Fully-Integrated, High-Efficiency, Multi-Output Charge Pump for High-Density Microstimulators

摘要

This paper proposes a high-efficiency charge pump circuit with small integrated capacitors, dedicated to high-density microstimulators. The proposed circuit offers improvement of about 35% in the charge pump efficiency over the conventional cross-coupled charge pumps. This is achieved through proper employment of two techniques: (a) omitting the undesired conductive paths that discharge the output capacitor, and (b) discounting the dynamic switching power losses by half. Moreover, a straightforward physical layout is proposed to prevent the latchup phenomenon. Occupying 0.5 mm^{2 of silicon area, circuits for a 4-stage (1 positive stage and 3 negative stages) charge pump were designed and simulated in transistor level in a standard 0.18-μm CMOS technology. Designed for an implantable visual prosthesis, the charge pump generates output voltages of 3.48V, -1.69V, -3.38V, and -5.05V out of a 1.8V input voltage and exhibits average power efficiency of 92.8% and 86.8% for 1- and 3-stage circuits respectively, all in the case of a 100 μA current load. An output per stage with current sinking/sourcing ability allows different stimulation channels to be independently connected to different supply levels according their operational needs.}