M
Makarand S. Ballal
Researcher at Visvesvaraya National Institute of Technology
Publications - 140
Citations - 1497
Makarand S. Ballal is an academic researcher from Visvesvaraya National Institute of Technology. The author has contributed to research in topics: Distribution transformer & Microgrid. The author has an hindex of 16, co-authored 122 publications receiving 1076 citations. Previous affiliations of Makarand S. Ballal include Rashtrasant Tukadoji Maharaj Nagpur University & Shiv Nadar University.
Papers
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Adaptive Neural Fuzzy Inference System for the Detection of Inter-Turn Insulation and Bearing Wear Faults in Induction Motor
TL;DR: It is observed from the simulation results that the five input parameter system predicts more accurate results.
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Soft-Switching DC–DC Converter for Distributed Energy Sources With High Step-Up Voltage Capability
TL;DR: This paper presents high step-up dc-to-dc converter for low voltage sources such as solar photovoltaics, fuel cells, and battery banks using combination of coupled inductor and switched capacitor voltage doubler cells.
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ZVS–ZCS High Voltage Gain Integrated Boost Converter for DC Microgrid
Shelas Sathyan,Hiralal M. Suryawanshi,Bhim Singh,Chandan Chakraborty,Vishal Verma,Makarand S. Ballal +5 more
TL;DR: In the proposed converter, all the diodes of the quadrupler cell are turned off with zero-current switching (ZCS), which considerably reduces the high-frequency turn-off losses and reverse recovery losses of the dioes.
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A Simplified Frequency-Domain Detection of Stator Turn Fault in Squirrel-Cage Induction Motors Using an Observer Coil Technique
TL;DR: It is observed that a flux sensing simple internal observer coil (OC) is more succinct than external flux sensors for stator fault detection using a novel radial flux sensing technique.
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Grid Interfaced Distributed Generation System With Modified Current Control Loop Using Adaptive Synchronization Technique
Amardeep B. Shitole,Hiralal M. Suryawanshi,Girish G. Talapur,Shelas Sathyan,Makarand S. Ballal,Vijay B. Borghate,M.R. Ramteke,Madhuri A. Chaudhari +7 more
TL;DR: The dynamic behavior of the proposed grid interfaced DG system is experimentally evaluated in maintaining constant loading on grid, transient-free operation, and power factor improvement close to UPF operation of the utility grid, by compensating total reactive power and harmonic current demanded by variable linear as well as nonlinear load.