JPS6039375A - Output waveform improving method of inverter - Google Patents

Abstract

PURPOSE:To improve the output voltage distortion of an inverter due to a nonlinear load by multiplying an output impedance by harmonic waves of the respective orders obtained from an output current, and superposing a voltage produced by combining them on the output voltage of the inverter. CONSTITUTION:The output of an inverter 1 is supplied through a reactor 2 and a capacitor 3 to a nonlinear load 4 made of a rectifier. A current transformer 9 detects the output current of the inverter 1, and the detected current is supplied to harmonic filters 10 of the respective orders. The harmonic components obtained here are inputted to an output impedance multiplier 11 of the inverter, which multiplies and combines the harmonic components and the output impedance value. The combined output is superposed on the output voltage of the inverter 1, and the harmonic components of the voltage are compensated by the voltages.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for improving the output waveform of an inverter when a nonlinear load is connected to the output of the inverter.

FIG. 1 shows a conventional example. Reference numeral 1 denotes an inverter, and the output of the inverter 1 is connected via an axle 2 and a capacitor 3 to a nonlinear load 4 consisting of a rectifier. An LO filter 7 consisting of a series circuit of an inductance 5 and a capacitor 6 is connected to the input end of the load 4. This L
The O filter 7 is used to prevent the output voltage waveform of the inverter 1 from being distorted due to harmonic current generated when the output of the inverter 1 is supplied to the nonlinear load 4. Note that 8 is a capacitor.

When the LC filter 7 is provided on the input side of the nonlinear load 4 as described above, the LO filter 7 becomes a lead circuit when viewed from the inverter 1. This has the disadvantage that a leading current flows and the inverter current increases. Therefore, in order to adjust the load power factor of the inverter 1 and suppress the lead current, the adjustment can be made by connecting the entire inductance L (not shown) in parallel with the LO filter 7, but the capacity of the LO filter 7 is with further increasing drawbacks. Therefore, it is not preferable to provide the LO filter 7 on the input side of the nonlinear load 4 to suppress harmonic current.

This invention was made in view of the above considerations, and is an inverter output waveform improvement method that can improve the inverter output voltage waveform distortion caused by harmonic current generated by a nonlinear load without using an LC filter. The purpose is to provide

An embodiment of the present invention will be described below with reference to the drawings, in which the same parts as in FIG. 1 are denoted by the same reference numerals.

In FIG. 2, the output of the inverter 1 is supplied via an accelerator 2 and a capacitor 3 to a nonlinear load 4 consisting of a rectifier. 9 is a current transformer, and this current transformer 9 is connected to the inverter 1.
It is arranged in the electric path between the output end of the load 4 and the load 4. Said current transformer 9
detects the output current of the inverter 1, and the detected current is supplied to harmonic filters 10 for each order. This harmonic filter 10 outputs a harmonic component for each order, and each transmitted harmonic component is inputted to the output impedance multiplication section 11 of the inverter, where each harmonic component and the output impedance value are input. are multiplied and combined. In addition, as mentioned above, in the harmonic filter 1o, for each valley order, l
The reason why 7iA wave components are obtained is that the output impedance of the inverter differs depending on the frequency. The output (voltage of the product of harmonic current and output impedance) multiplied and synthesized by the output impedance multiplier 11 is superimposed on the output voltage of the inverter 1, and the harmonic component of the voltage is compensated by this voltage.

Next, if we consider the equivalent circuit of the circuit of FIG. 2 focusing on the mono-harmonic transition, it is expressed as shown in FIG. 3. In Figure 3,
Harmonic voltage light is generated by the electrical operation H of the isometric harmonic current source 20. This 'voltage■. is expressed by the following formula, % formula.

Here, if ■θ=zBI days, then . Knee wholesale, vs=-zθ engineering H becomes 0,'', V0=O
becomes.

That is, the above Vo =Q means that the harmonic component of the voltage can be compensated by superimposing the voltage obtained by multiplying the harmonic current and the output impedance on the inverter.

In the above description, the output current of the inverter is detected and the compensation means is taken, but the load current may also be detected and compensated.

As described above, according to the present invention, the output current of the inverter is divided into high frequency waves for each order through the harmonic filters for each order, and these harmonic components are multiplied by the inverter output impeder. Since this method superimposes the voltage obtained by synthesizing the voltage on the inverter's output sail pressure, it does not require a large-capacity LO filter like the conventional method, but it can eliminate the distortion of the inverter's output voltage waveform due to nonlinear loads. This can be reliably improved, and excellent effects such as no increase in lead current can be achieved.

[Brief explanation of the drawing]

Fig. 1 is a schematic block diagram of a conventional method for improving the output waveform of a voltage controlled inverter, Fig. 2 is a schematic block diagram of an embodiment of the present invention, and Fig. 3 shows only the single-harmonic transition in the circuit of Fig. 2. It is an equivalent circuit diagram focusing on. DESCRIPTION OF SYMBOLS 1... Inverter, 2... Reactor, 3 - Capacitor, 4... Nonlinear load, 5-... Inductance, 10... Harmonic filter, 11... Output impedance multiplier, 20...・Harmonic current source, 30...Harmonic voltage source.

Claims (1)

[Claims] In the method of supplying the output of an inverter to a nonlinear load, after detecting the output 'i, iN current of the inverter,
This current is applied to a harmonic filter to extract each order cut harmonic current, the extracted high rj 4 wave current is multiplied by the output impedance of the inverter, these multiplication values are combined, and the combined value is applied to the inverter. A method for improving an output waveform of an inverter, characterized by amending the output voltage.