Affiliation:
1. IMEN Universiti Kebangsaan Malaysia (UKM) Selangor Malaysia
2. Faculty of Engineering and Technology TAR UMT Kuala Lumpur Malaysia
3. Department of Electrical, Electronics and Systems Engineering UKM Selangor Malaysia
Abstract
SummaryThis work's power management circuit (PMC) employs optimum power point (OPP) instead of conventional maximum power point (MPP) extraction from the thermoelectric generator (TEG) for efficient source to load energy transfer. Based on postlayout verification of the TSMC 180‐nm deep submicron model, this PMC generates above 100
W of power with a regulated output of 2.5 V within 40 ms from 285‐mV cold‐start. The main contribution here is the constant time OPP extraction technique at 125.33
s. Also, the PMC is almost fully on‐chip with layout area of 3.8 mm by 3.25 mm for RTEG between 0.29
and 4.17
. OPP can be achieved by matching these RTEG values to the corresponding off‐chip inductor, L. Using an overall figure‐of‐merit (FOM) to evaluate different design goals results in overall OPP‐based PMC having at least 2.85 times superior FOM compared to prior arts with MPP‐based schemes. This overall improvement in speed, power, and pumping efficiency facilitates battery‐less solutions in TEG‐based wearable sensor applications.
Subject
Applied Mathematics,Electrical and Electronic Engineering,Computer Science Applications,Electronic, Optical and Magnetic Materials