Maxwell 2D
~~~~~~~~~~

These examples use PyAEDT to show Maxwell 2D capabilities.

.. grid:: 2

   .. grid-item-card:: Control program enablement
      :padding: 2 2 2 2
      :link: ../../low_frequency/general/control_program
      :link-type: doc

      .. image:: ../../low_frequency/general/_static/control_program.png
         :alt: Maxwell general
         :width: 250px
         :height: 200px
         :align: center

      This example shows how to use PyAEDT to enable a control program in a Maxwell 2D project.

   .. grid-item-card:: Resistance calculation
      :padding: 2 2 2 2
      :link: ../../low_frequency/general/resistance
      :link-type: doc

      .. image:: ../../low_frequency/general/_static/resistance.png
         :alt: Maxwell resistance
         :width: 250px
         :height: 200px
         :align: center

      This example uses PyAEDT to set up a resistance calculation and solve it using the Maxwell 2D DCConduction solver.


   .. grid-item-card:: Eddy current analysis and reduced matrix
      :padding: 2 2 2 2
      :link: ../../low_frequency/general/eddy_current
      :link-type: doc

      .. image:: ../../low_frequency/general/_static/eddy_current.png
         :alt: Maxwell Eddy current
         :width: 250px
         :height: 200px
         :align: center

      This example shows how to leverage PyAEDT to assign a matrix and perform series or parallel connections in a Maxwell 2D design.


   .. grid-item-card:: Electrostatic analysis
      :padding: 2 2 2 2
      :link: ../../low_frequency/general/electrostatic
      :link-type: doc

      .. image:: ../../low_frequency/general/_static/electrostatic.png
         :alt: Maxwell electrostatic
         :width: 250px
         :height: 200px
         :align: center

      This example shows how to use PyAEDT to create a Maxwell 2D electrostatic analysis.


   .. grid-item-card:: External delta circuit
      :padding: 2 2 2 2
      :link: ../../low_frequency/general/external_circuit
      :link-type: doc

      .. image:: ../../low_frequency/general/_static/external_circuit.png
         :alt: External circuit
         :width: 250px
         :height: 200px
         :align: center

      This example shows how to create an external delta circuit and connect it with a Maxwell 2D design.

   .. grid-item-card:: Magnetomotive force
      :padding: 2 2 2 2
      :link: ../../low_frequency/magnetic/magneto_motive_line
      :link-type: doc

      .. image:: ../../low_frequency/magnetic/_static/magneto.png
         :alt: Maxwell magneto force
         :width: 250px
         :height: 200px
         :align: center

      This example shows how to use PyAEDT to calculate the magnetomotive force.

   .. grid-item-card:: Transient winding analysis
      :padding: 2 2 2 2
      :link: ../../low_frequency/magnetic/transient_winding
      :link-type: doc

      .. image:: ../../low_frequency/magnetic/_static/transient.png
         :alt: Maxwell transient
         :width: 250px
         :height: 200px
         :align: center

      This example shows how to use PyAEDT to create a project in Maxwell 2D and run a transient simulation.

   .. grid-item-card:: Lorentz actuator
      :padding: 2 2 2 2
      :link: ../../low_frequency/magnetic/lorentz_actuator
      :link-type: doc

      .. image:: ../../low_frequency/magnetic/_static/lorentz_actuator.png
         :alt: Maxwell general
         :width: 250px
         :height: 200px
         :align: center

      This example uses PyAEDT to set up a Lorentz actuator and solve it using the Maxwell 2D transient solver.

   .. grid-item-card:: PM synchronous motor transient analysis
      :padding: 2 2 2 2
      :link: ../../low_frequency/motor/aedt_motor/pm_synchronous
      :link-type: doc

      .. image:: ../../low_frequency/motor/aedt_motor/_static/pm_synchronous.png
         :alt: Maxwell general
         :width: 250px
         :height: 200px
         :align: center

      This example shows how to use PyAEDT to create a Maxwell 2D transient analysis for an interior permanent magnet (PM) electric motor.

   .. grid-item-card:: Motor creation and export
      :padding: 2 2 2 2
      :link: ../../low_frequency/motor/aedt_motor/rmxpert
      :link-type: doc

      .. image:: ../../low_frequency/motor/aedt_motor/_static/rmxpert.png
         :alt: Maxwell general
         :width: 250px
         :height: 200px
         :align: center

      This example uses PyAEDT to create a RMxprt project and export it to Maxwell 2D.

   .. grid-item-card:: Transformer leakage inductance calculation
      :padding: 2 2 2 2
      :link: ../../low_frequency/motor/aedt_motor/transformer_inductance
      :link-type: doc

      .. image:: ../../low_frequency/motor/aedt_motor/_static/transformer2.png
         :alt: Maxwell general
         :width: 250px
         :height: 200px
         :align: center

      This example shows how to use PyAEDT to create a Maxwell 2D magnetostatic analysis to calculate transformer leakage inductance and reactance.

   .. toctree::
      :hidden:

      ../../low_frequency/general/control_program
      ../../low_frequency/general/resistance
      ../../low_frequency/general/eddy_current
      ../../low_frequency/general/electrostatic
      ../../low_frequency/general/external_circuit
      ../../low_frequency/magnetic/magneto_motive_line
      ../../low_frequency/magnetic/transient_winding
      ../../low_frequency/magnetic/lorentz_actuator
      ../../low_frequency/motor/aedt_motor/pm_synchronous
      ../../low_frequency/motor/aedt_motor/rmxpert
      ../../low_frequency/motor/aedt_motor/transformer_inductance