Title :
Speed optimization of edge-triggered CMOS circuits for gigahertz single-phase clocks
Author :
Huang, Qiuting ; Rogenmoser, Robert
Author_Institution :
Integrated Syst. Lab., Swiss Federal Inst. of Technol., Zurich, Switzerland
fDate :
3/1/1996 12:00:00 AM
Abstract :
In digital circuits, a transistor connected to a particular circuit node does not always load that node by a gate capacitance proportional to CoxWL if the transistors connected to its source are turned off. Such an observation, illustrated in this paper by a detailed analysis of the Yuan-Svensson D-flip-flop (D-FF) can be used to advantage both in sizing the transistors and in developing better configurations. A glitch-free, general purpose, and faster D-FF is presented here which has complementary outputs and runs at frequencies from tens of hertz to a couple of gigahertz for a 1-μm CMOS technology. Measured maximum clock frequency of a divide-by-16 circuit is 2.65 GHz at 5 V supply, whereas that of a dual-modulus frequency prescaler, dividing by 64/65, goes up to 1.6 GHz at 5 V
Keywords :
CMOS digital integrated circuits; circuit optimisation; clocks; dividing circuits; flip-flops; prescalers; trigger circuits; 1 micron; 1.6 GHz; 2.65 GHz; 5 V; Yuan-Svensson D-flip-flop; digital circuits; divide-by-16 circuit; dual-modulus frequency prescaler; edge-triggered CMOS circuits; gate capacitance; gigahertz single-phase clocks; speed optimization; transistor; Algorithm design and analysis; CMOS digital integrated circuits; CMOS process; CMOS technology; Capacitance; Clocks; Digital circuits; Driver circuits; Frequency conversion; MOSFETs;
Journal_Title :
Solid-State Circuits, IEEE Journal of
