component can control the on-off state of the switch component according to the operation parameters so as to adjust the number of the power supply ends for supplying power to the power utilization module and further adjust the power supply parameters.

3. The power supply module as set forth in claim 2,

the control means can control the switching state of the switching means so that the plurality of power supply terminals supply power to the power consuming module in series or in parallel.

4. The power supply module as set forth in claim 2,

the power utilization module comprises at least one power utilization end which is electrically connected with at least two power supply ends, wherein at least one of the power supply circuits between the at least one power utilization end and the at least two power supply ends is provided with the switch component.

5. The power supply module as set forth in claim 4,

the plurality of power supply ends comprise a first power supply end and a second power supply end, the power utilization end comprises a first power utilization end and a second power utilization end, the first power supply end is electrically connected with the first power utilization end and the second power utilization end, and the second power supply end is electrically connected with the first power utilization end and the second power utilization end;

a first switch is arranged on a power supply circuit between the first power supply end and the second power end, and a second switch is arranged on the power supply circuit between the second power supply end and the first power end;

and/or a third switch is arranged on a power supply circuit between the first power supply end and the first power utilization end, and a fourth switch is arranged on the power supply circuit between the second power supply end and the second power utilization end.

6. The power supply module as set forth in claim 5,

the power supply ends further comprise a third power supply end, the power utilization end further comprises a third power supply end, and the third power supply end is electrically connected with the third power supply end;

a fifth switch is arranged on a power supply circuit between the third power supply end and the first power utilization end;

and/or a sixth switch is arranged on a circuit between the third power supply end and the second power end;

and/or a seventh switch is arranged on a power supply circuit between the first power supply end and the third power supply end;

and/or an eighth switch is arranged on a power supply circuit between the second power supply end and the third power supply end.

7. The power supply module as set forth in claim 1,

further comprising: the monitoring component is in signal connection with the control component and an operation component of the electronic equipment, and the monitoring component is used for acquiring attribute parameters and/or operation parameters of the operation component.

8. The power supply module as set forth in claim 7,

the control part is an embedded controller or a basic input and output system or a control program; and/or the presence of a gas in the atmosphere,

the operating component is a hardware component or a software component of the electronic device.

9. The power supply module as set forth in claim 1,

the electricity utilization module comprises a central processing unit, a graphic processor and any one or more of a driver, a hard disk and a memory.

10. An electronic device, comprising:

the power module of any one of claims 1 to 9.

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