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MOSIS Technical Notes ESD Implant for TSMC Processes In CMOS circuits the NMOS transistor is both an ESD (electrostatic discharge) weak link and a device widely used in ESD protection circuits (grounded- and gate-coupled NMOS transistors, low-voltage triggered SCR devices, etc.). By lowering the threshold current for thermal runaway after the device enters the snapback region of operation, the shallow junctions and lightly doped drains characteristic of deep sub-micron processes contribute to the susceptibility of the NMOS device to damage from ESD (Figure 1). To produce more ESD-robust NMOS devices — specifically for use in protection circuits — the ESD implant for TSMC CMOS processes, by replacing the shallow, lightly doped junction of the standard device with a deep, abrupt junction, lowers the local power density under breakdown conditions by reducing both the current density and the lateral NPN snapback voltage (Figure 2). Normally the ESD implant will be used in conjunction with a thicker gate oxide and a silicide block at the drain edge (to promote uniform heating during an ESD event). References: [1] C. H. Diaz, T. E. Kopley, and P. A. Marcoux, "Building-In ESD/EOS Reliability for Sub-Halfmicron CMOS Processes", IEEE Trans. Electron Devices, vol. 43, no. 6, pp. 991--999, June 1996. [2] A. Amerasekera, V. McNeil, M. Rodder, "Correlating Drain Junction Scaling, Salicide Thickness, and Lateral NPN Behavior with the ESD/EOS Performance of a 0.25 um CMOS Process", IEEE Electron Device Meeting Technical Digest, pp. 893--896, 1996. [3] A. Amerasekera, C. Duvvury, V. Reddy, M. Rodder, "Substrate Triggering and Salicide Effects on ESD Performance and Protection Circuit Design in Deep Submicron CMOS Processes", IEEE Electron Device Society Meeting Technical Digest, pp. 547--550, 1995. [4] A. Amerasekera, R. A. Chapman, "Technology Design for High Current and ESD Robustness in a Deep Submicron CMOS Process", IEEE Electron Device Letters, vol. 15, no. 10, pp. 383--385, October 1994. [5] C. Duvvury, "ESD: Design for IC Chip Quality and Reliability", IEEE First International Symposium on Quality Electronic Design, pp. 251--259, 2000. Related Links Fabrication Schedule Customer Support MOSIS Products

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