This library contains components for modelling of multiphase electrical circuits. The number of phases m is not restricted to three. The connector (named plug) contains an array of m singlephase pins. Most of the components use an array of singlephase components from Modelica.Electrical.Analog.

For the orientation of an arbitrary number of phases m > 3, see the phase orientation concept.

Extends from Modelica.Icons.Information (Icon for general information packages).

Name | Description |
---|---|

PhaseOrientation | Orientation of phases |

Contact | Contact |

ReleaseNotes | Release Notes |

References | References |

**In multiphase systems, the angular displacement of voltages and currents of the phases as well as the spatial displacement of machine windings have to follow the same rules, i.e., they are based on the same
orientation function.**

A symmetrical three phases system consists of three sinusoidal sine waves with an angular displacement of 2 π / 3.

In symmetrical multi phase systems odd and even phase numbers have to be distinguished.

For a symmetrical multi phase system with m phases the displacement of the sine waves is 2 π / m.

In case of an even number of phases the aligned orientation does not add any information. Instead the m phases are divided into two or more different groups (the base systems).

The number of phases m can be divided by 2 recursively until the result is either an odd number or 2. The result of this division is called m_{Base}, the number of phases of the base system.
The number of base systems n_{Base} is defined by the number of divisions, i.e., m = n_{Base} * m_{Base}.

For a base system with m_{Base} phases the displacement of the sine waves belonging to that base system is 2 π / m_{Base}.

The displacement of the base systems is defined as π / n_{Base}.

In array or matrices, the base systems are stored one after another.

For each base system of time phasors, symmetrical components can be calculated according to the idea of Charles L. Fortescue.

The first symmetrical component is the direct component with positive sequence.

In case of m_{Base} = 2, the second component is the inverse component with negative sequence.

In case of m_{Base} > 2, the components [2..m_{Base} - 1] are components with non-positive sequence,

and the last component [m_{Base}] is the zero sequence component.

This set of symmetrical components is repeated for each of the n_{Base} base systems.

User's guide on multi phase winding.

Extends from Modelica.Icons.Information (Icon for general information packages).

**Dr. Christian Kral**

Electric Machines, Drives and Systems

1060 Vienna, Austria

email: dr.christian.kral@gmail.com

**Anton Haumer**

Technical Consulting & Electrical Engineering

D-93049 Regensburg, Germany

email: a.haumer@haumer.at

Extends from Modelica.Icons.Contact (Icon for contact information).

- Shortened default component names, see #2301
- Removed redundant (and not identical) parameter m from MutualInductor, see #2202
- Changed epsilon from constant to parameter in MutualInductor, see #2200
- Added User's Guide
- Added blocks and functions for multiple base systems

- Added conditional HeatPorts as in Electrical.Analog
- Added switches with arc as in Electrical.Analog

- Removed redeclare type SignalType

- Improved documentation

- Improved some icons

- Removed annotation from pin of Interfaces.Plug
- Corrected usage of resistance/conductance

- Added Sensors.PowerSensor

- Initial release version

Extends from Modelica.Icons.ReleaseNotes (Icon for release notes in documentation).

[Vaske1963] | P. Vaske,
"Über die Drehfelder und Drehmomente symmetrischer Komponenten in Induktionsmaschinen,"
(in German), Archiv für Elektrotechnik
vol 2, 1963, pp. 97-117. |

Extends from Modelica.Icons.References (Icon for external references).

Automatically generated Thu Jan 24 11:19:48 2019.