Goodness factor

The goodness factor is a metric developed by Eric Laithwaite to determine the 'goodness' of an electric motor.^[1]^[2] Using it he was able to develop efficient magnetic levitation induction motors.^[3]

G={\frac {\omega }{{\mathrm {resistance}}\times {\mathrm {reluctance}}}}={\frac {\omega \mu \sigma A_{{\mathrm {m}}}A_{{\mathrm {e}}}}{l_{{\mathrm {m}}}l_{{\mathrm {e}}}}}

where

G

is the goodness factor (factors above 1 are likely to be efficient)

A m

,

A e

are the cross sections of the magnetic and electric circuit

l m

,

l e

are the lengths of the magnetic and electric circuits

μ

is the permeability of the core

ω

is the angular frequency the motor is driven at

σ

is the conductivity of the conductor

From this he showed that the most efficient motors are likely to be relatively large. However, the equation only directly relates to non-permanent magnet motors.

Laithwaite showed that for a simple induction motor this gave:

G\propto {\frac {\omega \mu _{0}p^{2}}{\rho _{{\mathrm {r}}}g}}

where $p$ is the pole pitch arc length, $ρ r$ is the surface resistivity of the rotor and $g$ is the air gap.

References

↑ ER Laithwaite (1965). "The Goodness of a Machine". Electronics and Power. 11 (3): 101–103. doi:10.1049/ep.1965.0071.
↑ DJ Patterson; CW Brice; RA Dougal; D Kovuri (2003). "The "Goodness" of Small Contemporary Permanent Magnet Electric Machines" (PDF). Proceedings of the International Electric Machines and Drives Conference. 2: 1195–1200. doi:10.1109/IEMDC.2003.1210392.
↑ ER Laithwaite (1965). "Electromagnetic levitation". Electronics and Power. 11 (12): 408–410. doi:10.1049/ep.1965.0312.

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[1] ER Laithwaite (1965). "The Goodness of a Machine". Electronics and Power. 11 (3): 101–103. doi:10.1049/ep.1965.0071.

[2] DJ Patterson; CW Brice; RA Dougal; D Kovuri (2003). "The "Goodness" of Small Contemporary Permanent Magnet Electric Machines" (PDF). Proceedings of the International Electric Machines and Drives Conference. 2: 1195–1200. doi:10.1109/IEMDC.2003.1210392.

[3] ER Laithwaite (1965). "Electromagnetic levitation". Electronics and Power. 11 (12): 408–410. doi:10.1049/ep.1965.0312.