The compensating method for MEMS gyroscope random drift error is discussed.
从工程实用的角度出发,探讨了MEMS陀螺仪随机漂移误差的有效补偿方法。
MEMS gyroscope as a production core content, the success of chip design and processing has very important significance.
作为生产微机械陀螺仪最核心的内容,芯片的成功设计与加工具有非常重要的意义。
Error analysis, modeling and compensation of MEMS gyroscope and its application in navigation of flight vehicle are researched in this paper.
本文主要研究了微机电陀螺的误差分析、建模和补偿,以及在飞行器导航中的应用。
We Design a temperature control system of MEMS gyroscope which face to Pico-Satellite application, the principle is based on ADN8831 and TEC.
设计了一种面向皮卫星应用的MEMS陀螺温度控制系统,其控制原理为基于ADN8831的TEC温度控制。
Secondly, a new method of moving average-Kalman filtering proposed is used to process the MEMS gyroscope signal of the gyro stabilized pod control system.
在陀螺稳定吊舱算法研究中,本文首先通过对微机械陀螺信号进行处理,提出了一种滑动平均—卡尔曼滤波方法。
The sensor consists of a MEMS gyroscope, an accelerometer and microprocessor (MSC1214) and can output the rolling, pitch and yaw angular rate of rolling airframe missile.
利用一只重力加速度计和自行研制的MEMS陀螺作为敏感部件,利用MSC1214对两路信号处理,输出旋转弹的滚动、俯仰和偏航的角速率。
Comparing with conventional electro-mechanical gyroscope and electro-optical gyroscope, MEMS gyroscope has the advantages of low cost, small size, low weight and high reliability.
微机电陀螺与传统的机电类陀螺和光电类陀螺相比,具有成本低、尺寸小、重量轻、可靠性高等优点。
MEMS inertial measurement unit is an accelerometer and gyroscope combination device, developed by using MEMS technology. It has small volume, low cost and high reliability.
MEMS惯性测量单元是采用MEMS技术研制的加速度计和陀螺组合器件,它具有体积小、成本低、可靠性高等优点。
The study of micromachined gyroscope based on MEMS in the paper have important reference value and application foreground in rising ballistic correction's accuracy and efficiency.
论文基于MEMS技术的微机械陀螺的研究,对于提高弹道修正的精度和效率具有重要的参考价值和应用前景。
This paper presents a robust optimal model of Micro Electro Mechanical Systems (MEMS) gyroscope and its design procedure.
提出了基于灵敏度分析的微机械陀螺稳健优化模型,开发了相应的稳健设计流程。
In this thesis, we present a novel approach to estimate angular rates of MEMS vibratory gyroscope systems.
本篇论文中,提出了使用在振动陀螺仪上,估测角速度的一个新方法。
Micromachined gyroscope based on MEMS technology has the advantages of small size, light weight, low power consumption, high reliability and so on, and has broad application in many area.
基于MEMS技术加工的微机械陀螺具有体积小、重量轻、功耗低、可靠性高等优点,当前在许多领域具有非常广阔的应用前景。
Micromachined gyroscope based on MEMS technology has the advantages of small size, light weight, low power consumption, high reliability and so on, and has broad application in many area.
基于MEMS技术加工的微机械陀螺具有体积小、重量轻、功耗低、可靠性高等优点,当前在许多领域具有非常广阔的应用前景。
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