fastga_he.models.propulsion.components.connectors.rectifier.components.perf_rectifier_relations module

class fastga_he.models.propulsion.components.connectors.rectifier.components.perf_rectifier_relations.PerformancesRectifierRelations(**kwargs)[source]

Bases: ImplicitComponent

The rectifier is divided between a load side where the power source is and a generator side where the rest of the circuit is. This component represents the link between the two sides.

Based on the methodology from [HCAH19].

Store some bound methods so we can detect runtime overrides.

initialize()[source]: Perform any one-time initialization run at instantiation.

setup()[source]

Declare inputs and outputs.

Available attributes:: name pathname comm options

apply_nonlinear(inputs, outputs, residuals, discrete_inputs=None, discrete_outputs=None)[source]

Compute residuals given inputs and outputs.

The model is assumed to be in an unscaled state.

Parameters:

inputs (Vector) – Unscaled, dimensional input variables read via inputs[key].
outputs (Vector) – Unscaled, dimensional output variables read via outputs[key].
residuals (Vector) – Unscaled, dimensional residuals written to via residuals[key].
discrete_inputs (dict or None) – If not None, dict containing discrete input values.
discrete_outputs (dict or None) – If not None, dict containing discrete output values.

linearize(inputs, outputs, jacobian, discrete_inputs=None, discrete_outputs=None)[source]

Compute sub-jacobian parts and any applicable matrix factorizations.

The model is assumed to be in an unscaled state.

Parameters:

inputs (Vector) – Unscaled, dimensional input variables read via inputs[key].
outputs (Vector) – Unscaled, dimensional output variables read via outputs[key].
jacobian (Jacobian) – Sub-jac components written to jacobian[output_name, input_name].
discrete_inputs (dict or None) – If not None, dict containing discrete input values.
discrete_outputs (dict or None) – If not None, dict containing discrete output values.