This paper presents the development of high-speed logic ICs having the same function as the ECL100K family for high-speed digital system applications such as for time division switching systems. A Super-Self-Aligned process Technology (SST) and a low-voltage swing differential circuit technique are used. The ICs operate up to about 2 Gb/s under a chip power dissipation of 170 mW570 mW.

A 0.25-µm BiCMOS technology has been developed using three sophisticated technologies; the HSST/BiCMOS device, synchrotron orbital radiation (SOR) X-ray lithography, and an advanced two-level metallization. The HSST/BiCMOS provides a 25.4-ps double-poly bipolar device using High-performance Super Self-Aligned Process Technology (HSST), and a 42 ps/2 V CMOS inverter. SOR lithography allows a 0.18 µm gate and 0.2 µm via-hole patternings by using single-level resists. The metallization process features a new planarization technique of the 0.3-µm first wire, and a selective CVD aluminum plug for a 0.25 µm via-hole with contact resistance lower than 1Ω. These 0.25-µm technologies are used to successfully fabricate a 4 KG 0.25 µm CMOS gate-array LSI on a BiCMOS test chip of 12 mm square, which operates at 58 ps/G at 2 V. This result demonstrates that SOR lithography will pave the way for the fabrication of sub-0.25-µm BiCMOS ULSIs.