fmax 10[kHz] Maximal study frequency c0 343[m/s] Speed of sound in air rho0 1.2[kg/m^3] Density of air M_MD 33.4[g] Moving mass (voice coil and diaphragm) C_MS 1.18e-3[m/N] Suspension compliance R_MS 1.85[N*s/m] Suspension mechanical losses BL 11.4[T*m] Force factor, flux density (B) times coil length (L) R_E 7[ohm] Voice coil resistance L_e 6.89[mH] Voice coil inductance (constant) n_e 0.7 Voice coil loss factor V0 sqrt(2)[V] Driving voltage (peak) V0rms V0/sqrt(2) Driving voltage (rms) R_g 0[ohm] Driver output resistance a 12[cm] Piston radius of driver (equivalent) S_D a^2*pi Driver equivalent area M_MS M_MD+2*S_D^2*8*rho0/(3*pi^2*a) Moving mass (including acoustic load) Fs 1/(2*pi*sqrt(C_MS*M_MS)) Fundamental resonant frequency Q_ES 2*pi*Fs*M_MS*R_E/BL^2 Electrical Q factor at Fs Q_MS 2*pi*Fs*M_MS/R_MS Mechanical Q factor at Fs Q_TS Q_MS*Q_ES/(Q_MS+Q_ES) Total Q factor of driver at Fs V_AS rho0*c0^2*S_D^2*C_MS Equivalent volume compliance eta0 4*pi^2/c0^3*Fs^3*V_AS/Q_ES Reference efficiency of driver Rair 20[cm] Air domain radius Rpml 6[cm] PML layer thickness