Implementação de uma nova tecnica para demodulação digital de sinal de giroscopio a fibra optica / New technique for the implementation of digital demodulation of fiber optic gyroscopes

Fernandes, Alecio Pontes

04 August 2009

Orientador: Elnatan Chagas Ferreira / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Elétrica e de Computação / Made available in DSpace on 2018-08-13T16:12:21Z (GMT). No. of bitstreams: 1 Fernandes_AlecioPontes_M.pdf: 6269465 bytes, checksum: 0d2b04f6049ffb1685b947932894c75d (MD5) Previous issue date: 2009 / Resumo: Giroscópios são dispositivos usados para medir rotação angular, sendo extensivamente empregados em sistemas de guiamento, navegação e estabilização. Entre os diversos tipos de giroscópios, o IFOG (Giroscópio Interferométrico a Fibra Óptica) baseado no efeito de Sagnac é uma das soluções mais interessante, dada sua alta sensibilidade, resolução, ausência de partes móveis, confiabilidade, tamanho compacto e imunidade a interferências eletromagnéticas. Este trabalho descreve a implementação de um circuito digital de demodulação para IFOGs operando em malha aberta utilizando a técnica de zero-crossing (cruzamento em zero). A técnica implementada no circuito eletrônico descrito neste trabalho emprega um clock quase-síncrono para processamento, o que leva a um esquema de demodulação digital preciso, simples e de baixo custo. O circuito de demodulação proposto foi testado em laboratório, utilizando um sinal de giroscópio emulado. Os resultados experimentais medidos no protótipo mostraram que a resolução final do circuito de detecção é 1000 vezes melhor que a resolução possível de se alcançar em um demodulador zero-crossing digital convencional com clock síncrono / Abstract: Gyroscopes are devices used to measure angular orientation, being extensively employed for guidance, navigation and stabilization. Among the many types of gyroscopes, IFOG (Interferometer Fiber Optic Gyroscope), based on Sagnac effect, is the most interesting solution due to its high sensitivity, resolution, reliability, small size and EMI immunity. The present work describes a digital electronic circuit implementation for open-loop IFOGs using zero-crossing demodulation techniques. The technique used in the electronic circuit described in this work employs a quasi-synchronous clock for signal processing which leads to an accurate, simple and low cost digital demodulation scheme. The experimental results of the prototype showed that the final detection resolution is 1000 times better than one achieved by the conventional synchronous clock zero-crossing digital demodulator / Mestrado / Eletrônica, Microeletrônica e Optoeletrônica / Mestre em Engenharia Elétrica

Giroscópios óticos

Moduladores (Eletronica)

Processamento de sinais

Detecção de sinais

Detectores óticos

Optics gyroscopes

Modulators (Eletronics)

Signal processing

Signal detection

Optical detectors

Design, Analysis and Development of Sensor Coil for Fiber Optics Gyroscope

Kumar, Pradeep

January 2011

Interferometer Fiber Optic Gyroscope (IFOG) has established as critical sensor for advance navigation systems. Sensor coil is known to be heart of IFOG. The bias drift and scale factor performance of IFOG depend on the sensor coil. The environmental perturbations like vibration, shock, temperature and magnetic field can affect the measured phase difference between the counter propagating beams, thereby introducing a bias error resulting in degradation of IFOG performance. In general these factors are both time varying and unevenly distributed throughout the coil producing a net undesirable phase shift due to variations in the optical light path, which is undistinguishable from the rotation induced signal. The development of sensor coil for high performance includes selection of optical fiber, spool material, coil winding technique and potting adhesive. In the thesis, the effects of various perturbations like temperature, vibration and magnetic field on the sensor coil are analysed, which degrades the gyro performance. The effect of temperature and vibration can be reduced by proper selection of spool material, winding method and by applying adhesive during the winding of sensor coil. The effect of magnetic field can be reduced by using the high birefringence polarization maintaining fiber with shorter beat length, shielding the sensor coil and reducing the number of twist during the winding. Design and fabrication of the sensor coil is done for control grade & navigation grade FOG with fiber length of 100 m and 1000 m respectively with the polarization maintaining fiber of two different manufacturer Fiber Core, UK and Nufern, USA selected based upon the beat length and Numerical Aperture so that sensor coil has minimum effect of magnetic field and the bending of fiber. Presently the spool material used is Aluminium alloy (HE15) for the ease of fabrication and easily availability of material. The Quadrupolar winding is done to reduce the thermal gradient effects. The indigenously developed special adhesive is applied layer by layer to reduce the environmental effects. In order to study the lifetime of sensor coil accelerated aging test (85°C, RH 85 %) for 30 days is also carried out.

Fiber Optics Gyroscope

Sensor Coil

Inertial Navigation Systems (INS)

Laser Gyros (RLG)

Fiber Optic Gyros (FOG)

Fiber Optic Gyro

Fiber Optics Gyroscopes

Communication Engineering