Re
3.34
Ohm
electrical voice coil resistance at DC
Krm
0.0018
Ohm
WRIGHT inductance model
Erm
0.72
WRIGHT inductance model
Kxm
0.0026
Ohm
WRIGHT inductance model
Exm
0.78
WRIGHT inductance model
Cmes
426.20
µF
electrical capacitance representing moving mass
Lces
3.79
mH
electrical inductance representing driver compliance
Res
15.47
Ohm
resistance due to mechanical losses
fs
125.2
Hz
driver resonance frequency
Mms
26.772
g
mechanical mass of driver diaphragm assembly including air load and voice coil
Mmd (Sd)
23.398
g
mechanical mass of voice coil and diaphragm without air load
Rms
4.059
kg/s
mechanical resistance of total-driver losses
Cms
0.060
mm/N
mechanical compliance of driver suspension
Kms
16.57
N/mm
mechanical stiffness of driver suspension
Bl
7.926
N/A
force factor (Bl product)
Lambda s
0.128
suspension creep factor
Qtp
0.970
total Q-factor considering all losses
Qms
5.189
mechanical Q-factor of driver in free air considering Rms only
Qes
1.121
electrical Q-factor of driver in free air considering Re only
Qts
0.922
total Q-factor considering Re and Rms only
Vas
3.6725
l
equivalent air volume of suspension
n0
0.618
%
reference efficiency (2 pi-radiation using Re)
Lm
90.11
dB
characteristic sound pressure level (SPL at 1m for 1W @ Re)
Lnom
90.89
dB
nominal sensitivity (SPL at 1m for 1W @ Zn)
rmse Z
2.68
%
root-mean-square fitting error of driver impedance Z(f)
rmse Hx
2.16
%
root-mean-square fitting error of transfer function Hx (f)
Series resistor
0.00
Ohm
resistance of series resistor
Sd
207.37
cm²
diaphragm area