JPS6138366Y2 - - Google Patents

Description

[Detailed description of the invention] [Field of industrial application] This invention is a current sharing method for parallel operating inverters that operates multiple inverters in parallel for a common load and controls the shared current of each inverter to be equal. This invention relates to a deviation detection circuit.

[Conventional technology]

FIG. 3 is a schematic diagram showing a conventional current sharing deviation detection circuit of a parallel operation inverter.
1, 1-2,..., 1-n are inverters, 2-1,
2-2,..., 2-n are control circuits, 3-1, 3-
2,..., 3-n are addition/subtraction circuits, 4-1, 4-2,
..., 4-n are current transformers 5-1, 5-2, ..., 5-n
is an output switch, 6 is a current transformer, 7 is a load current sharing circuit, and 8 is a common load.

Next, the operation will be explained. Inverters 1-1, 1-2 to 1-n are operated in parallel to common load 8 through output switches 5-1, 5-2 and 5-n, respectively. The load current is detected by the current transformer 6, and the number of operating inverters 1 (n in the figure)
The current value to be shared by one inverter is set as a reference current value. The output current of each inverter 1 is transmitted through current transformers 4-1 and 4-2.
are detected by 4-n, and the deviation from the current value reference is determined by addition/subtraction circuits 3-1, 3-2, and 3-n.

This deviation is given to the control circuits 2-1, 2-2 to 2-n of each inverter 1, and the control circuit 2 reduces the deviation to zero by controlling the magnitude and phase of the output voltage of the inverter 1. It works like this.

This type of inverter parallel operation method generally uses n inverters to supply loads equal to or less than n-1 inverters, and even if one of them fails, the remaining one continues to operate without any problems. The main idea is that the entire system can be inspected by stopping and inspecting one unit at a time, so there are the following restrictions.

(i) It is better for each inverter to be as independent as possible.

(ii) The fewer common circuits, the better.

(iii) The fewer signals exchanged between each inverter and the outside, the better.

Requirements such as:

[Problem that the invention attempts to solve]

Since the conventional current sharing deviation detection circuit of a parallel operation inverter is configured as described above, it has the following problems. However, the conventional method described above has the following problems.

(1) The current transformer 6 that detects the load current is a common component. There is also a method of omitting the current transformer that detects the load current, but in that case, a circuit that adds the outputs of current transformers 4-1, 4-2 to 4-n of each inverter is required, and this is a common circuit. Therefore, reliability decreases.

(2) Depending on the number of inverters in operation, the circuit 7 that reduces the output of the current transformer 6 to 1/n becomes a common circuit,
Decreases reliability.

(3) Wiring is required to switch n of 1/n according to the on/off state of the output switch 5, which increases communication between the inverter and the outside.

This invention was made to solve the above problems, and it is a current sharing deviation detection circuit for parallel operating inverters that can control the shared current of each inverter to be equal with a simple circuit configuration. The purpose is to provide

[Means for solving problems]

In the current sharing deviation detection circuit for parallel operating inverters according to this invention, the secondary sides of a plurality of current transformers that detect the output current of a plurality of inverters that share the load current are connected in parallel with each other, and the average of these inverters is The resulting voltage is detected by average voltage detection means connected to the current transformer. Then, a voltage corresponding to the output current of each inverter and having a polarity opposite to the above averaged voltage is generated by a reverse polarity voltage generating means connected between the current transformer and the average voltage detecting means. It is becoming more and more common.

[Effect]

Since the secondary sides of the plurality of current transformers are connected in parallel, the voltage generated across each current transformer has a value corresponding to the average of the sum of the output currents of the respective inverters.

On the other hand, a voltage corresponding to the output current of each inverter is generated by a reverse polarity voltage generating means, and this voltage has a reverse polarity with respect to the above-mentioned averaged voltage.

Therefore, by detecting the voltage across the average voltage generating means and the reverse polarity voltage generating means, the shared current deviation of the inverter can be determined.

〔Example〕

An embodiment of this invention will be described below with reference to the drawings. In Fig. 1, 4-1 and 4-2 are current transformers RA-1 and 4-2 that detect the respective output currents of inverters 1-1 and 1-2, and are current transformers whose secondary sides are connected in parallel with each other.
1, RA-2 is a resistor connected to these current transformers 4-1 and 4-2 as an average voltage generating means;
K ₁ and K ₂ are relay switches, 9-1 and 9-2 are auxiliary current transformers that have additive polarity, that is, the directions of the instantaneous electromotive force on the primary and secondary sides are opposite to each other, and RB-1 , R.B.
-2 is a resistor connected in parallel to the secondary side of auxiliary current transformers 9-1 and 9-2, and 10-1 and 10-2 are auxiliary current transformer 9-1, resistor RB-1 and auxiliary current transformer, respectively. 9-2 and a resistor RB-2.

Next, the operation will be explained. First, only one inverter 1-1 is in operation, inverter 1-2 is stopped, and output switch 5-2 and relay switch K2 are turned off. The output current is detected by current transformer 4-1, producing a voltage across resistor RA-1 proportional to the output current. Furthermore, the detection signal of the current transformer 4-1 is applied by the auxiliary current transformer 9-1 to a voltage V which is proportional to the output current and has a polarity opposite to the voltage generated across the resistor RA-1. produces _X1 .
By appropriately selecting the resistors RA-1 and RB-1, the voltages across them can be made equal, so the difference ΔV ₁ will always be zero.

Next, when the inverter 1-2 is also operated and the output switch 5-2 and relay switch K2 are turned on, the resistors RA-1 and RA-2 become parallel. Current transformer 4-1
The sum of the detected currents of and 4-2 is the resistance RA-1 and RA-2.
Since the current flows through the parallel circuit, a voltage V _Y is obtained between PQ with a value that is the average of the sum of the output currents of the two inverters.

Therefore, the deviation value of the shared current of the inverter 1-1 is obtained between _ΔV1 . Similarly, the deviation value of the shared current of inverter 1-2 is obtained between _ΔV2 . When three or more inverters are connected in parallel, a circuit similar to the one shown in Figure 2 is installed in each inverter, and all are connected to points P and Q. values are obtained, and respective deviation signals are obtained for ΔV ₁ to ΔV _o of all inverters.

Next, another embodiment of the present invention shown in FIG. 2 will be described. Since the same reference numerals as in FIG. 1 indicate the same functions, the explanation will be omitted.

In this embodiment, a signal transformer PTA-1 is connected in parallel to the resistor RA-1.
and the signal transformer PTA-1 constitute an average voltage detection means 11-1. Also, resistance
Additive signal transformer PTB- in parallel with RB-1
The primary side of RB-1 is connected to the resistor RB-1 and the signal transformer PTB-1 to constitute a reverse polarity voltage generating means 12-1. The voltages generated on the secondary sides of the signal transformers PTA-1 and PTB-1 have different polarities. Note that the average voltage detection means 11-2 and the reverse polarity voltage generation means 12-2 are also configured in the same manner as described above.

Next, the operation will be explained. In the figure, inverters 1-1 and 1-2 are operating in parallel, and at this time relay switches K1 and K2 are on, so
A voltage V _Y corresponding to the average value of the output currents of the two inverters is applied across the parallel body of resistors RA-1 and RA-2.
is obtained. On the other hand, since a voltage proportional to the shared current of each inverter can be obtained across the resistors RB-1 and RB-2, the voltage whose polarity is inverted by the signal transformers PTB-1 and PTB-2 is V. Let _X1 and V _X2 .

Similarly, the voltage V _Y is connected to the signal transformer PTA-1.
and PTA-2 to detect insulation, and take the difference from the detection signal of the signal transformer PTB-1 or PTB-2, respectively, to obtain the deviation value of the current sharing of each inverter as between △V ₁ or △V ₂ is obtained. Needless to say, when there are three or more inverters, it is sufficient to connect similar circuits to points P and Q.

As is clear from the above, the embodiments shown in FIGS. 1 and 2 have many practical values as follows.

(a) The only common parts are the wiring for connecting to points P and Q.

(b) A circuit that derives 1/n of the total output current according to the number of inverters operating in parallel is configured very easily.

(c) When it becomes necessary to increase the number of parallel inverters, simply connect them to points P and Q.

(d) When performing an inspection, simply opening the output switch 5-1 and the relay switch K1 makes the inspection simple and independent from the operating equipment.

[Effect of idea]

As described above, according to this invention, the secondary sides of multiple current transformers that detect shared load currents of multiple inverters are connected in parallel, and the average voltage of these inverters is detected as an average voltage. The voltage is detected by a reverse polarity voltage generating means, and a voltage corresponding to the output current of each inverter and having a polarity opposite to the above averaged voltage is generated by a reverse polarity voltage generating means. A highly reliable current sharing deviation value can be obtained, and inverters operating in parallel can be controlled more efficiently.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing the main parts of a current sharing deviation detection circuit for parallel operating inverters according to an embodiment of the invention, and FIG. 2 is a circuit diagram showing a current sharing deviation detection circuit for parallel operating inverters according to another embodiment of the invention. FIG. 3 is a circuit diagram showing the main parts of a conventional parallel-operated inverter current sharing deviation detection circuit. 1-1, 1-2 are inverters, 4-1, 4-2
is a current transformer, RA-1 and RA-2 are resistors (average voltage detection means), 9-1 and 9-2 are auxiliary current transformers, and 10-
1, 10-2 is a reverse polarity voltage generating means, 11-1,
11-2 is an average voltage detection means, 12-1, 12-
2 is a reverse polarity voltage generating means.

Claims (1)

[Claims for Utility Model Registration] (1) A plurality of inverters operating in parallel while sharing the load current for a common load, detecting the output current of each of the plurality of inverters, and having secondary sides connected in parallel with each other. multiple connected current transformers;
A plurality of average voltage detection means connected to the plurality of current transformers and detecting the averaged voltage of the plurality of inverters, and a plurality of average voltage detection means connected between the respective current transformers and the average voltage detection means, each of the above reverse polarity voltage generating means for generating a voltage proportional to the output current of each of the plurality of inverters and having a polarity opposite to the voltage detected by the average voltage detecting means, based on the detection of the output current of the current transformer; A current sharing deviation detection circuit for parallel operating inverters, which is capable of determining a current sharing deviation of the inverter by detecting voltages across the average voltage detecting means and the reverse polarity voltage generating means. (2) The current sharing deviation detection circuit for a parallel operating inverter as set forth in claim 1 of the utility model registration claim, characterized in that a resistor is used as the average voltage detection means. (3) Claims for registration of a utility model, characterized in that, as the reverse polarity voltage generating means, an auxiliary current transformer with additive polarity and a resistor connected in parallel to the secondary side of the auxiliary current transformer are used. A current sharing deviation detection circuit for a parallel operation inverter according to any one of Items 1 and 2.