振动与冲击
振動與遲擊
진동여충격
JOURNAL OF VIBRATION AND SHOCK
2014年
18期
84-89,101
,共7页
行波型超声波电机%多自由度%球电机%运行机理
行波型超聲波電機%多自由度%毬電機%運行機理
행파형초성파전궤%다자유도%구전궤%운행궤리
traveling wave type ultrasonic motor%multi-DOF%spherical motor%working principle
对二自由度球形超声波电机来说,轨迹控制是输出性能的重要环节。对二自由度球形超声波电机进行了轨迹(路径)控制。首先以定子表面行波波峰点周向角速度的极小范数为优化目标,结合单个定子的调速和电机运行矢量原理作为电机运行模式的模型。为了实现球转子姿态的测量,采用了一种类似机械鼠标原理的球转子位置检测方法,再结合电机运行模式求出各个定子驱动电压的相位差,然后采用神经元PID算法来实现电机闭环轨迹控制。闭环控制下,电机转子运行时各个方向的误差控制在2个脉冲以内。
對二自由度毬形超聲波電機來說,軌跡控製是輸齣性能的重要環節。對二自由度毬形超聲波電機進行瞭軌跡(路徑)控製。首先以定子錶麵行波波峰點週嚮角速度的極小範數為優化目標,結閤單箇定子的調速和電機運行矢量原理作為電機運行模式的模型。為瞭實現毬轉子姿態的測量,採用瞭一種類似機械鼠標原理的毬轉子位置檢測方法,再結閤電機運行模式求齣各箇定子驅動電壓的相位差,然後採用神經元PID算法來實現電機閉環軌跡控製。閉環控製下,電機轉子運行時各箇方嚮的誤差控製在2箇脈遲以內。
대이자유도구형초성파전궤래설,궤적공제시수출성능적중요배절。대이자유도구형초성파전궤진행료궤적(로경)공제。수선이정자표면행파파봉점주향각속도적겁소범수위우화목표,결합단개정자적조속화전궤운행시량원리작위전궤운행모식적모형。위료실현구전자자태적측량,채용료일충유사궤계서표원리적구전자위치검측방법,재결합전궤운행모식구출각개정자구동전압적상위차,연후채용신경원PID산법래실현전궤폐배궤적공제。폐배공제하,전궤전자운행시각개방향적오차공제재2개맥충이내。
The trajectory control is an important link of output performance for a 2-DOF spherical traveling wave type ultrasonic motor.Here,the trajectory tracking control was presented with a 2-DOF spherical ultrasonic motor with 3 stators.Firstly,the minimum norm of the circumferential angular velocity of the traveling wave peak point on the surface of the stators was taken as an optimizing target for the motor.Then combination of a single stator's speed adjusting and the vector principle of a motor's operating was taken as the model of the motor's operating mode.In order to measure the attitude of the spherical rotor,a method to detect its position based on the operating principle of a mouse was adopted. Then,the phase-difference of the driving voltage of each stator was calculated with the moror's operating mode.With a neuron PID algorithm,the closeloop trajectory tracking control of the motor was realized.The results showed that in every direction the error is controlled within 2 pulses.The study results provided a reference for design and performance improvement of multi-DOF spherical traveling wave ultrasonic motors.