Singlediodeparams¶
Wrapper for SAM Simulation Core model: cmod_singlediodeparams.cpp
Input Consistency Warning¶
As described in Possible Problems, some input parameters are interdepedent but the equations accounting for these interdependencies that enforce consistency among these input parameters are not available in the PySAM module. Therefore, the onus is on the PySAM user to check that interdependencies are correctly handled. The variables which may require additional logic include:
Provided for each of these inputs is a list of other inputs that are potentially interdependent.
Creating an Instance¶
Refer to the Initializing a Model page for details on the different ways to create an instance of a PySAM class.
Singlediodeparams model description
Singlediodeparams
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PySAM.Singlediodeparams.
default
(config) → Singlediodeparams¶ Use default attributes None
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PySAM.Singlediodeparams.
from_existing
(data, optional config) → Singlediodeparams¶ Share underlying data with an existing PySAM class. If config provided, default attributes are loaded otherwise.
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PySAM.Singlediodeparams.
new
() → Singlediodeparams¶
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PySAM.Singlediodeparams.
wrap
(ssc_data_t) → Singlediodeparams¶ Use existing PySSC data
Warning
Do not call PySSC.data_free on the ssc_data_t provided to
wrap
Functions¶
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class
PySAM.Singlediodeparams.
Singlediodeparams
¶ This class contains all the variable information for running a simulation. Variables are grouped together in the subclasses as properties. If property assignments are the wrong type, an error is thrown.
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assign
(dict) → None¶ Assign attributes from nested dictionary, except for Outputs
nested_dict = { 'Single Diode Model': { var: val, ...}, ...}
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execute
(int verbosity) → None¶ Execute simulation with verbosity level 0 (default) or 1
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export
() → dict¶ Export attributes into nested dictionary
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value
(name, optional value) → Union[None, float, dict, sequence, str]¶ Get or set by name a value in any of the variable groups.
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SingleDiodeModel Group¶
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class
PySAM.Singlediodeparams.Singlediodeparams.
SingleDiodeModel
¶ -
assign
() → None¶ Assign attributes from dictionary
SingleDiodeModel_vals = { var: val, ...}
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export
() → dict¶ Export attributes into dictionary
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Adj_ref
¶ OC SC temp coeff adjustment [%]
Required: True
Type: float
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I
¶ Irradiance [W/m2]
Required: True
Type: float
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Il_ref
¶ Light current [A]
Required: True
Type: float
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Io_ref
¶ Saturation current [A]
Required: True
Type: float
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Rs_ref
¶ Series resistance [ohm]
Required: True
Type: float
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Rsh_ref
¶ Shunt resistance [ohm]
Required: True
Type: float
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T
¶ Temperature [C]
Required: True
Type: float
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a_ref
¶ Modified nonideality factor [1/V]
Required: True
Type: float
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alpha_isc
¶ Temp coeff of current at SC [A/’C]
Required: True
Type: float
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Outputs Group¶
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class
PySAM.Singlediodeparams.Singlediodeparams.
Outputs
¶ -
assign
() → None¶ Assign attributes from dictionary
Outputs_vals = { var: val, ...}
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export
() → dict¶ Export attributes into dictionary
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Il
¶ Light current [A]
Type: float
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Io
¶ Saturation current [A]
Type: float
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Rs
¶ Series resistance [ohm]
Type: float
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Rsh
¶ Shunt resistance [ohm]
Type: float
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a
¶ Modified nonideality factor [1/V]
Type: float
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