E. Alaron, M. Iannazzo, J. Madrenas, J. M. Moreno, S. Gombriz, F. Guinjoan, A. Poveda
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Implementation of an application-specific fuzzy controller by means of a mixed-signal sequential architecture
A mixed-signal VLSI circuit that efficiently maps the processing required for a fuzzy knowledge-based controller (FKBC) is presented. The proposed architecture is constituted by digitally programmable continuous-time blocks to perform inference and switched-current memory cells to store in current-mode the partial information resulting from its pipeline operation. This FKBC is intended to provide multidimensional nonlinear function approximation for switching power converter optimum control. Details of a new pulse-width-modulated defuzzyfication scheme are included. Transistor level post-layout simulation results for a 0.8 /spl mu/m CMOS technology are included which validate the different block operations, their compatibility and the feasibility of the sequential architecture.
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