• Title/Summary/Keyword: Silicon Accelerometer

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A Silicon Piezoresistive Accelerometer with Silicon-on-insulator Structure (Silicon-no-insulatir 구조를 갖는 실리콘 압저항 가속도계)

  • 양의혁;양상식
    • The Transactions of the Korean Institute of Electrical Engineers
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    • v.43 no.6
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    • pp.1036-1038
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    • 1994
  • In this paper, a silicon piezoresistive accelerometer is designed and fabricated using a silicon direct bonded wafer. The accelerometer consists of a seismic mass and four cantilevers, and is fabricated mainly by the anisotropic etching method using EPW as an etchant. The measured sensitivity and the resonant frequency are 0.02 mV/V.g and 3.4 kHz, respectively. The nonlinearity is less than $\pm$0.3% of the full scale of the output.

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Design of Force Rebalance Loop for Silicon Accelerometer using Parametric Robust Control Technique (변수적 강인해석기법을 이용한 실리콘 가속도계의 재평형루프 설계)

  • Seong, Sang-Gyeong;Lee, Jang-Gyu;Gang, Tae-Sam
    • The Transactions of the Korean Institute of Electrical Engineers D
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    • v.49 no.3
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    • pp.124-132
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    • 2000
  • In this paper, presented are an active surface-micromachined silicon accelerometer, force rebalance loop using parametric robust control method, and experimental results with a real micromachined accelerometer. And finally, a robust controller of the form of PID compensator was designed to construct force rebalance loop. Through the frequency response analysis, it is shown that the loop guarantees appropriate stability and robustness. Experiments with a real accelerometer demonstrated that the proposed loop effectively controls the position of the accelerometer's proof mass. It also demonstrated that the resolution of the fabricated accelerometer is better than 1mg. Compared with a commercial accelerometer the proposed force rebalance silicon accelerometer showed better performances.

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Fabrication and evaluation of a silicon pendulous servo accelerometer (실리콘 펜듈럼 서보 가속도계의 제작 및 성능 평가)

  • 서재범;심규민;오문수;이관섭
    • 제어로봇시스템학회:학술대회논문집
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    • 1996.10b
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    • pp.56-60
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    • 1996
  • This paper presents the initial results of development of a inertial navigation grade silicon pendulous accelerometer. This effort focused on developing a bulk-micromachined silicon pendulum and designing a PI-servo controller. Performance data presented in this paper includes threshold, bias short term stability and nonlinearity of scale factor. This accelerometer developed is demonstrated the feasibility of meeting one-nautical-mile-per-hour accuracy.

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Three Dimensional Silicon Accelerometer for High Temperature Range (고온용 3차원 실리콘 가속도센서)

  • Son, Mi-Jung;Seo, Hee-Don
    • Proceedings of the KIEE Conference
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    • 1998.07g
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    • pp.2504-2508
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    • 1998
  • In this paper, we propose the new detecting method for three dimensional piezoresistive silicon accelerometer. Furthermore the accelerometer is formed to have endurance for high temperature by perfect isolation of the piezoresistors using Silicon On Insulator(SOI) wafer. Sensor size are optimized with analytical formulae and extended with FEM simulation for the more detailed results. The accelerometer was fabricated by bulk micromachining techonology. We measured the temperature characteristics and the output characteristics, and the both characteristics were compared with the simulated results

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Fiber-optic interferometric accelerometer using silicon micromachining. (실리콘 마이크로머시닝을 이용한 광섬유 간섭계형 가속도 센서)

  • 권혁춘;김응수;김경찬;강신원
    • Proceedings of the Optical Society of Korea Conference
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    • 2003.02a
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    • pp.322-323
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    • 2003
  • Silicon substrate was fabricated by bulk silicon micromachining and it's structure is based on a proof mass suspended by two beam. To monitor the acceleration, dynamic excitation of accelerometer was performed using a shaker. The attached FFPI and suspension beam are bent because support beam move with variation of the proof mass. Thus phase difference detected by the acceleration change. So we can know that resonance frequency of fabricated accelerometer is about 557 Hz and dynamic range was measured from 0 g to 2 g.

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A Study on the Fabrication of the Lateral Accelerometer using SOG(Silicon On Glass) Process (SOG(Silicon On Glass)공정을 이용한 수평형 미소가속도계의 제작에 관한 연구)

  • Choi, Bum-Kyoo;Chang, Tae-Ha;Lee, Chang-Kil;Jung, Kyu-Dong;Kim, Jong-Pal
    • Journal of Sensor Science and Technology
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    • v.13 no.6
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    • pp.430-435
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    • 2004
  • The resolution of the accelerometer, fabricated with MEMS technology is mainly affected by mechanical and electrical noise. To reduce mechanical noise, we have to increase mass of the structure part and quality factor related with the degree of vacuum packaging. On the other hand, to increase mass of the structure part, the thickness of the structure must be increased and ICP-RIE is used to fabricate the high aspect ratio structure. At this time, footing effect make the sensitivity of the accelerometer decreasing. This paper presents a hybrid SOG(Silicon On Glass) Process to fabricate a lateral silicon accelerometer with differential capacitance sensing scheme which has been designed and simulated. Using hybrid SOG Process, we could make it a real to increase the structural thickness and to prevent the footing effect by deposition of metal layer at the bottom of the structure. Moreover, we bonded glass wafer to structure wafer anodically, so we could realize the vacuum packaging at wafer level. Through this way, we could have an idea of controlling of quality factor.

Fabriaction of bump bounded piezoresistive silicon accelerometer (범프 본딩된 압저항 실리콘 가속도센서의 제조)

  • 심준환;이상호;이종현
    • Journal of the Korean Institute of Telematics and Electronics D
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    • v.34D no.7
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    • pp.30-36
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    • 1997
  • Bump bonded piezoesistive silicon accelerometer was fabricated by the porous silicon micromachining and th eprocess technique of integrated circuit. The output voltage of the accelerometer fabricated on (111)-oreiented Si substrates with n/n$^{+}$n triple layers showed good linear characteristic of less than 1%. The measured sensitivity and the resonant frequency was about 743 .mu.V/g and 2.04 kHz, respectively. And the transverse sensitivity of 5.2% was measured from the accelerometer. Also, to investigate an influence on the output characteristics of the sensor due to bump bonding, the values of the piezoresistors were measured through thermal-cycling test in the temperature variation form -50 to 120.deg. C. Then, there was 0.014% resistance changes about 3.61 k.ohm., so sthe output charcteristics of the sensor was less affected by bump bonding.g.

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Development of Micro-opto-mechanical Accelerometer using Optical fiber (광섬유를 이용한 미세 광 기계식 가속도 센서의 개발)

  • Lee, Seung-Jae
    • Journal of the Korean Society of Mechanical Technology
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    • v.13 no.4
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    • pp.93-99
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    • 2011
  • This paper presents a new type of optical silicon accelerometer using deep reactive ion etching (DRIE) and micro-stereolithography technology. Optical silicon accelerometer is based on a mass suspended by four vertical beams. A vertical shutter at the end of the mass can only moves along the sensing axis in the optical path between two single-mode optical fibers. The shutter modulates intensity of light from a laser diode reaching a photo detector. With the DRIE technique for (100) silicon, it is possible to etch a vertical shutter and beam. This ensures low sensitivity to accelerations that are not along the sensing axis. The microstructure for sensor packaging and optical fiber fixing was fabricated using micro stereolithography technology. Designed sensors are two types and each resonant frequency is about 15 kHz and 5 kHz.

Design and Fabrication of a Silicon Piezoresistive Accelerometer using SOI Structure (SOI 구조를 이용한 실리콘 압저항 가속도계의 설계 및 제작)

  • Yang, Eui-Hyeok;Yang, Sang-Sik;Han, Sang-Woo
    • Proceedings of the KIEE Conference
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    • 1993.11a
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    • pp.192-194
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    • 1993
  • In this paper, a silicon piezoresistive accelerometer of which the cantilevers have uniform thickness is designed and fabricated with SOI wafer. The accelerometer consists of a seismic mass and four cantilevers, and is fabricated mainly by the anisotropic etching method using EPW etchant. The fabrication processes are that of the frontside processes including the etching of the cantilevers and the doubleside alignment holes, the diffusion of the piezoresisters and patterning of the contact windows, and the metal connection process, and that of the backside processes including the etching of the shallow cavity and the seismic mass. Because of the uniformity of thickness, the performance of the accelerometer fabricated with SOI wafer is expected to be better than that of accelerometer fabricated by the time-controlled etching method.

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