Study advanced RF system architectures and design principles for wireless communications, from component integration to full system optimization.
Study advanced RF system architectures and design principles for wireless communications, from component integration to full system optimization.
This advanced course builds on RF design fundamentals to explore system-level challenges in RF communications. Students learn about critical design considerations including noise analysis, non-linearity effects, and system architecture selection. The curriculum covers receiver architectures like superheterodyne and direct-conversion systems, while emphasizing practical design skills using CAD tools for performance analysis.
Instructors:
English
English
What you'll learn
Master basic design principles of RF modules and transceivers
Understand and analyze common transceiver architectures
Use CAD tools to evaluate system performance
Analyze non-linear effects noise and interference impacts
Design modern adaptive RF communication systems
Skills you'll gain
This course includes:
Live video
Graded assignments, exams
Access on Mobile, Tablet, Desktop
Limited Access access
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There are 5 modules in this course
This advanced course delves into system-level aspects of RF design for modern communications. The curriculum covers essential topics including noise analysis, non-linearity effects, and system architecture considerations. Students learn to evaluate different receiver architectures and use CAD tools to analyze system performance. The course emphasizes practical design skills while exploring advanced concepts in adaptive RF communications.
Non-linearity in RF Systems
Module 1
Noise and Interference
Module 2
System-level Design
Module 3
Receiver Architectures
Module 4
Selected Topics on Adaptive RF Communications
Module 5
Fee Structure
Instructor
Pioneering Authority in RF Engineering and Academic Leadership
Dimitrios Peroulis serves as Senior Vice President for Partnerships and Online and Reilly Professor at Purdue University's School of Electrical and Computer Engineering, where he has established himself as a leading figure in RF engineering and academic excellence. After earning his Ph.D. in Electrical Engineering from the University of Michigan in 2003, he has made significant contributions to reconfigurable systems, cold-plasma RF electronics, and wireless sensors, particularly in developing high-quality widely-tunable filters and novel filter architectures in the 1-100 GHz range. His remarkable achievements include election as an IEEE Fellow, the 2019 Tatsuo Itoh Award, the 2014 Outstanding Young Engineer Award from IEEE MTT-S, and the 2008 National Science Foundation CAREER award. With over 380 journal and conference papers, 11 patents, and numerous teaching accolades including Purdue University's highest undergraduate teaching honor - the Charles B. Murphy award, Peroulis has demonstrated exceptional leadership in both research and education. His impact extends beyond personal achievements through mentoring over 40 graduate students who have won more than 23 research and design competition awards, while continuing to advance high-power multifunctional RF electronics based on cold-plasma technologies and leading innovative research initiatives at Purdue University.
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Frequently asked questions
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