Sharif Digital Repository

Linear position sensors are widely used in linear motion-control drives. In this thesis, the design, optimization, performance analysis, and prototyping of a linear variable reluctance, variable area resolver is discussed. To test the new design approach of the studied sensor, three-dimensional time-stepping finite element analysis (3-D TSFEA) is crucial. However, the 3D TSFEA is a very time-consuming method which leads to an inappropriate choice for co-using with optimization algorithms. Hence, an accurate analytical model based on a winding function (WF) method presented in favor of calculating the inductances, air-gap flux density, induced voltages precisely and yet is a very fast method,... 

A resolver is a position sensor that converts the angular position information of a mechanical shaft to electrical signals. Due to their machine-like structure, resolvers have been preferred to other position sensors like optical encoders for working in harsh environments with wide temperature variations, high vibrations, moisture, and dust. Besides, the resolution of a resolver is infinite, and it can provide absolute position information. A multi-turn resolver is a type of resolver that has been developed to provide absolute position information with very high precision. Conventional multi-turn resolver consists of two individual resolvers in a common frame. One of them determines...