HIGH-SPEED LOW-POWER CHARGE-BUFFERED ACTIVE-PULL-DOWN ECL CIRCUIT

This paper presents a high-speed, low-power, charge-buffered active-pull-down ECL (CB-APD-ECL) circuit. The circuit features a charge-buffered coupling between the common-emitter node of the switching transistors and the base of an active-pull-down n-p-n transistor. This coupling scheme provides a much larger dynamic current than what can be reasonably achieved through the capacitor coupling and a dc path to alleviate the ac-testing requirement. Furthermore, the dynamic current is utilized effectively by the logic stage, thus allowing a reduction in the power consumption of the logic stage without sacrificing the switching speed. Based on a 0.8-mu-m double-poly self-aligned bipolar technology at a power consumption of 1.0 mW/gate, the circuit offers 37% improvement in both the speed and load driving capability for a loaded gate compared with the conventional ECL circuit. The design and scaling considerations of the circuit are discussed.