传感器与微系统
傳感器與微繫統
전감기여미계통
TRANSDUCER AND MICROSYSTEM TECHNOLOGY
2015年
8期
61-63,79
,共4页
朱海燕%叶凌云%彭皓岚%马才伟
硃海燕%葉凌雲%彭皓嵐%馬纔偉
주해연%협릉운%팽호람%마재위
数字闭环石英挠性加速度计%最少拍无纹波控制%控制精度%响应速度
數字閉環石英撓性加速度計%最少拍無紋波控製%控製精度%響應速度
수자폐배석영뇨성가속도계%최소박무문파공제%공제정도%향응속도
digital closed-loop quartz flexible accelerometer%ripple-free deadbeat control%control precision%response speed
数字化石英挠性加速度计因其可靠性高、易于集成等优点而成为石英挠性加速度计发展的一个新趋势。现有的石英挠性加速度计数字闭环控制多采用PID算法,但是该算法存在系统超调大、调节时间长、控制精度低的问题。针对这一问题,提出了基于最少拍无纹波的数字闭环控制算法。仿真证明:在相同的带宽和采样频率下,该算法的系统超调远小于5%,调节时间只需3个采样周期,稳态误差远小于0.001%,这些性能均优于PID算法。
數字化石英撓性加速度計因其可靠性高、易于集成等優點而成為石英撓性加速度計髮展的一箇新趨勢。現有的石英撓性加速度計數字閉環控製多採用PID算法,但是該算法存在繫統超調大、調節時間長、控製精度低的問題。針對這一問題,提齣瞭基于最少拍無紋波的數字閉環控製算法。倣真證明:在相同的帶寬和採樣頻率下,該算法的繫統超調遠小于5%,調節時間隻需3箇採樣週期,穩態誤差遠小于0.001%,這些性能均優于PID算法。
수자화석영뇨성가속도계인기가고성고、역우집성등우점이성위석영뇨성가속도계발전적일개신추세。현유적석영뇨성가속도계수자폐배공제다채용PID산법,단시해산법존재계통초조대、조절시간장、공제정도저적문제。침대저일문제,제출료기우최소박무문파적수자폐배공제산법。방진증명:재상동적대관화채양빈솔하,해산법적계통초조원소우5%,조절시간지수3개채양주기,은태오차원소우0.001%,저사성능균우우PID산법。
The digital quartz flexible accelerometer has become a new trend of the quartz flexible accelerometer because of its high reliability and easy integration. But the existing digital closed-loop control of digital quartz flexible accelerometer mostly adopts PID algorithm,which has problem of big overshot,long setting time and low precision. Aiming at this problem,digital closed-loop control algorithm based on the method of ripple-free deadbeat is put forward. It is proved that at the same bandwidth and frequency,the system overshoot of this algorithm far less than 5%,setting time only need 3 sampling periods and steady-state error is far less than 0. 001%,all these properties are better than PID algorithm.
