Analog.Transformer ​
This component extends from TwoPort
Usage ​
TranslatedComponents.Analog.Transformer(L1=1, L2=1, M=1)
Parameters: ​
| Name | Description | Units | Default value |
|---|---|---|---|
L1 | H | 1 | |
L2 | H | 1 | |
M | H | 1 |
Connectors ​
p1- This connector represents an electrical pin with voltage and current as the potential and flow variables, respectively. (Pin)n1- This connector represents an electrical pin with voltage and current as the potential and flow variables, respectively. (Pin)p2- This connector represents an electrical pin with voltage and current as the potential and flow variables, respectively. (Pin)n2- This connector represents an electrical pin with voltage and current as the potential and flow variables, respectively. (Pin)
Variables ​
| Name | Description | Units |
|---|---|---|
v1 | V | |
v2 | V | |
i1 | A | |
i2 | A | |
dv | – |
Behavior ​
julia
using TranslatedComponents #hide
using ModelingToolkit #hide
@variables L1 #hide
@variables L2 #hide
@variables M #hide
@named sys = TranslatedComponents.Analog.Transformer(L1=L1, L2=L2, M=M) #hide
full_equations(sys) #hide<< @example-block not executed in draft mode >>Source ​
dyad
component Transformer
extends TwoPort
parameter L1::Dyad.Inductance = 1
parameter L2::Dyad.Inductance = 1
parameter M::Dyad.Inductance = 1
variable dv::Real
relations
v1 = L1 * der(i1) + M * der(i2)
dv = (L1 - M) * der(i1) + (M - L2) * der(i2)
v2 = v1 - dv
endFlattened Source
dyad
component Transformer
p1 = Pin()
n1 = Pin()
p2 = Pin()
n2 = Pin()
variable v1::Dyad.Voltage
variable v2::Dyad.Voltage
variable i1::Dyad.Current
variable i2::Dyad.Current
parameter L1::Dyad.Inductance = 1
parameter L2::Dyad.Inductance = 1
parameter M::Dyad.Inductance = 1
variable dv::Real
relations
v1 = p1.v - n1.v
v2 = p2.v - n2.v
i1 = p1.i
i2 = p2.i
0 = p1.i + n1.i
0 = p2.i + n2.i
v1 = L1 * der(i1) + M * der(i2)
dv = (L1 - M) * der(i1) + (M - L2) * der(i2)
v2 = v1 - dv
metadata {}
endTest Cases ​
No test cases defined.
Related ​
Examples
Experiments
Analyses