搜索资源列表
mems5
- mems part5 easy to learn
biyesheji
- 微型惯性测量组合包括微型陀螺仪和微型加速度计,是MEMS技术在惯性技术领域成功应用。与传统的惯性器件相比,MIMU在设计、材料和制造等方面都采用了全新的、革命性的工艺和方法,使其具有前所未见的小体积和重量、商业级的低价格、极高的可靠性和寿命。MIMU的这些特点使得惯性测量技术的应用从不计成本的军事领域扩展到市场广阔的民用、商用领域。-Micro inertial measurement units, including micro-gyroscopes and micro-acceleromet
MP34DT01
- MEMS audio sensor omnidirectional digital microphone
LPS331AP
- MEMS pressure sensor: 260-1260 mbar absolute digital output barometer
L3G4200D
- MEMS motion sensor: three-axis digital output gyroscope
optical-switch-used-in-power-systems
- 介绍一种MEMS光开关使用的电源系统的设计,文中包括设计方案及PCB设计的注意事项。-Introduce the design of an optical switch used in power systems
mems
- 华中科技大学对于微机械薄膜镜子的硕士论文-Thesis of Huazhong University of Science and Technology for micromachined membrane mirror
01004054_2
- rf mems phase shifter
Science-and-Technology
- 仪器科学与技术概论MEMS惯性传感器等四位教授专题讲座报告-Instrument Science and Technology Introduction to MEMS inertial sensors report of four professors lectures
3
- 由于载体对象的高动态特点,其上装载的GNSS 接收机在捕获信号和跟踪定位上面临很大的挑战,因此致使 GNSS/INS 组合系统的定位效果受到严重影响。本论文以 MEMS IMU/GNSS 超紧组合为研究目标,并以 MEMS IMU 环路辅助的GNSS/INS 紧组合技术为研究重点,深入研究了 MEMS IMU 辅助的 GNSS 信号捕获、MEMS IMU 辅助的 GNSS 信号跟踪、MEMS IMU 辅助的 GNSS/INS 紧组合导航定位算法和基于矢量跟踪结构的 GNSS/INS 超紧组
MEMS-ADIS16355
- 采用ADIS16355经行姿态更新的系统设计方案,提供硬件电路和卡尔曼滤波方法-ADIS16355 by the line attitude updating system design, hardware circuit and Kalman filtering method
karagozler-iros09.pdf
- Stress-driven MEMS Assembly + Electrostatic Forces = 1mm Diameter Robot CAtom REsearch
Wireless-Sensor-Networks-1
- With the recent advances inmicro electro-mechanical systems(MEMS) technology, wireless communications, and digital electronics, the design and development of low-cost, low-power, multifunctional sensor nodes that are small in size and communicate unt
STM32F4DISCOVERY_MEMS
- STM32F4DISCOVERY MEMS DOCUMENTATION
matlab
- 微机电陀螺仪的随机误差建模方法研究,介绍了几种建模方法-Random error modeling method MEMS gyroscope, introduced several modeling methods
HEED
- ecent advances in electrical engineering and computer science, esp ecially in micro- electro-mechanical systems (MEMS), very-large-scale integration (VLSI) and op erating system theory, have made wireless sensor network (WSN) technologies an imp
sTM32应用笔记
- The STM32F429 Discovery helps you to discover the high-performance microcontrollers of the STM32 F4 series and to develop your applications easily. It offers everything required for beginners and experienced users to get started quickly. Based on
Allan-variance-analysis-
- 分析了 MEMS 惯性器件具有的典型误差项, 介绍了 Allan 方差分析方法的原理和实 现方法, 利用该方法可以对MEMS惯性器件的各个误差项进行辨识. 通过对一种商用级MEMS陀螺仪和加速 度长时间实测得到的数据进行处理和分析, 验证了Allan方差分析方法应用于误差项辨识的可行性, 并给出了 该 MEMS 惯性器件的各个误差项识别结果. 使用 Allan 方差方法得到的误差项系数可以直接应用于惯性器件 误差建模, 对于 GNSS/INS 组合导航系统的实现和改进有重要意义-
inertial_sensing_technology
- 美国圣地亚实验室于2009年发表的MEMS 惯性传感技术综述-this report is to provide an overview of Micro-System technology as it applies to inertial sensing
2015-Estimation--of-Misalignment
- 2015-An Improved Analytical Approach for Estimation of Misalignment Error of Sensing Axis in MEMS Accelerometers-2015-An Improved Analytical Approach for Estimation of Misalignment Error of Sensing Axis in MEMS Accelerometers