TWM455195U - Power saving management system using graphic controlling operation interface - Google Patents

Description

Power saving management system using graphic control operation interface

This creation is about a power-saving management system, especially a power-saving management system that uses a graphical control interface.

The traditional power-saving management system uses the data center management (DCM, Data Center Manager) as the host-side monitoring. In the execution of data browsing and monitoring, only one controlled terminal can be operated at the same time, but the underlying control operating program is still All controlled terminals are processed at the same time, and the human-machine interface of DCM also uses a relatively basic display, lack of management system, and DCM will need secondary development, and this creation provides a power-saving management using application of graphical control interface. The system enables the image control system to be effectively applied to the power-saving management system and fully realize its benefits.

The main purpose of this creation is to apply the graph-control conversion mechanism to the power-saving management system to provide a human-machine interface (HMI) for the operation of the graph control, which can be used to implement the power-saving management system more simply, correctly and quickly. control.

According to one of the features of the present invention, the present invention provides a power saving management system for applying a graphic control operation interface, which includes at least one electronic computer, a power measurement module, a control module and a server end; wherein At least one electronic computer includes a power supply unit, a disposal unit, a control unit, and a memory unit, the control unit being coupled to the disposal unit to control the disposal unit a working parameter, the memory unit includes a management simulation program; the power measurement module is connected to the power supply unit to measure the power consumption of the power supply unit; the control module is connected to the power The measurement module and the server end are configured to transmit the power consumption limit received from the server end and the power consumption received from the power measurement module to the at least one electronic computer, The control unit is controlled by the management simulation program to change the operating parameter of the disposal unit to control the power consumption of the power supply unit. The control module includes a map control conversion mechanism. The picture control conversion mechanism is used to instantly convert information, and displays the interface in a graphical manner on the server side for monitoring the state of the power saving management system.

According to another feature of the present invention, the present invention provides a power saving management system that includes a graphical control operation interface, including at least one electronic computer, a server end, and a power measurement module; wherein the at least one electronic computer includes a power supply unit, a treatment unit, a control unit, and a memory unit, the control unit is coupled to the treatment unit to control an operating parameter of the treatment unit, the memory unit is coupled to the server end, including a control simulation a program, a management simulation program, and a graphics control conversion program; the power measurement module is connected to the power supply unit to measure the power consumption of the power supply unit; the control simulation program is the server end The power consumption limit and the power consumption received from the power measurement module are transmitted to the management simulation program for comparison, thereby controlling the control unit to change the operating parameter of the disposal unit And controlling the power consumption of the power supply unit, the graphic control conversion program is used for real-time conversion of information, and is graphically controlled at the server end. An interface for monitoring the state of the power saving management system; wherein the control emulation unit receives the power consumption limit from the server end and the power consumption from the power measuring module, and Passing the power consumption limit and power consumption to the management simulation program, the management simulation program compares the power consumption limit and the power consumption. When the power consumption is greater than the power consumption limit, the management simulation program Controlling the control unit to change the operating parameter of the disposal unit, and reducing the power consumption of the power supply unit The amount is such that the power consumption is less than the power consumption limit.

In a preferred embodiment of the present invention, the data is processed by the map control conversion mechanism.

Please refer to FIG. 1. FIG. 1 is a schematic structural diagram of a preferred embodiment of the present invention. As shown in FIG. 1 , the power management system includes at least one electronic computer 21 , a power measurement module 22 , a control module 23 , and a server terminal 3 . The control module 23 is connected to the at least one electronic computer 21 . The power measurement module 22 is connected to the at least one electronic computer 21.

The at least one electronic computer 21 can be a server, a personal computer, a notebook computer or a palmtop computer, and the like, and includes a memory unit 211, a control unit 212, a processing unit 213, and a power supply unit 214, and a processing unit 213. The control unit 212 and the power supply unit 214 are respectively connected to the memory unit 211 and include a management simulation program 2112. The power supply unit 214 is connected to the power measurement module 22 for providing power of the at least one electronic computer 21. Group 23 includes a map control conversion mechanism 231.

The memory unit 211 is connected to the control unit 212 for controlling the data. The map control conversion mechanism 231 is configured to instantly convert information to display a human-machine interface on the server terminal 3 in a graphical manner for the user to save power. The state of the management system is monitored; the management simulation program 2112 is used to simulate the function of the node manager; the control unit 212 is configured to control one of the operating parameters of the processing unit 213, and the operating parameters may be, for example, an operating frequency or an operating voltage.

The power measurement module 22 is connected to the power supply unit 214 for measuring the power consumption thereof; the control module 23 is used to simulate the function and wisdom platform of the known Baseboard Management Controller (BMC). An Intelligent Platform Management Interface (IPMI) communication method that receives power consumption from the electronic measurement module 22 and from the servo The power consumption limit of the terminal 3 can be immediately returned to the command required by the server terminal 3.

The control module 23 is connected to the power measurement module 22 and the server terminal 3 for transmitting the power consumption limit of the server terminal 3 and the power consumption received by the power measurement module 22 The at least one electronic computer 21 is compared by the management simulation program 2112 to control the control unit 212 to change the operating parameters of the processing unit 213, thereby controlling the power consumption of the power supply unit 214.

In this embodiment, the power measurement module 22 and the control module 23 are disposed outside the at least one electronic computer 21, and the power measurement module 22 is connected to the power supply unit 214 through the RS232 interface, and through the RS232 or The RS485 interface is connected to the control module 23, and the control module 23 is connected to at least one electronic computer 21 via, for example, a universal serial bus (USB) or RS232 interface. In other embodiments, the power measurement module 22 and the control module 23 can also be disposed inside and connected to at least one electronic computer 21 by means of an interface card or the like.

The power measurement module 22 is preferably located on an AC circuit of the power supply unit 214 and is coupled to the power supply unit 214 and the control module 23 for measuring the power consumption of the AC circuit supplied to the power supply unit 214.

In a preferred embodiment of the present invention, the management simulation program 2112 receives power consumption limits and power consumption from the control module 23 for comparison. When the power consumption is greater than the power consumption limit, the management simulation program 2112 controls the control unit 212 through the memory unit 211 to change the operating parameters of the processing unit 213, thereby reducing the power consumption of the power supply unit 214, thereby reducing power consumption. The amount is less than the power consumption limit.

Referring to FIG. 2, FIG. 2 is a schematic structural diagram of another preferred embodiment of the present invention. As shown in FIG. 2, the power-saving management system includes at least one electronic computer 21 and a power measurement module 22, and at least one electronic computer system 21 Connected to the power measurement module 22 and a server terminal 3.

The at least one electronic computer 21 includes a memory unit 211, a control unit 212, a processing unit 213, and a power supply unit 214. The processing unit 213 is connected to the control unit 212 and the power supply list, respectively. The memory unit 211 includes a management simulation program 2112 and a control simulation program 2113. The power supply unit 214 is connected to the power measurement module 22 for providing power of at least one electronic computer 21.

In this embodiment, the function of the control module 23 in the previous embodiment is replaced by the control simulation program 2113 to simulate the function of the conventional BMC and the IPMI communication mode, which requires the use of at least one unused computer 21. The network is connected to the server terminal 3.

The control simulation program 2113 receives the power consumption limit of the server terminal 3 and the power consumption of the power measurement module 22, and transmits the power consumption limit and power consumption to the management simulation program 2112 for comparison. When the power consumption is greater than the power consumption limit, the management simulation program 2112 controls the control unit 212 through the memory unit 211 to change the operating parameters of the processing unit 213, thereby reducing the power consumption of the power supply unit 214, thereby making it Less than the power consumption limit.

Since the power-saving management system of the application control interface of the creation is automatically converted by the graphic conversion program and displayed on the server 3 by the human-machine interface, the purpose of real-time monitoring and automatic reward can be effectively achieved. In addition to making each operation process more correct, independent and fast, it can effectively reduce the human burden and reduce costs. In addition, since the graphics control conversion mechanism can be used to change various settings, the user can change the displayed human-machine interface according to the needs or uses, and therefore is quite flexible and expandable in use.

The above-described embodiments are merely examples for convenience of description, and the scope of the claims is intended to be limited to the above embodiments.

100‧‧‧Industrial systems

11‧‧‧Monitoring unit

12‧‧‧Human Machine Interface

13‧‧‧Controlled unit

21‧‧‧Electronic computer

211‧‧‧ memory unit

2111‧‧‧Graphics conversion program

2112‧‧‧Management simulator

2113‧‧‧Control simulator

212‧‧‧Control unit

213‧‧‧Disposal unit

214‧‧‧Power supply unit

22‧‧‧Power Measurement Module

23‧‧‧Control Module

231‧‧‧Graphic control conversion mechanism

3‧‧‧Server side

1 is a schematic diagram of the architecture of a preferred embodiment of the present invention.

2 is a block diagram showing another preferred embodiment of the present invention.

21‧‧‧Electronic computer

211‧‧‧ memory unit

2111‧‧‧Graphics conversion program

2112‧‧‧Management Simulation Program

2113‧‧‧Control Simulator

212‧‧‧Control unit

213‧‧‧Disposal unit

214‧‧‧Power supply unit

22‧‧‧Power Measurement Module

3‧‧‧Server side

Claims (16)

A power saving management system using a graphic control operation interface, comprising at least one electronic computer, a power measurement module, a control module and a server end, wherein the at least one electronic computer is connected to the server end; wherein At least one electronic computer includes a power supply unit, a processing unit, a control unit, and a memory unit, the control unit is coupled to the processing unit to control an operating parameter of the processing unit, and the memory unit includes a management simulation program The power measurement module is connected to the power supply unit to measure the power consumption of the power supply unit; the control module is connected to the power measurement module, and the server end, The power consumption limit of the server end and the power consumption received from the power measurement module are transmitted to the at least one electronic computer for comparison by the management simulation program, thereby controlling the control unit. To change the operating parameter of the disposal unit, thereby controlling the power consumption of the power supply unit; the control module includes a map control conversion mechanism, and the map control The mechanism is used for converting information, and displaying a human-machine interface in a graphical manner on the server for monitoring the state of the power-saving management system; wherein the management simulation program compares the power consumption limit and the consumption The power consumption, when the power consumption is greater than the power consumption limit, the management simulation program controls the control unit to change the operating parameter of the disposal unit, and reduce the power consumption of the power supply unit to make the power consumption The power is less than the power consumption limit, and the control module can immediately respond to the power consumption of the power supply unit to the server end. For example, the power saving management system using the graphic control operation interface described in claim 1 of the patent scope, wherein the graphic control conversion mechanism processes the data by using a SCADA application. The power saving management system for applying the graphic control operation interface according to the first aspect of the patent application, wherein the power measuring module is located on an alternating current circuit of the power supply unit to measure the power consumption on the alternating current circuit. The power consumption management system of the application of the graphical control operation interface of claim 1, wherein the power measurement module and the control module are disposed inside or outside the at least one electronic computer. The power saving management system of the application of the graphic control operation interface according to the first aspect of the invention, wherein the power measurement module and the at least one electronic computer are connected through an RS232 interface. The power saving management system of the application of the graphic control operation interface, as described in claim 1, wherein the power measurement module and the control module are connected through an RS232 or RS485 interface. The power saving management system of the application of the graphic control operation interface according to the first aspect of the invention, wherein the control module and the at least one electronic computer are connected through a universal serial bus or RS232 interface. The power saving management system of the application of the graphic control operation interface according to the first aspect of the invention, wherein the at least one electronic computer can be a server, a personal computer, a notebook computer or a palmtop computer. A power saving management system using a graphically controlled operating interface, comprising at least one electronic computer and a power measuring module, the at least one electronic computer being connected to a server end; wherein the at least one electronic computer comprises a power supply unit, a processing unit, a control unit, and a memory unit connected to the processing unit to control an operating parameter of the processing unit, the memory unit being connected to the server end, including a control simulation program and a management simulation a power measurement module is connected to the power supply unit to measure the power consumption of the power supply unit; the control simulation program is a power consumption limit of the server end, and the power consumption amount The power consumption received by the test module is transmitted to the management simulation program for comparison, thereby controlling the control unit to change the operating parameter of the disposal unit, thereby controlling the power consumption of the power supply unit; The memory unit includes a graphics control conversion program, the graphics control conversion program is used to convert information, and is controlled by the server. The method displays a human-machine interface for monitoring the state of the power-saving management system; wherein the control simulation program receives the power consumption limit from the server end and the power consumption from the power measurement module And passing the power consumption limit and power consumption to the management simulation program, the management simulation program compares the power consumption limit and the power consumption, and when the power consumption is greater than the power consumption limit, the management The simulation program controls the control unit to change the operating parameter of the disposal unit, and reduces the power consumption of the power supply unit, so that the power consumption is less than the power consumption limit. For example, the power saving management system using the graphic control operation interface described in claim 9 of the patent scope, wherein the graphic control conversion mechanism processes the data by using a SCADA application. The power saving management system for applying the graphic control operation interface according to claim 9 , wherein the power measuring module is located on an alternating current circuit of the power supply unit to measure the power consumption on the alternating current circuit. The power saving management system of the application of the graphical control operation interface of claim 9, wherein the power measurement module and the control module are disposed inside or outside the at least one electronic computer. The power saving management system of the application of the graphic control operation interface of claim 9, wherein the power measurement module and the at least one electronic computer are connected through an RS232 interface. For example, the power saving management system using the graphic control operation interface described in claim 9 wherein the power measurement module and the control simulation program are connected through an RS232 or RS485 interface. The power saving management system of the application of the graphic control operation interface according to claim 9, wherein the control simulation program and the at least one electronic computer are connected through a universal serial bus or RS232 interface. The power saving management system using the graphic control operation interface according to claim 9 , wherein the at least one electronic computer can be a server, a personal computer, a notebook computer or a palmtop computer.