This paper discusses the modeling and analysis of three phase double stator slotted rotor\npermanent magnet generator (DSSR-PMG). The use of double stator topology through the double\nmagnetic circuit helps to maximize the usage of flux linkage in the yoke structure of the single stator\ntopology. The analytical computation is done using Permeance Analysis Method (PAM). Finite\nElement Analysis (FEA) is used for numerical verifications and to verify the design structure a\nprototype laboratory is performed. The analysis is done with various loading conditions to derive\nthe electromagnetic torque, output power and efficiency for the proposed structure. The analytical,\nnumerical and experimental results from the analysis are found to be in good agreement. The\nmaximum power developed by this generator at rated speed of 2000 rpm is of 1 kW with the\noperational efficiency of 75%. A rectifier bridge circuit is used to make the generated voltage a\nstorage capable constant voltage to make it suitable for mobile applications (such as Direct Current\nDC generator). The proposed generator structure is highly recommended for applications such as\nmicro-hydro and small renewable plants.
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