Digital To Time Conversion (DTC) Based Direct Digital Frequency Synthesis: Spur analysis and mitigation
Monday, February 25, 2013 - 4:00pm - 4:50pm KEC 1001 Sumit A. Talwalkar Phd Candidate School of EECS Oregon State University Abstract: Frequency synthesizers are critical components of all communication systems. Wideband (multi-octave), low settling time synthesizers are key enablers of a software defined radio (SDR). Digital-to-time conversion (DTC) is a relatively new type of direct digital synthesis (DDS). DTC has some promising unique advantages such as wide frequency range, fast switching between frequencies, lower power than traditional DDS and scalable integrability on CMOS. One of the important challenges with the DTC architecture is the presence of spurs. This presentation considers the study of spurs and a method of spur mitigation. There are two important spur mechanisms: phase quantization and delay mismatches. Similar to traditional DDS, the DTC spur patterns are highly dependent on the choice of output frequency. We have developed a classification of output frequencies that allows a way to efficiently study spur patterns for all output frequencies using a close approximation. Controlled dither! ing is a method of generating effective fractional delay. It has been shown to be an effective method of spur mitigation in a 90 nm CMOS implementation. Measurements also illustrate the trade-off between spurs and the noise floor. Finally a comparative analysis of the state of the art of integrated fast wide-band synthesizers will be presented that shows DTC to be a compelling candidate.Speaker Biography: Sumit A. Talwalkar is a PhD candidate at EECS. He is a Principal IC Systems Engineer with Motorola Solutions, Inc., in Plantation, FL. He got B.Tech in EE from the Indian Institute of Technology, Mumbai, India in 1992 and MS in EE from the University of Rhode Island in Kingston, RI in 1995. He is currently working towards his Ph.D. in ECE at Oregon State University in Corvallis, OR on the topic of modeling and analysis of digital to time conversion (DTC) direct digital synthesizers. His interests include signal processing, communications and IC systems modeling and analysis.
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