Behringer Music Mixer MX9000 User Manual

User´s Manual  
Version 1.1 July 2002  
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FOREWORD  
Dear Customer,  
Welcome to the team of EURODESK users and thank you very much for expressing your confidence in  
BEHRINGER products by purchasing the MX9000.  
It is one of my most pleasant tasks to write this letter to you, because it is the culmination of many months of  
hard work delivered by our engineering team to reach a very ambitious goal: making an outstanding device  
that will become a standard tool used by studios and P.A. companies. The task to design the EURODESK  
certainly meant a great deal of responsibility, which we assumed by focusing on you, the discerning user and  
musician. It also meant a lot of work and night shifts to accomplish this goal. But it was fun, too. Developing a  
product usually brings a lot of people together, and what a great feeling it is when everybody who participated  
in such a project can be proud of what we’ve achieved.  
It is our philosophy to share our joy with you, because you are the most important member of the BEHRINGER  
family. With your highly competent suggestions for new products you’ve greatly contributed to shaping our  
company and making it successful. In return, we guarantee you uncompromising quality (manufactured  
under ISO9000 certified management system) as well as excellent technical and audio properties at an  
extremely favorable price. All of this will enable you to fully unfold your creativity without being hampered by  
budget constraints.  
We are often asked how we can make it to produce such high-grade devices at such unbelievably low prices.  
The answer is quite simple: it’s you, our customers! Many satisfied customers means large sales volumes  
enabling us to get better conditions of purchase for components, etc. Isn’t it only fair to pass this benefit back  
to you? Because we know that your success is our success, too!  
I would like to thank all people whose help on “Project EURODESK MX9000” has made it all possible.  
Everybody has made very personal contributions, starting from the designers of the unit via the many staff  
members in our company to you, the user of BEHRINGER products.  
My friends, it’s been worth the trouble!  
Thank you very much,  
Uli Behringer  
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TABLE OF CONTENT  
1. THE MANUAL..........................................................................................................................6  
1.1 Nomenclature.................................................................................................................................. 6  
1.2 An un-holstic approach ................................................................................................................... 6  
1.3 Key ................................................................................................................................................. 6  
2. EURODESK OVERVIEW ........................................................................................................6  
2.1 Architecture .................................................................................................................................... 6  
2.2 Metering.......................................................................................................................................... 7  
2.3 PSU (Power Supply Unit) ................................................................................................................ 7  
3. INPUT/OUTPUT CHANNEL ...................................................................................................8  
3.1 Channel strip................................................................................................................................... 8  
3.2 Input switching ................................................................................................................................ 8  
3.3 Input gain setting ............................................................................................................................ 9  
3.4 Main equalizer .............................................................................................................................. 10  
3.5 Aux sends .................................................................................................................................... 10  
3.6 Routing and muting ........................................................................................................................ 11  
3.7 B-channel ..................................................................................................................................... 12  
4. INSERTS ...............................................................................................................................13  
5. SUBGROUP AND DIRECT OUTPUTS ...............................................................................14  
5.1 Subgroups .................................................................................................................................... 14  
5.2 Direct outputs ............................................................................................................................... 16  
6. MASTER PANEL ...................................................................................................................16  
6.1 Aux masters ................................................................................................................................. 16  
6.1.1 Aux sends .......................................................................................................................... 16  
6.1.2 Aux returns ......................................................................................................................... 17  
6.2 MIX-B master ................................................................................................................................ 19  
6.3 Monitoring ..................................................................................................................................... 20  
6.4 Headphones .................................................................................................................................. 21  
6.5 PFL/SOLO .................................................................................................................................... 22  
6.5.1 PFL .................................................................................................................................... 22  
6.5.1 SOLO ................................................................................................................................. 22  
6.6 Talkback ....................................................................................................................................... 22  
7. CONNECTIONS....................................................................................................................23  
7.1 Rear panel .................................................................................................................................... 23  
7.2 Plug soldering guide...................................................................................................................... 27  
8. THE PATCHFIELD ................................................................................................................30  
8.1 The normalized bay ....................................................................................................................... 30  
8.2 The patchfield................................................................................................................................ 30  
8.3 Looming problems......................................................................................................................... 32  
9. EQUALIZATION .....................................................................................................................33  
10.GAIN OPTIMIZATION ...........................................................................................................34  
11.IMPEDANCES AND TUNING ...............................................................................................35  
12.(UN)BALANCED LINES........................................................................................................35  
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13.START-UP .............................................................................................................................37  
13.1A-channel setting up procedure ..................................................................................................... 37  
13.1.1Selecting inputs .................................................................................................................. 37  
13.1.2Initializing channel for gain-setting....................................................................................... 37  
13.1.3Auditioning a signal............................................................................................................. 37  
13.2Desk/tape setting up procedures................................................................................................... 37  
13.2.1Desk normalization ............................................................................................................. 37  
13.2.2Multitrack initialization ........................................................................................................ 38  
13.2.3Recording levels .................................................................................................................. 38  
13.2.4Auditioning a mix ................................................................................................................ 38  
13.2.5Mixer mapping .................................................................................................................... 38  
14.8-TRACK MIDI SUITE/DANCE PRODUCTION STUDIO ...................................................38  
14.1Sends ........................................................................................................................................... 39  
14.2Auxless headphones mix .............................................................................................................. 39  
14.3Returns ......................................................................................................................................... 40  
14.4Lining up record/sample inputs...................................................................................................... 41  
14.5Mixdown ....................................................................................................................................... 41  
15.16-TRACK RECORDING WITH 2 SAMPLERS ...................................................................41  
15.1Recording ..................................................................................................................................... 41  
15.2Headphones .................................................................................................................................. 42  
15.3Mixdown ....................................................................................................................................... 42  
16.PROFESSIONAL 24-TRACK STUDIO ................................................................................42  
16.1Recording ..................................................................................................................................... 42  
16.2Very tricky headphones................................................................................................................. 43  
16.3Wet monitoring ............................................................................................................................. 44  
16.4Mixdown ....................................................................................................................................... 44  
17.LIVE P.A. WITH 2-TRACK RECORDING .............................................................................45  
18.LIVE CONCERT WITH 24-TRACK RECORDING...............................................................46  
19.EXPANDING THE EURODESK MX9000.............................................................................48  
19.1Connections .................................................................................................................................. 48  
19.2Alignment ..................................................................................................................................... 48  
20.TIMECODE ...........................................................................................................................48  
21.BOUNCING ...........................................................................................................................49  
22.SEQUENCING “LIVE” .........................................................................................................49  
23.INPUT/OUTPUT CONFIGURATION ...................................................................................50  
24.MODIFICATIONS ..................................................................................................................50  
24.1Aux sends > post EQ ................................................................................................................... 51  
24.2MIX-B source > post fader ............................................................................................................. 51  
24.3LED meters > pre fader ................................................................................................................. 51  
25.SPECIFICATIONS.................................................................................................................52  
26.WARRANTY ...........................................................................................................................54  
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1. THE MANUAL  
1.1 Nomenclature  
Most specialist subjects are not really all that difficult provided you understand the language used, and the  
vocabulary of mixing is pretty straightforward. Nevertheless, it is as well to be clear about what certain terms  
mean. A “slot” in a recorder will always be referred to as a TRACK, while that in a mixer will invariably be a  
CHANNEL. A GROUP will always refer to a submix of channels, never a collection of musicians. Similarly the  
term BAND will be mentioned only in conjunction with FREQUENCY. We will attempt to be as unambiguous as  
possible with terms, since much confusion can arise from sloppy definitions.  
Some terms can have a plurality of meanings. TRACK, in mixing parlance, refers to a tape recorder. In electronic  
circuits, components on a PCB (printed circuit board) are linked by flat conductors called TRACKS. Hopefully,  
where terms have different meanings the contexts will be sufficiently diverse so as to avoid any possible  
confusion.  
1.2 An un-holstic approach  
It is virtually impossible to fully explain one aspect of a mixing console (e.g. CHANNEL ROUTING) without also  
making it clear what those routes are, where they go, are they migratory, etc. That’s why we have  
compartmentalized the EURODESK manual into sections, making it easy to find problem solving information  
and advice. You might find that several cross-sectional references have been made, where areas of interest  
overlap. E.g.: Channel EQ is specified and described in the “Main equalizer” section 3.4, while EQUALIZATION  
has it’s own section, reflecting it’s importance and weight as a subject in it’s own right.  
If we keep repeating ourselves concerning the use of B-channels and the MIX-B bus, it’s because a proper  
understanding of this area of the board will greatly expand your mixing repertoire.  
1.3 Key  
All DESK functions will be numbered consistently throughout the manual, whether they be in the text or in an  
illustration. In addition the following prefixes will be used to denote the various types of function control in any  
illustrations/text respectively:  
Prefix  
Meaning  
Switch  
S
L
LED  
P
F
Potentiometer  
Fader  
Tab. 1.1: Meaning of the used prefixes  
After every prefix you will find the FUNCTION NUMBER. Numbering starts at the top of a CHANNEL, works its  
way through a stereo GROUP, and finally through the MASTER SECTION. The phantom power and tape  
operating level switches are not included in the numbering system.  
2. EURODESK OVERVIEW  
2.1 Architecture  
The EURODESK MX9000 is a hybrid SPLIT/INLINE console. Input channels cover most of the surface from the  
left, while the outputs to tape are to the right. Tape monitor returns, however, are housed within the channel  
strips, not next to the tape outputs, as would be the case in a conventional “split” design. This architecture  
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enables much flexibility to be bestowed onto the tape monitor signal path, not least being its ability to pick up  
functions easily from the main channel. Also, during mixdown, when tape tracks are no longer monitored but  
MIXED, the signal path between tape input and main channel is kept to a minimum.  
The configuration is 24 into 8 into 24. This means that there are 24 channels, eight subgroups or “submixes” (or  
four stereo subgroups) and 24 tape monitor returns, one for each channel. There are 24 100 mm channel  
faders, eight subgroup faders, and a stereo pair of faders driving the L/R main mix.  
In remix mode 48 channels are available, all with EQ and access to the aux buses. There are six additional  
stereo FX returns, giving a grand total of 60 separate line-level inputs: and that’s before you even consider  
using the subgroup insert points to provide eight more!  
There are six aux buses accessed by four potentiometers, two headphone mixes and professional recording,  
monitoring and talkback facilities. If you can afford to lose the extra 24 line inputs, the MIX-B bus can also act  
as a separate stereo aux send, giving eight aux buses in all.  
A comprehensive set of inputs and outputs include MIC (+48 V), line, tape (+4 dBu or -10 dBV), inserts all  
round, direct channel outs and all master recorder and monitoring options. Just about everything you’d  
expect from a massive console.  
In addition, a 1/4" jack expander bay (INPUT ONLY) allows direct patching into all buses within the EURODESK  
(except PFL and SOLO). Hence two EURODESKs may be linked, or the EURODESK coupled to ANY OTHER  
CONSOLE, large or small, provided that the other console has (or can be MADE to have) similar access (see  
section 19 “EXPANDING THE EURODESK”).  
Last, and probably least, two BNC connectors on top of the built-in meterbridge await optional gooseneck  
desk lights, available from all good gooseneck desk light stores. A must for those darkened auditoria, or when  
you’re into your third consecutive night in the studio.  
2.2 Metering  
The 1 to 24 channels have signal (-20 dB, L25) and overload LEDs (PEAK, L24).  
The bulit-in meterbridge provides 12 segment bargraph meters for all channels and subgroups as well as for  
the main mix. By the DISPLAY MODE switch (S100, top left of the master section) you decide between  
CHANNEL and TAPE MODE. Your choice will be indicated by a LED.  
In CHANNEL MODE, which is the best for live mixing purposes, the LED meters read the channel’s direct  
OUTPUT, which is post EQ, post mute and post fader (you may alter that to pre mute and pre fader by the  
modification described in APPENDIX II.3).  
In TAPE MODE the channel meters will mirror the multitrack’s meters, because they read the tape reutrn  
inputs – after the OPERATING LEVEL switch, but unaffected by anything else happening in the channel. 0 dB  
is referenced to the selected tape operating level (+4 dBu or -10 dBV).  
The main mix meters double up as mono PFL or stereo SOLO meters, or 2-track return meters, or EXTERNAL  
return meters (in general, what you HEAR is what you SEE). During PFL/SOLO only the main mix bargraph  
meters illuminate.  
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In SOLO/PFL mode a 0 dB meter reading matches an internal operating level of 0 dBu (0.775 V).  
However, when looking at the mix, 0 dB is referenced to +4 dBu, the 2-track operating level. I.e.  
if only ONE signal is present in the main mix bus, SOLOing that signal will cause the meter  
reading to increase by +4 dB.  
2.3 PSU (Power Supply Unit)  
Not an infection of the urinary tract, in fact PSU stands for the least glamorous, most frequently underestimated  
feature of any electronic device: the POWER SUPPLY UNIT. The EURODESK remote PSU connects to the  
desk at the rear of the console via a multiway connector. 2 1/2 U high, nevertheless it is designed to slot into  
a 3U rack space. The extra 1/2 U is to allow air to circulate around the heatsinks employed for heat dissipation.  
If your control room is small, forget heating. The EURODESK PSU chucks out a massive 400 Watts.  
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Why? Any amplifier circuit is limited in its transient response by the available current. In common with most  
desks of this size, the EURODESK has more than a thousand line-level operational amplifiers (op-amps)  
inside. When being driven hard, many desks begin to show signs of stress due to power supply limitations. Not  
so with the EURODESK MX9000. The sound should stay clean and crisp and TIGHT right up to the operating  
limits of the op-amps themselves.  
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Do not connect the PSU to the EURODESK while the PSU is connected to the mains supply.  
3. INPUT/OUTPUT CHANNEL  
3.1 Channel strip  
On the EURODESK MX9000 the 24 INPUT + OUTPUT (I/O or “normal”) channels cover most of the console.  
Most of each strip is occupied by the main or A-CHANNEL, accepting MIC, LINE or TAPE inputs, depending  
on the positions of S1 and S3 (see fig. 3.1 and 3.2). Each channel strip also sports a secondary B-CHANNEL  
(fig. 3.6) Anything routed to a B-channel is directed to a separate MIX-B bus. (See section 3.7 “B-channel” and  
also section 6.2 “MIX-B master”).  
3.2 Input switching  
First, look at the MIC/LINE switch S1. In the UP position it selects MIC, in the DOWN position LINE. The next  
switch S3 chooses whether A-channel looks at INPUT or TAPE. If INPUT is routed to A-channel, TAPE is  
offered to B-channel. If TAPE is routed to A-channel, INPUT is offered to B-channel. Depressing the PAD  
switch (S1a) lowers an incoming mic signal by -20 dB, if necessary.  
Fig. 3.1: Input  
When laying tracks, it is usual to use the MIX-B inputs for monitoring the signal from TAPE, while the  
A-channels take care of microphones, Dl’s, etc. For MIXING purposes, TAPE tracks are normally “flipped”  
onto the main channels, leaving the B-channels free for other applications, such as offering extra line inputs.  
These rules are, however, made to be broken.  
S23 applies to the B-channel only and replaces the normal TAPE or INPUT source with a tap from the main  
channel, taken post mute and pre fader. Now MIX-B acts as an extra stereo aux send or extra stereo mix. You  
should remove MIX-B from the main mix (via S48, master section) in this configuration.  
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Fig. 3.2: Channel input switching architecture  
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The B-channels 25 to 48 are only routable EN BLOC to the main mix, via S48. Therefore, the  
MIX-B bus can only have one function at any one time, either as a stereo AUX or secondary mix  
send (S48 UP) or as a set of 24 extra line or tape inputs to the main mix (S48 DOWN).  
3.3 Input gain setting  
The channel input level is set by the TRIMPOT (P2). Use SOLO/PFL (S26) to bring the channel’s input onto  
the L/R bargraph meters under the master section of the EURODESK MX9000. This also sends the SOLO/  
PFLed signal to the left and right speakers. Channel PFL/SOLO (S26) has an associated LED (L26). (See  
also 13.1 “A-channel setting up procedure” and 6.5 “Solo/PFL”.)  
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For level-setting (as opposed to localized listening) choose to use the mono PFL rather than  
the post fader SOLO bus (S95 DOWN).  
SOLO/PFL never interrupts the mix at the main recording outputs. It follows that aux sends  
and subgroups must also be unaffected, since they can contribute directly to the main mix.  
In addition to switchable PFL/SOLO metering, a couple of LEDs (L24 and L25) continuously monitor whether  
a signal is present (-20 dB) or the channel is going into overload (PEAK). These take their cue from three test  
points: input, post EQ and post fader. In all cases the higher level wins. You do NOT want the overload light to  
come on, or if it does no more than very intermittently during a take or a mix.  
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3.4 Main equalizer  
Fig. 3.3: Main equalizer  
The main equalizer can be switched (S10) out of circuit for easy A/B comparisons between EQed and straight  
signals, or when you know that you don’t want to use desk EQ at all. It is best considered in three sections.  
First, there are two Baxendall shelving frequency controls for treble and bass, at 12 kHz and 80 Hz respectively  
(P4 and P9). These are DUPLICATED for the B-channel (P18 and P19), not merely “SPLIT” off from the main  
EQ. I.e. you can have a full 4-band EQ on the main channel AND a 2-band EQ on B-channel.  
Secondly, there are two semi-parametric swept mids, Q fixed at 1, which cover the bands 300 Hz to 20 kHz  
and 50 Hz to 3 kHz. An unusually broad frequency range is catered for, and there is an enormous 3-plus  
octave overlap between the two mid bands (P5, P6, P7 and P8). No experienced engineer will complain about  
that! All four bands offer 15 dB of cut and boost.  
Thirdly, there is a steep high pass (low cut) filter (S11), slope @ 12 dB/octave, -3 dB @ 75 Hz, for reducing floor  
rumble, plosives, woolly bottom end, etc.  
3.5 Aux sends  
All six aux sends are mono and post EQ. They are switchable PRE/POST fader in two banks (S13 and S16).  
For aux sends 1 and 2, two dedicated pots (P12 and P13) are used. These can be taken from a point before  
or after the channel fader, i.e. PRE or POST (S13). Aux sends 3 and 4, and 5 and 6 are serviced by two  
potentiometers (P14 and P15). The SHIFT button (S15) determines whether buses 3 and 4 or 5 and 6 are  
addressed. Also, these four sends can be derived from the main mix or MIX-B, depending on SOURCE  
(S17), and, as before, can be pre or post (S16).  
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Fig. 3.4: Aux sends  
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For almost all FX SEND purposes, you will want auxes to be post fader, so that when a fader  
level is adjusted, any reverb send from that channel follows the fader. Otherwise, when the  
fader is pulled down, the reverb from that channel would still be audible. For CUEing purposes,  
aux sends will usually be set pre fader, i.e. independent of the channel fader (S13 and S16).  
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Most reverbs etc. sum up the left and right inputs internally. The very few that don’t may be  
driven in true stereo either by 1) 2 aux sends or 2) the MIX-B bus (see section 3.7 “MIX-B”).  
There is +15 dB of gain on every aux send. Such a high boost is only appropriate where the  
channel fader is set around -15 dB or lower. Here, an almost exclusively WET signal will be  
heard. Previously, in most consoles, such a wet mix required the use of a PRE setting for the  
channel auxiliary send. This meant losing fader control over the signal.  
3.6 Routing and muting  
ROUTING means selecting which BUS you want a channel to address. There are actually six stereo buses in  
the EURODESK MX9000 (plus a stereo SOLO bus). The main mix bus is selected by S32 (see figure 3.5),  
while the subgroups are selected by switches S28 (for groups 1 and 2), S29 (3 and 4), S30 (5 and 6) and  
S31 (7 and 8). Odd and even numbered groups are selected via the main A-channel PAN P24, as are the left  
and right mix buses. (The sixth stereo bus is the MIX-B bus, with it’s own independent pan control P20; see  
section 3.7 “B-channel”). Usually, only one of S28 to S31 will be selected for a particular channel (See block  
schematics).  
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An exception to this rule is when laying down voice takes. It is often convenient to have the mic  
channel(s) routed to alt potential TAKE tracks simultaneously, since you are often dropping in  
quickly between four or more tracks. It means one less button press each time you switch  
tracks.  
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Fig. 3.5: Routing  
The level to the subgroup and main mix buses is ultimately determined by the channel faders. These are  
designed to give a smooth logarithmic taper of a type more usually associated with the name of some pretty  
expensive brand ... The low level performance particularly is far smoother than that of a normal “budget” fader.  
The MUTE button (S27), like that for SOLO has an LED indicator (L27) and removes the A-channel signal from  
all buses, save any auxes set to pre fader. It is ergonomically placed immediately above the fader and engaging  
MUTE is equivalent to setting a fader level of minus infinity.  
3.7 B-channel  
The B-channel (fig 3.6) comprises a secondary channel with its own high and low EQ, pan and level (P18, P19,  
P20 and P21). The EQ is a replica of the A-channel shelving EQ. The B-channel ALWAYS feeds into the MIX-  
B stereo bus, but its source can be switched between TAPE, LINE, MIC and A-CHANNEL, depending on how  
S1, S3 and S23 are set (see fig. 3.2 and section 3.2). Unusually for an 8-bus console, B-channels also have  
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their own MUTE buttons (S22). Aux sends 3/4/5/6 may be diverted from the A to the B-channel via S17.  
Therefore, if the B-channel is being used to monitor off-tape, some FX processing e.g. reverb and echo can still  
be applied. (See section 16.3 “Wet monitoring”.)  
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When B-channel looks at A-channel (S23 DOWN), the signal comes A-channel mute switch and  
pre fader. A modification can convert this PRE stereo aux send to POST fader. (See APPENDIX  
II “Modification No. 2”.)  
Fig. 3.6: B-channel  
4. INSERTS  
Insert points are useful for adding dynamic processing or equalization to a channel, subgroup or the mix.  
Unlike reverbs, etc., which are usually added to the dry signal, dynamic processing is normally applied across  
an entire signal. Here, an aux send would be inappropriate. Instead the signal is intercepted somewhere along  
the channel/subgroup/mix, fed through the dynamics processor and/or EQ and then returned to the console at  
the same point where it left. The insert point is invisible or normalized, until a jack is plugged into it.  
All subgroups and channels have got insert points, as does the main stereo output. Both SEND and RETURN  
are accommodated on a single stereo 1/4" jack socket wired tip=send, ring=return. Inserts are always pre  
fader and also pre EQ / aux sends for channels.  
Insert points may also be used as pre EQ direct outputs without interrupting the signal flow. This is obvious  
when looking at the patchbay wiring (section 8, fig. 8.1). If you want to insert a dynamics processor post EQ,  
the insert point must either be taken from a subgroup, or via a second channel / aux return as follows:  
a) Insert a compressor/gate/EQ across a subgroup, and route the channel to be processed (and only that  
channel) to that subgroup.  
b) Alternatively, patch a channel’s direct out into a compressor/gate/EQ. Take the output from that compressor/  
gate/EQ and feed it back into the desk via a secondary input (channel, aux return, etc.).  
Figure 4.1 illustrates how you might insert into a channel post EQ for mixdown or track-laying (their requirements  
are different). Mixdown requires one A and one B-channel. Recording requires two A-channels.  
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Fig. 4.1: Post EQ channel insert  
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In this arrangement you might find that compression tends to soften the perceived amount of  
EQ applied. The solution? Apply more EQ. This creates a real “pressure” sound, great for high  
energy music such as dance. (For a more subtle approach, use the desk insert points word for  
word.)  
Using a group insert to effect post EQ processing precludes the use of POSTPROCESSING  
AUX SENDS without some serious re-patching.  
5. SUBGROUP AND DIRECT OUTPUTS  
5.1 Subgroups  
The principal routes to the multitrack are via the SUBGROUP OUTPUTS. There are four stereo (or eight  
mono) subgroups, numbered 1 to 8. All main channels can access all of them, as can the STEREO AUX  
RETURNS 1 and 2. (For this reason it is usually wise to bring your best two FX processors back on these  
returns (or A-channels, for that matter), so that they can easily be sent to tape. (See also section 6.1 “Aux  
masters”.)  
Why are there 16 subgroup output jacks on the EURODESK when there are only 8 subgroups? Well, each  
subgroup output is duplicated, so that the EURODESK can interface with up to 16 tracks via the group outputs  
without having to re-patch.  
As well as always functioning as subgroups for track laying via the SUBGROUP OUTPUTS, groups can be  
routed directly into the main mix bus for submixing. Main mix routing is handled by switches S37 and S38.  
S37 routes an odd numbered group to the left bus, while S38 sends an even numbered subgroup to the right  
bus. That’s fine for stereo submixes. If you want a pair of mono submixes instead, also press the MONO  
buttons (S35 and S36). Now these subgroups feed into the center of the main mix stereo image, i.e. equally to  
L and R. You could have the first subgroup feeding into the left hand side, while the second one appeared in  
mono, but I can’t think of many real situations where you’d want to do this.  
Subgroup SOLO (S33 + S34) follows the mix assignment. E.g.: If the main mix is selected, then that stereo  
subgroup will be monitored in stereo. If mono is also selected, monitoring is in mono.  
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Try inserting compression / de-essing / an exciter / a gate across grouped signals (e.g. backing  
vocals, drums, layered synths).  
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Fig. 5.1: Stereo subgroup channel schematic  
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Try merging a dry signal with a little wet, then compressing the sum heavily. Though the  
reverb proportion will be low when a signal is present, the resultant reverb tail pumped up by  
the compressor at the start of each silence will give the illusion that the reverb was massive alt  
the time. (The listener will be left wondering how the singer could sound so clear in such a wet  
acoustic!)  
EURODESK insert points are, of course, simultaneously inputs and outputs. Get them onto a  
patchbay, where they can appear as independent sockets, and do away with all these fiddly  
Y-leads that always seem to be the first to get knotted in the flightcase. (See section 8  
“Patchfield”.) Now it is possible to do the following incredibly useful patch without having to  
make up what would amount to a ring-to-tip, tip-to-ring stereo patch lead.  
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Fig. 5.2: Using insert to add channel EQ to subgroup output (while keeping the number of line inputs unchanged!)  
5.2 Direct outputs  
Each of the 24 main channels on the EURODESK MX9000 has its own DIRECT OUTPUT, which is taken from  
a point immediately after the fader (i.e. post EQ and after the aux sends, see block schematics). This can  
feed a tape track directly without having to resort to the subgroups, enabling more than eight different tracks  
to be recorded simultaneously. Almost alone among the EUROjacks, these are on unbalanced mono sockets  
at +4 dB. (See section 23, also section 16.1 “Recording”.)  
6. MASTER PANEL  
6.1 Aux masters  
6.1.1 Aux sends  
Much of the master section is taken up by master aux sends and returns. We’ll start with the sends (see fig.  
6.1.1).  
Stacked in a vertical column are six master aux send levels, one for each of buses 1 to 6 (P41 to P46). Each  
one has a gain structure of minus infinity to +15 dB. The extra 15 dB of gain comes in once a knob passes a  
center detente (representing the “normal” unity gain position), enabling insensitive outboard FX to be properly  
driven. Each aux send has a SOLO button (S41 to S46), and, as with other areas of mixer, a LOCAL SOLO  
LIGHT (L47), which illuminates when any of the AUX master sends are solo-ed. This is to help you see exactly  
what has been solo-ed. Any experienced engineer will have had occasion to search painstakingly through  
every solo button on his/her console trying to find out why the main solo light was on, and the control room  
monitors silent!  
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Fig. 6.1: Aux sends  
6.1.2 Aux returns  
Next to the aux sends are the stereo aux returns (see fig. 6.2). These can be thought of as a dozen extra line  
inputs configured as six stereo pairs. On these inputs there is up to 20 dB of gain available. Alternatively, a  
mono (center-panned) signal may be returned by plugging into the left aux return jack only.  
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This feature is disabled if all line-level I/Os from the EURODESK are wired permanently to a  
patchbay (see section 8).  
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^
Fig. 6.2: Stereo aux returns  
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a) Aux returns 1 and 2  
Aux returns 1 and 2 have full subgroup routing matrices to enable returning FX to be sent to tape, plus main  
mix bus assignment. The functions for aux return 1 (mirrored by aux return 2) are: ROUTING (S49/50/51/52/  
53) LEVEL (P49), BALANCE (P51) and SOLO (S54). LEVEL controls the amount of signal being blended  
into the mix or a subgroup, while BALANCE controls the relative amounts of L and R processed signal. We  
doubt if you’ll often want to adjust BALANCE away from center.  
+
As always, there are exceptions to -above rule. Some short stereo delay effects (say 30 ms to  
L, 50 ms to right) cause a psychoacoustic effect where the earlier delay seems louder. A  
similar effect is noticeable when harmonizing in stereo: a slight pitch shift upwards will seem  
louder than one that goes down. In both cases use the BALANCE control (P51) to compensate.  
+
When carrying out the above mentioned information, or any other stereo imaging exercise,  
don’t just rely on the control room monitors. Get a pair of headphones and listen in stereo and  
in reverse stereo, to allow for any hearing discrepancy between your ears.  
b) Aux returns 3 to 6  
And so to aux returns 3 through 6. These too have a routing matrix (S55 to 58 for aux return 3), but this time  
it is designed to facilitate monitoring rather than recording. The options are MAIN (L/ R) MIX, and PHONES  
1/2. Gain pots and solo switches complete the picture.  
c) SOLO  
Below each column of aux returns lies a local solo LED (L61 & L74). These illuminate whenever a SOLO  
button in the column above is pressed.  
There is no absolute reason why the send from aux 1 should feed into a processor whose outputs are sent to  
the aux return 1. The processor could just as easily be patched into the aux return 3, or even a pair of  
channels. For many purposes, however, it is sensible to set up a default patch where the aux outputs and  
inputs correspond. It is logical to put your premier FX units into the aux 1 and aux 2 loops, since these returns  
enable you to record to tape without re-patching.  
+
+
An exception to the above is when recording a group of performers live to multitrack. (See  
section 16.3 “Wet monitoring”).  
Sometimes an engineer wants to narrow the stereo width of a reverb field. To do this you will  
have to come back on either A or B-channels, which have full PAN facilities.  
6.2 MIX-B master  
Fig. 6.3: Mix-B  
Only two controls occupy the MIX-B master (fig. 6.3). P48 offers the standard EURODESK gain of up to  
+15 dB. S48 is crucial: it routes the MIX-B bus output into the main mix bus. MIX-B can have three basic  
functions:  
It can act as an entirely separate mixer-within-a-mixer to provide a completely separate mix (S48 UP, S23  
DOWN). (See also section 17.)  
It can act as an additional stereo aux feed to FX as well as a pre fader monitoring aid during mixdown (S48  
UP, S23 DOWN).  
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It can provide 24 extra B-inputs to the mix (S48 DOWN, S23 UP).  
+
For live applications try using MIX-B to feed a secondary set of speakers. These could be  
sidefills, or even more spectacular, the rearward portion of a quadraphonic sound system.  
There is no SOLO provision for MIX-B. However, you can audition it by selecting only MIX-B (S83) in the monitor  
sourcing matrix.  
+
If MIX-B is assigned to the main mix (S48 DOWN), do not listen to MIX-B (S83) and the main mix  
(S82) simultaneously. That way you’ll be monitoring MIX-B twice over, and what you hear  
won’t correspond with what’s going down to tape.  
6.3 Monitoring  
Fig. 6.4: Monitoring  
Though most of you will want to audition the main mix most of the time there are exceptions. These include  
PFL/SOLO, and 2-TRACK PLAYBACK. The SOURCING matrix (S82 to S85, see fig. 6.4) allows you to  
monitor the main mix, the MIX-B and two external sources marked 2-track and EXTERNAL. The master  
meters follow whatever source is being auditioned. The meters won’t make much sense if more than one  
source is selected!  
+
+
EXTERNAL could be “normalled” to a HiFi pre-amp, allowing you to monitor extra sources  
such as vinyl, cassette, CD, etc.  
Altering what goes into the control room’s monitors does not affect the signal from the main  
recording outputs. Just as well, or every time you wanted to do a quick SOLO during a mix,  
you’d have to start again!  
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The CONTROL ROOM LEVEL pot P86 sets the level to the control room monitors. This is sourced post the  
main main mix stereo fader setting: otherwise you wouldn’t be able to hear your fades. There is also a similar  
STUDIO volume pot (P82).  
+
Owners of MIDI production suites might like to drive a second pair of control room speakers  
from the studio output, but take care when using the TALKBACK mic: no -20 dB offset is  
applied to the studio output!  
We would like to recommend you to use half-a-dozen sets of speakers on an external switching matrix,  
including studio monitors, ghettoblaster, club system, car stereo and overblown 2" speakers loosely screwed  
into a less-than-airtight cardboard box.  
+
If you are using the STUDIO output to drive a pair of monitors actually in the studio, do not  
ever leave P82 turned up during a take. Howls and howlround may well be the result.  
Lastly, there is a MONO button (S86), useful for checking the phase correlation and/or coherence of a stereo  
signal. Again, this does not affect the main mix output.  
6.4 Headphones  
Both HEADPHONES 1 & 2 masters are identical.  
Fig. 6.5: Phones  
A SOURCING matrix picks up any or all of MIX-B (S76), CONTROL ROOM (as chosen in monitor section,  
S77), AUX 3/4 (S78), AUX 5/6 (S79) and EXTERNAL (S80). In addition to the sources which are directly  
selectable from the headphones masters, aux returns 3 to 6 may be “force-fed” into HP1 & HP2 from the aux  
returns masters (S55, S56, etc.).  
The headphone mix level is controlled by a master volume pot (P75), and the gain is sufficient to drive  
headphones directly. This is fine for a MIDI suite with overdub booth, but for the bigger studio’s headphone  
network we’d recommend using a separate headphones distribution amplifier like our BEHRINGER  
POWERPLAY PRO HA4400. This can offer the added advantage of independent headphones level control  
for every performer.  
A SOLO button (S81), with its own LED, enables monitoring of the headphones amplifier’s output signal.  
This way the engineer can monitor what’s going on in the cans on the control room monitors, though in our  
experience this does not give as true a picture as auditioning the cue feed from a set of headphones identical  
to those worn by the performer(s).  
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6.5 PFL/SOLO  
Fig. 6.6: Solo section  
6.5.1 PFL  
Pressing S95 disengages the stereo SOLO bus, and replaces it with a separate mono PFL (Pre-Fader-Listen)  
bus. Now anything at all which is SOLOed, isn’t. It is PFLed instead. PFL should be used for gain-setting. (See  
also the essential section 13 “Start-up”.)  
6.5.1 SOLO  
SOLO is short for SOLO IN PLACE, and is the preferred method for auditioning an isolated signal or a group of  
signals. Whenever a SOLO button is pressed, all unselected channels are muted in the monitors. Stereo  
panning is maintained. The SOLO bus is derived from the output of the channel PANs, aux send/return pots,  
etc., and is always post fader.  
In addition to any local solo LEDs which might be activated, the ultra-bright MAIN SOLO LED (L95) illuminates  
whenever anything is SOLO/PFLed. P94 controls the master SOLO/PFL level. Set to unity gain (center  
detente), this will match the mix level.  
6.6 Talkback  
Fig. 6.7: Talkback  
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The built in mic (above the main mix faders) allows you to converse with artists remotely. The most important  
controls are the VOLUME (P99) and PHONES & STUDIO button (S99, see fig. 6.7). It is possible to route the  
talkback mic to any of the following: aux 1, aux 2, subgroups, and phones and studio (S96 to S99).  
Complex headphone or stage monitoring networks could be constructed where HP1, HP2, aux 1 (pre), aux 2  
(pre) and one or more subgroups all feed separate monitor mixes. (See section 16.2 “Very tricky headphones”).  
However, since the four pushbuttons are non-latching it might drive you crazy. If you are using many headphone  
feeds, you may d it easier to patch a separate microphone for talkback straight into a channel, where it can be  
routed pretty much anywhere.  
Engaging TALKBACK (S99) dims the control room (monitors, not lights you fool) by -20 dB to restrict the  
possibility of feedback. All other talkback routes are unaffected.  
7. CONNECTIONS  
7.1 Rear panel  
Expander port bus inputs  
If you want to add another console to your EURODESK MX9000, the expander prot bus inputs give access to  
all subgroups, auxes and mix busses via an array of 1/4" jacks, situated top left on the rear panel.  
Fig. 7.1: Expander port bus inputs  
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PSU  
The chunky remote 19" racked power supply is connected via a circular multiway (DC POWER IN) at the  
bottom left-rear of the console. This supplies several DC operating voltages incl. +/-18 V (audio circuits), +48 V  
(mic phantom power), +12 V (BNCs) and +5 V (LEDs).  
Fig. 7.2: Power supply unit connector  
Auxiliary sends  
Unbalanced 1/4" jacks, wired tip = signal (+ve) and sleeve = ground/screen. They operate at +4 dBu.  
Fig. 7.3: Auxiliary sends  
Auxiliary returns  
All six stereo pairs, to be located immediately below the aux sends, are on unbalanced 1/4" jacks and operate  
at 0 dBu.  
Fig. 7.4: Auxiliary returns  
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Subgroup inserts  
Unbalanced send and return from a single stereo jack socket, wired tip = out, ring = in and sleeve = ground/  
screen.  
Fig. 7.5: Subgroup inserts  
2-track in/out  
RCA sockets for use with tape recorders, etc., signal = main mix, wired center post = signal (+ve) and sleeve  
= ground/screen.  
Fig. 7.6: 2-track in/out  
2-track/external inputs  
Two additional stereo inputs, this time on unbalanced 1/4" jacks, wired tip = signal (+ve) and sleeve = ground/  
screen.  
Fig. 7.7: Additional connectors  
Main inserts  
As above, but for the main mix.  
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Stereo outputs  
The control room output (monitors) main mix, MIX-B and studio output are all on a pair of unbalanced 1/4"  
jacks, nominal output level +4 dBu. The main mix is also available as a fully balanced pair.  
Phones 1/2  
These are on stereo jacks, wired tip = left signal, ring = right signal and sleeve = ground/screen (see section  
6.4 “Headphones”).  
Meter/analyzer out  
Unbalanced jacks at +4 dBu for use with external measuring equipment, e.g. the built-in real-time analyzer of  
our BEHRINGER ULTRA-CURVE PRO DSP8024 (signal = master LED meters).  
Master balanced outputs  
Balanced XLR for connecting to the mastering recorder. Wired pin 1 ground/screen, pin 2 hot and pin 3 cold.  
Maximum level is +28 dBu.  
Fig. 7.8: Main balanced outputs  
Fig. 7.9: A and B-channel input section  
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A-channel line inputs  
The A-channel line inputs accept balanced or unbalanced 1/4" jacks, tip = hot, ring = cold and sleeve = ground/  
screen.  
Mic inputs  
These are via XLR-type connectors, wired pin 1 = ground, pin 2 = hot and pin 3 = cold, for balanced low-level  
operation. Since most quality capacitor microphones require a 48 V DC offset to charge the plates, phantom  
power is provided and can be switched on or off in three blocks of eight via a switch situated below channels 8,  
16 and 24.  
+
Care should be taken not to plug microphones into the console (or stagebox / wallbox) while  
the phantom power is on. Also, mute the monitor / PA speaker when turning phantom power  
on or off. Allow one minute after powering up for the system to equilibrate before setting input  
gains.  
Channel inserts  
These provide for unbalanced send and return from a single stereo jack socket. Wiring is: tip = out, ring = in  
and sleeve = ground/screen.  
Direct outputs  
This tap comes from just after the channel fader. Unbalanced 1/4" jacks.  
B-channel inputs/tape returns  
They also accept balanced or unbalanced 1/4" jacks and are switchable, in groups of eight, between  
-10 dBV (unbalanced) and +4 dBu (balanced), corresponding to the standard semi-professional and  
professional operating levels and configurations respectively. Consult your multitrack manual to find out  
which one applies.  
Fig. 7.10: MIX-B operating level switch and phantom power switch  
Subgroup outputs/tape sends  
The eight subgroups are each connected to two stereo jack sockets, for easy patching into 16 track recording  
systems (or 24 track, if you use Y-adaptors). Once again, the operating level is switchable between +4 dBu  
and -10 dBV in two banks of (2x) 4.  
Fig. 7.11: Subgroup outputs/tape sends and operating level switch  
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7.2 Plug soldering guide  
You will need a lot of cables for a lot of purposes. Here’s how they should look:  
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8. THE PATCHFIELD  
Nomenclature clarification:  
s FIELD  
s BAY  
= entire patching area  
= a unit of 48 jack sockets arranged as 24 outs over 24 ins  
If you really want to make the most of your home studio, invest in a patchfield. We know that you will often put  
off doing a complex patch if there is no patchfield:  
1) because it’s so much bother and  
2) in case you inadvertently damage or pull out a lead.  
8.1 The normalized bay  
Most decent jackbays offer two rows of 24 normalized jacks in a 1 U of rack space. Lucky you’ve got a 24/48  
channel desk, eh? The term normalized refers to the fact that the top row (outputs) are internally connected to  
the bottom row (inputs), unless you plug something into an input socket. Plugging into the output socket of a  
normalized insert pair does not break the internal connection, but it does provide an alternative direct output.  
Where normalizing is not wanted on a patchbay (there are a few cases!) it is possible to remove it by cutting  
certain PCB tracks. Refer to the patchbay instructions for how to do this.  
8.2 The patchfield  
If you want to do the only decent thing and construct a patchfield for your studio, here’s how to do it. Note that  
we have laid it out in order that a minimum number of cables are likely to be needed. We have also completely  
left out the microphone inputs. Unlike everything else, these operate at a level several orders of magnitude  
lower than line (+4 dBu or -10 dBV). It is best to plug microphones directly into the EURODESK MX9000, or  
via special XLR-type wall boxes connected to the EURODESK microphone inputs by a good quality balanced  
(2-core + screen) multicore. (See also section 12 “(UN)BALANCED LINES”.)  
*
Break the normalizing on this bay.  
**  
Tie lines: usually, in a MIDI setup, racks and keyboards etc. are scattered around the control room. Plugging  
these directly into the front of the patchbay would result in Spaghetti Junction. Instead, it is better to connect  
TIE LINE jacks to wall boxes strategically positioned near to where MIDI hardware congregates.  
***  
It’s always good to have a few 4-way links around for splitting signals up to 3 ways (one in, three out). E.g.  
one tape track has four different instruments on it. Patch the DIRECT out of its CHANNEL into a 4-way split,  
returning to a further 3 channels via LINE INPUT. Set up each of the paralleled 4 channels for one instrument,  
and use mutes (preferably MIDI controlled) to mute the 3 unwanted channels at any one time).  
+
Break the NORMALIZING LINKS on positions 21 - 24. Note also that the MIX-B outputs are  
adjacent to the aux sends. This is because one of the two functions of MIX-B (source switches  
set to CHANNEL) is to provide an extra stereo aux send.  
+
You can treat MIX-B as two mono sends using GAIN for level and PAN for blending. Setting pan  
to the center will give a 50/50 ratio of the “aux 7” and “aux 8” effect, hard left 100% “aux 7”, etc.  
****  
Break NORMALIZING LINKS here. If you’ve got more than 5 or 6 stereo dynamics/EQ processors, you might  
spill over onto another dedicated bay, or alternatively have to find some suitable extra space somewhere else  
in the patchfield. Remember, most dynamics processors also have sidechain/KEY inputs, and therefore  
require 3 holes per channel.  
+
Enhancers are usually applied across INSERTS like compression and EQ etc., but most  
BEHRINGER enhancers have a SOLO mode, in which they can be addressed via an aux send  
and blended back into the main mix like any other reverb.  
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Fig. 8.1: Example of patchbay configurations  
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Bay 8:  
L7 & R8 equals the L/R recording input to the 2-tracks. On Bay 8 we have hard-wired these to recording outputs  
1 to 6 in order to drive all recorders simultaneously. Copying from any 2-track source to all recorders may be  
done by patching the source outputs into L7 and R8.  
We have assumed you have a HiFi amp available to enable a variety of secondary sources to be condensed  
into the XTRN (external) input for easy monitoring selection via the HiFi amp’s input selector switch, if you  
want to record from any of these sources, best patch direct from the individual outputs (17 to 22) rather than  
the HiFi amp mix (15 and 16) for the cleanest result. (The exception being vinyl, which will need to use the HiFi  
amp’s RIAA pre-amp to present the mixer with a flat response signal).  
Fig. 8.2: Wiring for bay 8 (for advanced wiring scheme refer to section 11)  
8.3 Looming problems  
Loom wiring is an art in itself, and it is worth taking time out to get it right. First, it is important to avoid earth  
loops. (A looped wire acts as an arial, picking up electromagnetic radiation.) Think of a tree: Every part of that  
tree is connected to every other part, but only by one route. That’s how the total earth picture for your entire  
studio should look. Don’t take the earth off your power cable plug to reduce audible 50 Hz mains hum (or its  
harmonics). Rather you should be looking at disconnecting the signal screen somewhere.  
You could do worse than ensure that all screens are commoned at the patchbay in which case all unearthed  
equipment would pick up earth from this point via a single screen (more than 1 route = an earth loop), while  
mains-earthed equipment would have all screens cut at the equipment end.  
+
Some quality equipment has an independent signal and mains earth. In this case, at least one  
and possibly all screens should carry earth to the equipment. Sometimes the only way to find  
out is “suck and see”.  
Take care to ensure that using the patchbay does not disturb the studio’s earth architecture. Always use short  
as possible patch leads with the screen connected at both ends.  
If you’re really serious about hum levels, you could run balanced lines wherever appropriate. The earth wiring  
scheme would be the same as before. By shorting the ring to the barrel for all balanced jack sockets  
connected to unbalanced equipment, you could use balanced patch leads throughout. (There is no percentage  
in wiring a balanced output to a balanced input with a mono patch cord!) (See section 12 “(UN)BALANCED  
LINES”.)  
Having designed mains hum out of the system, make up your cable looms from the patchbays outwards, and  
use cable ties, flexible sheaths, multicores etc. to keep the back of your racks tidy. It’s going to get very busy  
in there, and loose cables will inevitably mean lost signals. Possibly even lost equipment!  
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9. EQUALIZATION  
The variable parameters of the channel A and B equalizers on the EURODESK MX9000 are described in  
sections 3.4 and 3.7.  
Few people buying the EURODESK will need to be told how an equalizer works. But how to get the best out of  
it? Well, that’s another story.  
In the beginning EQ was an instrument for removing unwanted frequencies, or compensating for imperfect  
microphone response curves, or bumps in a studio’s acoustic. It was a corrective device. Tamla Motown  
turned that notion upside down in the sixties with the novel idea that you try to find for each instrument a  
characteristic frequency not shared by the other instruments in the mix. Then you whack up it’s gain. This  
makes individual voices punch through a mix in a slightly unnatural but exciting way. In general, corrective EQ  
usually involves broadband (slope) contouring, together with narrowband notching of unwanted resonances.  
The narrower the notch or “Q”, the less the total signal will be affected.  
+
Finding bad resonances is made easier by first frequency sweeping in boost mode.  
“Motown” EQ is achieved by applying boost in a fairly broadband way. The broader the band, the more  
musical but less instrument-specific the effect. Applying boost over a narrow bandwidth will sound “Honky”.  
The two semi-parametric bands of the EURODESK EQ have had their Q fixed at 1, a typical and sensible  
value. For sounds which require drastic corrective EQ (remember no MIDI instrument should need it), it is  
advisable to have a couple of channels of fully comprehensive equalization in your rack. (You can always  
bounce tracks though the outboard EQ, freeing up the unit for the next task). Check out our BEHRINGER  
ULTRA-CURVE PRO DSP8024, which promises to be another price/performance buster.  
The EURODESK EQ might be applied to a signal as follows: First, trim the LF and HF shelves to achieve the  
required slope or “LOUDNESS”. (These controls mirror the tone controls of a typical HiFi amp.) Now use one  
parametric band to boost the nicest frequency, and another to cut the nastiest. Over all channels in the mix, if  
too many of the nicest frequencies coincide, then you might have to settle for second best in some cases!  
Often you might want to boost two nice frequencies. Really nasty frequencies will need notching. Time to go  
outboard.  
Why does the upper mid bell frequency go up to 20 kHz? A more pertinent question might be, why has it  
taken so long to get there? After all, even 16 bit (the lowest acceptable quality) digital audio sports a 20k  
bandwidth: surely if 20k is important then so is controlling it. OK. You and I will never hear a pure 20k sine  
tone. However, Rupert Neve, the audiophile Guru, would argue that when it comes to real instruments, what  
happens even above 20k may have a perceptible effect on the listener. It seems that one reason why high-  
quality (1/2" at 30 IPS) analog tape sounds better than DAT to many discerning ears is because, although it’s  
frequency response begins to roll off at 12 dB/octave somewhere around 15 to 20 kHz, it is not abruptly cut  
off at 20!  
We have heard, or “detected”, a 20+ kHz low pass filter being switched in and out when monitoring an analog  
master tape through a speaker system that included piezo-electric tweeter elements capable of reproducing  
up to 40 kHz. Perhaps less controversially it can be shown that if cut/boost is applied at 20 kHz, a significant  
portion of the resulting EQ curve for all but the tightest of Q’s actually occurs in the audible spectrum, below  
16 to 18 kHz. For example if the BEHRINGER EQ is boosted by +15 dB at 20 kHz, the amount of boost at  
10 kHz will be 3 dB. The resulting EQ curve will bear no relation to one where 3 dB of boost is applied at 10  
kHz.  
+
+
A good vocal signal can be enhanced by applying a significant boost in the 15 k region or  
higher, above the nasty sibilance region. Especially effective if you’ve got a de-esser post EQ.  
Use the LF cut to tighten up channels in a mix: maybe remove it only for the bass, kick drum,  
toms, tablas, didgeridu and other deliberate subsonics. (When recording classical music ignore  
this advice).  
+
With an LF cut at 100 Hz and a lo sheelf boost at 80 to 160 Hz, you have pretty much got a peak  
response rather than shelving at the bottom.  
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+
+
Look at the extraordinary width of the frequency sweep of the upper mid EQ -300 Hz all the  
way up. Set to maximum boost and play about with the frequency in real time. I bet you’II get  
some stunning filter sweeps. Try it on drumloops – great for dance music!  
You can cascade channel EQs by connecting the DIRECT OUT (see section 7 “CONNECTIONS”)  
of one channel into the LINE or TAPE INPUT of another. The first channel should first be un-  
routed to all buses, including L/R and aux sends. The second channel then becomes the  
“control” channel, routing to the buses. You now have a 23 channel mixer, but one channel  
has a 4-band (semi)-parametric plus 30 dB of shelving swing!  
+
+
Remember EQ contouring can be done with CUT as well as BOOST. E.g.: cutting away the top  
and bottom, then pushing up the gain is equivalent to MID-RANGE BOOST! EQ is NOT a 1-way  
street!  
Always re-set a channel’s input gain after altering the amount of EQ cut or boost applied (see 3.3).  
10. GAIN OPTIMIZATION  
PFL (Pre-Fader-Listening) is the way to set a desk level. Setting up the channel input gain is discussed in the  
essential section 13. Optimum master aux send levels will be dependent on the sensitivity of the FX device  
being driven, but unity gain is a useful starting point. As the mix progresses, more and more channels are  
likely to be sending to effects via the aux buses, and it’s best to PFL all sends (aux, subgroup, MIX-B) just  
before setting up for the final mix.  
Outboard reverbs etc. should all be made to work hard. There’s no point in having an 85 dB dynamic range if  
the input meter of your reverb is barely flickering. On the other hand, digital distortion is not one of the nicer  
noises around. Fortunately you can SOLO the FX returns. Here you’ll have to rely on your ears to detect  
digital distortion, since different outboard processors calibrate their meters differently, and their dynamic  
range is not sufficient to allow, say, 15 dB of headroom (as is the case with DAT etc.). The PFL/SOLO meter,  
on the other hand, looks only at the desk’s analog aux input level, if you hear distortion, but the meter says  
you’re just hitting 0 dB, then it must be coming from the aux send amp or the FX unit. If PFL on the aux send  
reveals nothing amiss, turn down the input on the FX unit, and turn up the desk’s aux return.  
+
+
99 times out of 100 distortion in the aux send > FX > aux return loop will come from the FX unit  
(FX GAIN TOO HIGH), and the same goes for a high noise level (FX GAIN TOO LOW).  
Noisy FX (or synth) returns can be greatly improved by the addition of single-ended noise  
reduction between FX output and aux (or channel) returns. The BEHRINGER DENOISERS are  
ideally suited for this purpose.  
+
+
We found out that using analog single ended noise reduction can help warm the sound of  
certain digital reverbs which sound too cold/metallic, and also give that “Echoplex” sound to  
digital delay decays.  
Analog multitrack tape should be driven quite hard, since its dynamic range (without noise  
reduction) is likely to be 20 to 30 dB worse than other elements in the recording chain. Try to  
record bright. You can always mix back duller. Brightening up an off-tape signal will bring up  
the level of tape noise.  
+
When mixing or recording, keep the channel FADER levels around or below 0 dB. If you do find  
the faders creeping up or down, apply a suitable offset over all channel faders, and try to  
control your bad habit in future!  
34  
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11. IMPEDANCES AND TUNING  
Electronic inputs tend to have impedances measured in tens of kiloOhms. Outputs, on the other hand, are  
generally two or three orders of magnitude less. This is just as well, otherwise a signal at an output might find  
that the line of least resistance is the limit of the preceding unit.  
In the patchbay section I recommended that you parallel the MAIN MIX output of the EURODESK MX9000  
into all 2-track recording inputs. It would not do any harm to buffer each output from the primary one (i.e. that  
feeding into your most expensive DAT recorder or 1/2" mastering machine) with a 470 Ohm resistor. Cassette,  
DAT and reel to reel recorders’ input impedances should be similar, but just in case they aren’t, it is better to  
add a fraction of a dB of thermal noise to the inputs of the secondary recorders in the shape of a resistor, rather  
than having an unusually low impedance input grabbing most of the signal. Another neat idea is to parallel the  
Monitor L/R output via a 47 kOhm resistor pair. Now you can safely connect e.g. a tuner to either extra hole,  
without shifting the stereo image (this would happen if a low impedance tuner input was connected directly  
across one side of the monitor output). Now, whenever you monitor an instrument’s input level with the PFL/  
SOLO function, you can check it’s tuning also. That should impress the customers. Especially those using  
old, unstable, but very desirable analog synths.  
Fig. 11.1: Resistor-buffered parallel wiring for bay 8 (see section 8 “The patchfield”)  
12. (UN)BALANCED LINES  
Balanced inputs and outputs are offered on most audio connections on the EURODESK MX9000 (inserts and  
direct outs being the major exceptions).  
Why? Though all audio cables (except speaker cables) have earthed screens, the shielding they afford from  
the electromagnetic garbage that permeates the atmosphere is never perfect. The balanced line is a simple  
but effective mechanism to overcome this problem. Instead of one insulated audio conductor, two, usually  
twisted together, are contained within a single screen. One conductor, wired to pin 2 of an XLR-type connector  
by international convention (after decades of total confusion!) carries a signal variously referred to as “hot” or  
“positive”. Pin 3 is wired to the “cold” or “negative” conductor.  
What does this mean? Consider an unbalanced line. Now, that’s much easier to understand. You have one  
“hot” or “positive” core, and an earthed screen. The “hot” wire’s waveform, if looked at on an oscilloscope,  
would be directly correlated to the audio signal waveform. If you looked closely at the trace, you‘d see  
random noise along the X axis. What you probably wouldn’t see, however, is any superposition of 50, 100 Hz,  
etc. corresponding to mains hum interference, since these frequencies would be tangled up in the audio  
signal (to spot them visually you’d need to perform a FOURIER TRANSFORM). AC mains frequency and its  
overtones are picked up by any wire, and some will always leak through a cable screen. The question is, when  
does it become audible?  
35  
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Well, all other things being equal, the amount of mains hum picked up by a cable is independent of the signal  
level. Speaker lines run 50 or more volts, enough to diminish the effect of mains radiation to vanishingly small  
even with no screen. (In fact, at these voltages another effect comes into play: capacitive resistance. It is  
positively undesirable to use screened cable to wire an amp to a speaker. Speaker leads should be as thick  
and short as possible, with XLR or wound post terminals.) Line-level signals can usually be run unbalanced  
over short or moderate distances (rack to desk etc.), but NOT from the back of the hall to the stage, always  
provided that there are no earth loops (see section 8.3 “Looming Problems” A loop acts as an ariel, positively  
inviting electromagnetic radiation to flow around the system). Microphone lines, however, are another story  
altogether.  
Most microphones generate not volts, but millivolts. Protecting such a low level signal requires a more  
sophisticated solution. Hence, all mic networks run along balanced lines. It works like this. The mic diaphragm  
moves forwards and backwards according to the air pressure increases and decreases that constitute sound  
waves. Diaphragm movement generates a corresponding electrical signal, which is either positive or negative  
depending on the direction of travel. The +ve and -ve signals are mirror images of each other: if you shorted  
+ and - you’d end up with nothing: one would cancel out the other. In fact this cancelling effect is what makes  
the balanced line work. Instead of simply shorting the negative line to earth, as would be the case in an  
unbalanced system (losing half the signal, or 6 dB, in the process), the two lines are kept apart until they  
reach an electronic (or transformer) balanced input.  
Here something exquisitely simple happens:  
You may not know this, but whenever a signal is amplified, its polarity is reversed. By inverting the negative  
side and adding it 1:1 to an unchanged positive, a balanced input wastes none of the available signal energy.  
In doing so, it also subtracts all the radiation picked up along the line. Random noise is unaffected, but you’ll  
hear no hum, and much reduced thyristor noise (from poorly-screened lighting dimmers). Live, you could not  
run a rig without balanced mic lines, and although in the studio cable runs are shorter, the recorded medium’s  
demand on signal to noise is far greater.  
When patching a balanced input/output to an unbalanced one, simply short the -ve and screen together at the  
unbalanced input or output.  
Fig. 12.1: A balanced microphone line  
13. START-UP  
13.1 A-channel setting up procedure  
13.1.1Selecting inputs  
MICROPHONE:  
LINE:  
MIC/LINE switch (S1) UP,PAD switch (S1a) UP,  
MIC/LINE switch DOWN,  
FLIP switch (S3) UP  
FLIP switch UP  
TAPE:  
FLIP switch DOWN  
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13.1.2Initializing channel for gain-setting  
1) Set GAIN (P2) and all aux sends (P12,13,14 and 15) to OFF (fully counterclockwise).  
2) EQ switch (S10) UP (off).  
3) LOW CUT switch (S11) ON for microphones, OFF for signals with desired low frequency content.  
4) CHANNEL MODE set to PFL (S95 UP).  
5) Channel PFL/SOLO (S26) switch UP (L26 off).  
6) Check that main PFL/SOLO LED (L95) is not lit.  
7) Channel PFL/SOLO switch (S26) DOWN (L26 and L95 should light).  
13.1.3Auditioning a signal  
1) Make a typical noise, or roll the tape. The -20 dB light should flicker, showing that a signal is present.  
There should also be some activity at the MAIN MIX bargraph meters, indicating the SOLOed level.  
2) For LINE INPUTS: Adjust GAIN control (P2) until transient peaks are regularly hitting 0 dB.  
3) For MIC INPUTS: If your meters are reading 0 dB although the GAIN control is completely turned  
counterclockwise, push the PAD switch (S1a) to lower the input signal by 20 dB before you continue the  
gain adjustment.  
4) TAPE inputs do not pass through the GAIN pot (P2). This is why it is important to match the operating level  
of the desk (-10 dBV or +4 dBu) to that of your machine. If the signal is low (due to incorrect operating  
level setting or too low a level having been recorded to tape), try the -10 dBV setting. If too high, try  
+4 dBu. If neither gives a good level, try patching the tape track output into a line input and repeat steps  
13.1.1 and 13.1.2.  
5) lf EQ is used, repeat steps 13.1.1 & 13.1.2.  
6) If an insert is used to patch in a compressor, gate, EQ, etc., use any outboard processor’s BYPASS or  
EFFECT OFF switch to A/B monitor the effect. Adjust the processor’s output level so that effected and  
bypassed signals are level matched.  
7) Channel PFL/SOLO switch (S26) UP. Move onto next channel.  
13.2 Desk/tape setting up procedures  
13.2.1Desk normalization  
All board settings should be set to the normal default condition before or after every session. Usually faders  
are set to zero (minus infinity), EQs set flat and switched out, trimpots and channel aux sends turned fully  
anticlockwise etc. The natural initial setting for some pots, e.g. master aux sends, is unity gain. However,  
some settings, such as selecting PRE or POST for channel aux sends and whether TAPE or MIC/LINE is  
flipped onto B-channel etc. will depend on the operating environment, whether in a MIDI or A/V suite, 24-track  
studio or live venue, or even just on the engineer’s preferred way of working. Ultimately, the object of the  
excercise is:  
13.2.2Multitrack initialization  
Set up the multitrack so that any track in “record ready” condition has its input monitored when the tape is  
stationary. Place all tracks to be recorded into “record ready” status (once a recording has been made, these  
tracks should automatically switch to tape playback). Check that the input levels to each TRACK are optimized  
before recording commences.  
13.2.3Recording levels  
When recording to digital, it’s a good idea to keep the recorder’s PEAK READING meters below 0 dB. Engage  
“peak hold” on your recorder if you want to confirm that you haven’t inadvertently overstepped the mark during  
a take or mix. Most digital recorders (though not SAMPLERS) read 0 dB with some headroom left. This is  
because, unlike with analog, the onset of digital distortion is as sudden as it is horrible, and the manufacturers  
37  
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of digital recorders don’t want you to hear this! If you really want to take your recording level to the limit (and  
fully exploit digital’s 96 dB dynamic range), you’ll have some calibrating to do. You could run a tone at 0 dB  
from the mixer, and use that as your DAT or digital multitrack recorder reference. But your DAT or digital  
multitrack recorder may still be 10 to 20 dB off its headroom limit. Probably a better way to work out just how  
hard you can drive your recorder is to incrementally increase the record level until it well distorts, subtract, say  
6 dB, and never ever exceed that level.  
When recording to analog, the tape machine’s VU meters should show around +3dB on BASS, but only  
around -10 dB for HI HAT. Although analog distortion is more like compression at modest overload levels  
(often desirable on bottom end), higher frequencies cause saturation even at modest levels (an unpleasant  
“crunchiness”). Also, VU meters tend to progressively under-read above 1 kHz, due to their sluggish response  
time.  
13.2.4Auditioning a mix  
In order to be heard other than when PFL/SOLO-ed, channels must be routed to the main mix bus. This can  
be either from the channel routing matrix directly, via one of the subgroups, or from the MIX-B bus (S48  
DOWN).  
Channels going to tape are usually monitored via the tape return channel, whether A or B. In this case the  
main mix button of the channel going to tape should be UP, while that coming back should be DOWN (if on an  
A-channel). Tape tracks returning on B-channels will always be heard so long as the MIX-B/MAIN MIX switch  
(S48) is depressed.  
Some to-tape channels will have no routing other than a direct out patch into the recorder, others may be  
routed through subgroups. When a subgroup is sending to tape, the subgroup L/R assignment buttons (S37,  
38) should be UP. I.e. that subgroup should not feed into the main mix bus directly.  
13.2.5Mixer mapping  
When laying out channels for recording or mixing, try to be sensible. Keep tom-toms together, etc. Work out  
a scheme that suits you and stick to it, e.g. I always started with kick drum, snare, hi-hat, tom-toms (as the  
audience sees them), cymbals (ditto), bass, guitars, keyboards, other instruments, vocals. From session to  
session I knew what was where without hardly ever having to look at a tracksheet.  
14. 8-TRACK MIDI SUITE/DANCE PRODUCTION STUDIO  
8-track MIDI studio with sampler, 8-track recording system, one vocal microphone and an array of synthesizers  
and FX. MIDI sequencer driven. A typical dance production suite.  
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14.1 Sends  
Fig. 14.1: Send routing  
In a dance production, effects are often of paramount importance in creating interesting/evolving sounds, and  
aux sends are usually all dedicated to this purpose. Also, it is not unusual for a vocalist to be drafted in to add  
some colour to the mix at a late stage. The following set-ups avoid using aux sends for headphone monitoring,  
while enabling both the vocalist and engineer to get a comfortable headphone mix.  
14.2 Auxless headphones mix  
The vocalist will probably want to hear her-/himseif above the normal mix level. With the following headphone  
sources you can do this without tying up any aux sends or MIX-B. Passing the DIRECT OUT through any 1 in  
2 out delay/reverb device enables the vocalist to choose an effect she/he is comfortable singing along with.  
Fig. 14.2: Simple auxless headphones mix  
Here the MIC CHANNEL FADER controls the amount of extra voice blended into the main mix. Adjust the  
FADER level first until the vocalist is happy, then set the level to tape with the SUBGROUP FADER(S).  
Alternatively:  
Split the microphone onto two channels and use one to feed the routing matrix while the other drives the  
EXTERNAL input via its direct out. Now you have totally indepedent monitoring and tape send levels for the  
vocal signal.  
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Fig. 14.3: Slightly more complicated auxless headphones mix  
Alternatively:  
If you need to hear the harmonies, but they’re putting the vocalist off key, you’ll want to be able to delete  
channels from the headphone mix. If you still don’t want to assign a couple of aux buses to headphones  
monitoring because this would disturb the main mix, the following suggestion might prove useful. Set up a  
separate channel assignment on a spare subgroup pair. Feed the output into aux return 3. Route aux return 3  
to headphones 1 (S 55) and de-assign the main mix (S77). Now you can delete distracting channels from the  
vocalist’s backing track mix (see fig. 14.4).  
Fig. 14.4: Subgroup-driven auxless headphones mix  
This configuration does not allow for anything coming in on B-channels to be sent to headphones. If you need  
to do this, S76 must also be depressed.  
+
+
In all cases the WET/DRY balance of the extra vocal signal takes place within the FX processor.  
The above example refers to aux 3 return > headphones 1. An analogous situation is possible  
for aux 4/5/6 return > headphones 1 or 2.  
14.3 Returns  
Channels 1 to 8: When you’ve only got eight tape returns, you can afford to bring them back on main  
channels to enable e.g. chorus vocal comps. or recorded real-time mixing effects such as frequency sweeping  
to be quickly bounced or sampled off via subgroups.  
Channels 9 to 23: The most important SYNTH/SAMPLER outputs. Those most likely to need full EQ or to be  
recorded to tape. You might have one Minimoog, but half-a-dozen uses for it. Put it on an A-channel.  
You’ll want to record and/or sample it in action.  
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Channel 24 is of course the MIC input. A compressor might be patched into the channel 24 insert. Keep this  
channel free until the mix absolutely demands its services, just in case you want to add in any last minute  
singing, or any last minute anything!  
The B-channel line inputs (tape returns) can accomodate even more MIDI expanders and synths, etc.  
14.4 Lining up record/sample inputs  
Set the relevant TAPE OUTPUT and INPUT switches (located at the rear of the console) to match the operating  
level of your 8-track (consult manual, “phone manufacturer”, or simply “suck & see” to find which setting  
works best). The sampler’s variable input gain range should be more than wide enough to accept either  
-10 dBV or +4 dBu. There is no oscillator in the EURODESK MX9000, but you can use a simple unmodulated  
sustained tone from a keyboard. Choose one around 1 kHz (B above middle C is 997 or 1002 Hz depending  
on whether you are using the tempered scale or “just” tuning: either way it’s close enough for jazz). Set the  
channel EQ to OFF, and line up the channel according to the “Setting up procedure” (section 13.1). Route  
this signal to all subgroups and adjust the SUBGROUP OUTPUT FADERS until the bargraph meters read  
0 dB. Now put the recorder into INPUT mode on all channels, and the sampler into SAMPLE mode. If the tape  
operating level switches are correctly set, then 0 dB on the subgroup output meters should also show 0 dB on  
the tape recorder’s input meters. A discrepancy of +/-14 dB indicates a wrong operating level selection.  
Small discrepancies may be taken up by the SUBGROUP FADERs, though a better solution would be to get  
the multitrack, properly aligned. (Refer to multitrack manual and/or qualified personnel.) Adjust the sampler’s  
input level until it also reads 0 dB.  
+
Beware of inaccurate/uncalibrated sampler input meters. Work out how hard you can safely  
drive the sampler’s input, reference this to 0 dB on a EURODESK subgroup meter, then take  
note of the sampler’s input gain pot setting. (Or use soft adhesive tape etc. to hold it in one  
position.)  
(For more info on digital metering and associated problems see section 13.2.3.)  
14.5 Mixdown  
The situation here is no different from record, really, save that the subgroups may now be routed directly to  
the main mix (L/R) bus (S35 to 38) for easier mixing. Remember, you started off with the tape returns coming  
up on A-channels 1 to 8, therefore there is no need to “flip” them. You will probably (definitely) be running lots  
of MIDI sequencer tracks live. Take care not to encourage MIDI delays (see section 22 “SEQUENCING  
LIVE”).  
15. 16-TRACK RECORDING WITH 2 SAMPLERS  
15.1 Recording  
Subgroup outputs/tape sends 1 to 16 should be wired to the multitrack record inputs 1 to 16. Sampler inputs  
should be connected to subgroup outs 5, 6, 7 and 8 via custom-made Y-adaptors. Lining up is as per the  
previous example (see section 14.3). When choosing which outputs where to assign, you have to consider that  
you have got maybe 16 tape and 16 or 20 sampler outputs to accommodate onto 24 A-channels (and 24 B-  
channels)! We’d suggest all audio tape tracks be returned on A-Channels, while at least one stereo output from  
a sampler is also brought back on a pair of A-channels for “flying in” (a sampler can pick up e.g. chorus vocal  
and drop it into all choruses, or sample a particularly nifty bit of flanging on a drum loop etc.; then lay the  
effected loop back to tape, without re-patching). Most other sampler outputs and MIDI keyboards which need  
to be heard but not recorded can be assigned to B-channels. The remaining six or so A-channels may then be  
used for overdubs.  
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15.2 Headphones  
While auxless headphone monitoring (see section 14.2) is still an option (and a pretty good one), a small  
general purpose studio might require a more straightforward way of working using one or two discrete  
headphone mixes. Here, it would be best to keep aux sends 1 and 2 free for monitoring purposes until mixdown  
time.  
Aux returns 3/4/5//6 can be routed directly to headphones 1 and/or 2. A good idea would be to drive HP1 from  
a combination of aux return 3 (S55) and MIX-B (S76), while HP2 picked up its signal from aux return 4 (S69)  
and MIX-B (S88). Channel auxes 3 and 4 would be routed to A-channels. In this configuration a reasonable  
degree of balancing between the MIX-B and aux 3/4 level into the cans is possible by adjusting P55/68 (minus  
infinity to +15 dB).  
+
With the headphone configuration shown below, there is no easy way to get FX returns into  
the cans. Bring these back on A or B channels instead, until mixdown time.  
Fig. 15.1: Headphones  
15.3 Mixdown  
With 24 A-channels and up to 36 significant tape and sampler tracks to accommodate, some thought will need  
to be given to mixdown assignments. Tracks which need little EQ and no access to the main track reverbs/  
echoes on auxes 1 and 2 may be parked on B-channels. Lead tracks and prominent rhythm/melodic voices  
should be placed onto A-channels. Remember that auxes 3/4/5/6 can be dedicated either to A or  
B-channels by SOURCE switch S17.  
16. PROFESSIONAL 24-TRACK STUDIO  
16.1 Recording  
Chances are you’ll occasionally want to record more than eight tracks at once, e.g. you’re recording a band  
playing together live. The following example covers a rock band with drums, bass, two guitars, percussionist,  
brass section, lead and backing vocals. In the real world, you’ll hardly ever be taking all these artists at once,  
but if you are:  
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Channels  
Source  
Kick  
Route  
Destination  
Track 2  
1
2
Direct out  
Direct out  
Direct out  
Snare  
Track 3  
3
Hi Hat  
Track 4  
4
Tom 1  
Subgroups 5 and 6 Tracks 5 and 6  
Subgroups 5 and 6 Tracks 5 and 6  
Subgroups 5 and 6 Tracks 5 and 6  
Subgroups 5 and 6 Tracks 5 and 6  
5
Tom 2  
6
Tom 3  
7
Tom 4  
8
Cymbals (overheads) L  
Cymbals (overheads) R  
Bass microphone  
Bass DI  
Direct out  
Direct out  
Track 7  
Track 8  
9
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
Subgroup 3  
Subgroup 3  
Subgroup 4  
Track 1  
Track 1  
Escaping prisoners  
Trumpet  
Who knows?  
Subgroups 1 and 2 Tracks 9 and 10  
Subgroups 1 and 2 Tracks 9 and 10  
Subgroups 1 and 2 Tracks 9 and 10  
Subgroups 7 and 8 Tracks 11 and 12  
Subgroups 7 and 8 Tracks 11 and 12  
Subgroups 7 and 8 Tracks 11 and 12  
Trombone  
Sax  
BVs 1  
BVs 2  
BVs 3  
Conga L  
Direct out  
Direct out  
Direct out  
Direct out  
Direct out  
Track 13  
Track 14  
Track 15  
Track 16  
Track 17  
Conga R  
Guitar 1 microphone  
Guitar 2 microphone  
Lead vocal  
Tab. 16.1: Channel assignment  
Tape Monitoring will be via MIX-B in tape return mode. Once tracks are layed, they will be flipped onto the  
A-channels (1 to 17), and overdubbing can commence via tracks 18 to 24. Also “bouncing”, reducing several  
tracks onto one or a stereo pair, requires access to the full routing matrix. This is available to the A-channels,  
but not the B-channels.  
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16.2 Very tricky headphones  
In a multi-musician scenario you’ll probably want as many different headphones mixes as you can muster.  
With the current channel/group/track assignments it is possible to set up four independent, or semi-independent,  
headphone feeds while still keeping back auxes 3/4/5/6 for “wet” monitoring (see 16.3).  
Subgroup 7 => aux return 3 => headphones 1  
Main mix (and)/or MIX-B => headphones 1  
Active switches: S55/(S82, S77)/S76  
Subgroup 8 => aux return 4 => headphones 2  
Main mix (and)/or MIX-B => headphones 2  
Active switches: S69/(S82, S89)/S88  
See also fig. 14.4 “Subgroup driven auxless headphones mix” and associated text.  
In the above configuration HP1 and HP2 comprise a blend of the main mix, MIX-B and an additional feed from  
a subgroup. The subgroup feed can be used to select which channel(s) should be boosted in the cans relative  
to the main mixes.  
+
Choose to send to subgroups 7 and 8 from channels which are routed to tape from their  
DIRECT OUT. Otherwise CHANNEL PAN, which will already have been set for recording via  
another group, is unlikely to be pointing to where you want the cue signal to go. Aux sends 1  
and 2 are available as two separate mono headphone feeds, or as a single stereo headphone  
feed. You’ll need an extra stereo amplifier to amplify the aux 1 and 2 outputs to drive headphones  
properly.  
Overdubbing:  
It’s all change. Flip the recorded music onto A-channels, in order to feed from tape into all the headphones  
buses.  
Alternatively:  
(and probably much more sensibly): use the headphones routine outlined in section 15.2 (fig. 15.1).  
16.3 Wet monitoring  
It is customary with live recording to lay tracks dry. (Not so with MIDI setups: often a tape track is used to  
record a complex effect. In a MIDI studio a take is generally MIDI sequencer driven, and hence reproducible  
should the recorded effected track eventually prove to be unsuitable, in live recording, a great take is irreplaceable!  
Hence the extra caution when laying live tracks.) With dry recording you will probably want to audition tape  
tracks with some reverb and/or echo, to get a better idea of how the final mix might sound. By pressing the AUX  
3/4/5/6 SOURCE switch (S17), aux buses 3 and 4 are available to the B-channels, i.e. tape monitoring. You  
could send to reverb from input channels, but the FX would disappear on tape playback. Bring the FX back on  
aux returns 1, 2, 5 or 6. Remember 3 and 4 have been used for headphones patching.  
16.4 Mixdown  
All aux sends and subgroups are now available for mixing, as are A-channels 23 and 24.  
+
If you have two different instruments recorded onto one track, the mixdown settings for each  
might be totally different. Set up two A-channels. One for each instrument, and switch between  
them.  
The B-channels may be used e.g. as FX returns in place of the normal aux returns (the advantage being that  
these channels have PAN and EQ) or as an extra stereo aux send.  
17. LIVE P.A. WITH 2-TRACK RECORDING  
In this example we'll use the aux sends 1 and 2 for stage foldback, and 3/4/5/6 for front-of-house effects. The  
P.A. is driven from the main mix. MIX-B will be used to set up the mix to DAT.  
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Channels  
Source  
Kick  
FOH  
FX  
Wedges / monitoring  
1
2
Subgroups 1 and 2 / MIX-B  
Subgroups 1 and 2 / MIX-B  
Subgroups 1 and 2 / MIX-B  
Subgroups 1 and 2 / MIX-B  
Subgroups 1 and 2 / MIX-B  
Subgroups 1 and 2 / MIX-B  
Subgroups 1 and 2 / MIX-B  
-
Aux send 1 and 2  
Snare  
Hi Hat  
Tom 1  
Tom 2  
Tom 3  
Tom 4  
Aux send 4  
Aux send 1 and 2  
3
-
Aux send 1 and 2  
4
Aux send 4  
-
5
Aux send 4  
-
6
Aux send 4  
-
7
Aux send 4  
-
8
Cymbals (overheads) Subgroups 1 and 2 / MIX-B  
-
-
9
Keyboards L  
Keyboards R  
Bass DI  
Subgroups 3 and 4 / MIX-B  
Subgroups 3 and 4 / MIX-B  
Main mix / MIX-B  
-
Aux send 1 and 2  
Aux send 1 and 2  
Aux send 1 and 2  
Aux send 2  
Aux send 2  
Aux send 2  
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
-
-
Trumpet  
Subgroups 5 and 6 / MIX-B  
Subgroups 5 and 6 / MIX-B  
Subgroups 5 and 6 / MIX-B  
Aux send 5  
Aux send 5  
Aux send 5  
Trombone  
Sax  
BVs 1  
Subgroups 7 and 8 / MIX-B Aux send 5 and 6 Aux send 1 and 2  
Subgroups 7 and 8 / MIX-B Aux send 5 and 6 Aux send 1 and 2  
Subgroups 7 and 8 / MIX-B Aux send 5 and 6 Aux send 1 and 2  
BVs 2  
BVs 3  
Conga L  
Main mix / MIX-B  
Main mix / MIX-B  
Main mix / MIX-B  
Main mix / MIX-B  
Main mix / MIX-B  
Main mix / MIX-B  
Main mix / MIX-B  
-
-
-
-
Aux send 2  
Aux send 2  
Conga R  
Guitar 1 microphone  
Guitar 2 microphone  
Lead vocal  
FX 1 L  
Aux send 1 and 2  
Aux send 1 and 2  
Aux send 5 and 6 Aux send 1 and 2  
-
-
-
-
FX 1 R  
Tab. 17.1: Channel assignments 2-track  
Every B-channel has its own LEVEL, PAN and HIGH and LOW EQ. MIX-B in fact is acting here like a totally  
independent separate mixer, albeit with fewer facilities than the main mix. The primary stereo reverb/echo  
unit's outputs have been patched into A-channels rather than an aux return, to enable them to be sent to the  
MAIN MIX and MIX-B independently.  
+
+
S48 is UP, i.e. MIX-B is NOT blended into the main mix.  
Bringing the DAT back on aux 1 return P49 (as opposed to the 2-track or external inputs)  
enables not only auditioning of DAT playback, but also balancing playback level against the  
main mix, in case you also want to use it to play a pre-recorded intro tape to set the scene for  
the coming performance.  
+
Be sure to have aux return 1 turned all the way down or de-assigned when recording to DAT.  
Otherwise expect massive and terminal (as far as the P.A. and gig are concerned) howlround.  
45  
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18. LIVE CONCERT WITH 24-TRACK RECORDING  
Stereo (quadraphonic) P.A. with sidefills, three infills, two wedge mixes, four FX and simultaneous 24-track  
recording.  
Channels  
Source  
Kick  
Tape route  
Direct out  
Direct out  
Direct out  
Destination  
Track 1  
1
2
Snare  
Track 2  
3
Hi Hat  
Track 3  
4
Tom 1  
Subgroups 5 and 6 Tracks 5 and 6  
Subgroups 5 and 6 Tracks 5 and 6  
Subgroups 5 and 6 Tracks 5 and 6  
Subgroups 5 and 6 Tracks 5 and 6  
5
Tom 2  
6
Tom 3  
7
Tom 4  
8
Cymbals (overheads)  
Keyboards L  
Keyboards R  
Bass DI  
Direct out  
Direct out  
Direct out  
Direct out  
Direct out  
Direct out  
Direct out  
Direct out  
Direct out  
Direct out  
Direct out  
Direct out  
Direct out  
Direct out  
Direct out  
(Send = aux 3)  
(Send = aux 3)  
Track 4  
Track 7  
9
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
Track 8  
Track 9  
Trumpet  
Track 10  
Track 11  
Track 12  
Track 13  
Track 14  
Track 15  
Track 16  
Track 17  
Track 18  
Track 19  
Track 20  
Track 21  
Track 22  
Trombone  
Sax  
BVs 1  
BVs 2  
BVs 3  
Conga L  
Conga R  
Guitar 1 microphone  
Guitar 2 microphone  
Lead vocal  
Main echo / reverb return  
Main echo / reverb return  
Tab. 18.1: Channel assignments 24-track (track 24 pre-striped with SMPTE)  
None of the tape tracks can be auditioned in this configuration. The channel fader controls the level to tape,  
MIX-B adjusts the P.A. level.  
The channel inserts (which are pre fader), may be used as virtual direct outs. Hopefully you will be able to set  
the input gains (P2) to suit the multitrack on any channel that does not have a massive EQ (i.e. energy) swing  
away from 0 dB. The consequent lack of any desk EQ on your tape tracks might even be an advantage when  
it comes to remixing the concert back in the studio.  
Using this setup, you can even change the P.A. to a quadrophonic system. Positioning takes place by balancing  
the main mix (channel fader, PANpot P24) against MIX-B (P20, P21).  
46  
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Channels  
Source  
Kick  
F.O.H.  
MIX-B  
MIX-B  
MIX-B  
MIX-B  
MIX-B  
MIX-B  
MIX-B  
FX  
Wedges  
Infills  
1
2
-
-
Subgroups 1/2, 3/4 and 7/8  
Snare  
Hi Hat  
Tom 1  
Tom 2  
Tom 3  
Tom 4  
Aux send 4  
Aux send 1 and 2  
Subgroups 1/2 and 3/4  
3
-
-
-
-
-
-
-
-
-
-
-
-
-
Subgroups 1/2 and 3/4  
4
Aux send 4  
-
5
Aux send 4  
-
6
Aux send 4  
-
7
Aux send 4  
-
8
Cymbals (overheads) MIX-B  
-
-
9
Keyboards L  
Keyboards R  
Bass DI  
Trumpet  
Trombone  
Sax  
MIX-B  
MIX-B  
MIX-B  
MIX-B  
MIX-B  
MIX-B  
-
Subgroup 12  
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
-
Subgroup 12  
-
Subgroups 1/2, 3/4 and 7/8  
Aux send 5  
Aux send 5  
Aux send 5  
-
-
-
BVs 1  
MIX-B Aux send 5 and 6 Aux send 1 and 2  
MIX-B Aux send 5 and 6 Aux send 1 and 2  
MIX-B Aux send 5 and 6 Aux send 1 and 2  
-
BVs 2  
-
BVs 3  
-
Conga L  
Conga R  
MIX-B  
MIX-B  
-
-
-
-
-
Subgroups 1/2, 3/4 and 7/8  
-
Subgroups 1/2, 3/4 and 7/8  
Guitar 1 microphone MIX-B  
Guitar 2 microphone MIX-B  
-
Subgroups 3 and 4  
-
Subgroups 3 and 4  
Lead vocal  
FX 1 L  
MIX-B Aux send 5 and 6  
Aux send 1  
Aux send 1  
Aux send 1  
-
-
-
MIX-B  
MIX-B  
-
-
FX 1 R  
Tab. 18.2: Front/rear/stage monitors routing  
For front of house route all channels to the MIX-B bus > main mix. For live P.A. effects use auxes 3/4/5/6. For  
wedge monitors use aux 1 and 2 in pre mode > aux 1and 2 output. For sidefills use phones 1 output. For infill  
for guitarist, keyboard player and drummer use subgroups 1/2, 3/4 and 7/8.  
+
+
No subgrouping is used as a mixing aid to the FOH mix.  
Infill sends use up one group pair each as a consequence of the routing matrix being dependent  
on the channel PANpot (P24).  
+
+
All channels should be set for: aux 1/2: PRE (S13 DOWN) > WEDGES; aux 3/4/5/6: POST  
(S16 UP) > FX; MIX-B SOURCE = CHANNEL (S23 DOWN); FLIP = Mic/Line SIGNAL (S3 UP)  
In a quadrophonic setup MIX-B should be kept separate from the main mix (S48 UP).  
OK: This example has been extreme. Chances are if you were touring with the sort of PA / multitrack described  
above you'd also have a massive FOH console, separate foldback mixer, and a rider that would make Bill  
Graham blanche. None of the applications examples are designed to be used as a BLUEPRINT. Rather, they  
should give you some idea of the scope and flexibility of your EURODESK MX9000. Use your imagination to  
find novel ways of solving problems and creating extra facilities.  
47  
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19. EXPANDING THE EURODESK MX9000  
19.1 Connections  
The EXPANDER PORT is input only, and provides access to all but the PFL/SOLO buses. Since the nominal  
internal operating level of your EURODESK MX9000 is 0 dB, and that at the jack outputs +4 dB, the sends  
from the outputs of console 2 must be attenuated by +4 dB if unity gain between it and the primary console is  
to be maintained. Wiring is as follows:  
EURODESK 2  
Subgroup outputs 1 to 8  
>
>
-4 dB  
-4 dB  
>
>
EURODESK 1  
EXPANDER PORT subgroup inputs 1 to 8  
Aux outputs 1 to 6  
Main mix output  
MIX-B output  
>
>
>
-4 dB  
-4 dB  
-4 dB  
>
>
>
EXPANDER PORT aux inputs 1 to 6  
EXPANDER PORT main mix inputs  
EXPANDER PORT MIX-B input  
Another manufacturer’s desk  
Subgroup outputs 1 to 8  
>
>
-X dB  
-X dB  
>
>
EURODESK 1  
EXPANDER PORT subgroup inputs 1 to 8  
Aux outputs 1 to 6  
Main mix output  
MIX-B output  
>
>
>
-X dB  
-X dB  
-X dB  
>
>
>
EXPANDER PORT aux inputs 1 to 6  
EXPANDER PORT main mix inputs  
EXPANDER PORT MIX-B input  
19.2 Alignment  
To find out the value of “X” align the consoles in the following way. Patch a 1 kHz sine tone (or play a sustained  
B above middle C on a keyboard) into a channel on each console. Set up each console so that the signal  
produces unity gain (0 dB) at every output (use each console's PFL or equivalent function to do this). Now,  
connect the outputs of the second console into the EURODESK EXPANDER PORT. Mute the channel on the  
EURODESK carrying the signal, and look at the EURODESK outputs. Systematically adjust the reading on  
each bus until they all read 0 dB by adjusting the master send levels of console 2 (i.e.: master aux send  
controls, main mix master faders, subgroup faders, etc.).  
20. TIMECODE  
In analog multitrack recording timecode usually goes down on the edge of the tape: track 8, 16 or 24, with the  
adjacent track left clear (GUARD BAND) to stop bleeding between recorded tracks and code. Digital formats  
do not waste any audio tracks on timecode: a separate sync is provided.  
Ideally, timecode should be patched from the multitrack out directly into the synchronizer input. Normally, a 24  
track tape is striped with timecode before a session commences. Any sequenced music, click track, mix  
automation is then referenced to it.  
Always check sync before laying down any sequenced music: record a click track, then check to see that a  
“live” playback doesn't drift. Timecode comes in various formats. The general rule is: format (and make/  
model) of timecode generator must be matched to the reader. This shouldn't be a problem if recording and  
mixing take place in-house and under one roof. It's when tapes move around that problems arise (be sure to  
include every conceivable technical detail on a tracksheet accompanying the master tape). Fortunately, there  
are ways to generate fresh in-sync timecode even where none existed in the first place, otherwise most  
remixes would never happen. You (and I) would rather not have to, though, since it takes time, effort, and an  
intelligent “learning” synchronizer to do it.  
If the gain from the recorder is too low to drive the sync unit,  
1) re-stripe at a higher level or  
2) amplify the recorded timecode somehow, possibly via a desk channel not routed to any of the main buses.  
In this case use the channel's direct out to drive the synchronizer's input, in order to keep the timecode as  
remote as possible from the audio (timecode crosses over like nothing else I know).  
48  
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21. BOUNCING  
Sometimes you want to play back from one or more tracks, route the signals to a new track or pair of tracks,  
and re-record. This process is commonly referred to as bouncing. Examples would be when reducing 4 lead  
vocal take tracks down to 1, reducing 4 separate tom-tom tracks down to a stereo pair via noise gates, putting  
a wild effect or EQ onto a dry signal, “comping” backing vocal tracks, etc.  
On an analog tape recorder, bouncing to an adjacent track is to be avoided. A feedback loop can be set up,  
since for all overdubs or bounces you will be using the same (sync) head for both playback and record.  
Organize your track layout so that any bounces you might have to do are always over at least one track.  
There are no restrictions when using digital multitracks.  
22. SEQUENCING “LIVE”  
“Live” sequencing is a term used when a sequencer is driving MIDI instruments in a mixdown. Many re-mixers  
do not like to do this for several reasons.  
1. It may be a problem re-assembling all the hardware/software used if a re-mix is required once the MIDI  
equipment has left the studio.  
2. It is easier to send 2 x 24 track tapes around the world than a truckload of gear.  
3. MIDI timing problems mean that a tape master can sound tighter: MIDI sequencer tracks are laid one at a  
time, usually in sequencer SOLO mode, to reduce MIDI congestion to a minimum.  
However:  
Laying to linear tape has its drawbacks. Apart from the sheer cost of hiring a 24/48 track studio, what  
happens if you want to change a song's structure half-way through?  
Non-linear devices are still expensive, and far the cheapest way to keep the arrangement flexible is to employ  
a sequencer. MIDI is slow, but you can get around this by following these basic rules.  
1. TRACK STACK RULE  
MIDI sequencer tracks read from the top, therefore put the most timing specific tracks at the top. Start with  
rhythmic loops, then voices with fast transients like percussion etc.  
2. MIDI SPREAD RULE  
Spread MIDI data as thinly as possibly for fastest response times. There are two ways to do this. First, have as  
many MIDI ports as your computer will allow, and spread the MIDI activity as evenly as possible among them.  
Secondly, try to have as few MIDI notes as possible playing simultaneously, e.g. advance slow attack tracks,  
put little silence onto the front of samples etc.  
“Live” sequence mixing is most suitable for enthusiasts who have all their own hardware permanently set up in  
one location. When a mix has been cracked, the elements can then be laid to multitrack for re-mixing, should  
the need arise.  
49  
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23. INPUT/OUTPUT CONFIGURATION  
Nominal level  
Balanced  
-
Attenuation  
EURODESK internal  
XLR microphone input  
Line A input  
+4 dBu  
-
-
Yes  
Yes  
Yes  
No  
Trimpot / PAD switch  
+4 dBu  
Trimpot  
Gain switch  
Pot  
Line B / tape input  
Aux sends  
+4 dBu / -10 dBV  
+4 dBu  
Aux returns  
0 dBu  
No  
Pot  
MIX-B output  
+4 dBu  
No  
Pot  
Subgroup output  
Main mix 1/4" jack  
Main mix XLR  
+4 dBu / -10 dBV  
+4 dBu  
Yes  
No  
Gain switch  
Fader  
Fader  
Fader  
No  
+4 dBu (max. +28 dBu)  
+4 dBu  
Yes  
No  
2-track out RCA  
2-track in 1/4" jack / RCA  
External input  
+4 dBu  
No  
+4 dBu  
No  
No  
Channel insert out  
Channel insert in  
Channel direct out  
Subgroup insert out  
Subgroup insert in  
Main mix insert out  
Main mix insert in  
Control room out  
Studio out  
+4 dBu  
No  
No  
+4 dBu  
No  
No  
+4 dBu  
No  
Fader  
No  
0 dBu  
No  
0 dBu  
No  
No  
0 dBu  
No  
No  
0 dBu  
No  
No  
+4 dBu  
No  
Pot  
+4 dBu  
No  
Pot  
Meter / analyzer out  
+4 dBu  
No  
No  
Fig. 23.1: Input/output configuration  
The EXPANDER PORT inputs have a nominal level of -2 dBu (subgroup/mix) and +2 dBu (aux).  
+
+
All variable gain circuits offer +15 dB (except aux returns, which offer +20 dB).  
All balanced jack sockets are automatically unbalanced when using an unbalanced jack patch  
lead!  
24. MODIFICATIONS  
+
+
+
These modifications require you to do some soldering. Attempt only if you are experienced in  
using an iron on PCBs. Otherwise, refer to qualified personnel. After modification the warranty  
becomes discretionary.  
Excuse us for repeating ourselves once again: BEHRINGER is not responsible for anything  
what happens after you start disassembling your EURODESK MX9000. Don't even think of it, if  
you make much of your warranty privileges.  
Links should not be threaded into holes on the PCB. They should be soldered to the tinned  
areas around the holes, and bowed slightly upwards in between.  
50  
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24.1 Aux sends > post EQ  
All channel aux sends are post mute and pre fader. If you want to convert these to post EQ, carry out the  
following modification to each channel. You will find a corresponding printing on the PCB (see fig. 24.1).  
1. Disconnect power supply.  
2. Cut the “post mute” track.  
3. Add in a “post EQ” link.  
4. Repeat for all channels you want to be modified.  
Fig. 24.1: Modifications aux send > post EQ  
24.2 MIX-B source > post fader  
That's it. You've decided to use the MIX-B as a stereo aux send to FX rather than a separate stereo feed. You  
can move the tap from the A-channel from pre to post the channel fader as follows. Again, look for the printing  
on the PCB shown below.  
1. Disconnect power supply.  
2. Cut the “pre” track.  
3. Add in a “post” link.  
4. Repeat for all channels you want to be modified.  
Fig. 24.2: Modifications MIX-B source > post fader  
24.3 LED meters > pre fader  
In channel mode the meterbridge monitors the DIRECT OUT signal (post EQ, post mute and post fader). You  
would prefer to see what's going on pre mute and pre fader? Once you found the corresponding printing on  
the PCB, all you have do is:  
1. Disconnect power supply.  
2. Cut the “line out” track.  
3. Add in a “pre fade” link.  
4. Repeat for all channels you want to be modified.  
Fig. 24.3: Modifications LED meters > pre fader  
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25. SPECIFICATIONS  
Main channel strip  
Mic input  
electronically balanced, discrete input configuration  
-129.0 dBu, 150 Ohms source  
-117.3 dBqp, 150 Ohms source  
-132.0 dBu, input shorted  
Mic E.I.N. (22 Hz to 22 kHz)  
-122.0 dBqp, input shorted  
0.007 % at +4 dBu, 1 kHz, bandwidth 80 kHz  
+10 dB to +50 dB  
Distortion (THD & N)  
Gain range  
Max. input  
Line input  
+12 dBu (+32 dBu @ PAD)  
electronically balanced  
Gain range  
Max. input  
unity to +40 dB (-20 to +20 dB @PAD)  
+22 dBu  
Channel fader range  
Aux send gain range  
+10 dB to -85 dB / off  
off to unity to +15 dB  
Equalization  
Hi shelving  
12 kHz, +/- 15 dB  
Hi mid sweep  
Lo mid sweep  
Lo shelving  
300 Hz to 20 kHz, +/- 15 dB  
50 Hz to 3 kHz, +/- 15 dB  
80 Hz, +/- 15 dB  
Lo cut (HPF)  
75 Hz, 12 dB/oct.  
Channel direct out  
Max. output  
+ 22 dBu  
Noise @unity gain  
Output impedance  
Tape returns  
-94 dBu  
120 Ohms  
bal./unbal. 1/4" jacks, globally switchable from +4 dBu to -10 dBV  
Channel insert  
Max. in/out  
+22 dBu  
Channel  
to  
channel  
crosstalk-95  
dB  
@
1 Hz  
k
Mix B channel strip  
Gain range  
Hi shelving  
off to unity to +15 dB  
12 kHz, +/- 15 dB  
80 Hz, +/- 15 dB  
Lo shelving  
Subgroup section  
Noise  
bus noise @ fader 0 dB:  
-102.5 dBr (ref. +4 dBu)  
-92.5 dBr (ref. +4 dBu, 24 chs. assigned (input B) & set @ unity gain)  
-94.5 dBr (ref. +4 dBu, 16 chs. assigned (input B) & set @ unity gain)  
Submaster output max. out  
Submaster insert max. out  
Submaster insert max. in  
Fader range  
+22 dBu balanced/unbalanced  
+22 dBu  
+22 dBu  
+10 dB to -85 dB / off  
Main mix section  
Noise  
bus noise @ fader 0 dB:  
-101.0 dBr (ref. +4 dBu)  
-92.5 dBr (ref. +4 dBu, 24 chs. assigned (input B) & set @ unity gain)  
-94.5 dBr (ref. +4 dBu, 16 chs. assigned (input B) & set @ unity gain)  
+28 dBu balanced XLR, +22 dBu unbalanced 1/4" jacks  
Max. output  
52  
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Aux returns gain range  
Aux sends max. out  
General  
off to unity to + 20 dB  
+22 dBu  
Distortion (THD & N)  
0.007 %, @ +4 dBu, 1 kHz, bandwidth 80 kHz  
below 0.02 %, 22 Hz to 22 kHz at normal operating levels, any input  
to any output, bandwidth 80 kHz  
Frequency response  
20 Hz to 40 kHz, +/- 1 dB any input to any output  
10 Hz to 120 kHz, +/- 3 dB  
-102.5 dBr (ref. +4 dBu)  
-92.5 dBr (ref. +4 dBu, 24 chs. assigned (input B) & set @ unity gain)  
-94.5 dBr (ref. +4 dBu, 16 chs. assigned (input B) & set @ unity gain)  
Power supply  
External power supply  
400 Watts, 19" (482.6 mm), 2.5 rack units, approx. 7 kg  
Dimensions/weight  
Dimensions (H * W * D)  
Weight  
approx. 3.54/9.45" (90/240 mm) * 37" (940 mm) * 29.5" (750 mm)  
approx. 30 kg (without PSU)  
BEHRINGER is constantly striving to maintain the highest professional standards. As a result of these efforts, modifications may be  
made from time to time to existing products without prior notice. Specifications and appearance may differ from those listed or  
illustrated.  
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26. WARRANTY  
§ 1 WARRANTY CARD/ONLINE REGISTRATION  
To be protected by the extended warranty, the buyer must  
complete and return the enclosed warranty card within 14 days  
of the date of purchase to BEHRINGER Spezielle Studiotechnik  
GmbH, in accordance with the conditions stipulated in § 3. Failure  
to return the card in due time (date as per postmark) will void any  
extended warranty claims.  
3. Free inspections and maintenance/repair work are expressly  
excluded from this warranty, in particular, if caused by improper  
handling of the product by the user.  
This also applies to defects caused by normal wear and tear, in  
particular, of faders, potentiometers, keys/buttons and similar  
parts.  
Based on the conditions herein, the buyer may also choose to  
use the online registration option via the Internet  
4. Damages/defects caused by the following conditions are not  
covered by this warranty:  
s misuse, neglect or failure to operate the unit in compliance  
with the instructions given in BEHRINGER user or service  
manuals.  
§ 2 WARRANTY  
1. BEHRINGER (BEHRINGER Spezielle Studiotechnik GmbH  
including all BEHRINGER subsidiaries listed on the enclosed page,  
except BEHRINGER Japan) warrants the mechanical and  
electronic components of this product to be free of defects in  
material and workmanship for a period of one (1) year from the  
original date of purchase, in accordance with the warranty  
regulations described below. If the product shows any defects  
within the specified warranty period that are not due to normal  
wear and tear and/or improper handling by the user, BEHRINGER  
shall, at its sole discretion, either repair or replace the product.  
s connection or operation of the unit in any way that does not  
comply with the technical or safety regulations applicable in  
the country where the product is used.  
s damages/defects caused by force majeure or any other  
condition that is beyond the control of BEHRINGER.  
5. Any repair or opening of the unit carried out by unauthorized  
personnel (user included) will void the warranty.  
6. If an inspection of the product by BEHRINGER shows that the  
defect in question is not covered by the warranty, the inspection  
costs are payable by the customer.  
2. If the warranty claim proves to be justified, the product will be  
returned to the user freight prepaid.  
3. Warranty claims other than those indicated above are expressly  
excluded.  
7. Products which do not meet the terms of this warranty will be  
repaired exclusively at the buyer’s expense. BEHRINGER will  
inform the buyer of any such circumstance. If the buyer fails to  
submit a written repair order within 6 weeks after notification,  
BEHRINGER will return the unit C.O.D. with a separate invoice  
for freight and packing. Such costs will also be invoiced  
separately when the buyer has sent in a written repair order.  
§ 3 RETURN AUTHORIZATION NUMBER  
1. To obtain warranty service, the buyer (or his authorized dealer)  
must call BEHRINGER (see enclosed list) during normal business  
hours BEFORE returning the product. All inquiries must be  
accompanied by a description of the problem. BEHRINGER will  
then issue a return authorization number.  
§ 5 WARRANTY TRANSFERABILITY  
2. Subsequently, the product must be returned in its original  
shipping carton, together with the return authorization number to  
the address indicated by BEHRINGER.  
This warranty is extended exclusively to the original buyer  
(customer of retail dealer) and is not transferable to anyone  
who may subsequently purchase this product. No other person  
(retail dealer, etc.) shall be entitled to give any warranty promise  
on behalf of BEHRINGER.  
3. Shipments without freight prepaid will not be accepted.  
§ 4 WARRANTY REGULATIONS  
§ 6 CLAIM FOR DAMAGES  
1. Warranty services will be furnished only if the product is  
accompanied by a copy of the original retail dealer’s invoice.  
Any product deemed eligible for repair or replacement by  
BEHRINGER under the terms of this warranty will be repaired or  
replaced within 30 days of receipt of the product at BEHRINGER.  
Failure of BEHRINGER to provide proper warranty service shall  
not entitle the buyer to claim (consequential) damages. In no  
event shall the liability of BEHRINGER exceed the invoiced value  
of the product.  
§ 7 OTHER WARRANTY RIGHTS AND NATIONAL LAW  
2. If the product needs to be modified or adapted in order to  
comply with applicable technical or safety standards on a national  
or local level, in any country which is not the country for which  
the product was originally developed and manufactured, this  
modification/adaptation shall not be considered a defect in  
materials or workmanship. The warranty does not cover any  
such modification/adaptation, irrespective of whether it was  
carried out properly or not. Under the terms of this warranty,  
BEHRINGER shall not be held responsible for any cost resulting  
from such a modification/adaptation.  
1. This warranty does not exclude or limit the buyer’s statutory  
rights provided by national law, in particular, any such rights  
against the seller that arise from a legally effective purchase  
contract.  
2. The warranty regulations mentioned herein are applicable  
unless they constitute an infringement of national warranty law.  
* Customers in the European Union please contact BEHRINGER  
Germany Support for further details.  
The information contained in this manual is subject to change without notice. No part of this manual may be reproduced or  
transmitted in any form or by any means, electronic or mechanical, including photocopying and recording of any kind, for any  
purpose, without the express written permission of BEHRINGER Spezielle Studiotechnik GmbH.  
BEHRINGER, EURODESK and ULTRA-CURVE are registered trademarks.ALL RIGHTS RESERVED.  
© 2002 BEHRINGER Spezielle Studiotechnik GmbH.  
BEHRINGER Spezielle Studiotechnik GmbH, Hanns-Martin-Schleyer-Str. 36-38, 47877 Willich-Münchheide II, Germany  
Tel. +49 (0) 21 54 / 92 06-0, Fax +49 (0) 21 54 / 92 06-30  
54  
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