红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2014年
8期
2607-2612
,共6页
潘雄%张春生%王夏霄%王熙辰%赵亚飞%王定球
潘雄%張春生%王夏霄%王熙辰%趙亞飛%王定毬
반웅%장춘생%왕하소%왕희신%조아비%왕정구
光纤陀螺%振动误差%跟踪误差%反馈延迟%非线性%零偏
光纖陀螺%振動誤差%跟蹤誤差%反饋延遲%非線性%零偏
광섬타라%진동오차%근종오차%반궤연지%비선성%령편
fiber optic gyroscope%vibration error%tracking error%feedback delay%non-linear%bias
振动环境导致光纤陀螺引入较大的扰动。由于非线性因素,陀螺跟踪扰动的能力严重影响着其误差特性,而反馈延迟的存在使得跟踪性能变得更加复杂。因此,分析反馈延迟对于解决陀螺振动问题极其重要。首先,分析了非线性因素作用时不同反馈延迟对陀螺闭环跟踪能力和扰动稳定性的影响;然后在线性控制模型的基础上加入陀螺非线性环节,保证稳定裕度不变,仿真分析了不同反馈延迟下陀螺的跟踪性能以及输出。仿真及实验结果表明,减小反馈延迟,提高系统的跟踪扰动能力,可以减小非线性误差,改善振动环境下陀螺的输出性能。
振動環境導緻光纖陀螺引入較大的擾動。由于非線性因素,陀螺跟蹤擾動的能力嚴重影響著其誤差特性,而反饋延遲的存在使得跟蹤性能變得更加複雜。因此,分析反饋延遲對于解決陀螺振動問題極其重要。首先,分析瞭非線性因素作用時不同反饋延遲對陀螺閉環跟蹤能力和擾動穩定性的影響;然後在線性控製模型的基礎上加入陀螺非線性環節,保證穩定裕度不變,倣真分析瞭不同反饋延遲下陀螺的跟蹤性能以及輸齣。倣真及實驗結果錶明,減小反饋延遲,提高繫統的跟蹤擾動能力,可以減小非線性誤差,改善振動環境下陀螺的輸齣性能。
진동배경도치광섬타라인입교대적우동。유우비선성인소,타라근종우동적능력엄중영향착기오차특성,이반궤연지적존재사득근종성능변득경가복잡。인차,분석반궤연지대우해결타라진동문제겁기중요。수선,분석료비선성인소작용시불동반궤연지대타라폐배근종능력화우동은정성적영향;연후재선성공제모형적기출상가입타라비선성배절,보증은정유도불변,방진분석료불동반궤연지하타라적근종성능이급수출。방진급실험결과표명,감소반궤연지,제고계통적근종우동능력,가이감소비선성오차,개선진동배경하타라적수출성능。
Large disturbance is introduced into fiber optic gyroscope under vibration environment. And the error characteristics for FOG are severely affected with the ability of tracking disturbance as the existence of non-linear factors, which becomes more complicated as the result of the additional feedback delay. Therefore, it is important for solving vibration problem to analyze the feedback delay. Firstly, impacts on the closed-loop tracking ability and the stability against disturbance of FOG with different feedback delay were analyzed with the non-linear factors. Then, the non-linear element was considered based on the linear control model, and the outputs of FOG with different feedback delay were obtained and the tracking performance was analyzed by simulation as keeping the same stability margin. The simulation and final experiment show that the bias of FOG will be brought into a large offset under vibration with a poor tracking performance. Thus, it is important to solve the vibration problem of FOG by improving the closed-loop tracking ability with a small feedback delay.