The main objective of this research is to analyze and design highly efficient, scalable and cost effective integrated circuits for highly integrated wireless systems, energy harvesters and bio-sensors. Specifically, it focuses on analyzing and designing Switched Capacitor DC-DC converters as the main goal. These converters can be implemented fully integrated on silicon, which opens up the possibilities for designing Nano-sensor-nodes that can be used in applications ranging from smart-cities to health monitoring. These sensors are vital for building up the future where resources are optimized by close monitoring of health and needs of masses. This is the gateway to utilizing limited resources most efficiently.
As part of this research, Switched Capacitor DC-DC Converters have been designed and integrated with an ultra-low power transmitter on a single silicon die. These Nano-nodes will be the building blocks of smart sensor networks that can be deployed massively. Future work is to integrate energy harvesters on the same system to create a fully autonomous sensor node to be used in bio-sensors and for smart homes/cities.