Harmony
HARMONic stabilitY assessment of PE-penetrated power systems
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Examples.h
Go to the documentation of this file.
1#ifndef _EXAMPLES_H_
2#define _EXAMPLES_H_
3
14extern void example_OPF_single_area(bool plotting_enabled = true);
15
17extern void example_OPF_csv(bool plotting_enabled = true);
18
20extern void example_OPF_ac(bool plotting_enabled = true);
21
23extern void example_OPF_double_area(bool plotting_enabled = true);
24
26extern void example_OPF_csv_1(bool plotting_enabled = true);
27
29extern void example_OPF_PV(bool plotting_enabled = true);
30
32extern void example_OPF_WT(bool plotting_enabled = true);
33
35extern void example_DQsym_math_operations(bool plotting_enabled = true);
36
38extern void example_DQsym_DSSS2(bool plotting_enabled = true);
39
41extern void example_DQsym_RLC(bool plotting_enabled = true);
42
44extern void example_DQsym_Simple_MMC(bool plotting_enabled = true);
45
48
50extern void example_state_space();
51
53extern void example_generator(bool plotting_enabled = true);
54
56extern void example_MMC(bool plotting_enabled = true);
57
59extern void example_WT_type_3(bool plotting_enabled = true);
60
62extern void example_WT_type_4(bool plotting_enabled = true);
63
65extern void example_PV_plant(bool plotting_enabled = true);
66
68extern void example_OHL(bool plotting_enabled = true);
69
71extern void example_cable(bool plotting_enabled = true);
72
74extern void example_transformer();
75
77extern void example_constructors();
78
80extern void example_visuals(bool plotting_enabled = true);
81
83extern void example_stability_check(bool plotting_enabled = true);
84
87
89extern void example_point2point_case();
90
91#endif
void example_cable(bool plotting_enabled=true)
Underground cable layers and Y-parameter sweep.
Definition example_cable.cpp:11
void example_OPF_csv_1(bool plotting_enabled=true)
Variant OPF case from CSV data.
Definition example_OPF_csv_1.cpp:8
void example_admittance_parameters()
Equivalent admittance parameter utilities.
Definition example_admittance_parameters.cpp:17
void example_DQsym_validation()
DQsym validation routines (header declaration only).
void example_OPF_double_area(bool plotting_enabled=true)
Double-area hybrid OPF demonstration.
Definition example_OPF_double_area.cpp:13
void example_transformer()
Transformer topologies and Y-parameters.
Definition example_transformer.cpp:11
void example_point2point_case()
Point-to-point HVDC-style OPF case.
Definition example_point2point_case.cpp:14
void example_DQsym_math_operations(bool plotting_enabled=true)
Validate core dynamic-phasor (DQsym) math operations.
Definition example_DQsym_math_operations.cpp:10
void example_DQsym_DSSS2(bool plotting_enabled=true)
DQsym switching / DSSS demonstration.
Definition example_DQsym_DSSS2.cpp:12
void example_OPF_single_area(bool plotting_enabled=true)
Single-area hybrid AC–DC optimal power flow case.
Definition example_OPF_single_area.cpp:13
void example_OHL(bool plotting_enabled=true)
Overhead transmission line geometry and Y-parameter sweep.
Definition example_OHL.cpp:18
void example_MMC(bool plotting_enabled=true)
MMC equilibrium, ABCD, Y-matrix, and eigenvalue study.
Definition example_MMC.cpp:11
void example_OPF_csv(bool plotting_enabled=true)
OPF case driven by CSV network data.
Definition example_OPF_csv.cpp:8
void example_generator(bool plotting_enabled=true)
Generator element demonstration.
Definition example_generator.cpp:10
void example_PV_plant(bool plotting_enabled=true)
Photovoltaic plant model demonstration.
Definition example_PV_plant.cpp:10
void example_stability_check(bool plotting_enabled=true)
Full AC–DC hybrid stability study.
Definition example_stability_check.cpp:13
void example_visuals(bool plotting_enabled=true)
Plotting and visualization utilities.
Definition example_visuals.cpp:9
void example_OPF_PV(bool plotting_enabled=true)
OPF study including a PV plant.
Definition example_OPF_PV.cpp:13
void example_OPF_ac(bool plotting_enabled=true)
AC-only OPF from bundled CSV case data.
Definition example_OPF_ac.cpp:8
void example_DQsym_RLC(bool plotting_enabled=true)
Simple RLC circuit in the DQsym framework.
Definition example_DQsym_RLC.cpp:10
void example_state_space()
Build state-space (A, B, C, D) matrices for an RLC network.
Definition example_state_space.cpp:12
void example_constructors()
Instantiate basic element types via constructors.
Definition example_constructors.cpp:12
void example_WT_type_4(bool plotting_enabled=true)
Type-4 wind-turbine model demonstration.
Definition example_WT_type_4.cpp:10
void example_DQsym_Simple_MMC(bool plotting_enabled=true)
Simplified MMC model in the DQsym solver.
Definition example_DQsym_Simple_MMC.cpp:11
void example_WT_type_3(bool plotting_enabled=true)
Type-3 wind-turbine model demonstration.
Definition example_WT_type_3.cpp:10
void example_OPF_WT(bool plotting_enabled=true)
OPF study including a wind-turbine plant.
Definition example_OPF_WT.cpp:13