Energy Harvesting for Battery-less IoT Device Operation: Difference between revisions
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| | |Mike Martin Diango | ||
Robert Comaling | |||
Lawrence Grana Marc | |||
Macbeth Toledo | |||
Marjie Anne Thezza Teleron | |||
Alyssa Marie Vergara | |||
Clark Rojen B. Casanes | |||
Nathan Rhei N. Remo | |||
Kirt Menard L. Ugay | |||
Luisa Mae M. Mamburao | |||
Quezza Phola S. Patulin | |||
Winzil Khaye V. Pitogo | |||
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Revision as of 14:57, 9 November 2022
This component project of the CIDR program explores a battery-less IoT device through multiple energy harvesting technologies. The environmental, economic, and logistical issue of battery replacement in the deployment of millions of IoT devices can be solved by utilizing super-cap instead of batteries. One possible solution for realizing these battery-less IoT devices is through multiple energy harvesting with design optimization of the circuit power consumption. Moreover, this project aimed to develop a customize and reconfigurable power management integrated circuit (IC) designed chip with different energy harvesting technologies; a combined or stand-alone energy harvesting unit (e.g., light, thermal, and RF sources), depending on the application of the wireless sensor node (WSN) or IoT device.
Personnel
| Project Leader | Jefferson A. Hora, PhD |
| Supervising Science Research Specialist | Kriz Kevin C. Adrivan |
| University Research III | Mark Eric C. Andam
Ritt Vincent A. Librado Johanna Mae B. Quinalayo |
| Project Development Officer III | Margie S. Arda |
| Science Research Specialist II | Emrys Leowhel T. Oling |
| Science Research Specialist I | |
| Science Aide | Rachel Joy N. Ugnay |
| Project Staff | Olga Joy L. Gerasta
Edgar Alan A. Donasco Kevin O. Maglinte |
| Student Affiliates | Mike Martin Diango
Robert Comaling Lawrence Grana Marc Macbeth Toledo Marjie Anne Thezza Teleron Alyssa Marie Vergara Clark Rojen B. Casanes Nathan Rhei N. Remo Kirt Menard L. Ugay Luisa Mae M. Mamburao Quezza Phola S. Patulin Winzil Khaye V. Pitogo |
Activities
The project will have five (5) major activities:
- Develop system models for the multiple energy harvesting input blocks.
- Model/Circuit characterization development of key energy harvesting building blocks.
- Circuit design, simulation, layout and verification of key energy harvesting building blocks.
- Circuit design of the proof-of-concept multiple energy harvesting sources.
- Establish two (2) mirror laboratories.
Resources
- Tutorials
- Scripts
- Presentations
- Papers