Method and apparatus for active damping of vibration
First Claim
1. A method for active damping of vibration at at least one predetermined location subjected to a primary vibration field, comprising the steps of:
- generating a reference signal;
splitting said reference signal into a plurality of substantially sine-shaped individual reference signals each at one among a plurality of mutually harmonic frequencies at which said primary vibration field has a peak of energy;
generating a plurality of individual vibratory waves each by digital adaptive filtering of one of said individual reference signals;
measuring a residual value of vibrations at said predetermined location;
generating a composite vibratory wave from a sum of said individual vibratory waves, and causing said composite vibratory wave to interfere with said primary field at said predetermined location; and
automatically adapting each said digital adaptive filtering for cancelling said residual value for a respective one of said mutually harmonic frequencies.
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Abstract
For active damping of vibration at a location subjected to a primary vibration field, a vibratory wave is generated by adaptive filtering of a reference signal and interferes with the primary field at the location. The residual amplitude of vibration at the location is measured, and filtering is adapted automatically to cancel the residual amplitude as measured. The reference signal is divided into a plurality of individual reference signals that are sine-shaped each containing only one of the plurality of frequencies at which the primary field presents a significant energy, with each individual signal being subjected to a respective adaptive digital filter, and the vibratory wave is generated from the sum of the individual filtered signals. An apparatus for implementing the method comprises n processing paths or channels, each having an actuator driving a digital filter, fed with a sine-shaped signal at a frequency corresponding to a concentration of vibratory energy to be damped.
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Citations
10 Claims
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1. A method for active damping of vibration at at least one predetermined location subjected to a primary vibration field, comprising the steps of:
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generating a reference signal; splitting said reference signal into a plurality of substantially sine-shaped individual reference signals each at one among a plurality of mutually harmonic frequencies at which said primary vibration field has a peak of energy; generating a plurality of individual vibratory waves each by digital adaptive filtering of one of said individual reference signals; measuring a residual value of vibrations at said predetermined location; generating a composite vibratory wave from a sum of said individual vibratory waves, and causing said composite vibratory wave to interfere with said primary field at said predetermined location; and automatically adapting each said digital adaptive filtering for cancelling said residual value for a respective one of said mutually harmonic frequencies. - View Dependent Claims (2, 3, 4)
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5. An apparatus for active vibration damping at at least a predetermined location subjected to a primary vibration field consisting of periodical vibrations, comprising:
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at least one sensor located at said location; at least one actuator for generating a vibratory wave for interfering with said primary field at said location; a plurality n of processing paths, wherein n is an integer greater than 1, each having;
a digital filter for driving said at least one actuator;
means for delivering, to said digital filter, a sine-shaped reference signal at a respective individual frequency at which there is a concentration of vibratory energy to be damped; and
an adaptation loop for adapting said digital filter, said loop receiving said sine-shaped signal through a loop filter having a transfer function representative of a physical actuator-sensor transfer function at the respective individual frequency and an error signal delivered by said at least one sensor; andsumming means connected to receive outputs of said processing paths and applying the summed outputs to said at least one actuator, wherein said sine-shaped signal applied to each path is delivered by a unit comprising at least one detector located in the vicinity of said location and delivering a signal consisting of pulses at a frequency at least twice the highest frequency to be damped. - View Dependent Claims (6, 7, 8)
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9. An apparatus for active vibration damping at at least a predetermined location subjected to a primary field of vibrations which are periodical at a fundamental frequency 1/To which may exhibit fast variations in time, within a predetermined limited range, comprising:
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at least one sensor located at said location; at least one actuator for generating a vibratory wave for interfering with said primary field at said location; a plurality n of processing paths, n being an integer greater than 1, each having;
a digital filter for driving said at least one actuator;
means for delivering, to said digital filter, a sine-shaped reference signal at a respective individual frequency at which there is a concentration of vibratory energy to be damped; and
an adaptation loop for adapting said digital filter, said loop receiving said sine -shaped signal through a loop filter having a transfer function representative of a physical actuator-sensor transfer function at the respective individual frequency and an error signal delivered by said at least one sensor; andsumming means for receiving and summing outputs of said processing paths and applying the summed outputs to said at least one actuator, each of said loop filters having a transfer function representative of a physical actuator-sensor transfer function, within the whole of said range, about a respective individual frequency which is n/To for that of said processing paths which is dedicated to the nth harmonic of the period To.
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10. An apparatus for damping vibrations at at least a predetermined location subjected to a primary vibration field at randomly varying frequencies, comprising:
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at least one sensor located at said location; at least one actuator for generating a vibratory wave for interfering with said primary field at said location; a plurality n of processing paths, n being an integer greater than 1, each having;
a digital filter for driving said at least one actuator;
means for delivering, to said digital filter, a sine-shaped reference signal at a respective individual frequency at which there is a concentration of vibratory energy to be damped; and
an adaptation loop for adapting said digital filter, said loop receiving said sine-shaped signal through a loop filter having a transfer function representative of a physical actuator-sensor transfer function at the respective individual frequency and an error signal delivered by said at least one sensor; andsumming means connected for receiving and summing of said processing paths and applying the summed outputs to said at least one actuator; the different paths being arranged for the reference sine-shaped signal applied to different said paths to correspond to mutually adjacent frequency bands so selected that, considered as a whole, the sine-shaped reference signals completely cover the frequency field in which vibrations to be damped may occur, each path being dedicated to a band width which is selected for the respective actuator-sensor transfer function to be relatively constant for all frequencies in the band and to be represented by only one transfer function.
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Specification