Title :
Analysis of substrate noise propagation in a lightly doped substrate [mixed-signal ICs]
Author :
Van der Plas, G. ; Soens, C. ; Vandersteen, G. ; Wambacq, P. ; Donnay, S.
Author_Institution :
Wireless Res., IMEC, Leuven, Belgium
Abstract :
Analysis and simulation results of substrate noise in mixed-signal ICs on lightly doped substrates are difficult to bring in agreement with measurements, even for very simple structures. In this paper, substrate noise propagation in lightly doped p-type substrates is studied with a simple test structure. Our study reveals that the current flow is multi-dimensional, and that adjacent layout details (such as nwells and metal wires) influence the propagation between two contacts. The analysis has enabled its to match the measured S21 propagation with a simulation model from DC (error<8%) up to 10 GHz with an overall error smaller than 3 dB. Insight in simple structures such as the one considered here, is valuable in improving the understanding of substrate noise in lightly doped substrates.
Keywords :
electric noise measurement; integrated circuit measurement; integrated circuit modelling; integrated circuit noise; mixed analogue-digital integrated circuits; substrates; 0 Hz to 10 GHz; S21 propagation; adjacent layout detail propagation influence; lightly doped p-type substrate; metal wires; mixed-signal IC; multidimensional current flow; nwells; substrate noise propagation; CMOS process; Capacitors; Contact resistance; Electrical resistance measurement; Measurement standards; Optical propagation; Programmable logic arrays; Testing; Voltage; Wires;
Conference_Titel :
Solid-State Device Research conference, 2004. ESSDERC 2004. Proceeding of the 34th European
Print_ISBN :
0-7803-8478-4
DOI :
10.1109/ESSDER.2004.1356564
