An Efficient Performance Analysis of Synchronous Electric Generator with Double Excitation

This paper discusses a synchronous computer for parallel double excitement. First of all there is an expanded literary examination of devices for double and double excitement. The structural topology of the double excitation machine is then studied and the principles of its operation. The construction of a prototype is proposed in order to validate the concept of double arousal in topology studied in this paper. Furthermore, the computer is built using both the 3D finite element and the 3D analogous magnetic circuit model. Comparisons with experimental measurements are used to verify the flux control capacity in the open circuit and effects of the established models. Both inductors have permanent magnets which are attached to the two rotor. Due to the contact with the permanent magnets from inside and outside, the electro-motor forces generated by spools are collected and therefore the particular strength of the system is increased. A synthetic modern insulating material was used to minimize the weight, where no sections of ferromagnetic material were required. This alloy has excellent mechanical strength and comparatively low metal weight.