Title :
A practical high-latchup immunity design methodology for internal circuits in the standard cell-based CMOS/BiCMOS LSIs
Author_Institution :
NTT LSI Lab., Kanagawa, Japan
fDate :
8/1/1993 12:00:00 AM
Abstract :
A practical high-latchup-immunity design methodology is proposed for high-density internal circuits in standard cell-based CMOS/BiCMOS LSIs. Both locally injected trigger current and uniformly generated trigger current were measured using a new test structure. Focusing on the difference in the well shunt resistance between local and uniform trigger currents, a practical latchup-free guideline based on an analytical model for uniformly generated trigger current in the well is presented for the periodic placement of well contacts dependent on parasitic device parameters, on generated trigger current level, and a layout pattern size
Keywords :
BiCMOS integrated circuits; cellular arrays; integrated logic circuits; large scale integration; analytical model; high-latchup immunity design methodology; internal circuits; locally injected trigger current; parasitic device parameters; periodic placement; standard cell-based CMOS/BiCMOS LSIs; test structure; uniformly generated trigger current; well contacts; well shunt resistance; BiCMOS integrated circuits; Breakdown voltage; Circuit testing; Current measurement; Design methodology; Displacement measurement; Guidelines; Large scale integration; Semiconductor device modeling; Size measurement;
Journal_Title :
Electron Devices, IEEE Transactions on
