微纳卫星高精度三轴磁强计设计与开发
适用于立方体纳卫星的磁强计,在保证三场磁场值输出功能的前提下需满足由于立方星本身特别的决定的一系列设计要求。首先在设计理念上,突出一体化与模块化设计,减少系统的复杂度。同时,注重MEMS器件以及微功耗器件的选用,降低立方星在体积、功耗所面临的问题。其次,该设计需考虑低成本,通过成熟商业器件(COTS)而非航天级器件以及在试验环节试验方法上创新,从而实现立方体纳卫星的高效费比。25156
关键词:微纳卫星 三轴磁强计 传感器芯片
毕业论文设计说明书外文摘要
Title The design and development of high precision three-axis magnetometer
Abstract
Nanosat usually refers to the quality of less than 10 kg, which has the function of actual use satellitesNanosat is based on and developed from microelectronics technology, micro-electromechanical technology, light electrical technology such as micro/nano technology which reflects the development trend of the spacecraft is miniaturization。
Applicable to the Nanosat magnetometer design , in three magnetic field value output function under the premise of need to meet due to the special decision of cubic star series of design requirements。First of all ,on the design concept, highlight the integration and modularization design, reduce the complexity of the system。At the same time, pay attention to the MEMS devices and the selection of micro power consumption device, reduce the power consumption of the cubic star in volume, the problems facing。Secondly, the design should be considered low costs, by mature commercial devices (COTS) rather than space device as well as the innovation on the test link test method, so as to realize the efficient of cube, a satellite cost ratio.
Keywords cubesat three-axis magnetometer sensor chip
目 次
1 引言 1
1.1 研究背景 1
1.1.1 微纳卫星 2
1.1.2 欧盟QB50项目 2
1.1.3 NJUST-1双单元立方星 3
1.1.4 三轴磁强计 3
1.2 国内外研究现状 3
1.2.1传感器芯片 4
1.2.2 国内外立方体纳卫星的磁强计模块芯片 5
1.3 课题研究的目的与意义 6
1.4 主要的研究内容 6
1.5 本章小结 6
2 姿控任务分析 7
2.1 姿控系统方案设计 7
2.2 姿控系统硬件组成 7
2.3 系统对磁强计模块要求 8
2.4 本章小结 8
3 三轴磁强计设计 9
3.1 三轴磁强计原理及方案 9
3.2 HMC2003介绍 9
3.3 电路设计 11
3.3.1AD采集电路设计 11
3.3.2 供电系统设计 12
3.3.3 RC滤波设计 14
3.3.4 置复位电路设计 15
3.4 PCB设计 16
3.4.1绘制电路原理图 17
3.4.2规划电路板 17
3.4.3 设置参数 17
3.4.4 元器件封装 18
3.4.5 元器件布局 18
3.4.6 布线 20
3.4.7 最终设计方案 20
上一篇:固体发射药着火模型及数值分析