Energy Harvesting for Battery-less IoT Device Operation: Difference between revisions

From Center for Integrated Circuits and Devices Research (CIDR)
Jump to navigation Jump to search
 
(2 intermediate revisions by the same user not shown)
Line 6: Line 6:
|+
|+
|'''Project Leader'''
|'''Project Leader'''
|[https://microlab.msuiit.edu.ph/people/faculty/jeff Jefferson A. Hora, PhD]
|[https://microlab.msuiit.edu.ph/people/faculty/jeff Jefferson A. Hora, PhD]                                    
|-
|-
|'''Supervising Science Research Specialist'''
|'''Supervising Science Research Specialist'''
|Kriz Kevin C. Adrivan
|Kriz Kevin C. Adrivan
|-
|-
|'''University Research III'''
|'''University Researcher III'''
|Mark Eric C. Andam
|Mark Eric C. Andam
Ritt Vincent A. Librado
Ritt Vincent A. Librado


Johanna Mae B. Quinalayo
Johanna Mae B. Quinalayo
|-
|'''Project Development Officer III'''
|Margie S. Arda
|-
|-
|'''Science Research Specialist II'''
|'''Science Research Specialist II'''
Line 24: Line 21:
Marvin Hora
Marvin Hora
|-
|-
|'''Science Aide'''
|'''Project Development Officer III'''
|Margie S. Arda
|-
|'''Project Development Officer I'''
|Rachel Joy N. Ugnay
|Rachel Joy N. Ugnay
|-
|-
Line 60: Line 60:


Winzil Khaye V. Pitogo
Winzil Khaye V. Pitogo
Lyndon C. Bernardo
Mari Gabriel V. Maagad
Abdul Wally A. Marohom
|}
|}



Latest revision as of 15:48, 17 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 Researcher III Mark Eric C. Andam

Ritt Vincent A. Librado

Johanna Mae B. Quinalayo

Science Research Specialist II Emrys Leowhel T. Oling

Marvin Hora

Project Development Officer III Margie S. Arda
Project Development Officer I Rachel Joy N. Ugnay
Project Staff Olga Joy L. Gerasta

Edgar Alan A. Donasco

Nieva M. Mapula

Harreez V. Quimque

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

Lyndon C. Bernardo

Mari Gabriel V. Maagad

Abdul Wally A. Marohom

Activities

The project will have five (5) major activities:

  1. Develop system models for the multiple energy harvesting input blocks.
  2. Model/Circuit characterization development of key energy harvesting building blocks.
  3. Circuit design, simulation, layout and verification of key energy harvesting building blocks.
  4. Circuit design of the proof-of-concept multiple energy harvesting sources.
  5. Establish two (2) mirror laboratories.

Resources

  • Tutorials
  • Scripts
  • Presentations
  • Papers