摘要
A 1∶4 static frequency divider has been designed and realized in a 0.35-micron standard CMOS technology. The chip consists of two identical 1∶2 divider cells, which are based on SCL (Source Coupled Logic) flip-flops. By revising the traditional topology of SCL flip-flop, we get a divider with better performances. Measurement results show that the whole chip achieves the frequency division at more than 6GHz. Each 1∶2 divider consumes 11mW from a 3.3V supply. The divider can be used in RF and Optic-fiber Transceivers and other high-speed systems.
A 1∶4 static frequency divider has been designed and realized in a 0.35-micron standard CMOS technology. The chip consists of two identical 1∶2 divider cells, which are based on SCL (Source Coupled Logic) flip-flops. By revising the traditional topology of SCL flip-flop, we get a divider with better performances. Measurement results show that the whole chip achieves the frequency division at more than 6GHz. Each 1∶2 divider consumes 11mW from a 3.3V supply. The divider can be used in RF and Optic-fiber Transceivers and other high-speed systems.
基金
SupportedbytheHighTechnologyResearchandDevolopmentProgrammeofChina
