Ps220-8-7, Asymmetrical nonlinearities, Bl symmetry xb(x) – Dayton Audio PS220-8 8" Point Source Full-Range Neo Driver User Manual

Asymmetrical Nonlinearities

Asymmetrical nonlinearities produce not only second- and higher-order distortions but also a dc-

part in the displacement by rectifying low frequency components.
For an asymmetric stiffness characteristic the dc-components moves the voice coil for any

excitation signal in the direction of the stiffness minimum.
For an asymmetric force factor characteristic the dc-component depends on the frequency of the

excitation signal. A sinusoidal tone below resonance (f

voice coil always in the force factor maximum. This effect is most welcome for stabilizing voice coil

position. However, above the resonance frequency (f>fS) would generate a dc-component moving

the voice coil in the force factor minimum and may cause severe stability problems.
For an asymmetric inductance characteristic the dc-component moves the voice coil for any

excitation signal in the direction of the inductance maximum.
Please note that the dynamically generated DC-components cause interactions between the driver

nonlinearities. An optimal rest position of the coil in the gap may be destroyed by an asymmetric

compliance or inductance characteristic at higher amplitudes. The module "Large Signal Simulation

(SIM)" allows systematic investigation of the complicated behaviour.

Bl Symmetry xb(x)

This curve shows the symmetry point in the nonlinear Bl-curve where a negative and positive

displacement x=xpeak will produce the same force factor

Bl(xb(x) + x) = Bl(xb(x) – x).
If the shift xb(x) is independent on the displacement amplitude x then the force factor asymmetry is

caused by an offset of the voice coil position and can be simply compensated.
If the optimal shift xb(x) varies with the displacement amplitude x then the force factor asymmetry is

caused by an asymmetrical geometry of the magnetic field and can not completely be compensated

by coil shifting.