A new high performance sigma-delta MEMS accelerometer for inertial navigation

2015 DGON Inertial Sensors and Systems Symposium (ISS) Pub Date : 2015-11-02 DOI:10.1109/INERTIALSENSORS.2015.7314257

P. Ullah, V. Ragot, P. Zwahlen, F. Rudolf

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引用次数: 24

Abstract

MEMS accelerometers have proven high reliability, cost-effectiveness and versatility in recent years for consumer grade applications. Sagem and Colibrys have long been involved in MEMS accelerometers, with the ACSIL sensor that has been around for over 20 years on APIRS Attitude and Heading Reference Systems and more recently the MS90xx product family. MEMS sensors have been expected to reach inertial navigation grade performance for some years, however very few indeed have been up to the task. In this paper, we present the latest capacitive spring mass sigma-delta closed-loop accelerometer design by Sagem and Colibrys. We will present the key concepts for high performance, system architecture and the experimental results obtained on our prototypes. Compared to previous publications, performance has been significantly improved thanks to improvements in MEMS design, packaging and electronic control. The resulting design features compact size despite full digital electronic integration, excellent robustness to shocks and vibrations, and unmatched performance for a MEMS accelerometer. Great emphasis was placed on having an autonomous sensor, requiring only power supplies and a digital communication interface. High performance is thus achieved independently of external high precision components such as voltage references or A/D converter.

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一种用于惯性导航的新型高性能σ - δ MEMS加速度计

近年来，MEMS加速度计在消费级应用中已被证明具有高可靠性，成本效益和多功能性。萨基姆和Colibrys长期以来一直参与MEMS加速度计，ACSIL传感器在APIRS姿态和航向参考系统以及最近的MS90xx产品系列上已经存在了20多年。MEMS传感器有望达到惯性导航级性能已经有几年了，但是很少有传感器能够完成这项任务。本文介绍了Sagem和Colibrys公司最新设计的电容式弹簧质量sigma-delta闭环加速度计。我们将介绍高性能的关键概念，系统架构和在我们的原型上获得的实验结果。与以前的出版物相比，由于MEMS设计，封装和电子控制的改进，性能得到了显着提高。最终的设计具有紧凑的尺寸，尽管全数字电子集成，出色的抗冲击和振动稳健性，以及MEMS加速度计无与伦比的性能。重点是拥有一个自主传感器，只需要电源和数字通信接口。因此，高性能的实现独立于外部高精度组件，如电压参考或A/D转换器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 DGON Inertial Sensors and Systems Symposium (ISS)

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