High Speed Static Frequency Divider Design with 111.6 GHz Self-Oscillation Frequency (SOF) in 0.13 μm SiGe BiCMOS Technology

A speed optimization scheme for static frequency dividers based on master-slave flip-flops is presented. As a proof of the concept, the design of a divide by two static frequency divider in 0.13 mu m SiGe BiCMOS technology (with f(t) > 300 GHz and f(max) > 450 GHz) is reported. The circuit exhibits the highest self-oscillation frequency (SOF) of 111.6 GHz among the existing SiGe technology based static frequency dividers. With single-ended sine wave clock input, divider is operational from 6 to 128.7 GHz (limited by measurement equipment). At dual power supply with V-cc = 3 V and V-ee = -1.9 V, the circuit consumes 40 mA per latch.