WO2024090645A1

WO2024090645A1 - Sync control method for ups parallel system

Info

Publication number: WO2024090645A1
Application number: PCT/KR2022/017710
Authority: WO
Inventors: 최제왕; 김민성; 이태승; 이동주; 김성조
Original assignee: 국제통신공업 주식회사
Priority date: 2022-10-24
Filing date: 2022-11-11
Publication date: 2024-05-02
Also published as: KR102603067B1

Abstract

The present invention relates to a sync method for a system in which four UPSs (UPS 1 to UPS 4) with unique level (transmission sync angle) sync signals are configured in parallel, and comprises: a first step of sensing a level of a sync signal in a state in which an input voltage (bypass voltage) is applied to the UPS 1 to UPS 4; a second step of outputting a bypass sync signal to a common sync line when the bypass voltage applied to the UPS 1 to UPS 4 is within a set reference value and the bypass frequency thereof is within a set reference value; a third step of outputting a pre-run sync signal to the common sync line according to a predetermined level when the bypass voltage deviates from the set reference value in the second step and the bypass frequency deviates from the set reference value; and a fourth step of synchronizing an inverter according to the sync signal of the common sync line after the second step and the third step.

Description

Sync control method of UPS parallel system

The present invention relates to a sync control method of a UPS parallel system, and more specifically, to a method of controlling a UPS parallel system to enable parallel operation using a common sync signal.

In general, an uninterruptible power supply (UPS) supplies commercial power and when a power outage occurs, the charging voltage of the battery is converted to alternating current by an inverter and supplied. In addition, it supplies AC to the battery due to fluctuations in output voltage, frequency fluctuations, momentary power outages, etc. It is a device that prevents power failures due to excessive voltage, etc. and always supplies stable power.

These uninterruptible power supplies (UPS) are configured to operate in parallel by sharing an output bus with at least two individual uninterruptible power supplies (UPS) to facilitate maintenance and failure response, and to facilitate capacity expansion.

Parallel operation is possible only when the sink of the inverter output voltage is the same between each uninterruptible power supply device. Therefore, a sink generator is required to configure a UPS parallel system. In the past, there was a method of configuring this sink generator separately outside the UPS or by building it into one of the parallel UPSs to form a parallel system.

However, conventional methods had a problem in that parallel operation was impossible if a failure occurred in the sink generator.

The purpose of the present invention to solve the above problems is to provide a sync control method for a UPS parallel system that can continue parallel operation even if a sync generator failure occurs by installing the sync generator in at least two UPSs configured in parallel. is to provide.

In the sync control method of a system configured in parallel with four UPSs (UPS Unit 1 to UPS Unit 4) having unique level (transmission sync angle) sync signals according to the present invention to achieve the above object, the UPS 1 A first step of detecting the level of the sync signal while the input voltage (bypass voltage) is applied to the unit 4 to the UPS unit 4; A second step of sending a bypass sync signal to a common sync line if the bypass voltage of the UPS units 1 to 4 is within a set standard value and the bypass frequency is within a set standard value; In the second step, if the bypass voltage exceeds the set reference value and the bypass frequency exceeds the set reference value, a third step of sending a free-run sync signal to the common sync line according to the set level; and a fourth step of synchronizing the inverter according to the sync signal of the common sync line after the second and third steps.

In the second step, if the bypass voltage is within a set reference value and the bypass frequency is within a set reference value, the highest level sync signal (widest range sync signal (BPS)) is transmitted.

If the bypass voltage is outside the set reference value and the bypass frequency is within the set reference value, the method further includes a 3-1 step of sending a free-run sync signal to a common sync line according to a set level.

In step 3-1, if the bypass voltage exceeds the set standard value and the bypass frequency is within the set standard value, the sync signal of Unit 1 UPS, which generates the next higher level sync signal, is a sync signal with a wider range than other sync signals. The UPS with a lower level signal tracks the highest level sync signal.

In the third step, if the bypass voltage exceeds the set standard value and the bypass frequency exceeds the set standard value (when UPS unit 1, which was transmitting the higher level sync signal, is disabled due to an accident), then the higher level sync signal is activated. The sync signal of Unit 2 UPS, which generates the signal, generates a wider range of sync signals than other sync signals, and the UPS with a lower level signal tracks the highest level sync signal.

In the third step, if the bypass voltage exceeds the set standard value and the bypass frequency exceeds the set standard value (when UPS unit 2, which was transmitting the higher level sync signal, is disabled due to an accident), then the higher level sync The sync signal of Unit 3 UPS, which generates the signal, generates a wider range of sync signals than other sync signals, and the UPS with a lower level signal tracks the highest level sync signal.

In the third step, if the bypass voltage exceeds the set standard value and the bypass frequency exceeds the set standard value (when UPS unit 3, which was transmitting the higher level sync signal, is disabled due to an accident), the next level sync signal Unit 4 UPS, which generates, is characterized by generating a sync signal, tracking the sink it creates, and operating independently.

As described above, according to the present invention, parallel operation is possible with a common sync signal (single-line sync signal), and since sync generators are installed in at least two UPSs, parallel operation is possible unless all sync signal generators fail. can be continued.

Figure 1 is a configuration diagram showing a UPS parallel system according to the present invention.

Figure 2 is a diagram showing the operation of the four UPS parallel systems according to the present invention, when there is an input voltage (a), when there is no input voltage (b), and when there is no input voltage and unit 1 is broken (c) , This is the sync line signal when there is no input voltage and unit 2 fails (d), and when there is no input voltage and unit 3 fails (e).

Figure 3 is a flowchart showing a sync control method of the UPS parallel system according to the present invention.

Below, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein.

Next, a preferred embodiment of the UPS parallel system and its sync control method according to the present invention will be described in detail.

Referring to Figure 1, the UPS parallel system according to the present invention installs the sink generator 100 in at least two UPSs, and preferably installs the sink generator 100 in 2 to 10 UPSs. Preferably, the sink generator 100 can be installed in 2 to 4 units.

The sync generator 100 is composed of a sync signal transmitter 110 and a sync signal receiver 120. The sync signal is received by itself at the same time as it is transmitted and is also transmitted to other parallel UPS receivers, and a common sync line 200. A sync signal is transmitted through and the sync signal may overlap with other sync signals.

In an embodiment of the present invention, a system consisting of four UPSs (UPS Unit 1 to UPS Unit 4) in parallel will be described.

Referring to Figure 2a, in a four-UPS parallel system (UPS Unit 1 to UPS Unit 4), each UPS has a sync signal at a unique level (transmission sync angle), and when an input voltage (bypass voltage) exists, the highest A higher level sync signal can be transmitted. Here, the highest level sync signal refers to the widest range sync signal (BPS).

Referring to FIG. 2b, when the bypass voltage is lost, the sync signal of Unit 1 UPS, which generates the next higher level sync signal, generates a sync signal in a wider range than other sync signals, and a signal at a lower level is generated. A UPS with can track the highest level sync signal.

Referring to Figure 2c, when there is no bypass voltage and unit 1 fails, that is, when the UPS transmitting the higher level sync signal is disabled due to an accident, the sync signal of unit 2 UPS which generates the next higher level sync signal generates a wider range of sync signals than other sync signals, so a UPS with a lower level signal can track the highest level sync signal.

Referring to FIG. 2d, when there is no bypass voltage and unit 2 fails, that is, when the unit 2 UPS, which was transmitting the higher level sync signal, is disabled due to an accident, the unit 3 UPS, which generates the next higher level sync signal, The sync signal generates a wider range of sync signals than other sync signals, so a UPS with a lower level signal can track the highest level sync signal.

Referring to FIG. 2e, when there is no input voltage and unit 3 fails, that is, when unit 3 UPS, which transmits the higher level sync signal, is disabled due to an accident, unit 4 UPS, which generates the next level sync signal, transmits the sync signal. It can generate, track the sink it creates, and become capable of independent operation.

Figure 3 is a flowchart showing a sink control method of a UPS parallel system according to the present invention.

Referring to FIG. 3, the present invention's UPS parallel system sync control method first detects the level of the sync signal when the UPS is turned on (S100) (S200).

Next, if the input voltage (bypass voltage) is within the set reference value (S300) and the bypass frequency is within the set reference value (S400), a bypass sync signal is sent to the common sync line 200 (S500).

If the bypass voltage exceeds the set reference value in step S300 or the bypass frequency exceeds the set reference value in step S400, a free-run sync signal is sent to the common sync line 200 according to a predetermined level (S600).

After steps S500 and S600, the inverter is synchronized to the sync signal of the common sync line 200 (S700).

In an embodiment of the present invention, a sync method of a system configured in parallel with four UPSs (UPS Unit 1 to UPS Unit 4) having unique level (transmission sync angle) sync signals will be described.

If the input voltage (bypass voltage) is within the set reference value in step S300 and the bypass frequency is within the set reference value in step S400 (S400), the highest level sync signal is transmitted as shown in FIG. 2A. Here, the highest level sync signal refers to the widest range sync signal (BPS).

In addition, if the bypass voltage exceeds the set reference value in step S300 and the bypass frequency is within the set reference value in step S400, the sync signal of Unit 1 UPS generates the next higher level sync signal as shown in FIG. 2B. generates a sync signal in a wider range than other sync signals, so the UPS with a lower level signal tracks the highest level sync signal.

In addition, if the bypass voltage exceeds the set reference value in step S300 and the bypass frequency exceeds the set reference value in step S400 (when UPS unit 1, which was transmitting a high-level sync signal, is disabled due to an accident), As shown in Figure 2c, the sync signal of Unit 2 UPS, which generates the next higher level sync signal, generates a wider range of sync signals than other sync signals, and the UPS with a lower level signal generates the highest level sync signal. track.

In addition, if the bypass voltage exceeds the set reference value in step S300 and the bypass frequency exceeds the set reference value in step S400 (when UPS unit 2, which was transmitting a high-level sync signal, is disabled due to an accident), As shown in Figure 2d, the sync signal of Unit 3 UPS, which generates the next higher level sync signal, generates a wider range of sync signals than other sync signals, and the UPS with a lower level signal generates the highest level sync signal. track.

And, if the bypass voltage exceeds the set reference value in step S300 and the bypass frequency exceeds the set reference value in step S400 (when UPS unit 3, which was transmitting a high-level sync signal, is disabled due to an accident), As shown in Figure 2e, Unit 4 UPS, which generates the next level sync signal, generates a sync signal, tracks the sync it creates, and can operate independently.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements made by those skilled in the art using the basic concept of the present invention defined in the following claims are also possible. It falls within the scope of rights.

Claims

In the sync control method of a system in which four UPSs (UPS Unit 1 to UPS Unit 4) with unique level (transmission sync angle) sync signals are configured in parallel,

A first step of detecting the level of the sync signal while the input voltage (bypass voltage) is input to the UPS units 1 to 4;

A second step of sending a bypass sync signal to a common sync line if the bypass voltage of the UPS units 1 to 4 is within a set standard value and the bypass frequency is within a set standard value;

In the second step, if the bypass voltage exceeds the set reference value and the bypass frequency exceeds the set reference value, a third step of sending a free-run sync signal to the common sync line according to the set level; and

A sync control method of a UPS parallel system comprising a fourth step of synchronizing the inverter according to the sync signal of the common sync line after the second step and the third step.
According to paragraph 1,

In the second step, if the bypass voltage is within the set reference value and the bypass frequency is within the set reference value, the highest level sync signal (widest range sync signal (BPS)) is transmitted. System sync control method.
According to paragraph 1,

If the bypass voltage is outside the set reference value and the bypass frequency is within the set reference value, the UPS parallel system further includes a 3-1 step of sending a free-run sync signal to the common sync line according to the set level. Sync control method.
According to paragraph 3,

In step 3-1, if the bypass voltage exceeds the set standard value and the bypass frequency is within the set standard value, the sync signal of Unit 1 UPS, which generates the next higher level sync signal, is a sync signal with a wider range than other sync signals. A sync control method of a UPS parallel system, characterized in that the UPS with a lower level signal tracks the highest level sync signal.
According to paragraph 1,

In the third step, if the bypass voltage exceeds the set standard value and the bypass frequency exceeds the set standard value (when UPS unit 1, which was transmitting the higher level sync signal, is disabled due to an accident), then the higher level sync signal is activated. A UPS parallel system in which the sync signal of Unit 2 UPS, which generates a signal, generates a wider range of sync signals than other sync signals, and the UPS with a lower level signal tracks the highest level sync signal. Sync control method.
According to paragraph 1,

In the third step, if the bypass voltage exceeds the set standard value and the bypass frequency exceeds the set standard value (when UPS unit 2, which was transmitting the higher level sync signal, is disabled due to an accident), then the higher level sync A UPS parallel system in which the sync signal of Unit 3 UPS, which generates a signal, generates a wider range of sync signals than other sync signals, and the UPS with a lower level signal tracks the highest level sync signal. Sync control method.
According to paragraph 1,

In the third step, if the bypass voltage exceeds the set standard value and the bypass frequency exceeds the set standard value (when UPS unit 3, which was transmitting the higher level sync signal, is disabled due to an accident), the next level sync signal The sync control method of the UPS parallel system is characterized in that Unit 4 UPS, which generates, generates a sync signal, tracks the sync it creates, and operates independently.