Microelectronic Circuit Design is known for being a technically excellent text. The new edition has been revised to make the material more motivating and accessible to students while retaining a student-friendly approach. A pedagogical framework has been added that includes chapter opening vignettes, chapter objectives, "Electronics in Action" boxes, a problem solving methodology, and "design note" boxes. The number of examples, including new design examples, has been increased, giving students more opportunity to see problems worked out. Additionally, some of the less fundamental mathematical material has been moved to the website.
Part I Solid State Electronic and Devices 1 Introduction to Electronics
2 Solid-State Electronics 3 Solid-State Diodes and Diode Circuits 4
Field-Effect Transistors 5 Bipolar Junction Transistors Part II Digital
Electronics 6 Introduction to Digital Electronics 7 Complementary MOS (CMOS)
Logic Design 8 MOS Memory and Storage Circuits 9 Bipolar Logic Circuits Part
III Analog Circuit Design 10 Analog Systems 11 Operational Amplifiers 12
Operational Amplifier Applications 13 Small-Signal Modeling and Linear
Amplification 14 Single-Transistor Amplifiers 15 Multistage Amplifiers 16
Analog Integrated Circuits 17 Frequency Response 18 Feedback, Stability, and
Oscillators Appendix A Standard Discrete Component Values Appendix B
Solid-State Device Models and SPICE Simulation Parameters
Richard Jaeger earned his bachelor's, master's, and doctoral degrees in electrical engineering from the University of Florida. Professor Jaeger was one of the first three faculty members appointed Distinguished University Professor by Auburn University. His teaching awards include the Birdsong Merit Teaching Award and selection by ECE undergraduate students as Outstanding Electrical Engineering Faculty Member. In 1995 he was named Distinguished Graduate Faculty Lecturer. His current research interests include solid-state circuits and devices, electronic packaging, piezoresistive stress sensors, high heat flux cooling, low temperature electronics, VLSI design, and noise in electronic devices and circuits.
Travis Blalock is an Associate Professor in the Department of Electrical and Computer Engineering at University of Virginia.
