JP2000350468A - System interconnection inverter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To securely detect the contact of a parallel-off relay by providing an exclusive contact for contact detection being used for detecting the contact of the parallel-off relay for obtaining contact information. SOLUTION: A system 200 V voltage detection part used for detecting the contact of a parallel-off relay 7 and a short-time timer 13 are provided, thus obtaining contact information. For example, when the contact information of the parallel-off relay 7 is confirmed, namely, a parallel-off relay driving part 8 outputs an on signal, an inverter control 5 sends a signal for outputting inverter to an inverter output part 4 via an inverter drive part 6 by time determined by the short-time timer 13. Although the inverter output part 4 carries the signal for output when the parallel-off relay 7 is open, the system 200 V voltage detecting part 12 does not detect the output voltage. More specifically, when an output voltage is not detected, it is confirmed that the parallel-off relay 7 is completely open, where as when the output voltage is detected, it is confirmed that the contact of the parallel-off relay 7 is not completely open.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to detection of a contact point of a disconnection relay of a system interconnection inverter, which converts electric power obtained by photovoltaic power generation into a system commercial power supply and injects it into the system.

[0002]

2. Description of the Related Art An example of contact detection of a conventionally used disconnection relay of a system interconnection inverter will be described with reference to FIG. The grid-connected inverter of this example is a grid-connected inverter of a photovoltaic power generation system. Reference numeral 1 denotes a system interconnection inverter, which converts input power from the solar cell 2 into system power 3 and interconnects the system. The grid-connected inverter 1 has I
An inverter output unit 4 composed of an inverter circuit such as a GBT converts the voltage into a form suitable for the voltage and frequency of the system power supply 3. The disconnection relay 7 is a disconnection relay that is short-circuited when connected to the system, and opened when not connected,
It is turned ON and OFF by the parallel-off relay drive unit 8. An inverter control unit 5 provides a converted signal of the inverter output unit 4 and the inverter drive unit 6 drives the inverter output unit 4 based on a signal from the inverter control unit 5. The grid-connected inverter 1 has a disconnection relay 7 for system protection and for protection of the grid-connected inverter, but recognizes that the disconnection relay is surely disconnected when it is desired to open. It is necessary to move to the next operation step. The grid-connected inverter 1 of this conventional example has a dedicated contact for contact detection for detecting a contact of a parallel-off relay, and thereby obtains contact information.

[0003]

However, in the conventional contact detection method of the system interconnection relay, there is a possibility that the contact of the actual disconnection relay and the contact for contact detection may be different in the short-circuit / open state. There is a problem that it cannot be said to be a contact detection method.

[0004]

SUMMARY OF THE INVENTION According to the present invention, there is provided a contact detecting means capable of reliably detecting a contact point of a parallel-off relay by using the information alone or in combination with information from a dedicated contact for detecting a contact point. Is connected to the system.

[0005]

DESCRIPTION OF THE PREFERRED EMBODIMENTS According to the first aspect of the present invention, there is provided an inverter output section for converting an input power supply to a system power supply, a disconnection relay for separating the inverter output section from the system power supply, and detecting a voltage of the system power supply. System 200V voltage detector, system 2
An inverter control unit that receives a signal from the 00V voltage detection unit and outputs a control signal of an inverter output unit, a short-time timer that measures a time for outputting a signal for detecting a disconnection relay contact, and a signal from the inverter control unit. An inverter drive unit that drives the inverter output unit, and a disconnection relay drive unit that drives the disconnection relay, depending on whether the system 200V voltage detection unit can detect the output voltage of the inverter output unit,
It is a grid-connected inverter that can recognize that the parallel-off relay is open.

According to a second aspect of the present invention, there is provided an inverter output section for converting an input power supply to a system power supply, a parallel-off relay for separating the inverter output section from the system power supply, and a single-phase three-phase power supply for the system power supply.
Two system 100V voltage detectors for detecting the voltage of the line 100V system, an inverter controller for receiving a signal from the system 100V voltage detector and outputting a control signal for the inverter output unit, and a disconnection relay contact detection A short-time timer for measuring a signal output time, an inverter drive unit for driving an inverter output unit based on a signal from the inverter control unit, and a disconnection relay drive unit for driving a disconnection relay;
The system interconnection inverter can recognize that the disconnection relay is reliably opened based on whether or not the individual system 100V voltage detection units can detect the output voltage of the inverter output unit.

According to a third aspect of the present invention, there is provided an inverter output section for converting an input power supply to a system power supply, and a single-phase three-wire disconnection for separating the inverter output section and the three-phase three-wire system of the system power supply. 100V of relay and single-phase three-wire system power supply
Two system 100V voltage detectors for detecting the voltage of the system, an inverter controller for receiving a signal from the system 100V voltage detector and outputting a control signal for the inverter output unit, and a signal for detecting the disconnection relay contact. An inverter drive unit for driving an inverter output unit based on a signal from the inverter control unit and a short time timer for measuring an output time, and a disconnection relay drive unit for driving a single-phase three-wire disconnection relay;
The system-linked inverter can recognize that the single-phase three-wire disconnection relay is reliably opened based on whether or not the individual system 100V voltage detection units can detect the output voltage of the inverter output unit.

According to a fourth aspect of the present invention, there is provided an inverter output section for converting an input power supply to a system power supply, a parallel-off relay for separating the inverter output section from the system power supply, and a single-phase three-wire 100 V system of the system power supply. Two system 100V voltage detectors for detecting voltages, two impedances connected to the inverter output side from a single-phase three-wire parallel-off relay, and a signal from the system 100V voltage detector for inverter output An inverter control unit that outputs a control signal of the unit, a short-time timer that measures a time for outputting a signal for detecting a disconnection relay contact, an inverter drive unit that drives an inverter output unit based on a signal of the inverter control unit, It has a parallel-off relay drive unit for driving a parallel-off relay, and includes two systems 100
The system-linked inverter can recognize that the disconnection relay is reliably opened based on whether or not the V voltage detection unit can detect the output voltage of the inverter output unit.

According to a fifth aspect of the present invention, there is provided an inverter output unit for converting an input power supply to a system power supply, and a single-phase three-wire disconnection for separating each of the inverter output unit and a three-phase three-wire system of the system power supply. 100V of relay and single-phase three-wire system power supply
Two system 100V voltage detectors for detecting the voltage of the system, two impedances connected to the inverter output side from a single-phase three-wire parallel-off relay between single-phase three-wire, and a system 100V voltage detector An inverter control unit that receives a signal of the inverter output unit and outputs a control signal of the inverter output unit, a short-time timer that measures a time for outputting a signal for detecting a disconnection relay contact, and an inverter output unit based on the signal of the inverter control unit. An inverter drive unit for driving and a disconnection relay drive unit for driving a single-phase three-wire disconnection relay;
The system-linked inverter can recognize that the single-phase three-wire disconnection relay is reliably opened based on whether the V voltage detection unit can detect the output voltage of the inverter output unit.

According to a sixth aspect of the present invention, there is provided an inverter output section for converting an input power supply to a system power supply, and a single-phase three-wire disconnection for separating each of the inverter output section and the three-phase single-wire three-wire system of the system power supply. 100V of relay and single-phase three-wire system power supply
Two system 100V voltage detectors for detecting the voltage of the system, two impedances connected to the inverter output side from a single-phase three-wire parallel-off relay between single-phase three-wire, and a system 100V voltage detector An inverter control unit that receives a signal of the inverter output unit and outputs a control signal of the inverter output unit, a short-time timer that measures a time for outputting a signal for detecting a disconnection relay contact, and an inverter output unit based on the signal of the inverter control unit. It has an inverter drive unit for driving, and a disconnection relay drive unit for driving a single-phase three-wire disconnection relay. The inverter control unit has a normal signal generation unit and a low voltage signal generation unit, and has two system 100V voltages. The system-linked inverter can recognize that the single-phase three-wire disconnection relay is reliably opened based on whether or not the detection unit can detect the output voltage of the inverter output unit.

[0011]

(Embodiment 1) Hereinafter, a first embodiment of the present invention will be described. FIG. 1 is a block diagram illustrating a configuration of a system interconnection inverter according to the present embodiment. The grid-connected inverter of the present embodiment is a grid-connected inverter of a photovoltaic power generation system. Reference numeral 11 denotes a system interconnection inverter according to the present embodiment, which converts input power from the solar cell 2 into system power 3 and interconnects the system. The system interconnection inverter 11 is converted into a form suitable for the voltage, frequency, etc. of the system power supply 3 by an inverter output unit 4 configured by an inverter circuit such as an IGBT. The disconnection relay 7 is a disconnection relay that is short-circuited when connected to the system and is opened when not connected, and is turned ON and OFF by the disconnection relay drive unit 8. An inverter control unit 5 provides a converted signal of the inverter output unit 4 and the inverter drive unit 6 drives the inverter output unit 4 based on a signal from the inverter control unit 5. Although the grid-connected inverter 11 has the disconnection relay 7 for system protection and for protection of the grid-connected inverter, it is recognized that the disconnection relay is surely disconnected when it is desired to open. To move to the next operation step. The system interconnection inverter 11 of the present embodiment has a system 200 V for detecting a contact point of the parallel-off relay 7.
It has a voltage detection unit 12 and a short-time timer 13 to obtain contact information.

The operation of this embodiment will be described below. During the normal interconnection operation, the inverter output unit 4 is operated by the inverter drive unit 6 that operates based on the inverter control signal output from the inverter control unit 5. At this time, the parallel-off relay 7 is in a short-circuit state, the output of the inverter output unit 4 matches the voltage and frequency of the system power supply 3, and the power is injected into the system to perform the interconnection operation. When the system 3 is in a state such as a power failure, it is necessary to open the disconnection relay 7 and disconnect the system interconnection inverter 11 from the system 3. At this time, an operation for surely confirming that the contacts of the parallel-off relay are open is a feature of the system interconnection inverter 11 of the present embodiment. When checking the contact information of the parallel-off relay 7,
That is, when the parallel-off relay drive unit 8 outputs an OFF signal, the inverter control unit 5 outputs a signal for outputting an inverter output to the inverter output unit 4 via the inverter drive unit 6 for a time determined by the short-time timer 13. send. The inverter output unit 4 outputs, but when the parallel-off relay 7 is open, the system 200V voltage detection unit 12 does not detect the output voltage. That is, when the output voltage is not detected, it can be recognized that the disconnection relay 7 is in a completely open state. On the other hand, when the system 200V voltage detection unit 12 detects the output voltage, it can be recognized that the contacts of the parallel-off relay 7 are not completely open.

(Embodiment 2) Hereinafter, a second embodiment of the present invention will be described. FIG. 2 is a block diagram showing the configuration of the present embodiment. The grid-connected inverter of the present embodiment is a grid-connected inverter of a photovoltaic power generation system. Reference numeral 21 denotes a system interconnection inverter of the present embodiment, which converts the input power from the solar cell 2 into the system power 3 and interconnects the system. The system interconnection inverter 21 is converted by an inverter output unit 4 composed of an inverter circuit such as an IGBT into a form suitable for the voltage and frequency of the system power supply 3. Disconnect relay 7
Is a relay for disconnection that is short-circuited when connected to the grid and opened when not connected to the grid.
N, turned off. An inverter control unit 5 provides a converted signal of the inverter output unit 4 and the inverter drive unit 6 drives the inverter output unit 4 based on a signal from the inverter control unit 5.
The grid-connected inverter 21 has the disconnection relay 7 for system protection and for protection of the system-connected inverter, but recognizes that the disconnection relay is surely disconnected when it is desired to open. To move to the next operation step. The grid interconnection inverter 21 of the present embodiment has two 100V voltage detection units 22 and 23 for detecting the voltage between the single-phase three-wire systems and the short-time timer 13 for detecting the contact point of the parallel-off relay 7. As a result, contact information is obtained. In general, a grid-connected inverter needs to detect the voltage between the single-phase three-wire systems to perform system protection. The system 100V voltage detectors 22 and 23 can also serve as the system protection voltage detectors, which is efficient.

The operation of this embodiment will be described below. During the normal interconnection operation, the inverter output unit 4 is operated by the inverter drive unit 6 that operates based on the inverter control signal output from the inverter control unit 5. At this time, the parallel-off relay 7 is in a short-circuit state, the output of the inverter output unit 4 matches the voltage and frequency of the system power supply 3, and the power is injected into the system to perform the interconnection operation. When the system 3 is in a state such as a power failure, it is necessary to open the disconnection relay 7 and disconnect the system interconnection inverter 21 from the system 3. At this time, the operation for surely confirming that the contacts of the disconnection relay are open is a feature of the system interconnection inverter 21 of the present embodiment. When checking the contact information of the parallel-off relay 7,
That is, when the parallel-off relay drive unit 8 outputs an OFF signal, the inverter control unit 5 outputs a signal for outputting the inverter output to the inverter output unit 4 via the inverter drive unit 6 for a time determined by the short-time timer 13. Send. The inverter output unit 4 outputs, but when the parallel-off relay 7 is in the open state, the system 100V voltage detection units 22 and 23 do not detect the output voltage. That is, when the output voltage is not detected,
The disconnection relay 7 can be recognized as being completely open. On the other hand, when the system 100V voltage detectors 22 and 23 detect the output voltage, it can be recognized that the contacts of the parallel-off relay 7 are not completely open.

(Embodiment 3) Hereinafter, a third embodiment of the present invention will be described. FIG. 3 is a block diagram showing the configuration of the present embodiment. The grid-connected inverter of the present embodiment is a grid-connected inverter of a photovoltaic power generation system. Reference numeral 31 denotes a system interconnection inverter of the present embodiment, which converts an input power from the solar cell 2 into a system power 3 and connects the system to the system. The system interconnection inverter 31 is converted into a form suitable for the voltage and frequency of the system power supply 3 by an inverter output unit 4 constituted by an inverter circuit such as an IGBT. The single-phase three-wire disconnection relay 32 is a disconnection relay that is short-circuited when connected to the system and opened when not connected, and is turned ON and OFF by the disconnection relay drive unit 8. An inverter control unit 5 provides a converted signal of the inverter output unit 4 and the inverter drive unit 6 drives the inverter output unit 4 based on a signal from the inverter control unit 5. The grid interconnection inverter 31 is used for system protection.
Although a single-phase three-wire disconnection relay 32 is provided to protect the system interconnection inverter, it is recognized that the single-phase three-wire disconnection relay 32 is surely disconnected when it is desired to open. It is necessary to move to the next operation step. The system interconnection inverter 31 according to the present embodiment includes two system 100V voltage detection units 22 and 23 for detecting a voltage between each system of a single-phase three-wire system for detecting a contact point of the single-phase three-wire disconnection relay 32 and a short time. Timer 13
To obtain contact information. In general, a grid-connected inverter needs to detect the voltage between the single-phase three-wire systems to perform system protection. The system 100V voltage detectors 22 and 23 can also serve as the system protection voltage detectors, which is efficient.

The operation of this embodiment will be described below. During the normal interconnection operation, the inverter output unit 4 is operated by the inverter drive unit 6 that operates based on the inverter control signal output from the inverter control unit 5. At this time, the single-phase three-wire disconnection relay 7 is in a short-circuited state, and the output of the inverter output unit 4 matches the voltage and frequency of the system power supply 3 and injects power into the system to perform the interconnection operation. It is. When the system 3 is in a state such as a power failure, it is necessary to open the single-phase three-wire disconnection relay 32 and disconnect the system interconnection inverter 31 from the system 3. At this time, the single-phase three-wire disconnection relay 32
The operation when confirming that the contact of the system is open is a feature of the system interconnection inverter 31 of the present embodiment. When confirming the contact information of the single-phase three-wire disconnection relay 32, that is, when the disconnection relay drive unit 8 outputs an OFF signal, the inverter control unit 5 sends a short signal to the inverter output unit 4 via the inverter drive unit 6. A signal for outputting the inverter output is sent for a time determined by the time timer 13. Inverter output unit 4
Is output, but when the single-phase three-wire disconnection relay 32 is in the open state, the system 100V voltage detection units 22 and 23 do not detect the output voltage. That is, when the output voltage is not detected,
The line disconnection relay 32 can be recognized as being completely open. On the other hand, the system 100V voltage detection units 22, 23
Detects the output voltage, it can be recognized that the contacts of the disconnection relay 7 are not completely open.

(Embodiment 4) Hereinafter, a fourth embodiment of the present invention will be described. FIG. 4 is a block diagram showing the configuration of this embodiment. The grid-connected inverter of the present embodiment is a grid-connected inverter of a photovoltaic power generation system. Reference numeral 41 denotes a system interconnection inverter of the present embodiment, which converts input power from the solar cell 2 into system power 3 and interconnects the system. The system interconnection inverter 41 is converted into a form suitable for the voltage and frequency of the system power supply 3 by an inverter output unit 4 composed of an inverter circuit such as an IGBT. Disconnect relay 7
Is a relay for disconnection that is short-circuited when connected to the grid and opened when not connected to the grid.
N, turned off. An inverter control unit 5 provides a converted signal of the inverter output unit 4 and the inverter drive unit 6 drives the inverter output unit 4 based on a signal from the inverter control unit 5.
The grid-connected inverter 41 has the disconnection relay 7 for system protection and for protection of the grid-connected inverter, but it must be ensured that the disconnection relay 7 is disconnected when it is desired to open it. It is necessary to recognize and move to the next operation step. The system interconnection inverter 41 of the present embodiment has two system 100V voltage detection units 22 and 23 for detecting the voltage between the single-phase three-wire systems and the short-time timer 13 for detecting the contact point of the parallel-off relay 7. As a result, contact information is obtained. In general, a grid-connected inverter needs to detect the voltage between the single-phase three-wire systems to perform system protection. The system 100V voltage detectors 22 and 23 can also serve as the system protection voltage detectors, which is efficient. Further, the grid-connected inverter 41 of this embodiment has impedances 42 and 43 on the inverter output unit 4 side from the parallel-off relay 7 between the single-phase three-wire systems for contact detection, respectively.

The operation of the embodiment will be described below. During the normal interconnection operation, the inverter output unit 4 is operated by the inverter drive unit 6 that operates based on the inverter control signal output from the inverter control unit 5. At this time, the single-phase three-wire disconnection relay 7 is in a short-circuited state, and the output of the inverter output unit 4 matches the voltage and frequency of the system power supply 3 and injects power into the system to perform the interconnection operation. It is. When the system 3 is in a state such as a power failure, the disconnection relay 7 is opened,
It is necessary to disconnect the system interconnection inverter 41 from the system 3. At this time, the operation for surely confirming that the contacts of the disconnection relay 7 are open is a feature of the system interconnection inverter 41 of the present embodiment. When the contact information of the disconnection relay 7 is confirmed, that is, when the disconnection relay drive unit 8 outputs the OFF signal, the inverter control unit 5 controls the inverter drive unit 6
And a signal for outputting an inverter output to the inverter output unit 4 for a time determined by the short-time timer 13 via. The inverter output unit 4 outputs, but the parallel-off relay 7
When both of these contacts are in the open state, both the system 100V voltage detection units 22 and 23 do not detect the output voltage. That is, when neither of them detects the output voltage, it can be recognized that the parallel-off relay 7 is completely open. on the other hand,
When the system 100V voltage detectors 22 and 23 detect the output voltage, it can be recognized that the contacts of the parallel-off relay 7 are not completely open. In particular, in this embodiment, when one of the contacts of the disconnecting relay 7 is open and the other contact is in a short-circuited state, such that the disconnecting relay 7 is in an insufficiently open state, The connected system 100V voltage detection unit does not detect the voltage, but the system 100V voltage detection unit connected to the other short-circuited side detects the output voltage via the impedance 42 or the impedance 43. That is, detailed contact information of the disconnection relay 7 can be obtained.

(Embodiment 5) Hereinafter, a fifth embodiment of the present invention will be described. FIG. 5 is a block diagram showing the configuration of the present embodiment. The grid-connected inverter of the present embodiment is a grid-connected inverter of a photovoltaic power generation system. Reference numeral 51 denotes a system interconnection inverter of the present embodiment, which converts input power from the solar cell 2 into system power 3 and interconnects the system. The system interconnection inverter 51 is converted into a form suitable for the voltage and frequency of the system power supply 3 by an inverter output unit 4 configured by an inverter circuit such as an IGBT. The single-phase three-wire disconnection relay 52 is a disconnection relay that is short-circuited when connected to the system and opened when not connected, and is turned ON and OFF by the disconnection relay drive unit 8. An inverter control unit 5 provides a converted signal of the inverter output unit 4 and the inverter drive unit 6 drives the inverter output unit 4 based on a signal from the inverter control unit 5. The grid interconnection inverter 51 is used for system protection.
Although a single-phase three-wire disconnection relay 52 is provided to protect the system interconnection inverter, it is recognized that the single-phase three-wire disconnection relay 52 is surely disconnected when it is desired to open. It is necessary to move to the next operation step. The system interconnection inverter 51 according to the present embodiment includes two system 100V voltage detection units 22 and 23 for detecting a voltage between each system of a single-phase three-wire system for detecting a contact point of the single-phase three-wire disconnection relay 52 and a short time. Timer 13
To obtain contact information. In general, a grid-connected inverter needs to detect the voltage between the single-phase three-wire systems to perform system protection. The system 100V voltage detectors 22 and 23 can also serve as the system protection voltage detectors, which is efficient. Further, the system interconnection inverter 51 of the present embodiment has impedances 42 and 43 on the inverter output unit 4 side from the single-phase three-wire disconnection relay 52 between the single-phase three-wire systems for contact detection, respectively.

The operation of the embodiment will be described below. During the normal interconnection operation, the inverter output unit 4 is operated by the inverter drive unit 6 that operates based on the inverter control signal output from the inverter control unit 5. At this time, the single-phase three-wire single-phase three-wire disconnection relay 52 is in a short-circuit state, and the output of the inverter output unit 4 matches the voltage and frequency of the system power supply 3. Perform the operation. When the system 3 is in a state such as a power failure, it is necessary to open the single-phase three-wire disconnection relay 52 and disconnect the system interconnection inverter 51 from the system 3. At this time, the operation for surely confirming that the contact of the single-phase three-wire disconnection relay 52 is open is a feature of the grid interconnection inverter 51 of the present embodiment. When confirming the contact information of the single-phase three-wire disconnection relay 52, that is, when the disconnection relay drive unit 8 outputs an OFF signal, the inverter control unit 5 sends a short signal to the inverter output unit 4 via the inverter drive unit 6. A signal for outputting the inverter output is sent for a time determined by the time timer 13. Although the inverter output unit 4 outputs, when the three single-phase three-wire parallel-off relays 52 are open, both the system 100V voltage detection units 22 and 23 do not detect the output voltage.
That is, when neither of them detects the output voltage, it can be recognized that the single-phase three-wire disconnection relay 52 is completely open. On the other hand, when the system 100V voltage detectors 22 and 23 detect the output voltage, it can be recognized that the contacts of the single-phase three-wire disconnection relay 52 are not completely open. In particular, in the present embodiment, of the three contacts of the single-phase three-wire disconnection relay 52, two contacts are in a short-circuit state.
When the single-phase three-wire disconnection relay 52 is in an insufficiently open state, the voltage of the system 100 V voltage detecting unit connected to the short-circuited side is the impedance 42 or the impedance 43.
The output voltage is detected via. That is, detailed contact information of the single-phase three-wire disconnection relay 52 can be obtained.

(Embodiment 6) Hereinafter, a sixth embodiment of the present invention will be described. FIG. 6 is a block diagram showing the configuration of the present embodiment. The grid-connected inverter of the present embodiment is a grid-connected inverter of a photovoltaic power generation system. Reference numeral 61 denotes a system interconnection inverter of this embodiment, which converts the input power from the solar cell 2 into the system power 3 and interconnects the system. The system interconnection inverter 61 is converted into a form suitable for the voltage and frequency of the system power supply 3 by an inverter output unit 4 constituted by an inverter circuit such as an IGBT. Disconnect relay 7
Is a relay for disconnection that is short-circuited when connected to the grid and opened when not connected to the grid.
N, turned off. The conversion signal of the inverter output unit 4 is given by the inverter control unit 62. The inverter drive unit 6 drives the inverter output unit 4 based on the signal from the inverter control unit 62. The grid-connected inverter 61 has the disconnection relay 7 for system protection and for protection of the system-connected inverter, but it must be ensured that the disconnection relay 7 is disconnected when it is desired to open it. It is necessary to recognize and move to the next operation step. The grid interconnection inverter 61 of the present embodiment has two 100V voltage detection units 22 and 23 for detecting the voltage between the single-phase three-wire systems and the short-time timer 13 for detecting the contact point of the parallel-off relay 7. As a result, contact information is obtained. In general, a grid-connected inverter needs to detect the voltage between the single-phase three-wire systems to perform system protection.
The system 100V voltage detectors 22 and 23 can also serve as the system protection voltage detectors, which is efficient. In addition, the system interconnection inverter 61 of the present embodiment uses the inverter output unit 4 from the parallel-off relay 7 between the single-phase three-wire systems for contact detection.
Side has impedances 42 and 43, respectively.
The inverter control unit 62 includes a normal signal generation unit 63 for generating a control signal for normal interconnection and a low voltage signal generation unit 64.

The operation of the embodiment will be described below. During the normal interconnection operation, the inverter output unit 4 is operated by the inverter drive unit 6 that operates based on the inverter control signal output from the normal signal generation unit 63 of the inverter control unit 62. At this time, the single-phase three-wire disconnection relay 7 is in a short-circuit state,
The output of the inverter output unit 4 matches the voltage, frequency, and the like of the system power supply 3, and injects power into the system to perform the interconnection operation. When the system 3 is in a state such as a power failure, it is necessary to open the disconnection relay 7 and disconnect the system interconnection inverter 61 from the system 3. At this time, the operation for surely confirming that the contact of the disconnection relay 7 is open is a feature of the system interconnection inverter 61 of the present embodiment. When the contact information of the disconnection relay 7 is confirmed, that is, when the disconnection relay drive unit 8 outputs an OFF signal, the low-voltage signal generation unit 64 of the inverter control unit 62 outputs the inverter output unit via the inverter drive unit 6. 4, a signal for outputting the inverter output is sent for a time determined by the short-time timer 13. The inverter output unit 4 outputs, but when the disconnection relay 7 is open at both of these contacts, the system 100V voltage detection unit 2
Neither 2 nor 23 detects its output voltage. That is, when neither of them detects the output voltage, it can be recognized that the parallel-off relay 7 is completely open. On the other hand, when the system 100V voltage detectors 22 and 23 detect the output voltage, it can be recognized that the contacts of the parallel-off relay 7 are not completely open. In particular, in this embodiment,
When one of the contacts of the disconnecting relay 7 is open and the other contact is in a short-circuited state, and the disconnecting relay 7 is in an insufficiently open state, the system 10 connected to the open side.
The 0 V voltage detector does not detect the voltage, but the system 100 V voltage detector connected to the other short-circuited side detects the output voltage via the impedance 42 or the impedance 43. That is, detailed contact information of the disconnection relay 7 can be obtained. In the present invention, the output voltage of the inverter output unit 4 at the time of detecting the contact information is set to be lower than that at the time of the normal interconnection. The structure does not damage the connected load.

[0023]

According to the first aspect of the present invention, there is provided an inverter output section for converting an input power supply to a system power supply, a parallel-off relay for separating the inverter output section from the system power supply, and a system 200V voltage for detecting the voltage of the system power supply. Inverter control unit that receives a signal from the detection unit and the system 200V voltage detection unit and outputs a control signal of the inverter output unit, a short-time timer that measures the time to output a signal for detecting a disconnection relay contact, and a signal of the inverter control unit By having an inverter drive unit that drives the inverter output unit and a disconnection relay drive unit that drives the disconnection relay, based on whether the voltage detection unit can detect the output voltage of the inverter output unit, Has realized a grid-connected inverter that can reliably recognize that it is open.

According to a second aspect of the present invention, there is provided an inverter output section for converting an input power supply to a system power supply, a parallel-off relay for separating the inverter output section from the system power supply, and a single-phase three-phase power supply for the system power supply.
Two system 100V voltage detectors for detecting the voltage of the line 100V system respectively; an inverter controller for receiving a signal from the system 100V voltage detector and outputting a control signal for the inverter output unit; A short-time timer that measures the time to output the signal of the inverter, an inverter drive unit that drives the inverter output unit based on a signal from the inverter control unit, and a disconnection relay drive unit that drives the disconnection relay. The system 100V voltage detection unit can recognize that the disconnection relay is reliably opened based on whether or not the system 100V voltage detection unit can detect the output voltage of the inverter output unit. An efficient grid-connected inverter that can be shared is realized.

According to a third aspect of the present invention, there is provided an inverter output unit for converting an input power supply to a system power supply, and a single-phase three-wire disconnection for separating each of the inverter output unit and the three-wire system single-phase three-wire system power supply. 100V of relay and single-phase three-wire system power supply
Two system 100V voltage detectors for detecting the voltage of the system, an inverter controller for receiving a signal from the system 100V voltage detector and outputting a control signal for the inverter output unit, and a signal for detecting the disconnection relay contact. A short-time timer for measuring an output time, an inverter drive unit for driving an inverter output unit based on a signal from the inverter control unit, and a disconnection relay drive unit for driving a single-phase three-wire disconnection relay;
A grid-connected inverter that can recognize that the single-phase three-wire parallel-off relay is reliably opened based on whether the two system 100V voltage detection units can detect the output voltage of the inverter output unit is realized. .

According to a fourth aspect of the present invention, there is provided an inverter output section for converting an input power supply to a system power supply, a parallel-off relay for separating the inverter output section from the system power supply, and a single-phase three-wire 100 V system of the system power supply. Two system 100V voltage detectors for detecting voltages, two impedances connected to the inverter output side from a single-phase three-wire parallel-off relay, and a signal from the system 100V voltage detector for inverter output An inverter control unit that outputs a control signal of the inverter, a short-time timer that measures a time for outputting a signal for detecting a disconnection relay contact, and an inverter drive unit that drives the inverter output unit based on the signal of the inverter control unit. It has a disconnection relay drive unit for driving a column relay, and has two systems of 100 V
Whether or not the voltage detection unit can detect the output voltage of the inverter output unit can reliably recognize that the disconnection relay is open, and one of the two contacts is open and the other is short-circuited. It realizes a grid-connected inverter capable of recognizing detailed information of contacts such as.

According to a fifth aspect of the present invention, there is provided an inverter output unit for converting an input power supply to a system power supply, and a single-phase three-wire disconnection for separating each of the inverter output unit and the three-wire system single-phase three-wire system power supply. 100V of relay and single-phase three-wire system power supply
Two system 100V voltage detection units for detecting system voltages, two impedances connected to the inverter output unit side from a single-phase three-wire parallel-off relay between single-phase three-wires, and a system 1
An inverter control unit that receives a signal from the 00V voltage detection unit and outputs a control signal of an inverter output unit, a short-time timer that measures a time for outputting a signal for detecting a disconnection relay contact, and a signal from the inverter control unit. It has an inverter drive unit for driving an inverter output unit, and a disconnection relay drive unit for driving a single-phase three-wire disconnection relay.
Whether or not the voltage detection unit can detect the output voltage of the inverter output unit can recognize that the single-phase three-wire parallel-off relay is surely open. In particular, one of the three contacts is open. However, when two or more contacts are in a short-circuit state, an interconnected inverter capable of recognizing detailed information is realized.

According to a sixth aspect of the present invention, there is provided an inverter output unit for converting an input power supply to a system power supply, and a single-phase three-wire disconnection for separating each of the inverter output unit and the single-phase three-wire system of the system power supply. A relay connected to the inverter output side from a single-phase three-wire disconnection relay between the two single-phase three-wire 100V voltage detectors and two single-phase three-wire 100V voltage detectors for detecting the voltage of the single-phase three-wire 100 V system, respectively Impedance and system 100
An inverter control unit that receives a signal from the V voltage detection unit and outputs a control signal of an inverter output unit; a short-time timer that measures a time for outputting a signal for detecting a disconnection relay contact;
An inverter drive unit that drives an inverter output unit based on a signal from the inverter control unit, and a disconnection relay drive unit that drives a single-phase three-wire disconnection relay. The inverter control unit includes a normal signal generation unit and a low-voltage signal. Having a generation unit and two systems 1
Whether or not the single-phase three-wire disconnection relay is reliably opened can be recognized based on whether or not the 00V voltage detection unit can detect the output voltage of the inverter output unit. The present invention realizes a grid-connected inverter that outputs a low voltage without damaging the load even when applied to the load.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a system interconnection inverter according to a first embodiment of the present invention;

FIG. 2 is a block diagram showing a configuration of a system interconnection inverter according to a second embodiment of the present invention;

FIG. 3 is a block diagram showing a configuration of a system interconnection inverter according to a third embodiment of the present invention;

FIG. 4 is a block diagram showing a configuration of a system interconnection inverter according to a fourth embodiment of the present invention;

FIG. 5 is a block diagram showing a configuration of a system interconnection inverter according to a fifth embodiment of the present invention;

FIG. 6 is a block diagram showing a configuration of a system interconnection inverter according to a sixth embodiment of the present invention;

FIG. 7 is a block diagram showing a configuration of a conventional grid-connected inverter;

[Explanation of symbols]

Reference Signs List 4 inverter output unit 5 inverter control unit 6 inverter drive unit 7 disconnection relay 8 disconnection relay drive unit 11, 21, 31, 41, 51, 61 system interconnection inverter 12 system 200V voltage detection unit 13 short-time timer 22, 23 System 100V voltage detection unit 32 Single-phase three-wire disconnection relay 42, 43 Impedance 52 Single-phase three-wire disconnection relay 62 Inverter control unit 63 Normal signal generation unit 64 Low voltage signal generation unit

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Masafumi Sadahira 1006 Kazuma Kadoma, Osaka Prefecture Inside Matsushita Electric Industrial Co., Ltd. 72) Inventor Kiyoshi Izaki 1006 Kadoma, Kazuma, Kazuma, Osaka, Japan Matsushita Electric Industrial Co., Ltd. 1006 Kadoma Kadoma Matsushita Electric Industrial Co., Ltd. (72) Inventor Hideki Omori 1006 Kadoma City Kadoma, Osaka Pref.Matsushita Electric Industrial Co., Ltd.F-term (reference) FA19 GA09

Claims (6)

[Claims] 1. An inverter output section for converting an input power supply to a system power supply, a parallel-off relay for separating the inverter output section from the system power supply, a system 200V voltage detection section for detecting a system power supply voltage, and a system 200V voltage detection. An inverter control unit that receives a signal from the unit and outputs a control signal of an inverter output unit, a short-time timer that measures a time for outputting a signal for detecting a disconnection relay contact, and an inverter output based on the signal of the inverter control unit. A drive unit for driving the switching unit and a disconnection relay drive unit for driving the disconnection relay.
A system interconnection inverter capable of recognizing that a disconnection relay is reliably opened based on whether a 0V voltage detection unit can detect an output voltage of an inverter output unit. 2. An inverter output unit for converting an input power supply to a system power supply, a parallel-off relay for separating the inverter output unit from the system power supply, and two units each detecting a voltage of a single-phase three-wire 100V system of the system power supply. A system 100V voltage detector,
An inverter control unit that receives a signal from the system 100V voltage detection unit and outputs a control signal of an inverter output unit, a short-time timer that measures a time for outputting a signal for detecting a disconnection relay contact, and a signal of the inverter control unit. An inverter drive unit for driving an inverter output unit based on the inverter and a disconnection relay drive unit for driving a disconnection relay.
A grid-connected inverter that can recognize that the parallel-off relay is reliably opened based on whether the voltage detection unit can detect the output voltage of the inverter output unit. 3. An inverter output unit for converting an input power supply to a system power supply, a single-phase three-wire disconnection relay for separating each of the inverter output unit and a three-phase three-wire system of the system power supply, and a single system power supply unit Two system 100V voltage detectors for detecting the voltage of the phase 3 wire 100V system, an inverter controller for receiving a signal from the system 100V voltage detector and outputting a control signal of the inverter output unit, and detection of a disconnection relay contact There is a short-time timer that measures the time to output a signal for use, an inverter drive unit that drives the inverter output unit based on the signal of the inverter control unit, and a disconnection relay drive unit that drives the single-phase three-wire disconnection relay. And whether or not the two system 100V voltage detectors can detect the output voltage of the inverter output unit can determine that the single-phase three-wire parallel-off relay is reliably opened. Converta. 4. An inverter output section for converting an input power supply to a system power supply, a parallel-off relay for separating the inverter output section from the system power supply, and two detectors each for detecting a single-phase three-wire 100V system voltage of the system power supply. A system 100V voltage detector,
Inverter control unit that receives two signals connected from the single-phase three-wire disconnection relay to the inverter output unit side and a signal from the system 100V voltage detection unit and outputs a control signal of the inverter output unit, and a disconnection relay contact A short-time timer for measuring a time for outputting a signal for detection, an inverter drive unit for driving an inverter output unit based on a signal of the inverter control unit, and a disconnection relay drive unit for driving a disconnection relay; A system interconnection inverter that can recognize that the disconnection relay is reliably opened based on whether or not two system 100V voltage detection units can detect the output voltage of the inverter output unit. 5. An inverter output section for converting an input power supply to a system power supply, a single-phase three-wire disconnection relay for separating each of three lines of the single-phase three-wire system of the inverter output section and the system power supply, and a single-phase system power supply Two single-phase 100V voltage detectors for detecting the voltage of the three-wire 100V system, respectively, and a single-phase 3 between the single-phase 3 wires
An inverter control unit for receiving two signals connected from the line disconnection relay to the inverter output unit side, receiving a signal from the system 100V voltage detection unit and outputting a control signal for the inverter output unit, and a signal for detecting the contact of the disconnection relay contact A short-time timer for measuring the output time of the inverter, an inverter drive unit for driving the inverter output unit based on a signal from the inverter control unit, and a disconnection relay drive unit for driving the single-phase three-wire disconnection relay. A system interconnection inverter capable of recognizing that the single-phase three-wire disconnection relay is reliably opened based on whether or not the system 100V voltage detection unit can detect the output voltage of the inverter output unit. 6. An inverter output unit for converting an input power supply to a system power supply, a single-phase three-wire disconnection relay for separating each of three lines of a single-phase three-wire system of the inverter output unit and the system power supply, and a single-phase power supply for the system power supply Two single-phase 100V voltage detectors for detecting the voltage of the three-wire 100V system, respectively,
An inverter control unit that receives two impedances connected to the inverter output unit side from the line disconnection relay and a signal from the system 100V voltage detection unit and outputs a control signal of the inverter output unit and outputs a signal for detection of a contact point of the disconnection relay. A short-time timer that measures the time to perform and an inverter drive unit that drives the inverter output unit based on a signal from the inverter control unit, and a disconnection relay drive unit that drives the single-phase three-wire disconnection relay,
The inverter control unit has a normal signal generation unit and a low voltage signal generation unit, and the single-phase three-wire disconnection relay is reliably determined by whether or not the two system 100V voltage detection units can detect the output voltage of the inverter output unit. A grid-connected inverter that can recognize that it is open to the public.