Magnetic complex reluctance

Magnetic complex reluctance
Magnetic Circuits

Conventional Magnetic Circuits

Phasor Magnetic Circuits
  • Complex reluctance Zμ

Related Concepts

Gyrator-capacitor model variables
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Magnetic complex reluctance (SI Unit: H−1) is a measurement of a passive magnetic circuit (or element within that circuit) dependent on sinusoidal magnetomotive force (SI Unit: At·Wb−1) and sinusoidal magnetic flux (SI Unit: T·m2), and this is determined by deriving the ratio of their complex effective amplitudes.[Ref. 1-3]

Z_\mu = \frac{\dot N}{\dot \Phi} = \frac{\dot {N}_m}{\dot {\Phi}_m} = z_\mu e^{j\phi}

As seen above, magnetic complex reluctance is a phasor represented as uppercase Z mu where:

\dot N and \dot {N}_m represent the magnetomotive force (complex effective amplitude)
\dot \Phi and \dot {\Phi}_m represent the magnetic flux (complex effective amplitude)
zμ, lowercase z mu, is the real part of magnetic complex reluctance

The "lossless" magnetic reluctance, lowercase z mu, is equal to the absolute value (modulus) of the magnetic complex reluctance. The argument distinguishing the "lossy" magnetic complex reluctance from the "lossless" magnetic reluctance is equal to the natural number e raised to a power equal to:

j\phi = j\left(\beta - \alpha\right)

Where:

  • j is the imaginary number
  • β is the phase of the magnetomotive force
  • α is the phase of the magnetic flux
  • ϕ is the phase difference

The "lossy" magnetic complex reluctance represents a magnetic circuit element's resistance to not only magnetic flux but also to changes in magnetic flux. When applied to harmonic regimes, this formality is similar to Ohm's Law in ideal AC circuits. In magnetic circuits, magnetic complex reluctance equal to:

Z_\mu = \frac{1}{\dot {\mu} \mu_0}\frac{l}{S}

Where:

References

  • Bull B. K. The Principles of Theory and Calculation of the Magnetic Circuits. – M.-L.: Energy, 1964, 464 p. (In Russian).
  • Arkadiew W. Eine Theorie des elektromagnetischen Feldes in den ferromagnetischen Metallen. – Phys. Zs., H. 14, No 19, 1913, S. 928-934.
  • Küpfmüller K. Einführung in die theoretische Elektrotechnik, Springer-Verlag, 1959.

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