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Volume 33 Issue 09
Sep.  2007
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Journal of Beijing University of Aeronautics and Astronautics  > 2007  >  33(09): 1046-1050.
Jin Jing, Zhang Chunxi, Song Ningfang, et al. Dead band nonlinearity of digital closed-loop FOG[J]. Journal of Beijing University of Aeronautics and Astronautics, 2007, 33(09): 1046-1050. (in Chinese)
Citation: Jin Jing, Zhang Chunxi, Song Ningfang, et al. Dead band nonlinearity of digital closed-loop FOG[J]. Journal of Beijing University of Aeronautics and Astronautics, 2007, 33(09): 1046-1050. (in Chinese)
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Dead band nonlinearity of digital closed-loop FOG

  • School of Instrument Science and Opto-electronics Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100083, China

  • Received Date: 01 Sep 2006
  • Publish Date: 30 Sep 2007
    Abstract
  • Dead band nonlinearity is one of nonlinearity errors in digital closed-loop fiber optic gyroscope (FOG). Output noise and drift of FOG can be reduced by attenuating dead band nonlinearity. Based on the definition of the resolution and threshold for FOG, a dead band definition and test method in digital closed-loop FOG were proposed. The frequency and phase characteristic of interfering signal and the process that the interfering signal tracked and locked input signal were analyzed to prove that electrical crosstalk between phase modulator and photodetector and modulation error were main interference sources causing dead band. A dead band model of digital closed-loop FOG was developed by combining an ideal digital closed-loop FOG model and a partial integration model of interfering channel, and a condition expression of dead band and an expression of output error produced by dead band were derived from the dead band model. The simulation results of the dead band are identical with the experimental results of the dead band, which indicate that the dead band model of digital closed-loop FOG is accurate.

     

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  • [1] Pavlath G A. Closed-loop fiber optic gyros Rric Udd, Lefevre H C, Kazuo Hotate, et al. Fiber Optic Gyros:20th Anniversary Conference. Denver:SPIE, 1996:46-60 [2] 潘军.闭环光纤陀螺的死区现象及克服死区实验[J].航空学报,2001, 22(2):177-179 Pan Jun. Dead band phenomena of closed-loop fiber optic gyroscope and the experiment to eliminate dead band [J]. Acta Aeronautica et Astronautica Sinica, 2001, 22(2):177-179 (in Chinese) [3] Spahlinger G. Error compensation via signal correlation in high precision closed-loop fiber optic gyros Rric Udd, Lefevre H C, Kazuo Hotate, et al. Fiber Optic Gyros:20th Anniversary Conference. Denver:SPIE, 1996:218-227 [4] Lefevre H C. The fiber-optic gyroscope [M]. London:Artech House, 1993 [5] Bielas S M. Stochastic and dynamic modeling of fiber gyros [J]. Journal of the SPIE on Fiber Optic and Laser Sensors, 1994, 2292:240-253 [6] Bergh R A. Simplified control theory for closed-loop fiber-optic gyroscopes [J]. Journal of the SPIE on Fiber Optic and Laser Sensors, 1992, 1795:105-117 [7] GJB2426A-2004, 光纤陀螺仪测试方法[S] GJB2426A-2004, Test methods for fiber optic gyroscope [S](in Chinese)
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