CN103002042B - Cloud terminal with multiple power supply modes and cloud computing system - Google Patents
Cloud terminal with multiple power supply modes and cloud computing system Download PDFInfo
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- CN103002042B CN103002042B CN201210545933.XA CN201210545933A CN103002042B CN 103002042 B CN103002042 B CN 103002042B CN 201210545933 A CN201210545933 A CN 201210545933A CN 103002042 B CN103002042 B CN 103002042B
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Abstract
The invention discloses a cloud terminal with multiple power supply modes, which comprises: the cloud processing module is used for carrying out cloud processing operation; the network access module is connected with the cloud processing module, and the cloud processing module is accessed to a network through the network access module to perform cloud processing operation; the input and output module is connected with the cloud processing module and is used for inputting the operation information of the user into the cloud processing module for cloud processing operation and outputting the processing information after the cloud processing operation is performed by the cloud processing module; and the power supply switching module is connected with the cloud processing module, the network access module and the input/output module and is used for identifying the currently accessed power supply source of the cloud terminal, switching the currently accessed power supply source with the highest priority to be the power supply of the cloud terminal according to the set priority, and processing the power supply into power supply energy required by the cloud processing module, the network access module and the input/output module so as to supply power correspondingly.
Description
Technical Field
The invention relates to the field of communication, in particular to a cloud terminal with multiple power supply modes and a cloud computing system.
Background
Cloud computing (CloudComputing) is an emerging business computing model. It distributes the computing task on the resource pool formed by a large number of computers, so that various application systems can obtain computing power, storage space and various software services according to the requirements. The cloud terminal equipment is matched with the cloud computing overall solution. In a cloud computing mode, desktops, application software and data storage of users are managed in a centralized mode, and the users can access a network through cloud terminal equipment to obtain traditional PC equivalent services. Because the desktop and the data are in the cloud, the user can access the respective desktop on any cloud terminal device without being limited by places.
The service provided by the cloud computing comprises three aspects: iaaS (infrastructure as a service), paaS (platform as a service), saaS (software as a service). The virtual machine technology is an important means for effectively managing and fully sharing physical resources, an abstraction layer can be introduced between software and hardware of a computer system, an independent running environment is provided for upper-layer application, and sharing and multiplexing of hardware resources are realized. As a key technology of cloud computing applications, particularly, platforms, i.e., services, and infrastructures, i.e., services, provided by cloud computing must be based on virtual machines.
Through virtualization technology, a computer can be used as services provided by a cloud computing system, and the services are virtual computers in nature. The cloud terminal is connected with the desktop of the virtual machine or the physical machine remotely through a specific remote desktop link protocol (such as rdp, xrdp, vnc and the like), so that a user can use the resources of the connected virtual machine or physical machine.
Currently, most of cloud terminal devices on the market use an external dc power adapter to supply power: in a conventional hardware design, a hardware system of the cloud terminal device is generally only considered to provide a stable voltage and current value for the hardware system, so that the hardware system can operate. Generally, an interface between a power adapter and cloud terminal equipment is a circular power interface with a positive inside and a negative outside or a negative outside and a positive inside, and the power adapter supplies power to the cloud terminal equipment through the power interface. Therefore, in most cases, the user can only use the power adapter attached to the cloud terminal device to supply power to the cloud terminal device.
However, the power environment of the user is variable, and in many cases, the user may also have other devices (such as a power adapter of a USB interface) that can provide power for the cloud terminal device, or under limited environmental conditions, only limited power supply means (such as only providing power over ethernet (POE for short) power supply) can be provided for the cloud terminal device, or the user cannot obtain external power supply (such as outdoors) under the current environmental conditions, and in these cases, because the cloud terminal lacks a flexible power selection processing mechanism, the user cannot use the cloud terminal device on hand.
Therefore, providing a cloud terminal and a cloud computing system with multiple power supply modes to meet the variable power supply environment requirements has become an urgent problem to be solved.
Disclosure of Invention
The technical problem to be solved by the present invention is to provide a cloud terminal and a cloud computing system having multiple power supply modes, which can identify, switch and process multiple power inputs, so that a user can select to use multiple different power inputs as power supplies of a cloud terminal device.
In order to solve the above technical problem, the present invention provides a cloud terminal having multiple power supply modes, including:
the cloud processing module is used for carrying out cloud processing operation;
the network access module is connected with the cloud processing module, and the cloud processing module is accessed to a network through the network access module to perform cloud processing operation;
the input and output module is connected with the cloud processing module and is used for inputting the operation information of the user into the cloud processing module for cloud processing operation and outputting the processing information after the cloud processing operation is performed by the cloud processing module;
and the power supply switching module is connected with the cloud processing module, the network access module and the input/output module and is used for identifying a power supply source currently accessed by the cloud terminal, switching the power supply source with the highest priority currently accessed to be the power supply source of the cloud terminal according to the set priority, and processing the power supply source into power supply energy required by the cloud processing module, the network access module and the input/output module so as to supply power correspondingly.
As an improvement of the above scheme, the cloud terminal further comprises an electric energy storage module connected with the power supply switching module; the power supply switching module is also used for charging the electric energy storage module with the electric energy capacity not reaching saturation when the cloud terminal has the power supply source; the method is also used for switching the electric energy storage module to be the power supply source of the cloud terminal when the cloud terminal is not accessed to the power supply source at present.
In one embodiment of the present invention, the power supply switching module includes:
the power supply identification switching unit is used for identifying a power supply source currently accessed by the cloud terminal, and if only one power supply source is identified, the power supply source is used as a power supply of the cloud terminal; if a plurality of power supply sources are identified, switching the power supply source with the highest priority to be the power supply source of the cloud terminal according to a preset priority;
and the power supply processing unit is used for processing the power supply into power supply energy required by the cloud processing module, the network access module and the input/output module, and respectively and correspondingly sending the processed power supply energy to the cloud processing module, the network access module and the input/output module.
In another embodiment of the present invention, the power supply switching module includes:
the power supply identification switching unit is used for identifying a power supply source currently accessed by the cloud terminal, and switching the electric energy storage module to be a power supply source of the cloud terminal if no power supply source is identified; if only one power supply source is identified, taking the power supply source as a power supply source of the cloud terminal; if a plurality of power supply sources are identified, switching the power supply source with the highest priority to be the power supply source of the cloud terminal according to a preset priority;
the charging unit is used for automatically identifying the electric energy capacity of the electric energy storage module when a power supply source is connected to the cloud terminal at present, charging the electric energy storage module under the condition that the electric energy capacity is not saturated, and cutting off the charging operation on the electric energy storage module when the electric energy capacity of the electric energy storage module is saturated;
and the power supply processing unit is used for processing the power supply into power supply energy required by the cloud processing module, the network access module and the input/output module, and respectively and correspondingly sending the processed power supply energy to the cloud processing module, the network access module and the input/output module.
As an improvement of the above scheme, the power supply source includes a power adapter accessed by common circular positive and negative power interfaces, a power adapter accessed by a USB interface, and a router or switch accessed by a POE network interface and having POE power supply capability, and the priority level is sequentially decreased progressively.
As an improvement of the above scheme, the cloud terminal is provided with a plurality of power interfaces to be correspondingly connected with the power supply sources respectively.
As an improvement of the above scheme, the electric energy storage module is a storage battery module directly welded inside the cloud terminal device or a storage battery module that can be taken out and replaced.
As an improvement of the above scheme, the network access module is connected with the cloud processing module through a PCI interface or a PCIe interface; the input and output module is connected with the cloud processing module through a USB interface or a PS2 interface.
The invention provides a cloud computing system which comprises a resource pool consisting of a large number of computers and a cloud terminal connected with the resource pool through a network to perform cloud operation, wherein the cloud terminal is the cloud terminal with multiple power supply modes.
The beneficial effects of the implementation of the invention are as follows:
(1) The cloud terminal can intelligently identify the power supply interface used by the user, judge the power supply mode provided by the user for the cloud terminal equipment, and switch the power supply source with the highest priority to be the power supply source of the cloud terminal according to the preset priority when the cloud terminal is identified to be currently accessed into at least one power supply source; and then processing the power supply into power supply energy required by each functional module, such as a cloud processing module, a network access module, an input/output module and the like, so as to supply power correspondingly. Therefore, the changeable power supply environment is met, and a user can select to use various different power supply inputs as power supply of the cloud terminal equipment.
(2) The cloud terminal is also provided with an internal electric energy storage module, and under the condition that an external power supply is connected for supplying power, the electric energy capacity of the internal electric energy storage module can be intelligently identified, the electric energy storage module is charged under the condition that the electric energy capacity is not saturated, and the charging operation of the electric energy storage module is cut off when the electric energy capacity of the electric energy storage module is saturated. And then, under the condition that the power supply of the external power supply is not accessed, the electric energy storage module is switched to be the power supply of the cloud terminal, and the internal electric energy storage module is used for supplying power to the cloud terminal equipment.
Drawings
Fig. 1 is a schematic structural diagram of a cloud terminal having multiple power supply modes according to a first embodiment of the present invention;
fig. 2 is a schematic structural diagram of a power supply switching module in the cloud terminal having multiple power supply modes shown in fig. 1;
fig. 3 is a schematic structural diagram of a second embodiment of a cloud terminal having multiple power supply modes according to the present invention;
fig. 4 is a schematic structural diagram of a power supply switching module in the cloud terminal having multiple power supply modes shown in fig. 3;
fig. 5 is a schematic structural diagram of a cloud computing system according to the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Fig. 1 is a schematic structural diagram of a cloud terminal having multiple power supply modes according to a first embodiment of the present invention. As shown in fig. 1, the cloud terminal 1 having multiple power supply modes in this embodiment includes a cloud processing module 11, a network access module 12, an input module 13, an output module 14, and a power supply switching module 15, where:
and the cloud processing module 11 is used for performing cloud processing operation. Cloud processing operations may include, but are not limited to, desktop access operations, cloud computing operations, cloud storage operations, and various application software operations. For example: a user can access a network through cloud terminal equipment to access respective desktops; or, the user can access the network through the cloud terminal device to store and read data.
And the network access module 12 is connected with the cloud processing module and is connected to the internet in a wired mode or a wireless mode so as to enable the cloud processing module 11 to perform cloud processing operation. The network access module 12 may be connected to the cloud processing module 11 through, but not limited to, a Peripheral Component Interconnect (PCI) interface, a PCIe interface, and the like.
And the input module 13 is connected with the cloud processing module 11 and is used for inputting the input information corresponding to the operation information to the cloud processing module 11 according to the operation information of the user, so that the cloud processing module 11 performs cloud processing operation according to the input information. The input module 13 may be connected to the cloud processing module 11 through a USB interface, a PS2 interface, or the like.
And the output module 14 is connected with the cloud processing module and is used for inputting the operation information of the user into the cloud processing module for cloud processing operation, converting the processing information of the cloud processing module after the cloud processing operation into a display signal, and outputting the display signal to the corresponding connection display equipment for display to the user. (ii) a
And the power supply switching module 15 is respectively connected with the cloud processing module 11, the network access module 12, the input module 13 and the output module 14, and is configured to identify a power supply source currently accessed by the cloud terminal, switch a power supply source with the highest priority currently accessed to be a power supply source of the cloud terminal according to a set priority, and then process the power supply source into power supply energy required by the cloud processing module 11, the network access module 12, the input module 13 and the output module 14 to supply power correspondingly.
Specifically, please refer to fig. 2, the power supply switching module 15 will be described in further detail below. As shown in fig. 2, the power supply switching module 15 according to the embodiment of the present invention includes a power supply identification switching unit 151 and a power supply processing unit 152, where:
the power identification switching unit 151 is configured to identify a power supply source currently accessed by the cloud terminal, and if only one power supply source is identified, use the power supply source as a power supply source of the cloud terminal; if a plurality of power supply sources are identified, switching the power supply source with the highest priority to be the power supply source of the cloud terminal according to a preset priority;
and the power supply processing unit 152 is configured to process the power supply switched by the power supply identification switching unit 151 into power supply energy required by the cloud processing module 11, the network access module 12, the input module 13, and the output module 14, and correspondingly send the processed power supply energy to the cloud processing module 11, the network access module 12, the input module 13, and the output module 14, respectively.
It can be understood that, the power supply switching module 15 in this embodiment may receive, but is not limited to, the electric energy supplied by the power adapter accessed through the common circular positive and negative power interfaces, or the electric energy supplied by the power adapter accessed through the USB interface, or the electric energy supplied by the router or the switch accessed through the POE (POE for short) network interface and having the POE power supply capability. Namely, the power supply source comprises a power adapter accessed by a common circular positive and negative power interface, a power adapter accessed by a USB interface and a router or a switch which is accessed by a POE network interface and has POE power supply capacity, and the preset priority level is sequentially decreased progressively. The cloud terminal 1 of the present embodiment is provided with a plurality of power interfaces to be correspondingly connected with the power supply sources, respectively. When detecting that any one of the interfaces has a power input, the power supply switching module 15 takes a power supply source as a power supply source of the cloud terminal if only one power supply source is identified; and if a plurality of power supply sources are identified, switching the power supply source with the highest priority to be the power supply source of the cloud terminal according to the preset priority. In addition, as long as at least one power supply source exists, the switched power supply can be processed into voltage values and current values which can be used by other processing units in a unified manner, and stable power supply energy is provided for the operation of the cloud terminal.
It should be noted that, in the cloud terminal of this embodiment, if more than one power source interfaces access the electric energy supply source at the same time, the power supply switching module 15 switches the power source supply source with the highest priority according to the preset priority as the electric energy supply source for the other units of the system to operate, and at the same time, the power supply switching module 15 may only select one power source to input as the electric energy supply source of the cloud terminal.
It should be noted that: the cloud processing module 11 in this embodiment may support a cloud terminal operating system, for example: windows, linux, chrome and the like, and can also run cloud computing client software and execute cloud related operations such as accessing to a remote desktop of a user.
It is understood that the input module 13 in the present embodiment can be, but is not limited to, a keyboard. If the input module 13 is a keyboard, the cloud terminal may be connected to other devices with input functions, such as a mouse, in a wired manner (for example, a USB interface unit, a PS2 interface unit, etc.) or in a wireless manner (for example, a bluetooth interface unit, a WIFI interface unit, etc.).
It is understood that the input module 13 further includes other devices with input function, such as a mouse, for example, a touch pad in a keyboard.
It can be understood that, in order to further adapt to user requirements, the cloud terminal in this embodiment may also be connected to other USB peripherals through one or more USB interfaces, for example: u disk, data card, etc.
It will be appreciated that the output module 14 may be any display output interface, such as: DVI interface, VGA interface, HDMI interface, etc.
Optionally, the network access module 12 in this embodiment may be a WIFI interface, configured to connect to the internet in a wireless manner. In summary, the cloud terminal with multiple power supply modes provided in the embodiments of the present invention can intelligently identify a power supply interface used by a user, determine a power supply mode provided by the user for the cloud terminal device, and switch a power supply source with the highest priority to be a power supply source of the cloud terminal according to a preset priority when it is identified that the cloud terminal is currently connected to at least one power supply source; and then processing the power supply into power supply energy required by each functional module, such as a cloud processing module, a network access module, an input/output module and the like, so as to supply power correspondingly. Therefore, the variable power supply environment is met, and a user can select to use various different power supply inputs as power supply of the cloud terminal equipment.
Fig. 3 is a schematic structural diagram of a cloud terminal having multiple power supply modes according to a second embodiment of the present invention. As shown in fig. 3, the cloud terminal 2 having multiple power supply modes in this embodiment includes a cloud processing module 21, a network access module 22, an input module 23, an output module 24, a power supply switching module 25, and an electric energy storage module 26, where:
and the cloud processing module 21 is configured to perform cloud processing operations. Cloud processing operations may include, but are not limited to, desktop access operations, cloud computing operations, cloud storage operations, and various application software operations. For example: a user can access a network through cloud terminal equipment to access respective desktops; or, the user can access the network through the cloud terminal device to store and read data.
And a network access module 22 connected to the cloud processing module and connected to the internet in a wired or wireless manner, so that the cloud processing module 21 performs cloud processing operations. The network access module 22 may be connected to the cloud processing module 21 through, but not limited to, a Peripheral Component Interconnect (PCI) interface, a PCIe interface, and the like.
And the input module 23 is connected to the cloud processing module 21, and is configured to input, according to the operation information of the user, input information corresponding to the operation information to the cloud processing module 21, so that the cloud processing module 21 performs a cloud processing operation according to the input information. The input module 23 may be connected to the cloud processing module 21 through a USB interface, a PS2 interface, or the like.
The output module 24 is connected with the cloud processing module, and is used for inputting the operation information of the user into the cloud processing module for cloud processing operation, converting the processing information of the cloud processing module after the cloud processing operation into a display signal, and outputting the display signal to the corresponding connection display device for display to the user;
the electric energy storage module 26 is connected with the power supply switching module 25, serves as a standby power supply of the cloud terminal, and can store electric energy transmitted by the power supply switching module 25;
and the power supply switching module 25 is respectively connected with the cloud processing module 21, the network access module 22, the input module 23, the output module 24 and the electric energy storage module 26, and is configured to identify a power supply source currently accessed by the cloud terminal, switch a power supply source with the highest priority currently accessed to be a power supply source of the cloud terminal according to a set priority, and then process the power supply source into power supply energy required by the cloud processing module 21, the network access module 22, the input module 23 and the output module 24 to supply power correspondingly. In addition, the charging method is also used for charging the electric energy storage module 26 with the electric energy capacity not reaching saturation when the cloud terminal has the power supply source currently accessed; and when the cloud terminal is not currently connected to the power supply source, the electric energy storage module 26 is switched to supply power to the cloud terminal.
Specifically, please refer to fig. 4, the power supply switching module 25 is described in further detail below. As shown in fig. 2, the power supply switching module 25 of the embodiment of the present invention includes a power supply identification switching unit 251, a power supply processing unit 252, and a charging unit 253, where:
a power identification switching unit 251, configured to identify a power supply source currently accessed by the cloud terminal, and switch the electric energy storage module 26 to be a power supply source of the cloud terminal if no power supply source is identified; if only one power supply source is identified, taking the power supply source as a power supply source of the cloud terminal; if a plurality of power supply sources are identified, switching the power supply source with the highest priority to be the power supply source of the cloud terminal according to a preset priority;
the charging unit 253 is used for automatically identifying the electric energy capacity of the electric energy storage module 26 when the cloud terminal has an access power supply source at present, charging the electric energy storage module 26 under the condition that the electric energy capacity does not reach saturation, and cutting off the charging operation on the electric energy storage module 26 when the electric energy capacity of the electric energy storage module reaches saturation;
the power supply processing unit 252 is configured to process the power supply switched by the power supply identification switching unit 251 into power supply energies required by the cloud processing module 21, the network access module 22, the input module 23, and the output module 24, and correspondingly send the processed power supply energies to the cloud processing module 21, the network access module 22, the input module 23, and the output module 24, respectively.
It can be understood that, the power supply switching module 25 in this embodiment may receive, but is not limited to, the electric energy supplied by the power adapter accessed through the common circular positive and negative power interfaces, or the electric energy supplied by the power adapter accessed through the USB interface, or the electric energy supplied by the router or the switch accessed through the POE (POE for short) network interface and having the POE power supply capability. Namely, the power supply source comprises a power adapter accessed by a common circular positive and negative power interface, a power adapter accessed by a USB interface and a router or a switch which is accessed by a POE network interface and has POE power supply capacity, and the preset priority level is sequentially decreased progressively. The cloud terminal 2 of the present embodiment is provided with a plurality of power interfaces to be correspondingly connected with the power supply sources, respectively. When detecting that any one of the interfaces has power input, the power supply switching module 25 takes a power supply source as a power supply of the cloud terminal if only one power supply source is identified; and if a plurality of power supply sources are identified, switching the power supply source with the highest priority to be the power supply source of the cloud terminal according to the preset priority. In addition, as long as at least one power supply source exists, the switched power supply can be processed into voltage values and current values which can be used by other processing units in a unified manner, and stable power supply energy is provided for the operation of the cloud terminal.
It should be noted that, in the cloud terminal of this embodiment, if more than one power source interfaces access the electric energy supply source at the same time, the power supply switching module 25 switches the power source with the highest priority according to the preset priority as the electric energy supply source for the other units of the system to operate, and at the same time, the power supply switching module 15 may only select one power source to input as the electric energy supply source of the cloud terminal. If the power supply switching module 25 recognizes that there is no power supply source, the electric energy storage module 26 is switched to supply power to the cloud terminal.
In this embodiment, the electric energy storage module 26 may be a battery module directly welded inside the cloud terminal device or a battery module that can be taken out and replaced. In addition, the cloud terminal of the present embodiment is provided with the electric energy storage module 26 different from the battery equipped in the cloud terminal of the related art.
Most cloud terminal equipment in the market is provided with a battery, and is a simple disposable button battery which can only provide a weak power output function, generally an alkaline lithium manganese battery or an alkaline zinc manganese battery, wherein the battery can provide very small voltage and current, and generally only provides 1.5V or 3V voltage. The button cell generally supplies power for saving user configuration information of a Basic Input Output System (BIOS) in a ROM or saving time information in a Real-time clock (RTC) module, cannot provide power supply for the operation of the whole machine, cannot perform charging operation, and can only be manually replaced by a new cell after the electric quantity of the button cell is used up.
The electric energy storage module 26 used in the embodiment of the present invention is different from the button cell in that: 1) The electric quantity that can export is different: the electric quantity stored in the electric energy storage module 26 is enough to provide power energy for normal operation of all processing units of the whole machine, and the cloud terminal can further enable the system to normally operate for a period of time only by means of the electric energy in the electric energy storage module 26 under the condition that no external power supply is provided. Most cloud terminals in the market can provide very small electric quantity, and cannot provide enough power energy for normal operation of all processing units of the whole machine. The voltage and current values of the button battery can only supply power for the RTC module, and the independent and simple clock circuit can continuously time under the condition of power failure of the whole system. Or only the BIOS circuit is powered on, so that the configuration information changed by a user can be stored after the power of the whole computer is cut off; 2) The electric energy storage module 26 can not only supply power to the outside, but also charge the electric energy storage module in a state that the electric energy is not saturated, and the module can be reused. The general button is a disposable alkaline lithium manganese battery or alkaline zinc manganese battery, and when the electric energy in the battery is output externally, the button cannot be recharged for use and must be replaced manually.
It should be noted that: the cloud processing module 21 in this embodiment may support a cloud terminal operating system, for example: windows, linux, chrome and the like, can also run cloud computing client software, and can execute cloud related operations such as accessing to a remote desktop of a user.
It is understood that the input module 23 in the present embodiment can be, but is not limited to, a keyboard. If the input module 23 is a keyboard, the cloud terminal may be connected to other devices with input functions, such as a mouse, in a wired manner (e.g., a USB interface unit, a PS2 interface unit, etc.) or in a wireless manner (e.g., a bluetooth interface unit, a WIFI interface unit, etc.).
It is understood that the input module 23 further includes other devices with input function, such as a mouse, for example, a touch pad in a keyboard.
It can be understood that, in order to further adapt to user requirements, the cloud terminal in this embodiment may also be connected to other USB peripherals through one or more USB interfaces, for example: u disk, data card, etc.
It will be appreciated that the output module 24 may be any display output interface, such as: DVI interface, VGA interface, HDMI interface, etc.
Optionally, the network access module 22 in this embodiment may be a WIFI interface, configured to connect to the internet in a wireless manner.
In summary, the cloud terminal according to the embodiment of the present invention has the functions of the cloud terminal according to the first embodiment, and is further provided with an internal electric energy storage module, and when an external power supply is connected to supply power, the electric energy capacity of the internal electric energy storage module can be intelligently identified, the electric energy storage module is charged when the electric energy capacity does not reach saturation, and the charging operation on the electric energy storage module is cut off when the electric energy capacity of the electric energy storage module reaches saturation. And then, under the condition that the power supply of the external power supply is not accessed, the electric energy storage module is switched to be the power supply of the cloud terminal, and the internal electric energy storage module is used for supplying power to the cloud terminal equipment.
Fig. 5 is a schematic structural diagram of a cloud computing system according to the present invention. As shown in fig. 5, the cloud computing system of the present embodiment includes a resource pool 100 formed by a large number of computers, and a cloud terminal 200 connected to the resource pool 100 through a network to perform a cloud operation, where the cloud terminal 200 is the cloud terminal having multiple power supply modes shown in fig. 1 or fig. 3.
While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.
Claims (6)
1. A cloud terminal having a plurality of power supply modes, comprising:
the cloud processing module is used for carrying out cloud processing operation;
the network access module is connected with the cloud processing module, and the cloud processing module is accessed to a network through the network access module to perform cloud processing operation;
the input and output module is connected with the cloud processing module and is used for inputting the operation information of the user into the cloud processing module for cloud processing operation and outputting the processing information after the cloud processing operation is performed by the cloud processing module;
the power supply switching module is connected with the cloud processing module, the network access module and the input/output module, and is used for identifying a power supply source currently accessed by the cloud terminal, switching the power supply source with the highest priority currently accessed to be a power supply source of the cloud terminal according to a set priority, and processing the power supply source into power supply energy required by the cloud processing module, the network access module and the input/output module so as to supply power correspondingly;
the power supply switching module is connected with the power supply switching module; the power supply switching module is also used for charging the electric energy storage module with the electric energy capacity not reaching saturation when the cloud terminal has the current access power supply source; the power supply switching module is also used for switching the electric energy storage module to be a power supply of the cloud terminal when the cloud terminal is not connected with a power supply source currently;
the power supply switching module includes:
the power supply identification switching unit is used for identifying a power supply source currently accessed by the cloud terminal, and switching the electric energy storage module to be a power supply of the cloud terminal if no power supply source is identified; if only one power supply source is identified, taking the power supply source as a power supply source of the cloud terminal; if a plurality of power supply sources are identified, switching the power supply source with the highest priority to be the power supply source of the cloud terminal according to a preset priority;
the charging unit is used for automatically identifying the electric energy capacity of the electric energy storage module when a power supply source is connected to the cloud terminal at present, charging the electric energy storage module under the condition that the electric energy capacity is not saturated, and cutting off the charging operation on the electric energy storage module when the electric energy capacity of the electric energy storage module is saturated;
and the power supply processing unit is used for processing the power supply into power supply energy required by the cloud processing module, the network access module and the input/output module, and correspondingly sending the processed power supply energy to the cloud processing module, the network access module and the input/output module respectively.
2. The cloud terminal with multiple power supply modes according to claim 1, wherein the power supply sources include power adapters connected to common circular positive and negative power interfaces, power adapters connected to USB interfaces, and routers or switches connected to POE network interfaces and having POE power supply capability, and the priority levels are sequentially decreased progressively.
3. The cloud terminal having a plurality of power supply modes according to claim 1, wherein the cloud terminal is provided with a plurality of power interfaces to be respectively connected to the power supply sources correspondingly.
4. The cloud terminal with multiple power supply modes according to claim 1, wherein the electric energy storage module is a storage battery module directly welded inside the cloud terminal equipment or a removable and replaceable storage battery module.
5. The cloud terminal having multiple power modes according to claim 1, wherein the network access module is connected to the cloud processing module through a PCI interface or a PCIe interface; the input and output module is connected with the cloud processing module through a USB interface or a PS2 interface.
6. A cloud computing system comprising a resource pool composed of a plurality of computers and a cloud terminal connected to the resource pool via a network to perform cloud operations, wherein the cloud terminal is the cloud terminal having a plurality of power supply modes according to any one of claims 1 to 5.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201210545933.XA CN103002042B (en) | 2012-12-14 | 2012-12-14 | Cloud terminal with multiple power supply modes and cloud computing system |
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| CN201210545933.XA CN103002042B (en) | 2012-12-14 | 2012-12-14 | Cloud terminal with multiple power supply modes and cloud computing system |
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| CN103002042A CN103002042A (en) | 2013-03-27 |
| CN103002042B true CN103002042B (en) | 2016-06-01 |
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| CN105677596B (en) * | 2014-11-21 | 2021-09-14 | 联想(北京)有限公司 | Control method and electronic equipment |
| CN105871579B (en) * | 2015-01-23 | 2019-12-27 | 中兴通讯股份有限公司 | Method and device for detecting Power Over Ethernet (POE) |
| CN106300473A (en) * | 2015-05-29 | 2017-01-04 | 西安中兴新软件有限责任公司 | The method of supplying power to of a kind of access terminal and access terminal |
| CN104970738A (en) * | 2015-07-31 | 2015-10-14 | 苏州蓝王机床工具科技有限公司 | Power self-learning dust collector |
| CN107688363B (en) * | 2016-08-03 | 2020-09-29 | 中兴通讯股份有限公司 | Power supply control method and device for communication network |
| CN109862583A (en) * | 2019-01-04 | 2019-06-07 | 新华三技术有限公司 | A kind of method and device reporting exception information |
| CN110545119A (en) * | 2019-08-15 | 2019-12-06 | 陈宇涵 | Portable communication cloud terminal equipment |
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| CN102244677A (en) * | 2011-06-16 | 2011-11-16 | 中国科学院深圳先进技术研究院 | Green energy Cloud computing method and system |
| CN102722343A (en) * | 2012-06-01 | 2012-10-10 | 湖南国安思科计算机系统有限公司 | Wireless private security cloud storage equipment |
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