/
motor.rst
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/
motor.rst
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=============
Motor
=============
Create Function
=====================
.. autofunction:: pandapower.create_motor
Input Parameters
=====================
*net.motor*
.. tabularcolumns:: |p{0.10\linewidth}|p{0.10\linewidth}|p{0.25\linewidth}|p{0.40\linewidth}|
.. csv-table::
:file: motor_par.csv
:delim: ;
:widths: 10, 10, 25, 40
\*necessary for executing a power flow calculation.
Electric Model
=================
.. math::
:nowrap:
\begin{align*}
P_{motor, n} =& pn\_mech\_mw / (efficiency\_percent/100) \\
P_{motor} =& P_{motor, n} * (loading\_percent / 100) * scaling \\
S_{motor} =& P_{motor} / cos\_phi \\
Q_{motor} =& \sqrt{S_{motor}^2 - P_{motor}^2}
\end{align*}
Result Parameters
==========================
*net.res_motor*
.. tabularcolumns:: |p{0.10\linewidth}|p{0.10\linewidth}|p{0.45\linewidth}|
.. csv-table::
:file: motor_res.csv
:delim: ;
:widths: 10, 10, 45
The power values in the net.res_motor table are equivalent to :math:`P_{motor}` and :math:`Q_{motor}`.