This paper presents the design principles and fabrication techniques for simultaneously forming non-coplanar resonant beams and crab-leg supporting beams of dual-axis bulk micromachined resonant accelerometers by mask...This paper presents the design principles and fabrication techniques for simultaneously forming non-coplanar resonant beams and crab-leg supporting beams of dual-axis bulk micromachined resonant accelerometers by masked-maskless combined anisotropic etching.Four resonant beams are located at the surface of a silicon substrate,whereas the gravity centre of a proof mass lies within the neutral plane of four crab-leg supporting beams on the same substrate.Compared with early reported mechanical structures,the simple structure not only eliminates the bending moments caused by in-plane acceleration,and thereby avoiding the rotation of the proof mass,but also providing sufficiently small rigidity to X and Y axes accelerations,potentially leading to a large sensitivity for measuring the in-plane acceleration.展开更多
基金Project (No. 61076110) supported by the National Natural Science Foundation of China
文摘This paper presents the design principles and fabrication techniques for simultaneously forming non-coplanar resonant beams and crab-leg supporting beams of dual-axis bulk micromachined resonant accelerometers by masked-maskless combined anisotropic etching.Four resonant beams are located at the surface of a silicon substrate,whereas the gravity centre of a proof mass lies within the neutral plane of four crab-leg supporting beams on the same substrate.Compared with early reported mechanical structures,the simple structure not only eliminates the bending moments caused by in-plane acceleration,and thereby avoiding the rotation of the proof mass,but also providing sufficiently small rigidity to X and Y axes accelerations,potentially leading to a large sensitivity for measuring the in-plane acceleration.
