Richard Jaeger and Travis Blalock present a balanced coverage of analog and digital circuits; students will develop a comprehensive understanding of the basic techniques of modern electronic circuit design, analog and digital, discrete and integrated.
A broad spectrum of topics are included in Microelectronic Circuit Design which gives the professor the option to easily select and customize the material to satisfy a two-semester or three-quarter sequence in electronics. Jaeger/Blalock emphasizes design through the use of design examples and design notes. Excellent pedagogical elements include chapter opening vignettes, chapter objectives, “Electronics in Action” boxes, a problem-solving methodology, and "Design Note” boxes.
The use of the well-defined problem-solving methodology presented in this text can significantly enhance an engineer’s ability to understand the issues related to design. The design examples assist in building and understanding the design process.
|Product dimensions:||6.00(w) x 1.25(h) x 9.00(d)|
About the Author
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.
Table of Contents
Part I - Solid State Electronics and DevicesChapter 1 Introduction to Electronics Chapter 2 Solid-State Electronics Chapter 3 Solid-State Diodes and Diode Circuits Chapter 4 Field-Effect Transistors Chapter 5 Bipolar Junction Transistors
Part II - Digital Electronics Chapter 6 Introduction to Digital Electronics Chapter 7 Complementary MOS (CMOS) Logic Design Chapter 8 MOS Memory and Storage Circuits Chapter 9 Bipolar Logic Circuits
Part III - Analog Electronics Chapter 10 Analog Systems and Ideal Operational Amplifiers Chapter 11 Nonideal Operational Amplifiers and Feedback Amplifier Stability Chapter 12 Operational Amplifier Applications Chapter 13 Small-Signal Modeling and Linear Amplification Chapter 14 Single Transistor Amplifiers Chapter 15 Differential Amplifiers and Operational Amplifier Design Chapter 16 Analog Integrated Circuit Design Techniques Chapter 17 Amplifier Frequency Response Chapter 18 Transistor Feedback Amplifiers and Oscillators
Appendices A: Standard Component Values B: Device Models and SPICE C: Two-Port Review