4.6 GHz SFQ shift register and SFQ pseudorandom bit sequence generator

Superconductive electronics can provide low power, GHz speed spread spectrum satellite communications. The key components to construct the spread spectrum modem are an analog filter and a digital pseudorandom bit sequence generator, Various SFQ logic circuits are required to construct a code generator. These circuits include a shift register, a reset switch, and an XOR or XNOR. To make a 4 bit 15 sequence code generator, a four stage shift register with a fan-out of two on each stage was designed. These circuits, fabricated with eight level Nb/AlO/sub x//Nb Josephson junction integrated circuit process, showed correct operation at low speed digital tests. The low speed digital test was done by using a "catcher", the combination of a read SQUID and a Josephson transmission line (JTL) which were magnetically coupled to each other. High speed testing of the shift register used a latch amplifier, which amplified an SFQ pulse to a latching output voltage of about 2 mV. This test showed correct operation of the shift register at speeds of up to 4.6 GHz.<>