AC/DC Module Physics Interface Guide

Each physics interface has a tagwhich is of special importance when performing multiphysics simulations. This tag helps distinguish between physics interfaces and the variables defined by the physics interface have an underscore plus the physics interface tag appended to their names.

The Model Wizard is an easy way to select the physics interface and study type when creating a model for the first time, and physics interfaces can be added to an existing model at any time. Full instructions for selecting interfaces and setting up a model are in the COMSOL Multiphysics Reference Manual.

	When using an axisymmetric physics interface it is important that the horizontal axis represents the r direction and the vertical axis the z direction, and that the geometry in the right half plane (that is, for positive r only) must be created.

Physics interface	Icon	Tag	Space Dimension	Available Study Type
AC/DC
Electric Currents1		ec	all dimensions	stationary; stationary source sweep; frequency domain; time dependent; small signal analysis, frequency domain; eigenfrequency
Electric Currents in Shells		ecis	3D	stationary; frequency domain; time dependent; eigenfrequency
Electric Currents in Layered Shells		ecis	3D	stationary; frequency domain; time dependent; eigenfrequency
Electrical Circuit		cir	Not space dependent	stationary; frequency domain; time dependent; small signal analysis, frequency domain; eigenfrequency
Electrostatics1		es	all dimensions	stationary; time dependent; stationary source sweep; eigenfrequency; frequency domain; small signal analysis, frequency domain; eigenfrequency
Electrostatics, Boundary Elements		esbe	3D, 2D	stationary; stationary source sweep; frequency domain; small signal analysis, frequency domain
Magnetic Fields1		mf	3D, 2D, 2D axisymmetric	stationary; frequency domain; time dependent; small signal analysis, frequency domain; coil geometry analysis (3D only); time to frequency losses; eigenfrequency
Magnetic Field Formulation		mfh	3D, 2D, 2D axisymmetric	stationary; frequency domain; time dependent; small signal analysis, frequency domain; time to frequency losses
Magnetic Fields, No Currents		mfnc	3D, 2D, 2D axisymmetric	stationary; frequency domain; time dependent; time to frequency losses
Magnetic Fields, No Currents, Boundary Elements		mfncbe	3D, 2D	stationary
Magnetic Fields, Currents Only		mfco	3D	stationary; stationary source sweep with initialization
Magnetic and Electric Fields		mef	3D, 2D, 2D axisymmetric	stationary; frequency domain; small signal analysis, frequency domain; coil geometry analysis (3D only)
Rotating Machinery, Magnetic		rmm	3D, 2D	stationary; time dependent, coil geometry analysis (3D only); frequency domain; time to frequency losses
Particle Tracing
Particle Field Interaction, Non-Relativistic4		—	3D, 2D, 2D axisymmetric	bidirectionally coupled particle tracing; time dependent
Particle Field Interaction, Relativistic4		—	3D, 2D, 2D axisymmetric	bidirectionally coupled particle tracing; time dependent
Charged Particle Tracing4		cpt	3D, 2D, 2D axisymmetric	bidirectionally coupled particle tracing; time dependent
	Fluid-Structure Interaction
Heat Transfer
	Electromagnetic Heating
	Induction Heating2		—	3D, 2D, 2D axisymmetric	stationary; time dependent; frequency-stationary; frequency-transient; frequency-stationary, one-way electromagnetic heating; frequency-transient, one-way electromagnetic heating; small-signal analysis, frequency domain
	Joule Heating1,2		—	all dimensions	stationary; time dependent; frequency-transient; small-signal analysis; frequency domain; frequency-stationary; frequency-stationary, one-way electromagnetic heating; frequency-transient, one-way electromagnetic heating
Structural Mechanics
Joule Heating and Thermal Expansion2,3		—	3D, 2D, 2D axisymmetric	stationary; time dependent
Electromechanics3		—	3D, 2D, 2D axisymmetric	stationary; eigenfrequency, prestressed; time dependent; frequency domain, prestressed
Electromechanics, Boundary Elements3		—	3D, 2D	stationary; eigenfrequency, prestressed; time dependent; frequency domain, prestressed
Piezoelectricity2,3		—	3D, 2D, 2D axisymmetric	stationary; eigenfrequency; eigenfrequency, prestressed; time dependent; time dependent, modal; frequency domain; frequency domain, modal; frequency domain, prestressed; frequency domain, prestressed, modal; small-signal analysis, frequency domain; linear buckling
Piezoelectricity, Layered Shell2, 3		—	3D	stationary; eigenfrequency; time dependent; frequency domain
Magnetostriction2,3		—	3D, 2D, 2D axisymmetric	stationary; eigenfrequency; time dependent; frequency domain; small-signal analysis, frequency domain; eigenfrequency, prestressed; frequency domain, prestressed
Magnetomechanics2,3		—	3D, 2D, 2D axisymmetric	stationary; eigenfrequency; time dependent; frequency domain; small-signal analysis, frequency domain; eigenfrequency, prestressed; frequency domain, prestressed
Magnetomechanics, No Currents2,3		—	3D, 2D, 2D axisymmetric	stationary; eigenfrequency; time dependent; frequency domain; small-signal analysis, frequency domain; eigenfrequency, prestressed; frequency domain, prestressed
Ferroelectroelasticity2, 3		—	3D, 2D, 2D axisymmetric	stationary; time dependent; frequency domain
Electrostriction2, 3		—	3D, 2D, 2D axisymmetric	stationary; time dependent; frequency domain
	Piezoresistivity
	Piezoresistivity, Domain Currents3		—	3D	stationary; eigenfrequency; time dependent; time dependent, modal; frequency domain; frequency domain, modal; small-signal analysis, frequency domain; eigenfrequency, prestressed; frequency domain, prestressed
	Piezoresistivity, Shell,3		—	3D	stationary; time dependent; time dependent, modal; frequency domain; frequency domain, modal; small-signal analysis, frequency domain; eigenfrequency, prestressed; frequency domain, prestressed
	Piezoresistivity, Boundary Currents3		—	3D	stationary; eigenfrequency; time dependent; time dependent, modal; frequency domain; frequency domain, modal; small-signal analysis, frequency domain; eigenfrequency, prestressed; frequency domain, prestressed
1 This physics interface is included with the core COMSOL package but has added functionality for this module. 2 This physics interface is a predefined multiphysics coupling that automatically adds all the physics interfaces and coupling features required. 3 Requires the addition of the Structural Mechanics Module or the MEMS Module. 4 Requires the addition of the Particle Tracing Module.

AC/DC

stationary; stationary source sweep; frequency domain; time dependent; small signal analysis, frequency domain; eigenfrequency

Electric Currents in Shells

ecis

stationary; frequency domain; time dependent; eigenfrequency

Electric Currents in Layered Shells

ecis

stationary; frequency domain; time dependent; eigenfrequency

Electrical Circuit

cir

Not space dependent

stationary; frequency domain; time dependent; small signal analysis, frequency domain; eigenfrequency

Electrostatics1

all dimensions

stationary; time dependent; stationary source sweep; eigenfrequency; frequency domain; small signal analysis, frequency domain; eigenfrequency

Electrostatics, Boundary Elements

esbe

3D, 2D

stationary; stationary source sweep; frequency domain; small signal analysis, frequency domain

Magnetic Fields1

3D, 2D, 2D axisymmetric

stationary; frequency domain; time dependent; small signal analysis, frequency domain; coil geometry analysis (3D only); time to frequency losses; eigenfrequency