Closed-loop RCR boundary condition. More...

#include <ClosedLoopRCRBC.h>

Inheritance diagram for ClosedLoopRCRBC:

Public Types
enum	ParamId { RP = 0 , C = 1 , RD = 2 }
	Local IDs of the parameters. More...

Public Member Functions
	ClosedLoopRCRBC (int id, Model *model)
	Construct a new ClosedLoopRCRBC object.

void	setup_dofs (DOFHandler &dofhandler)
	Set up the degrees of freedom (DOF) of the block.

void	update_constant (SparseSystem &system, std::vector< double > &parameters)
	Update the constant contributions of the element in a sparse system.

Public Member Functions inherited from Block
	Block (int id, Model *model, BlockType block_type, BlockClass block_class, std::vector< std::pair< std::string, InputParameter > > input_params)
	Construct a new Block object.

	~Block ()
	Destroy the Block object.

	Block (const Block &)=delete
	Copy the Block object.

std::string	get_name ()
	Get the name of the block.

void	update_vessel_type (VesselType type)
	Update vessel type of the block.

void	setup_params_ (const std::vector< int > &param_ids)
	Setup parameter IDs for the block.

void	setup_dofs_ (DOFHandler &dofhandler, int num_equations, const std::list< std::string > &internal_var_names)
	Set up the degrees of freedom (DOF) of the block.

virtual void	setup_model_dependent_params ()
	Setup parameters that depend on the model.

virtual void	setup_initial_state_dependent_params (State initial_state, std::vector< double > &parameters)
	Setup parameters that depend on the initial state.

virtual void	update_time (SparseSystem &system, std::vector< double > &parameters)
	Update the time-dependent contributions of the element in a sparse system.

virtual void	update_solution (SparseSystem &system, std::vector< double > &parameters, const Eigen::Matrix< double, Eigen::Dynamic, 1 > &y, const Eigen::Matrix< double, Eigen::Dynamic, 1 > &dy)
	Update the solution-dependent contributions of the element in a sparse system.

virtual void	post_solve (Eigen::Matrix< double, Eigen::Dynamic, 1 > &y)
	Modify the solution after solving it.

virtual void	update_gradient (Eigen::SparseMatrix< double > &jacobian, Eigen::Matrix< double, Eigen::Dynamic, 1 > &residual, Eigen::Matrix< double, Eigen::Dynamic, 1 > &alpha, std::vector< double > &y, std::vector< double > &dy)
	Set the gradient of the block contributions with respect to the parameters.

virtual TripletsContributions	get_num_triplets ()
	Get number of triplets of element.

Public Attributes
TripletsContributions	num_triplets {8, 1, 0}
	Number of triplets of element.

Public Attributes inherited from Block
const int	id
	Global ID of the block.

const Model *	model
	The model to which the block belongs.

const BlockType	block_type
	Type of this block.

const BlockClass	block_class
	Class of this block.

VesselType	vessel_type = VesselType::neither
	Vessel type of this block.

const std::vector< std::pair< std::string, InputParameter > >	input_params
	Map from name to input parameter.

std::vector< Node * >	inlet_nodes
	Inlet nodes.

std::vector< Node * >	outlet_nodes
	Outlet nodes.

bool	steady = false
	Toggle steady behavior.

bool	input_params_list = false
	Are input parameters given as a list?

std::vector< int >	global_param_ids
	Global IDs for the block parameters.

std::vector< int >	global_var_ids
	Global variable indices of the local element contributions.

std::vector< int >	global_eqn_ids
	Global equation indices of the local element contributions.

TripletsContributions	num_triplets
	Number of triplets of element.

Detailed Description

Closed-loop RCR boundary condition.

Models the mechanical behavior of a Windkessel boundary condition that is connected to other blocks on both sides.

$\begin{circuitikz} \draw node[left] {$Q_{in}$} [-latex] (0,0) -- (0.8,0); \draw (1,0) node[anchor=south]{$P_{in}$} to [R, l=$R_p$, *-] (3,0) node[anchor=south]{$P_{c}$} to [R, l=$R_d$, *-*] (5,0) node[anchor=south]{$P_{out}$} (3,0) to [C, l=$C$, *-] (3,-1.5) node[ground]{}; \draw [-latex] (5.2,0) -- (6.0,0) node[right] {$Q_{out}$} ; \end{circuitikz}$