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Author: Surender Reddy Poreddy Publisher: ISBN: Category : Gyroscopes Languages : en Pages : 166
Book Description
In this thesis, a novel design for a vibratory wheel micro gyroscope is presented. A DRIE thick structure has been realized. Thicker structure enables the proof masses to have more mass and hence more inertia and better performance. For the highest sensitivity of the gyroscope angular deflection is very important. The angular deflection achieved initially was very low. Using design optimization techniques a new gyro is developed with improved design and we could improve the angular deflection by an order of magnitude. Fabrication of MEMS devices is the most challenging part; hence an idea is put forth for the fabrication of the current model. While fabrication itself is challenging, fabrication defects are inevitably present. The effects of fabrication and the compensation methods are studied using a tuning fork gyro. Dynamic analysis has been carried out and we studied the effect of imperfect flexures on the gyroscopes performance. It has been found that, even if there are imperfections in the flexures the gyro can closely match the ideal gyroscope with some trade-offs in the design part of it.
Author: Surender Reddy Poreddy Publisher: ISBN: Category : Gyroscopes Languages : en Pages : 166
Book Description
In this thesis, a novel design for a vibratory wheel micro gyroscope is presented. A DRIE thick structure has been realized. Thicker structure enables the proof masses to have more mass and hence more inertia and better performance. For the highest sensitivity of the gyroscope angular deflection is very important. The angular deflection achieved initially was very low. Using design optimization techniques a new gyro is developed with improved design and we could improve the angular deflection by an order of magnitude. Fabrication of MEMS devices is the most challenging part; hence an idea is put forth for the fabrication of the current model. While fabrication itself is challenging, fabrication defects are inevitably present. The effects of fabrication and the compensation methods are studied using a tuning fork gyro. Dynamic analysis has been carried out and we studied the effect of imperfect flexures on the gyroscopes performance. It has been found that, even if there are imperfections in the flexures the gyro can closely match the ideal gyroscope with some trade-offs in the design part of it.
Author: Ridha Almikhlafi Publisher: ISBN: Category : Gyroscopes Languages : en Pages : 50
Book Description
This thesis presents the design, fabrication and characterization of two Micro-Electro-Mechanical Systems (MEMS) vibratory gyroscopes fabricated using the Silicon-On-Insulator-Multi-User-MEMS Process (SOIMUMPs) and Polysilicon Multi-User-MEMS-Process (Poly-MUMPs). Firstly, relevant literature and background on static and dynamic analysis of MEMS gyroscopes are described. Secondly, the gyroscope analytical model is presented and numerically solved using Mathematica software. The lumped mass model was used to analytically design the gyroscope and predict their performance. Finite element analysis was carried out on the gyroscopes to verify the proposed designs. Thirdly, gyroscope fabrication using MEMSCAP's SOIMUMPs and PolyMUMPs processes is described. For the former, post-processing was carried out at the Quantum Nanofab Center (QNC) on a die-level in order to create the vibratory structural elements (cantilever beam). Following this, the PolyMUMPs gyroscopes are characterized optically by measuring their resonance frequencies and quality factor using a Laser Doppler Vibrometer (LDV). The drive resonance frequency was measured at 40 kHz and the quality factor as Q = 1. For the sense mode, the resonance frequency was measured at 55 kHz and the unity quality factor as Q = 1. The characterization results show large drive direction motions of 100 um/s in response to a voltage pulse of 10 V. The drive pull-in voltage was measured at 19 V. Finally, the ratio of the measured drive to sense mode velocities in response to a voltage pulse of 10 V was calculated at 1.375.
Author: Amandeep Sharma Publisher: LAP Lambert Academic Publishing ISBN: 9783659158285 Category : Languages : en Pages : 124
Book Description
This book is a study of various MEMS Gyroscopes available in the world, their working principles/phenomenon and respective applications.It covers the various processes involved in the fabrication of MEMS gyroscopes.The book will help as a tutorial to model, simulate and thus analyse a MEMS Gyroscope using Coventorware 2010 MEMS+2(MEMS design tool). It will also elaborate the actual working principle of MEMS Gyroscopes used in the sensors, gadgets and instruments with intrinsic propertie
Author: Huiliang Cao Publisher: Springer Nature ISBN: 9811992479 Category : Technology & Engineering Languages : en Pages : 231
Book Description
This book introduces the key technologies in the manufacture of double-mass line vibrating silicon micromechanical gyroscope, respectively. The design of gyrostructure, detection technology, orthogonal correction technology, the influence of temperature and the design of measurement and control system framework are introduced in detail, with illustrations for easy understanding. It presents the principle, structure and related technology of silicon-based MEMS gyroscope. The content enlightens the researchers of silicon-based MEMS gyroscopes and gives readers a new understanding of the structural design of silicon-based gyroscopes and the design of dual-mass gyroscopes.
Author: Oliver Brand Publisher: John Wiley & Sons ISBN: 352767635X Category : Technology & Engineering Languages : en Pages : 512
Book Description
Part of the AMN book series, this book covers the principles, modeling and implementation as well as applications of resonant MEMS from a unified viewpoint. It starts out with the fundamental equations and phenomena that govern the behavior of resonant MEMS and then gives a detailed overview of their implementation in capacitive, piezoelectric, thermal and organic devices, complemented by chapters addressing the packaging of the devices and their stability. The last part of the book is devoted to the cutting-edge applications of resonant MEMS such as inertial, chemical and biosensors, fluid properties sensors, timing devices and energy harvesting systems.
Author: Cenk Acar Publisher: Springer Science & Business Media ISBN: 0387095365 Category : Technology & Engineering Languages : en Pages : 262
Book Description
MEMS Vibratory Gyroscopes provides a solid foundation in the theory and fundamental operational principles of micromachined vibratory rate gyroscopes, and introduces structural designs that provide inherent robustness against structural and environmental variations. In the first part, the dynamics of the vibratory gyroscope sensing element is developed, common micro-fabrication processes and methods commonly used in inertial sensor production are summarized, design of mechanical structures for both linear and torsional gyroscopes are presented, and electrical actuation and detection methods are discussed along with details on experimental characterization of MEMS gyroscopes. In the second part, design concepts that improve robustness of the micromachined sensing element are introduced, supported by constructive computational examples and experimental results illustrating the material.
Author: Doruk Senkal Publisher: John Wiley & Sons ISBN: 1119441889 Category : Technology & Engineering Languages : en Pages : 176
Book Description
Presents the mathematical framework, technical language, and control systems know-how needed to design, develop, and instrument micro-scale whole-angle gyroscopes This comprehensive reference covers the technical fundamentals, mathematical framework, and common control strategies for degenerate mode gyroscopes, which are used in high-precision navigation applications. It explores various energy loss mechanisms and the effect of structural imperfections, along with requirements for continuous rate integrating gyroscope operation. It also provides information on the fabrication of MEMS whole-angle gyroscopes and the best methods of sustaining oscillations. Whole-Angle Gyroscopes: Challenges and Opportunities begins with a brief overview of the two main types of Coriolis Vibratory Gyroscopes (CVGs): non-degenerate mode gyroscopes and degenerate mode gyroscopes. It then introduces readers to the Foucault Pendulum analogy and a review of MEMS whole angle mode gyroscope development. Chapters cover: dynamics of whole-angle coriolis vibratory gyroscopes; fabrication of whole-angle coriolis vibratory gyroscopes; energy loss mechanisms of coriolis vibratory gyroscopes; and control strategies for whole-angle coriolis vibratory gyro- scopes. The book finishes with a chapter on conventionally machined micro-machined gyroscopes, followed by one on micro-wineglass gyroscopes. In addition, the book: Lowers barrier to entry for aspiring scientists and engineers by providing a solid understanding of the fundamentals and control strategies of degenerate mode gyroscopes Organizes mode-matched mechanical gyroscopes based on three classifications: wine-glass, ring/disk, and mass spring mechanical elements Includes case studies on conventionally micro-machined and 3-D micro-machined gyroscopes Whole-Angle Gyroscopes is an ideal book for researchers, scientists, engineers, and college/graduate students involved in the technology. It will also be of great benefit to engineers in control systems, MEMS production, electronics, and semi-conductors who work with inertial sensors.
Author: Vladislav Apostolyuk Publisher: Springer ISBN: 3319221981 Category : Technology & Engineering Languages : en Pages : 122
Book Description
This book provides the latest theoretical analysis and design methodologies of different types of Coriolis vibratory gyroscopes (CVG). Together, the chapters analyze different types of sensitive element designs and their kinematics, derivation of motion equations, analysis of sensitive elements dynamics in modulated and demodulated signals, calculation and optimization of main performance characteristics, and signal processing and control. Essential aspects of numerical simulation of CVG using Simulink® are also covered. This is an ideal book for graduate students, researchers, and engineers working in fields that require gyroscope application, including but not limited to: inertial sensors and systems, automotive and consumer electronics, small unmanned aircraft control systems, personal mobile navigation systems and related software development, and augmented and virtual reality systems.
Author: Surender Reddy Poreddy
Author: Surender Reddy Poreddy
Author: Kapil D. Gore
Author: Ridha Almikhlafi
Author: Amandeep Sharma
Author: Huiliang Cao
Author: Oliver Brand
Author: Cenk Acar
Author: Doruk Senkal
Author: Wei Cui
Author: Vladislav Apostolyuk