pyleecan.Classes.SlotW61 module¶
Method code available at https://github.com/Eomys/pyleecan/tree/master/pyleecan/Methods/Slot/SlotW61
- class SlotW61(W0=0.314, W1=0.02, W2=0.03, H0=0.003, H1=0.05, H2=0.15, H3=0, H4=0, W3=0, Zs=36, wedge_mat=None, is_bore=True, init_dict=None, init_str=None)[source]¶
Bases:
Slot- VERSION = 1¶
- IS_SYMMETRICAL = 0¶
- build_geometry()¶
Compute the curve (Line) needed to plot the Slot. The ending point of a curve is the starting point of the next curve in the list
- Parameters:
self (SlotW61) – A SlotW61 object
- Returns:
curve_list – A list of 10 Segment
- Return type:
list
- build_geometry_active(Nrad, Ntan, is_simplified=False, alpha=0, delta=0)¶
Split the slot winding area in several zone
- Parameters:
self (SlotW61) – A SlotW61 object
Nrad (int) – Number of radial layer
Ntan (int) – Number of tangentiel layer
is_simplified (bool) –
- boolean to specify if the coincident lines are considered as one
or different lines (Default value = False)
alpha (float) – Angle for rotation (Default value = 0) [rad]
delta (complex) – complex for translation (Default value = 0)
- Returns:
surf_list – List of surface delimiting the winding zone
- Return type:
list
- check()¶
Check that the SlotW61 object is correct
- Parameters:
self (SlotW61) – A SlotW61 object
- Return type:
None
- Raises:
S61_InnerCheckError – Slot 61 is for inner lamination only
S61_W21CheckError – You must have W2 < W1
S61_WindHError – You must have W3+W4 < H2
S61_WindWError – You must have W3 < (W1-W2)/2
- comp_angle_opening()¶
Compute the average opening angle of the Slot
- Parameters:
self (SlotW61) – A SlotW61 object
- Returns:
alpha – Average opening angle of the slot [rad]
- Return type:
float
- comp_height()¶
Compute the height of the Slot. Caution, the bottom of the Slot is an Arc
- Parameters:
self (SlotW61) – A SlotW61 object
- Returns:
Htot – Height of the slot [m]
- Return type:
float
- comp_height_active()¶
Compute the height of the winding area
- Parameters:
self (SlotW61) – A SlotW61 object
- Returns:
Hwind – Height of the winding area [m]
- Return type:
float
- comp_surface()¶
Compute the Slot total surface (by analytical computation). Caution, the bottom of the Slot is an Arc
- Parameters:
self (SlotW61) – A SlotW61 object
- Returns:
S – Slot total surface [m**2]
- Return type:
float
- comp_surface_active()¶
Compute the Slot inner surface for winding
- Parameters:
self (SlotW61) – A SlotW61 object
- Returns:
Swind – Slot inner surface for winding [m**2]
- Return type:
float
- get_surface_active(alpha=0, delta=0)¶
Return the full winding surface
- get_surface_opening(alpha=0, delta=0)¶
Return the list of surfaces defining the opening area of the Slot
- Parameters:
self (SlotW60) – A SlotW60 object
alpha (float) – float number for rotation (Default value = 0) [rad]
delta (complex) – complex number for translation (Default value = 0)
- Returns:
surf_list – list of surfaces objects
- Return type:
list
- plot_schematics(is_default=False, is_add_point_label=False, is_add_schematics=True, is_add_main_line=True, type_add_active=1, save_path=None, is_show_fig=True, fig=None, ax=None)¶
Plot the schematics of the slot
- Parameters:
self (SlotW61) – A SlotW61 object
is_default (bool) – True: plot default schematics, else use current slot values
is_add_point_label (bool) – True to display the name of the points (Z1, Z2….)
is_add_schematics (bool) – True to display the schematics information (W0, H0…)
is_add_main_line (bool) – True to display “main lines” (slot opening and 0x axis)
type_add_active (int) – 0: No active surface, 1: active surface as winding, 2: active surface as magnet, 3: active surface as winding + wedges
save_path (str) – full path including folder, name and extension of the file to save if save_path is not None
is_show_fig (bool) – To call show at the end of the method
fig (Matplotlib.figure.Figure) – existing figure to use if None create a new one
ax (Matplotlib.axes.Axes object) – Axis on which to plot the data
- Returns:
fig (Matplotlib.figure.Figure) – Figure containing the schematics
ax (Matplotlib.axes.Axes object) – Axis containing the schematics
- save(save_path='', is_folder=False, type_handle_old=2, type_compression=0)¶
Save the object to the save_path
- Parameters:
self – A pyleecan object
save_path (str) – path to the folder to save the object
is_folder (bool) – to split the object in different files: separate simulation machine and materials (json only)
type_handle_old (int) – How to handle old file in folder mode (0:Nothing, 1:Delete, 2:Move to “Backup” folder)
type_compression (int) – Available only for json, 0: no compression, 1: gzip
- get_logger()¶
Get the object logger or its parent’s one
- Parameters:
obj – A pyleecan object
- Returns:
logger – Pyleecan object dedicated logger
- Return type:
logging.Logger
- compare(other, name='self', ignore_list=None, is_add_value=False)[source]¶
Compare two objects and return list of differences
- as_dict(type_handle_ndarray=0, keep_function=False, **kwargs)[source]¶
Convert this object in a json serializable dict (can be use in __init__). type_handle_ndarray: int
How to handle ndarray (0: tolist, 1: copy, 2: nothing)
- keep_functionbool
True to keep the function object, else return str
Optional keyword input parameter is for internal use only and may prevent json serializability.
- property W0¶
Pole top width
- Type:
float
- Min:
0
- property W1¶
Pole top width
- Type:
float
- Min:
0
- property W2¶
Pole bottom width
- Type:
float
- Min:
0
- property H0¶
Pole top height
- Type:
float
- Min:
0
- property H1¶
Pole intermediate height
- Type:
float
- Min:
0
- property H2¶
Pole bottom height
- Type:
float
- Min:
0
- property H3¶
Top Distance Ploe-coil
- Type:
float
- Min:
0
- property H4¶
Bottom Distance Ploe-coil
- Type:
float
- Min:
0
- property W3¶
Edge Distance Ploe-coil
- Type:
float
- Min:
0