Microprocessor Interface

<p><em>Microprocessor Interface</em> uses a step-by-step explanation and clear illustrations to explain how to implement a microprocessor interface and develop a robotic project. Based on real classroom experiences and projects the text shares knowledge and experience rooted in real-world student implementation. <br /><br />Part I of the text addresses foundational ideas in microprocessor interface such as working with character-based LCDs and how to linearize a GP2Y0A02 IR sensor with an 8-bitATD conversion. In Part II the focus is on robotics. Students learn how to control a servo motor and choose a chassis. Both Parts I and II feature a variety of projects that allow students to immediately apply what they have learned. Part III is composed of eleven microprocessor labs on topics such as conditional flags and rotate instruction bit testing and manipulation and siren generation. <br /><br />Developed and organized to fully support students as they complete projects<em>Microprocessor Interface</em> can be used in laboratory classes that accompany microprocessor systems I and II courses or any class devoted to autonomous robots or microprocessor interface studies.</p><p><strong>Dr. Chung S. Leung</strong> holds a Ph.D. in electrical engineering from Florida Atlantic University. Dr. Leung is an associate professor at Texas A&M University Kingsville where his courses include digital logic design digital systems engineering and communications engineering. In addition to teaching Dr. Leung also serves as the faculty mentor for the South Texas Science Olympiad. He has received research funding from numerous sources including Texas Instruments and the National Science Foundation. A registered professional engineer in the state of Texas Dr. Leung is a member of the Institute of Electrical and Electronic Engineers.</p>