摘要立方体纳卫星是一个标准化平台,具有成本低、研制周期短、发射灵活等突出优点。目前国外发展迅速,应用广泛,技术相对成熟,而国内还处于发展阶段。星务计算机作为立方体纳卫星的核心部件,负责姿态确定和控制、星地通信、数据处理和存储功能等重要任务。61616
本文提出以高性能、低功耗ARM7芯片为主处理器,进行SRAM和ROM扩展,并通过USART、I2C、SPI等接口进行星上数据采集以及任务处理。本项目完成了星务计算机原理样机的设计,包括原理图的设计、PCB设计、硬件调试等,为其后的工程样机研制打下坚实的基础。
毕业论文关键词 星务计算机 数据接口 ARM7处理器 调试
毕业设计说明书(论文)外文摘要
Title Hardware Design of On-board Computer for a 2U CubeSat
Abstract CubeSat is a standard platform, and has the advantages of low cost, short development cycle, and flexible launch. At present, the foreign development is rapid and wide applicated, and the technology is relatively mature, while the domestic is still in development stage. On-board computer as the core parts of the CubeSat is responsible for attitude determination and control, satellite communication, data processing and storage functions and other important tasks.
In this paper, we choose the high-performance and low-power processor of ARM7 as the main processor, with the expansion of SRAM and ROM. This computer can acquire and process on-board data through the interface of USART、I2C、SPI. This article illustrates the design of a sampled on-board computer. Specifically, the designer of fundamental blueprint and PCB design is discussed, followed by hardware debugging. This article serves as a solid base for the R&D of sampled engineering computer.
Keywords On-board computer Data interface ARM7 processor Debug
1 绪论 1
1.1 立方体纳卫星概述 1
1.2 QB50项目背景 1
1.3 星务计算机概述 2
1.4 主要研究内容 4
2 NJUST-1双单元立方星研制任务介绍 5
2.1 卫星研制的目的和意义 5
2.2 CUBESAT设计标准 6
2.3 卫星轨道 7
2.4 NJUST-1卫星系统 8
2.5 卫星携带的科学载荷 13
2.6 本章小结 15
3 星务计算机设计 16
3.1 硬件设计要求 16
3.2 CPU模块设计 17
3.3 存储器模块设计 21
3.4 外围接口设计 27
3.5 其它电路设计 33
3.6 星务计算机PCB板设计 35
3.7 本章小结 37
4 星务计算机测试 39
4.1 最小系统模块测试 39
4.2 存储器模块测试 41
4.3 接口测试 双单元立方体纳卫星星务计算机硬件电路设计+PCB电路图:http://www.youerw.com/jixie/lunwen_67455.html