model MagneticPotentialSensor "Sensor to measure magnetic potential"
extends Modelica.Icons.RotationalSensor;
Modelica.ComplexBlocks.Interfaces.ComplexOutput V_m "Complex magnetic potential as output signal"
annotation (Placement(transformation(
origin = {0, -100},
extent = {
{10, -10},
{-10, 10}},
rotation = 90)));
Modelica.SIunits.MagneticPotentialDifference abs_V_m = Modelica.ComplexMath.'abs'(V_m) "Magnitude of complex magnetic potential difference";
Modelica.SIunits.Angle arg_V_m = Modelica.ComplexMath.arg(V_m) "Argument of complex magnetic potential difference";
FundamentalWave.Interfaces.PositiveMagneticPort port_p "Quasi static magnetic port of sensor"
annotation (Placement(transformation(extent = {
{-110, -10},
{-90, 10}})));
equation
V_m = port_p.V_m;
port_p.Phi = Complex(0, 0);
annotation (
defaultComponentName = "magPotentialSensor",
Icon(
coordinateSystem(
preserveAspectRatio = false,
extent = {
{-100, -100},
{100, 100}},
grid = {2, 2}),
graphics = {
Text(
extent = {
{-52, 1},
{48, -57}},
textString = "V_m"),
Line(points = {
{-70, 0},
{-90, 0}}),
Line(points = {
{0, -90},
{0, -70}}),
Text(
extent = {
{-140, 120},
{140, 80}},
textString = "%name",
lineColor = {0, 0, 255})}),
Documentation(info = "<html>\n<p>Sensor for magnetic potential difference.</p>\n\n<h4>See also</h4>\n<p>\n<a href=\"modelica://Modelica.Magnetic.FundamentalWave.Sensors.MagneticFluxSensor\">MagneticFluxSensor</a>\n</p></html>"));
end MagneticPotentialSensor;