中国测试
中國測試
중국측시
CHINA MEASUREMENT & TESTING TECHNOLOGY
2015年
11期
78-81
,共4页
容栅传感器%扭矩测试%数据采集%相位差
容柵傳感器%扭矩測試%數據採集%相位差
용책전감기%뉴구측시%수거채집%상위차
capacitive grate transducer%torque test%data acquisition%phase difference
为完成工程中强磁场、强辐射、小空间等恶劣环境下的扭矩测量,设计并实现基于LabVIEW的容栅扭矩测试系统,通过USB总线将LabVIEW开发的上位机软件与以容栅传感器为核心的测试电路进行连接,测试电路利用转动轴前后两端携带正弦波信号的两组容栅,将对扭矩的测量转换为对两路正弦波信号相位差的测量,上位机软件对大容量的测试数据进行采集与处理。恶劣环境下测量转速在1000~5000 r/min时的转动轴扭角,以理想环境下的扭角测量值作为给定标准值,发现在1000 r/min转速时相对误差最大,且相对误差<6%。结果表明:该测试系统性能稳定可靠,测量准确度高,开发周期短,易于后期维护升级。
為完成工程中彊磁場、彊輻射、小空間等噁劣環境下的扭矩測量,設計併實現基于LabVIEW的容柵扭矩測試繫統,通過USB總線將LabVIEW開髮的上位機軟件與以容柵傳感器為覈心的測試電路進行連接,測試電路利用轉動軸前後兩耑攜帶正絃波信號的兩組容柵,將對扭矩的測量轉換為對兩路正絃波信號相位差的測量,上位機軟件對大容量的測試數據進行採集與處理。噁劣環境下測量轉速在1000~5000 r/min時的轉動軸扭角,以理想環境下的扭角測量值作為給定標準值,髮現在1000 r/min轉速時相對誤差最大,且相對誤差<6%。結果錶明:該測試繫統性能穩定可靠,測量準確度高,開髮週期短,易于後期維護升級。
위완성공정중강자장、강복사、소공간등악렬배경하적뉴구측량,설계병실현기우LabVIEW적용책뉴구측시계통,통과USB총선장LabVIEW개발적상위궤연건여이용책전감기위핵심적측시전로진행련접,측시전로이용전동축전후량단휴대정현파신호적량조용책,장대뉴구적측량전환위대량로정현파신호상위차적측량,상위궤연건대대용량적측시수거진행채집여처리。악렬배경하측량전속재1000~5000 r/min시적전동축뉴각,이이상배경하적뉴각측량치작위급정표준치,발현재1000 r/min전속시상대오차최대,차상대오차<6%。결과표명:해측시계통성능은정가고,측량준학도고,개발주기단,역우후기유호승급。
In order to measure the torque in project construction under severe environment like high-intensity magnetic field, intense radiation and small space, a capacitive grid torque testing system has been designed and implemented based on LabVIEW. PC software developed by LabVIEW has connected with test circuit with a capacitive grid transducer as its core part via an USB bus. Two groups of capacitive gratings at the front and rear ends of rotation axis are used to convert torque measurement to phase-difference measurement of two sine wave signals. Then,the tested data of large capacity is acquired and processed with the PC software. The torsional angle of rotation shaft is tested at 1 000-5 000 r/min in harsh conditions. The torsion angle tested in an ideal condition was set as standard value. The relative error reached the maximum when the speed is at 1 000 r/min but no more than 6%. The result shows that this test system is stable and reliable with high measurement accuracy, short development cycle, and easy to maintain and upgrade.
