JL Audio 12W3v3-2 W3v3 Series 12-inch Subwoofer, 2 Ω

$399.99

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W3v3 12-inch Subwoofer (500 W, 2 Ω)

This powerhouse 12-inch driver delivers potent performance and world-class sound quality in medium power applications. Several exclusive JL Audio technologies and proprietary assembly techniques are applied to the 12W3v3 to enhance linearity and reliability.

The 12W3v3-2 is best used with amplifier power in the 150W - 500W range and is optimized to operate in a compact 1.25 cu. ft. (35.4 l) sealed enclosure, or a 1.75 cu. ft. (49.6 l) ported enclosure. Detailed enclosure recommendations can be found in the "Specifications" below.

General Specifications

Power Chart for 12W3v3 Subwoofer with ideal Power Range of 150 - 500 W

Continuous Power Handling (RMS)	500 W
Recommended Amplifier Power (RMS)	150 - 500 W
Nominal Impedance (Znom)	2 Ω

Physical Specifications

Lineart Bottom-View and Side-View of 12W3v3 Subwoofer with dimension labels A-E

Nominal Diameter	12.0 in / 300 mm
Overall Diameter (A)	12.5 in / 318 mm
Mounting Hole Diameter (B)	11.0625 in / 281 mm
Bolt Hole Circle Diameter (C)	11.7 in / 297 mm
Motor Outer Diameter (D)	5.5 in / 140 mm
Mounting Depth (E)	6.65 in / 169 mm
Driver Displacement	0.071 cu ft / 2.01 L
Net Weight	14.50 lb / 6.58 kg

Parameters

Free Air Resonance (Fs)	27.97 Hz
Electrical “Q” (Qes)	0.534
Mechanical “Q” (Qms)	7.678
Total Speaker “Q” (Qts)	0.5
Equivalent Compliance (Vas)	2.806 cu ft / 79.47 L
One-Way Linear Excursion (Xmax)*	0.510 in / 13.0 mm
Reference Efficiency (no)	0.31%
Efficiency (1 W / 1 m)**	87.15 dB SPL
Effective Piston Area (Sd)	80.600 sq in / 0.0520 sq m
DC Resistance (Re)	1.658 Ω
* Xmax specifications are derived via one-way voice coil overhang method with no correction factors applied. ** Efficiency (1 W / 1 m) is not an accurate indicator of a subwoofer’s output capability and should not be used as a comparison to other subwoofers to determine which one is “louder”.

Sealed Enclosure Specifications

Lineart diagram of empty sealed enclosure with Height (H), Width (W) and Depth (D) and port length (L) and port inner-diameter (ID) dimension labels

Wall Thickness	0.75 in / 19 mm
Front Baffle Thickness	0.75 in / 19 mm
Volume (net int.)	1.250 cu ft / 35.4 L
External Width (W)	23 in / 584 mm
External Height (H)	14 in / 356 mm
External Depth (D)	10 in / 254 mm
F3	41.8 Hz
Fc	50.4 Hz
Qtc	0.96
Enclosure Notes * The enclosure recommendations listed above are external dimensions which assume the use of 0.75 in (19 mm) thick material. If you are using 0.625 in (16 mm) thick material, subtract 0.25 in (6.5 mm) from each dimension. Do not use any material with a thickness of less than 0.625 in (16 mm) as this may compromise the rigidity of the enclosure. * All enclosure volumes listed above are net internal volumes! Driver displacement, port displacement and brace displacement must be added to obtain the final gross internal volume. All enclosure dimensions above have already taken this into account. * When using multiple subwoofers in a common enclosure you will need to recalculate the enclosure and port dimensions.

Ported Enclosure Specifications

Lineart diagram of empty slot ported enclosure with physical specification labels

Wall Thickness	0.75 in / 19 mm
Front Baffle Thickness	0.75 in / 19 mm
Volume (net int.)	1.75 cu ft / 49.6 L
External Width (W)	29 in / 737 mm
External Height (H)	14 in / 356 mm
External Depth (D)	12.625 in / 321 mm
Internal Slot Port Width (SW)	1.375 in / 35 mm
Internal Slot Port Height (SH)	12.5 in / 318 mm
Internal Slot Port Length (SL)	26.8125 in / 681 mm
Port Extension Length (EL)	13.5 in / 343 mm
Tuning Frequency (Fb)	30 Hz
F3	36 Hz
Enclosure Notes * The enclosure recommendations listed above are external dimensions which assume the use of 0.75 in (19 mm) thick material. If you are using 0.625 in (16 mm) thick material, subtract 0.25 in (6.5 mm) from each dimension. Do not use any material with a thickness of less than 0.625 in (16 mm) as this may compromise the rigidity of the enclosure. * All enclosure volumes listed above are net internal volumes! Driver displacement, port displacement and brace displacement must be added to obtain the final gross internal volume. All enclosure dimensions above have already taken this into account. * When using multiple subwoofers in a common enclosure you will need to recalculate the enclosure and port dimensions.