Title :
Selection and placement of decoupling capacitors in high speed systems
Author :
Tripathi, J.N. ; Mukherjee, Jayanta ; Apte, Prakash R. ; Chhabra, N.K. ; Nagpal, R.K. ; Malik, Rohit
Author_Institution :
Dept. of EE, Indian Inst. of Technol. Bombay, Mumbai, India
Abstract :
The Power Integrity problem for high speed systems is discussed in context of selection and placement of decoupling capacitors. Power Integrity is maintained by damping the cavity mode peaks at resonant frequencies using decoupling capacitors. This article focuses on damping cavity mode effects in power delivery networks by the particle swarm optimization technique. The s-parameter data of power plane geometry and capacitors are used for the accurate analysis including bulk capacitors and VRM, for a real world problem. The optimal capacitors and their locations on the board are found using the presented methodology, which can be used for similar power delivery networks in high speed systems.
Keywords :
S-parameters; capacitors; high-speed integrated circuits; particle swarm optimisation; bulk capacitors; cavity mode; damping; decoupling capacitors; high speed systems; optimal capacitors; particle swarm optimization; power delivery networks; power integrity problem; power plane geometry; resonant frequency; s-parameter; Capacitors; Decoupling; High-speed networks; Particle swarm optimization; Power distribution; Power system reliability; Decoupling Capacitors; High Speed Systems; Particle Swarm Optimization; Power Delivery Networks; Power Integrity;
Journal_Title :
Electromagnetic Compatibility Magazine, IEEE
DOI :
10.1109/MEMC.2013.6714703
