Author_Institution :
Delphi Res. Labs, Delphi Corp., Shelby Township, MI, USA
Abstract :
This paper presents a new and simple search technique to determine the optimum control parameters, such as turn-on and turn-off angles, current set level, etc., of a switched reluctance motor drive. Thanks to this new technique, several drive performance quantities such as efficiencies, torque ripple, energy consumption, torque per ampere, etc., can be optimized simultaneously over the entire torque- or power-speed operation range of the drive. In prior art work, these performance quantities were sequentially optimized, one at a time. This despite reported evidence that improving one performance quantity, such as efficiency, can have a negative impact on others, such as torque ripple. The technique was successfully used off-line to determine the optimum firing angles for achieving highest drive efficiency with lower torque ripple in a 102-kW SRM drive intended for electric vehicle propulsion. The performance prediction and test results are found in good correlation.
Keywords :
control system analysis; control system synthesis; electric propulsion; electric vehicles; machine control; machine testing; machine theory; optimal control; optimisation; reluctance motor drives; torque control; traction motor drives; 102 kW; SRM drive; efficiencies; electric vehicle propulsion; energy consumption; multi-dimensional performance optimization; performance prediction; switched reluctance motors; test results; torque per ampere; torque ripple; turn-off angles; turn-on angles; Electric vehicles; Energy consumption; Optimization; Propulsion; Reluctance machines; Reluctance motors; Strontium; Testing; Torque control; Vehicle driving;
