Summit Speaker floorstanding loudspeaker User Manual

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Thank you—to you the MartinLogan owner,  
for loving what we do,  
and  
for making it possible for us to do what we love.  
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CONTENTS  
Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4  
Installation in Brief . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5  
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6  
Controls and Connections . . . . . . . . . . . . . . . . . . . . . . . 7  
AC Power Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . 8  
Signal Connection  
Dispersion Interactions. . . . . . . . . . . . . . . . . . . . . . . . . 15  
Controlled Horizontal Dispersion  
Controlled Vertical Dispersion  
Three Major Types of Dispersion  
Home Theater. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16  
Electrostatic Advantages . . . . . . . . . . . . . . . . . . . . . . . . 17  
Full Range Operation. . . . . . . . . . . . . . . . . . . . . . . . . . . 18  
MartinLogan Exclusives . . . . . . . . . . . . . . . . . . . . . . . . . 19  
XStat™ Transducer  
Break-In  
Jumper Clips  
Single-Wire Connection . . . . . . . . . . . . . . . . . . . . . . . . . 9  
Bi-Wire Connection  
CLS™ (Curvilinear Line Source)  
Bi-Amplification  
Generation 2 Diaphragm  
MicroPerf Stator  
Vacuum Bonding  
AirFrame™ Technology  
25Hz and 50Hz Level Control  
Placement. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11  
Listening Position  
The Wall Behind the Listener  
The Wall Behind the Speakers  
The Side Walls  
Experimentation  
Final Placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12  
The Extra “Tweak”  
PoweredForce™ Woofers  
Electrostatic Loudspeaker History . . . . . . . . . . . . . . . . 20  
Frequently Asked Questions. . . . . . . . . . . . . . . . . . . . . 22  
Troubleshooting. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24  
General Information . . . . . . . . . . . . . . . . . . . . . . . . . . . 25  
Specifications  
Enjoy Yourself  
Warranty and Registration  
Serial Number  
Service  
Room Acoustics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13  
Your Room  
Terminology  
Glossary of Audio Terms . . . . . . . . . . . . . . . . . . . . . . . . 26  
Rules of Thumb  
Dipolar Speakers and Your Room . . . . . . . . . . . . . . . . . 14  
Solid Footing  
The lightning bolt flash with arrowhead symbol, within  
an equilateral triangle, is intended to alert the user to  
the presence of uninsulated “dangerous voltage” within  
the product’s enclosure that may be of sufficient mag-  
nitude to constitute a risk of electric shock.  
The exclamation point within an equilateral triangle is  
intended to alert the user to the presence of important  
operating and maintenance (servicing) instructions in  
the literature accompanying the appliance.  
WARNING! The Summit features a down-firing woofer on the bottom of the cabinet. Setting the Summit flat on the  
floor without the feet installed can damage this woofer. For this reason the Summit ships from the factory with the feet  
installed. If, for some reason, you need to remove the Summit’s factory installed feet, carefully place the Summit on its  
side until the feet are replaced. The down-firing woofer on the Summit requires at least 2 inches of clearance from the  
floor for optimal performance. The Summit’s factory installed feet are specifically engineered to meet this requirement.  
WARNING! Do not use your Summit loudspeakers outside of the country of original sale—voltage requirements  
vary by country. Improper voltage can cause damage that will be potentially expensive to repair. The Summit is  
shipped to authorized MartinLogan distributors with the correct power supply for use in the country of intended  
4
Contents  
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INSTALLATION IN BRIEF  
We know you are eager to hear your Summit speakers, so  
this section is provided to allow fast and easy set up. Once  
you have them operational, please take the time to read,  
in depth, the rest of the information in this manual. It will  
give you perspective on how to attain the greatest possible  
performance from this most exacting transducer.  
Step 1: Unpacking  
Remove your new Summit speakers from their packaging.  
Step 2: Placement  
Place each Summit at least two feet from the back wall and  
angle them slightly toward your listening area. This is a good  
place to start. Please see the Placement section (pages 11–  
12) of this manual for more details.  
If you should experience any difficulties in the setup or  
operation of your Summit speakers, please refer to the Room  
Acoustics, Placement or Operation sections of this manual.  
Should you encounter a persistent problem that cannot  
be resolved, please contact your authorized MartinLogan  
dealer. They will provide you with the appropriate technical  
analysis to alleviate the situation.  
Step 3: Power Connection (AC) (see warning)  
Your Summit speakers require AC power to energize their  
electrostatic cells and to power the PoweredForce™ woofers.  
Using the AC power cords provided, plug them in first to  
the AC power receptacle on the rear panel of the speaker  
,
making sure that you have made a firm connection, and  
then to a wall outlet. Please see AC Power Connection  
(pages 8) of this manual for more details.  
WARNING!  
• Hazardous voltages exist inside—do not  
remove cover.  
• Refer servicing to a qualified technician.  
• To prevent fire or shock hazard, do not  
expose this module to moisture.  
• Turn amplifier off and unplug speaker should  
any abnormal conditions occur.  
Step 4: Signal Connection  
Use the best speaker cables you can. Higher quality cables,  
available from your specialty dealer, are recommended  
and will give you superior performance. Spade connectors  
are suggested for optimum contact and ease of installation.  
• Turn amplifier off before making or breaking  
any signal connections!  
Attach your speaker cables to the signal input section on the  
rear panel. Be consistent when connecting speaker leads to  
the terminals on the back of the Summit. Take great care to  
assign the same color to the (+) terminal on both the left and  
right channels. If bass is nonexistent and you cannot discern  
a tight, coherent image, you may need to reverse the (+) and  
(–) leads on one side to bring the system into proper polarity.  
• Do not operate if there is any visual damage  
to the electrostatic panel element.  
• Do not drive speaker beyond its rated power.  
• The power cord should not be installed,  
removed, or left detached from the speaker  
while the other end is connected to an AC  
power source.  
• Use only with a grounded electrical outlet.  
• No candles or other sources of open flame  
should be placed on the speaker.  
For detailed setup instructions, please turn to the Controls  
and Connections section (Page 7–10) of this manual for  
more details.  
• No liquids either in glasses or vases should be  
placed on speaker.  
• Speaker should not be exposed to dripping or  
splashing liquids.  
• The terminals marked with the lightning bolt  
symbol should be connected by an instructed  
person or by way of ready made terminals.  
Step 5: Control Settings  
Set the 25Hz and 50Hz Bass Level Control knobs to 0dB.  
Please see 25Hz and 50Hz Level Control (page 9) of this  
manual for more details.  
Step 6: Listen and Enjoy  
Now, you may turn on your system and enjoy!  
Installation in Brief  
5
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INTRODUCTION  
Congratulations! You have invested in one of the world’s  
premier loudspeaker systems.  
Featuring an advanced crossover topology derived from  
the Statement™ loudspeaker, MartinLogan carefully  
hand-builds each Summit™ crossover utilizing precision  
point-to-point wiring, audiophile-grade polypropylene  
capacitors and high-purity air-core coils. This advanced  
crossover topology flawlessly preserves microscopic sub-  
tleties while effortlessly handling the broadest range of  
dynamics contained within even the most demanding  
sonic source.  
The MartinLogan Summit represents an advanced  
combination of sonic technologies establishing an unprec-  
edented direction for audiophile design. The result of  
years of research, the new Summit™ hybrid electro-  
static loudspeaker features PoweredForce™ and XStat™  
technologies, dramatically reducing cabinet size, yet  
establishing new standards for efficiency, dynamics and  
precision in a floorstanding loudspeaker.  
The materials in your new Summit speakers are of the high-  
est quality and will provide years of enduring enjoyment  
and deepening respect. The cabinetry is constructed  
from the highest quality composite material for acoustical  
integrity and features hand rubbed wood veneers.  
The luminous legacy of MartinLogan subwoofer engi-  
neering and research not only produced some of the  
world’s most sophisticated subwoofers, but has also  
yielded new breakthroughs. Through integrated engineer-  
ing of advanced amplification and transducer designs,  
PoweredForce™ bass technology results in usable bass  
extension down to 24Hz, immense bass dynamics and  
precision beyond the reach of traditional passive box sys-  
tems—all from an enclosure not much larger than a case of  
wine! Additionally, low-frequency equalization capabili-  
ties, integrated into advanced PoweredForce™ technology,  
allow precision calibration for optimal room integration.  
Through rigorous testing, the curvilinear electrostatic  
panel has proven itself to be one of the most durable and  
reliable transducers available today. Fabricated from a  
custom tool punched high-grade steel, the patented  
panel is then coated with a special polymer that is applied  
via a proprietary electrostatic bonding process. This panel  
assembly houses a membrane just 0.0005 of an inch thick.  
Ruggedly constructed and insulated, the panel is rated to  
easily handle up to 300 watts of continuous power with  
no deleterious effects.  
Housed within a radical, ultra-rigid, billet and extruded  
aluminum AirFrame™, the Summit’s™ new CLS XStat™  
transducer builds upon the legacy of MartinLogan’s elec-  
trostatic heritage with the incorporation of advanced  
vacuum bonding and MicroPerf stat panels, providing  
even greater efficiency and precision. The integration of  
exotic toroidal transformer engineering and an electri-  
cal interface technology developed by MartinLogan’s  
Statement™ e2x engineering team extends effortless  
dynamics and purity, resulting in even higher sonic stan-  
dards of efficiency and precision.  
The other sections of your User’s Manual explain in detail  
the operation of your Summit speakers and the philoso-  
phy applied to their design. A clear understanding of your  
speakers will insure that you obtain maximum performance  
and pleasure from this most exacting transducer. It has been  
designed and constructed to give you years of trouble-free  
listening enjoyment.  
6
Introduction  
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CONTROLS AND CONNECTIONS  
50Hz Level Knob  
The 50Hz Level knob sig-  
nificantly adjusts the level  
between 40 and 60Hz by  
10dB. This is an area where  
peaks and dips of different  
amplitudes often manifest in  
real environments. This set-  
ting is dependent on room  
size and construction, system  
configuration and personal  
preference.  
Light Knob  
The light control knob allows  
the brightness of the illuminat-  
ed strip to be adjusted.  
25Hz Level Knob  
The 25Hz Level knob sig-  
nificantly adjusts the level  
between 20 and 30Hz by  
10dB. This is an area where  
peaks and dips of different  
amplitudes often manifest in  
real environments. This set-  
ting is dependent on room  
size and construction, system  
configuration and personal  
preference.  
Status Light  
The Summit is equipped with a  
multi-color LED to indicate the  
current status of the woofers.  
The following list explains the  
meaning of the different colors:  
No color: No power. The  
Summit is not plugged in.  
Green: Play mode. This indi-  
cates the Summit detects an  
audio signal and has auto-  
matically switched into play  
mode.  
ESL Signal Input  
This set of binding posts pro-  
vides a place to connect the  
signal that drives the XStat™  
ESL transducer.  
Yellow: Standby mode. This  
indicates the Summit has  
detected no audio signal for  
approximately 5 minutes and  
has automatically switched  
into standby mode.  
Woofer Signal Input  
This set of binding posts pro-  
vides a place to connect  
the signal that drives the  
PoweredForce™ woofers.  
AC Power Connection  
Red: Initializing or Safe mode.  
This indicates that the Summit  
is initializing. This also indicates  
if the Summit’s temperature has  
exceeded nominal operating  
range. If the Summit overheats,  
please allow the Summit to  
cool and reset it by unplugging  
the unit and plugging it back in.  
Because your MartinLogan  
Summit speakers use an inter-  
nal power supply to energize  
their electrostatic cells, they  
must be connected to an AC  
power source.  
Figure 1. Summit Controls and Connections  
Controls and Connections  
7
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AC Power Connection  
Because your Summit speakers use an internal power  
supply to energize their electrostatic cells and to power  
the PoweredForce™ woofers, they must be connected to  
an AC power source. For this reason they are provided  
with the proper IEC standard power cords. These cords  
should be firmly inserted into the AC power receptacles  
on the rear connection panel of the speakers, then to any  
convenient AC wall outlet. The Summit’s integrate a signal  
sensing power supply which will switch off after five min-  
utes of no music signal, and requires less than two seconds  
to recharge the panels when a music signal is present.  
We have verified this in many cases, and the improvements  
available are often more noticeable than the differences  
between wires of different gauge. The effects of cables  
may be masked if equipment is not of the highest quality.  
Connections are done at the signal input section on the  
rear electronics panel of the Summit. Use spade connec-  
tors for optimum contact and ease of installation. Hand  
tighten the binding posts, but do not overtighten—do not  
use a tool to tighten the binding posts.  
Be consistent when connecting the speaker cables to the  
signal input terminals. Take care to assign the same color  
cable lead to the (+) terminal on both the left and right  
channel speakers. If bass is nonexistent and you cannot  
discern a tight, coherent image, you may need to reverse  
the (+) and (–) leads on one speaker to bring the system  
into proper polarity.  
Your Summit speakers are wired for the power service  
supplied in the country of original consumer sale.  
The AC power rating applicable to a particular unit  
is specified both on the packing carton and on the  
serial number plate attached to the speaker. If you  
remove your Summit speakers from the country  
of original sale, be certain that the AC power supplied  
in any subsequent location is suitable before connect-  
ing and operating the speakers. Substantially impaired  
performance or severe damage may occur to an Summit  
speaker if operation is attempted from an incorrect AC  
power source.  
WARNING! Turn your amplifier off before  
making or breaking any signal connections!  
Break-In  
WARNING! The power cord should not be  
installed, removed, or left detached from the  
speaker while the other end is connected to an  
AC power source.  
When you first begin to play your Summit speakers, they  
will sound a bit bass shy. This is due to the high quality,  
long-life components used in our woofer. Our custom  
made, butyl surround woofer requires approximately  
72 hours of break-in at 90 dB (moderate listening levels)  
before any critical listening. The break-in requirements  
of the crossover components (and, to a lesser degree, the  
stator) are equivalent.  
Signal Connection  
Use the best speaker cables you can. The length and type  
of speaker cable used in your system will have an audible  
effect. Under no circumstance should a wire of gauge  
higher (thinner) than #16 be used. In general, the lon-  
ger the length used, the greater the necessity of a lower  
gauge, and the lower the gauge, the better the sound,  
with diminishing returns setting in around #8 to #12.  
Jumper Clips  
In some countries federal law prohibits MartinLogan from  
supplying jumper clips. If none are found installed under  
your speakers binding posts, please refer to ‘Bi-Wire  
Connection’ for connection instructions.  
A variety of cables are available whose manufacturers  
claim better performance than standard heavy gauge wire.  
8
Controls and Connection  
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Single Wire Connection  
Bi-Amplification  
Please take note of the jumper clips installed under the  
binding posts. These clips attach the high and low fre-  
quency sections of the crossover together. Leaving these  
in place, connect the (+) wire from your amplifier to  
either red binding post and the (–) wire from your ampli-  
fier to either black binding post (see figure 2).  
The Summit’s PoweredForce™ woofers are internally  
powered. Because of this, we do not recommend either  
active or passive bi-amplification.  
25Hz and 50Hz Level Control  
After you have determined the speaker position and pri-  
mary listening position (see pages 11–12) you will want to  
adjust the 25Hz and 50Hz level controls  
Bi-Wire Connection  
Bi-wiring the Summit is not necessary. The Summit is pro-  
vided with a bi-wiring option to allow consumers who  
already own quality bi-wire cables to use their existing  
cables. This connection method replaces the jumper clips  
installed under the binding posts with individual runs of  
speaker wire from your amplifier. This doubles the signal  
carrying conductors from the amplifier to the speaker, thus  
direct-coupling each portion of the crossover to the amplifier.  
On the rear of the Summit are two knobs that control  
the 25Hz and 50Hz frequency responses by 10db.  
MartinLogan engineers have found this frequency area  
(20–75Hz) to be problematic. Low frequencies tend to  
react to a room environment by creating nodes (boomy  
and unnatural bass) or nulls (nonexistent bass). By adjust-  
ing the 25Hz and 50Hz level knobs you can ‘dial out’  
undesirable nodes or nulls and create a balanced and  
seamless presentation.  
First you must remove the jumper clips. Connect one set  
of wires to the upper set of ESL binding posts. Next, con-  
nect a second set of wires to the lower woofer binding  
posts. Finally, connect both sets of wires to the appro-  
priate terminals on your amplifier. Please take care to  
connect both (+) wires to the (+) amplifier terminals and  
both (–) wires to the (–) amplifier terminals. This is also  
known as a parallel connection (see figure 3).  
To help find the optimal setting for your room, play mate-  
rial with (which you are familiar) with low frequency  
information (such as a drum or a pipe organ). When  
adjusting the 25Hz and 50Hz levels we recommend doing  
so with two or three people—one located at the listening  
position and one or two people at the controls.  
Figure 2. Single-wire connection. One channel shown.  
Figure 3. Bi-wire connection. One channel shown.  
Controls and Connection  
9
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1 Start with the 25Hz and 50Hz level knobs set to 0dB.  
The person at the listening position needs to become  
familiar with the sound at this setting. Remember, only  
the person in the listening position should judge the  
bass integration. Nodes and nulls change dramatically  
throughout every location in a room. A person adjust-  
ing the controls on the speaker will experience an  
entirely different bass performance than a person sit-  
ting in the listening position.  
amounts (8dB, 6dB, 4dB, etc.) until you find a setting  
where the low bass sounds balanced—remember  
to return the knob to 0dB and listen for a moment  
between each adjustment. Once you’ve found the best  
sounding setting for your room, make a note of the setting.  
3 Repeat step 2 to adjust the 50Hz level knob  
4 Setting one level may effect enough change that the  
other is no longer ideal. Once you have determined  
and noted the settings for both knobs repeat this pro-  
cedure with finer adjustments around the points you’ve  
already chosen.  
2 Adjust the 25Hz level knob by +10dB. In most cases  
the bass will sound boomy and unnatural. Return  
the setting to 0dB and listen to the speaker again for  
a moment. Next, adjust the 25Hz knob by –10dB.  
In most cases the bass will sound thin and nonexis-  
tent. Return the setting to 0dB and listen again for a  
moment.  
Remember—due to the unpredictabililty of every listening  
room experimentation is essential when setting up  
a loudspeaker. It may take several attempts to find a  
combination of control settings, speaker positions, and  
listening position that is ideal for you and your listening  
preferences. If you still hear anomalies, you may need to  
experiment with speaker placement or the location of the  
listening position—sometimes even the subtlest adjust-  
ments will make huge changes!  
Now you have an idea of the control you have over  
the 25Hz output. If you feel the bass is too boomy  
at 0dB, adjust towards the negative settings. If it is  
to thin at 0dB, adjust toward the positive settings.  
Repeat this procedure using increasingly smaller  
10 Controls and Connection  
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PLACEMENT  
Listening Position  
By now your speakers should be placed approximately  
two to three feet from the front wall, the wall in front of the  
listening position, and about two feet from the side walls.  
Your sitting distance should be further than the distance  
between the speakers themselves. You are trying to attain  
the impression of good center imaging and stage width.  
The front surface ideally should be one long wall without  
any doors or openings. If you have openings, the reflection  
and bass characteristics from each channel can be different.  
The Side Walls  
A good rule of thumb is to have the side walls as far away  
from the speaker sides as possible. However, MartinLogan’s  
unique controlled dispersion electrostatic transducer  
inherently minimizes side wall reflections—a position as  
little as two feet from the side walls often proves adequate.  
Sometimes, if the system is bright or the imaging is not to  
your liking, and the side walls are very near, try putting  
curtains or softening material directly to the edge of each  
speaker. An ideal side wall, however, is no side wall at all.  
There is no exact distance between speakers and listener,  
but there is a relationship. In long rooms, naturally, that  
relationship changes. The distance between the speakers  
will be far less than the distance from you to the speaker  
system. However, in a wide room, you will still find that  
if the distance from the listener to the speakers becomes  
smaller than the distance between the speakers themselves,  
the image will no longer focus in the center.  
Now that you have positioned your speaker system, spend  
time listening. Wait to make any major changes in your initial  
setup for the next few days as the speaker system itself will  
change subtly in its sound. Over the first 72 hours of play the  
actual tonal quality will change slightly with deeper bass and  
more spacious highs resulting. After a few days of listening  
you can begin to make refinements and hear the differences.  
Experimentation  
Toe-in—Now you can begin to experiment. First begin  
by toeing your speakers in towards the listening area and  
then facing them straight into the room. You will notice  
the tonal balance and imaging changing. You will notice  
that as the speakers are toed-out, the system becomes  
slightly brighter than when toed-in. This design gives you  
the flexibility to compensate for a soft or bright room.  
The Wall Behind the Listener  
Near-field reflections can also occur from your back wall (the  
wall behind the listening position). If your listening position  
is close to the back wall, these reflections can cause prob-  
lems and confuse imaging quality. It is better for the wall  
behind you to be absorptive than to be reflective. If you  
have a hard back wall and your listening position is close to  
it, experiment with devices that will absorb information  
(i.e. wall hangings and possibly even sound absorbing panels).  
Generally it is found that the ideal listening position is with  
the speakers slightly toed-in so that you are listening to the  
inner third of the curved transducer section. A simple, yet  
effective method to achieve proper toe involves sitting at the  
listening position, holding a flashlight under your chin and  
pointing it at each speaker. The reflection of the flashlight  
should be within the inner third of the panel (see figure 4).  
The Wall Behind the Speakers  
The front surface, the wall behind the speakers, should  
not be extremely hard or soft. A pane of glass will cause  
reflections, brightness and confused imaging. Curtains,  
drapery and objects such as bookshelves can be placed  
along the wall to diffuse an overly reflective surface. A  
standard sheet rock or textured wall is generally an ade-  
quate surface if the rest of the room is not too bright and  
hard. Walls can also be too soft. If the entire front wall  
consists of heavy drapery, your system can sound dull.  
You may hear muted music with little ambience. Harder  
surfaces will actually help in this case.  
Figure 4. Flashlight toe-in technique.  
Placement 11  
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Tilting the Speakers Backwards and Forwards—As the  
diagrams show in the Dispersion Interactions section of  
this manual (page 15), the vertical dispersion is directional  
above and below the stator panel itself. In some instances,  
if you are sitting close to the floor, slight forward tilting of  
the speakers can enhance clarity and precision.  
Now experiment with placing the speakers farther apart.  
As the speakers are positioned farther apart, listen again,  
not so much for bass response but for stage width and  
good pinpoint focusing. Your ideal listening position  
and speaker position will be determined by:  
•Tightness and extension of bass response  
•Width of the stage  
•Pinpoint focusing of imaging  
Imaging—In their final location, your Summit’s can have a  
stage width somewhat wider than the speakers themselves.  
On well recorded music, the instruments can extend  
beyond the edges of each speaker (left and right), yet  
a vocalist should appear directly in the middle. The size of the  
instruments should be neither too large nor too small, subject  
to the intent and results of each unique audio recording.  
Once you have determined the best of all three of these  
considerations, you will have your best speaker location.  
The Extra “Tweak”  
Additionally, you should find good clues as to stage  
depth. Make sure that the vertical alignment, distance from  
the front wall, and toe-in is exactly the same for both speakers.  
This will greatly enhance the quality of your imaging.  
This extra “tweak” may be useful when your speakers  
are placed in a dedicated listening room. Use the fol-  
lowing procedure and measurements for your speakers  
placement to see what can happen to your system’s per-  
formance. These formulas will help determine optimum  
placement of your speakers to minimize standing waves.  
Bass Response—Your bass response should neither be  
one note nor should it be too heavy. It should extend to the  
deepest organ passages and yet be tight and well defined.  
Kick-drums should be tight and percussive—string bass  
notes should be uniform and consistent throughout  
the entirety of the run without booming or thudding.  
1 Distance from the front wall (in front of the listening  
position) to the center of the curvilinear transducer: To  
determine distance from the front wall, measure the  
ceiling height (inches) and multiply the figure by 0.618  
(i.e. ceiling height (inches) x 0.618 = the distance from  
the front wall to the center of the curvilinear transducer).  
Tonal Balance—Voices should be natural and full and  
cymbals should be detailed and articulate yet not bright and  
piercing, pianos should have a nice transient characteristic  
and deep tonal registers. If you cannot attain these virtues,  
read the section on Room Acoustics (pages 1314). This  
will give you clues on how to get closer to these ideal virtues.  
2 Distance from the side-walls to the center of the cur-  
vilinear transducer: To determine distance from the  
side walls, measure the width of your room in inches  
and divide by 18. Next, multiply the quotient by 5 (i.e.  
room width in inches / 18 x 5 = the distance from the  
side-walls to the center of the curvilinear transducer).  
Final Placement  
After the full break in period, obtaining good wall treat-  
ments, and the proper toe-in angle, begin to experiment  
with the distance from the wall behind the speakers.  
Move your speaker slightly forward into the room. What  
happened to the bass response? What happened to the  
imaging? If the imaging is more open and spacious and  
the bass response is tightened, that is a superior position.  
Move the speakers back six inches from the initial setup  
position and again listen to the imaging and bass response.  
There will be a position where you will have pinpoint  
imaging and good bass response. That position is the point  
of the optimal placement from the front wall.  
Enjoy Yourself  
The Summit is a very refined speaker and benefits from  
care in setup. With these tips in mind you will find, over  
your months of listening, that small changes can result  
in measurable differences. As you live with your speak-  
ers, do not be afraid to experiment with their positioning  
until you find the optimal relationship between your room  
and speaker system that gives to you the best results. Your  
efforts will be rewarded.  
12 Placement  
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ROOM ACOUSTICS  
Your Room  
This is one of those areas that requires both a little back-  
ground to understand and some time and experimentation  
to obtain the best performance from your system.  
Resonant Surfaces and Objects  
All of the surfaces and objects in your room are subject to  
the frequencies generated by your system. Much like an  
instrument, they will vibrate and “carry on” in syncopation  
with the music, and contribute in a negative way to the  
music. Ringing, boominess, and even brightness can occur  
simply because they are “singing along” with your music.  
Your room is actually a component and an important part  
of your system. This component is a very large variable  
and can dramatically add to, or subtract from, a great  
musical experience.  
Resonant Cavities  
All sound is composed of waves. Each note has its own  
wave size, with the lower bass notes literally encompassing  
from 10’ feet to as much as 40’ feet. Your room partici-  
pates in this wave experience like a three dimensional pool  
with waves reflecting and becoming enhanced depending  
on the size of the room and the types of surfaces in the room.  
Small alcoves or closet type areas in your room can be  
chambers that create their own “standing waves” and can  
drum their own “one note” sounds.  
Clap your hands. Can you hear an instant echo respond  
back? You have near-field reflections. Stomp your foot  
on the floor. Can you hear a “boom”? You have standing  
waves or large panel resonances such as a poorly sup-  
ported wall. Put your head in a small cavity area and talk  
loudly. Can you hear a booming? You’ve just experienced  
a cavity resonance.  
Remember, your audio system can literally generate all of  
the information required to recreate a musical event in  
time, space, and tonal balance. Ideally, your room should  
not contribute to that information. However, every room  
does contribute to the sound to some degree. Fortunately  
MartinLogan had designed the Summit to minimize these  
anomalies  
Rules of Thumb  
Let’s talk about a few important terms before we begin.  
Hard vs. Soft Surfaces  
If the front or back wall of your listening room is soft, it  
might benefit you to have a hard or reflective wall in  
opposition. The ceiling and floor should follow the same  
basic guideline as well. However, the side walls should be  
roughly the same in order to deliver a focused image.  
Terminology  
Standing Waves  
The parallel walls in your room will reinforce certain notes  
to the point that they will sound louder than the rest of  
the audio spectrum and cause “one note bass, boomy  
bass” or “bloated bass. For instance, 100Hz represents a  
10 feet wavelength. Your room will reinforce that specific  
frequency if one of the dominant dimensions is 10 feet.  
Large objects in the room such as cabinetry or furniture  
can help to minimize this potential problem. Some seri-  
ous “audiophiles” will literally build a special room with  
no parallel walls just to help eliminate this phenomenon.  
This rule suggests that a little reflection is good. As a matter  
of fact, some rooms can be so “over damped” with carpet-  
ing, drapes and sound absorbers that the music system  
can sound dull and lifeless. On the other hand, rooms can  
be so hard that the system can sound like a gymnasium  
with too much reflection and brightness. The point is that  
balance is the optimum environment.  
Breakup Objects  
Objects with complex shapes, such as bookshelves, cabinetry  
and multiple shaped walls can help break up those sonic  
gremlins and diffuse any dominant frequencies.  
Reflective Surfaces (near-field reflections)  
The hard surfaces of your room, particularly if close to your  
speaker system, will reflect some waves back into the room  
over and over again, confusing the clarity and imaging of  
your system. The smaller sound waves are mostly affected  
here, and occur in the mid and high frequencies. This is  
where voice and frequencies as high as the cymbals occur.  
Solid Coupling  
Your loudspeaker system generates frequency vibrations or  
waves into the room. This is how it creates sound. These  
vibrations vary from 20 per second to 20,000 per sec-  
Room Acoustics 13  
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ond. If your speaker system is not securely planted on the  
floor or solid surface, it can shake as it produces sound  
and, consequently, the sound can be compromised. If  
your speaker is sitting on the carpet and only foot gliders  
are used, the bass can be ill defined and even boomy. The  
use of spikes is recommended to insure secured footing for  
your speakers. (See ‘Solid Footing’ for spike information  
and installation instructions).  
the floor and, consequently, bass will tighten and imag-  
ing will become more coherent and detailed. It is best not  
to implement the spikes, however, until you are secure in  
the positioning, as the spikes can damage the floor if the  
speaker is moved. The feet that attach to the bottom of  
the Summit use a common 3/8“ x 16 thread. The threaded  
spike insert itself is a 3/4“ x 16 thread.  
Spike Installation Instructions:  
Dipolar Speakers and Your Room  
1 Carefully lay your speaker on its side to gain access to  
the bottom. (See the warning on back cover.)  
MartinLogan electrostatic loudspeakers are known as dipo-  
lar radiators. This means that they produce sound from  
both their fronts and their backs. Consequently, musical  
information is reflected by the wall behind them and may  
arrive, either in or out of step, with the information pro-  
duced by the front of the speaker.  
2 Remove the jam nut from the bottom of the foot.  
3 Remove the threaded spike insert. Flip the threaded  
spike insert 180 degrees to expose the spike. Replace  
the threaded spike insert.  
The low frequencies can either be enhanced or nulled by  
the position from the front wall. Your Summit’s have been  
designed to be placed two to three feet from the front  
wall (the wall in front of the listening position) to obtain  
the best results; however, your room may see things dif-  
ferently. So listening to the difference of the bass response  
as a result of the changes in distance from the front wall  
can allow you to get the best combination of depth of bass  
and tonal balance.  
4 Re-install the jam nut.  
5 Right the speaker. Caution: Make sure your hands and  
any cabling are clear of the spikes. Do not slide speaker as  
spikes are sharp and can damage your floor or carpet.  
6 Adjust to level by the rotating spikes.Tighten the jam nut  
securely when satisfied that speaker is level. Caution:  
walking the speaker may result in a broken spike or foot.  
Now that you know about reflective surfaces and reso-  
nant objects, you can see how the midrange and high  
frequencies can be affected. The timing of the initial wave  
as it radiates to your ears, and then the reflected informa-  
tion as it arrives at your ears later in time, can result in  
confusion of the precious timing information that carries  
the clues to imaging. Consequently the result is blurred  
imaging and excessive brightness. Soft walls, curtains, wall  
hangings, or sound dampeners (your dealer can give you  
good information here) can be effective if these negative  
conditions occur.  
Solid Footing  
After living and experimenting with your Summit’s, you  
may want to use ETC (energy transfer coupler) spikes sup-  
plied with the Summit (see figure 5). With the use of these  
spikes, the Summit will become more firmly planted on  
Figure 5. The ETC™ Spike.  
14 Placement  
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DISPERSION INTERACTIONS  
Three Major Types of Dispersion  
Controlled Horizontal Dispersion  
Your Summit’s launch a 30 degree horizontal dispersion  
pattern. This horizontal dispersion field gives a choice of  
good seats for the performance while minimizing inter-  
actions with side walls (see figure 10). Make sure both  
speakers stand exactly at the same vertical angle, otherwise  
the image can be skewed or poorly defined. The wave  
launch of both speakers is extremely accurate in both the  
time and spectral domain. Consequently, small refined  
adjustments can result in noticeable sonic improvements.  
It is a known fact that as the sound wave becomes pro-  
gressively smaller than the transducer producing it,  
the dispersion of that wave becomes more and more  
narrow, or directional. This fact occurs as long as the  
transducer is a flat surface. Large flat panel speakers  
exhibit venetian blind effects due to this phenomenon.  
This is one reason why many manufacturers opt for small  
drivers (i.e. tweeters and midrange) to approximate  
what is known as a point source wave launch.  
Historically, most attempts to achieve smooth dispersion  
from large flat panel transducers resulted in trade-offs.  
After exhaustive testing of many different methods, we  
conceived an elegantly simple, yet intensely hand craft-  
ed process. By curving the radiating surface, we create  
the effect of a horizontal arc. This allows the engineers at  
MartinLogan to control the high frequency dispersion pat-  
tern of our transducers.  
Controlled Vertical Dispersion  
As you can see from the illustrations, your Summit speak-  
ers project a controlled dispersion pattern (see figure 11).  
Each Summit is a 44 inch line source beginning 15 inches  
above the base. This vertical dispersion profile minimizes  
interactions with the floor and the ceiling.  
Figure 67. As can be seen here, point source  
concepts invite a great deal of room interaction.  
While delivering good frequency response to a  
large listening audience, imaging is consequently  
confused and blurred.  
Figure 89. Even though they suffer from  
“venetian blind” effect, angled multiple panel  
speakers can deliver good imaging, but only  
to specific spots in the listening area.  
Figure 10–11. A controlled 30 degree cylindri-  
cal wave-front, a MartinLogan exclusive, offers  
optimal sound distribution with minimal room  
interaction. The result is solid imaging with a  
wide listening area.  
Dispersion Interactions 15  
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HOME THEATER  
It had long been the practice of stereo buffs to connect their  
television to a stereo system. The advantage was the use of  
the larger speakers and more powerful amplifier of the  
stereo system. Even though the sound was greatly improved,  
it was still mono and limited by the broadcast signal.  
Surround Speakers  
We recommend (along with the film industry) that the sur-  
round speakers play down to at least 80 Hz. Surround  
speakers contain the information that makes it appear  
that planes are flying over your head. Some may suggest  
that this is the place to save money and purchase a small,  
inexpensive speaker. If you choose to do so, be prepared  
to upgrade in the future as discrete multi-channel digital  
encoding is proliferating rapidly and the demands on sur-  
round speakers have increased.  
In the late 1970’s and early 1980’s two new home movie  
formats became widely available to the public: VCR and  
laser disc.  
By 1985, both formats had developed into very high quality  
audio/video sources. In fact, the sonic performance of some  
video formats exceeded audio-only formats. Now, with  
theater-quality sound available at home, the only element  
missing was the "surround sound" presentation found in  
movie houses.  
Subwoofer  
With any good surround system you will need one or  
more high-quality subwoofers (the .1 in a 5.1 channel  
surround system). Most movie soundtracks contain large  
amounts of bass information as part of the special effects.  
Good subwoofers will provide a foundation for the rest of  
the system.  
Fortunately, Dolby and DTS encoded movies (including  
almost all films) have the same surround sound informa-  
tion encoded on home releases as the theatrical release.  
All that is required to retrieve this information is a decoder  
and additional speakers and amps to reproduce it.  
Home theater is a complex purchase and we recommend  
that you consult your local MartinLogan dealer, as they  
are well versed in this subject.  
Each piece of a surround system can be purchased sepa-  
rately. Take your time and buy quality. No one has ever  
complained that the movie was too real. The following list  
and descriptions will give you only a brief outline of the  
responsibilities and demands placed on each speaker.  
Front Left and Front Right  
If these speakers will be the same two used for your stereo  
playback, they should be of very high quality and able to  
play loudly (over 102 dB) and reproduce bass below 80 Hz.  
Center Channel  
This is the most important speaker in a home theater  
system, as almost all of the dialogue and a large portion of  
the front speaker information is reproduced by the cen-  
ter channel. It is important that the center speaker be  
extremely accurate and mate well the front speakers,  
and that it is recommended for use as a center speaker.  
This is not the place to cut corners.  
Figure 12. Summit speakers as front channels, the Stage as the center  
channel, Script i speakers as side surround (effects) channels, and Descent  
subwoofers as 0.1 (effects) channel.  
16 Home Theater  
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ELECTROSTATIC ADVANTAGES  
How can sound be reproduced by something that you are  
able to see through? Electrostatic energy makes this possible.  
purity of the electrostatic concept due to its exceptional  
linearity and low distortion.  
Where the world of traditional loudspeaker technology  
deals with cones, domes, diaphragms and ribbons that  
are moved with magnetism, the world of electrostatic  
loudspeakers deals with charged electrons attracting and  
repelling each other.  
Since the diaphragm of an electrostatic speaker is uniform-  
ly driven over its entire area, it can be extremely light and  
flexible. This allows it to be very responsive to transients,  
thus perfectly tracing the music signal. As a result, great  
delicacy, nuance and clarity is possible. When you look  
at the problems of traditional electromagnetic drivers,  
you can easily see why this is so beneficial. The cones and  
domes which are used in traditional electromagnetic driv-  
ers cannot be driven uniformly because of their design.  
Cones are driven only at the apex. Domes are driven at  
their perimeter. As a result, the rest of the cone or dome  
is just “along for the ride”. The very concept of these  
drivers requires that the cone or dome be perfectly rigid,  
damped and massless. Unfortunately, these conditions are  
not available in our world today.  
To fully understand the electrostatic concept, some back-  
ground information will be helpful. Remember when you  
learned in a science or physics class that like charges repel  
each other and opposite charges attract each other? Well,  
this principle is the foundation of the electrostatic concept.  
An electrostatic transducer consists of three pieces: stators,  
the diaphragm and spacers (see figure 13). The diaphragm  
is what actually moves to excite the air and create music.  
The stator’s job is to remain stationary, hence the word  
stator, and to provide a reference point for the moving  
diaphragm. The spacers provide the diaphragm with a  
fixed distance in which to move between the stators.  
To make these cones and domes move, all electromagnet-  
ic drivers must use voice coils wound on formers, spider  
assemblies, and surrounds to keep the cone or dome in  
position (see figure 14). These pieces, when combined  
with the high mass of the cone or dome materials used,  
make it an extremely complex unit with many weaknesses  
and potential for failure. These faults contribute to the  
high distortion products found in these drivers and is a  
tremendous disadvantage when you are trying to change  
motion as quickly and as accurately as a loudspeaker must  
(40,000 times per second!).  
As your amplifier sends music signals to an electrostatic  
speaker, these signals are changed into two high-voltage  
signals that are equal in strength but opposite in polarity.  
These high voltage signals are then applied to the stators.  
The resulting electrostatic field, created by the opposing  
high voltage on the stators, works simultaneously with  
and against the diaphragm, consequently moving it back  
and forth, producing music. This technique is known as  
push-pull operation and is a major contributor to the sonic  
Figure 13. Cut away view of an XStat™ electrostatic transducer. Notice  
Figure 14. Cut away view of a typical moving coil driver. Notice the com-  
the simplicity due to minimal parts usage.  
plexity due to the high number of parts.  
Electrostatic Advantages 17  
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Full Range Operation  
Another significant advantage of MartinLogan’s exclusive  
transducer technology reveals itself when you look at exam-  
ples of other loudspeaker products on the market today.  
these drivers must be designed to operate within a nar-  
row, fixed bandwidth of the frequency range, and then  
combined electrically so that the sum of the parts equals  
the total signal. While nice in theory, we must deal with  
real-world conditions.  
The Summit uses no crossover networks above 270 Hz  
because they are not needed. The Summit consists of a  
single, seamless electrostatic membrane reproducing all  
frequencies above 270 Hz simultaneously. How is this  
possible?  
In order to use multiple drivers, a crossover network  
is enlisted to attempt a division of the complex musical  
signal into the separate pieces (usually highs, mids, and  
lows) that each specific driver was designed to handle.  
Unfortunately, due to the phase relationships that occur  
within all crossover networks and during the acoustical  
recombination process, nonlinearities and severe deg-  
radation of the music signal take place in the ear’s most  
critical zone (see figure 15).  
First we must understand that music is not composed  
of separate high, mid and low frequency pieces. In fact,  
music is comprised of a single complex waveform with all  
frequencies interacting simultaneously.  
The electrostatic transducer of the Summit essentially acts  
as an exact opposite of the microphones used to record  
the original event. A microphone, which is a single work-  
ing element, transforms acoustic energy into an electrical  
signal that can be amplified or preserved by some type  
of storage media. The Summit’s electrostatic transducer  
transforms electrical energy from your amplifier back into  
acoustical energy.  
The Summit’s electrostatic transducer can single-handedly  
reproduce all frequencies above 270 Hz simultaneously.  
You have in one transducer the ability to handle in elegant  
simplicity the critical frequencies above 270 Hz.  
The crossover phase aberrations that are associated with  
traditional tweeter, midrange, and woofer systems are  
eliminated. The result is a dramatic improvement in imag-  
ing and staging performance due to the minutely accurate  
phase relationship of the full-range panel wave launch.  
Due to the limitations of electromagnetic drivers, no single  
unit can reproduce the full range of frequencies. Instead,  
Figure 15. This diagram illustrates how a conventional  
speaker system must use multiple crossover networks  
that have negative effects on the musical performance.  
18 Electrostatic Advantages  
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MARTINLOGAN EXCLUSIVES  
XStat™ Transducer  
MicroPerf Stator  
XStat™ transducers incorporate a myriad of technology and  
design innovations including CLS™, MicroPerf, Generation  
2 Diaphragms, ClearSpars™, and Vacuum Bonding.  
Sleek. Compact. MicroPerf stator technology, featured in  
all XStat™ transducers, reveals more open playable area  
in each panel, offering increased performance from even  
more compact stat panels. It is significant to note that the  
XStat™ transducer in the radical new Summit loudspeaker  
supports the bandwidth and dynamics associated with tra-  
ditional electrostatic panels nearly twice its size.  
CLS™ (Curvilinear Line Source)  
Since the beginning of audio, achieving smooth dispersion  
has been a problem for all designers. Large panel transduc-  
ers present unique challenge because the larger the panel,  
the more directional the dispersion pattern becomes.  
Vacuum Bonding  
To achieve the power, precision, and strength of the  
XStat™ transducer, two insulated high-purity carbon steel  
stators along with a proprietary plasma bonded diaphragm  
and ClearSpar™ spacers are fused into a curved geometry  
with an aerospace adhesive whose strength exceeds that  
of welding. Our proprietary Vacuum Bonding process  
guarantees uniform diaphragm tensioning and extremely  
precise construction tolerances, resulting in unequivocal  
precision, linearity and efficiency.  
Wide range electrostats have long been one of the most  
problematic transducers because they attain their full  
range capabilities via a large surface area. It looked as if  
they were in direct conflict to smooth dispersion and  
almost every attempt to correct this resulted in either poor  
dispersion or a serious compromise in sound quality.  
After extensive research, MartinLogan engineers discovered  
an elegantly simple solution to achieve a smooth pattern of  
dispersion without degrading sound quality. By curving the  
horizontal plane of the electrostatic transducer, a controlled  
horizontal dispersion pattern could be achieved, yet the  
purity of the almost massless electrostatic diaphragm  
remained uncompromised. After creating this technology,  
MartinLogan developed the production capability to bring  
it out of the laboratory and into the market place. You will  
find this proprietary MartinLogan technology used in all  
of our electrostatic products. It is one of the many reasons  
behind our reputation for high quality sound with prac-  
tical usability. This is also why you see the unique “see  
through” cylindrical shape of MartinLogan products.  
AirFrame™ Technology  
Ultra-rigid, billet and extruded aerospace grade alumi-  
num alloy AirFrame™ technology rigidifies and secures  
the XStat™ electrostatic panel to the PoweredForce™  
woofer cabinet while at the same time providing sonic  
and electrical isolation. Advanced AirFrame™ technology  
maximizes the electrostatic panels playable surface area  
and dipole dispersion pattern while minimizing poten-  
tially acoustically destructive intermodulated distortion  
caused by spurious vibrations and resonance. The result?  
Ultimate imaging capability, low-level detail resolution,  
improved efficiency and overall accuracy.  
Generation 2 Diaphragm  
Summit’s diaphragm employs an extremely sophisticated  
conductive coating applied to the polymer surface at an  
atomic level using a plasma bonding process. A proprietary  
compound is driven into the surface of the polymer film  
in an oxygen free argon chamber. This process allows  
extremely uniform surface resistivity characteristics, an  
optically transparent surface, and a nearly massless dia-  
phragm. This uniform surface resistivity controls the  
electrostatic charge on the diaphragm surface and regulates  
its migration. As a result, no discharging or “arcing” can occur.  
PoweredForce™ Woofers  
Through integrated engineering of advanced amplifi-  
cation and transducer designs, PoweredForce™ bass  
technology results in usable bass extension down to 24Hz,  
immense bass dynamics and precision beyond the reach  
of traditional massive box systems—all from an enclo-  
sure not much larger than a case of wine! Additionally,  
low-frequency equalization capabilities, integrated into  
PoweredForce™ technology, allow precision calibration  
for optimal room integration.  
MartinLogan Exclusives 19  
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ELECTROSTATIC HISTORY  
In the late 1800’s, any loudspeaker was considered exotic.  
Today, most of us take the wonders of sound reproduction  
for granted.  
After a short time, Rice and Kellogg had narrowed the field  
of “contestants” down to the cone and the electrostat. The  
outcome would dictate the way that future generations  
would refer to loudspeakers as being either “conventional”  
or “exotic”.  
It was 1880 before Thomas Edison had invented the  
first phonograph. This was a horn-loaded diaphragm  
that was excited by a playback stylus. In 1898, Sir Oliver  
Lodge invented a cone loudspeaker, which he referred to  
as a “bellowing telephone”, that was very similar to the  
conventional cone loudspeaker drivers that we know today.  
However, Lodge had no intention for his device to repro-  
duce music because in 1898 there was no way to amplify  
an electrical signal! As a result, his speaker had nothing to  
offer over the acoustical gramophones  
Bell Laboratory’s electrostat was something to behold. This  
enormous bipolar speaker was as big as a door. The dia-  
phragm, which was beginning to rot, was made of a pig  
intestine that was covered with fine gold leaf to conduct  
the audio signal.  
When Rice and Kellogg began playing the new electrically  
cut records through the electrostat,  
of the period. It was not until 1906  
that Dr. Lee DeForrest invented the  
triode vacuum tube. Before this, an  
electrical signal could not be ampli-  
Rice and Kellogg had  
they were stunned and impressed. The  
electrostat performed splendidly. They  
had never heard instrumental timbres  
reproduced with such realism. This sys-  
narrowed the field of  
fied. The loudspeaker, as we know it “contestants down” to the tem sounded like real music rather than  
today, should have ensued then, but  
it did not. Amazingly, it was almost  
twenty years before this would occur.  
the honking, squawking rendition of the  
acoustic gramophone. Immediately, they  
knew they were on to something big.  
cone and the electrostat.  
The acoustic gramophone was destined to become obsolete.  
In 1921, the electrically cut phonograph record became  
a reality. This method of recording was far superior to the  
mechanically cut record and possessed almost 30 dB of  
dynamic range. The acoustical gramophone couldn’t begin  
to reproduce all of the information on this new disc. As a  
result, further developments in loudspeakers were needed  
to cope with this amazing new recording medium.  
Due to Rice and Kellogg’s enthusiasm, they devoted a  
considerable amount of time researching the electrostatic  
design. However, they soon encountered the same dif-  
ficulties that even present designers face; planar speakers  
require a very large surface area to reproduce the lower fre-  
quencies of the audio spectrum. Because the management  
at Bell Labs considered large speakers unacceptable, Rice  
and Kellogg’s work on electrostatics would never be put to  
use for a commercial product. Reluctantly, they advised the  
Bell management to go with the cone. For the next 30 years,  
the electrostatic design lay dormant.  
By 1923, Bell Telephone Laboratories made the decision  
to develop a complete musical playback system consisting  
of an electronic phonograph and a loudspeaker to take  
advantage of the new recording medium. Bell Labs  
assigned the project to two young engineers, C. W. Rice  
and E. W. Kellogg.  
During the Great Depression of the 1930’s, consumer audio  
almost died. The new electrically amplified loudspeaker  
never gained acceptance, as most people continued to  
use their old Victrola-style acoustic gramophones. Prior to  
the end of World War II, consumer audio saw little, if any,  
progress. However, during the late 1940’s, audio expe-  
rienced a great rebirth. Suddenly there was tremendous  
interest in audio products, and with that, a great demand  
for improved audio components. No sooner had the cone  
become established than it was challenged by products  
developed during this new rebirth.  
Rice and Kellogg had a well equipped laboratory at their  
disposal. This lab possessed a vacuum tube amplifier  
with an unheard of 200 watts, a large selection of the  
new electrically cut phonograph records and a variety of  
loudspeaker prototypes that Bell Labs had been collecting  
over the past decade. Among these were Lodge’s cone, a  
speaker that used compressed air, a corona discharge (plas-  
ma) speaker, and an electrostatic speaker.  
20 Electrostatic History  
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In 1947, Arthur Janszen, a young Naval engineer, took part  
in a research project for the Navy. The Navy was interested  
in developing a better instrument for testing microphone  
arrays. The test instrument needed an extremely accurate  
speaker, but Janszen found that the cone speakers of the  
period were too nonlinear in phase and amplitude response  
to meet his criteria. Janszen believed that electrostats were  
inherently more linear than cones, so he built a model using  
a thin plastic diaphragm treated with a conductive coating.  
This model confirmed Janszen’s beliefs, for it exhibited  
remarkable phase and amplitude linearity.  
was very directional and its power handling was limited to  
around 70 watts. As a result, many people continued to use  
box speakers with cones.  
In the early 1960’s Arthur Janszen joined forces with the  
KLH loudspeaker company, and together they introduced  
the KLH 9. Due to the large size of the KLH 9, it did not  
have as many sonic limitations as the Quad. The KLH 9  
could play markedly louder and lower in frequency than  
the Quad ESL. Thus a rivalry was born.  
Janszen continued to develop electrostatic designs. He  
was instrumental in the design of the Koss Model One,  
the Acoustech and the Dennesen speakers. Roger West,  
the chief designer of the Janszen  
Janszen was so excited with the results that he continued  
research on the electrostatic speaker on his own time. He  
soon thought of insulating the stators to  
prevent the destructive effects of arcing.  
By 1952, he had an electrostatic  
tweeter element ready for commercial  
production. This new tweeter soon  
created a sensation among American  
audio hobbyists. Since Janszen’s  
These developments allow  
the consumer to own the  
highest performance loud-  
Corporation, became the presi-  
dent of Sound Lab. When Janszen  
Corporation was sold, the RTR  
loudspeaker company bought  
half of the production tooling. This  
tooling was used to make the elec-  
tweeter element was limited to high speaker products ever built. trostatic panels for the Servostatic, a  
frequency reproduction, it often found  
hybrid electrostatic system that was  
Infinity’s first speaker product. Other companies soon  
followed; each with their own unique applications of  
the technology. These include Acoustat, Audiostatic,  
Beverage, Dayton Wright, Sound Lab and Stax, to name a few.  
itself used in conjunction with woofers—most notably,  
those from Acoustic Research. These systems were highly  
regarded by all audio enthusiasts.  
As good as these systems were, they would soon be surpassed  
by another electrostatic speaker.  
Electrostatic speakers have progressed and prospered  
because they actually do what Peter Walker claimed they  
would. The limitations and problems experienced in the  
past were not inherent to the electrostatic concept. They  
were related to the applications of these concepts.  
In 1955, Peter Walker published three articles regarding  
electrostatic loudspeaker design in Wireless World, a British  
magazine. In these articles, Walker demonstrated the benefits  
of the electrostatic loudspeaker. He explained that electro-  
statics permit the use of diaphragms that are low in mass,  
large in area and uniformly driven over their surfaces by  
electrostatic forces. Due to these characteristics, electrostats  
have the inherent ability to produce a wide bandwidth,  
flat frequency response with distortion products being no  
greater than the electronics driving them.  
Today, these limitations have been resolved. Advancements  
in materials due to the U.S. space program give designers  
the ability to harness the superiority of the electrostatic  
principle. Today’s electrostats use advanced insulation  
techniques or provide protection circuitry. The poor dis-  
persion properties of early models have been addressed by  
using delay lines, acoustical lenses, multiple panel arrays or,  
as in our own products, by curving the diaphragm. Power  
handling and sensitivity have also been increased.  
By 1956, Walker backed up his articles by introducing a  
consumer product, the now famous Quad ESL. This speaker  
immediately set a standard of performance for the audio  
industry due to its incredible accuracy. However, in actual  
use, the Quad had a few problems. It could not be played  
very loud, it had poor bass performance, it presented a dif-  
ficult load that some amplifiers did not like, its dispersion  
These developments allow the consumer the opportunity  
to own the highest performance loudspeaker products ever  
built. It’s too bad Rice and Kellogg were never able to see  
just how far the technology would be taken.  
Electrostatic History 21  
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FREQUENTLY ASKED QUESTIONS  
How do I clean my speakers?  
Is there likely to be any interaction between my speakers  
and the television in my Audio/Video system?  
Use a dust free cloth or a soft brush to remove the dust  
from your speakers. We also recommend a specialty  
com) that cleans your speakers better than anything  
else we have tried. For the wood surfaces it is accept-  
able to slightly dampen the cloth. Do not spray any  
kind of cleaning agent on or in close proximity to  
the electrostatic element. Avoid the use of ammonia  
based products or silicone oil on the wood parts.  
Actually, there is less interaction between a television  
and an electrostatic speaker than between a television  
and a conventional system. However, we do recommend  
that you keep your speakers at least one foot away  
from the television because of the dynamic woofer they  
employ. In the case of our center channel speakers,  
however, they are fully shielded and can go anywhere.  
Will my electric bill go ‘sky high’ by leaving my speak-  
ers plugged in all the time?  
What is the advantage of ESL?  
Since the diaphragm is uniformly driven over its entire  
surface—unlike a tweeter that is only driven at its  
edges— it is the only technology that can be made  
large enough to play bass, yet is still light enough for  
high frequencies. This unique property allows for the  
elimination of high frequency crossover points and  
their associated distortions.  
No. A pair of MartinLogan’s will draw about 5 watts  
maximum. There is circuitry to turn off the static charge  
when not in use; however, actual consumption will  
remain close to the same. The primary purpose of the  
sensing circuitry is to prevent dust collection on the elec-  
trostatic element.  
If the diaphragm is punctured with a pencil or similar  
item, how extensive would the damage to the speaker be?  
Our research department has literally punctured hundreds  
of holes in a diaphragm, neither affecting the quality of  
the sound nor causing the diaphragm to rip. However,  
you will be able to see the actual puncture and it can  
be a physical nuisance. If this is the case, replacing the  
electrostatic transducer will be the only solution.  
What size amplifier should I use?  
We recommend an amplifier with 100 to 200 watts  
per channel for most applications. Probably less would  
be adequate for our smaller hybrids or when used in  
home theater where a subwoofer is employed. Our  
hybrid designs will perform well with either a tube or  
transistorized amplifier, and will reveal the sonic char-  
acter of either type. However, it is important that the  
amplifier be stable operating into varying impedance  
loads: an ideally stable amplifier will typically be able  
to deliver nearly twice its rated wattage into 4 Ohms  
and should again increase into 2 Ohms.  
Will exposure to sunlight affect the life or performance  
of my speakers?  
We recommend that you not place any loudspeaker  
in direct sunlight. The ultraviolet (UV) rays from the  
sun can cause deterioration of grill cloth, speaker cones,  
etc. Small exposures to UV will not cause a problem.  
In general, the filtering of UV rays through glass will  
greatly reduce the negative effects on the electrostatic  
membrane itself.  
Could you suggest a list of suitable electronics and  
cables that would be ideal for MartinLogan speakers?  
The area of electronics and cable choice is probably  
the most common type of question that we receive. It  
is also the most subjective. We have repeatedly found  
that brands that work well in one setup will drive  
someone else nuts in another. We use many brands  
with great success. Again, we have no favorites; we  
use electronics and cables quite interchangeably. We  
would suggest listening to a number of brands—and  
above all else— trust your ears. Dealers are always the  
best source for information when purchasing additional  
audio equipment.  
22 Frequently Asked Questions  
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Will excessive smoke or dust cause any problems with  
my electrostatic speakers?  
How do MartinLogan speakers hold up over a long term  
in the humidity of tropical climates?  
Exposure to excessive contaminants such as smoke  
or dust may potentially affect the performance of the  
electrostatic membrane, and may cause discoloration  
of the diaphragm membrane. When not in use for  
extended periods, you should unplug the speakers and  
cover them with the plastic bags in which the speakers  
were originally packed. It is a good idea to vacuum the  
electrostatic portion of each speaker three or four times  
a year. See the vacuuming FAQ.  
We should tell you that MartinLogan indeed has a very  
substantial number of customers in tropical regions of  
the world. Our speakers have been serving them nicely  
for many years. This concern may have come from our  
earlier design of speakers, which were charged continu-  
ously. Since 1993, all of our speakers have been designed  
so that they only charge the panel while music is being  
played. This improvement has made a tremendous dif-  
ference in the consistent performance of our product.  
There may be a little more maintenance involved in  
humid regions when not in an air conditioned envi-  
ronment. Simply enough, the concern is to keep the  
electrostatic panels dust free. Humidity will combine  
with any dust on the panel to make it slightly conduc-  
tive. This will result in a slight pathway for the charge  
to leave the membrane of the speaker. The solution is  
simple. They only require occasional vacuuming with a  
strong vacuum hose.  
A problem has recently developed with my MartinLogan  
speakers. The right speaker seems to be hissing even  
when the amplifier and such are not connected. I was  
wondering if this sounds like any problem you have  
encountered previously and have a simple solution for  
or might it be something which will need to be looked  
into more carefully.  
Your speakers are dusty. See the vacuuming FAQ. The  
electrostatic charge on the element has attracted airborne  
dust or pollen. Since 1993, all of our speakers have been  
built with a charging circuit board that only charges the  
electrostatic element when music plays. At other times  
they are not charged and cannot collect dust. You can  
get the same benefit by simply unplugging them when-  
ever they are not in use. A power strip is an easy way to  
do that.  
How do I vacuum my MartinLogan speakers?  
Vacuuming will be most effective if the speakers have  
been unplugged for six hours to twelve hours (or over-  
night). You need not worry about the vacuum pressure  
damaging the "delicate" membrane. It is extraordi-  
narily durable. Dirt and dust may be vacuumed off with  
a brush attachment connected to your vacuum cleaner,  
or you may blow them off with compressed air. When  
vacuuming or blowing off your panels do so to both  
sides, but focus the majority of your attention on the  
front of the panels.  
Could my children, pets, or myself be shocked by the  
high-voltage present in the electrostatic panel?  
No. High voltage with low current is not dangerous. As  
a matter of fact, the voltage in our speakers is 10 times  
less than the static electricity that builds up on the surface  
of your television screen.  
Should I unplug my speakers during a thunderstorm?  
Yes, or before. It’s a good idea to disconnect all of your  
audio/video components during stormy weather.  
Frequently Asked Questions 23  
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TROUBLESHOOTING  
No Output  
Exaggerated Highs, Brightness  
• Check the toe-in of the speakers. Read the Placement  
section of this manual for more information.  
• Check that all your system components are turned on.  
• Check your speaker wires and connections.  
• Check all interconnecting cables.  
• Try hooking up a different set of speakers. The lack of  
output could point to a problem with other equipment  
in your system (amp, pre-amp, processor, etc.)  
Muddy Bass  
• Check placement. Try moving the speakers closer to the  
front and sidewalls.  
• Check the type of feet that are being used. Try attaching  
the coupling spikes.  
• Possibly means low electrostatic panel output. See  
'Weak Output from Electrostatic Panel, Loss of Highs’.  
Weak or no Output from Electrostatic Panel, Loss of Highs  
• Check the power cord. Is it properly connected to the  
speaker and to the wall?  
• Is the power cord connected to a switched outlet?  
• Dirt and dust may need to be vacuumed off. Please see  
the FAQ regarding vacuuming.  
• If using a single-wire connection, check to make sure  
that the jumper clips are in place and that the binding  
posts are firmly hand-tightened.  
Lack of Bass, No Bass  
• Check your speaker wires. Is the polarity correct?  
• Check your speaker wires. Are both woofers working?  
• Check your speaker wires if bi-wiring.  
• If using a single-wire connection, check to make sure  
that the jumper clips are in place and that the binding  
posts are firmly hand-tightened.  
• Check the binding posts. Are the dirty? If so clean them  
with rubbing alcohol.  
• Check the binding posts. Are the loose? Make sure they  
are firmly hand-tightened.  
• Has a foreign substance (such as a household cleaning  
chemical or soap) been applied to the panel? If so the  
speaker will require servicing.  
• Check the binding posts. Are the dirty? If so clean them  
with rubbing alcohol.  
• Check the binding posts. Are the loose? Make sure they  
are firmly hand-tightened.  
Poor Imaging  
Popping and Ticking Sounds, Funny Noises  
• These occasional noises are harmless and will not hurt  
your audio system or your speakers. All electrostatic  
speakers are guilty of making odd noises at one time or  
another. It is the result of airborne contaminates (most  
notably dust). Vacuuming is recommended.  
• Check placement. Are both speakers the same distance  
from the walls? Do they have the same amount of toe-  
in? Try moving the speakers away from the back and  
sidewalls.  
• Check the polarity of the speaker wires. Are they con-  
nected properly?  
• These noises may be caused by dirt and dust particles  
collecting on the speaker, by high humidity.  
• Dirt and dust may need to be vacuumed off. Please see  
the FAQ regarding vacuuming.  
• Try switching the left speaker with the right.  
• Are your speakers set up in an L-shaped room? If so,  
you may experience off-center imaging. Talk to your  
dealer about acoustical room treatment options.  
24 Troubleshooting  
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GENERAL INFORMATION  
Specifications*  
Warranty and Registration  
System Frequency Response:  
24–23,000 Hz 3db  
Your Summit speakers are provided with an automat-  
ic Limited 90 Day Warranty coverage. You have the  
option, at no additional charge, to receive a Limited  
5 Year Warranty coverage. To obtain the Limited  
5 Year Warranty coverage you need to complete and  
return the Certificate of Registration, included with your  
speakers, and provide a copy of your dealer receipt, to  
MartinLogan within 30 days of purchase. For your conve-  
nience MartinLogan also offers online warranty registration at  
Dispersion  
Horizontal: 30 Degrees  
Vertical: 44” (112 cm) line source  
Sensitivity  
92 dB/2.83 volts/meter  
Impedance  
Nominal: 4 ohms  
Minimum: 0.7 ohms @ 20 kHz  
MartinLogan may not honor warranty service claims unless  
we have a completed Warranty Registration card on file! If  
you did not receive a Certificate of Registration with your  
new Summit, speakers you cannot be assured of having  
received new units. If this is the case, please contact your  
authorized MartinLogan dealer.  
Crossover Frequency  
270 Hz  
Components  
Custom-wound audio transformer, air core coils, poly-  
propylene capacitors  
Serial Number  
Summit’s serial number is located near the bottom of the  
backplate. Each individual unit has a unique serial number.  
Woofer Type  
Two x 10” (25.4 cm) (per channel) cast basket, high excur-  
sion, aluminum cone with extended throw driver assembly,  
non-resonant chamber format  
Service  
Should you be using your MartinLogan product in a country  
other than the one in which it was originally purchased,  
we ask that you note the following:  
Woofer Amp Power  
2 x 200 watts/channel (4 ohms)  
Controls  
1 The appointed MartinLogan distributor for any given  
country is responsible for warranty servicing only on  
units distributed by or through it in that country in  
accordance with its applicable warranty.  
Bass: 10dB at 25Hz & 50Hz  
Other: Light intensity dimmer control  
Power Handling  
100–300 watts per channel  
2 Should a MartinLogan product require servicing in  
a country other than the one in which it was origi-  
nally purchased, the end user may seek to have repairs  
performed by the nearest MartinLogan distributor, sub-  
ject to that distributor’s local servicing policies, but all  
cost of repairs (parts, labor, transportation) must be  
born by the owner of the MartinLogan product.  
Signal Inputs  
Custom bi-wire binding posts  
Mains Power Draw  
Idle: 20W each  
Max: 350W each  
3 If, after owning your speakers for six months, you  
relocate to a country other than the one in which  
you purchased your speakers, your warranty may be  
transferable. Contact MartinLogan for details.  
Weight  
75 lbs. each (34 kg)  
Size  
12.5” w × 20.5” d × 59” h (32 w × 52 d × 150 h cm)  
*Specifications are subject to change without notice.  
General Information 25  
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GLOSSARY OF AUDIO TERMS  
AC. Abbreviation for alternating current.  
DC. Abbreviation for direct current.  
Active crossover. Uses active devices (transistors, IC’s,  
tubes) and some form of power supply to operate.  
Diffraction. The breaking up of a sound wave caused by  
some type of mechanical interference such as a cabinet  
edge, grill frame or other similar object.  
Amplitude. The extreme range of a signal. Usually measured  
from the average to the extreme.  
Diaphragm. A thin flexible membrane or cone that vibrates  
in response to electrical signals to produce sound waves.  
Arc. The visible sparks generated by an electrical discharge.  
Distortion. Usually referred to in terms of total harmonic  
distortion (THD) which is the percentage of unwanted  
harmonics of the drive signal present with the wanted signal.  
Generally used to mean any unwanted change introduced  
by the device under question.  
Bass. The lowest frequencies of sound.  
Bi-Amplification. Uses an electronic crossover, or line-  
level passive crossover, and separate power amplifiers for  
the high and low frequency loudspeaker drivers.  
Driver. See transducer.  
Capacitance. That property of a capacitor which determines  
how much charge can be stored in it for a given potential  
difference between its terminals, measured in farads, by  
the ratio of the charge stored to the potential difference.  
Dynamic Range. The range between the quietest and the  
loudest sounds a device can handle (often quoted in dB).  
Efficiency. The acoustic power delivered for a given elec-  
trical input. Often expressed as decibels/watt/meter  
(dB/w/m).  
Capacitor. A device consisting of two or more conducting  
plates separated from one another by an insulating material  
and used for storing an electrical charge. Sometimes called  
a condenser.  
ESL. The abbreviation for electrostatic loudspeaker.  
Clipping. Distortion of a signal by its being chopped off. An  
overload problem caused by pushing an amplifier beyond  
its capabilities. The flat-topped signal has high levels of har-  
monic distortion which creates heat in a loudspeaker and  
is the major cause of loudspeaker component failure.  
Headroom. The difference, in decibels, between the peak  
and RMS levels in program material.  
Hybrid. A product created by the marriage of two different  
technologies. Meant here as the combination of a dynamic  
woofer with an electrostatic transducer.  
CLS. The abbreviation for curvilinear linesource.  
Hz (Hertz). Unit of frequency equivalent to the number of  
Crossover. An electrical circuit that divides a full band-  
width signal into the desired frequency bands for the  
loudspeaker components.  
cycles per second.  
Imaging. To make a representation or imitation of the original  
sonic event.  
dB (decibel). A numerical expression of the relative loud-  
ness of a sound. The difference in decibels between two  
sounds is ten times the Base 10 logarithm of the ratio of  
their power levels.  
Impedance. The total opposition offered by an electric  
circuit to the flow of an alternating current of a single fre-  
quency. It is a combination of resistance and reactance and  
is measured in ohms. Remember that a speaker’s imped-  
ance changes with frequency, it is not a constant value.  
26 Glossary of Audio Terms  
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Inductance. The property of an electrical circuit by which  
a varying current in it produces a varying magnetic field  
that introduces voltages in the same circuit or in a nearby  
circuit. It is measured in henrys.  
Resistor. A device used in a circuit to provide resistance.  
Resonance. The effect produced when the natural vibra-  
tion frequency of a body is greatly amplified by reinforcing  
vibrations at the same or nearly the same frequency from  
another body.  
Inductor. A device designed primarily to introduce induc-  
tance into an electrical circuit. Sometimes called a choke  
or coil.  
Sensitivity. The volume of sound delivered for a given  
electrical input.  
Linearity. The extent to which any signal handling process  
is accomplished without amplitude distortion.  
Stator. The fixed part forming the reference for the moving  
diaphragm in a planar speaker.  
Midrange. The middle frequencies where the ear is the  
most sensitive.  
THD. The abbreviation for total harmonic distortion. (See  
Distortion)  
Passive crossover. Uses no active components (transistors,  
IC’s, tubes) and needs no power supply (AC, DC, battery)  
to operate. The crossover in a typical loudspeaker is of the  
passive variety. Passive crossovers consist of capacitors,  
inductors and resistors.  
TIM. The abbreviation for transient intermodulation distortion.  
Transducer. Any of various devices that transmit energy  
from one system to another, sometimes one that converts  
the energy in form. Loudspeaker transducers convert elec-  
trical energy into mechanical motion.  
Phase. The amount by which one sine wave leads or lags  
a second wave of the same frequency. The difference is  
described by the term phase angle. Sine waves in phase  
reinforce each other; those out of phase cancel.  
Transient. Applies to that which lasts or stays but a short  
time. A change from one steady-state condition to another.  
Pink noise. A random noise used in measurements, as it  
has the same amount of energy in each octave.  
Tweeter. A small drive unit designed to reproduce only  
high frequencies.  
Polarity. The condition of being positive or negative with  
respect to some reference point or object.  
Wavelength. The distance measured in the direction of  
progression of a wave, from any given point characterized  
by the same phase.  
RMS. Abbreviation for root mean square. The effective value  
of a given waveform is its RMS value. Acoustic power is  
proportional to the square of the RMS sound pressure.  
White noise. A random noise used in measurements, as it  
has the same amount of energy at each frequency.  
Resistance. That property of a conductor by which it opposes  
the flow of electric current, resulting in the generation of  
heat in the conducting material, usually expressed in ohms.  
Woofer. A drive unit operating in the bass frequencies only.  
Drive units in two-way systems are not true woofers but  
are more accurately described as being mid/bass drivers.  
Glossary of Audio Terms 27  
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WARNING! Do not use your Summit loudspeakers outside of the country of original sale—voltage requirements  
vary by country. Improper voltage can cause damage that will be potentially expensive to repair. The Summit is  
shipped to authorized MartinLogan distributors with the correct power supply for use in the country of intended  
WARNING! The Summit features a down-firing woofer on the bottom of the cabinet. Setting the Summit flat on the  
floor without the feet installed can damage this woofer. For this reason the Summit ships from the factory with the feet  
installed. If, for some reason, you need to remove the Summit’s factory installed feet, carefully place the Summit on its  
side until the feet are replaced. The down-firing woofer on the Summit requires at least 2 inches of clearance from the  
floor for optimal performance. The Summit’s factory installed feet are specifically engineered to meet this requirement.  
®
2101 Delaware Street, Lawrence, Kansas 66046, USA  
tel 785.749.0133  
fax 785.749.5320  
Rev. #031605  
©2005 MartinLogan. All rights reserved.  
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