电子技术基础实验与实训教程(模拟电子技术.数字电子技术)/王英

1星价 ¥22.1 (6.3折)

2星价￥22.1 定价￥35.0

作者：王英,主编

出版社：西南交通大学出版社

本类榜单：教材

分类：教材 > 研究生/本科/专科教材 > 工学

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ISBN：9787564367466
装帧：一般胶版纸
册数：暂无
重量：暂无
开本：其他
页数：190
出版时间：2018-11-01
条形码：9787564367466 ; 978-7-5643-6746-6

本书特色

内容简介本教材为《电子技术基础简明教程》配套的实践教材，其实践项目难易程度适中，内容覆盖了不同层次、不同专业的教学要求，可灵活组合教学项目。项目分两部分设立，即“模拟电子技术基础项目（11个项目）”和“数字电子技术基础项目（16个项目）”；项目体系分三种模块，即技术基础型项目模块、综合应用型项目模块和实践提高型项目模块；可采用三种实施方式，即装置、仿真或焊接等，全方位地培养学生工程实践能力。本教材可作为高等工科院校大学本科、职业专科等各专业“电子技术基础”课程的实验与实训教材；可作为各电气、电子专业的电子技术参考教材；也可作为职业大学、成人教育大学和网络教育等各专业的实验与实训教材；还可作为电子工程技术员的参考资料。

内容简介

本书包含“模拟电子技术”和“数字电子技术”两部分内容，重点介绍电子技术实验实训的基础知识、测量方法及操作的安全规则；围绕电子元器件基本特性，重点掌握特性和参数的测试以及基本应用模块电路的调试与测量；以工程实践方式为导向，重点介绍“RC正弦波振荡电路”“方波—三角波—函数发生电路”等；介绍“数字电子技术基础项目”，主要围绕逻辑电路的分析、设计及应用展开，重点掌握组合电路和时序电路的基本应用和逻辑分析，并掌握逻辑电路的基本调试方法；以工程实践方式为导向，重点介绍“双向移位寄存器”“分频器”“555集成定时器及其应用”等；重点介绍“焊接的基本知识”和“手工锡焊技术”；介绍电子器件型号命名方法、使用规则、常见故障排除方法、集成器件和EE2010电子综合实践装置的使用等，为实践提供辅助资料和装置平台。本书可作为高等工科院校大学本科、职业专科等各专业“电子技术基础”课程的实验与实训教材，也可作为各电气、电子专业的电子技术参考教材。

目录第1章电子技术实验实训的基础知识·················································································· 1 1.1 电子技术实验实训的目的和要求····················································································· 1 1.2 操作规则····················································································································· 2 1.3 电子技术实践中的测量方法··························································································· 3 1.4 安全用电····················································································································· 7 第2章模拟电子技术基础项目···························································································· 8 2.1 基本的单相桥式整流、滤波、稳压电路··········································································· 8 2.2 晶体管特性曲线的测量································································································ 14 2.3 单管电压放大电路······································································································ 18 2.4 两级阻容耦合放大电路································································································ 25 2.5 MOS场效应管特性的基本应用测试·············································································· 30 2.6 反馈放大电路············································································································· 37 2.7 运算放大器的线性应用（1）························································································ 46 2.8 运算放大器的线性应用（2）························································································ 52 2.9 运算放大器的线性应用（3）························································································ 56 2.10 RC正弦波振荡电路··································································································· 59 2.11 方波-三角波-函数发生电路························································································· 64 第3章数字电子技术基础项目·························································································· 69 .....
5.1 常用半导体分立器件的命名························································································ 163 5.2 集成器件型号的命名································································································· 168 5.3 集成电路使用规则····································································································· 172 5.4 集成器件的外引线排列次序························································································ 174 5.5 常见故障的排除方法································································································· 182 5.6 EE2010电子综合实践装置使用说明············································································ 184 参考文献························································································································· 190

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