Controllable broad-spectrum harmonic filter (cbf) for electrical power systems
First Claim
1. As shown in FIG. 1, a broad-spectrum harmonic filter of single phase type is made of basically 3 elements:
- a series reactor of high magnitude, a shunt reactor of low magnitude and a capacitor in series with the shunt reactor. The performance of this filter is determined by the selection of values of the series reactor, the shunt reactor and the capacitor.
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Abstract
A broad-spectrum harmonic filter is developed. This filter is to be connected in series ahead of the load which generates harmonics. This filter basically consists of 3 fixed elements, i.e. a series reactor and a shunt reactor in series with a capacitor. It can function to completely filter out 5th harmonic current in 3 phase systems (or 3rd harmonic current in single phase systems) and to reduce other harmonic components by high percentages say, typically close to 70%. Thus the portions of various harmonics flowing toward the electrical power source can be held within acceptable limits. By adjusting these two reactors and the capacitor, a desirable and controllable filtering performance can be achieved. A satisfactory performance of the filter and the electrical system can be expected by use of this invented filter with only 3 major elements.
A voltage compensator, a reactor of “negative value” is recommended to compensate for the harmonic voltage distortion across the series reactor (or the filter), if necessary, or to compensate for the voltage drops under power frequency operations.
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Citations
7 Claims
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1. As shown in FIG. 1, a broad-spectrum harmonic filter of single phase type is made of basically 3 elements:
- a series reactor of high magnitude, a shunt reactor of low magnitude and a capacitor in series with the shunt reactor. The performance of this filter is determined by the selection of values of the series reactor, the shunt reactor and the capacitor.
- View Dependent Claims (3, 6, 7)
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2. As shown in FIG. 2, a voltage compensator (a reactor of “
- negative values”
) is utilized in addition to the basic filter shown in FIG. 1. It serves to compensate for the harmonic voltage distortion of the filter and/or the voltage drop under power frequency operations.
- negative values”
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4. As shown in FIG. 3, the voltage compensator is a portion of a coil, wound in the reverse direction to the other portion of the coil on the same magnetic core. This reverse wound portion should always have a smaller reactance than that of the other portion. This reverse wound portion of the coil becomes a “
- negative reactance”
in opposite sense to that of the other portion of the coil. Both section reactances are determined by the sum of their individual reactance and the mutual reactance between them. The criterion is to have XM>
X3. - View Dependent Claims (5)
- negative reactance”
Specification