Maximum Electrical Power Extraction from Sources by Load Matching

Maximum Electrical Power Extraction from Sources by Load Matching

This paper describes the matching of various loads to sources (including nonlinear ones). The purpose of matching is to extract the maximum available power from the source. This has particular importance for renewable sources and energy-harvesting devices, in which unused energy is just wasted. The...

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Bibliographic Details
Published in:Energies (Basel) Vol. 14; no. 23; p. 8025
Main Authors: Singer, Sigmund, Efrati, Shlomi, Alon, Meir, Shmilovitz, Doron
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-12-2021
Subjects:
Batteries
Controllability
Efficiency
Electric power
Energy
Energy harvesting
Gyrators
impedance matching
Innovations
Load matching
loss-free resistor (LFR)
maximum power transfer
POPI networks
Power amplifiers
renewable energy sources
wireless power transfer
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Summary:This paper describes the matching of various loads to sources (including nonlinear ones). The purpose of matching is to extract the maximum available power from the source. This has particular importance for renewable sources and energy-harvesting devices, in which unused energy is just wasted. The main innovations in this paper include (and followed by examples) simplified calculation of the matching parameter for a controllable load and matching by means of a family of power-conservative two-port networks, denoted POPI (Pin = Pout), such as transformers, gyrators, loss-free resistors (LFRs) and series LFRs (SLFRs). An additional innovation described in this paper is a new, simplified model of an HF power amplifier based on the series LFR concept. This model predicts that the efficiency of the HF power amplifier operated under the matched-mode condition can significantly exceed the 50% efficiency limit that is predicted by the conventional model. As HF power amplifiers drive antennas in transmission and some wireless power transfer (which uses radiative techniques) systems, it is clear that the operation of such systems in the matched-mode condition is not restricted to a 50% efficiency limit.
ISSN:1996-1073
1996-1073
DOI:10.3390/en14238025