介紹差動放大器之設計與分析、迴授觀念，理想運算放大器之特性與電路行為模型，及四種不同架構之迴授電路分析與設計方法，以銜接未來類比電路設計課程中更深入的運算放大器之系統應用。

Introduces the design and analysis of differential amplifiers, the concept of feedback, the characteristics and circuit behavior model of ideal operational amplifiers, and the feedback circuit analysis and design methods of four different architectures to connect more in-depth system applications of operational amplifiers in future analog circuit design courses.

介紹差動放大器之設計與分析、迴授觀念，理想運算放大器之特性與電路行為模型，及四種不同架構之迴授電路分析與設計方法，以銜接未來類比電路設計課程中更深入的運算放大器之系統應用。在數位電路方面，則是介紹了Inverter、NAND、NOR等基本邏輯電路的設計與使用，作為將來進一步修習數位積體電路或邏輯設計的基礎。

Introduces the design and analysis of differential amplifiers, the concept of feedback, the characteristics and circuit behavior model of ideal operational amplifiers, and the feedback circuit analysis and design methods of four different architectures to connect more in-depth system applications of operational amplifiers in future analog circuit design courses. In terms of digital circuits, the design and use of basic logic circuits such as Inverter, NAND, and NOR are introduced as a basis for further study of digital integrated circuits or logic design in the future.

Microelectronic Circuits by Sedra and Smith, 6th Ed., Oxford University Press, 2011

Microelectronic Circuits by Sedra and Smith, 6th Ed., Oxford University Press, 2011