Development of Highly Integrated Quartz Micro-Electro-Mechanical System Tilt Sensor
スポンサーリンク
概要
- 論文の詳細を見る
In this paper, we report the research progress of a recently developed quartz micro-electro-mechanical system (MEMS)-based capacitive tilt sensor using bulk micromachining technology. The sensor, which is composed of a sensitive cantilever, proof mass and high-aspect-ratio vertical comb electrodes in wafer thickness, was fabricated using an anisotropic wet etching process on a 100-μm-thick z-cut quartz wafer. A ceramic package was designed for mounting the sensor and integrating the capacitance to a digital AD7746 circuit (Analog Devices). The sensor was mounted on the package using a flip chip method via a AuSn alloy solder. The dimensions of the integrated sensing system are $12 \times 12 \times 3.2$ mm3 and the weight of the system is below 1 g. The measured typical sensor sensitivity is 632 fF/° when the applied voltage is 0.625 V. The peak-to-peak output signal drift is limited to 1 fF in 2 h. Good linearity was achieved in the range of $\pm1$°. High-precision detection at 0.001°, which corresponds to micro-g acceleration, was also demonstrated.
- 2009-06-25
著者
-
Ueda Toshitsugu
Graduate School Of Information Production And Systems Waseda Univ.
-
Li Xuefeng
Graduate School Of Information Production And Systems Waseda University
-
KUNITOMO Ken
Sakamoto Electric Mfg. Co. Ltd
-
Liang Jinxing
Graduate School Of Information Production And Systems Waseda University
-
Kohsaka Fusao
Graduate School Of Information Production And Systems Waseda University
-
Matsuo Takahiro
Sakamoto Electric MFG Co., Ltd., Fukuoka 811-0202, Japan
-
Kohsaka Fusao
Graduate School of Information, Production and Systems, Waseda University, Kitakyushu 808-0135, Japan
-
Kunitomo Ken
Sakamoto Electric MFG Co., Ltd., Fukuoka 811-0202, Japan
関連論文
- Sensing System for Multiple Measurements of Trace Elements Using Laser-Induced Breakdown Spectroscopy
- Differential Platinum Thin Film Hydrogen Gas Sensor Fabricated by MEMS Techniques
- Improvement of a Micro-Droplet Guiding Technique for Laser-Induced Breakdown Spectroscopy
- Low Concentration Gas Measurement Using Photonic Bandgap Fiber Cell Sensor
- Particle Element and Size Simultaneous Measurement Using LIBS
- Development of Solution Measurement Using Laser-Induced Breakdown Spectroscopy Integrated with Micro-Droplet Ejection System
- Photonic Bandgap Fiber for a Sensing Device
- Thermo-Resistive Platinum Thin Film Hydrogen Gas Sensor Fabricated by MEMS Techniques
- Fabrication of Two-Axis Quartz MEMS-Based Capacitive Tilt Sensor
- Wet Etched High Aspect Ratio Microstructures on Quartz for MEMS Applications
- In-situ Measurement for Gas Concentrations using Tunable Lasers
- Deblur of Radially Variant Blurred Image for Single Lens System
- Development of Highly Integrated Quartz Micro-Electro-Mechanical System Tilt Sensor
- Thermomechanical Fatigue Performance of Lead-Free Chip Scale Package Assemblies with Fast Cure and Reworkable Capillary Flow Underfills (Special Issue : Advanced Metallization for ULSI Applications)
- Board-Level Solder Joint Reliability of Edge- and Corner-Bonded Lead-Free Chip Scale Package Assemblies Subjected to Thermal Cycling (Special Issue : Solid State Devices and Materials (2))
- Development of Carbonaceous Particle Size Analyzer Using Laser-induced Incandescence Technology
- Design and Fabrication of Quartz Micro-Electro-Mechanical System-Based Double-Ended Tuning Fork with Variable Sections
- Vibration Analysis of Original Shape Quartz Resonator for High Quality Factor Realization
- High-Sensitivity Fiber-Optic Fabry--Perot Interferometer Temperature Sensor
- Fabrication of Photonic Bandgap Fiber Gas Cell Using Focused Ion Beam Cutting
- Doubled Optical Path Length for Photonic Bandgap Fiber Gas Cell Using Micromirror
- Damping Characteristics of Quartz Tilt Sensor with Nonparallel Comb Electrode