Proximity effect (electromagnetism)

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Proximity effect (electromagnetism)

In a conductor carrying current, if currents are flowing through one or more other nearby conductors, such as within a closely wound coil of wire, the distribution of current within the first conductor will be constrained to smaller regions. The resulting current crowding is termed the proximity effect.

Explanation
A changing magnetic field

Magnetic field

A magnetism field is a vector field which can exert a magnetic force on moving electric charges and on magnetic dipoles . When placed in a magnetic field, magnetic dipoles tend to align their axes parallel to the magnetic field....
will influence the distribution of an electric current

Electric current

Electric current is the flow of electric charge. The electric charge may be either electrons or ions.The International System of Units unit of electric current intensity is the ampere....
flowing within an electrical conductor

Electrical conductor

In science and Electrical engineering, an electrical conductor is a material which contains movable electric charges. In metallic conductors, such as copper or aluminum, the movable charged particles are electrons ....
.

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Explanation

A changing magnetic field

Magnetic field

Electric current

Electrical conductor

Alternating current

In alternating current the movement of electric charge periodically reverses direction. An electric charge would for instance move forward, then backward, then forward, then backward, over and over again....
(AC) flows through an isolated conductor, it creates an associated alternating magnetic field. The alternating magnetic field induces eddy currents within adjacent conductors, altering the overall distribution of current flowing through them.

The proximity effect significantly increases the AC resistance

Electrical resistance

The electrical resistance of an object is a measure of its opposition to the passage of a steady electrical current. An object of uniform cross section will have a resistance proportional to its length and inversely proportional to its cross-sectional area, and proportional to the resistivity of the material....
of adjacent conductor when compared to its resistance to a DC

Direct current

Direct current is the unidirectional flow of electric charge. Direct current is produced by such sources as battery , thermocouples, solar cells, and commutator-type electric machines of the dynamo type....
current. At higher frequencies, the AC resistance of a conductor can easily exceed ten times its DC resistance.

The additional resistance increases electrical losses which, in turn, generate undesirable heating. Proximity and skin effects significantly complicate the design of efficient transformer

Transformer

A transformer is a device that transfers electrical energy from one electrical network to another through inductive coupling conductors — the transformer's coils or "windings"....
s operating at high frequencies within switching power supplies.

Many methods exist for determining winding losses due to the proximity effect in transformers and inductors.

Dowell method for determination of losses

This 1D method for transformers assumes the wires have rectangular cross-section, but can be applied approximately to circular wire by treating it as square with the same cross-sectional area.

The windings are divided into 'portions', each portion being a group of layers which contains one position of zero m.m.f.

Magnetomotive force

Magnetomotive force is any physical cause that produces magnetic flux, i.e. lines of forces emitted from a magnetic material. If a magnetic field passes through a cross sectional area A , it produces a flux given by the equation MMF?A = flux ....
For a transformer with a separate primary and secondary winding, each winding is a portion. For a transformer with interleaved (or sectionalised) windings, the innermost and outermost sections are each one portion, while the other sections are each divided into two portions at the point where zero m.m.f occurs.

The total resistance of a portion is given by

R_DC is the DC resistance of the portion

Re(.) is the real part of the expression in brackets

m number of layers in the portion, this should be an integer

Angular frequency

In physics , angular frequency ? is a scalar measure of rotation rate. Angular frequency is the magnitude of the vector quantity angular velocity....
of the current resistivity of the conductor material

N_l number of turns per layer

a width of a square conductor

b width of the winding window

h height of a square conductor

Squared-field-derivative method

This can be used for round wire or litz wire

Litz wire

Litz wire is a special type of wire used in electronics. The wire is designed to reduce the skin effect and Proximity effect losses in conductors....
transformers or inductors with multiple windings of arbitrary geometry with arbitrary current waveforms in each winding. The diameter of each strand should be less than 2 d

Skin depth

Skin depth, also known as classical skin depth, is a measure of the distance an alternating current can penetrate beneath the surface of a Electrical conductor....
. It also assumes the magnetic field is perpendicular to the axis of the wire, which is the case in most designs.

Find values of the B field due to each winding individually. This can be done using a simple magnetostatic FEA model where each winding is represented as a region of constant current density, ignoring individual turns and litz strands.

Produce a matrix, D, from these fields. D is a function of the geometry and is independent of the current waveforms.

is the field due to a unit current in winding j

<.>_j is the spatial average over the region of winding j

is the number of turns in winding j, for litz wire this is the product of the number of turns and the strands per turn.

is the average length of a turn

is the wire or strand diameter

is the resistivity of the wire

AC power loss in all windings can be found using D, and expressions for the instantaneous current
Electric current

Electric current is the flow of electric charge. The electric charge may be either electrons or ions.The International System of Units unit of electric current intensity is the ampere....
in each winding:

Total winding power loss is then found by combing this value with the DC loss,

The method can be generalized to multiple windings.

Cables

Proximity effect can also occur within electrical cables. For example, if the conductors are a pair of audio speaker wire

Speaker wire

Speaker wire is used to make the electrical connection between loudspeakers and audio amplifiers. Modern speaker wire consists of two electrical conductors individually Electrical insulation by plastic....
s, their currents have opposite direction, and currents will preferentially flow along the sides of the wires that are facing each other. The AC resistance of the wires will dynamically change (slightly) along with the audio signal. Some believe that this will potentially introduce distortion

Distortion

A distortion is the alteration of the original shape of an object, image, sound, waveform or other form of information or representation. Distortion is usually unwanted....
and degrade stereo imaging. However, it can be shown that, for reasonable conductor sizes, spacing, and length, this effect is so small as to have an unmeasurable practical impact on audio quality.

External links

Electromagnetic effects

Proximity effect (electromagnetism)

Explanation

Dowell method for determination of losses

Squared-field-derivative method

Cables

See also

External links