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SimplifiedSingleCageInductionMachine.jl
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SimplifiedSingleCageInductionMachine.jl
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#=
This file is auto-generated. Do not edit.
=#
#! format: off
"""
mutable struct SimplifiedSingleCageInductionMachine <: DynamicInjection
name::String
R_s::Float64
R_r::Float64
X_ls::Float64
X_lr::Float64
X_m::Float64
H::Float64
A::Float64
B::Float64
base_power::Float64
ext::Dict{String, Any}
C::Float64
τ_ref::Float64
B_shunt::Float64
X_ss::Float64
X_rr::Float64
X_p::Float64
states::Vector{Symbol}
n_states::Int
internal::InfrastructureSystemsInternal
end
Parameters of 3-states three-phase single cage induction machine with quadratic torque-speed relationship.
# Arguments
- `name::String`
- `R_s::Float64`: Armature stator resistance, validation range: `(0, nothing)`
- `R_r::Float64`: Rotor resistance, validation range: `(0, nothing)`
- `X_ls::Float64`: Stator Leakage Reactance, validation range: `(0, nothing)`
- `X_lr::Float64`: Rotor Leakage Reactance, validation range: `(0, nothing)`
- `X_m::Float64`: Stator-Rotor Mutual Reactance, validation range: `(0, nothing)`
- `H::Float64`: Motor Inertia Constant [s], validation range: `(0, nothing)`
- `A::Float64`: Torque-Speed Quadratic Term, validation range: `(0, 1)`
- `B::Float64`: Torque-Speed Linear Term, validation range: `(0, 1)`
- `base_power::Float64`: Base power, validation range: `(0, nothing)`
- `ext::Dict{String, Any}`
- `C::Float64`: Torque-Speed Constant Term
- `τ_ref::Float64`: Reference torque parameter
- `B_shunt::Float64`: Susceptance Initialization Corrector Term
- `X_ss::Float64`: Stator self reactance
- `X_rr::Float64`: Rotor self reactance
- `X_p::Float64`: Transient reactance
- `states::Vector{Symbol}`: The states are:
ψ_qr: rotor flux in the q-axis,
ψ_dr: rotor flux in the d-axis,
ωr: Rotor speed [pu],
- `n_states::Int`: SimplifiedSingleCageInductionMachine has 3 states
- `internal::InfrastructureSystemsInternal`: power system internal reference, do not modify
"""
mutable struct SimplifiedSingleCageInductionMachine <: DynamicInjection
name::String
"Armature stator resistance"
R_s::Float64
"Rotor resistance"
R_r::Float64
"Stator Leakage Reactance"
X_ls::Float64
"Rotor Leakage Reactance"
X_lr::Float64
"Stator-Rotor Mutual Reactance"
X_m::Float64
"Motor Inertia Constant [s]"
H::Float64
"Torque-Speed Quadratic Term"
A::Float64
"Torque-Speed Linear Term"
B::Float64
"Base power"
base_power::Float64
ext::Dict{String, Any}
"Torque-Speed Constant Term"
C::Float64
"Reference torque parameter"
τ_ref::Float64
"Susceptance Initialization Corrector Term"
B_shunt::Float64
"Stator self reactance"
X_ss::Float64
"Rotor self reactance"
X_rr::Float64
"Transient reactance"
X_p::Float64
"The states are:
ψ_qr: rotor flux in the q-axis,
ψ_dr: rotor flux in the d-axis,
ωr: Rotor speed [pu],"
states::Vector{Symbol}
"SimplifiedSingleCageInductionMachine has 3 states"
n_states::Int
"power system internal reference, do not modify"
internal::InfrastructureSystemsInternal
end
function SimplifiedSingleCageInductionMachine(name, R_s, R_r, X_ls, X_lr, X_m, H, A, B, base_power, ext=Dict{String, Any}(), )
SimplifiedSingleCageInductionMachine(name, R_s, R_r, X_ls, X_lr, X_m, H, A, B, base_power, ext, PowerSystems.calculate_IM_torque_params(A, B), 1.0, 0.0, X_ls + X_m, X_lr + X_m, X_ss - X_m^2 / X_rr, [:ψ_qr, :ψ_dr, :ωr], 3, InfrastructureSystemsInternal(), )
end
function SimplifiedSingleCageInductionMachine(; name, R_s, R_r, X_ls, X_lr, X_m, H, A, B, base_power, ext=Dict{String, Any}(), C=PowerSystems.calculate_IM_torque_params(A, B), τ_ref=1.0, B_shunt=0.0, X_ss=X_ls + X_m, X_rr=X_lr + X_m, X_p=X_ss - X_m^2 / X_rr, states=[:ψ_qr, :ψ_dr, :ωr], n_states=3, internal=InfrastructureSystemsInternal(), )
SimplifiedSingleCageInductionMachine(name, R_s, R_r, X_ls, X_lr, X_m, H, A, B, base_power, ext, C, τ_ref, B_shunt, X_ss, X_rr, X_p, states, n_states, internal, )
end
# Constructor for demo purposes; non-functional.
function SimplifiedSingleCageInductionMachine(::Nothing)
SimplifiedSingleCageInductionMachine(;
name="init",
R_s=0,
R_r=0,
X_ls=0,
X_lr=0,
X_m=0,
H=0,
A=0.0,
B=0.0,
base_power=0,
ext=Dict{String, Any}(),
)
end
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `name`."""
get_name(value::SimplifiedSingleCageInductionMachine) = value.name
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `R_s`."""
get_R_s(value::SimplifiedSingleCageInductionMachine) = value.R_s
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `R_r`."""
get_R_r(value::SimplifiedSingleCageInductionMachine) = value.R_r
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `X_ls`."""
get_X_ls(value::SimplifiedSingleCageInductionMachine) = value.X_ls
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `X_lr`."""
get_X_lr(value::SimplifiedSingleCageInductionMachine) = value.X_lr
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `X_m`."""
get_X_m(value::SimplifiedSingleCageInductionMachine) = value.X_m
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `H`."""
get_H(value::SimplifiedSingleCageInductionMachine) = value.H
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `A`."""
get_A(value::SimplifiedSingleCageInductionMachine) = value.A
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `B`."""
get_B(value::SimplifiedSingleCageInductionMachine) = value.B
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `base_power`."""
get_base_power(value::SimplifiedSingleCageInductionMachine) = value.base_power
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `ext`."""
get_ext(value::SimplifiedSingleCageInductionMachine) = value.ext
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `C`."""
get_C(value::SimplifiedSingleCageInductionMachine) = value.C
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `τ_ref`."""
get_τ_ref(value::SimplifiedSingleCageInductionMachine) = value.τ_ref
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `B_shunt`."""
get_B_shunt(value::SimplifiedSingleCageInductionMachine) = value.B_shunt
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `X_ss`."""
get_X_ss(value::SimplifiedSingleCageInductionMachine) = value.X_ss
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `X_rr`."""
get_X_rr(value::SimplifiedSingleCageInductionMachine) = value.X_rr
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `X_p`."""
get_X_p(value::SimplifiedSingleCageInductionMachine) = value.X_p
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `states`."""
get_states(value::SimplifiedSingleCageInductionMachine) = value.states
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `n_states`."""
get_n_states(value::SimplifiedSingleCageInductionMachine) = value.n_states
"""Get [`SimplifiedSingleCageInductionMachine`](@ref) `internal`."""
get_internal(value::SimplifiedSingleCageInductionMachine) = value.internal
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `R_s`."""
set_R_s!(value::SimplifiedSingleCageInductionMachine, val) = value.R_s = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `R_r`."""
set_R_r!(value::SimplifiedSingleCageInductionMachine, val) = value.R_r = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `X_ls`."""
set_X_ls!(value::SimplifiedSingleCageInductionMachine, val) = value.X_ls = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `X_lr`."""
set_X_lr!(value::SimplifiedSingleCageInductionMachine, val) = value.X_lr = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `X_m`."""
set_X_m!(value::SimplifiedSingleCageInductionMachine, val) = value.X_m = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `H`."""
set_H!(value::SimplifiedSingleCageInductionMachine, val) = value.H = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `A`."""
set_A!(value::SimplifiedSingleCageInductionMachine, val) = value.A = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `B`."""
set_B!(value::SimplifiedSingleCageInductionMachine, val) = value.B = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `base_power`."""
set_base_power!(value::SimplifiedSingleCageInductionMachine, val) = value.base_power = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `ext`."""
set_ext!(value::SimplifiedSingleCageInductionMachine, val) = value.ext = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `C`."""
set_C!(value::SimplifiedSingleCageInductionMachine, val) = value.C = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `τ_ref`."""
set_τ_ref!(value::SimplifiedSingleCageInductionMachine, val) = value.τ_ref = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `B_shunt`."""
set_B_shunt!(value::SimplifiedSingleCageInductionMachine, val) = value.B_shunt = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `X_ss`."""
set_X_ss!(value::SimplifiedSingleCageInductionMachine, val) = value.X_ss = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `X_rr`."""
set_X_rr!(value::SimplifiedSingleCageInductionMachine, val) = value.X_rr = val
"""Set [`SimplifiedSingleCageInductionMachine`](@ref) `X_p`."""
set_X_p!(value::SimplifiedSingleCageInductionMachine, val) = value.X_p = val