1. Low power two-stage comb decimation structures for high decimation factors
- Author
-
Gerardo Molina Salgado, Gordana Jovanovic Dolecek, and Jose M. de la Rosa
- Subjects
Engineering ,VHDL-implementation ,02 engineering and technology ,Delta-sigma modulation ,Reduction (complexity) ,CIC ,VHDL ,Low-power ,0202 electrical engineering, electronic engineering, information engineering ,Electronic engineering ,Low-area ,MATLAB ,Sigma-delta ,computer.programming_language ,Decimation ,business.industry ,Attenuation ,020208 electrical & electronic engineering ,020206 networking & telecommunications ,Surfaces, Coatings and Films ,Power (physics) ,Hardware and Architecture ,Signal Processing ,Stage (hydrology) ,business ,computer ,Algorithm - Abstract
This paper presents power and area analysis of two-stage comb-based decimation structures for high decimation factors. The first stage is either in a recursive form cascaded-integrator-comb (CIC) or in a non-recursive form, while the second stage is in a recursive form. The proposed structures are compared with a single CIC structure. We demonstrated how to choose the decimation factor of the first stage in order to get simultaneously the highest possible power reduction and the lowest possible area increase, in a comparison with a single CIC structure. Additionally, the modified two-stage structure with an increased attenuation and a reduced power consumption is presented. Analysis is supported by MATLAB simulations and validated by the VHDL implementations.
- Published
- 2016