Title :
Design of ESD power protection with diode structures for mixed-power supply systems
Author :
Lee, Jaesik ; Huh, Yoonjong ; Bendix, Peter ; Kang, Sung-MO
Author_Institution :
Illinois Univ., Urbana, IL, USA
Abstract :
The coupling noise immune electrostatic discharge (ESD) protection network is becoming a critical design requirement for preserving the performance of high-speed analog circuits. In this paper, we present a noise-aware design of ESD power protection with diode structures in highly integrated high-speed CMOS ICs. We thoroughly characterize the noise coupled from the ESD power protection network and experimentally verify its generation and impact on the performance of analog circuitry being protected. A noise-aware design technique is proposed to achieve superior noise isolation while improving ESD reliability. The estimation of peak overvoltage on power/ground busses in digital circuits adaptively finds the optimum feature of protection circuits subject to noise constraints. The design is validated with measurements from a test chip fabricated in a 0.18-μm CMOS technology.
Keywords :
CMOS integrated circuits; electrostatic discharge; high-speed integrated circuits; integrated circuit noise; overvoltage protection; phase locked loops; 0.18 micron; CMOS technology; ESD power protection; ESD protection network; ESD reliability; coupling noise immune electrostatic discharge protection; digital circuits; diode structures; ground bus; high-speed analog circuits; integrated high-speed CMOS IC; mixed-power supply systems; noise constraints; noise isolation; noise-aware design; peak overvoltage; power bus; test chip; Analog circuits; CMOS technology; Character generation; Coupling circuits; Diodes; Electrostatic discharge; Integrated circuit reliability; Noise generators; Power generation; Power system protection;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2003.820883
