射频大作业基于 PSpice 仿真的振幅调制电路设计数字调制与解调的集成器件学习目 录 题目一:基于 PSpice 仿真的振幅调制电路设计与性能分析 一、实验设计要求 ···············································3二、理论分析1、问题的分析··················································32、差动放大器调幅的设计理论 ····································4 2.1、单端输出差动放大器电路 2.2、双端输出差动放大器电路 2.3、单二极管振幅调制电路 2.4、平衡对消二极管调幅电路三、PSpice 仿真的振幅调制电路性能分析··························10 1、单端输出差动放大器调幅电路设计图及仿真波形 2、双端输出差动放大器调幅电路设计图及仿真波形 3、单二极管振幅调制电路设计图及仿真波形 4、平衡对消二极管调幅电路设计图及仿真波形四、实验总结 ···················································16五、参考文献题目二 数字调制与解调的集成器件学习一、实验设计要求 ···············································17二、概述 ·······················································17三、引脚功能及组成原理 ·········································18四、基本连接电路 ···············································20五、参考文献 ···················································21六、英文附录 ···················································21题目一 基于 PSpice 仿真的振幅调制电路设计 摘要随着大规模集成电路的广泛进展,电子电路 CAD 及电子设计自动化(EDA)已成为电路分析和设计中不可缺少的工具。此次振幅调制电路仿真设计基于PSpice,利用其丰富的仿真元器件库和强大的行为建模工具,分别设计了差分对放大器和二极管振幅调...
