adding some info

HomogenisationWindings/COPYING.txt

+Models developed by [[User:Ruth V. Sabariego|R. Sabariego]], J. Gyselinck. Copyright (c) 2005-2019 KU Leuven-ULg-ULB.

HomogenisationWindings/README.txt

+
+2D model for the homogenisation of windings.
+Models developed by R. V. Sabariego and J. Gyselinck.
+
+
+Quick start
+-----------
+
+Open 'ind_axi.pro' with Gmsh.
+
+Additional info
+---------------
+
+The directory contains:
+* The FE elementary model required for generating the coefficient files (frequency domain) in the directory 'coeff'.
+You may open 'cell.pro' with Gmsh and choose e.g. square or hexagonal packing.
+cell.pro
+cell.geo
+cell_dat.pro
+cell_hexa_circ.geo
+cell_square_circ.geo
+
+The default case is square packing with a fill factor of 0.65.
+The time domain coefficients can be obtained by least-squared matrix fitting or
+synthesising an RL-Cauer ladder network e.g. in Matlab or Python.
+
+* An axisymmetric inductor model with 120 turns:
+ind_axi.pro
+ind_axi.geo
+ind_axi_dat.pro
+
+
+The theory behind these files can be found in the following publications:
+
+Frequency domain:
+----------------
+Gyselinck, J., Dular, P. Homogenisation of bundles of wires of arbitrary cross-section taking into
+  account skin and proximity effect and their coupling. Proceedings of the Fifth International Conference
+  on Computation in Electromagnetics (2004).
+
+Gyselinck, J., Dular, P.. Frequency-domain homogenization of bundles of wires in 2-D magnetodynamic FE calculations.
+  IEEE transactions on magnetics 41.5 (2005):1416-1419.
+
+
+Time domain:
+------------
+Gyselinck, J., Sabariego, R. V., Dular, P. Time-domain homogenization of windings in 2-D finite element models.
+  IEEE transactions on magnetics 43.4 (2007):1297-1300.
+
+Sabariego, R. V., Dular, P., Gyselinck, Johan. Time-domain homogenization of windings in 3-D finite element models.
+  IEEE transactions on magnetics, 44(6), 1302-1305, (2008).
+
+  Gyselinck, J., Dular, P., Geuzaine, C., & Sabariego, R. V.
+  Direct inclusion of proximity-effect losses in two-dimensional time-domain finite-element simulation of
+  electrical machines. In Proceedings of the 8th International Symposium on Electric and Magnetic Fields
+  (EMF2009). Mondovi, Italy.
+
+Gyselinck, J., Dular, P., Sadowski, N., Kuo-Peng, P., & Sabariego, R. V. Homogenization of form-wound windings
+  in frequency and time domain finite-element modeling of electrical machines.
+  IEEE transactions on magnetics, 46(8), 2852-2855, (2010).
+
+Niyomsatian, K., Van den Keybus, J., Sabariego, R., & Gyselinck, J. (2016).
+  Time-Domain Homogenization of Litz-Wire Bundles in 2-D FE Calculations.
+  In 8th IEEE Energy Conversion Congress and Exposition.
+
+Niyomsatian, K., Van den Keybus, J., Sabariego, R. V. and Gyselinck, J..
+  Time-domain homogenization of litz-wire bundles in FE calculations.
+  In Proceedings of the 8th Annual IEEE Energy Conversion Congress & Exposition (ECCE2016),
+  Milwaukee, WI, USA, September 18–22 2016.
+
+K. Niyomsatian, J. Gyselinck, and R. V. Sabariego. Time-domain homogenization of multiturn windings
+  based on RL Cauer ladder networks. International Journal of Numerical Modelling: Electronic Networks,
+  Devices and Fields, pages 1-13, e2649, 2019.
+
+
+Harmonic Balance/Multiharmonics:
+-------------------------------
+R. V. Sabariego and J. Gyselinck. Eddy-current-effect homogenization of windings in harmonic balance
+  finite element models. IEEE Transactions on Magnetics, 53(6):1–4, Art. No.: 7206304, June 2017.
+
+R. V. Sabariego, K. Niyomsatian, and J. Gyselinck.
+  Eddy-current-effect homogenization of windings in harmonic-balance finite-element models
+  coupled to nonlinear circuits.IEEE Transactions on Magnetics, 54(3):1–4, Art. No.: 7205004, March 2018.