SixParsolve¶
Coefficient generator for six-parameter single diode module model
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PySAM.SixParsolve.
default
(config) → SixParsolve¶ Load defaults for the configuration
config
. Available configurations are:- None
Note
Some inputs do not have default values and may be assigned a value from the variable’s Required attribute. See variable attribute descriptions below.
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PySAM.SixParsolve.
from_existing
(data, optional config) → SixParsolve¶ Share data with an existing PySAM class. If
optional config
is a valid configuration name, load the module’s defaults for that configuration.
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PySAM.SixParsolve.
new
() → SixParsolve¶
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PySAM.SixParsolve.
wrap
(ssc_data_t) → SixParsolve¶ Load data from a PySSC object.
Warning
Do not call PySSC.data_free on the ssc_data_t provided to
wrap()
SixParsolve is a wrapper for the SSC compute module cmod_6parsolve.cpp
Interdependent Variables¶
The variables listed below are interdependent with other variables. If you change the value of one of these variables, you may need to change values of other variables. The SAM user interface manages these interdependent variables, but in PySAM, it is up to you change the value of all interdependent variables so they are consistent. See Interdependent Variables for examples and details.
- None
Functions¶
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class
PySAM.SixParsolve.
SixParsolve
¶ 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 = { 'Six Parameter Solver': { 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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replace
(dict) → None¶ Replace attributes from nested dictionary, except for Outputs. Unassigns all values in each Group then assigns from the input dict.
nested_dict = { 'Six Parameter Solver': { var: val, ...}, ...}
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unassign
(name) → None¶ Unassign a value in any of the variable groups.
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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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SixParameterSolver Group¶
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class
PySAM.SixParsolve.SixParsolve.
SixParameterSolver
¶ -
assign
(dict) → None¶ Assign attributes from dictionary, overwriting but not removing values.
SixParameterSolver_vals = { var: val, ...}
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export
() → dict¶ Export attributes into dictionary.
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replace
(dict) → None¶ Replace attributes from dictionary, unassigning values not present in input
dict
.SixParameterSolver_vals = { var: val, ...}
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Imp
¶ Maximum power point current [A]
Required: True
Type: float
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Isc
¶ Short circuit current [A]
Required: True
Type: float
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Nser
¶ Number of cells in series
Constraints: INTEGER,POSITIVE
Required: True
Type: float
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Tref
¶ Reference cell temperature [‘C]
Required: False for configuration with default inputs. May be required if a variable dependent on its value changes. Example: For the Detailed PV - Single Owner configuration, only Subarray 1 is enabled in the configuration defaults, so Subarray 2 inputs would not be required; if Subarray 2 is enabled, then Subarray 2 inputs is required.
Type: float
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Vmp
¶ Maximum power point voltage [V]
Required: True
Type: float
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Voc
¶ Open circuit voltage [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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beta_voc
¶ Temp coeff of voltage at OC [V/’C]
Required: True
Type: float
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celltype
¶ Cell technology type [monoSi,multiSi/polySi,cis,cigs,cdte,amorphous]
Required: True
Type: str
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gamma_pmp
¶ Temp coeff of power at MP [%/’C]
Required: True
Type: float
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Outputs Group¶
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class
PySAM.SixParsolve.SixParsolve.
Outputs
¶ -
assign
(dict) → None¶ Assign attributes from dictionary, overwriting but not removing values.
Outputs_vals = { var: val, ...}
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export
() → dict¶ Export attributes into dictionary.
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replace
(dict) → None¶ Replace attributes from dictionary, unassigning values not present in input
dict
.Outputs_vals = { var: val, ...}
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Adj
¶ OC SC temp coeff adjustment [%]
Type: float
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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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