Title :
High-speed soft-error-immune ECL circuits with fully isolated transistors
Author_Institution :
Fujitsu Ltd., Tokyo, Japan
fDate :
3/1/1992 12:00:00 AM
Abstract :
The author describes the quality of bonded silicon-on-insulator (SOI) wafers and ECL circuit performance with completely isolated transistors. The bonded SOI wafers have no local unbounded areas, tight bonding strength exceeding 800 kg/cm2, and a small deviation in the silicon layer on the buried oxide layer. A junction leakage current of less than 1 pA and an ideality factor of 1.03 show the crystalline quality of the bonded SOI wafer to be good. SOI transistor performance is the same as that of bulk-silicon transistors without substrate capacitance. The ECL circuit speed of a SOI wafer with a 1-μm-thick buried oxide layer is at least 10% faster than that of a conventional wafer. SOI ECL circuit operation is speeded up at less than an optimized switching current. The SOI structure immunizes the ECL RAM with a p-n-p load cell against alpha particle induced soft errors. The soft error rate for the SOI ECL RAM with a Schottky clamped cell is 300 times lower than that for the bulk-silicon RAM
Keywords :
alpha-particle effects; bipolar integrated circuits; emitter-coupled logic; errors; integrated logic circuits; integrated memory circuits; leakage currents; random-access storage; 1 pA; ECL RAM; ECL circuit performance; Schottky clamped cell; Si; alpha particle induced soft errors; bonded SOI wafers; bonding strength; buried oxide layer; crystalline quality; fully isolated transistors; high-speed circuits; ideality factor; junction leakage current; p-n-p load cell; soft error rate; soft-error-immune; Circuit optimization; Crystallization; Delay; Fabrication; Parasitic capacitance; Silicon; Surface cleaning; Switching circuits; Thermal stresses; Wafer bonding;
Journal_Title :
Electron Devices, IEEE Transactions on
