This is mostly a 3-axis accelerometer combined with a 3-axis gyroscope.
基本上是3轴的加速度计和3轴的陀螺仪结合。
This could be a 3-axis accelerometer or it could be a 3-axis gyroscope.
可以是3轴的加速度计或者是3轴的陀螺仪。
It features a modern dual-axis accelerometer to track the magnitude of your movements.
它配备了现代双轴加速度跟踪的严重性你的动作。
But we found the product yield was poor for vertical resonating structure such as Z-axis accelerometer and switch.
但该工艺用于制造垂直动作结构如Z轴加速度计和开关时,成品率不高。
Six-axis accelerometer is used as the important key element for detecting and control in the field of navigation, military affairs and robotic etc.
六维加速度传感器是航空航天、军事、机器人等特殊领域用于多维加速度检测和运动控制的关键元件。
The demonstration daughterboard contains temperature and light sensors, a three-axis accelerometer, eight tricolour LEDs, and two pushbutton switches.
演示子板包含温度和光传感器、一个三轴加速计、8 个三色 LED以及两个按钮开关。
According to the different needs of performance, the instance for six-axis accelerometer and the process for ascertaining structural parameters are given.
在不同性能需要下,进行了六维加速度传感器实例设计,阐述了六维加速度传感器弹性体机构尺寸确定的过程。
Based on the E-type membrane, a new elastic body of multi-axis accelerometer is designed. The working principle of this low-cost accelerometer is introduced also.
基于E型膜片设计了一种新型多维加速度传感器弹性体结构,并介绍了这种低成本传感器的工作原理。
Applying in manipulator to realize dynamic and stable grasping, six-axis accelerometer is a kind of inertial sensors getting kinetic parameters in the field of robots.
六维加速度传感器是机器人领域一种重要的获得动力学参数的惯性传感器,尤其是将其应用于机械手,来实现动态稳定地抓取。
The physical model of solution space on the structure of six-axis accelerometer with nondimensional parameters was established and changed into 2D plane by the conversion formulas.
用空间模型理论建立了六维加速度传感器弹性元件无量纲尺寸的空间模型,并转换到二维平面,给出了转换公式。
One approach is to use a surface-mount 3-axis accelerometer that is already present in many smartphones, such as the Freescale Semiconductor MMA8653, to determine the orientation of the terminal.
一种方法是使用表面贴装3轴加速度计是已经存在于许多智能手机,如飞思卡尔半导体MMA8653,以确定该终端的方向。
The constant angular rate was applied to three axis of turntable at the same time to actuate dynamic error term of accelerometer.
在三轴转台的三个轴上同时施加恒定角速率,激励出加速度计动态误差项。
As the result of simulating finished with MATLAB, clear prior knowledge and anticipated result of calibrating dynamic error coefficients of accelerometer on three-axis turntable are obtained.
利用MATLAB进行了仿真,使得在三轴转台上标定加速度计动态误差系数有了清晰的先验认识和结果预期。
Based on analysis and study the dynamic output of accelerometer, simulating model of accelerometer, mathematical model of three-axis turntable and the characters of test errors are synthesized.
在分析和研究加速度计动态输出的基础上,综合了加速度计仿真模型和三轴转台数学模型以及测试误差的特性。
The error source of the three-axis turntable is analyzed, which affect the precision of test of pendulous integrating gyro accelerometer (PIGA).
分析了三轴转台设备误差源;讨论了转台误差对陀螺加速度表测试精度的影响。
According the designed single axis micro accelerometer, its modeling means is presented. The relations between its design parameters and its performance index are analyzed.
根据设计的单轴电容式微加速计分析了微加速计的建模方法以及加速度计性能指标与设计参数之间的数学关系。
The geophone based on MEMS accelerometer has excelled the traditional geophone on bandwidth, dynamic range and off-axis sensitivity.
基于MEMS加速度传感器的地震检波器在频带、动态范围和轴向抗干扰性等性能指标上优于传统动圈式检波器。
The geophone based on MEMS accelerometer has excelled the traditional geophone on bandwidth, dynamic range and off-axis sensitivity.
基于MEMS加速度传感器的地震检波器在频带、动态范围和轴向抗干扰性等性能指标上优于传统动圈式检波器。
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