Suzuki Stack Circuit With Differential Output

Suzuki stack circuits, a type of latching high-voltage driver circuit, are widely used in Josephson–CMOS hybrid memories. The existing Suzuki stack designs utilize only single-ended signaling when connected to a CMOS amplifier. In this article, a Suzuki stack circuit with a differential output is proposed by producing both the positive and negative output voltages. The negative output voltage is produced by using a negative biasing network and a negative single-flux quantum (SFQ) input pulse, which is generated by the proposed positive-to-negative SFQ converter. As compared to a conventional single-ended Suzuki stack circuit, the proposed differential design can provide two times higher output voltage swing and better immunity to noise without degrading the operating margins. Potential advantages and drawbacks of the proposed circuit are explored in this article.