JP4046433B2 - Grid-connected inverter device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a grid-connected inverter device that converts DC power, such as solar power generation or biogas power generation, into AC power, and grid-connects to an AC power system to supply power to a load.
[0002]
[Prior art]
A conventional grid-connected inverter device will be described with reference to the drawings. FIG. 9 is a diagram illustrating a configuration of a photovoltaic power generation system to which a conventional grid-connected inverter device is applied.
[0003]
In FIG. 9, 1 is a solar cell, 2 is a DC / DC converter, 3 is an inverter, 4 is a relay, 5 is a load, 6 is an AC power system, 11 is a detection circuit for detecting the system voltage, and 14 is a control circuit. .
[0004]
In the photovoltaic power generation system shown in FIG. 9, the DC power generated by the solar cell 1 is boosted to a predetermined DC voltage by the DC / DC converter 2 and then converted into AC power by the inverter 3. Then, it is supplied via a relay 4 to a load 5 such as a television or lighting.
[0005]
The power generated by the solar cell 1 is normally consumed by the load 5, but when there is surplus power, it is transmitted to the AC power system 6 (reverse power flow), and when the power is insufficient, the AC power system 6 will compensate for the shortage of power.
[0006]
In such a grid-connected inverter device, there is usually an imbalance between the power output from the grid-connected inverter device and the power consumption consumed by the load 5, and one or both of active power and reactive power is Since the voltage or frequency changes when the AC power system 6 fails due to unbalance, this is detected by the detection circuit 11, and the control circuit 14 disconnects the relay 4 to interrupt the AC power system 6. It corresponds to.
[0007]
However, when the output power of the grid-connected inverter device and the power consumption of the load 5 are balanced and both the active power and the reactive power are approximately in a balanced state, a power failure occurs in the AC power system 6, and thus the power failure cannot be detected. Contains dots.
[0008]
That is, in the above-described state, the amount of change in both voltage and frequency is small, and the detection circuit 11 cannot detect the change in voltage and frequency. When such a situation occurs, the grid-connected inverter device continues to operate. Such a state is referred to as an isolated operation state, and the grid-connected inverter device is inconvenient in terms of maintenance.
[0009]
As a method of preventing such isolated operation, the grid-connected inverter device applies a bias to the frequency of the alternating current power to be output (frequency shift method) or periodically changes the active power and reactive power (effective The power fluctuation method and reactive power fluctuation method) have been proposed by the distributed power system interconnection guidelines (NEC).
[0010]
In the frequency shift method, for example, when the AC power system 6 is 60 Hz, the grid-connected inverter device outputs AC power to which a bias such as 60.1 Hz is applied. In such a case, since the capacity of the AC power system 6 is much larger than the capacity of the grid interconnection inverter, the frequency of the AC power system remains at 60 Hz. However, when the AC system 6 fails, a frequency of 60.1 Hz appears on the system side. When this is detected, it can be determined that the AC power system 6 has failed.
[0011]
In addition, when the load 5 is a capacitive load, the frequency shifts in a lower direction, and there is a possibility that the frequency of 60.1 Hz does not appear. For this reason, a method has been proposed in which the bias direction is changed periodically to ensure that the frequency bias component appears in the AC power system 6 during single operation regardless of whether the load 5 is a capacitive load or an inductive load. -322409).
[0012]
On the other hand, the active power fluctuation method and the reactive power fluctuation method are methods for preventing the output power of the grid-connected inverter device and the load 5 from being balanced by periodically changing the active power or the reactive power.
[0013]
[Problems to be solved by the invention]
In the conventional grid-connected inverter device as described above, a method for preventing isolated operation by periodically changing the frequency or active power or reactive power has been proposed, but there are many grid-connected inverter devices. If the AC power system 6 is out of power when the units are connected in parallel, the AC power system 6 cancels out the frequency or the variation in active power or reactive power, and the power outage may not be detected. There was a problem.
[0014]
The present invention has been made to solve the above-described problems, and an object of the present invention is to obtain a grid-connected inverter device that can reliably detect an isolated operation even when a large number of units are operated in parallel.
[0015]
[Means for Solving the Problems]
A grid-connected inverter device according to the present invention includes an inverter that converts a DC power source into AC, switch means provided between the inverter and the AC power system, a detection circuit that detects a system voltage of the AC power system, A grid interconnection inverter comprising: a control circuit for turning on the switch means to reversely flow the converted AC power to the AC power system and moving a load connected to the AC power system based on a system voltage The apparatus comprises a receiving means for receiving a standard time signal, and the control circuit operates at a frequency having a periodic bias with respect to a system frequency in synchronization with the received standard time signal, and detects the detected signal. When the cycle of the system voltage obtained based on the system voltage is less than or equal to a predetermined value or more than a predetermined value, the switch means is turned off and the inverter and the inverter are turned off. Away City off the electric power system, the period of the frequency having the periodic bias are those common divisor of a plurality of commercial frequency.
[0016]
In addition, a grid-connected inverter device according to the present invention includes an inverter that converts a DC power source into AC, switch means provided between the inverter and the AC power system, and a detection circuit that detects a system voltage of the AC power system. And a control circuit that turns on the switch means to reversely flow the converted AC power to the AC power system based on the system voltage and moves a load connected to the AC power system. The system inverter device includes a receiving means for receiving a standard time signal, and the control circuit periodically varies the reactive power in synchronization with the received standard time signal and obtains it based on the detected system voltage. If the cycle of the system voltage is equal to or less than or more than a predetermined value a predetermined value, the release-shi cut and the inverter by turning off said switch means and said AC power system, Variation period of the serial reactive power is to be a common divisor of the plurality of commercial frequency.
[0017]
Further, the grid-connected inverter device according to the present invention includes an inverter that converts a DC power source into AC, switch means provided between the inverter and the AC power system, and a detection circuit that detects a system voltage of the AC power system. And a control circuit that turns on the switch means to reversely flow the converted AC power to the AC power system based on the system voltage and moves a load connected to the AC power system. The system inverter device includes a receiving means for receiving a standard time signal, and the control circuit periodically varies the active power in synchronization with the received standard time signal, and the detected system voltage value is a predetermined value. or less or when it becomes a predetermined value or more, away City off and turn off said inverter the AC power system to the switch means, the fluctuation cycle of the active power , It is an common divisor of a plurality of commercial frequency.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
A grid-connected inverter device according to Embodiment 1 of the present invention will be described with reference to the drawings. 1 is a diagram showing a configuration of a grid-connected inverter device according to Embodiment 1 of the present invention. In addition, in each figure, the same code | symbol shows the same or equivalent part.
[0020]
In FIG. 1, 1 is a solar cell, 2 is a DC / DC converter that boosts the voltage of the solar cell 1 to a predetermined voltage, 3 is an inverter that converts a DC voltage into AC synchronized with an AC power system (described later), 4 Relay for connecting the grid-connected inverter and the AC power system, 5 is a load connected to the AC power system, such as a television, lighting, refrigerator, 6 is an AC power system, 7 is a detection for detecting the voltage of the solar cell 1 Circuit 8, resistor for detecting current output from solar cell 1, 9 detection circuit for detecting current output from solar cell 1, 10 detection circuit for detecting output voltage of DC / DC converter 2 , 11 is a detection circuit for detecting the system voltage, 12 is an antenna, 13 is a receiving circuit, and 14 is a control circuit.
[0021]
Next, the operation of the grid-connected inverter device according to the first embodiment will be described with reference to the drawings. FIG. 2 is a diagram showing the operation of the control device of the grid-connected inverter device according to Embodiment 1 of the present invention. FIG. 3 is a diagram showing a transmission format of the standard radio wave JJY. Further, FIG. 4 is a diagram showing the operation of the grid-connected inverter device according to Embodiment 1 of the present invention.
[0022]
The control circuit 14 reads the instantaneous system voltage from the detection circuit 11 and the output voltage of the DC / DC converter 2 from the detection circuit 10. From these, a target output voltage command value that generates an output voltage exactly the same as the system voltage is generated. Normally, the control circuit 14 is digitally processed by a microcomputer or the like, but when this command value is expressed in analog, the command value is as shown in FIG.
[0023]
Further, the control circuit 14 determines an instantaneous instantaneous target current value to be output to the AC power system 6. The target current value is obtained by reading the output voltage of the solar cell 1 from the detection circuit 7 and the output current of the solar cell 1 from the detection circuit 9 and calculating the maximum power that can be extracted from the solar cell 1 from the two values. A current command value is generated.
[0024]
The control circuit 14 calculates the cycle of the system voltage from the detection circuit 11, and generates a target output current command value at a cycle obtained by adding or subtracting a predetermined bias to this cycle. The cycle of the system voltage is calculated by the time between zero voltages of the system voltage detected by the detection circuit 11.
[0025]
For example, when the measured period is 60 Hz and the bias amount is +0.1, the period of the target output current command value in FIG. 2B is 60.1 Hz. Normally, the control circuit 14 is digitally processed by a microcomputer or the like, but when this target output current command value is expressed in an analog manner, a command value as shown in FIG.
[0026]
The control circuit 14 adds the target output voltage command value in FIG. 2A and the target output current command value in FIG. 2B, and converts the addition result into the switching time of the switching elements 3a to 3d of the inverter 3. To do. FIGS. 2C and 2D show the converted switching times. A darker portion indicates a longer on time and a thinner portion indicates a shorter on time.
[0027]
When generating a voltage in the positive direction, the grid-connected inverter increases the on-time for the set of switching elements 3b and 3c as the command value increases, and the set of switching elements 3a and 3d is the set of 3b and 3c. When the voltage is generated in the negative direction, the ON time is increased as the command value increases in the group of 3a and 3d, and the group of 3a and 3d is moved in the reverse direction. .
[0028]
Thereby, the grid interconnection inverter outputs a voltage higher than the system voltage of the AC power system 6 by the target output current command value. Here, when the relay 4 is turned on. The output voltage of the grid interconnection inverter becomes the same as the grid voltage, and an output current flows from the grid interconnection inverter. FIG. 2E shows the output voltage of the grid interconnection inverter, and FIG. 2F shows the output current.
[0029]
FIG. 3 shows the JJY transmission method described on the website of the Communications Research Laboratory, Ministry of Posts and Telecommunications. This JJY generates a 1600 Hz second signal at an interval of 1 second as shown in FIG. 3H except for between 35 minutes and 39 minutes per hour as shown in FIG. As shown in FIG. 4B, a warning signal of 600 Hz is generated before 00 seconds per minute. The antenna 12 and the receiving circuit 13 are configured to receive a standard radio wave JJY transmitted from the Communications Research Laboratory, Ministry of Posts and Telecommunications.
[0030]
When the control circuit 14 receives the JJY second signal from the receiving circuit 13, as shown in FIG. 4, immediately after this, the control circuit 14 increases the target output current command value to + α for the previously measured period for 10 cycles. A bias is applied, and a bias of -α is added to the target output current command value for the next 10 cycles. This is repeated until the next second signal is received. When the second signal is received next time, a sequence for applying a bias of + α for 10 cycles and −α for 10 cycles is repeated again.
[0031]
When the cycle of the system voltage becomes equal to or greater than the predetermined value or less than the predetermined value, it is determined that the AC power system 6 has failed, and the relay 4 is turned off and the operation of the inverter 3 is stopped. Disconnect the grid interconnection inverter from 6.
[0032]
That is, a relay 4 is provided between the inverter 3 for converting a DC power source such as the solar battery 1 to AC, means 11 and 14 for detecting the cycle of the system, and the inverter 3 and the AC power system 6, and the relay 4 is turned on. Then, it is a grid-connected inverter device that reversely flows the converted AC power to the AC power system 6 and purchases power from the power company or moves the load 5 connected to the AC power system 6. Means 12 and 13 for receiving radio and television radio waves are provided. Standard radio waves such as JJY and JG2AS transmitted from the Communications Research Laboratory of the Ministry of Posts and Telecommunications are received and synchronized with these signals. Thus, the grid interconnection inverter operates at a frequency having a periodic bias with respect to the grid frequency, and when the grid voltage period is, for example, 50 Hz, it is 48 Hz or less, or 52 Hz. When it becomes the upper, clear the relay 4, disconnect the the system interconnection inverter and the AC power system 6.
[0033]
According to the grid interconnection inverter device according to the first embodiment, radio and television time signals or standard radio waves such as JJY or JG2AS transmitted from the Ministry of Posts and Telecommunications Research Laboratory are received and synchronized with this. Therefore, even when multiple grid-connected inverter devices are operated in parallel, the bias direction and timing of all grid-connected inverter devices can be synchronized. A power failure can be detected reliably.
[0034]
Embodiment 2. FIG.
A grid-connected inverter device according to Embodiment 2 of the present invention will be described with reference to the drawings. 5 and 6 are diagrams showing the operation of the grid-connected inverter device according to Embodiment 2 of the present invention. The configuration of the second embodiment is the same as that of the first embodiment.
[0035]
The first embodiment is an example in which a periodic bias is added to the frequency of the target output current command value, but the second embodiment is an example in which a periodic bias is added to the phase.
[0036]
As shown in FIG. 5A, the control circuit 14 generates a target output voltage command value as in the first embodiment. The target output current command value is also calculated from the maximum power that can be extracted from the solar cell 1 as in the first embodiment. At this time, a periodic variation is added to the phase as shown in FIG.
[0037]
FIG. 6 is a diagram for explaining the periodic variation. When the control circuit 14 receives the second signal from JJY, the phase of the target output current command value is advanced by β for 10 cycles. In the next 10 cycles, the phase is restored, and in the next 10 cycles, the phase of the target output current command value is advanced by β again.
[0038]
The control circuit 14 adds the target output voltage command value of FIG. 5A and the target output current command value of FIG. 5B, and converts the addition result into switching times of the switching elements 3a to 3d of the inverter 3. To do. FIGS. 5C and 5D show the converted switching times. A darker portion indicates a longer on time and a thinner portion indicates a shorter on time.
[0039]
When the relay 4 is turned on and the AC power system 6 is operating in conjunction with the AC power system 6, if the system voltage cycle is equal to or greater than the predetermined value or less than the predetermined value, the AC power system 6 has a power failure. The relay 4 is turned off and the operation of the inverter 3 is stopped to disconnect the grid-connected inverter from the AC power system 6.
[0040]
That is, a relay 4 is provided between the inverter 3 for converting a DC power source such as the solar battery 1 into AC, means 11 and 14 for detecting the cycle of the AC power system 6, and the inverter 3 and the AC power system 6. 4 is a grid-connected inverter device that turns on 4 and causes the converted AC power to flow backward to the AC power system 6 to purchase power from the power company or move the load 5 connected to the AC power system 6. There are means 12 and 13 for receiving radio and television radio waves, and the standard radio waves such as JJY or JG2AS transmitted from the TV, radio time signal or the Communications Research Laboratory of the Ministry of Posts and Telecommunications are received. In synchronization with the grid-connected inverter, the grid interconnection inverter periodically varies the reactive power. For example, in a region where the system voltage is 50 Hz, it is 48 Hz or less or 52 Hz or more. Over 4 to turn off, disconnecting the the system interconnection inverter and the AC power system 6.
[0041]
According to the grid interconnection inverter device according to the second embodiment, radio and television time signals or standard radio waves such as JJY or JG2AS transmitted from the Ministry of Posts and Telecommunications Research Institute are received and synchronized with this. Therefore, even when many grid-connected inverter devices are operated in parallel, the reactive power fluctuation timing of all grid-connected inverter devices can be synchronized, and the AC power system power failure Can be reliably detected.
[0042]
Embodiment 3 FIG.
A grid-connected inverter device according to Embodiment 3 of the present invention will be described with reference to the drawings. 7 and 8 are diagrams showing the operation of the grid-connected inverter device according to Embodiment 3 of the present invention. The configuration of the third embodiment is the same as that of the first embodiment.
[0043]
The first embodiment is an example in which a periodic bias is added to the frequency of the target output current command value, but the third embodiment is an example in which a periodic bias is added to the amplitude.
[0044]
As shown in FIG. 7A, the control circuit 14 generates a target output voltage command value as in the first embodiment. The target output current command value is also calculated from the maximum power that can be extracted from the solar cell 1 as in the first embodiment. At this time, periodic fluctuations are added to the amplitude as shown in FIG.
[0045]
FIG. 8 is a diagram for explaining the periodic fluctuation. When the control circuit 14 receives the second signal from JJY, the amplitude of the target output current command value is decreased by γ for 10 cycles. In the next 10 cycles, the amplitude is restored to the original, and in the next 10 cycles, the amplitude of the target output current command value is reduced by γ again.
[0046]
The control circuit 14 adds the target output voltage command value in FIG. 7A and the target output current command value in FIG. 7B, and converts the addition result into the switching time of the switching elements 3a to 3d of the inverter 3. To do. FIGS. 7C and 7D show the converted switching time, where the dark color portion indicates that the on time is long and the thin portion indicates that the on time is short.
[0047]
When the system voltage value detected by the detection circuit 11 becomes equal to or higher than a predetermined value or lower than a predetermined value when the relay 4 is turned on and operating in conjunction with the AC power system 6, the AC power It is determined that the grid 6 has failed, and the relay 4 is turned off and the operation of the inverter 3 is stopped to disconnect the grid-connected inverter from the AC power system 6.
[0048]
That is, a relay 4 is provided between the inverter 3 for converting a DC power source such as the solar battery 1 into AC, means 11 and 14 for detecting the cycle of the AC power system 6, and the inverter 3 and the AC power system 6. 4 is a grid-connected inverter device that turns on 4 and causes the converted AC power to flow backward to the AC power system 6 to purchase power from the power company or move the load 5 connected to the AC power system 6. There are means 12 and 13 for receiving radio and television radio waves, and the standard radio waves such as JJY or JG2AS transmitted from the TV, radio time signal or the Communications Research Laboratory of the Ministry of Posts and Telecommunications are received. Synchronously with this, the grid interconnection inverter periodically varies the active power, and the grid voltage value is not more than a predetermined value (for example, 96% of the reference value) or not more than the predetermined value (for example, 104% of the reference value). If a, turn off the relay, disconnect the AC power system and system interconnection inverter.
[0049]
According to the grid interconnection inverter device according to the third embodiment, the radio and television time signal or the standard radio wave such as JJY or JG2AS transmitted from the Ministry of Posts and Telecommunications Research Institute is received and synchronized with this. Therefore, even if a large number of grid-connected inverter devices are operated in parallel, the active power fluctuation timing of all grid-connected inverter devices can be synchronized, and AC power system power failure Can be reliably detected.
[0050]
Note that the frequency, reactive power, and active power fluctuation periods are common divisors (5, 10, etc.) of commercial frequencies 50 Hz and 60 Hz as in 10 cycles as described in the above embodiments. If the frequency bias period, reactive power, or active power fluctuation period is a common divisor of a plurality of commercial frequencies, the radio wave condition is bad and it becomes impossible to receive a time signal or standard radio wave. Even when there is a 39-minute wave break, the grid-connected inverter devices connected in parallel can be operated in synchronism, so that a power failure in the AC power system 6 can be reliably detected.
[0051]
【The invention's effect】
As described above, the grid-connected inverter device according to the present invention detects the system voltage of the inverter that converts a DC power source into AC, the switch means provided between the inverter and the AC power system, and the AC power system. A detection circuit; and a control circuit that turns on the switch means to reversely flow the converted AC power to the AC power system and moves a load connected to the AC power system based on the system voltage. In the grid-connected inverter device, receiving means for receiving a standard time signal is provided, and the control circuit operates at a frequency having a periodic bias with respect to the system frequency in synchronization with the received standard time signal. If the cycle of the system voltage determined based on the detected system voltage is less than or equal to a predetermined value, the switch means is turned off and Away City off the inverter and the AC power system, the period of the frequency having the periodic bias, since the common divisor of the plurality of commercial frequency, even if this system interconnection inverter device has a number inverter parallel operation Thus, it is possible to synchronize the bias directions and timings of all the grid-connected inverter devices, and as a result, it is possible to reliably detect a power failure in the AC power system.
[0052]
In addition, as described above, the grid-connected inverter device according to the present invention includes an inverter that converts a DC power source into AC, switch means provided between the inverter and the AC power system, and a system voltage of the AC power system. A detection circuit for detecting, a control circuit for turning on the switch means to reversely flow the converted AC power to the AC power system based on the system voltage, and for moving a load connected to the AC power system; In the grid-connected inverter device comprising: a receiving means for receiving a standard time signal, the control circuit periodically varies reactive power in synchronization with the received standard time signal, and the detected system When the period of the system voltage obtained based on the voltage is less than or equal to a predetermined value, the switch means is turned off and the inverter and the AC power are turned off. City away off the system, the fluctuation cycle of the reactive power, since the common divisor of the plurality of commercial frequency, even if this system interconnection inverter device has a number inverter parallel operation, the bias of all interconnection inverter device The direction and timing can be synchronized, and as a result, a power outage of the AC power system can be reliably detected.
[0053]
Furthermore, as described above, the grid-connected inverter device according to the present invention provides an inverter that converts a DC power source into AC, switch means provided between the inverter and the AC power system, and a system voltage of the AC power system. A detection circuit for detecting, a control circuit for turning on the switch means to reversely flow the converted AC power to the AC power system based on the system voltage, and for moving a load connected to the AC power system; In the grid-connected inverter device comprising: a receiving means for receiving a standard time signal, the control circuit periodically varies the active power in synchronization with the received standard time signal, and the detected system If the voltage value becomes less than or greater than a predetermined value a predetermined value, the said inverter to turn off said switching means AC power system or disconnect the pre Variation period of active power, since the common divisor of the plurality of commercial frequency, even if this system interconnection inverter device has a number inverter parallel operation, the direction of bias of all system interconnection inverter device, to synchronize the timing As a result, the power failure of the AC power system can be reliably detected.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a grid-connected inverter device according to Embodiment 1 of the present invention.
FIG. 2 is a diagram showing an operation of the grid-connected inverter device according to the first embodiment of the present invention.
FIG. 3 is a diagram illustrating a transmission format of a standard radio wave JJY.
FIG. 4 is a diagram showing an operation of the grid-connected inverter device according to the first embodiment of the present invention.
FIG. 5 is a diagram showing an operation of a grid-connected inverter device according to Embodiment 2 of the present invention.
FIG. 6 is a diagram showing an operation of a grid-connected inverter device according to Embodiment 2 of the present invention.
FIG. 7 is a diagram showing an operation of a grid-connected inverter device according to Embodiment 3 of the present invention.
FIG. 8 is a diagram showing an operation of a grid-connected inverter device according to Embodiment 3 of the present invention.
FIG. 9 is a diagram showing a configuration of a conventional grid-connected inverter device.
[Explanation of symbols]
1 solar cell, 2 DC / DC converter, 3 inverter, 4 relay, 5 load, 6 AC power system, 7 detection circuit, 8 resistance, 9 detection circuit, 10 detection circuit, 11 detection circuit, 12 antenna, 13 reception circuit, 14 Control circuit.

Claims (3)

An inverter for converting a DC power source into AC; a switch means provided between the inverter and the AC power system; a detection circuit for detecting a system voltage of the AC power system; and the switch means based on the system voltage. In the grid-connected inverter device comprising a control circuit that reversely flows the converted AC power to the AC power system and moves a load connected to the AC power system,
A receiving means for receiving a standard time signal,
The control circuit is operated at a frequency having a periodic bias with respect to the system frequency in synchronization with the received standard time signal, and the period of the system voltage obtained based on the detected system voltage is equal to or less than a predetermined value. or when it becomes a predetermined value or more, away City off and turn off said inverter the AC power system to the switch means,
The grid-connected inverter device characterized in that the period of the frequency having the periodic bias is a common divisor of a plurality of commercial frequencies . An inverter for converting a DC power source into AC; a switch means provided between the inverter and the AC power system; a detection circuit for detecting a system voltage of the AC power system; and the switch means based on the system voltage. In the grid-connected inverter device comprising a control circuit that reversely flows the converted AC power to the AC power system and moves a load connected to the AC power system,
A receiving means for receiving a standard time signal,
When the control circuit periodically varies the reactive power in synchronization with the received standard time signal, and the period of the system voltage obtained based on the detected system voltage is less than or equal to a predetermined value , the release-shi cut and the inverter by turning off said switch means and said AC power system,
The reactive power fluctuation cycle is a common divisor of a plurality of commercial frequencies . An inverter for converting a DC power source into AC; a switch means provided between the inverter and the AC power system; a detection circuit for detecting a system voltage of the AC power system; and the switch means based on the system voltage. In the grid-connected inverter device comprising a control circuit that reversely flows the converted AC power to the AC power system and moves a load connected to the AC power system,
A receiving means for receiving a standard time signal,
The control circuit periodically varies the active power in synchronization with the received standard time signal, and when the detected system voltage value is less than or equal to a predetermined value, the switch means away City off and the AC power system and said inverter off and
The active power fluctuation period is a common divisor of a plurality of commercial frequencies .

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