Loss Angle
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Dielectric loss quantifies a
dielectric material In electromagnetism, a dielectric (or dielectric medium) is an electrical insulator that can be polarised by an applied electric field. When a dielectric material is placed in an electric field, electric charges do not flow through the mater ...
's inherent dissipation of electromagnetic energy (e.g. heat). It can be parameterized in terms of either the loss angle ''δ'' or the corresponding loss tangent tan ''δ''. Both refer to the
phasor In physics and engineering, a phasor (a portmanteau of phase vector) is a complex number representing a sinusoidal function whose amplitude (''A''), angular frequency (''ω''), and initial phase (''θ'') are time-invariant. It is related to ...
in the
complex plane In mathematics, the complex plane is the plane formed by the complex numbers, with a Cartesian coordinate system such that the -axis, called the real axis, is formed by the real numbers, and the -axis, called the imaginary axis, is formed by the ...
whose real and imaginary parts are the
resistive The electrical resistance of an object is a measure of its opposition to the flow of electric current. Its reciprocal quantity is , measuring the ease with which an electric current passes. Electrical resistance shares some conceptual parallels ...
(lossy) component of an electromagnetic field and its
reactive Reactive may refer to: *Generally, capable of having a reaction (disambiguation) *An adjective abbreviation denoting a bowling ball coverstock made of reactive resin *Reactivity (chemistry) *Reactive mind *Reactive programming See also *Reactanc ...
(lossless) counterpart.


Electromagnetic field perspective

For time varying electromagnetic fields, the electromagnetic energy is typically viewed as waves propagating either through free space, in a
transmission line In electrical engineering, a transmission line is a specialized cable or other structure designed to conduct electromagnetic waves in a contained manner. The term applies when the conductors are long enough that the wave nature of the transmis ...
, in a
microstrip Microstrip is a type of electrical transmission line which can be fabricated with any technology where a conductor is separated from a ground plane by a dielectric layer known as the substrate. Microstrip lines are used to convey microwave-frequ ...
line, or through a
waveguide A waveguide is a structure that guides waves, such as electromagnetic waves or sound, with minimal loss of energy by restricting the transmission of energy to one direction. Without the physical constraint of a waveguide, wave intensities de ...
. Dielectrics are often used in all of these environments to mechanically support electrical conductors and keep them at a fixed separation, or to provide a barrier between different gas pressures yet still transmit electromagnetic power. Maxwell’s equations are solved for the electric and magnetic field components of the propagating waves that satisfy the boundary conditions of the specific environment's geometry. In such electromagnetic analyses, the parameters
permittivity In electromagnetism, the absolute permittivity, often simply called permittivity and denoted by the Greek letter ''ε'' ( epsilon), is a measure of the electric polarizability of a dielectric. A material with high permittivity polarizes more in ...
''ε'', permeability ''μ'', and
conductivity Conductivity may refer to: *Electrical conductivity, a measure of a material's ability to conduct an electric current **Conductivity (electrolytic), the electrical conductivity of an electrolyte in solution **Ionic conductivity (solid state), elec ...
''σ'' represent the properties of the media through which the waves propagate. The permittivity can have real and imaginary components (the latter excluding ''σ'' effects, see below) such that : \varepsilon = \varepsilon' - j \varepsilon'' . If we assume that we have a wave function such that : \mathbf E = \mathbf E_e^, then Maxwell's curl equation for the magnetic field can be written as: : \nabla \times \mathbf H = j \omega \varepsilon' \mathbf E + ( \omega \varepsilon'' + \sigma )\mathbf E where ''ε′′'' is the imaginary component of permittivity attributed to ''bound'' charge and dipole relaxation phenomena, which gives rise to energy loss that is indistinguishable from the loss due to the ''free'' charge conduction that is quantified by ''σ''. The component ''ε′'' represents the familiar lossless permittivity given by the product of the ''free space'' permittivity and the ''relative'' real/absolute permittivity, or ''ε′'' = ''ε''0''ε′''r.


Loss tangent

The loss tangent is then defined as the ratio (or angle in a complex plane) of the lossy reaction to the electric field E in the curl equation to the lossless reaction: : \tan \delta = \frac . For dielectrics with small loss, this angle is ≪ 1 and tan ''δ'' ≈ ''0''. After some further calculations to obtain the solution for the fields of the electromagnetic wave, it turns out that the power decays with propagation distance ''z'' as :P = P_o e^, where: *''Po'' is the initial power, *k = \omega \sqrt = \tfrac , *''ω'' is the angular frequency of the wave, and *''λ'' is the wavelength in the dielectric material. There are often other contributions to power loss for electromagnetic waves that are not included in this expression, such as due to the wall currents of the conductors of a transmission line or waveguide. Also, a similar analysis could be applied to the magnetic permeability where : \mu = \mu' - j \mu'' , with the subsequent definition of a magnetic loss tangent : \tan \delta_m = \frac . The electric loss tangent can be similarly defined: : \tan \delta_e = \frac , upon introduction of an effective dielectric conductivity (see relative permittivity#Lossy medium).


Discrete circuit perspective

A
capacitor A capacitor is a device that stores electrical energy in an electric field by virtue of accumulating electric charges on two close surfaces insulated from each other. It is a passive electronic component with two terminals. The effect of ...
is a discrete electrical circuit component typically made of a dielectric placed between conductors. The
lumped element model The lumped-element model (also called lumped-parameter model, or lumped-component model) simplifies the description of the behaviour of spatially distributed physical systems, such as electrical circuits, into a topology consisting of discrete e ...
of a capacitor includes a lossless ideal capacitor in series with a resistor termed the
equivalent series resistance Practical capacitors and inductors as used in electric circuits are not ideal components with only capacitance or inductance. However, they can be treated, to a very good degree of approximation, as being ideal capacitors and inductors in series ...
(ESR), as shown in the figure below. The ESR represents losses in the capacitor. In a low-loss capacitor the ESR is very small (the conduction is high leading to a low resistivity), and in a lossy capacitor the ESR can be large. Note that the ESR is ''not'' simply the resistance that would be measured across a capacitor by an
ohmmeter An analog ohmmeter An ohmmeter is an electrical instrument that measures electrical resistance (the opposition offered by a circuit or component to the flow of electric current). Multimeters also function as ohmmeters when in resistance-measu ...
. The ESR is a derived quantity representing the loss due to both the dielectric's conduction electrons and the bound dipole relaxation phenomena mentioned above. In a dielectric, one of the conduction electrons or the dipole relaxation typically dominates loss in a particular dielectric and manufacturing method. For the case of the conduction electrons being the dominant loss, then : \mathrm = \frac where ''C'' is the lossless capacitance. When representing the electrical circuit parameters as vectors in a
complex Complex commonly refers to: * Complexity, the behaviour of a system whose components interact in multiple ways so possible interactions are difficult to describe ** Complex system, a system composed of many components which may interact with each ...
plane, known as phasors, a capacitor's loss tangent is equal to the
tangent In geometry, the tangent line (or simply tangent) to a plane curve at a given point is the straight line that "just touches" the curve at that point. Leibniz defined it as the line through a pair of infinitely close points on the curve. More ...
of the angle between the capacitor's impedance vector and the negative reactive axis, as shown in the adjacent diagram. The loss tangent is then : \tan \delta = \frac = \omega C \cdot \mathrm = \frac . Since the same AC current flows through both ''ESR'' and ''Xc'', the loss tangent is also the ratio of the
resistive The electrical resistance of an object is a measure of its opposition to the flow of electric current. Its reciprocal quantity is , measuring the ease with which an electric current passes. Electrical resistance shares some conceptual parallels ...
power loss in the ESR to the
reactive Reactive may refer to: *Generally, capable of having a reaction (disambiguation) *An adjective abbreviation denoting a bowling ball coverstock made of reactive resin *Reactivity (chemistry) *Reactive mind *Reactive programming See also *Reactanc ...
power oscillating in the capacitor. For this reason, a capacitor's loss tangent is sometimes stated as its ''
dissipation factor In physics, the dissipation factor (DF) is a measure of loss-rate of energy of a mode of oscillation (mechanical, electrical, or electromechanical) in a dissipative system. It is the reciprocal of quality factor, which represents the "quality" or d ...
'', or the reciprocal of its ''
quality factor In physics and engineering, the quality factor or ''Q'' factor is a dimensionless parameter that describes how underdamped an oscillator or resonator is. It is defined as the ratio of the initial energy stored in the resonator to the energy los ...
Q'', as follows : \tan \delta = \mathrm = \frac .


References

{{reflist Electromagnetism Electrical engineering


External links


Loss in dielectrics
frequency dependence