1. A Multiphase Switched-Capacitor Converter for Fully Integrated AMLED Microdisplay System.
- Author
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Jiang, Junmin, Liu, Xun, Ki, Wing-Hung, Mok, Philip K. T., and Lu, Yan
- Subjects
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CAPACITOR switching , *SYSTEMS on a chip , *PHASOR measurement , *POWER density , *LIGHT emitting diodes - Abstract
A fully integrated switched-capacitor (SC) dc–dc converter is designed for powering up an active-matrix light-emitting diode (AMLED) microdisplay system. The stacking-transistor technique with three voltage conversion ratios is utilized to handle the lithium-ion battery range of 2.6–4.2 V and to reduce the switching loss. A 101-phase interleaving scheme is adopted such that, first, output voltage ripple $\Delta V_{{\rm{O}}}$ is significantly reduced; second, no external output capacitor is needed; and, third, SC power-cells are physically cascaded to encircle the LED array and drivers to reduce conduction loss. Two test chips were designed in the 0.18-μm 1P6M CMOS technology. The first chip is a test chip comprising the SC converter only. The output voltage is 4.2 V, and the measured maximum $\Delta V_{{\rm{O}}}$ is 52 mV. The measured power density is 74.4 mW/mm2, peak efficiency is 81%, and maximum output power is 258 mW. The second chip is a system chip integrating the SC converter with the AMLED array and drivers using flip-chip packaging. The converter delivers a maximum power of 216 mW with a 78% peak efficiency in the SC mode and a 91% peak efficiency in the linear regulator mode. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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