CN107037744B - Automatic power supply control system with cloud remote wake-up function - Google Patents

Abstract

The invention provides a power supply automatic control system with a cloud remote wake-up function, which comprises an instruction center, a data exchange unit and a power supply control system, wherein the power supply control system comprises a wake-up unit, a power supply unit, a control unit and system equipment; the instruction center sends an opening or dormancy instruction to the data exchange unit, the data interaction unit sends the instruction to the awakening unit or the control unit, and the awakening unit opens the power supply unit to input the instruction for remote awakening of the cloud; or the dormancy instruction sent by the instruction sending center is sent to the data exchange unit through the cloud communication unit, the data exchange unit sends the instruction to the control unit, the control unit sends the dormancy instruction to the power supply unit, and the controller in the power supply unit automatically turns off the control unit and the system equipment to input power and enter dormancy. The cloud remote wake-up or sleep system device can realize remote automatic control of the system device, does not need to manually operate a power switch, reduces labor cost and improves working efficiency.

Description

Automatic power supply control system with cloud remote wake-up function

Technical Field

The invention relates to a remote wake-up system, in particular to a power supply automatic control system with a cloud remote wake-up function.

Background

The power supply mainly provides various required working voltages for system equipment, and at present, the control of the output voltage of the power supply is generally realized in two ways, namely, a manual mode is adopted, the output of the power supply is controlled by manually adjusting or starting or stopping the power supply, and the mode does not support a remote automatic control function and does not have a remote wake-up function. Another power system can realize remote wake-up function, but the power system must be ATX power, and the control module must support network wake-up function, so the technology is only applicable to the power management mechanism of the PC at present because of these limitations.

The two modes can achieve the purposes of control and awakening, but are limited by certain conditions, and cannot be applied to most automatic control systems. The first mode depends on manual operation completely, and automatic control cannot be realized; the second mode must adopt a specified power supply and a specified module, and the application range is limited greatly.

The power control system which adopts the universal power supply and the module and has the cloud remote wake-up function can meet the requirements of remote automatic control and automatic power management of the power system.

Disclosure of Invention

The invention provides an automatic power supply control system capable of waking up equipment or turning off equipment through a remote instruction so as to solve the problems in the prior art.

The invention adopts the following technical scheme:

the power supply automatic control system with the cloud remote wake-up function comprises an instruction center, a data exchange unit and a power supply control system, wherein the power supply control system comprises a wake-up unit, a power supply unit, a control unit and system equipment;

the method comprises the steps that an opening instruction sent by an instruction center is sent to a data exchange unit through a cloud communication unit, the data exchange unit sends the instruction to a wake-up unit, the wake-up unit opens a power supply unit for input, and the power supply unit enters a normal state; the controller in the power supply unit automatically starts the control unit and the system equipment to input power, so that the control unit and the system equipment enter a normal working state, and the purpose of remotely waking up the system in the cloud is achieved;

the controller in the power supply unit automatically turns off the input power of the control unit and the system equipment, and the control unit notifies the wake-up unit to turn off the input of the power supply unit through the data exchange unit so as to enable the system to enter a sleep mode.

The control unit firstly judges whether the system equipment meets the dormancy condition, and the judging method comprises the following steps: whether the file generated by the system equipment is completely imported into the control unit or not, and whether the control unit records information and backups the complete file to the server or not.

The automatic power supply control system can wake up the system equipment and turn off the power supply of the system equipment remotely through the cloud.

The cloud communication unit comprises a wireless communication mode or a wired communication mode.

The wake-up unit and the data exchange unit are directly powered by an external power supply.

The wake-up unit comprises a power supply standby module and a power supply control module.

The invention has the beneficial effects that:

1) The working power supply of each device is controlled by the automatic control system, so that the working state of each device in the system is conveniently and independently controlled;

2) The cloud remote wake-up system equipment can be enabled to enter a working mode, remote automatic control of the system equipment is achieved, a power switch is not required to be manually operated, labor cost is reduced, and working efficiency is improved;

3) The cloud remote control system equipment can enter a sleep mode, so that electric energy resources are saved, and the service life of the equipment is prolonged;

4) The working state of each part of the power supply of the system can be remotely and automatically monitored by the cloud, so that a remote monitoring effect is achieved;

5) The system equipment can be remotely controlled through the cloud.

Drawings

Fig. 1 is a system block diagram of the present invention.

Fig. 2 is a cloud remote wakeup flowchart according to the present invention.

Fig. 3 is a flow chart of cloud remote dormancy according to the present invention.

Fig. 4 is a flow chart of a single system device cloud remote control according to the present invention.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description.

The invention provides a power supply automatic control system with a cloud remote wake-up function, which comprises an instruction center, a data exchange unit and a power supply control system, wherein the power supply control system comprises a wake-up unit, a power supply unit, a control unit and system equipment.

The starting instruction sent by the instruction center is sent to the data exchange unit through the cloud communication unit, and after the data exchange unit sends the instruction to the awakening unit, the awakening unit automatically controls the starting of the input signal of the power supply unit, and the power supply unit enters a normal working state. After the power supply unit enters normal operation, the controller in the power supply unit automatically starts the control unit and the system equipment to input power, so that the control unit and the system equipment enter a normal operation state, and the purpose of remotely waking up the system in the cloud is achieved.

When the instruction center needs to enable the system equipment to enter a dormant state, the instruction sending center sends the dormant instruction to the data exchange unit through the cloud communication unit, the control unit firstly judges whether the system equipment meets dormant conditions after the dormant instruction is sent to the control unit through the data exchange unit, if the dormant instruction meets the conditions, the control unit sends the dormant instruction to the power supply unit, after the power supply unit receives the dormant instruction, the internal controller automatically turns off the control unit and the system equipment to input power, and the control unit simultaneously informs the wake-up unit to turn off the power supply unit through the data exchange unit, so that the system enters a dormant mode.

Whether the system equipment meets the dormancy condition is mainly judged by the control unit whether the file generated by the LKJ-simulated system equipment is completely imported into the control unit, and whether the control unit records information and backups the information to the server completely. The system equipment generates a file in a timing backup mode, the control unit applies the file to the system equipment at fixed time, and the system equipment receives the application and then sends the latest generated content; the control unit records information in a timing backup mode, the control unit actively backups the application, and the server passively receives the application.

As shown in fig. 1, the power supply unit is connected with an external power supply through a relay control switch, and when the cloud wake-up is needed, the wake-up unit turns off the control switch through controlling the relay, so that the power supply unit is communicated with the external power supply, and power supply input is obtained; when the system needs to enter a sleep mode, the wake-up unit turns off the control switch by controlling the relay, so that the external power supply turns off the power input to the power supply unit. The external power supply supplies power to the data exchange unit and the wake-up unit in real time in preparation for receiving the signal at any time.

As shown in fig. 1, the instruction center may be selected as a server and a client, and the instruction center communicates with the data exchange unit through the cloud communication unit. The cloud communication unit comprises a wireless communication mode and a wired communication mode.

As shown in fig. 2, a flow chart of remote wake-up in cloud using a server and a client is provided. The client transmits a command to the server, the server judges and forwards the command, specifically, if the server judges to turn on the command, the command is transmitted to the wake-up unit through the data exchange unit in a wireless communication mode or a wired communication mode, the wake-up unit analyzes the command after acquiring the command, the power supply unit is controlled to input signals to be turned on after acquiring the wake-up command, the power supply unit enters a normal working state, and other equipment in the system is automatically controlled to input power.

As shown in fig. 3, a flow chart of remote wake-up in cloud using a server and a client is provided. The client transmits instructions to the server, the server judges and forwards the instructions, specifically, if the server judges that the instructions are dormant, the instructions are transmitted to the control unit through the data exchange unit in a wireless communication mode or a wired communication mode, whether the platform meets dormant conditions is controlled and judged, if the conditions are met, the instructions are transmitted to the power unit, the power unit controls to close all paths of output, and then the power unit notifies the wake-up unit to close the input of the power unit through the data exchange unit, so that the whole system is dormant.

As shown in fig. 4, a single device remote control flow chart of the present invention is shown. The server processes the instruction, such as saving the instruction, and then forwards the instruction, the control unit judges whether the condition of starting or shutting down is met after receiving the instruction through the data exchange unit, namely whether the test instruction requires to start or shut down the power supply of the single device, and the like, if so, the control unit sends the instruction to the power supply unit, the power supply unit starts or shuts down the power supply of the corresponding device according to the instruction, the corresponding device is powered on or powered off, and the control of the power supply of the single device is ended.

In the system of the invention, the data exchange unit is responsible for the instruction interaction between the server and the automatic power supply control system, and the data exchange unit can select a switch or other data interaction equipment; the server obtains a power supply awakening instruction from the client and transmits the power supply awakening instruction to the awakening unit through the data exchange unit; after receiving the instruction, the wake-up unit controls the power supply unit to input a signal to turn on a power supply; after the power supply unit is electrified, the output of each path of the power supply is automatically controlled to be started. Similarly, the system power supply can be remotely controlled to enter a sleep mode.

As shown in fig. 1, the power supply automatic control system of the invention can also control the automatic switching of single equipment of system equipment between wake-up and sleep modes. Under the premise that the data exchange unit, the power supply unit and the control unit work normally, the server acquires a power supply on or sleep instruction from the external equipment and transmits the power supply on or sleep instruction to the control unit through the data exchange unit, the control unit analyzes the control instruction to acquire the content of the instruction and the equipment object acted by the instruction, and then the power supply of the corresponding equipment is connected through the power supply unit or is closed through the power supply unit according to the content of the control instruction.

The wake-up unit mainly comprises a power supply standby module and a power supply control module. When the power supply is in a dormant state or a power-off state, the power supply standby module is in a normal working state; when the power supply standby module receives an external wake-up instruction, the power supply control module is driven to enter a working state. Then, the power control module drives the relay to be connected with the input signal of the power unit through the switching value signal, so that the power unit enters a working state.

The power supply unit of the invention mainly comprises a power supply control module. The power control module can analyze and process the instruction sent by the control unit, and then drives the relay group to directly switch on/off the power supply of each device through the switching value signal.

The system equipment mainly refers to external equipment which needs to be remotely awakened through a cloud. The external device may be an LKJ system device, such as an LKJ host unit, an LKJ expansion unit, an LKJ human-machine exchange unit, or the like.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that several changes and modifications can be made without departing from the general inventive concept, and these should also be regarded as the scope of the invention.

Claims (5)

1. The utility model provides a possess long-range power automatic control system who wakes up function in high in the clouds which characterized in that: the system comprises an instruction center, a data exchange unit and a power supply control system, wherein the power supply control system comprises a wake-up unit, a power supply unit, a control unit and system equipment;

the method comprises the steps that an opening instruction sent by an instruction center is sent to a data exchange unit through a cloud communication unit, the data exchange unit sends the instruction to a wake-up unit, the wake-up unit opens a power supply unit for input, and the power supply unit enters a normal state; the controller in the power supply unit automatically starts the control unit and the system equipment to input power, so that the control unit and the system equipment enter a normal working state, and the purpose of remotely waking up the system in the cloud is achieved;

the method comprises the steps that a dormancy instruction sent by an instruction sending center is sent to a data exchange unit through a cloud communication unit, the data exchange unit sends the instruction to a control unit, the control unit firstly judges whether system equipment meets dormancy conditions, if the control unit meets the conditions, the control unit sends the dormancy instruction to a power supply unit, a controller in the power supply unit automatically turns off the input power of the control unit and the system equipment, and meanwhile the control unit informs the awakening unit to turn off the input of the power supply unit through the data exchange unit, so that the system enters a dormancy mode;

the control unit firstly judges whether the system equipment meets the dormancy condition, and the judging method comprises the following steps: whether the file generated by the system equipment is completely imported into the control unit or not, and whether the control unit records information and backups the complete file to the server or not.

2. The automatic power control system according to claim 1, wherein: the automatic power supply control system can wake up the system equipment and turn off the power supply of the system equipment remotely through the cloud.

3. The automatic power control system according to claim 1, wherein: the cloud communication unit comprises a wireless communication mode or a wired communication mode.

4. The automatic power control system according to claim 1, wherein: the wake-up unit and the data exchange unit are directly powered by an external power supply.

5. The automatic power control system according to claim 1, wherein: the wake-up unit comprises a power supply standby module and a power supply control module.