Follow
Ashraf Ali Khan, Ph.D, P. Eng
Ashraf Ali Khan, Ph.D, P. Eng
Verified email at mun.ca
Title
Cited by
Cited by
Year
Comprehensive review & impact analysis of integrating projected electric vehicle charging load to the existing low voltage distribution system
S Rahman, IA Khan, AA Khan, A Mallik, MF Nadeem
Renewable and Sustainable Energy Reviews 153, 111756, 2022
992022
Dual-buck-structured high-reliability and high-efficiency single-stage buck–boost inverters
AA Khan, H Cha
IEEE Transactions on Industrial Electronics 65 (4), 3176-3187, 2017
952017
High-efficiency single-phase AC–AC converters without commutation problem
AA Khan, H Cha, HF Ahmed
IEEE Transactions on Power Electronics 31 (8), 5655-5665, 2015
942015
A novel buck–boost AC–AC converter with both inverting and noninverting operations and without commutation problem
HF Ahmed, H Cha, AA Khan, HG Kim
IEEE Transactions on Power Electronics 31 (6), 4241-4251, 2015
722015
A family of high-frequency isolated single-phase Z-source AC–AC converters with safe-commutation strategy
HF Ahmed, H Cha, AA Khan, HG Kim
IEEE Transactions on Power Electronics 31 (11), 7522-7533, 2016
692016
An improved single-phase direct PWM inverting buck–boost AC–AC converter
AA Khan, H Cha, HF Ahmed
IEEE Transactions on Industrial Electronics 63 (9), 5384-5393, 2016
612016
A highly reliable and high-efficiency quasi single-stage buck–boost inverter
AA Khan, H Cha, HF Ahmed, J Kim, J Cho
IEEE Transactions on Power Electronics 32 (6), 4185-4198, 2016
592016
A single-phase buck–boost matrix converter with only six switches and without commutation problem
HF Ahmed, H Cha, AA Khan, J Kim, J Cho
IEEE Transactions on Power Electronics 32 (2), 1232-1244, 2016
582016
A series resonant energy storage cell voltage balancing circuit
Y Yu, R Saasaa, AA Khan, W Eberle
IEEE Journal of Emerging and Selected Topics in Power Electronics 8 (3 …, 2019
542019
Three-phase three-limb coupled inductor for three-phase direct PWM AC–AC converters solving commutation problem
AA Khan, H Cha, HG Kim
IEEE Transactions on Industrial Electronics 63 (1), 189-201, 2015
522015
Magnetic integration of discrete-coupled inductors in single-phase direct PWM AC–AC converters
AA Khan, H Cha, HG Kim
IEEE Transactions on Power Electronics 31 (3), 2129-2138, 2015
492015
A family of single-stage high-gain dual-buck split-source inverters
F Akbar, H Cha, HF Ahmed, AA Khan
IEEE Journal of Emerging and Selected Topics in Power Electronics 8 (2 …, 2019
482019
Dual-buck AC–AC converter with inverting and non-inverting operations
UA Khan, AA Khan, H Cha, HG Kim, J Kim, JW Baek
IEEE Transactions on Power Electronics 33 (11), 9432-9443, 2018
452018
Latest energy storage trends in multi-energy standalone electric vehicle charging stations: A comprehensive study
A Ali, R Shakoor, A Raheem, HA Muqeet, Q Awais, AA Khan, M Jamil
Energies 15 (13), 4727, 2022
362022
Cascaded dual-buck inverter with reduced number of inductors
AA Khan, H Cha, JS Lai
IEEE Transactions on Power Electronics 33 (4), 2847-2856, 2017
332017
A single-phase buck matrix converter with high-frequency transformer isolation and reduced switch count
HF Ahmed, H Cha, AA Khan
IEEE Transactions on Industrial Electronics 64 (9), 6979-6988, 2017
322017
Elimination of filter inductor in switching cell AC–AC converters using magnetic integration
AA Khan, H Cha, HF Ahmed, HG Kim
IEEE Transactions on Power Electronics 31 (9), 6317-6326, 2015
312015
Optimal energy management of a campus microgrid considering financial and economic analysis with demand response strategies
H Javed, HA Muqeet, M Shehzad, M Jamil, AA Khan, JM Guerrero
Energies 14 (24), 8501, 2021
302021
Single-stage bidirectional buck–boost inverters using a single inductor and eliminating the common-mode leakage current
AA Khan, YW Lu, W Eberle, L Wang, UA Khan, M Agamy, H Cha
IEEE Transactions on Power Electronics 35 (2), 1269-1281, 2019
302019
A new reliable three-phase buck-boost AC–AC converter
AA Khan, H Cha, HF Ahmed
IEEE Transactions on Industrial Electronics 65 (2), 1000-1010, 2017
302017
The system can't perform the operation now. Try again later.
Articles 1–20