Speed Control of a 2-DOF Reciprocating Machine Using a Virtual-Vibration-Absorber Algorithm

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概要

• 論文の詳細を見る

• A two-axis reciprocating machine, termed Complementary Scotch Yoke (CSY), is regulated via a novel control algorithm. Containing two independent driving motors, it is capable of converting two-axis rotary movements into double-mode linear harmonic motions. The axes are subject to periodic disturbances of quadruple characteristic frequencies when the machine undergoes harmonic motions. A feedback law emulating multi-mode vibration absorbers is designed to compensate for the periodic disturbances so that the driving axes are regulated at the set angular speeds. The virtual passive controller ensures stability of the unforced system, and it is shown that the periodic disturbances can be canceled out if the virtual vibration absorber has all of the characteristic frequencies of the disturbance. Experimental results on a CSY prototype confirm the effectiveness of the proposed method.

• 一般社団法人日本機械学会の論文
• 2005-12-15

著者

• Wu Shang-teh

  Department Of Mechanical Engineering National Yunlin University Of Science & Technology

• Wu Shang-teh

  Department Of Mechanical Engineering National Yunlin Institute Of Technology

• Chou Bo-yi

  Department Of Mechanical Engineering National Yunlin University Of Science & Technology

関連論文

• Time-Optimal Control of Servo Systems Using PD Algorithms
• Design of Sampled-Data High-Gain PD Control Systems
• Speed Control of a 2-DOF Reciprocating Machine Using a Virtual-Vibration-Absorber Algorithm
• Control of Flexible Manipulators Via Serial-to-Parallel Transformation

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