Magnetic capacitivity

Magnetic capacitivity
Magnetic Circuits

Conventional Magnetic Circuits

Phasor Magnetic Circuits

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Gyrator-capacitor model variables
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Magnetic capacitivity (SI Unit: H) is a component used in the gyrator-capacitor model of magnetic systems.

This element, denoted as CM, is an extensive property and is defined as:

C_M = \mu_r \mu_0\frac{S}{l}

Where: μrμ0 = μ is the magnetic permeability, S is the element cross-section, and l is the element length.

For phasor analysis, the magnetic permeability[1] and the magnetic capacitivity are complex values[1, 2].

Magnetic capacitivity is also equal to magnetic flux divided by the difference of magnetic potential across the element.

C_{M} = \frac{\Phi}{\phi_{M1}-\phi_{M2}}

Where:

ϕM1 − ϕM2 is the difference of the magnetic potentials.

The notion of magnetic capacitivity is employed in the gyrator-capacitor model in a way analogous to capacitance in electrical circuits.

References

  • Arkadiew W. Eine Theorie des elektromagnetischen Feldes in den ferromagnetischen Metallen. – Phys. Zs., H. 14, No 19, 1913, S. 928-934.
  • Popov V. P. The Principles of Theory of Circuits. – M.: Higher School, 1985, 496 p. (In Russian).



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