JBL Speaker MkII automotive User Manual

GTi SERIES  
W10GTi MkII  
W12GTi MkII  
W15GTi MkII  
automotive  
subwoofer  
owner’s manual  
THANK YOU  
®
for choosing a JBL GTi Series subwoofer.  
GTi subwoofers are designed to  
provide maximum sound output in a  
variety of enclosure types while  
maintaining the superb sound quality  
associated with JBL. To ensure the best  
subwoofer performance, we strongly  
recommend that installation be entrusted to a  
qualified professional. Although these instructions  
explain how to install a GTi Series subwoofer in  
a general sense, they don’t show the specific  
installation procedures that may be required for  
your particular vehicle. If you feel you don’t have  
the necessary tools or experience, don’t attempt  
the installation yourself; rather, ask your authorized  
JBL dealer about professional-installation options.  
 
CHOOSING AN ENCLOSURE  
GTi Series subwoofers are optimized to  
perform best in small sealed, vented and  
bandpass enclosures. While infinite-  
baffle mounting of GTi Series subs is  
possible, power handling will be  
compromised since there will be no  
enclosed volume of air to help the  
speaker’s suspension control the motion  
of the woofer’s cone. For this reason,  
we do not recommend infinite-baffle  
mounting for high-power applications.  
You should choose the enclosure you’ll  
use based on the type of music you  
listen to, how much amplifier power  
you’ll use to drive the subwoofer, and  
how much space inside the vehicle you  
can devote to a subwoofer enclosure.  
If you’ll be using your GTi Series  
subwoofer for SPL competition, please  
see the document titled “GTi as SPL  
Competition Subwoofers” (included  
with your woofer).  
Because a sealed enclosure provides  
Vented enclosures provide better  
Bandpass enclosures can provide  
the greatest output available from any  
amplifier and subwoofer combination –  
at the expense of sonic accuracy. If  
sheer SPL (sound pressure level) is  
what you desire most, choose a vented  
or bandpass enclosure. Bandpass  
enclosure design is very tricky and the  
aid of a computer and enclosure design  
software is necessary if you wish to  
design the enclosure yourself. Like a  
vented enclosure, a bandpass enclosure  
must be built exactly to the specifications  
provided. Bandpass enclosures can be  
quite large and may require a lot of space  
inside your vehicle.  
the most control over the woofer’s  
movement, a woofer mounted in a  
sealed enclosure will handle more  
power at low frequencies than a woofer  
mounted in another enclosure type.  
Sealed enclosures provide more  
accurate sonic reproduction than  
other enclosure types, so they are  
well suited to all types of music.  
Sealed-enclosure construction is  
straightforward. An optimum sealed  
enclosure is always smaller than other  
types of enclosures that are optimized  
for a particular speaker, so they require  
the least space inside the vehicle.  
efficiency in the 40Hz – 60Hz range,  
but this efficiency comes at the expense  
of sound output in the lowest octave  
(below 40Hz) and at the expense of  
some control and power handling below  
box tuning. If you are using a small  
amplifier, a vented box will provide  
more bass output from less power.  
Vented enclosures are also well suited  
to a variety of music types. Because  
vented enclosures require the volume  
of the enclosure and the size of the  
port to have a specific relationship with  
the characteristics of the woofer, the  
enclosure must be built exactly to the  
specifications provided. If you wish to  
use a vented enclosure, we strongly  
recommend having your authorized JBL  
dealer build it; or verify that your design  
is correct if you wish to build it yourself.  
An optimum vented enclosure is always  
larger than the optimum sealed box for  
the same woofer, and will require more  
space inside the vehicle.  
3
 
ENCLOSURE  
CONSTRUCTION  
4. Fill the enclosure with damping  
material (Dacron, fiberglass insulation  
DUAL COIL VERSUS  
DIFFERENTIAL DRIVE®  
Figure 2. Conventional dual-voice-coil  
design  
®
*
or long-fiber wool) according to the  
design you have chosen from the  
Enclosure Design Sheet. “0% fill”  
indicates that no damping material  
should be used; “50% fill” indicates  
that all interior walls except the baffle  
should be lined with 1"-thick damping  
material, and “100% fill” indicates that  
the box should be loosely stuffed with  
damping material.  
5. Use PVC or ABS plastic pipe for ports.  
Keep in mind that the openings at  
either end of the port must be at least  
one port diameter away from any  
obstruction.  
Conventional dual-voice-coil woofers  
use a pair of voice coils “interwound” on  
the former and centered in the magnetic  
gap. The two coils may be connected in  
series or parallel in order to maximize an  
amplifier’s output power. Both coils drive  
the cone forward and rearward. Xmax  
(one-way-linear) is determined by the  
amount of voice coil exposed above and  
below the top plate. A conventional  
voice coil is made up of several layers of  
windings, each transferring heat to the  
winding next to it until the heat is finally  
dissipated by the outside layer through  
the top plate, magnet and backplate. This  
arrangement is inefficient, and results in  
low thermal power handling. See Figure 2.  
Please observe the following suggestions  
when building an enclosure for GTi  
Series subwoofers.  
1. Choose an enclosure design from the  
Enclosure Design Sheet included with  
your subwoofer.  
2. Use at least 3/4" (19mm) MDF (medium  
density fiberboard) or marine birch  
plywood to build the enclosure.  
Enclosures for 12" and larger sub-  
woofers and smaller woofers driven  
by high-power amplifiers should be  
constructed using 1" (25mm) material.  
CONE  
BOTH COILS  
SPIDER  
DRIVE CONE  
FORWARD  
AND  
OVERHANG DETERMINES  
Xmax  
REARWARD  
TOP PLATE  
MAGNET  
POLEPIECE / BACKPLATE  
JBL GTi Series subwoofers employ  
Differential Drive, a technology  
developed by JBL Professional.  
3. Join pieces of wood with glue and  
screws; do not use nails. Once the box  
has been tested, seal all joints inside  
the box with silicone caulk.  
Differential Drive employs two voice  
coils positioned at opposite ends of the  
former, each suspended in a separate  
magnetic gap. These two coils may be  
connected in series or parallel, like a  
conventional DVC woofer, to maximize  
an amplifier’s output power. Both coils  
MUST be connected to the amplifier in  
correct polarity! At low power, both  
voice coils drive the woofer’s cone, and  
any motor nonlinearities are cancelled  
by the out-of-phase coils and gaps. As  
power input increases so that one coil  
rides completely out of its gap, force is  
still applied to the cone by the other coil.  
6. Use the 10/24" machine screws and  
T-nuts provided to mount the woofer  
to the baffle. See Figure 1.  
Figure 1. Mounting the GTi woofer in its  
enclosure  
10/24"  
SCREWS  
(PROVIDED)  
T-NUTS  
(PROVIDED)  
* U.S. patent no. 5,748,760 and other patents pending  
4
 
CONNECTING YOUR SUBWOOFER TO AN AMPLIFIER  
At extremely high power, each coil will  
enter the other coil’s magnetic gap. This  
will cause magnetic braking, which will  
slow the cone’s motion and prevent  
damage due to overexcursion. For a  
GTi Series woofer, Xmax is determined  
by the amount of voice-coil overhang  
between the first and second top plates.  
See Figure 3. Thermal power handling is  
far superior to a conventional DVC  
woofer using voice coils of a similar  
diameter and length because Differential  
Drive provides twice the heat-dissipating  
surface area and two top plates to  
CONFIGURING  
THE VOICE COILS  
Note: Unlike conventional DVC  
Figure 6. Connecting the voice coils in  
series (12 ohms)  
subwoofers, the two sets of terminals  
are configured so that both positive (+)  
terminals are on one side of the frame  
and both negative (–) terminals are on  
the other side. GTi Series subwoofers  
are shipped with terminal jumpers  
installed which configure the two 6-ohm  
voice coils in parallel for a 3-ohm load.  
Figure 4. Terminal locations  
TERMINAL  
JUMPER  
REMOVED  
TERMINAL  
JUMPER  
REMOVED  
RED  
BLACK  
TERMINAL  
TERMINAL  
Note: Both voice coils MUST be  
connected to the amplifier in series  
or parallel.  
+
Figure 5. Connecting the voice coils in  
parallel (3 ohms)  
transfer heat to the magnet-cover fins.  
TERMINAL  
JUMPER  
INTACT  
TERMINAL  
JUMPER  
INTACT  
Figure 3. JBL dual-gap design  
CONE  
RED  
BLACK  
TERMINAL  
TERMINAL  
TOP COIL  
IN GAP #1  
DRIVES CONE  
FORWARD  
SPIDER  
1st  
GAP #1  
GAP #2  
TOP PLATE  
+
MAGNET  
POLEPIECE  
OVERHANG  
DETERMINES  
Xmax  
Note: Connect the coils in parallel if you  
are connecting a single woofer to an  
amplifier.  
2nd  
TOP PLATE  
BOTTOM COIL  
IN GAP #2  
DRIVES CONE  
REARWARD  
ALUMINUM  
COVER  
5
 
CONFIGURING  
Figure 8. Connect three woofers in parallel  
Figure 9. Connect four woofers in parallel  
MULTIPLE WOOFERS  
FOR CONNECTION TO  
A SINGLE AMPLIFIER  
(with coils in series) for a 4-ohm load  
(with coils in series) for a 3-ohm load  
TERMINAL  
JUMPER  
TERMINAL  
JUMPER  
TERMINAL  
JUMPER  
TERMINAL  
JUMPER  
REMOVED  
REMOVED  
REMOVED  
REMOVED  
Figure 7. Connect two woofers in parallel  
(with coils in parallel) for a 1.5-ohm load  
BLACK  
TERMINAL  
RED  
TERMINAL  
BLACK  
TERMINAL  
RED  
TERMINAL  
TERMINAL  
JUMPERS  
INTACT  
TERMINAL  
JUMPERS  
INTACT  
RED  
BLACK  
TERMINAL  
TERMINAL  
+
+
+
6
 
SPECIFICATIONS  
W10GTi MkII  
W12GTi MkII  
W15GTi MkII  
10" Automotive subwoofer 12" Automotive subwoofer 15" Automotive subwoofer  
Power handling (peak)  
Power handling (RMS)  
Frequency response (in-car)  
Impedance  
3000W  
4000W  
5000W  
600W  
700W  
800W  
20Hz – 1kHz, 3dB  
3 or 12 ohms  
90dB  
18Hz – 1kHz, 3dB  
3 or 12 ohms  
91dB  
16Hz – 1kHz, 3dB  
3 or 12 ohms  
92dB  
Sensitivity (2.83V/1m)  
Overall diameter  
10-1/2" (267mm)  
9-3/16" (234mm)  
9-1/8" (232mm)  
.108 cu. ft. (3.06 L)  
12-1/4" (312mm)  
11" (280mm)  
10-1/4" (260mm)  
.149 cu. ft. (4.23 L)  
15-1/4" (388mm)  
13-7/8" (353mm)  
10-1/4" (260mm)  
.174 cu. ft. (4.93 L)  
Cutout diameter  
Mounting depth  
Basket displacement  
GENERAL CARE  
The loudspeaker grilles may be cleaned with a damp cloth. Do not use any cleaners or solvents on the grilles or the speaker cones.  
These products are designed for mobile applications and are not intended for connection to the mains.  
A valid serial number is required for warranty coverage.  
Features, specifications and appearance are subject to change without notice.  
Not all models are available in all markets.  
7
 
Declaration of Conformity  
JBL Consumer Products  
250 Crossways Park Drive, Woodbury, NY 11797 USA  
516.255.4JBL (4525) (USA only) www.jbl.com  
We, Harman Consumer Group International  
2, route de Tours  
72500 Château du Loir  
France  
© 2006 Harman International Industries, Incorporated. All rights reserved.  
declare in own responsibility that the products described in this owner’s  
manual are in compliance with technical standards:  
JBL and Harman International are registered trademarks of Harman International  
Industries, Incorporated.  
EN 61000-6-3:2001  
EN 61000-6-1:2001  
Dacron is a registered trademark of Invista.  
Part No. W10/12/15GTIOM1/06  
Klaus Lebherz  
Harman Consumer Group International  
Château du Loir, France 1/06  
www.jbl.com  
 

InFocus Projector DP9295 User Manual
Insignia Clock Radio NS CLBT02 User Manual
Invacare Air Compressor Aerosol Compressors User Manual
Invacare Mobility Aid 1145767 User Manual
JVC Speaker System CA UXP400 User Manual
Kaidan Camera Accessories KiWi Panoramic Tripod Head User Manual
Kenwood Microcassette Recorder DX 7 User Manual
Kettler Baby Swing 08371 190 User Manual
KitchenAid Trash Compactor 9871915A User Manual
Klipsch MP3 Docking Station SXT User Manual