Genesis Advanced Technologies Speaker G22 User Manual

absolute fidelity  
Owners Manual and Set-up Guide  
Genesis 2.2 Loudspeaker System  
Contents  
SET-UP GUIDE  
1
PLANNING THE PLACEMENT  
UNPACKING  
1
3
ASSEMBLING THE ACOUSTIC SUSPENSION  
THE SERVO-CONTROLLED BASS AMPLIFIER  
MIDRANGE/TWEETER CONNECTIONS  
CONTROL ADJUSTMENTS  
4
5
7
8
SERVO-CONTROLLED BASS AMPLIFIER PROTECTION  
10  
TUNING THE SYSTEM  
12  
BEGIN WITH THE BASS LEVEL  
IMAGING AND SOUNDSTAGE  
PHASE CONTROL  
12  
13  
14  
15  
FURTHER ADJUSTMENTS  
THE REFINEMENT STAGE  
16  
MAKE ONE CHANGE AT A TIME  
DEFINING THE SOUNDSTAGE  
APPROPRIATE MID-BASS/LOW-BASS BALANCE  
ROOM TREATMENT  
16  
16  
16  
18  
19  
MASTERING THE REFINEMENTS OF THE SYSTEM  
THE TECHNOLOGY  
20  
DESIGN PHILOSOPHY  
20  
21  
22  
22  
23  
24  
25  
27  
THE GENESIS RIBBON TWEETER  
48INCH MIDRANGE RIBBON  
THE SERVO-BASS ADVANTAGE  
THE WOOFER TOWER  
SERVO-CONTROLLED BASS AMPLIFIER  
THE ACOUSTIC SUSPENSION  
SPECIFICATIONS  
i
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
This page intentionally left blank  
Warranty Statement and Extended Registration Card  
should be placed here  
iii  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
Set-up Guide  
Now that you have your new Genesis 2 loudspeaker system, we  
realize that you can’t wait to hook it up and start the music!  
However, this is a big, complex system and we want you to set it  
up correctly and more importantly, safely. So, please read this set  
up guide (even if your dealer is setting it up for you!) before you  
proceed.  
Planning the Placement  
Before you even have the loudspeakers delivered, it would be a  
good idea to make a plan of where you will place them. You will  
not need a huge room, but at an absolute minimum the room  
needs to be 16 feet (5m) wide where the speakers will be placed.  
You should have a minimum of at least 6 feet (2m) of space behind  
the speakers. The listening position should be a minimum of 10  
feet (3m) from the front of the midrange ribbon to allow for proper  
integration of the drivers.  
In a typical placement, the midrange/tweeter wings will be placed so  
that the two columns of tweeters are on the inside, and between six  
feet to eight feet (2m to 2.6m) apart. The woofer towers are placed  
behind and outside the wings with the column of woofers about 4 feet  
1
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
from the midrange ribbons. In order to allow for sufficient space from  
the sidewalls, this dictates that the optimum room is at least 19 feet  
(6m) wide.  
Placing the woofer towers asymmetrical but equidistance from the  
midrange/tweeter wings will result in better bass integration in the  
room. Keep the side of the woofer towers no less than 16 inches  
from the sidewall.  
The suggestions here are typical in a minimum space. With a larger  
room, it is possible (and optimal) to have a layout as shown below  
with the midrange, tweeters and woofers equidistant from the  
listening position. Still, the woofer towers should be placed  
asymmetric in the room with the distances of the woofers from the  
2
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
nearest wall being different.  
As the room will greatly influence the sound of your system, fine-  
tuning adjustments in placement will be necessary. Every room will  
be different, with doorways, closets, wall construction and covering,  
etc. all making a significant impact on positioning.  
Unpacking  
The Genesis 2.2 system will arrive in a number of pieces. There  
are four large wooden shipping crates, two containing the woofer  
towers, two holding midrange/tweeter panels (or “wings”). There  
will also be a pallet of cardboard boxes holding the acoustic  
suspension system, the various modules of the servo-controlled  
bass amplifier, and a box containing the various cables. (There  
could also be up to three more boxes if you have the dynamic  
reservoir and power supply upgrades to the servo-controlled bass  
amplifier.)  
To remove the contents of all the crates, you will need help. The  
G2.2 loudspeaker system with crates weigh a total of 1,400 lbs.  
Each woofer tower weighs over 220 lbs, and each tweeter tower  
weighs over 150 lbs and they have to be lifted out of the shipping  
crates. We are not liable for damage (to either the speakers or  
your backs!) during unpacking and setting up.  
We suggest the use of a forklift to move these  
crates around, and at least four strong people to  
un-box and position the loudspeakers. In order to  
remove the loudspeakers from the crates, the front  
and top of the crates can be removed. This is  
secured with screws – remove all exposed screws  
except the ones marked with blue paint – and the  
top and front can be lifted away.  
With the top and front of the crate removed, each  
wing and tower of the loudspeaker can be carefully  
lifted and slid out of the crate. Before you put the speaker up on its  
feet, it will be necessary to install the acoustic suspension (next  
page).  
After unpacking, we strongly suggest that the crates be dismantled,  
flattened and safely stored away in a cool, dry place. They will be  
needed should you relocate or move. It will be expensive to custom  
3
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
build crates strong enough to transport these loudspeakers without  
damage.  
Assembling the Acoustic Suspension  
A unique feature of the Genesis 2.2  
loudspeaker system is the integration of an  
acoustic suspension system for the  
loudspeaker columns. This is an essential  
feature of the cabinet structure – resulting in  
lower coloration, better definition and rock-  
solid imaging.  
The suspension system comprises of a  
suspension frame made of 1-inch of solid  
cast acrylic, a set of Neoprene decoupling  
shock absorbers, and a set of steel spikes.  
Acoustic Suspension under the  
midrange/tweeter wings  
Should you be placing the speakers on a hardwood floor or a floor  
that would scratch easily, do not use “spike cups”. These defeat the  
purpose of having a spike in the first place! Use a copper penny –  
the weight of the speaker on the spike will create a depression in  
the penny, and this point is what will efficiently transfer vibration to  
the floorboards.  
A couple of points to note during the assembly of the acoustic  
suspension system:  
1)  
2)  
The triangular “hole” in the suspension frame points to the  
front of the speaker (towards the listener).  
Do not over tighten the shock absorbers that are pre-  
installed on the cabinet – finger tight is sufficient. A hex-key  
(or allen wrench) is supplied to tighten the bolts holding the  
suspension frame to the shock absorbers. Again, do not  
over tighten these bolts.  
3)  
4)  
The point of the spike should protrude through the  
suspension frame only far enough to couple to the floor. If on  
a concrete or marble floor, for example, 5mm or 1/5” is more  
than sufficient. If you have your speakers on a 1/2" deep pile  
carpet, then you will need to have the spike protrude about  
3/4".  
If you need to move the loudspeaker after you have installed  
the spikes, do not “walk” the speaker cabinet on the spikes –  
4
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
retract the spikes first. This will avoid causing damage to the  
acoustic suspension and to your floor.  
5)  
If you have very light and resonant floorboards, you may  
need to place a heavy slab of marble, slate, or granite under  
the loudspeaker to avoid exciting the floor.  
The Servo-Controlled Bass Amplifier  
The included remote-controlled  
modular Servo-Controlled Bass  
Amplifier powers the woofer towers  
of the G2. There are three modules  
plus a power supply unit and  
numerous supplied cables in the  
standard configuration. Various  
upgrades are also available for the  
Servo-Controlled Bass Amplifier –  
please check with your dealer.  
Genesis 2 Servo-Controlled Bass Amplifier  
(with optional amplifier suspension for floor placement)  
The parts of the amplifier are:  
1)  
2)  
3)  
The electronic crossover and Control Module with left  
and right balanced inputs and two control outputs.  
A pair of Control Interface Cables (CIC): these have  
7-pin Neutrik™ connectors at each end.  
A pair of Servo-Bass Interconnects (SBI) with XLR  
connectors at one end and a pair of banana plugs (or  
optionally spades) at the other end.  
4)  
Two Servo-feedback Amplifier Modules with one  
control input, and two Neutrik 50-amp Speakon™  
outputs.  
5)  
6)  
7)  
Two pairs of Servo-Bass Cables (SBC) with Neutrik  
50-amp Speakon™ plugs at each end.  
A Power Supply for the Amplifier Modules with two  
Neutrik™ 20-amp PowerCon™ outlets.  
A pair of Power Umbilicals with a Neutrik 20-amp  
Powercon plug at each end (one grey and one blue).  
In the typical configuration, the Control Module, and two Servo-  
feedback Amplifiers are placed in a stack between the  
midrange/tweeter wings. The Power Supply is placed behind the  
stack. The standard cables supplied will work for this configuration:  
9-foot (3m) Servo-Bass Cables (SBC), two-foot (0.6m) Control  
5
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
Interface Cables (CIC) and 6-foot (2m) Servo-Bass Interconnects  
(SBI). An alternative placement option is to have the Control  
module in the middle, flanked by the two Servo-feedback  
Amplifiers, with the Servo-feedback Amplifiers closer to the woofer  
towers and the Control module between the midrange/tweeter  
wings.  
First, place the stack of modules between the midrange/tweeter  
wings with the Control Module on the top and the whole stack on  
an amplifier stand. Using the supplied CIC, link the Control Module  
to the Servo-feedback Amplifiers. One amplifier module is for the  
RIGHT woofer tower and the other will be for the LEFT. You can  
figure out which it is by the last letter of the serial number. It does  
not matter which CIC is used for right and which is used for left.  
However, one is marked with a red ring and the other is marked  
with a white ring for convenience.  
Use the SBC to connect the woofer  
towers to the woofer amplifier. Each  
end of the cable is clearly marked,  
AMPLIFIER or SPEAKER. It does not  
matter which connector is attached to  
which as long as the correct amplifier  
module is used for the left and right  
towers. It does not matter which SBC is  
used for the left or the right; however,  
one is marked with AMPLIFIER or  
SPEAKER in red lettering, and the other  
in white lettering.  
When you connect the woofer tower outputs pay close attention to  
the way the connector works. This connector is a 50 amp twist-lock  
Neutrik™ Speakon™. It only goes in one way and you cannot put it  
in wrong. However, you can fail to put it in all the way. Line up the  
alignment pins on the connectors, push the plug in, and twist it  
clockwise until the lock "clicks" in place to keep it there. By looking  
carefully, it will be obvious as to how it works.  
At the AMPLIFIER end of the servo-bass cable, you will find a male 1/8”  
jack. The female end is on the chassis of the servo-bass amplifier  
labelled GND. These jacks are used for grounding an internal shield  
within the servo-bass cable. For the time being, leave this shield  
6
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
disconnected. The shield ground should be used only when  
necessary.  
Midrange/Tweeter Connections  
Next, connect the mid/tweeter  
panels to your power amplifier  
using a pair of high quality  
loudspeaker cables (not  
supplied) to the 5-way binding  
posts. We recommend using  
good quality spade  
connectors for this job.  
There are two ways to get the  
music signal from your  
system to the Servo-Controlled Bass Amplifier to drive the woofers.  
The first, and preferred way is to drive it using the output of the  
power amplifier that is driving the midrange/ tweeter panels using  
the supplied pair of Servo-Bass Interconnects.  
The Servo-Bass Interconnect will be supplied with a pair of banana  
plugs at one end, and an XLR balanced male plug at the other end.  
The banana plugs will plug straight into the binding posts of the G2  
midrange/tweeter tower inputs when you are using speaker cables  
with spade connectors. If your speaker cables use banana plugs,  
we will be able to convert your SBI to spade connectors for a  
nominal charge.  
Servo-Bass Interconnects  
parallels speaker cable inputs  
The XLR connector contains a specially developed internal  
balancing circuit that enables the power amplifier to drive the  
balanced input of the servo amplifier. Because of the extremely  
high impedance of the balancing circuit, the parallel connection  
places absolutely no stress on the power amplifier. Do not use any  
other interconnect cable for this purpose as the high level output  
from your power amplifier will blow the inputs of the Control  
Module! This internal circuit also allows even fully balanced power  
amplifiers* to be connected this way.  
* Do NOT use this method of connection with Class D power amplifiers that have both +ve  
and –ve speaker outputs floating above ground. Some of these amplifiers have as much  
as 36V on their speaker “ground”, and this will damage the Servo-Controlled Bass  
Amplifier. Use the second method of connection.  
7
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
Plug the XLR end of the SBI into the Control Module and the  
banana plug end into the binding posts of your midrange/tweeter  
towers (preferred) or the output binding posts of your power amp.  
Each end of the SBI has a grounding alligator clip on a flying green  
lead. Leave this grounding clip disconnected for the time being. It  
is not necessary in most instances.  
The alternative method of connecting the servo-bass amplifier to  
your system is to use a pair of balanced interconnects (not  
supplied) from your preamplifier to the servo-bass amplifier. Your  
preamplifier will need to have two sets of outputs, or you will need  
to use a high-quality Y-cable (not supplied). If you use this method  
of connection, your power amplifier will be driving the midrange/  
tweeter towers and the servo-controlled bass amplifier will be  
driven in parallel by your preamp.  
As no power amplifier is “straight wire with gain”, we do not  
recommend this way of driving your servo-bass amplifier. The  
reason is that phase coherence and integration between the  
midrange and bass is much harder to achieve.  
Control Adjustments  
Your servo-bass amplifier should be turned on last. As a general  
rule, turn your system on starting at the source to the amplifiers,  
and turn it off starting at the amplifier. Plug the woofer amplifier into  
a power outlet*, and using the remote control, turn it on by pressing  
the POWER button. The display shows on .  
The display flashes to identify that the function that is being  
adjusted. When you first press one of the volume control  
buttons, the currently-set volume will flash. The next press will  
move the volume up or down. Pressing and holding the button  
will move the volume up or down rapidly. The volume has a range  
of 0 to 100. A volume setting of 40 is nominal, and that is a good  
place to start when making adjustments. In general, a lower bass  
volume setting is needed in smaller rooms.  
Next, adjust the phase with the buttons marked “PHS ” or “PHS ”  
on the remote control. When you first press the phase up or down  
* Do NOT use any power conditioners with the Genesis Servo-Controlled Bass Amplifier.  
We have found that every power conditioner that we have tried will restrict the dynamics of  
the system – except the Titan by IsoTek Systems.  
8
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
button, the display will flash Ph and then the current phase setting  
will be shown. The next press of the button will move the phase up  
or down.  
Set the phase to zero as an initial setting. (If you are not driving the  
servo-bass amplifier as recommended using the output of the  
power amplifier, the phase will depend on the phase shift and  
group delay of your power amplifier. A typical value will be 45 to  
135 degrees.)  
The high-pass (HI) filter determines how low the woofers will play.  
Set this initially to 24Hz until the woofers and amplifiers break in.  
Then, it can be set to 18Hz. Next, adjust the low pass (LO) filter  
(how high the woofer goes). Set this to 95 using the button marked  
"low pass" (on the remote control).  
You will notice two controls on the back of the  
midrange/tweeter panel. The left hand knob is  
a trim control for the rear tweeters. Turning  
this control clockwise will increase the level of  
the rear tweeters.  
If there is not enough space behind the G2,  
the tweeter control can be turned down. In  
large rooms, the tweeter control can be  
turned up. Use this control if you need a bit  
more treble or to increase the apparent space  
of the soundstage. Start with this control at  
the twelve o'clock position.  
The control on the right side is a three-position switch used to  
adjust the midrange. Start at position two. Position one will sound  
fuller in the lower midrange while position three will sound leaner  
and have more upper midrange.  
The less obvious effect (more obvious to some people!!) of the  
midrange control is to make the soundstage sound more forward,  
and change the perceived height and position of the performance.  
Relative to position two, you can raise the soundstage by moving to  
position three (it’s like moving your seat forwards in the concert  
hall!!)  
9
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
Position two gives you a soundstage perspective of about the  
middle of the concert hall. Position three is more like the orchestra  
seats, and position one may be more like the circle seats.  
While it is relatively easy to put the Genesis 2 loudspeaker system  
into your room and system and get a reasonable sound, it is not as  
easy to perfectly integrate the loudspeakers into your room, and  
get great music out of it. The time you will take to do this properly  
will be well worth it for the long-term enjoyment you will derive. This  
fine tuning is covered later in this manual.  
Servo-Controlled Bass Amplifier Protection  
The servo-bass amplifier has numerous protection circuits built in to  
protect both the amplifier and the woofers. If you over-drive the  
amplifier, it will self-protect and you will hear clicking or thumping  
sounds. If that happens, turn down the volume of your system to  
protect your hearing and your speakers.  
The amplifier is designed to be current-limited to 20amps – this is  
more than enough to supply over 1600W transients to the woofers.  
However, the servo-system in the G2 is not compression or  
dynamic limited. Hence, it is possible to play the system too loud,  
and damage the woofers.  
Due to the efficiency of the amplification modules, they deliver  
and draw current extremely quickly. Hence, you may find that a  
very loud bass drum thwack will cause your lights to dim, or the  
circuit breakers to trip if you do not supply enough power to your  
system.  
A possible solution will be to install an additional 20amp circuit in  
your listening room, and purchase an additional power supply to  
separate the power needs of the left and right woofer towers. Also,  
a Dynamic Reservoir (developed for the Genesis Reference  
Amplifier) is available as an optional upgrade. You will only need to  
do this if heavy bass dims your lights.  
A Word about Finish  
The G2 is entirely covered in high-gloss acrylic. Acrylic was picked  
for its sonic properties as well as its beauty. However, acrylic is a  
soft material that can scratch easily.  
10  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
Every G2 system is delivered with a 3-stage acrylic polish system  
by Novus. Do not use any other cleaners or polish on your G2  
loudspeakers.  
11  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
Tuning the system  
Music is the best way to begin to fine-tune your setup. We suggest  
that video sources be used only after you have setup the system to  
properly reproduce music. Fine-tune your system only after at least  
200 hours of play. As the loudspeaker system breaks in, it will  
sound better and better. Using the IsoTek Full System Enhancment  
CD will shortcut the 200 hours needed.  
Begin with the bass level  
Start with a single vocal with simple instrumental accompaniment  
because the sound of the human voice is more easily recognizable  
than many instruments and is the least complex sound to deal  
with.  
Leave the low pass filter alone, for the moment, as it should remain  
set at 95 Hz, This control will be addressed later. Turn the volume  
control of the woofer amplifier up or down until the voice sounds  
correct. Whatever controls you use, turn them up and down only a  
little at a time. It is easy to turn it up or down too much.  
Concentrate on the mid bass regions (as opposed to the very low  
bass in your recording) to achieve a natural blend. The voice and  
the music accompaniment should sound as if it were cut from one  
cloth, not separate.  
If the voice sounds “thin” or does not have enough “chest” to its  
sound, turn the woofers amplifier’s volume up till it does. If you find  
that turning the volume up creates too much low bass, decrease  
the low pass filter control.  
The low-pass control will raise or lower the frequency cutoff point of  
the woofer. Turning the low pass filter up to a higher number will  
extend the upper bass regions without affecting the low bass level.  
Some rooms may require that you set the low-pass filter to 100Hz.  
Do not be afraid to increase this control to give the sound more  
body.  
Next, set the woofers using more than just a voice. Select some  
music that you know to have good deep bass. Using the volume  
control on the servo amplifier’s remote control, set the woofers for a  
natural and powerful bass sound. Use a symphonic piece of music  
if you can, or use a natural bass instrument for your guide. Try to  
12  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
make it sound real. You may have to return to the vocal to make  
sure you have not gone too far in one direction.  
If, at this point, it does not have enough mid bass, turn the low pass  
number to a higher position or, alternately, position the main  
speakers closer together in order to achieve better mid bass  
coupling between the main speakers. If it sounds too “fat” turn the  
low pass control down or adjust the volume. At this point it is  
suggested to use the low pass filter control until you get to the  
refinement stage.  
Imaging and Soundstage  
If your vocal selection is a well-recorded audiophile CD or LP, the  
performer should appear to come from behind the loudspeakers  
and be at the appropriate height for a standing person. If it is not,  
there are several remedies that will address this.  
If the vocal appears to be larger than life, you should first check the  
system volume. Is it a volume that would be appropriate for  
someone actually singing in your room? If there is too much  
volume the artist will appear too big and the opposite is true  
for too little volume. If the volume is set correctly and the image is  
still too big, toe the woofer towers in a slight amount or place  
them closer together and re-listen. Repeat this process till you  
have it right. If the voice is too low in height, turn the midrange  
control to the next highest position and the image of the voice will  
move upward slightly.  
If you have the speakers only 20% away from the front wall, and  
you are not getting enough front to back depth (the singer not  
appearing behind the speaker enough) pull the midrange tweeter  
panels away from the front wall a little bit at a time. If you do not  
have them pulled far enough away, you may not have enough  
front to back depth. If you get the speakers much beyond 1/3 of  
the way into the room, it is unlikely that pulling them further away  
is reasonable.  
Find the best compromise for your room, your tastes and your  
space requirements. If the speakers are too far apart you will lose  
the side image and if they are too close together you will have too  
small a center stage. We recommend you begin with six to seven  
feet apart as measured from tweeter to tweeter. If you are not  
getting proper focus on the voice, you may angle the midrange  
13  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
panels about 2 to 5 degrees towards your seating position until you  
have a properly defined center image.  
When properly set up very little sound should appear to come  
directly from the speaker, instead, the sound stage should extend  
far beyond the left and right edge of the loudspeakers and they  
should have tremendous front to back depth. When the recording is  
close miked (when the instrument or performer is very close to the  
recording microphone) the music may appear to come directly  
from the loudspeaker. This is normal. Typically, however, the  
sound should appear to be detached from the loudspeakers.  
A simple rule of thumb to follow is that focus will be achieved by  
placing the speakers closer together or farther apart, and front to  
back depth can be adjusted by the distance from the rear wall.  
Further, as the system “breaks in”, the depth and width of the  
soundstage will increase, and so will the “smoothness” of the  
sound.  
Phase Control  
We suggested in the beginning of this manual to set the phase to  
zero degrees. Now that you have roughed the system in, you may  
want to experiment with different phase angles.  
Using the remote control you can adjust the woofer's phase angle  
up and down in five-degree increments.  
The changes are subtle and they usually affect the imaging and  
soundstage. Listen carefully to the positioning (in acoustic space)  
of the orchestral players as you change the phase control. You  
may notice small shifts in their apparent relationship to the other  
members of the orchestra. Do not expect them to actually move.  
Expect minute changes in the soundstage, the apparent width of  
the stage, your ability to distinguish individual players etc. If you  
reach a phase shift of ninety degrees you have probably gone too  
far. Using the recommended connection, the phase shift needed is  
usually below ten.  
The other change to listen for is coherence and timing. Adjust the  
phase will subtly change the relationship between the bass and the  
midrange. When you get the phase perfectly correct, you will find that  
the timing between the vocalist and the double bass “snaps” in place,  
14  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
and your foot will start to tap, and you will sway to the music. This is  
basically what we term “PRAT” – or pace, rhythm and timing.  
Further adjustments  
With the woofer towers positioned in the recommended placement  
behind and outside the midrange tweeter panels, low bass in the  
room should not be a problem. Should you have too much bass,  
simply turn the volume down on the remote control. Too little, and  
the opposite will apply.  
In general, the low-pass filter and the bass volume goes in opposite  
directions. With higher bass volume, a lower frequency for the low-  
pass is needed. And with lower bass volume, a higher frequency is  
needed for the low-pass.  
In some problematic rooms a resonance may develop at one or  
two frequencies that is unnatural to the music. By moving the  
woofer towers closer to the rear wall or farther from the rear wall,  
the resonance may be reduced at the listener’s position. There  
are no absolute rules concerning problematic rooms, so do not be  
afraid to experiment with best woofer placement.  
Ultimately, it is all about balance. You have a number of controls  
at hand with which to adjust the bass response, the low-pass filter  
frequency and woofer volume. You can also move the speakers  
closer together (for better coupling), and also move the woofer  
towers closer together, or further apart, or even move them closer  
to a corner of the room for more bass.  
One trick that we have found to always work is NOT to have the  
woofer towers placed symmetrically in the listening room. When  
you have the woofers equidistant to the walls, there will be wall-  
loading which will increase the volume of some frequencies in the  
bass and mid-bass.  
Place the left and right woofer towers equidistant from the midrange  
towers. However, have one woofer tower further to the side of one  
midrange tower, and have the other woofer tower further to the back  
of the other midrange tower. It may look strange, but the principle  
here is to position the midrange/tweeter towers for the best imaging  
and soundstage, and the woofer towers for the smoothest and best  
bass and ambience retrieval.  
15  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
The Refinement stage  
After following the rough setup guide above, you may not be  
completely satisfied with the results. We share with you here some  
of our observations in setting up these loudspeakers.  
Make One Change At A Time  
One rule of thumb you should always keep in mind. Make one  
change at a time! Do not, for instance, change position of the  
speakers and make an adjustment to the amplifier all at once.  
Make each of these changes separately and note the difference -  
by listening - with each adjustment, then make the next change.  
Each adjustment, in positioning, and in control adjustment will  
result in a subtle sonic change. Even when you are moving the  
midrange/tweeter panels further apart, or closer together, move  
one panel, listen, and then move the other panel. You may also  
find an asymmetric placement in-room more accurate and  
pleasing.  
Defining the Soundstage  
A common problem we find with many set-ups is a tendency to  
separate the speakers too far from each other. This gives an  
unnaturally stretched soundstage between the two speakers, and  
creates problems with focus. The key problem is a lack of  
soundstage information beyond the left and right sides of the  
speakers.  
If you find that the sound is not spacious enough or you are not  
getting enough front to back depth, pull the speaker away from the  
front wall. This is typically preferable to separating the two  
speakers too far, and will almost always give you better depth and  
soundstage information. A word of caution though: if you move the  
speakers too far from the front wall you may lose the focus of the  
image.  
A problem with the soundstage could also be caused by the  
recording. Try another recording if you cannot achieve what you  
are trying to do.  
Appropriate Mid-bass/Low-bass Balance  
Yet another problem is a lack of mid bass energy. In order for the  
appropriate amount of mid bass energy to be present, the speakers  
16  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
should be close enough together to achieve proper "coupling" of the  
midrange ribbon driver. Coupling is desirable in the lower  
frequencies from the mid-bass on down. This simply means that the  
left and right drivers "work together" as opposed to working  
separately.  
If you find there isn't enough deep bass, your first remedy is the  
volume control on the woofer amplifier. This has several limitations.  
First, turned up too high, you may get some distortion on very low  
frequencies or you may overheat the amplifier.  
Push the woofer towers back towards the rear wall. This will  
increase the coupling of the woofers to the room. Do this procedure  
in small increments (approximately three inches at a time) and  
return often to the recordings you have used to adjust the front to  
back depth and soundstage properties of your system. It is easy,  
yet unproductive, to go too far in one direction (and if you move the  
woofer towers too far from the rear wall you may lose low bass  
extension).  
Secondly, you may make the mid bass produced by the top of the  
woofer out of proportion with the mid bass produced by the bottom  
of the midrange ribbon. This would tend to sound bloated or thick in  
the mid bass regions.  
Another good rule of thumb is to first set the volume control of the  
woofer towers for proper midbass rather than low bass. The theory  
is that if the midbass is correct, then the low bass should be very  
close to correct. If the midbass is proper and the low bass is still not  
right, here are some other suggestions.  
A good balance between proper low bass extension and a deep  
and spacious soundstage needs to be established to optimize your  
new speaker's performance.  
In order to achieve what the speaker is capable of we suggest you  
focus your efforts on a proper balance of soundstage elements that  
includes information beyond the left and right sides of the  
speakers, front to back depth well behind the speaker, excellent  
focus of instruments and voices with proper vertical information and  
mid bass fill.  
A Genesis loudspeaker system correctly set up, can and should  
provide a soundstage that is wall to wall and with pinpoint focus,  
17  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
the speakers disappearing completely on a recording containing  
such information.  
Room Treatment  
No room is perfect. To optimize your sonic presentation it may be  
helpful to treat your room. Here are some guidelines:  
1. Front walls. This loudspeaker is a dipole and therefore  
there is sound coming from both the front and the back of  
the speaker. How the front wall is treated or not treated is  
important. Generally speaking, the Genesis loudspeakers  
prefer a live front wall.  
By these terms we mean the amount of reflection of sound.  
A typical wall of glass or, brick, cement or drywall material is  
a reflective surface. A heavily curtained or sound proofed  
wall would be considered a "dead wall" or a non-reflective  
wall. A normal thin curtain across a window causes only a  
small amount of absorption.  
2. Sidewalls. Because the speaker is a dipole it is less  
sensitive to the sidewalls. However, as a rule of thumb, it is  
a good idea to keep the speaker as far away from the  
sidewalls as is practical. With this in mind, it may be helpful to  
add some damping material or diffuser panels to the point of  
first reflection. This is a point on the sidewalls between the  
listener and the loudspeaker. It is where the sound from the  
loudspeaker first hits the sidewall, then bounces to the  
listener. This reflection is undesirable because it is slightly  
delayed from the original sound. This point on the sidewall  
can be easily determined with the help of a second person  
and a mirror.  
Sitting in your listening position have an assistant hold a  
mirror up on the sidewall. Move the mirror until you can see  
the tweeter. This is the point of first reflection. A diffuser (see  
your dealer), an absorptive material or even a piece of  
furniture can help break up this point of first reflection.  
3. Rear wall. In many cases it will be unnecessary to do  
anything with the wall behind your listening position.  
However, you may want to experiment with diffusers or  
18  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
absorbers behind you for best sound. Absorption behind the  
listener is usually beneficial.  
Mastering the Refinements of the system  
Fine tuning an audio system is an art that will take time and  
patience. It can be one of the more rewarding learning experiences  
you will have in the pursuit of music and its enjoyment.  
One of the best pieces of advice we can offer is that you take  
advantage of the ear's ability to identify similarities in sound. This  
ability is useful in fine tuning your system because if every recording  
you listen to has a similarity of sound (too much or too little of a  
certain frequency for instance) then you can be fairly certain that you  
have yet to perfect your set-up. Keep at it and remember to enjoy  
your music as you work on perfecting your set-up.  
During the design stage of Genesis loudspeakers, we rely on  
hundreds and hundreds of hours of critical listening. There are  
changes we can make to the crossover that we can measure, but can  
hardly hear the difference. And there are changes that we can easily  
hear the difference, but cannot measure. It is an artform as much as a  
science! Setting up the audio system is the same.  
If you have any questions, feel free to contact us at Genesis. Our  
website is the first place that you should look to for more  
information, but you are welcome to either send us an email, or just  
give us a call!  
19  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
The Technology  
The Genesis 2.2 loudspeaker comprises four “towers”: two  
midrange/tweeter wings and two bass columns. Each tower is over  
6 feet tall (183cm), and the cabinet is made of a vibration damping  
and resonance-control acrylic/composite sandwich material. The  
tweeters and midrange ribbon are mounted on a solid 1.5-inch slab  
of high-hardness cast acrylic.  
The rationale for the four-tower system separating the woofers from  
the midrange/tweeters is to allow the placement of the high-  
frequency wings to optimize imaging and soundstage, and the  
placement of the woofer towers to optimize in-room bass response.  
Design Philosophy  
Nothing has changed in theoretical acoustics since Lord Rayleigh’s  
original book on acoustics published in 1877. There are still only  
two proper ways for a transducer to propagate sound in a room: a  
point source and a line source. Anything else, or everything in  
between, is a compromise.  
In order for all frequencies of  
sound from the loudspeaker to  
reach the listener at exactly the  
same time, a coherent wave front  
is important - not just “time-  
alignment” of drivers. The ideal is  
either an infinitely small pulsating  
point or a pulsating line with a size  
on the order of the room  
dimension.  
Obviously, a line-source is much  
easier to mechanize than the ideal  
point source. The line-source (if  
large enough), can approximate  
John William Strutt Lord Rayleigh (1842 – 1919)  
the ideal, and in doing so, provide sufficient radiating area for  
dynamically and spatially realistic sound reproduction.  
The Genesis 2.2 is a line-source that is 4 feet long (nearly the half  
the room’s entire height). A line source has no vertical dispersion at  
any frequency. Hence there is no sound bouncing from either the  
20  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
floor or the ceiling. No deleterious interference from these surfaces  
is created (as in virtually all other kinds of speakers).  
Another advantage of the line source is that the vertical spectral  
content of music is virtually the same throughout the length of the  
line source. Hence, the seating height does not matter with this  
speaker; unlike point source speakers where it is important for the  
ears to be aligned in relationship with the tweeter.  
The Genesis 2.2 is also a dipole radiator. The midrange and  
tweeter drivers are mounted on a rigid acrylic panel with no  
enclosure. This has two advantages: firstly, it eliminates any  
enclosure or boxy colorations caused by cabinet vibrations or  
resonance.  
Secondly, the dipole creates a cardioid pattern (like a figure-eight),  
which has its maximum output at the listening position and behind  
the speaker itself, and minimum output to the sides in the plane of  
the loudspeakers. This very effectively minimizes the bounce from  
the sidewalls.  
Hence, in conjunction with the line source, the G2.2 has no first  
reflection from the floor, ceiling or sidewalls. The net result is that  
there are far fewer detail-robbing room reflections from the room  
than other types of loudspeakers. With fewer spurious reflections to  
confuse your hearing, the program source emerges more clearly.  
Imaging is deeper, yet more focused.  
This results in a loudspeaker system that is virtually room-  
independent. Also, because there are no phase and frequency  
distorting reflections created, one can be transported into the  
audience of the actual concert hall where the music was recorded.  
The Genesis Ribbon Tweeter  
Reviewers in the Audiophile press have often remarked that the  
Genesis circular ribbon tweeter is the world’s best. It is a one inch  
circular planar ribbon design crafted from an extremely thin  
membrane of Kapton with a photo-etched aluminium “voice coil”  
that is a mere 0.0005 inch thick. The entire radiating structure has  
less mass than the air in front of it! That is why it will accurately  
reproduce frequencies to 36 kHz.  
The result of this design is a driver that has a rapid and uniform  
response to high frequencies, and has the speed of the best  
21  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
ribbon/electrostatic designs without the high distortion and poor  
dispersion that is typically associated with them.  
The G2.2 uses twelve of these tweeters configured as a vertical  
line source. Because the output is distributed over many drivers,  
each works at very low-stress. This dramatically lowers the  
distortions in the high frequencies.  
The G2.2 also use three rear-firing tweeters per channel wired to  
the crossover out of phase to the front tweeters creating a dipole.  
48inch midrange ribbon  
We sometimes say that the midrange is a window into the mind of  
a composer or a singer. And indeed, the midrange is where the  
“magic” is in a well-recorded musical event. This is why the G2.2  
loudspeaker system uses a single 48inch-long ribbon per channel  
as a dipolar line-source to reproduce these critical frequencies.  
The midrange ribbon used in the G2.2 is manufactured to Genesis’  
exacting specifications. The ribbon itself is made of a very thin layer  
of aluminium laminated to a substrate of mylar that is 0.001inch  
thick. The ribbon is then suspended in the magnetic field created  
by over 24 feet of barium ferrite magnets.  
This results in a perfect line-source ribbon generating a continuous  
and perfectly coupled wave front. The benefit of this to the listener  
is a wide and even horizontal dispersion yielding a large and highly  
stable sweet spot.  
As a line-source dipole, the midrange ribbon has a vertical  
dispersion pattern identical to that of the line array of tweeters.  
Thus further insulating the listener from the room’s negative effects,  
and enhancing the sense of spaciousness and depth.  
The Servo-bass Advantage  
Very few loudspeakers use servo drive, either because most  
designers think that it is too difficult to design, too expensive, or  
because of the extraordinary demands a servo system makes on  
the amplifier and the transducer. The history of the Genesis servo-  
system started from the first introduced in the legendary Infinity  
Servo Statik One in 1968(!) – so we know how to design and build  
servo systems. The technology has been constantly updated and  
refined over the past 40 years.  
22  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
The concept of our servo bass system is an easy one to  
understand: It employs an accelerometer as a sensor to constantly  
monitor the movement of the woofer cone and continuously  
compares it to the input signal. This comparison circuit instantly  
identifies any deviation from the input and applies a corrective  
signal to compensate for any deviation, resulting in the virtual  
elimination of the inherent distortion of the woofer.  
As an example, when you have a high-impact, low-bass signal that  
starts and stops suddenly (for example a tympani), the inertia of the  
woofer cone makes it slow to start moving, and then after it has  
started moving, the momentum of the cone makes it continue to  
move after the signal has stopped. The sonic result is softness,  
overhang, and bloat in the bass. This results in a perceived lack of  
tautness and definition, and a blurring of dynamic impact.  
With the servo system, the circuit senses that the woofer is not  
moving as fast as it should, and it instantaneously applies much  
more current to make it move faster. When the signal stops, it  
predicts that the woofer will continue to move when it shouldn’t be  
moving and applies a counter-signal to stop the woofer faster and  
more effectively than an open loop woofer could possibly respond.  
Thus, the servo-drive reduces distortion and improves transient  
response by making the woofer appear to be massless. Typical  
non-servo woofer systems have distortion levels that exceed 10%  
at even moderate levels. The Genesis servo bass system reduces  
this distortion to below one percent at almost any output level. The  
system also drives the woofer to constant acceleration, which  
makes the frequency response of the woofer anechoically flat to  
the lowest frequencies.  
The Woofer Tower  
The transducer used in a servo system must be strong enough to  
withstand the high current approach of the servo, and yet delicate  
and light enough to react extremely quickly. The G2.2 features a  
total of four front- and four rear-firing 8-inch woofers per channel –  
a total of sixteen woofers in the system.  
While the servo system is able to ensure that the driver works  
linearly as a perfect piston, it is unable to correct for distortion  
caused by cone wobble, bending, and break-up. Hence, the drivers  
were designed to minimize these non-linear distortions.  
23  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
The woofers are a uniquely designed metal cone driver made for  
the Genesis servo system. Made with a cone of solid aluminium,  
the suspension and voicecoil have been maximized for long  
distortion-free excursion so as to increase dynamic range. Our  
aluminium cones are a magnitude stiffer than any plastic cone on  
the market, and virtually eliminate the problems caused by cone  
bending and break-up.  
The lowest break-up mode (where there can be any chance of  
distortion at all) is at 6,000Hz – far above the 16Hz to 120Hz  
frequency range that these drivers operate at. Therefore, the driver  
is a perfect piston within the frequencies used. Thus, extremely low  
cone break-up distortion is inherent in the driver that is designed for  
the Genesis 2.2.  
Unlike the midrange and the tweeters, the front and rear woofers  
operate in phase as a bipolar arrangement in which all sixteen  
operate in unison to control the air mass of the entire room. This  
means that the surface area of the eight cones and the large  
enclosure all work together in unison to produce bass output that  
descends evenly to below your hearing limits.  
Servo-controlled Amplifier  
One problem, however, of metal cones, is that of greater mass  
(even ones as light as the ones used in the G2.2). To over come  
this, Genesis had to build an amplification system of great power,  
and high damping factor. The servo system also places  
extraordinary demands on the amplifier because the system uses  
enormous amounts of current to make the woofer follow the input  
signal. Combined with the metal cones, this means that the  
amplifier used must efficiently deliver extraordinarily large amounts  
of clean power into very low impedances.  
In the Genesis 2.2, the amplifier was designed as a holistic system  
of woofers, integrated connecting cables, amplifiers, servo-control  
and remote controlled crossover circuitry. Two separate two-  
channel amplifier modules are used for the left and right woofer  
towers.  
Specially designed and tuned “Dynamic Reserve” power supplies  
are used – one for two channels – to deliver balanced dynamics  
which are critical to bass accuracy. This improves the power factor  
24  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
of the power supply in delivering the bass frequencies, resulting in  
“floorshakingly musical” bass to power the servo woofers.  
A further advantage to separating the amplifier modules of the left  
and right woofer towers is that if you are lucky enough to have  
multiple 20amp circuits in your listening room, you can power each  
woofer tower with a separate circuit! This allows for even better  
transient bass dynamics. The Dynamic Reservoir (from the  
Genesis Reference Amplifier) can also be adopted for the Servo-  
Controlled Bass Amplifier, which will give even faster bass  
transients.  
One side benefit of this powered woofer system is that almost any  
sized amplifier can be used to drive the mid/tweeter section of the  
Genesis 2.2. No longer must one choose between having an  
amplifier with enough power to drive the woofers, and a smaller  
amplifier having better spatial and tonal characters. Nevertheless,  
we do recommend no less than 100 watts as a minimum for the  
mid/tweeter sections.  
The Acoustic Suspension  
The suspension for each loudspeaker tower comprises three  
elements:  
1)  
The neoprene vibration absorbers are tuned to isolate and  
decouple the loudspeaker cabinet for optimal imaging and  
bass response no matter what surface the loudspeaker sits  
on.  
2)  
The skeletal frame acts as a tuned absorber. Made of an  
inch of solid acrylic, no two parts of the frame will resonate at  
the same frequencies. This ensures that all midrange  
frequencies are “dumped” below the base of the cabinet so  
that floor-borne vibrations do not affect the imaging and  
soundstage of the loudspeaker.  
3)  
The spikes rigidly couple the suspension system to the floor.  
If you have hardwood floors and do not want to make holes  
in the wood, use a copper penny (instead of expensive  
“spike cups”) under the spike.  
A pin-point suspension system is designed to pass all  
frequencies. Using a spike cup under the spike will defeat  
25  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
this system. The spike passes all frequencies to the spike  
cup, and then depending on the diameter of the spike cup, it  
passes only frequencies below a particular frequency.  
A copper penny gets deformed – the spike making an  
indentation where it meets the penny, and a little “nipple” on  
the other side. This still performs the same function as a pin-  
point suspension system, but at the same time protects your  
hardwood floor.  
Nevertheless, despite the acoustic suspension, if you have a  
extremely light and resonant floorboards, the acoustic suspension  
may still transmit sufficient vibrations to make your floor resonate  
and hence muddy up the bass and the imaging. In that case, it may  
be necessary to place heavy marble, slate, or granite slabs (at  
least 100lbs per slab) under the speakers. This slab serves as a  
foundation on which the acoustic suspension will work.  
26  
Download from Www.Somanuals.com. All Manuals Search And Download.  
absolute fidelity  
Specifications  
Dimensions:  
Mid/Tweeter Wing:  
H 75” x W 21” x D 16”  
H 75” x W 15” x D 26”  
H 11” x W 17” x D13”  
H 6” x W 10” x D 12”  
Woofer Tower:  
Amplifier (stack):  
Power Supply:  
Weight:  
720 lbs (328kg) wing/towers  
90 lbs (41kg) amplifier total  
Frequency Response:  
Controls (on amplifier):  
16Hz to 36kHz, +/- 2dB  
Bass volume, phase,  
low-pass, high-pass  
Controls (on speaker):  
Input Impedance:  
Rear Tweeters (+/- 1 dB)  
Midrange (+/- 0.75 dB)  
4 ohms (nominal)  
33K ohms (amplifier)  
Sensitivity:  
91 dB 1 watt 1 meter  
Amplifier Power Rating:  
4 channels @500 watts each  
Power Supply 1kVA per side  
Amplifier Inputs:  
Finish:  
1pair XLR (balanced)  
Acrylic composite  
27  
Download from Www.Somanuals.com. All Manuals Search And Download.  

Echo Trimmer SRM230 User Manual
Euro Pro Fryer K4320 User Manual
Festool Sander PI570789 User Manual
Fiesta Gas Grill EA24039 User Manual
Fiesta Gas Grill EZA34545 P306 User Manual
Fisher Price Baby Toy H7338 User Manual
Furuno Radar Detector FAR 2817 User Manual
GE Freezer FUM13 User Manual
Genelec Portable Speaker 8040A User Manual
Global Machinery Company Drill MX1G100 User Manual