KR20090066766A - Monitoring system for totally remotely managing multiple uninterrupted power supplys - Google Patents

Abstract

An integrated remote monitoring system of an uninterrupted power supply device is provided to integrate UPS(Uninterrupted Power Supply) devices into one remote monitoring system and monitor the integrated UPSs remotely, thereby reducing management costs and the number of processes. A communication protocol module unit(110) set a communication connection method by checking communication protocols used in UPSs. The communication protocol module unit stores data for communication by communicating with the UPSs. A monitoring module unit(100) processes the stored data to configure a screen. The monitoring module unit manages the processed data.

Description

Monitoring system for totally remotely managing multiple uninterrupted power supply}

The present invention relates to an integrated remote monitoring system of an uninterruptible power supply, and more particularly, to monitor and manage remotely by integrating a plurality of uninterrupted power supplies (UPS) using different communication protocols into a single remote monitoring system. The ability to control reduces the cost and labor associated with remotely monitoring and managing multiple UPSs using different communication protocols, as well as an integrated uninterruptible power supply that makes monitoring management control itself easy It relates to a surveillance system.

Conventionally, the conventional method of controlling a UPS through a remote network has been used by using Simple Network Management Protocol (SNMP) over serial communication (RS203, RS232C port) or LAN communication (Local Area Network).

Although the above-described communication method is generally used in the data communication method, each manufacturer has manufactured and distributed an independent packet model and independent control software to buyers (UPS buyers). UPS companies, in particular, have managed their own independent management methods, unlike typical automation equipment manufacturers who integrate protocols.

For this reason, the UPS and the UPS have been operated with different control software and protocols to operate the equipment to supply power. Also, SNMP itself monitors and controls the equipment for the network, not the protocol for controlling the UPS and industrial equipment. It was a protocol designed to manage UPS problems.

As an embodiment of the prior art for solving the above problems, the remote control of the uninterruptible power supply using the "MODBUS compatible protocol and SCADA / HMI / MMI compatible tool, filed in the application number 10-2004-0103950 (application date: December 10, 2004) Surveillance control methods.

The above "Remote Monitoring Control Method of Uninterruptible Power Supply Using MODBUS Compatible Protocol and SCADA / HMI / MMI Compatible Tool" (hereinafter, abbreviated as "Remote Monitoring Control Method of Conventional Technology") is used to remotely monitor the UPS using a network. SCADA (Supervisory Control and Data Acquisition) / HMI (Human Machine) used to control and manage industrial automation equipment using the MODBUS protocol, which is mainly used for data communication, and software used for data communication to manage UPS. Management software compatible with Interface / Man Machine Interface (MMI) ensures that monitoring and management of automation equipment and UPS can be done simultaneously on SCADA / HMI / MMI compatible software.

By the way, according to the remote monitoring control method of the prior art, in order to monitor and control the UPS as shown in Figure 1, the user UPS control screen 19 separately from the user equipment control screen 20 and the monitor (SCADA; 22) And a problem in which the UPS dedicated monitor 21 is required, that is, the remote monitoring control system needs to be dualized. This problem occurs because it is difficult to register and apply the protocol of the UPS to SCADA.

On the other hand, since there are no standardized communication protocols for general UPS products, different UPS manufacturers provide different communication protocols and monitoring control programs. Therefore, when using UPS products from multiple UPS manufacturers from the user's point of view, only the monitoring control program provided by the manufacturer should be used. For example, if four UPSs use different communication protocols, the above four monitoring control programs may be used. Since each of the four UPS must be managed separately, there is a problem in that management difficulty and the resulting management cost increases.

Therefore, the technical problem to be achieved by the present invention, in order to solve the above problems, to integrate a plurality of uninterrupted power supply (UPS) using different communication protocols into one remote monitoring system to remotely monitor Supervisory control not only reduces the cost and labor involved in remotely monitoring and managing multiple UPSs using different communication protocols, but also integrates an uninterruptible power supply to make the supervisory control easier. To provide a remote surveillance system.

According to an embodiment of the present invention, in a system for remotely monitoring a plurality of uninterruptible power supply units using different communication protocols, the communication protocols used by the plurality of uninterruptible power supply apparatuses are provided. A communication protocol module unit configured to check and set a communication connection method, set data including a memory address and a size to be read from the uninterruptible power supply, and store data communicated with the plurality of uninterruptible power supplies; And a monitoring module unit for processing a data stored in the communication protocol module unit to configure a screen, and managing the processed data, wherein the communication protocol module unit stores the plurality of uninterruptible power supplies when requested by the monitoring module unit. It provides an integrated remote monitoring system of the uninterruptible power supply, characterized in that for transmitting data communicated with.

Preferably, the communication protocol module unit includes a memory unit for storing data, a protocol setting unit for setting a communication protocol, and an interface unit for establishing a connection with an external device such as an uninterruptible power supply; The monitoring module unit may include a tag unit that redefines data stored in a memory of the communication protocol module unit by each element such as voltage, current, and model name, and a monitoring screen unit which displays the processed data. An alarm processing unit for generating an alarm when there is an error in the monitoring module unit, the communication protocol module unit, and the uninterruptible power supply to be monitored, and an output processing unit for outputting the contents set by the user during the operation of the integrated remote monitoring system. .

According to another embodiment of the present invention, in a system for remotely monitoring a plurality of uninterruptible power supply units using different communication protocols, a dedicated communication protocol is established to establish a dedicated communication connection method. A dedicated communication protocol module configured to set data including a memory address and a size to be read from an uninterruptible power supply using the dedicated communication protocol, and store data communicated with the uninterruptible power supply using the dedicated communication protocol. A dedicated communication protocol module unit; A monitoring module unit using the dedicated communication protocol module unit to configure a screen by processing data stored in the dedicated communication protocol module unit and managing the processed data; And a protocol conversion module unit interposed between the uninterruptible power supply using another communication protocol other than the dedicated communication protocol and the dedicated communication protocol module unit to convert the other communication protocol into the dedicated communication protocol. Provides an integrated remote protocol monitoring system for power supplies.

Preferably, the dedicated communication protocol module unit includes a memory unit for storing data, a protocol setting unit for setting a dedicated communication protocol, and an interface unit for establishing a connection with an uninterruptible power supply apparatus using a dedicated communication protocol; The monitoring module unit may include a tag unit that redefines data stored in a memory of the communication protocol module unit by each element such as voltage, current, and model name, and a monitoring screen unit which displays the processed data. An alarm processing unit for generating an alarm when there is an error in the monitoring module unit, the communication protocol module unit, and the uninterruptible power supply to be monitored, and an output processing unit for outputting the contents set by the user during the operation of the integrated remote monitoring system. .

Preferably, the protocol conversion module unit, a UPS interface for connection with the uninterruptible power supply, a receiver for receiving data from the uninterruptible power supply, an analyzer for analyzing the data received through the receiver, the A converter for converting the data analyzed by the analyzer, a transmission data generator for generating the data converted by the converter as transmission data, and transmitting the data generated by the transmission data generator to an interface connected to a network. It includes a transmitter for.

Preferably, the protocol conversion module unit, a network interface for connection with a network, a receiver for receiving data from the network, an analyzer for analyzing the data received through the receiver, in the analysis unit A converter for converting the analyzed data, a transmission data generator for generating the data converted by the converter as transmission data, and for transmitting the data generated by the transmission data generator to an interface connected to the uninterruptible power supply. It includes a transmitter.

As described above, the integrated remote monitoring system of an uninterruptible power supply according to the present invention integrates a plurality of uninterrupted power supplies (UPSs) using different communication protocols into one remote monitoring system to monitor and manage remotely. The ability to control reduces the cost and labor associated with remotely monitoring and managing multiple UPSs using different communication protocols, as well as providing the convenience of monitoring management control itself.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the integrated remote monitoring system of the uninterruptible power supply apparatus according to the present invention. In the following description of the present invention, when it is determined that detailed descriptions of related well-known technologies or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or an operator. Therefore, the definition should be made based on the contents throughout the specification.

In the following description, when the member according to the prior art and the member according to the present invention are the same, the same reference numerals used in the prior art are used as they are, and detailed description thereof will be omitted.

First, referring to FIG. 2, an integrated remote monitoring system of an uninterruptible power supply device according to an embodiment of the present invention may include different communication protocols 52a, 52b, which are used by a plurality of uninterruptible power supply devices 50a, 50b, and 50c, respectively. 52c) to set the communication connection method, to set the data including the memory address and size to be read from the uninterruptible power supply (50a, 50b, 50c), and to communicate with a plurality of uninterruptible power supply (50a, 50b, 50c) A communication protocol module unit 110 for storing the communicated data; And a monitoring module unit 100 for processing the data stored in the communication protocol module unit 110 to configure a screen and managing the processed data. The communication protocol module unit 110 transmits data communicated with the stored uninterruptible power supplies when the monitoring module unit 100 requests.

As shown in FIG. 4, the communication protocol module unit 110 of FIG. 2 includes an external device such as a memory unit 115 for storing data, a protocol setting unit 117 for setting a communication protocol, and an uninterruptible power supply. Interface unit 119 for establishing a connection with the.

The monitoring module unit 100 includes a tag unit 105 that redefines each element such as voltage, current, and model name so that data stored in the memory of the communication protocol module unit can be used in the monitoring module unit, as shown in FIG. To generate an alarm when there is an error in the monitoring screen unit 106, the monitoring module unit 100 and the communication protocol module unit 110, and the uninterruptible power supply devices 50a, 50b, 50c to be monitored. And an output processing unit 108 for outputting contents (eg, a report) set by the user during the operation of the integrated remote monitoring system.

Referring to FIG. 3, an integrated remote monitoring system of an uninterruptible power supply apparatus according to another embodiment of the present invention is a dedicated communication protocol module 112 that checks a dedicated communication protocol and sets only a dedicated communication connection method. (In this specification, the dedicated communication protocol is referred to as "communication protocol A".) The data including the memory address and the size to be read from the uninterruptible power supply 50a using the uninterruptible power supply using the dedicated communication protocol 52a is set. A dedicated communication protocol module 112 for storing data communicated with the power supply device 50a; A monitoring module unit 102 including a dedicated communication protocol module unit 112, configured to process data stored in the dedicated communication protocol module unit 112 to configure a screen, and to manage processed data; And between the uninterruptible power supply devices 50b and 50c using the other communication protocols 52b and 52c other than the dedicated communication protocol 52a and the dedicated communication protocol module unit 112, and the other communication protocols 52b and 52c. ) Is converted to the dedicated communication protocol (52a).

In another embodiment of the present invention, since the dedicated communication protocol module 112 is different except that the applied communication protocol is a dedicated communication protocol, the configuration is the same as that of the communication protocol module 110 of FIG. It will be apparent to those skilled in the art that it will have the configuration of FIG. Similarly, the monitoring module unit 102 of another embodiment of the present invention also has the same configuration as that of the monitoring module unit 100 of FIG. 2.

Meanwhile, as illustrated in FIG. 6, the protocol conversion module units 54b and 54c receive the UPS interface 541 for connection with the corresponding uninterruptible power supply 50 and the data from the uninterruptible power supply 50. In the receiver 543, the analyzer 544 for analyzing the data received through the receiver 543, the converter 545, and the converter 545 for converting the data analyzed by the analyzer 544. Transmission data generation unit 546 for generating the converted data as transmission data, transmission unit 548 for transferring the data generated by the transmission data generation unit 546 to the network interface 549 connected to the network 70 It includes. In addition, the protocol conversion module unit 54 may include a receiver 553 for receiving data from the network 70, an analyzer 554 for analyzing data received through the receiver 553, and an analyzer 554. Data generated by the conversion unit 555 for converting the data analyzed by the reference data), the transmission data generation unit 556, and the transmission data generation unit 556 for generating the data converted by the conversion unit 555 as transmission data. It includes a transmitter 558 for transmitting to the interface 541 connected to the uninterruptible power supply 50.

Receivers 543, 553 and transmitters 548, 558 preferably include buffers 543a, 553a (548a, 558a) for temporarily storing received or transmitted data.

Referring to the drawings the operation of the integrated remote monitoring system of the uninterruptible power supply according to the present invention configured as described above are as follows.

First, the reason why the integrated remote monitoring system of the uninterruptible power supply according to the present invention is required is that since there is no standardized communication protocol in UPS products, different UPS manufacturers provide different communication protocols and monitoring (monitoring) control programs. . In other words, if a user uses multiple UPSs, they should use only the monitoring control program provided by the company. For example, if four UPSs use different communication protocols, they must be managed by four types of supervisory control programs. To solve this problem, an integrated remote monitoring system of the uninterruptible power supply of the present invention is required.

For the integrated remote monitoring system of the uninterruptible power supply according to the present invention, basically, as shown in FIGS. 2 and 3, the monitoring module unit 100 and 102, the communication protocol module unit 110, and the dedicated communication protocol module unit 112. And the protocol conversion module unit 54, these components are selectively used according to the application environment, the application environment can be divided into the following two, and each of them will be described as follows .

First, as shown in FIG. 2, an example of integrated remote monitoring of UPSs 50a, 50b, and 50c using different communication protocols 52a, 52b, and 52c will be described below.

In the integrated remote monitoring system of the uninterruptible power supply apparatus according to an embodiment of the present invention shown in FIG. 2, a protocol driver to be applied in the monitoring module unit 100 by driving communication protocols of different UPSs as shown in FIG. If only the selection is made to upload the data to the desired memory location is used by the monitoring module unit 100. The monitoring program development environment applied to the monitoring module unit 100 is preferably an HMI program with flexible screen processing and data management. Even if there are UPSs of several UPS manufacturers, if only the corresponding communication protocol is known, the integrated monitoring system of the uninterruptible power supply according to the present invention only needs to set the protocol for each port or I / P to monitor the integrated module in one screen of the monitoring module unit 100. Control is possible.

Second, as shown in FIG. 3, an example of a case in which the monitoring module unit supports only a specific (dedicated) communication protocol is as follows.

The environment in which the monitoring module unit supports only a dedicated (specific) communication protocol is configured to monitor and control UPSs 50b and 50c that support different communication protocols in the monitoring module unit 102 that supports only the dedicated communication protocol 52a. If it is impossible to use the existing protocol conversion module unit 54 of the present invention, integrated monitoring is possible, which will be described in more detail with reference to FIG. 3 as follows. In other words, assuming that there is an environment as shown in FIG. 3, the description will be made. There is a monitoring module unit 102 that supports only communication protocol A (this protocol is a dedicated protocol), and communication protocols A, B and C ( When monitoring UPSs 50a, 50b and 50c using 52a, 52b and 52c respectively, UPS 50a supporting communication protocol A 52a can be monitored but protocols B and C 52b and 52c can be monitored. In a state in which it is impossible to directly monitor the UPSs 50b and 50c that support the NPS, if the protocol conversion modules 54b and 54c according to the present invention are installed for each of the UPSs 50b and 50c not using a dedicated communication protocol, the UPS The communication protocols 52b and 52c supported by 50b and 50c are converted into communication protocols supported by the monitoring module 102 so that data can be exchanged. In this way, even if the communication protocol is different, the monitoring module unit 102 can monitor as if all the UPSs support the communication protocol A. The configuration of the protocol conversion module sections 54b and 54c is the same as in FIG. 6 as described above.

The protocol conversion module units 54b and 54c are interposed between the UPS equipment and the dedicated communication protocol module unit 112 to transfer communication protocols B and C 52b and 52c that are not dedicated protocols of the monitoring module unit 102. (52a) and converts the representation to values for the location of elements (voltage, current, etc.), data representation (ASCII, decimal code, etc.) and UPS equipment status, depending on the packet protocol of the communications protocol. Perform the operation for. For reference, FIG. 18 is a flowchart illustrating an embodiment of a program applied to the protocol conversion module unit.

Hereinafter, a detailed operation of components of the integrated remote monitoring system of the uninterruptible power supply according to the present invention will be described.

The communication protocol module unit 110 and the dedicated communication protocol module unit 112 of the present invention designate a communication connection method of the UPS and a memory address and size to be read from the UPS. As shown in FIG. 8, the communication protocol module units 110 and 112 transfer the data communicated by communicating with the UPS to the memory unit 115 of the communication protocol module unit, and monitor the data stored in the memory unit 115. When the request of (100, 102) is sent. The communication protocol module unit 110 and 112 may be, for example, a communication driver developed at a randomly designated port 000 to 255 to communicate with the UPS. The communication port can be selected through, for example, a communication port selection dialog as shown in FIG. 9. When selecting a communication port in the dialog of FIG. 9, for example, a dialog as shown in FIG. 10 is displayed. In this dialog box, you can set the port usage, device, protocol type and reading method. Meanwhile, each parameter of the communication file edit performed in FIG. 10 may be set as shown in Table 1 below.

Table 1

Setting factor Setting contents Port number Port number between 0 and 255 specified in the port selection. Port usage Whether the current port is used. Thread usage Whether to use thread. Port description Description of the port. You do not need to enter it. Read cycle Enter the read time interval in mSec for each read item. Write cycle Enter the time interval in mSec to output the commands stacked in the write command buffer. DEVICE Enter the communication port number, TCP / IP address, communication speed, etc. protocol Select the created communication protocol. option Enter additional information for each protocol. WORD, FLOAT, DWORD, STRING memory size Enter the size of communication memory numerically. Read timeout Maximum time to wait after receiving a single read command before receiving all data. Write timeout Maximum time to wait for a write complete signal after one write command. Settings when using the phone Set when reading remote data through modem. Track redundancy In case of communication error of basic line, set to communicate with reserve line. Computer redundancy Set when two computers need to monitor / control by one line. Set reading method Setting method to read specific area of device to communication memory.

In order to set a protocol among various setting processes in FIG. 10 and Table 1, device setting and protocol setting should be performed. An example of the setting method is shown in Table 2.

TABLE 2

Device setting Explanation None It is mainly used for communication by computer internal card, field bus, floppy bus, etc. -Com Port Most commonly used communication method used for RS-232 / 422/485 communication. -Modem It is used for communication of general modem (complex line modem is used as Com Port). TCP / IP, UDP / IP Used for network communication by LAN line. -TeleDeviec Used when using modem-device type device. NetClient Used when the communication program is a network client and used as a network relay. Shared memory Communication is performed through the shared memory designated by the communication program and the program created by the user.

버튼)을 누르면, 도 12와 같은 프로토콜 리스트를 나타내 보일 수 있고, 여기서 사용할 프로토콜을 설정할 수 있다. 도 12의 리스트에 없는 프로토콜은 프로토콜 개발 툴킷(TOOL KIT)으로 DLL 파일을 만들어 사용하거나 개발사로 연락하여 추가할 수 있음은 물론이다. 프로토콜을 드라이버화한다는 것은 프로토콜을 도 12의 프로토콜 리스트에 추가하는 것을 일컫는다.When the setting button corresponding to the device input is pressed in FIG. 10, the port device setting dialog box as shown in FIG. 11 may be displayed. In the communication file edit dialog of FIG.

Button), a protocol list as shown in FIG. 12 can be displayed, and a protocol to be used can be set here. Protocols not listed in FIG. 12 may be added by creating a DLL file using a protocol development toolkit (TOOL KIT) or by contacting a developer. Drivering a protocol refers to adding a protocol to the protocol list of FIG.

As described above, after setting the communication protocol of the UPS equipment, the data uploaded through the communication in the editor area in the lower center of FIG. 10 is stored in the desired memory unit 115 to be used by the monitoring module unit 100 and 102. Can be. The monitoring module unit 100 or 102 performs screen configuration and data management using the data uploaded to the memory location set by the communication protocol module unit 110 and 112. As an example, the contents of the communication protocol module unit 110 and 112 in the applied environment and an example of use in the monitoring module unit 100 and 102 will be described with reference to the accompanying drawings.

FIG. 13 shows that UPSs of various regions are set for each port, and FIG. 14 is a screen for confirming that data received from the UPS is uploaded to the memory. FIGS. 15 to 17 show the monitoring module unit 100. Referring to FIG. The screen unit 106 of FIG. 102 shows a plurality of UPSs being monitored.

Thus, the present invention integrates a plurality of uninterrupted power supplies (UPSs) using different communication protocols into a single remote monitoring system to remotely monitor, manage and control a plurality of UPSs using different communication protocols. In addition to reducing the cost and man-hours required to remotely manage and control surveillance, the surveillance management control itself can be facilitated.

Although a preferred embodiment of the present invention has been described in detail above, those skilled in the art to which the present invention pertains may make various changes without departing from the spirit and scope of the invention as defined in the appended claims. It will be appreciated that modifications or variations may be made. Therefore, changes in the future embodiments of the present invention will not be able to escape the technology of the present invention.

1 is a block diagram of an embodiment of an integrated remote monitoring system of an uninterruptible power supply according to the prior art.

2 is a block diagram of an embodiment of an integrated remote monitoring system of an uninterruptible power supply according to the present invention.

3 is a block diagram of another embodiment of an integrated remote monitoring system of an uninterruptible power supply according to the present invention.

Figure 4 is an internal configuration diagram of a communication protocol module unit applied to the present invention.

5 is an internal configuration diagram of a monitoring module unit applied to the present invention.

6 is an internal configuration diagram of a protocol conversion module unit applied to the present invention.

7 is a screen configuration diagram for selecting a protocol driver in the integrated remote monitoring system of the uninterruptible power supply according to the present invention.

8 is a communication configuration of the integrated remote monitoring system of the uninterruptible power supply according to the present invention.

9 is a block diagram of an embodiment of a communication port selection dialog implemented in an integrated remote monitoring system of an uninterruptible power supply according to the present invention.

10 is a block diagram of an embodiment of a communication file edit dialog implemented in an integrated remote monitoring system of an uninterruptible power supply according to the present invention.

11 is a configuration diagram of an embodiment of a port device setting dialog box implemented in an integrated remote monitoring system of an uninterruptible power supply according to the present invention.

12 is an exemplary diagram of a protocol list of an integrated remote monitoring system of an uninterruptible power supply according to the present invention.

FIG. 13 is a view of an embodiment of a screen in which a UPS is implemented as a port classification implemented in an integrated remote monitoring system of an uninterruptible power supply according to the present invention; FIG.

14 is a diagram of one embodiment of a data screen received from a UPS implemented in an integrated remote monitoring system of an uninterruptible power supply according to the present invention.

15 to 17 is a configuration diagram of an embodiment of the monitoring module unit screen implemented in the integrated remote monitoring system of the uninterruptible power supply according to the present invention.

18 is a program flow diagram of an embodiment of a protocol conversion module unit applied to the present invention.

<Description of the symbols for the main parts of the drawings>

50a, 50b, 50c: Uninterruptible Power Supply (UPS)

52a, 52b, 52c: communication protocol

54, 54b, 54c: protocol conversion module unit

100, 102: monitoring module

110, 112: communication protocol module

106: monitoring screen unit

115: memory section

Claims (6)

In a system for remotely monitoring a plurality of uninterruptible power supplies that use different communication protocols, Identify a communication protocol used by the plurality of uninterruptible power supplies, set a communication connection method, set data including a memory address and a size to be read from the uninterruptible power supply, and communicate data by communicating with the plurality of uninterruptible power supplies Communication protocol module unit for storing the; And A monitoring module unit configured to process data stored in the communication protocol module unit to configure a screen, and to manage processed data; And the communication protocol module unit transmits data in communication with the stored plurality of uninterruptible power supply units when the monitoring module unit requests. The method of claim 1, The communication protocol module unit includes a memory unit for storing data, a protocol setting unit for setting a communication protocol, and an interface unit for establishing a connection with an external device such as an uninterruptible power supply. The monitoring module unit may include a tag unit that redefines data stored in a memory of the communication protocol module unit for each element such as a voltage, a current, and a model name so that the data can be used by the monitoring module unit, and a monitoring screen unit which displays the processed data; An alarm processing unit for generating an alarm when there is an abnormality in the monitoring module unit, the communication protocol module unit and the uninterruptible power supply to be monitored, and an output processing unit for outputting contents set by the user during the operation of the integrated remote monitoring system; Integrated remote monitoring system of the uninterruptible power supply, characterized in that. In a system for remotely monitoring a plurality of uninterruptible power supplies that use different communication protocols, A dedicated communication protocol module that checks a dedicated communication protocol and sets only a dedicated communication connection method, and sets data including a memory address and a size to be read from an uninterruptible power supply using the dedicated communication protocol, and uses the dedicated communication protocol. A dedicated communication protocol module unit configured to store data communicated with the uninterruptible power supply; A monitoring module unit using the dedicated communication protocol module unit to configure a screen by processing data stored in the dedicated communication protocol module unit and managing the processed data; And An uninterruptible power supply comprising an uninterruptible power supply using other communication protocols other than the dedicated communication protocol and a dedicated communication protocol module unit to convert the other communication protocols into the dedicated communication protocols; Integrated remote protocol monitoring system of the device. The method of claim 3, The method of claim 1, The dedicated communication protocol module unit includes a memory unit for storing data, a protocol setting unit for setting a dedicated communication protocol, and an interface unit for establishing a connection with an uninterruptible power supply device using a dedicated communication protocol, The monitoring module unit may include a tag unit that redefines data stored in a memory of the communication protocol module unit by each element such as voltage, current, and model name, and a monitoring screen unit which displays the processed data. An alarm processing unit for generating an alarm when there is an error in the monitoring module unit, the communication protocol module unit, and the uninterruptible power supply to be monitored, and an output processing unit for outputting the contents set by the user during the operation of the integrated remote monitoring system. Integrated remote monitoring system of the uninterruptible power supply, characterized in that. The method of claim 3, The protocol conversion module unit, UPS interface for connection with the uninterruptible power supply, a receiver for receiving data from the uninterruptible power supply, an analyzer for analyzing the data received through the receiver, and for converting the data analyzed by the analyzer A conversion unit, a transmission data generation unit for generating the data converted by the conversion unit as transmission data, and a transmission unit for transferring the data generated by the transmission data generation unit to an interface connected to a network. Integrated remote monitoring system of uninterruptible power supply. The method of claim 3, The protocol conversion module unit, A network interface for connecting to a network, a receiver for receiving data from the network, an analyzer for analyzing the data received through the receiver, a converter for converting the data analyzed by the analyzer; An uninterruptible power supply comprising a transmission data generation unit for generating the data converted by the conversion unit as transmission data, and a transmission unit for transferring the data generated by the transmission data generation unit to an interface connected to the uninterruptible power supply device. Integrated remote monitoring system of the device.

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