KR20110074370A - Method for controlling a power according to generatied value and power conversion apparatus thereof - Google Patents

Abstract

PURPOSE: A method for controlling electric power according to the amount of generation and a power transform device thereof are provided to simplify a wiring of an entire power conversion device and to remove inconvenience due to communication errors by removing an additional communication device or an additional communication device of each inverter in a parallel driving state. CONSTITUTION: A generation source(100) is formed to supply DC power. An inverter unit(110) is connected to the generation source. A control unit monitors the generating amount of the generation source and controls a first inverter(112) or a second inverter(114). An output terminal of the inverter device receives AC power converted by the first inverter or the second inverter. A transformer(130) transforms the received AC power to the usable power.

Description

Method for controlling a power according to Generatied value and Power conversion apparatus

The present invention relates to a power conversion device, and in particular, the inverter device having a smaller capacity inside the inverter device having a predetermined capacity used for power conversion to convert the power converted by any one inverter device according to the power generation amount of the power generation source. The present invention relates to a power control method according to the amount of power to be supplied and a power conversion device thereof.

Recently, due to the depletion of fossil fuels and the energy crisis, the demand for and interest in renewable energy is increasing. The renewable energy is a form of power generation with very low pollution factors such as solar light, fuel cell, wind power, tidal power, and can be installed near power demand or distributed in areas where power demand is close. Can also be used.

Hereinafter, the generation form using the new-renewable energy will be referred to as a power conversion device, and thus the power conversion device generates power according to the amount of power generation of the power generation source.

Therefore, when the amount of power generation of the power generation source is small, two or more power converters operate in parallel to improve power generation efficiency.

1 is a configuration diagram in which two power converters are configured for parallel operation according to the prior art.

1, a plurality of power converters are provided. In the figure, two power converters 10 and 20 are shown. One is called the first power converter 10 and the other is called the second power converter 20.

The first power converter 10 and the second power converter 20 is an inverter (13) (2) for receiving a direct current power from each of the power generation sources (11) 21 and converts into an AC power, and Transformers 15 and 25 are provided for converting the converted AC power into AC power having a level usable in commercial systems. In addition, individual breakers 16 and 26 are provided between the power generation sources 11 and 21 and the inverters 13 and 23. The individual circuit breakers 16 and 26 are provided for each of the power converters 10 and 20 and are driven on / off according to the amount of power generated by the power generators 11 and 21.

A connection line L (L ′) connecting the first power converter 10 and the second power converter 20 is configured.

The operation mode controller 30 is connected to the connection line L (L '). The operation mode controller 30 is a parallel operation breaker 31 for the connection / disconnection of the first power converter 10 and the second power converter 20, and from the inverter 13, 23 Parallel operation control unit 32 for monitoring the amount of power generated by the power source (11, 21) and control the first power converter 10 and the second power converter 20 to be operated alone or in parallel operation It consists of.

In such a configuration, when the amount of generated power is equal to or greater than a predetermined amount, the parallel operation control unit 32 turns off the parallel operation breaker 31, and the first power conversion device 10 and the second power conversion device ( The individual breakers 16 and 26 of 20 are turned on. Then, the first power conversion device 10 and the second power conversion device 20 are in an independent operation state, and convert the DC power supplied from each of the power generation sources 11 and 21 into AC power to supply to the commercial system side. do.

On the other hand, when the amount of power generation is less than or equal to a certain amount, the efficiency of the inverters 13 and 23 substantially decreases. Thus, the parallel operation control unit 32 allows the first power converter 10 and the second power converter 20 to be operated in parallel operation. That is, the parallel operation control unit 32 turns on only one of the individual circuit breakers 16 and 26 and turns off all other individual circuit breakers. At the same time, the parallel operation circuit breaker 31 is turned on to operate one inverter 13 or. 23) make progress.

That is, such a driving method is to increase efficiency by operating a plurality of power converters in a parallel operation method when the amount of power generation of the power generation source is small. This configuration is such that, if the amount of power generation is small, DC power supplied from other power sources is also supplied through only one inverter.

However, the above-described prior art has the following problems.

First, when the distance of the power converter 10, 20 is far, the amount of wires (connection lines) and bus bars connecting them for parallel operation increases the price of the product.

Moreover, the parallel operation breaker 31 and the parallel operation control part 32 for parallel operation are used. This complicates the connection line between the power converters 10 and 20. In addition, the cost of the product cannot be reduced because a configuration for parallel operation must be added.

In addition, the parallel operation control unit 32 is configured between the power conversion devices 10, 20, and receives a variety of current state values through communication from each of the inverters (13) (23). However, if there is a communication failure and a communication line for performing communication, there is a cumbersome point to check whether or not a failure occurs, and even if the amount of power generation is small, parallel operation cannot be performed until the failure occurs. I have this problem of deterioration.

Accordingly, an object of the present invention is to solve the above problems, and to improve the efficiency of the inverter device without using the parallel operation mode when the amount of power generation is small.

Another object of the present invention is to remove the configuration required for parallel operation.

According to a feature of the present invention for achieving the above object, a power generation source; A first inverter and a second inverter converting the DC power of the power generation source into AC power; First and second switches connected to input terminals of the first inverter and the second inverter; The power generation amount of the power generation source is monitored, and when the power generation amount is equal to or greater than a preset reference value, the first switch is turned on so that only the first inverter is driven. When the power generation amount is less than or equal to the preset reference value, the second switch is turned on. And a control unit for controlling only the second inverter to be driven, wherein the first inverter and the second inverter are configured together in one inverter device.

The transformer further includes a transformer for transforming the AC power converted by the first inverter or the second inverter to be used in a commercial system.

According to another feature of the invention, the step of generating and supplying a generation power variable according to a predetermined condition in the generation source; Monitoring and comparing the generation amount of the power generation power with a preset reference value; As a result of the comparison, if the power generation amount is greater than or equal to the reference value, an inverter having a larger capacity among the inverters having different capacitances configured in one inverter device is driven; and if the power generation amount is less than or equal to the reference value, an inverter having a smaller capacity is driven. It comprises a control step.

According to another feature of the invention, the first inverter and the second inverter is configured together in one inverter device, the control unit of the inverter device is a power generation source in a state that the first inverter is designed to have a larger capacity than the second inverter Monitoring power generation; The controller may include controlling one of the first inverter and the second inverter to be driven according to the amount of power generated, wherein the second inverter is driven only at a capacity of 50% or less of the total capacity.

In the present invention, a small capacity inverter is configured together in the inverter of the power converter, and the small capacity inverter is additionally driven when the amount of generated power is 50% or less of the total capacity of the inverter according to the amount of generated power. If it is abnormal, the existing inverter will be driven.

Therefore, the inverter efficiency can be improved even when the amount of power generation of the power generation source is small.

In addition, since it is not necessary to separately configure a communication device or a control device with each inverter during parallel operation, which is used in the case where the amount of electricity generated in the past is small, wiring of the overall power conversion device is simplified and inconvenience caused by communication failure is eliminated.

Hereinafter, a power control method and a power conversion device according to the amount of power generation according to the present invention will be described in detail with reference to the preferred embodiment shown in the accompanying drawings.

FIG. 2 is a diagram showing the overall configuration of a power system of a power conversion device in which an auxiliary power device is built according to an embodiment of the present invention.

2, a power generation source 100 for supplying a DC power source is provided. The power generation source 100 changes the amount of power generated according to the power generation conditions. For example, when the power generation source 100 is a photovoltaic device that generates power by receiving sunlight, there is a difference in power generation by weather and time zone.

The inverter unit device 110 is connected to the power source 100. The inverter device 110 is provided with inverters 112 and 114 having different capacities. One of them will be referred to as a first inverter 112 and the other will be referred to as a second inverter 114. That is, the second inverter 114 which performs an auxiliary function in addition to the first inverter 112 is further configured. An input of the second inverter 114 is connected in parallel to an input terminal of the first inverter 112, and an output thereof is connected in parallel to a three-phase output terminal of the first inverter 112. The first inverter 112 can generate 100% capacity while the second inverter 114 has 50% or less of capacity generation.

The controller 120 monitors the amount of power generated by the power generation source 100 and controls the driving of the first inverter 112 or the second inverter 114 according to the result. The controller 120 has a reference value for controlling the driving of the first inverter 112 or the second inverter 114, and is installed outside the inverter device 110. In some cases, the controller 120 may further be configured or connected to a memory (not shown) providing the reference value. The reference value is a value when the efficiency of the first inverter 112 is not normally provided. For example, the first inverter 112 having a capacity of 100% usually has a normal efficiency at a load of 70% or more, and if the capacity is lower than that, the reference value is 70% or less. In the embodiment, it will be described as 50%.

In front of the first inverter 112 or the second inverter 114, a first switch 116 and a second switch 118 that are turned on / off by the controller 120 are configured. The switches 116 and 118 are configured to operate only one inverter of the first inverter 112 and the second inverter 114, and may be a switch provided in the inverter itself, or an inverter device. It may be a switch configured separately outside the 110.

An output terminal of the inverter device 110 is connected to a transformer 130 that receives the AC power converted by the first inverter 112 or the second inverter 114 and transforms it to be usable in a commercial system.

A method of controlling the driving of the first inverter 112 or the second inverter 114 according to the amount of power generated using the power converter configured as described above will be described.

The power converter starts to operate. Then, the power generation source 100 supplies DC power. The DC power is supplied to the inverter device 110.

At this time, the control unit 120 monitors the amount of power output from the power source 100.

As a result of the monitoring, the controller 120 compares the power generation amount currently output from the power generation source 100 with a preset reference value.

As a result of the comparison, when the amount of power generation is greater than or equal to the reference value, the first switch 116 is turned on to generate power through only the first inverter 112. On the other hand, as a result of the comparison, when the amount of power generation is less than or equal to the reference value, the second switch 118 is turned on to generate power through only the second inverter 114. The reason for this is that inverter devices having a 100% capacity as described above usually have a normal efficiency at a load of 70% or more, and when used at a lower capacity, the efficiency is not high.

Therefore, when the amount of power generation is small, only the second inverter 114 having a small capacity can be driven to ensure inverter efficiency.

In addition, the inverter device 110 according to the embodiment can continuously monitor the amount of power generation of the power generation source 100 without performing a separate communication function with other power conversion devices, and according to the monitoring result, the first easily. The inverter 112 or the second inverter 114 is driven.

As described above, the present embodiment is constructed by incorporating another inverter device having a smaller capacity in the existing inverter device, and converting power by driving the existing inverter device or an inverter device having a small capacity according to the amount of power generation of the power generation source. It can be seen that it is performed.

Although described with reference to the illustrated embodiment of the present invention as described above, this is merely exemplary, those skilled in the art to which the present invention pertains various modifications without departing from the spirit and scope of the present invention. It will be apparent that other embodiments may be modified and equivalent. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

That is, in the present embodiment, the first inverter or the second inverter is selected and driven according to the amount of power generated by the power generation source, but the power conversion efficiency of the first inverter or the second inverter itself is monitored and the first inverter is according to the monitoring result. It is also applicable to the present invention that the inverter or the second inverter can be driven. For example, if the power conversion operation is performed through the first inverter and the power conversion value is smaller than the preset value, the driving of the first inverter may be stopped and the second inverter may be driven instead to continue the power conversion operation. have.

1 is a configuration diagram in which two power converters are configured for parallel operation according to the related art.

2 is an overall configuration diagram showing a power system of a power conversion device with a built-in auxiliary power device according to an embodiment of the present invention

* Description of the symbols for the main parts of the drawings *

100: power source 110: inverter device

112: first inverter 114: second inverter

116: first switch 118: second switch

120: control unit 130: transformer

Claims (4)

Power generation source; A first inverter and a second inverter converting the DC power of the power generation source into AC power; First and second switches connected to input terminals of the first inverter and the second inverter; And The power generation amount of the power generation source is monitored, and when the power generation amount is equal to or greater than a preset reference value, the first switch is turned on to drive only the first inverter. When the power generation amount is less than or equal to the preset reference value, the second switch is turned on. It is configured to include a control unit for controlling only the second inverter is driven, And the first inverter and the second inverter are configured together in one inverter device. The method of claim 1, And a transformer for converting the AC power converted by the first inverter or the second inverter to be usable in a commercial system. Generating and supplying a generation power variable according to a predetermined condition at the generation source; Monitoring and comparing the generation amount of the power generation power with a preset reference value; And As a result of the comparison, if the power generation amount is greater than or equal to the reference value, an inverter having a larger capacity among the inverters having different capacitances configured in one inverter device is driven; and if the power generation amount is less than or equal to the reference value, an inverter having a smaller capacity is driven. Power control method according to the amount of power generation of the power conversion device comprising a step of controlling. A first inverter and a second inverter are configured together in one inverter device, and the control unit of the inverter device monitors the amount of power generation of the power generation unit while the first inverter is designed to have a larger capacity than the second inverter; The control unit includes the step of controlling the drive of one of the first inverter and the second inverter according to the amount of power generation, And the second inverter is driven only at a capacity of 50% or less of the total capacity.

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