KR20130082958A - Power supply system for internet data center and power management method thereof - Google Patents

Abstract

PURPOSE: A power supply system of the Internet data center and a power management method using thereof are provided to consider the power supply amount and the power quality of the power source which is supplied to the Internet data center and are provided to select/supply the power source differently to the equipment and operation facility, thereby enhancing the operation efficiency of the Internet data center and implementing the stable power supply. CONSTITUTION: A power source management device (110) collects the power information about the power source and set up the power rating of the power source. An equipment operation management device (130) classifies the equipment and operation facility of the Internet data center into the equipment rank group by the importance. A power supply management device (150) matches the power rating and the equipment rank group and selects the power ranking corresponding to the equipment rank group. The power supply management device differentially supplies the power source of the power rating of the equipment and operation facility. The power source management device comprises a power information collecting unit, a power rating set up unit, and the power database. [Reference numerals] (110) Power source management device; (130) Equipment operation management device; (150) Power supply management device

Description

Technical Field [0001] The present invention relates to a power supply system for an Internet data center and a power management method using the same,

The present invention relates to a power supply system for an Internet data center and a power management method using the power supply system. More particularly, the present invention relates to a power supply system for a plurality of power sources, The power supply system of the Internet data center that differentiates electricity supply to each equipment and operation equipment by classifying power class and equipment rank group by classification and power supply system to each equipment and operation equipment of internet data center differently by using it Power management methods.

Internet Data Center (IDC) is a term that comes up with the growth of the Internet business. It is outsourced to corporate and individual customers to lease computer equipment or network equipment or to provide maintenance services It is also called 'server hotel'. After establishing the Internet Computing Center, it will manage the company's Internet servers instead of the companies like the hotel.

These Internet data centers operate and manage server equipment and communication equipment, which are burdensome to operate by individual companies, and are equipped with state-of-the-art facilities, security, and perfect communication networks.

In particular, since Internet servers are very sensitive to environmental conditions such as humidity, temperature and power, they must have stability and network that maintain uninterrupted 24-hour status.

1 shows a power supply configuration diagram of a typical Internet data center.

In FIG. 1, a redundant power supply system is constructed. In the duplexed power supply system, any one power is selectively supplied to a dual power source 10 composed of a power source A and a power source B, To the server 50, which is the corresponding equipment, and at the same time, to the operating facility 60 of the Internet data center.

Further, when electric power supply is cut off due to the occurrence of a static electricity or the like with respect to all the power sources 10, electric power is supplied to the equipment 50 and the operation equipment 60 through its own emergency power generation facility 20.

As shown in FIG. 1, except for the unavoidable situation where an abnormality occurs in the equipment 50, the present Internet data center is continuously running servers and communication equipments for 24 hours. In order to secure service stability, So that power can be supplied from the redundant power source 10.

The power supply system of the Internet data center receives power from two different power plants, and all power distribution stages from the input of the external grid power to the power supply of the computer system are duplicated unlike the general buildings, It is possible to operate the Internet data center continuously without interruption of the main equipment and services due to the power supply system continuously supplied from other transmission stations even in case of unjustification of the supply of one transmission station such as disconnection or power failure Do.

The current Internet data center uses the power of each transmission station equally, and neither power should be completely shut off. However, when the power supply is multiplexed according to the smart grid construction, the reliability of the power supply, the power quality, the power price, and the power generation amount are different for each power source. In order to increase the efficiency of power use while maintaining the reliability of the Internet data center, It is necessary to control the power supply in consideration of the information, the user's requirements, and the stability of the equipment.

In particular, in the case of a smart grid environment where the power supply source is diversified, unlike a typical home or building, the Internet data center is not free from power supply cut-off, There is a need for a method for operating this.

SUMMARY OF THE INVENTION The present invention has been made in an effort to solve the problems of the prior art as described above, and the reliability, power quality, power price, In order to improve the efficiency of power usage while maintaining the reliability of the data center, the main purpose is to provide a power management system capable of adjusting the power supply amount in consideration of power source information, user requirements, and stability of the equipment.

Particularly, since the quality and price of electric power supplied from a plurality of power sources are different, a power management system capable of supplying different power to each equipment according to customer's preference or importance of equipment is provided.

According to a first aspect of the present invention, there is provided a power supply system for an Internet data center (IDC), comprising: a power supply system for collecting power information for a plurality of power sources, A power source management device for setting; A device operation management device for classifying the equipment rank group according to the importance of each equipment and operation equipment of the Internet data center; And a power supply management device for selecting the power class corresponding to the equipment rank group by matching the power class and the equipment rank group and differentially supplying a power source of the corresponding power class to each of the equipment and the operation equipment And the power supply system of the Internet data center.

Preferably, the power source management device includes: a power information collection unit for collecting power information including power supply availability, power quality, and price information for each of a plurality of power sources; A power class setting unit for setting and classifying a power class for each power source based on the power quality and price information; And a power database for matching and storing the power class and the power supply availability for each of the power sources.

The equipment operation management device includes: an equipment information collection unit for collecting equipment information including customer information entrusted to the operation of each equipment and operation state information of each equipment and operation equipment; A device ranking group calculating unit for assigning predetermined weighting values to device information of each equipment and operation equipment to calculate importance and classifying the equipment rank group of each equipment and operation equipment based on the importance; And an equipment database for matching and storing the equipment rank group and the customer information for each of the equipment and the operation equipment.

The power supply management apparatus may further include a selection unit that selects the power class corresponding to the equipment rank group by matching the power rank and the equipment rank group in association with the power source management apparatus and the equipment operation management apparatus, A power source selection unit for determining a power source of the power class corresponding to the equipment and the operation equipment; And a power supply unit for receiving power from each of the plurality of power sources separately and for supplying power to each of the equipment and the operation equipment according to a result of the determination by the power source selection unit, And a power supply unit for differentially supplying the power source.

Further, the power supply management apparatus may further include an emergency power operation unit for preferentially supplying the electric power generated from the emergency power generation facility according to the order of the equipment ranking group.

Preferably, the power information about the power source is received from a corresponding power company or a transmission station, and the customer information of the Internet data center and the operating status information of each equipment and operating facilities are received, And a communication unit installed in the management apparatus and the power supply management apparatus, respectively, for transmitting data information.

In a second aspect of the present invention, there is provided a method of managing power using a power supply system of an Internet data center (IDC), the method comprising: collecting power information for a plurality of power sources, A power class setting step of setting a power class; An equipment rank grouping step of determining the customer rank based on the customer information and classifying the equipment rank group according to the importance of each equipment and operating equipment of the Internet data center; And a power supply step of selecting the power class corresponding to the equipment rank group by matching the power class and the equipment rank group and differentially supplying a power source of the corresponding power class to each of the equipment and the operation equipment The power management method of the Internet data center.

Preferably, the power class setting step includes: a power information collection step of collecting, in real time or periodically, power information including power supply availability, power quality, and price information for each of a plurality of power sources from a power company or a transmission power source; Setting a weight for power quality and price, calculating a power evaluation value by summing weights for power quality and price information of each power source; A power class determination step of classifying each power source according to a predetermined grade range based on a power evaluation value of each power source and determining a power class for each power source; And a power class storing step for storing the power class for each power source and the power information in the power database.

The equipment rank grouping step may include collecting equipment information of the Internet data center in real time or periodically collecting customer information entrusted to each equipment and operating status information of each equipment and operating equipment; A customer class setting step of classifying the customer class according to the use frequency and the usage amount based on the customer information; A weight calculating step of calculating a weight by setting a weight for each criterion and summing weights for the respective equipments and operating equipments; A device rank grouping step of determining a device rank group of each device and an operation facility according to a predetermined rank range based on the importance of each of the devices and the operation facilities; And a device rank group storing step of storing the equipment rank and the customer rank in the equipment database by matching the equipment rank and the customer rank with respect to each of the equipment and the operation equipment.

In the importance calculating step, the data processing frequency, the user access amount, the data transmission traffic amount, and the operation contribution of the Internet data center may be set as determination criteria, and weights may be set for each determination criterion.

And the power supply step includes sequentially matching the power class and the equipment rank group; A power source selecting step of selecting a power source to be supplied to the equipment according to a ranking of customer ratings of the equipment belonging to the equipment rank group in consideration of the power supply possible amount of the power source belonging to the power rank; And a power supply step for differentially supplying a power source selected through the UPS or distribution allotted to each equipment and operating facility.

Preferably, the power source selection step further comprises providing information on a power source having an available power supply availability to the customer, and assigning the selected power source to the customer's equipment according to the customer's selection It is possible.

And may further include an emergency power supply step of supplying the electric power generated by the emergency power generation facility to the respective equipment and the operation equipment according to the order of the equipment rank order due to the abnormal occurrence of the electric power supply.

According to the present invention, by selecting and supplying power sources differently to each equipment and operating facilities considering power supply quantity and power quality for a plurality of power sources supplied to an Internet data center, And stable power supply becomes possible.

In particular, it supplies high-quality power sources that maintain uniform waveforms and constant voltage to high-value equipment, while supplies a certain level of power source to relatively low-importance equipment, while protecting critical equipment, The reliability of the Internet data center can be increased.

In addition, customers can choose a power source that has the desired quality and price in terms of customers who use the Internet data center, thereby increasing the satisfaction level of the users. On the operator side, it is possible to collect different fees for the use of the Internet data center, .

1 shows a power supply configuration diagram of an Internet data center according to the prior art,
2 schematically shows a power supply configuration diagram of an Internet data center in which a power supply system according to the present invention is disposed,
Figure 3 shows a schematic diagram of an embodiment of a power supply system according to the invention,
4 shows a schematic configuration diagram of each device of the power supply system according to the present invention,
Figure 5 shows a schematic flow diagram of an embodiment of a power management method using a power supply system according to the present invention,
FIG. 6 shows a flowchart of an embodiment of the power level setting process in the embodiment of FIG. 5,
FIG. 7 shows an embodiment of power level setting for each power source according to the power level setting procedure of FIG. 6,
FIG. 8 shows a flowchart of an embodiment of the equipment rank grouping process in the embodiment of FIG. 5,
FIG. 9 shows an embodiment in which the equipment rank groups are sorted according to the equipment rank group classification process of FIG. 8,
FIG. 10 shows a flowchart of an embodiment of a power source selection process for each equipment in the embodiment of FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

First, the terminology used in the present application is used only to describe a specific embodiment, and is not intended to limit the present invention, and the singular expressions may include plural expressions unless the context clearly indicates otherwise. Also, in this application, the terms "comprise", "having", and the like are intended to specify that there are stated features, integers, steps, operations, elements, parts or combinations thereof, But do not preclude the presence or addition of features, numbers, steps, operations, components, parts, or combinations thereof.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In consideration of the fact that different power sources are supplied from a plurality of power sources in accordance with the establishment of a smart grid environment and the characteristics of the Internet data center are taken into consideration, the present invention can supply power differentially for each equipment The power management system of the Internet data center and the power supply method using it.

2 schematically shows a power supply configuration diagram of an Internet data center in which a power supply system according to the present invention is disposed.

Referring to FIG. 2, a power supply configuration of an Internet data center in which a power supply system according to the present invention is disposed will be described. A power source A 10a, a power source B 10b,. The power generated by the emergency power generation facility 20 is also supplied to the power supply system 100 in response to the power supply system 100 receiving power from the power source N 10n, 100).

The power supply system 100 receives power information for a plurality of power sources 10 or measures incoming power to obtain power information and sets a power rating based on the power information of the plurality of power sources 10 The configuration and the process of setting the power level will be described in the following embodiments.

The power supply system 100 also differentially supplies the plurality of power sources 10 through the distribution system 30 connected to the equipment 50 and the operating facility 60 disposed in the Internet data center, 2, power is supplied through the UPSs 30a, 30b, and 30c individually connected to the respective devices 50a and 50b. However, depending on circumstances, a plurality of power distribution boards may be configured to distribute the power supply lines to the respective devices Although the power supply system 100 is shown in one configuration in FIG. 2, it is possible to classify the plurality of power sources 10 individually and to divide each power source 10 into individual UPSs And optional power transmission lines for connecting to the first half 30a, 30b, and 30c.

The power supply system 100 acquires operational status information about each of the equipment 50a and 50b and the operating equipment 60 and acquires information about the customers of the equipment 50a and 50b to provide the equipment 50 and operation And classifies the equipment rank group for the facility (60). Then, the power class and the equipment rank group are matched in order and the power source of the corresponding power class is supplied to the corresponding equipment. Here, the configuration for classifying the equipment rank group and the configuration and process for differentiating power supply will be described in the following embodiments.

Furthermore, the Internet data center may be divided into zones A to N, and equipment and operating facilities belonging to the same equipment group may be installed in each zone to supply power sources of the corresponding power class by zone.

The main characteristic configuration of the present invention for the efficient power supply of an Internet data center is shown as a power supply system, Fig. 3 shows a schematic diagram of an embodiment of a power supply system according to the present invention.

The power supply system 100 according to the present invention includes a power source management device 110, an equipment operation management device 130, and a power supply management device 150.

The power source management apparatus 110 collects power information for a plurality of power sources and sets a power level for each power source based on the collected power information. FIG. 4 (a) ) Of the power source management device 110 of FIG.

The power source management device 110 may include a power information collection unit 111, a power rating setting unit 113, a power database 115, and a first communication unit 117.

The power information collection unit 111 collects power information including power supply availability, power quality, price information, and the like for each of a plurality of power sources, and the power rating setting unit 113 sets the power quality, And sets and classifies power classes for a plurality of power sources based on price information and the like.

The first communication unit 117 controls the power source management unit 110 to transmit power and power information from a power company or a transmission power source to the power source management unit 110. [ And provides communication means for receiving information or interworking with the equipment operation management device 130 or the power supply management device 150. The communication method used herein may be applied to various wired and wireless communication methods.

Each of the power levels of the plurality of power sources is set through the configuration of the equipment operation management device 130 as described above.

3, the equipment operation management apparatus 130 classifies the equipment rank groups according to the importance of each equipment and operation facilities disposed in the Internet data center. FIG. 4 (b) 100 to the equipment operation management device 130 according to an embodiment of the present invention.

The equipment operation management device 130 may include an equipment information collection unit 131, an equipment rank group calculation unit 133, an equipment database 135, and a second communication unit.

The equipment information collecting unit 131 collects equipment information including information of a customer entrusted to operate the equipment in the Internet data center and operation state information of each equipment and operation equipment, We set the criteria for judging the importance and weights for each criterion, and weights the weights based on the equipment information of each equipment and operation equipment to calculate the importance. Then, each equipment and operation equipment is classified into equipment ranking groups according to the calculated importance.

The second communication unit 137 is connected to the equipment operation management unit 130 through a server of the Internet data center. The second communication unit 137 stores the equipment information, A communication means for receiving the customer information and acquiring the set value information inputted by the manager and obtaining the operation state information about the operation state of each equipment and the operation facility, And provides communication means for interlocking with the device 150. [

In consideration of the type of equipment and operating facilities installed in the Internet data center, and the services provided by the equipment operation management unit 130, priority is given to each equipment and operating facilities according to options set by the administrator .

3, the power supply management device 150 operates in conjunction with the power source management device 110 and the equipment operation management device 130 to match the power class and the equipment rank group to the equipment rank group (C) of FIG. 4, the power supply management system 100 of the power supply system 100 selects the corresponding power class, and supplies the power source to each equipment and operation equipment of the Internet data center differently based on the selected power class. Gt; 150 < / RTI >

The power supply management device 150 may include a power source selection unit 151, a power supply unit 153, and a third communication unit 157.

The power source selection unit 151 selects the power class corresponding to the equipment rank group by matching the power rank and the equipment rank group in cooperation with the power source management unit 110 and the equipment operation management unit 130 , The power source is determined according to the equipment rank group to which each equipment and operation equipment belongs.

The power supply unit 153 receives each of the powers individually from the plurality of power sources and receives the power of each equipment through the entirety of the UPS or the distribution associated with the respective equipment and the operation equipment according to the determination result of the power source selection unit 151 And power supplies to the operating facilities differentially.

The third communication unit 157 provides communication means for interworking with the power source management device 110 or the equipment operation management device 150, and various wired / wireless communication methods can be applied to the communication method used.

By arranging the power supply system according to the present invention in the Internet data center, it is possible to differentiate the power source for each equipment and the operating equipment considering the power supply amount and power quality for a plurality of power sources supplied to the Internet data center By choosing to supply, the operation efficiency of Internet data center can be increased and stable power supply becomes possible.

Hereinafter, a method of managing power of an Internet data center using the power supply system according to the present invention will be described in detail with reference to embodiments.

5 shows a schematic flow diagram of an embodiment of a power management method using a power supply system according to the present invention.

The power management method of the Internet data center according to the present invention includes a process of setting each power class for a plurality of power sources (S150) and a process of classifying each equipment and operating facilities disposed in the Internet data center into equipment rank groups S250) and selecting a power source for each device in consideration of the power class and the group of equipment rankings (S300).

Herein, the process of setting the power class (S150) and classifying the equipment rank group (S250) may be performed either at first or at the same time depending on the situation.

First, the power source management apparatus 110 transmits (S110) power information for a plurality of power sources 10, and collects power information for each power source 10 Power quality, power price, power supply availability, etc. These information may be obtained by measuring the voltage, current and waveform for each power acquired or provided from the power company or corresponding power transmission station, You may.

Such power information can be obtained periodically or in real time, and can be provided to a manager or a customer of an Internet data center through a web server or a portable terminal. Based on the provided power information, an administrator or a customer can supply Power can be adjusted.

6 is a flowchart illustrating a process of setting a power level according to an embodiment of the present invention. Referring to FIG. 6, the power level of each power source 10 is set based on the collected power information (S170) FIG. 6 shows a flow chart of an embodiment of the setting process. FIG.

When the power information including the power quality, the power price, and the power supply availability is collected (S151), a determination criterion for calculating the power estimation value of the power source among the power information is set. For example, And the like can be considered. After setting each of the power weights to the above criteria (S153), the power weights are assigned to the plurality of power sources 10, and the calculated power weights are summed to calculate a power evaluation value for each power source 10 (S155 )do.

Then, the power evaluation value of each power source 10 is classified according to the predetermined grade range, and the power rating for each power source 10 is determined (S157). Further, the determination criterion for setting the power rating may be set as various options according to the equipment operation plan as well as the power information, or may be set according to a default setting value of the manager.

FIG. 7 illustrates an example of power level setting for each power source in accordance with the power level setting process of FIG. 6, in which the power level of each of the plurality of power sources 10 is determined.

For example, when there are five power sources from the power source A to the power source E, the power quality and the power price are set as determination criteria in the embodiment of FIG. 7, and the power weights for the determination criteria are set as upper, And three stages. In the embodiment of FIG. 7, the power source A and the power source B are classified into the first class, which is the highest power class, and the power class A, And the source C and the power source D are rated 2 and the power source E is rated 3 being the lowest power rating.

5, when the power class for each of the plurality of power sources 10 is set (S150), the power class and the power information for each power source 10 are stored (S170) The power source management device 110 transmits the power level and the power information of the power source 10 at the request of the power supply management device 150 (S190).

Next, the process of classifying the equipment rank group for each equipment and the operation equipment of the Internet data center will be described. The equipment operation management unit 130 transmits operation status information from each equipment 50 (S210) Information on each equipment and operation equipment collected by the equipment operation management device 130 may include information on the customer, information on the type of equipment input from the manager, equipment power consumption, equipment Installation location, and so on.

FIG. 8 is a flowchart illustrating a process of classifying a group of equipment for each equipment based on the equipment-related information (S250) or setting a customer rating of the customer. A flow chart of an embodiment of the equipment rank grouping process in the embodiment is shown.

The equipment operation management device 130 collects customer information and operation state information (S251). Here, the collected customer information may include the number of times of use by the customer, the usage fee, and the like. , Data retention, amount of traffic, number of user accesses, and operational contribution to the Internet data center. Such various information may be acquired according to the inputs of a server or an administrator of the Internet data center.

In step S253, the customer's rating is sorted based on the collected customer information. In step S255, the equipment weight is set according to the equipment judgment criteria for calculating the equipment importance in the collected equipment information. For example, The device weight can be assigned to each judgment criterion based on the degree of data processing, data retention, traffic volume, user access frequency, and operational contribution. (S257) by calculating the importance of the equipment by summing the weights of the equipment and the operation equipments, classifying the importance of the equipments of the equipments and the equipments of the equipments and the equipments of the equipments and the equipments of the equipments (S259).

FIG. 9 is a flow chart illustrating a method of classifying equipment rank groups for each equipment according to the equipment rank group classification process of FIG. 8, according to an embodiment of the present invention. Fig.

Referring to FIG. 9, a group of equipment rankings is classified into a first group, a second group, and a third group, each of which has a large amount of traffic and a constant connection with a cloud service main server and a commercial service providing server, Switches, and first routers were found to be highly important, and IDC operation main server was considered to be highly important in consideration of the operational contribution of the Internet data center.

These equipments and operating equipments are classified as a group of equipments.

In addition, cloud backup servers, IDC subservers, which are mainly responsible for backup and data retention, S-homepage server and Y-company database, which have not frequent connection with high traffic and have high traffic, The UPS charge / discharge devices and lighting equipment, which are calculated as 2 groups of equipment rank, and which have relatively low operating frequency of the K enterprise database and Internet data center with low access frequency and traffic, And the other three groups.

5, the power management apparatus 110 sets a power rating for each of the plurality of power sources 10 (S150) and provides the power ratings to the power supply management apparatus 150 (S190) , And the equipment operation management device 130 classifies the equipment rank group for each equipment and operation equipment (S250) and transmits it to the power supply management device 150 (S290).

The power supply management apparatus 150 selects a power source to be supplied for each equipment (S300). FIG. 10 shows a flowchart of an embodiment of a power source selection process for each equipment in the embodiment of FIG.

First, the power supply management apparatus 150 sequentially matches each power class and the equipment rank group (S310). For example, in the embodiment of FIG. 7 and the example of FIG. 9, The power class 2 is matched to the equipment group 2, and the power class 3 is matched to the equipment group 3. Furthermore, the power class and the equipment rank group can be matched in consideration of the power supply availability of each power class and the power consumption of equipment and operation equipment included in each equipment rank group.

When the power class and the equipment rank group are matched (S310), since the power supply availability of the power sources included in each power class is different, the power source of the corresponding power class is selected from the equipment of the customer having the highest customer rank (S330) .

The power source can be selected through the above process. However, depending on the situation set by the manager, the power source of the lower power class or the lower power class May be selected.

Preferably, after the process of selecting a preferred power source (S330), information on the power source having a margin for the available power supply is provided to the customer (S350), and based on the provided information, The power source may be selected (S370).

To this end, customers residing in the Internet data center can adjust the weight of electricity to be supplied to their own equipment by connecting to the power supply system, and also determine the power quality and power price for each equipment It is possible.

Furthermore, if a power source that reaches the limit of the cumulative supply amount by the power source supplied to the selected equipment through the above-described process occurs, the power source that does not reach the limit value for all the equipment whose power source is not determined It can also be set in batch.

Through this process, the selected power source is allocated to each equipment and the operation equipment (S390), and a different power source is allocated according to each equipment and operation equipment.

5, power from the plurality of power sources 10 is supplied to the power supply device 150 (S410), and power of the corresponding power source is supplied to each device and the operation equipment (S450) .

According to the power management method of the Internet data center according to the present invention, a power source having a high power quality is supplied as a main power to equipment having a relatively high importance and reliability, and another power source having a relatively low power quality It is possible to supply the power source for the backup power and adjust the power supply ratio by time according to the operation plan of the customer inputted according to the stability and the value of the operation cost.

Furthermore, in consideration of the operational aspects of the Internet data center, preference is given to reducing the operating cost by selecting a supplier with a low electricity price. In the case of cooling, the cooling pattern is grasped. When the cooling is required, It is also possible to preferentially control the supply of electricity for the operation cost.

In addition, the system has differential management of equipment according to the priorities of customers and differentiation of rates. Through this system, the real-time management cost can be calculated according to the price of the power source used by the customer.

Further, when a power failure occurs in any one of the power sources or all the power sources, it is possible to preferentially supply the electric power produced by the emergency power generation facility to each equipment and operation equipment according to the rank of the equipment rank group, It is possible to operate the apparatus more reliably in order to maintain the reliability.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments described in the present invention are not intended to limit the technical idea of the present invention but to explain, and the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

10, 10a, 10b, ... 10n: power source, 20: emergency power generation facility,
30, 30a, 30b, ... 30n: UPS / distribution front,
50, 50a, 50b, ... 50n: equipment, 60, 60a: operating equipment,
100: power supply system,
110: power source management unit, 111: power information collection unit,
113: power class setting unit, 115: power database,
117: first communication unit,
130: equipment operation management unit, 131: equipment information collection unit,
133: equipment rank group calculation unit, 135: equipment database,
137: second communication unit,
150: power supply management device, 151: power source selection unit,
153: power supply unit, 157: third communication unit.

Claims (13)

In a power supply system of an Internet data center (IDC)
A power source management device for collecting each power information for a plurality of power sources and setting a power rating for the power source based on the collected power information;
A device operation management device for classifying the equipment rank group according to the importance of each equipment and operation equipment of the Internet data center; And
And a power supply management device for selecting the power class corresponding to the equipment rank group by matching the power class and the equipment rank group and differentially supplying a power source of the corresponding power class to each equipment and operation equipment The power supply system of the Internet data center. The method of claim 1,
The power source management apparatus includes:
A power information collecting unit for collecting power information including power supply availability, power quality, and price information for each of a plurality of power sources;
A power class setting unit for setting and classifying a power class for each power source based on the power quality and price information; And
And a power database for matching and storing the power class and the power supply availability for each of the power sources. The method of claim 1,
The equipment operation management device includes:
An equipment information collecting unit for collecting equipment information including customer information entrusted with the operation of each equipment and operation state information of each equipment and operation equipment;
A device ranking group calculating unit for assigning predetermined weighting values to device information of each equipment and operation equipment to calculate importance and classifying the equipment rank group of each equipment and operation equipment based on the importance; And
And an equipment database for matching and storing the equipment rank group and the customer information for each of the equipment and the operation equipment. The method of claim 1,
The power supply management device includes:
The power management apparatus and the equipment operation management apparatus, the power class and the equipment rank group are matched with each other to select the power rank corresponding to the equipment rank group, and the corresponding power A power source selection unit for determining a power source of the class; And
And a controller for receiving power from each of the plurality of power sources individually and receiving power from each of the plurality of power sources individually and supplying power to each of the equipment and the operation equipment through a UPS or a distribution- And an electric power supply unit for supplying the electric power to the electric power source differentially. The method of claim 1,
The power supply management device
Further comprising an emergency power operation unit for preferentially supplying the electric power generated from the emergency power generation facility according to the order of the equipment rank order group. 6. The method according to any one of claims 1 to 5,
Receiving power information for the power source from a corresponding power company or a transmission source, receiving customer information of the Internet data center and operational status information of each equipment and operating facility,
And a communication unit installed in the power source management device, the equipment operation management device, and the power supply management device, respectively, for transmitting data information. A method of managing power using a power supply system of an Internet data center (IDC)
A power class setting step of collecting power information for a plurality of power sources and setting a power class for the power source based on the collected power information;
An equipment rank grouping step of determining the customer rank based on the customer information and classifying the equipment rank group according to the importance of each equipment and operating equipment of the Internet data center; And
And a power supply step of selecting the power class corresponding to the equipment rank group by matching the power class and the equipment rank group and differentially supplying a power source of the corresponding power class to each equipment and operation equipment A method for power management in an Internet data center. The method of claim 7, wherein
The power class setting step includes:
A power information collection step of collecting, in real time or periodically, power information including power supply availability, power quality and price information for each of a plurality of power sources from a power company or a transmission power source;
Setting a weight for power quality and price, calculating a power evaluation value by summing weights for power quality and price information of each power source;
A power class determination step of classifying each power source according to a predetermined grade range based on a power evaluation value of each power source and determining a power class for each power source; And
And storing the power level for each power source and the power information in a power database. The method of claim 7, wherein
The equipment rank grouping step includes:
An equipment information collecting step of collecting customer information entrusted to each equipment of the Internet data center and operating status information of each equipment and operating equipment in real time or periodically;
A customer class setting step of classifying the customer class according to the use frequency and the usage amount based on the customer information;
A weight calculating step of calculating a weight by setting a weight for each criterion and summing weights for the respective equipments and operating equipments;
A device rank grouping step of determining a device rank group of each device and an operation facility according to a predetermined rank range based on the importance of each of the devices and the operation facilities; And
And a device rank group storing step of storing the equipment rank group and the customer rank in the equipment data base by matching the equipment rank and the customer rank with respect to each of the equipment and the operation equipment. The method of claim 9,
In the importance calculating step,
A data processing frequency, a user access amount, a data transmission traffic amount, and an operating contribution of an Internet data center are set as determination criteria, and a weight is set for each determination criterion. The method of claim 7, wherein
The power supply step includes:
A power matching step of sequentially matching the power class and the equipment rank group;
A power source selecting step of selecting a power source to be supplied to the equipment according to a ranking of customer ratings of the equipment belonging to the equipment rank group in consideration of the power supply possible amount of the power source belonging to the power rank; And
A power supply step of differentially supplying a power source selected through a UPS or distribution allotted to each equipment and operating facility. The method of claim 11,
Wherein the power source selection step comprises:
Further comprising the step of providing information on a power source having an allowable power supply availability to the customer and allocating a selected power source to the customer's equipment according to the customer's selection, Way. The method of claim 7, wherein
Further comprising an emergency power supply step of supplying the electric power generated by the emergency power generation facility to each of the equipment and the operation equipment according to the order of the equipment rank order due to the abnormal occurrence of the electric power supply, Way.

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