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Nihal Kularatna
Nihal Kularatna
Associate Professor - School of Engineering, The University of Waikato
Verified email at waikato.ac.nz
Title
Cited by
Cited by
Year
An environmental air pollution monitoring system based on the IEEE 1451 standard for low cost requirements
N Kularatna, BH Sudantha
IEEE Sensors Journal 8 (4), 415-422, 2008
3002008
Energy storage devices for renewable energy-based systems: rechargeable batteries and supercapacitors
N Kularatna, K Gunawardane
Academic Press, 2021
1832021
High current voltage regulator
N Kularatna, LJ Fernando
US Patent 7,907,430, 2011
1372011
Power electronics design handbook: low-power components and applications
N Kularatna
Elsevier, 1998
1041998
Rechargeable batteries and their management
N Kularatna
DC Power Supplies, 8-1-8-56, 2018
882018
Improving the end-to-end efficiency of DC–DC converters based on a supercapacitor-assisted low-dropout regulator technique
K Kankanamge, N Kularatna
IEEE Transactions on Industrial Electronics 61 (1), 223-230, 2013
802013
An ICPT-supercapacitor hybrid system for surge-free power transfer
UK Madawala, DJ Thrimawithana, N Kularatna
IEEE transactions on Industrial Electronics 54 (6), 3287-3297, 2007
732007
Surge capability testing of supercapacitor families using a lightning surge simulator
N Kularatna, J Fernando, A Pandey, S James
IEEE transactions on Industrial Electronics 58 (10), 4942-4949, 2011
522011
Modern supercapacitors technologies and their applicability in mature electrical engineering applications
K Subasinghage, K Gunawardane, N Padmawansa, N Kularatna, ...
Energies 15 (20), 7752, 2022
452022
Digital and analogue instrumentation: testing and measurement
N Kularatna
IET, 2003
432003
Laplace transform-based theoretical foundations and experimental validation: low-frequency supercapacitor circulation for efficiency improvements in linear regulators
K Kankanamge, N Kularatna, DA Steyn-Ross
IET Power Electronics 5 (9), 1785-1792, 2012
422012
Potential of supercapacitors in novel power converters as semi-ideal lossless voltage droppers
T Ariyarathna, D Jayananda, N Kularatna, DA Steyn-Ross
IECON 2017-43rd Annual Conference of the IEEE Industrial Electronics Society …, 2017
412017
Dynamics and modeling of rechargeable batteries: what electrochemists? work tells the electronic engineers
N Kularatna
IEEE Power Electronics Magazine 1 (4), 23-33, 2014
412014
Supercapacitors Improve the Performance of Linear Power-Management Circuits: Unique new design options when capacitance jump from micro-farads to farads with a low equivalent …
N Kularatna
IEEE Power Electronics Magazine 3 (1), 45-59, 2016
402016
Supercapacitor assisted LDO (SCALDO) techniquean extra low frequency design approach to high efficiency DC-DC converters and how it compares with the classical switched …
K Kankanmage, N Kulatana
2013 Twenty-Eighth Annual IEEE Applied Power Electronics Conference and …, 2013
392013
High current voltage regulator
N Kularatna, J Fernando
US Patent, 430, 2011
382011
Supercapacitor‐assisted LED (SCALED) technique for renewable energy systems: a very low frequency design approach with short‐term DC‐UPS capability eliminating battery banks
D Jayananda, N Kularatna, DA Steyn‐Ross
IET Renewable Power Generation 14 (9), 1559-1570, 2020
352020
Supercapacitor-based long time-constant circuits: A unique design opportunity for new power electronic circuit topologies
N Kularatna, D Jayananda
IEEE Industrial Electronics Magazine 14 (2), 40-56, 2020
352020
Supercapacitor‐assisted low dropout regulator technique: a new design approach to achieve high‐efficiency linear DC–DC converters
K Gunawardane, N Kularatna
IET Power Electronics 11 (2), 229-238, 2018
352018
Electronic circuit design: from concept to implementation
N Kularatna
CRC Press, 2017
352017
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