| 801 - 809 |
Two-step method for identification of nonlinear model of induction machine
Wamkeue R, Aguglia D, Lakehal M, Viarouge P |
| 810 - 818 |
Online and offline rotary regression analysis of torque estimator for switched reluctance motor drives
Xue XD, Cheng KWE, Ho SL |
| 819 - 828 |
Modeling of saturated induction machines with injected high-frequency signals
Bottiglieri G, Consoli A, Lipo TA |
| 829 - 838 |
Direct instantaneous torque control in direct drive permanent magnet synchronous motors - A new approach
Ibrahim Mohamed YAR |
| 839 - 847 |
A position stepping method for predicting performances of switched reluctance motor drives
Xue XD, Cheng KWE, Ho SL |
| 848 - 854 |
A novel high-efficiency battery charger with a buck zero-voltage-switching resonant converter
Chuang YC, Ke YL |
| 855 - 863 |
An approach to fault-tolerant three-phase matrix converter drives
Kwak S, Toliyat HA |
| 864 - 872 |
Load transient mitigation for stand-alone fuel cell power generation systems
Wang C, Nehrir MH |
| 873 - 880 |
Soft-computing model-based controllers for increased photovoltaic plant efficiencies
Varnham A, Al-Ibrahim AM, Virk GS, Azzi D |
| 881 - 886 |
A single-stage three-phase grid-connected photovoltaic system with modified MPPT method and reactive power compensation
Wu LB, Zhao ZM, Liu JZ |
| 887 - 897 |
A physically based dynamic model for solid oxide fuel cells
Wang C, Nehrir MH |
| 898 - 906 |
Short-time overloading capability and distributed generation applications of solid oxide-fuel cells
Wang C, Nehrir MH |
