Brand: Faital Pro
$57.96
The FAITAL PRO 6FE200-4 is a 6-inch professional midrange loudspeaker known for its robust performance and versatility. This speaker is suitable for a variety of applications, including professional audio projects, high-output home audio, and car audio systems, waterproof cone and wide operating temperature range || NOMINAL SPECIFICATIONS || Nominal Diameter : 160 mm (6 in) || Overall Diameter : 167.4 mm (6.59 in) || Bolt Circle Diameter : 154 mm (6.06 in) || Baffle Cutout Diameter : 144 mm (5.67 in) || Depth : 77 mm (3.03 in) || Flange and Gasket Thickness : 8 mm (0.31 in) || Net Weight : 2 kg (4.4 lb) || Shipping Box (Single Carton Box) : 190 x 185 x 103 mm (7.5 x 7.3 x 4.1 in) || Shipping Weight : 2.2 kg (4.9 lb) || || TECHNICAL PARAMETERS Nominal Impedance : 8 Ohm || Minimum Impedance : 6.8 Ohm || AES Power Handling (1) : 130 W || Maximum Power Handling (2) : 260 W || Sensitivity (1W/1m) : 95 dB || Frequency Range : 85�6000 Hz || Voice Coil Diameter : 37 mm (1.46 in) || Winding Material : Al || Former Material : Kapton || || TECHNICAL PARAMETERS || Winding Depth : 12 mm (0.47 in) || Magnetic Gap Depth : 8 mm (0.31 in) || Flux Density : 1 T || Magnet : Ferrite Ring || Basket Material : Steel || Demodulation : No || Cone Surround (3) : M-Roll || NET Air Volume filled by Loudspeaker : 0.45 dm^3 (0.016 ft^3) || Spider Profile : 1x constant height waves || || THIELE AND SMALL PARAMETERS || Fs : 120 Hz || Re : 5.9 Ohm || Qes : 0.75 || Qms : 6.2 || Qts : 0.67 || Vas : 3.6 dm^3 (0.13 ft^3) || Sd : 131 cm^2 (20.23 in^2) || Xmax (4) : 4.67 mm || Xdamage (5) : 10.4 mm || Mms : 11.5 g || Bl : 8.2 N/A || Le : 0.4 mH || Mmd : 9.8 g || Cms : 0.15 mm/N || Rms : 1.4 kg/s || Eta Zero : 0.80 % || EBP : 160 Hz || || Brand : FAITAL PRO || Model Number : 6FE200-8 | 6FE200 || PART NUMBER (P/N) Faston Terminals - 8 Ohm Version : 01604017 || UPC : 810130951345 || NOTES || (1) 2 Hours Test According to AES 2-1984 Rev. 2003 || (2) Maximum power is defined as 3dB greater than nominal power || (3) Treated Polycotton || (4) Xmax= [(winding depth - magnetic gap depth)/2] + (magnetic gap depth/3) || (5) Maximum excursion before permanent damage