Study Of Design Considerations Of Fluxgate Sensing Element For Magnetic Field Measurement /
Mohamed Elsayed Mahmoud Elkattan
Study Of Design Considerations Of Fluxgate Sensing Element For Magnetic Field Measurement / دراسة إعتبارات التصميم لمستشعر الفيض لقياس المجال المغناطيسى Mohamed Elsayed Mahmoud Elkattan ; Supervised Mohamed Sameh Said , Ahmed Hussien Khalil , Hassan Mostafa Hassan - Cairo : Mohamed Elsayed Mahmoud Elkattan , 2022 - 132 P . : charts ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Electronics and Electrical Communications
This thesis aim is proposing comprehensive simulations to model fluxgate magnetic cores behavior to explain how current and magnetic distribution inside the core depends on both excitation parameters, and cores magnetic properties. Furthermore, two cores design configurations were considered, to be investigated, corresponding to different excitation mechanisms. For each design configuration, detailed finite element analysis is presented to study the influence of frequency, core dimension, and excitation mechanism on current and magnetic distribution inside the sensors core. Results presented in the thesis provide performance map for tracking the fluxgate core behavior under various operational environments
measurement
Excitation Mechanism Flux Jiles-atherton
Study Of Design Considerations Of Fluxgate Sensing Element For Magnetic Field Measurement / دراسة إعتبارات التصميم لمستشعر الفيض لقياس المجال المغناطيسى Mohamed Elsayed Mahmoud Elkattan ; Supervised Mohamed Sameh Said , Ahmed Hussien Khalil , Hassan Mostafa Hassan - Cairo : Mohamed Elsayed Mahmoud Elkattan , 2022 - 132 P . : charts ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Electronics and Electrical Communications
This thesis aim is proposing comprehensive simulations to model fluxgate magnetic cores behavior to explain how current and magnetic distribution inside the core depends on both excitation parameters, and cores magnetic properties. Furthermore, two cores design configurations were considered, to be investigated, corresponding to different excitation mechanisms. For each design configuration, detailed finite element analysis is presented to study the influence of frequency, core dimension, and excitation mechanism on current and magnetic distribution inside the sensors core. Results presented in the thesis provide performance map for tracking the fluxgate core behavior under various operational environments
measurement
Excitation Mechanism Flux Jiles-atherton