Page 1
581E Distribution Amplifier
Users Guide
581E
Page 2
Table of Contents
Chapter 1 Introduction 1
Chapter 2 Operator Safety Summary 2
Chapter 3 Fast Setup 3
Chapter 4 Front Panel Overview 4
Chapter 5 Rear Panel Overview 5
Chapter 6 Connecting to Other Gear 7
Chapter 7 Signal Flow Chart 10
Chapter 8 Troubleshooting 11
Chapter 9 Specifications 12
Chapter 10 Warranty and Service 13
Chapter 11 Declaration of Conformity 15
Rev B.0, 10 February, 1999
Symetrix part number 53581E0B00
Subject to change without notice.
©1999, Symetrix, Inc. All right reserved.
Symetrix is a registered trademark of Symetrix, Inc.
Mention of third-party products is for informational
purposes only and constitutes neither an endorsement
nor a recommendation. Symetrix assumes no
responsibility with regard to the performance or use
of these products.
Under copyright laws, no part of this manual may be
reproduced or transmitted in any form or by any
means, electronic or mechanical, including photo-
copying, scanning, recording or by any information
581E
storage and retrieval system, without permission, in
writing, from Symetrix, Inc.
i
14926 35th Ave. West
Lynnwood, WA 98037 USA
Tel (425) 787-3222
Fax (425) 787-3211
Email: symetrix@symetrixaudio.com
Page 3
IntroductionChapter 1
The Symetrix 581E Distribution Amplifier
(4x4) is a four-input, sixteen-output distribu-
tion amplifier. In a typical configuration the
581E accepts four balanced input signals and
distributes each input to four independent
outputs. The volume of each of the sixteen
outputs may be individually trimmed via its
front panel potentiometer. Similarly, the
volume of each of the four inputs may be
independently controlled. Associated with
each input is a four LED level meter to assist
the user in setting optimum operating levels.
The balanced input stages are designed for
high common mode rejection and RF immu-
nity. Output line drivers are stable short-
circuit protected and designed around
industry standard 5532 type op amps. The
581E operates from an internal power supply
built around a low magnetic field toroidal
transformer, resulting in a very low noise,
high performance product.
The 4x4 architecture of the 581E allows the
amplifier to fit the greatest possible number
of configurations. Each one input, four
output module is independent of the others.
Wiring the 581Es inputs to four separate
audio sources provides four mono distribu-
tion channels with four outputs each. This
configuration also accommodates two stereo
audio feeds.
Stereo audio can be distributed to eight
inputs by strapping the 581Es inputs
together in pairs. Left channel audio is wired
to inputs #1 and #2, while the right channel
connects to inputs #3 and #4.
The 581E distributes a single mono audio
source to all 16 outputs when all inputs are
strapped together. Regardless of your audio
distribution requirements, the Symetrix 581E
solves the problem with minimum cost and
no wasted outputs.
Feel free to contact us if you have questions,
comments, or suggestions.
Phone (425) 787-3222
Fax (425) 787-3211
Email symetrix@symetrixaudio.com
Website www.symetrixaudio.com
Our office hours are 8:00am (800 hours) to
4:30pm (1630 hours) Pacific Time.
E
581
DISTRIBUTION
AMPLIFIER (4x4)
Front panel
E
581
DISTRIBUTION
AMPLIFIER (4x4)
18 WATTS MAXIMUM
Rear panel
INPUT 1
AC INPUT
CHANNEL 1
OUTPUT 1A
OUTPUT 1B
CLIP
+10
0
-10
CHANNEL 4
OUT 4D
FABRIQUÉ AUX E.-U. PAR SYMETRIX INC., LYNNWOOD, WASHINGTON. RÉFÉREZ TOUTE RÉPARATION À UN TECHNICIEN QUALIFIÉ. THIS UNIT CONTAINS NO USER SERVICEABLE PARTS. REFER SERVICING TO QUALIFIED SERVICE PERSONNEL. MANUFACTURED IN LYNNWOOD, WASHINGTON, U.S.A.
CHANNEL 2
INPUT 2OUTPUT 1C OUTPUT 1D
CLIP
+10
0
-10
OUTPUT 2DOUTPUT 2COUTPUT 2BOUTPUT 2A
CHANNEL 3
OUT 3DINPUT 4OUT 4AOUT 4C OUT 4B
OUT 3C
INPUT 3
OUT 3A
CLIP
+10
0
-10
OUTPUT 3A
CHANNEL 3
OUTPUT 3B
OUTPUT 3C
CHANNEL 2
CHANNEL 4
OUTPUT 4A
INPUT 4OUTPUT 3D
OUTPUT 4B
CLIP
+10
0
-10
OUTPUT 4C OUTPUT 4D
CHANNEL 1
OUT 1BOUT 2A INPUT 2 OUT 1DOUT 2BOUT 2D OUT 2CINPUT 3OUT 3B
POWER
INPUT 1OUT 1AOUT 1C
581E
1
Page 4
Operator Safety Summary Chapter 2
N
.
Equipment Markings
CAUTION
RISK OF ELECTRIC SHOCK
DO NOT OPEN
TO REDUCE THE RISK OF FIRE OR
WARNING:
AVIS:
SEE OWNERS MANUAL. VOIR CAHIER D’INSTRUCTIONS.
o user serviceable parts inside. Refer servicing to qualified service personnel
Il ne se trouve a l’interieur aucune piece pourvant entre reparée l’usager.
The lightning flash with arrowhead symbol within an
equilateral triangle is intended to alert the user of the
presence of uninsulated "dangerous voltage" within
the product's enclosure that may be of sufficient
magnitude to constitute a risk of electric shock to
persons. The exclamation point within an equilateral
triangle is intended to alert the user of the presence of
important operating and maintenance (servicing)
instructions in the literature accompanying the
product (i.e. this manual).
Caution To prevent electric shock, do not use the
polarized plug supplied with the unit with
any extension cord, receptacle, or other
outlet unless the blades can be fully
inserted.
ELECTRIC SHOCK DO NOT EXPOSE
THIS EQUIPMENT TO RAIN OR MOISTURE
RISQUE DE CHOC ELECTRIQUE
NE PAS OUVRIR
S’adresser a un reparateur compétent.
Terms
Several notational conventions are used in this
manual. Some paragraphs may use Note, Caution,
or Warning as a heading. Certain typefaces and
capitalization are used to identify certain words.
These are:
Note Identifies information that needs
extra emphasis. A Note generally
supplies extra information to help
you to better use the 581E.
Caution Identifies information that, if not
heeded, may cause damage to the
581E or other equipment in your
system.
Warning Identifies information that, if
ignored, may be hazardous to your
health or that of others.
CAPITALS Controls, switches or other markings
on the 581E's chassis.
Boldface Strong emphasis.
Important Safety Instructions
Please read and keep these instructions. Heed
and follow all warnings and instructions. Install
in accordance with the manufacturers instruc-
tions.
Power Source This product is intended to
operate from a power source that does not apply
581E
more than 250V rms between the power supply
conductors or between either power supply
conductor and ground. A protective ground
2
connection, by way of the grounding conductor
in the power cord, is essential for safe operation.
Grounding The chassis of this product is
grounded through the grounding conductor of
the power cord. To avoid electric shock, plug the
power cord into a properly wired receptacle
before making any connections to the product. A
protective ground connection, by way of the
grounding conductor in the power cord, is
essential for safe operation. Do not defeat the
safety purpose of the grounding plug. The
grounding plug has two blades and a third
grounding prong. The third prong is provided for
your safety. When the provided plug does not fit
your outlet, consult an electrician for replacement
of the obsolete outlet.
Danger from Loss of Ground If the protective
ground connection is lost, all accessible conduc-
tive parts, including knobs and controls that may
appear to be insulated, can render an electric
shock.
Proper Power Cord Use only the power cord
and connector specified for the product and your
operating locale. Use only a cord that is in good
condition. Protect the power cord from being
walked on or pinched, particularly at plugs,
convenience receptacles, and the point where
they exit from the apparatus.
Proper Fuse The user accessible fuse is a part of
the IEC AC inlet connector. The fuseholder
accepts 5 x 20mm diameter fuses. For 117VAC
operation, the correct value is 0.2A, 250VAC,
slow blowing. For 230VAC operation, the correct
value is 0.1A, 250VAC, slow blowing.
Operating Location Do not operate this equip-
ment under any of the following conditions:
explosive atmospheres, in wet locations, in
inclement weather, improper or unknown AC
mains voltage, or if improperly fused. Do not
install near any heat source such as radiators,
heat registers, stoves, or other apparatus
(including amplifiers) that produce heat. Unplug
this apparatus during lightning storms or when
unused for long periods of time.
Stay Out of the Box To avoid personal injury (or
worse), do not remove the product covers or
panels. Do not operate the product without the
covers and panels properly installed. Only use
accessories specified by the manufacturer. Clean
only with a damp cloth.
User-serviceable parts There are no user
serviceable parts inside the 581E. In case of
failure, refer all servicing to the factory. Servicing
is required when the 581E has been damaged in
any way, such as when a power supply cord or
plug is damaged, liquid has been spilled or
objects have fallen into the apparatus, the
apparatus has been exposed to rain or moisture,
does not operate normally, or has been dropped.
Page 5
Chapter 3
Fast First-Time Setup
Follow these instructions to get your 581E up-and-running as quickly as possible. The intent of this
section is fast setup. Refer to later chapters for explanation of the 581Es controls and functions.
Connect audio inputs and outputs. If you do not know how to do this, forget Fast Set-Up
and read Chapter 5.
Set INPUT level trim controls straight up (12 oclock position).
Set OUT level trim controls at maximum level (clock-wise rotation).
Plug the 581E into an AC outlet using the IEC-type detachable power cord provided with
the unit.
Caution: Failure to connect the 581E to the proper AC mains voltage may
cause fire and/or internal damage.
Warning: Lethal voltages are present inside the chassis. There are no user
serviceable parts inside the chassis. Refer all service to qualified
service personnel or to the factory.
Apply line level audio signal to the input(s). Line level means previously amplified
audio, i.e. not the output of a microphone or other unamplified audio transducer.
Fast Setup
Turn up the INPUT level pot(s) until the red CLIP LED just barely lights. Then back the
level down just a bit until the CLIP LED doesnt come on any more, or only occasionally
flashes.
Now read the rest of this users guide.
581E
3
Page 6
Front Panel Overview Chapter 4
CHANNEL 1
INPUT 1 OUTPUT 1C
CLIP
+10
0
-10
Front panel drawing
Input Level Controls
The four input level controls on the 581E are marked INPUT 1, INPUT 2, INPUT 3 and INPUT 4.
Each control adjusts its corresponding input signal over a 30dB range. With signal applied to
input(s) turn up the INPUT level pot(s) until the red CLIP LED just barely lights. Then back the
level down just a bit until the CLIP LED doesnt come on any more, or only occasionally flashes.
This is the optimum setting and will provide the greatest signal-to-noise ratio without distortion.
If your incoming signal positions are unpredictable then we suggest a straight up (12 oclock)
setting. Since the 581Es input has 18dB of headroom above +4dBu, this setting should work well
under most conditions.
If you find that your input signal is very low (the output of a -10 consumer level device, such as
a CD player, for example), turn the INPUT level control clockwise to boost the signal. Conversely,
if you're feeding a +8 broadcast level signal to the 581E then turn the INPUT level control
counterclockwise until the proper LED display is achieved.
OUTPUT 1B
OUTPUT 1DOUTPUT 1A
Output Level Controls
The sixteen output level controls on the 581E are marked OUT 1A, OUT 1B, OUT 1C, OUT 1D,
OUT 2A, OUT 2B, etc. Use these controls to attenuate the output level over a 20dB range. Start by
turning all controls fully clockwise (unity gain). This will create equal levels from all outputs. If for
some reason you wish to reduce the level of certain outputs then turn the appropriate control(s)
counterclockwise. Otherwise, for better overall system performance its best to leave the controls
wide open (full clockwise) for the hottest possible output signals.
581E
4
Page 7
Rear Panel OverviewChapter 5
The 581E is fitted with removable terminal blocks for both input and output connections. While not
absolutely necessary, it is usually much easier to unplug the removable block before making or
changing connections.
INPUTS
The four 581E inputs are balanced. Of course, they may be used in unbalanced configurations but
for optimum system wide performance (best noise rejection) balanced operation is highly recom-
mended, whenever possible. Be sure and use shielded cable for both input and output connec-
tions. The wire should always be two-conductor plus shield, even for unbalanced connections.
For balanced input signals:
1. Connect the incoming signal + (high) to the + INPUT terminal of the 581E.
2. Connect the incoming signal - (low) to the - INPUT terminal of the 581E.
3. Connect the incoming signal ground (shield) to the ground terminal of the 581E. Repeat
for all inputs.
For unbalanced input signals, using two-conductor shielded cables:
1. Connect the incoming signal + (high) to the + INPUT terminal of the 581E. Use
the red wire.
2. Connect the incoming signal ground to the - INPUT terminal of the 581E. Use the
black wire.
3. Connect the cable shield at the ground connection of the 581E only.
If you experience hum or noise, make sure that both the 581E and the device which you are feeding
are grounded on the same AC mains circuit. If this is not the source of the noise problem, you must
isolate the unbalanced output from the balanced input with an audio transformer or matchbox.
WIRING THE 581E IN 2x8 or 1x16 CONFIGURATION
To connect the 581E as a 2 input, 8 output distribution amplifier proceed as follows:
1. Connect the two incoming signals to INPUT 1 and INPUT 2 as per the instructions above.
2. Connect (4) additional short pieces of #20 or #22 gauge wire as follows:
INPUT 1 + to INPUT 3 +
INPUT 1 - to INPUT 3 -
INPUT 2 + to INPUT 4 +
INPUT 2 - to INPUT 4 -.
To connect the 581E as a 1 input, 16 output distribution amplifier proceed as follows:
1. Connect the single incoming signal to INPUT 1 as per the instructions above.
2. Connect (6) additional short pieces of #20 or #22 gauge wire as follows:
INPUT 1 + to INPUT 2 +
INPUT 2 + to INPUT 3 +
INPUT 3 + to INPUT 4 +
INPUT 1 - to INPUT 2 -
INPUT 2 - to INPUT 3 -
INPUT 3 - to INPUT 4 -
581E
5
Page 8
OUTPUTS
The 581Es four outputs are active balanced circuits and should be used to feed balanced audio
inputs. Use two-conductor shielded audio cable for all connections.
Feeding balanced inputs:
1. Connect the + (high) OUTPUT terminal of the 581E to the + (high) of the input
of the device which you are feeding.
2. Connect the - (low) OUTPUT terminal of the 581E to the + (high) of the input of
the device which you are feeding.
3. Connect cable shield to the ground of the 581E and the ground connection of the
device which you are feeding.
Feeding unbalanced inputs:
WE DON'T RECOMMEND IT. If you must feed an unbalanced input with the 581E, you should
isolate the two devices with either an audio transformer or an interface matching device (a match-
box). The 581E follows the AES standards for balanced audio circuits. The ground connections of
the amplifier are chassis ground.
If you must connect the output of the 581E directly to an unbalanced input, try this procedure. Use
two-conductor shielded audio cable.
1. Connect the + (high) OUTPUT terminal of the 581E to the + (high) of the
unbalanced input.
2. Make no connection to the - (low) OUTPUT terminal of the 581E.
3. Connect the cable shield at the 581Es ground and at the input connector of the
unbalanced input.
The output signal level of the 581E will be 6 dB lower when driving an unbalanced input without a
transformer or matching interface device.
If you experience hum or noise, make sure that both the 581E and the device which you are feeding
are grounded on the same AC mains circuit. If this is not the source of the noise problem, you must
isolate the balanced output from the unbalanced input with an audio transformer or matchbox.
581E
6
Page 9
Connecting to Other GearChapter 6
Matching Levels vs Matching Impedances
In any audio equipment application, the question of matching inevitably comes up. Without
digging a hole any deeper than absolutely necessary, we offer the following discussion to (hope-
fully) clarify your understanding of the subject.
Over the years, we have all had impedance matching pounded into our heads. This is important
only for vintage audio systems, power amplifiers, and RF. Technically speaking, the reason is
power transfer, which reaches a maximum when source and load are matched. Modern audio
systems are voltage transmission systems and source and load matching is not only unnecessary,
but undesirable as well.
r Vintage audio systems operate at 600 ohms (or some other impedance value), and must be
matched, both at their inputs and at their outputs. Generally speaking, if you are dealing
with equipment that uses vacuum tubes, or was designed prior to 1970, you should be
concerned about matching. These units were designed when audio systems were based on
maximum power transfer, hence the need for input/output matching.
r Power amplifiers are fussy because an abnormally low load impedance generally means a
visit to the amp hospital. Thus, its important to know what the total impedance of the pile
of speakers connected to the amplifier really is.
r RF systems are matched because we really are concerned with maximum power transfer
and with matching the impedance of the transmission line (keeps nasty things from
happening). Video signals (composite, baseband, or otherwise) should be treated like RF.
Some folks seem to believe that balanced/unbalanced lines and impedances are related; or even
worse that they are associated with a particular type of connector. Not so. Unbalanced signals are
not necessarily high-impedance and balanced signals/lines are not necessarily low-impedance.
Similarly, although 1/4 inch jacks are typically used for things like guitars (which are high-imped-
ance and unbalanced), this does not predispose them to only this usage. After all, 1/4 inch jacks
are sometimes used for loudspeakers, which are anything but high-impedance. Therefore, the
presence of 3-pin XLR connectors should not be construed to mean that the input or output is low-
impedance (or high-impedance). The same applies to 1/4 inch jacks.
So, what is really important? Signal level, and (to a much lesser degree), the impedance relation
between an output (signal source) and the input that it connects to (signal receiver).
Signal level is very important. Mismatch causes either loss of headroom or loss of signal-to-noise ratio.
Thus, microphone inputs should only see signals originating from a microphone, a direct (DI) box, or an
output designated microphone-level output. Electrically, this is in the range of approximately -70 to -20
dBm. Line inputs should only see signals in the -10 to +24 dBm/dBu range. Guitars, high-impedance
microphones, and many electronic keyboards do not qualify as line-level sources.
The impedance relation between outputs and inputs needs to be considered, but only in the
following way - Always make sure that a devices input impedance is higher than the output
source impedance of the device that drives it.
Some manufacturers state a relatively high-impedance figure as the output impedance of their
equipment. What they really mean is that this is the minimum load impedance that they would like
their gear to see. In most cases, seeing a output impedance figure of 10,000 (10K) ohms or higher
from modern equipment that requires power (batteries or AC) is an instance of this type of rating. If
so, then the input impedance of the succeeding input must be equal to or greater than the output
impedance of the driving device.
Symetrix equipment inputs are designed to bridge the output of whatever device drives the input
(i.e. to be greater than 10 times the actual source impedance). Symetrix equipment outputs are
designed to drive 600-ohm or higher loads (600-ohm loads are an archaic practice that wont go
away). You dont need to terminate the output with a 600-ohm resistor if you arent driving a 600-
ohm load. (If you dont understand the concept of termination, you probably dont need to
anyway.)
581E
7
Page 10
The two facts that you need to derive from this discussion are:
r Match signal levels for best headroom and signal-to-noise ratio.
r For audio, impedance matching is only needed for vintage equipment and power amplifier
outputs. In all other cases, ensure that your inputs bridge your outputs (meaning the
inputs are in the range of 2 to 200 times the output source impedance).
Signal Levels
The 581E is designed around studio/professional line levels: +4 dBu or 1.23 volts RMS. The unit is
quiet enough to operate at lower signal levels such as those found in semi-pro or musical instru-
ment (MI) equipment (-10 dBu or 300 millivolts).
I/O Impedances
The 581E is designed to interface into almost any recording studio or sound reinforcement applica-
tion. This includes:
r 600-ohm systems where input and output impedances are matched.
r Modern bridging systems where inputs bridge and outputs are low source impedances
(voltage transmission systems).
The 581Es input impedance is greater than 20-kilohms balanced. The inputs may be driven from
any balanced source capable of delivering at least -10 dBu into the aforementioned impedances.
The 581Es output impedance is 600 ohms balanced, 300 ohms unbalanced. The output line driver
delivers +22 dBm into 600-ohm balanced loads or +18 dBm into 600-ohm unbalanced loads.
Input and Output Connections
The illustration on the next page shows how to connect the 581E to balanced and unbalanced
sources and loads.
To operate the 581E from unbalanced sources, run a 2-conductor shielded cable (thats two
conductors plus the shield) from the source to the 581E. At the source, connect the low/minus side
to the shield, these connect to the sources ground; connect the high/plus side to the sources
signal connection. At the 581E, the high/plus wire connects to pin 2, the low/minus wire connects
to pin 3, and the shield (always) connects to pin 1. This is the preferred method as it makes best
use of the 581Es balanced input (even though the source is unbalanced). The other alternative
shown in the illustration converts the 581Es balanced input into an unbalanced input at the input
connector. This works, but is more susceptible to hum and buzz than the preferred method. There
is no level difference between either method.
You can drive unbalanced loads with the 581Es outputs by using the XLR connector with pin 3
left open. In an emergency (the show must go on), you can ground pin 3, but if you have the
choice...leave it open. If you must ground pin 3, it is must be grounded at the 581E, rather than at
the other end of the cable. The price, regardless of whether or not pin 3 is grounded is 6 dB less
output level. If your system is wired with pin 3 hot, and you are driving an unbalanced load, pin 2
must float.
581E
8
Page 11
Balanced Terminal Strip
(When Using CIRCUIT Ground)
(Wire Shield Not Connected)
Balanced Female XLR
(When Using CIRCUIT Ground)
Pin 1=Not Connected
Pin 2 = High
Pin 3 = Low
Shield Tab = Not Connected
2
3
1
TRS Plug
(When Using CIRCUIT Ground)
Tip = High
Ring = Low
Sleeve = Not Connected
(Wire Shield Not Connected)
TIP
RING
SLEEVE
TS Plug
(When Using CIRCUIT Ground)
Tip = High
Sleeve = Low
(Wire Shield Not Connected)
TIP
SLEEVE
RCA Plug
(When Using CIRCUIT Ground)
Tip = High
Sleeve = Low
(Wire Shield Not Connected)
Balanced Male XLR
(When Using CIRCUIT Ground)
Pin 1= Circuit Ground
Pin 2 = High
Pin 3 = Low
Shield Tab = Not Connected
12 3
Two Conductor
Shielded Cable
Two Conductor
Shielded Cable
Two Conductor
Shielded Cable
Two Conductor
Shielded Cable
Shielded Cable
Two Conductor
Shielded Cable
Two Conductor
Shielded CableShielded Cable
Channel
Input
Channel
Input
Channel
Input
Channel
Input
Channel
Input
Channel
Output
TS Plug
(When Using CIRCUIT Ground)
Tip = High
Sleeve = Shield
(Wire Low Not Connected)
TIP
SLEEVE
Channel
Output
Two Conductor
Shielded Cable
581E
9
Page 12
Signal Flow Chart
Chapter 7
Channel 1
Input
CHANNEL 1
CHANNEL 2
Channel 1
Input LED
Display
CHANNEL 3
CHANNEL 4
CLIP
+10
-10
Input 1
Level
0
Output 1A
Level
OUT
1A
Output 1B
Level
OUT
1B
Output 1C
Level
OUT
1C
Output 1D
Level
OUT
1D
581E
10
Page 13
TroubleshootingChapter 8
Troubleshooting Chart
SYMPTOM PROBABLE CAUSE
No output signal Check cables and connections. Are inputs driven by outputs, and
outputs driving inputs? Verify cables, source and load by patching
input and output connections together, at the unit. Check for AC power
presence.
Hum or buzz in output Check input and output connector wiring (refer to page 9). Ground
loop: check related system equipment grounding. Are all system
components on the same AC ground?
Distortion Check the level of the input signal on the 581Es LED display(s). Is the
CLIP light on all the time? If so, reduce the incoming signal level by
turning the INPUT level counterclockwise. Is the incoming signal
already distorted? Listen up stream from the 581E to make sure
youre feeding it a clean signal.
Noise (hiss) Check input signal levels and input level control settings The input
signal may be too low. If so, boost the incoming signal (if possible). Is
the input signal already noisy? Listen up stream from the 581E to
determine that you are feeding it a clean signal.
No LED display Is the unit plugged in, and turned on? Is the AC outlet OK?
11
581E
Page 14
Specifications Chapter 9
Architects and Engineers Specifications
The audio distribution amplifier shall be a
four channel unit with each channel consist-
ing of one electronically balanced input
amplifier and four electronically balanced
output amplifiers. Associated with each
channel shall be a master gain adjustment
circuit capable of up to 15dB of gain or 15dB
of loss for the purpose of optimally matching
incoming signal level(s). Also associated
with each channel shall be a four LED array
for the indication of the signal levels applied
to the output drive circuits. The LEDs shall
be labelled CLIP, +10, 0, and -10 correspond-
ing to internal signal levels of +18dBu,
+10dBu, 0dBu, and -10dBu.
Each output shall be capable of driving a
600-ohm balanced load to a level of +22 dBm.
The maximum output level into a balanced
bridging load (20K Ohms) shall be +26 dBu.
Each output will offer an individual attenua-
tor with a range of 0 to -20 dB.
Frequency response through the amplifier
shall be ±½ dB, measured between 20 Hz and
20 kHz. THD+Noise shall be less than
0.009% measured at unity gain with a
bandwidth of 30 kHz. Residual noise will be
>100 dB below a +4 dBu input signal when
measured with an A-weighting filter.
The unit shall occupy one rack space (1U). The
physical dimensions shall be 1.72"H x 19"W x
6"D; 4.45cm H x 43.7cm W x 15.24cm D.
The distribution amplifier shall operate by
means of its built-in power supply connected
to 117V AC, nominal, 95-130V AC, 50-60 Hz;
or 230V AC nominal, 165-255V AC, 50 Hz.
Power consumption shall be 18 watts,
maximum. There shall be a rear panel recep-
tacle for an IEC type detachable power cord.
The distribution amplifier shall carry the CE
mark.
The distribution amplifier shall be a Symetrix,
Inc. model 581E Distribution Amplifier (4x4).
Specifications
Input/Output
Maximum Input Level +26 dBu Balanced
Maximum Output Level +26 dBu Balanced (20k Ohm load)
Input Impedance 20k Ohms Balanced, 10k Ohms Unbalanced
Output Impedance 200 Ohms Balanced, 100 Ohms Unbalanced
Performance Data
Frequency Response
THD+Noise <.009%, unity gain input to output,
Signal to Noise Ratio >100dB, A-weighted, ref. to +4dBu
Dynamic Range >125 dB, A-weighted
Common Mode Rejection >40 dB, 20 Hz - 20 kHz
Input Gain Range ±15dB
Output Gain Range 0 to -20dB
Physical
Size (hwd) 1.72 x 19 x 6 in., 4.37 x 48.26 x 15.24 cm.
Shipping Weight 8 lbs
+22 dBm (600 Ohm load)
±½ dB, 20 Hz - 20 kHz
30kHz measurement bandwidth
Electrical
Power Requirements 117V AC nominal, 95-130V AC, 50-60 Hz
Power Consumption 18 watts maximum
Note: The maximum operating ambient temperature is
In the interest of continuous product improvement, Symetrix, Inc.
reserves the right to alter, change, or modify these specifications
without prior notice.
©1999, Symetrix, Inc. All rights reserved.
25 degrees C.
581E
12
230V AC nominal, 165-255V AC, 50Hz
Page 15
581E Limited Warranty
Warranty and ServiceChapter 10
Symetrix, Inc. expressly warrants that the product
will be free from defects in material and
workmanship for one (1) year. Symetrixs
obligations under this warranty will be
limited to repairing or replacing, at
Symetrixs option, the part or parts of the
product which prove defective in material or
workmanship within one (1) year from date
of purchase, provided that the Buyer gives
Symetrix prompt notice of any defect or
failure and satisfactory proof thereof.
Products may be returned by Buyer only
after a Return Authorization number (RA)
has been obtained from Symetrix. Buyer will
prepay all freight charges to return the
product to the Symetrix factory. Symetrix
reserves the right to inspect any products
which may be the subject of any warranty
claim before repair or replacement is carried
out. Symetrix may, at its option, require
proof of the original date of purchase (dated
copy of original retail dealers invoice). Final
determination of warranty coverage lies
solely with Symetrix. Products repaired
under warranty will be returned freight
prepaid by Symetrix via United Parcel
Service (surface), to any location within the
Continental United States. At Buyers
request the shipment may be returned via
airfreight at Buyers expense. Outside the
Continental United States, products will be
returned freight collect.
The foregoing warranties are in lieu of all
other warranties, whether oral, written,
express, implied or statutory. Symetrix, Inc.
expressly disclaims any IMPLIED warran-
ties, including fitness for a particular
purpose or merchantability. Symetrixs
warranty obligation and buyers remedies
hereunder are SOLELY and exclusively as
stated herein.
This Symetrix product is designed and
manufactured for use in professional and
studio audio systems and is not intended for
other usage. With respect to products
purchased by consumers for personal, family,
or household use, Symetrix expressly
disclaims all implied warranties, including
but not limited to warranties of merchant-
ability and fitness for a particular purpose.
This limited warranty, with all terms, condi-
tions and disclaimers set forth herein, shall
extend to the original purchaser and anyone
who purchases the product within the
specified warranty period.
Warranty Registration must be completed
and mailed to Symetrix within thirty (30) days
of the date of purchase.
Symetrix does not authorize any third party,
including any dealer or sales representative,
to assume any liability or make any addi-
tional warranties or representation regarding
this product information on behalf of
Symetrix.
This limited warranty gives the buyer certain
rights. You may have additional rights
provided by applicable law.
Limitation of Liability
The total liability of Symetrix on any claim,
whether in contract, tort (including negli-
gence) or otherwise arising out of, con-
nected with, or resulting from the manufac-
ture, sale, delivery, resale, repair, replace-
ment or use of any product will not exceed
the price allocable to the product or any part
thereof which gives rise to the claim. In no
event will Symetrix be liable for any inciden-
tal or consequential damages including but
not limited to damage for loss of revenue,
cost of capital, claims of customers for
service interruptions or failure to supply, and
costs and expenses incurred in connection
with labor, overhead, transportation, installa-
tion or removal of products or substitute
facilities or supply houses.
581E
13
Page 16
Servicing the 581E
If you have determined that your 581E requires repair services and you live outside of the
United States please contact your local Symetrix dealer or distributor for instructions on
how to obtain service. If you reside in the U.S. then proceed as follows:
At the Symetrix factory, Symetrix will perform in-warranty or out-of-warranty service on any
product it has manufactured for a period of five years from date of manufacture.
Before sending anything to Symetrix, contact our Customer Service Department for a
return authorization (RA) number. The telephone number is (425) 787-3222, Monday
through Friday, 8AM (800 hours) though 4:30 PM (1630 hours), Pacific Time.
In-warranty repairs
To get your 581E repaired under the terms of the warranty:
1. Call us for an RA number.
2. Pack the unit in its original packaging materials.
3. Include your name, address, daytime telephone number, and a brief
statement of the problem.
4. Write the RA number on the outside of the box.
5. Ship the unit to Symetrix, freight prepaid.
We do not accept freight collect shipments.
Just do these five things, and repairs made in-warranty will cost you only one-way freight
charges. Well prepay the return (surface) freight.
If you choose to send us your product in some sort of flimsy packaging, well have to
charge you for proper shipping materials. If you dont have the factory packaging materials,
then do yourself a favor by using an oversize carton, wrap the unit in a plastic bag, and
surround it with bubble-wrap. Pack the box full of Styrofoam peanuts. Be sure there is
enough clearance in the carton to protect the rack ears (you wouldnt believe how many
units are returned with bent ears). We wont return the unit in anything but Symetrix
packaging for which we will have to charge you. Of course, if the problem turns out to be
operator inflicted, youll have to pay for both parts and labor. In any event, if there are
charges for the repair costs, you will pay for the return freight. All charges will be COD
unless you have made other arrangements (prepaid, Visa or Mastercard).
Out-of-warranty repairs
If the warranty period has passed, youll be billed for all necessary parts, labor, packaging
materials, and freight charges. Please remember, you must call for an RA number before
sending the unit to Symetrix.
581E
14
Page 17
Declaration of ConformityChapter 11
Declaration of Conformity
We, Symetrix Incorporated,
14926 35th Ave. West, Lynnwood, Washington, USA,
declare under our sole responsibility that the product:
581E Distribution Amplifier (4x4)
to which this declaration relates,
is in conformity with the following standards:
EN 60065
Safety requirements for mains operated electronic and related
apparatus for household and similar general use.
EN 50081-1
Electromagnetic compatibility - Generic emission standard
Part 1: Residential, commercial, and light industry.
EN 50082-1
Electromagnetic compatibility - Generic immunity standard
Part 1: Residential, commercial, and light industry.
The technical construction file is maintained at:
Symetrix, Inc.
14926 35th Ave. West
Lynnwood, WA, 98037-2303
USA
The authorized representative located within the European Community is:
World Marketing Associates
P.O. Box 100
St. Austell, Cornwall, PL26 6YU, U.K.
Date of issue: April 1, 1998
Place of issue: Lynnwood, Washington, USA
Authorized signature:
Dane Butcher, President, Symetrix Incorporated.
15
581E
Page 18
Symetrix, Inc.
14926 35th Ave. West
Lynnwood, WA, 98037-2303
USA
Tel: (425) 787-3222
Fax: (425) 787-3211
Website: http://www.symetrixaudio.com
Email: symetrix@symetrixaudio.com
581E
16
Loading...