Feedback excitation mechanism in organ pipes

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概要

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• A feedback theory on the organ pipe sounding mechanism was established for small amplitude oscillations. Lateral displacement of the jet at the edge is amplified to produce the driving current, part of which is fed back to the jet. The self-sustained oscillation is realize if amplification and feedback functions combine to unity in the feedback loop. Numerical calculation clarified that (1)phase shift due to the lip-to-edge transit time of the jet has physical significance, and its range for sound production extends roughly betwwen pi/2 and 3pi/2, (2)feedback oscillation must be maintained by the decrease of phase shift with ascending frequency, (3)"octave jump" occurs and the phase shift is doubled for such high speeds as exceed the allowable limit, and (4)oscillations take place at the antiresonance of the current-driven parallel system. Experimental results on four models made by authors encourage our feedback excitation theory.

• 社団法人日本音響学会の論文

著者

• Saneyoshi Jun'ichi

  Depertment Of Electronic Engineering Tamagawa University

• Yoshikawa Shigeru

  5th Research Center Technical R & D Institute Defense Agency

• Yoshikawa Shigeru

  5th Research Center Technical R &amp D Institute Japan Defence Agency

関連論文

• Application of Generalized Near-Field Acoustical Holography to Scattering Problems
• Accuracy Improvement of Reconstruction in Near-Field Acoustical Holography by Applying Data Extrapolation Method
• Feedback excitation mechanism in organ pipes
• Measurement of Structural and Acoustic Intensities Using Near-Field Acoustical Holography

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