传统磁通门传感器主要采用模拟电路进行信号处理。
Traditional fluxgate adopts analog circuit to process its output signal.
文中分析了三端式磁通门传感器的工作原理,给出了有效的信号处理方法。
The operating principle of the fluxgate sensor with three tips is analyzed, and a effective signal processing method is obtained in this paper.
提出了一种基于支持向量回归机(SVR)的三轴磁通门传感器误差修正方法。
An error correction method for three axial fluxgate sensor based on support vector regression (SVR) is proposed.
结果显示:它的误差较小,改善了传统磁通门传感器的温度性能,提高了输出信号的稳定性。
The results show the error is small and it can improved temperature property of fluxgate sensor and output stability.
针对磁通门传感器检测到的环境磁场强度信号,运用谐波选择法,设计了磁通门信号处理电路。
This paper adopts harmonic choice method to design fluxgate signal processing circuit in allusion to the environment magnetic field strength signal of fluxgate sensor detecting.
介绍了一种新型的基于印刷电路板技术基础上制造的环形微型磁通门传感器的工作原理和结构。
The paper mainly discusses the working principle and structure of a new toroidal micro-magnetic fluxgate integrated inside printed circuit boards (PCB).
目前的井眼轨迹方位角测量技术主要靠磁通门传感器,这种技术受地磁场及测量体周围金属管体的制约。
At present, hole trajectory azimuth Angle is measured mainly with magnetism sensor, but which is restricted by magnetic field and the metal tube around the surveying equipment.
在方向的测量中使用了三个传感器代替传统的单个传感器测量以减小加速度计与磁通门计在较小角度时灵敏度的下降。
Instead of using one sensor to measure the direction, this system uses three perpendicularly mounted sensors to measure one direction so as to avoid the sensibility loss on small angle.
基于磁通门技术的车辆导航系统,由航向及姿态角传感器、路程发送器和计算机组成。
Based on fluxgate technique, vehicle navigation system is composed of the course and pose Angle sensor, distance sensor and computer.
基于磁通门技术的车辆导航系统,由航向及姿态角传感器、路程发送器和计算机组成。
Based on fluxgate technique, vehicle navigation system is composed of the course and pose Angle sensor, distance sensor and computer.
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