Before we go in to our discussion of" zobel network compensation for loudspeaker", we shall have a brief look over internal structure of loudspeaker and what a voice coil is...
A loudspeaker is an electroacoustic
transducer that converts an electricalsignal in to sound ,The voice
coil moves in accordance with the variations of an electrical signal
and causes sound waves to propagate through a medium.fig1 shows the
internal structure of speaker and fig2 a voice coil!!
WORKING :
1.voice coil is a copper winding which
becomes an electromagnet when current is passed through it.
2.if a time varying current(a.c signal) is
passed it magnetises and demagnatises according to current variation.
3.the voice coil is concentrically placed
in a permanent electromagnet.
4.when the coil is electromagnetised by
current,then coil tends outward due to repulsive force of permanent
magnet and voice coil.
5.when coil is demagnetised it rests in
original position,likewise the coil moves producing sound that is
varying according to the applied signal and hence it reproduces the
voice or music.
now we enter in to the present article
of"ZOBEL NETWORK"!!!
Zobel networks are a type of filter
section based on the imageimpedance design principle. They are named
after "Ottozobel" of Bell labs who published a much
referenced paper on image filters in 1923.
as voice coil is a copper wound coil this
behaves as an inductor which offers impedance at high frequencies.we
know that at high frequencies the inductor blocks ac,in a similar way
the loudspeaker blocks ac components and exhibit high impedance.so
that the impedance characteristics are nonuniform at all frequencies.
THE LOUDSPEAKER IMPEDANCE IS INDUCTIVE AT HIGH FREQUENCIES(unusual
from being resistive).
DESIGNING
ZOBEL NETWORK: we can design,If the voice coil inductance is known,
then a suitable value of capacitance may be calculated quite readily.
The first thing to determine is that frequency where the inductive
reactance is equal to the DC resistance of the voice coil ...
f = Rvc / ( 2 π Lvc )
Where
...
f
= frequency
Rvc = Resistance of voice coil
Lvc = Inductance of voice coil
Rvc = Resistance of voice coil
Lvc = Inductance of voice coil
Once
this figure is found, it is a simple matter to calculate the
capacitance for the Zobel network ...
C
= 1 / ( 2 π f Rvc )
Using
the simulated speaker above as an example, we already know that Rvc
is 6.2 ohms, so ...
f
= 6.2 / ( 2 * π * 1.5-3 ) = 658Hz
C = 1 / ( 2 * π * 658 * 6.2 ) =39uF
C = 1 / ( 2 * π * 658 * 6.2 ) =39uF
we
can safely assume that the formula works, and is easy enough to use.
The resistance will nearly
always
be approximately equal to the voice coil resistance - in some cases
it may be found that a small variation is needed, but this is
unlikely to be significant.
capacitor
can be a bipolar electrolytic could be used, the main problem with
bipolars is that they are not stable over time. I recommend that
polyester, polypropylene or oil filled paper cap be used.
DISADVANTAGE:The
Zobel network will flatten the impedance of the speaker, but at the
cost of power dissipation, and a slightly lower than expected overall
impedance. Naturally, the power dissipated by the resistor is turned
into heat, not sound, reducing effective efficiency. The lower
impedance may cause some stress to certain amplifiers, but most
should be able to cope with the slight extra loading!!
