仪表技术与传感器
儀錶技術與傳感器
의표기술여전감기
INSTRUMENT TECHNIQUE AND SENSOR
2009年
11期
102-104
,共3页
最小条件%转动惯量%固有频率
最小條件%轉動慣量%固有頻率
최소조건%전동관량%고유빈솔
minimum zone condition%moment of inertia%natural frequency
介绍了一种基于最小条件系统识别理论的转动惯量测量方法.测量时被测工件安装在定轴测试系统上,采用加速度传感器检测系统的自由摆动信号,应用LabVIEW软件和最小条件方法计算系统的固有频率,并依此计算工件的转动惯量.文中给出了计算机设计流程图.最后应用实验的方法验证了系统的可行性.
介紹瞭一種基于最小條件繫統識彆理論的轉動慣量測量方法.測量時被測工件安裝在定軸測試繫統上,採用加速度傳感器檢測繫統的自由襬動信號,應用LabVIEW軟件和最小條件方法計算繫統的固有頻率,併依此計算工件的轉動慣量.文中給齣瞭計算機設計流程圖.最後應用實驗的方法驗證瞭繫統的可行性.
개소료일충기우최소조건계통식별이론적전동관량측량방법.측량시피측공건안장재정축측시계통상,채용가속도전감기검측계통적자유파동신호,응용LabVIEW연건화최소조건방법계산계통적고유빈솔,병의차계산공건적전동관량.문중급출료계산궤설계류정도.최후응용실험적방법험증료계통적가행성.
This paper introduced an inertia measurement methods based on the minimum zonecondition system recognition theory. When measured,the measured workpiece was installed in the fixed axis testing system.It used the acceleration sensor to detecte the system's free swing signal. Application of Labview software and the minimum zone condition method was used to calculate the system natural frequency. And calculate the workpiece's moment of inertia.This paper presented a computer design flows. Finally, the feasibility of the system has been authenticated by the application of the experimental method.
