It methodically covers both BJT and MOSFETs, frequency response, differential amplifiers, and feedback. End-of-chapter problems are excellent for learning.
If you ask 100 electrical engineers for the "best" analog electronics book, you’ll get 95 different answers. Why? Because analog design is part science, part art. The "best" book depends entirely on your level (beginner, student, practicing engineer) and your goal (pass an exam, build a guitar pedal, design a precision op-amp circuit, or master IC design).
Get the companion "Learning the Art of Electronics" (lab manual for AoE). That’s where the real analog magic happens—building circuits, not just reading about them. best book for analog electronics
It is not a rigorous academic textbook. If you need to derive transfer functions or analyze feedback loops from first principles, you’ll need a companion book. The Academic Heavyweight (The "Bible" of Analog IC Design) "Design of Analog CMOS Integrated Circuits" by Behzad Razavi Best for: Graduate students and IC design engineers. (Not for hobbyists building discrete circuits.)
Razavi explains complex topics like feedback, noise, and oscillators with incredible clarity and visual intuition. His approach to small-signal analysis is the industry standard. It methodically covers both BJT and MOSFETs, frequency
Requires a solid background in MOSFETs and basic electronics. Almost no coverage of discrete BJT or tube circuits. The Classic College Textbook (Best for Homework & Exams) "Microelectronic Circuits" by Sedra & Smith (now in 8th Edition) Best for: Undergraduate engineering students.
That said, for serious, long-term learning. The Gold Standard for Practicing Engineers & Serious Students "The Art of Electronics" by Paul Horowitz and Winfield Hill (3rd Edition) Best for: Anyone who wants to understand analog circuits intuitively, not just solve equations. Get the companion "Learning the Art of Electronics"
Unlike textbook-heavy tomes, AoE starts with the circuit , not the math. It gives you rules of thumb, practical pitfalls (thermal drift, noise, grounding), and real component values. The famous "Bad Circuits" sections show you what not to do.