Design and Characterization of ESD Protection Devices for High-Speed I/O in Advanced SOI Technology

Abstract

This paper focuses on the characterization, modeling, and design of electrostatic discharge (ESD) protection devices such as the gated diode, the bulk substrate diode, and the double-well field-effect diode (DWFED) in 45 nm silicon-on-insulator technology. ESD protection capabilities are investigated using very fast transmission line pulsing tests to predict a device's performance in charged device model (CDM) ESD events. Device capacitance, which is critical for high-speed input/output performance, is evaluated, and biasing schemes and processing techniques are proposed to reduce the parasitic capacitance during normal operating conditions. Technology computer-aided design simulations are used to interpret the physical effects. The implementation of devices for meeting CDM protection requirements is discussed. Evaluation results identify DWFED as a promising candidate for the pad-based local-clamping scheme.