Ned Mohan
Cited by
Cited by
Power electronics: converters, applications, and design
N Mohan, TM Undeland, WP Robbins
John wiley & sons, 2003
Advanced electric drives
N Mohan
Design and implementation of an extended Kalman filter for the state estimation of a permanent magnet synchronous motor
R Dhaouadi, N Mohan, L Norum
IEEE Transactions on Power Electronics 6 (3), 491-497, 1991
Control of a doubly-fed induction wind generator under unbalanced grid voltage conditions
T Brekken, N Mohan, T Undeland
2005 European conference on power electronics and applications, 10 pp.-P. 10, 2005
Control strategies for dynamic voltage restorer compensating voltage sags with phase jump
JG Nielsen, F Blaabjerg, N Mohan
APEC 2001. Sixteenth Annual IEEE Applied Power Electronics Conference and …, 2001
Three-port series-resonant DC–DC converter to interface renewable energy sources with bidirectional load and energy storage ports
H Krishnaswami, N Mohan
IEEE Transactions on Power Electronics 24 (10), 2289-2297, 2009
Common-duty-ratio control of input-series connected modular DC-DC converters with active input voltage and load-current sharing
R Giri, V Choudhary, R Ayyanar, N Mohan
IEEE Transactions on Industry Applications 42 (4), 1101-1111, 2006
Active input-voltage and load-current sharing in input-series and output-parallel connected modular DC-DC converters using dynamic input-voltage reference scheme
R Ayyanar, R Giri, N Mohan
IEEE transactions on power electronics 19 (6), 1462-1473, 2004
Power electronics
MN Undeland, WP Robbins, N Mohan
Converters, Applications, and Design, 763, 1995
Electric drives
N Mohan
Active filtering of harmonic currents in three-phase, four-wire systems with three-phase and single-phase nonlinear loads
CA Quinn, N Mohan
[Proceedings] APEC'92 Seventh Annual Applied Power Electronics Conference …, 1992
Voltage regulation with STATCOMs: Modeling, control and results
A Jain, K Joshi, A Behal, N Mohan
IEEE Transactions on Power delivery 21 (2), 726-735, 2006
Novel soft-switching DC-DC converter with full ZVS-range and reduced filter requirement. I. Regulated-output applications
R Ayyanar, N Mohan
IEEE Transactions on Power Electronics 16 (2), 184-192, 2001
Asymmetrical duty cycle permits zero switching loss in PWM circuits with no conduction loss penalty
P Imbertson, N Mohan
IEEE transactions on industry applications 29 (1), 121-125, 1993
Simulation of power electronic and motion control systems-an overview
N Mohan, WP Robbins, TM Undeland, R Nilssen, O Mo
Proceedings of the IEEE 82 (8), 1287-1302, 1994
System and method for reducing harmonic currents by current injection
N Mohan
US Patent 5,345,375, 1994
Seamless transfer of grid-connected PWM inverters between utility-interactive and stand-alone modes
R Tirumala, N Mohan, C Henze
APEC. Seventeenth Annual IEEE Applied Power Electronics Conference and …, 2002
Hybrid-active filtering of harmonic currents in power systems
M Rastogi, N Mohan, AA Edris
IEEE Transactions on Power Delivery 10 (4), 1994-2000, 1995
TM undeland, and WP Robbins
N Mohan
Power Electronics-Converters Applications and Design, 2nd, 1995
A comparative evaluation of harmonic reduction techniques in three-phase utility interface of power electronic loads
M Rastogi, R Naik, N Mohan
Conference Record of the 1993 IEEE Industry Applications Conference Twenty …, 1993
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