High-Speed CMOS Frequency Dividers with Symmetric In-Phase and Quadrature Waveforms

Frequency dividers are used in frequency synthesizers to generate specific frequencies or clock (CK) waveforms. As consequences of their operating principles, frequency dividers often produce output waveforms that exhibit duty cycles other than 50%. However, some circuits and systems, including dynamic memory systems and data converters, which accommodate frequency divider outputs, may need symmetric or 50%-duty-cycle clock waveforms to optimize timing margins or to obtain sufficient timing reliability. In this review paper, design principles and methods are studied to produce symmetric waveforms for the in-phase (I) and quadrature (Q) outputs of high-speed CMOS frequency dividers with design considerations from the logic gate level down to the transistor level in terms of speed, reliability, noise, and latency. A compact and robust multi-gigahertz frequency divider with moduli 12, 14, and 16 to provide I and Q outputs with 50% duty cycle is proposed and designed using a 90-nm digital CMOS process technology with 1.2-V supply.