Xilinx Zynq-7000 嵌入式系统设计与实现 基于ARM Cortex-A9双核处理器和Vivado的设计方法_14063912

Cortext-M4用户手册

【目　　录】: 第1篇系统篇 第1章嵌入式系统概述3 1.1嵌入式系统的定义和特点3 1.1.1嵌入式系统的定义3 1.1.2嵌入式系统和通用计算机比较4 1.1.3嵌入式系统的特点5 1.2嵌入式系统的硬件6 1.2.1嵌入式处理器7 1.2.2嵌入式存储器15 1.2.3嵌入式I/O设备18 1.2.4嵌入式I/O接口18 1.3嵌入式系统的软件21 1.3.1无操作系统的嵌入式软件22 1.3.2带操作系统的嵌入式软件24 1.4嵌入式系统的分类27 1.4.1按硬件(嵌入式处理器)划分27 1.4.2按软件复杂度划分27 1.4.3按实时性划分28 1.4.4按使用对象划分28 1.5嵌入式系统的应用28 1.5.1国防军事28 1.5.2工业控制29 1.5.3消费电子30 1.5.4办公自动化产品30 1.5.5网络和通信设备30 1.5.6汽车电子31◆嵌入式系统原理及应用目录1.5.7金融商业31 1.5.8生物医学32 1.5.9信息家电32 1.6本章小结34 习题134 第2章嵌入式系统开发35 2.1嵌入式系统的开发环境、开发工具和调试方式35 2.1.1嵌入式系统的开发环境35 2.1.2嵌入式系统的开发工具37 2.1.3嵌入式系统的调试方式43 2.2嵌入式系统的开发语言50 2.2.1嵌入式硬件开发语言50 2.2.2嵌入式软件开发语言51 2.3嵌入式系统的开发过程53 2.3.1需求分析54 2.3.2系统设计55 2.3.3系统实现61 2.3.4系统测试70 2.3.5系统发布73 2.4嵌入式开发工程师之路74 2.4.1嵌入式行业和人才的现状分析74 2.4.2嵌入式开发工程师的能力要求74 2.4.3嵌入式开发工程师的进阶之路75 2.5本章小结77 习题278 第2篇内核篇 第3章ARM CortexM3处理器81 3.1ARM CortexM3组成结构81 3.1.1CortexM3内核82 3.1.2调试系统84 3.2ARM CortexM3总线接口86 3.2.1CortexM3总线接口类型87 3.2.2CortexM3总线连接方案88 3.3ARM CortexM3编程模型89 3.3.1工作状态89 3.3.2数据类型89 3.3.3寄存器89 3.3.4指令系统93 3.3.5操作模式和特权分级96 3.3.6异常和中断98 3.3.7双堆栈机制105 3.4ARM CortexM3存储器系统107 3.4.1存储器映射107 3.4.2位带操作110 3.4.3存储格式112 3.5ARM CortexM3的低功耗模式113 3.6本章小结114 习题3115 第4章基于ARM CortexM3的STM32微控制器117 4.1从CortexM3到基于CortexM3的MCU117 4.2基于CortexM3的STM32系列微控制器概述118 4.2.1产品线118 4.2.2命名规则124 4.2.3生态系统125 4.2.4开发方法131 4.2.5学习之路134 4.3STM32F103微控制器基础136 4.3.1概述136 4.3.2主系统结构137 4.3.3功能模块139 4.3.4引脚定义140 4.3.5存储器组织141 4.4STM32F103微控制器的最小系统145 4.4.1电源电路145 4.4.2时钟电路148 4.4.3复位电路149 4.4.4调试和下载电路150 4.4.5其他151 4.5STM32F103微控制器的时钟系统153 4.5.1输入时钟153 4.5.2系统时钟155 4.5.3由系统时钟分频得到的其他时钟155 4.5.4STM32F10x时钟系统相关库函数157 4.6STM32F103微控制器的低功耗模式162

This book is aimed at those with an interest in designing and programming embedded systems. These could include electrical engineers or computer programmers who want to get started with microcontroller applications using the ARM Cortex M4 architecture in a short time frame. This book's recipes can also be used to support students learning embedded programming for the first time. Basic knowledge of programming using a high-level language is essential but those familiar with other high-level languages such as Python or Java should not have too much difficulty picking up the basics of embedded C programming. Embedded microcontrollers are at the core of many everyday electronic devices. The so-called Internet of Things drives the market for such technology, so much so that embedded cores now represent 90% of all processors sold. The ARM® Cortex® M4 is one of the most powerful microcontrollers on the market. The book begins with an introduction to the ARM® Cortex® family and we cover the installation of the ARM® uVision Integrated Development Environment and topics such as target devices, evaluation boards, code configuration, and GPIO. You will then learn about core programming topics. You will find out about advanced aspects such as data conversion, multimedia support, real-time signal processing, and real-time embedded systems. By the end of the book, you will be able to successfully create robust and scalable ARM® Cortex® based applications.

ARM Cortex®-M0 DesignStart™ Design Kit (代码及文档)

文件包含文档和硬件设计电路图PCB以及uC-OSII源码

The Definitive Guide to the ARM® Cortex®-M0 and Cortex-M0+ Processors, Second Edition explains the architectures underneath ARM’s Cortex-M0 and Cortex-M0+ processors and their programming techniques. Written by ARM’s Senior Embedded Technology Manager, Joseph Yiu, the book is packed with examples on how to use the features in the Cortex-M0 and Cortex-M0+ processors. It provides detailed information on the instruction set architecture, how to use a number of popular development suites, an overview of the software development flow, and information on how to locate problems in the program code and software porting. This new edition includes the differences between the Cortex-M0 and Cortex-M0+ processors such as architectural features (e.g. unprivileged execution level, vector table relocation), new chapters on low power designs and the Memory Protection Unit (MPU), the benefits of the Cortex-M0+ processor, such as the new single cycle I/O interface, higher energy efficiency, better performance and the Micro Trace Buffer (MTB) feature, updated software development tools, updated Real Time Operating System examples using Keil™ RTX with CMSIS-RTOS APIs, examples of using various Cortex-M0 and Cortex-M0+ based microcontrollers, and much more. •Provides detailed information on ARM® Cortex®-M0 and Cortex-M0+ Processors, including their architectures, programming model, instruction set, and interrupt handling •Presents detailed information on the differences between the Cortex-M0 and Cortex-M0+ processors •Covers software development flow, including examples for various development tools in both C and assembly languages •Includes in-depth coverage of design approaches and considerations for developing ultra low power embedded systems, the benchmark for energy efficiency in microcontrollers, and examples of utilizing low power features in microcontrollers

基于 ARM Cortex-M0 的 LPC111x/LPC11Cxx 系列微控制器是低功耗，32 位微控制器家族中 的一员，面向 8、16 位微处理应用，具有高性能，低功耗，简单指令集，统一编址寻址等 优点，而 且，相对于现在市场上存在的 8/16 位架构来说，它有效的降低了代码长度。

本书重点向大家讲解如何利用LabVIEW快速、高效地开发出可以运行于ARM Cortex-M3处理器上的 应用程序。最近两年ARM系列的处理器在国内占据了越来越多的市场份额，究其根本原因还是因为其在 中高端的嵌入式领域有着非常高的性价比，目前应用最广的ARM Cortex-M3处理器又以意法半导体公司 的STM32F10x和流明诺瑞公司（已被TI公司收购）的LM3S8962最为著名。因此，本书的实验平台选用 的正是STM32芯片制作的学习板。

ARM Cortex-M0权威指南(英文版) 比官方的CM0 RM更详细，值得一读。