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 | 300 | 2008 |
Energy storage devices for renewable energy-based systems: rechargeable batteries and supercapacitors N Kularatna, K Gunawardane Academic Press, 2021 | 183 | 2021 |
High current voltage regulator N Kularatna, LJ Fernando US Patent 7,907,430, 2011 | 137 | 2011 |
Power electronics design handbook: low-power components and applications N Kularatna Elsevier, 1998 | 104 | 1998 |
Rechargeable batteries and their management N Kularatna DC Power Supplies, 8-1-8-56, 2018 | 88 | 2018 |
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 | 80 | 2013 |
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 | 73 | 2007 |
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 | 52 | 2011 |
Modern supercapacitors technologies and their applicability in mature electrical engineering applications K Subasinghage, K Gunawardane, N Padmawansa, N Kularatna, ... Energies 15 (20), 7752, 2022 | 45 | 2022 |
Digital and analogue instrumentation: testing and measurement N Kularatna IET, 2003 | 43 | 2003 |
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 | 42 | 2012 |
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 | 41 | 2017 |
Dynamics and modeling of rechargeable batteries: what electrochemists? work tells the electronic engineers N Kularatna IEEE Power Electronics Magazine 1 (4), 23-33, 2014 | 41 | 2014 |
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 | 40 | 2016 |
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 | 39 | 2013 |
High current voltage regulator N Kularatna, J Fernando US Patent, 430, 2011 | 38 | 2011 |
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 | 35 | 2020 |
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 | 35 | 2020 |
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 | 35 | 2018 |
Electronic circuit design: from concept to implementation N Kularatna CRC Press, 2017 | 35 | 2017 |