EAW MX250 Owner's manual

Brand: EAW

Model: MX250

Category: Processors

Type: Owner's manual

MX250 OWNER’S MANUAL

The MX250 Close-Coupled Electronic Processor™ (CCEP) is a two-channel,two-way electronic crossover designed for

use in both ﬁxed installations and touring sound systems.It is factory-conﬁgured for use with speciﬁc EAW loudspeaker

systems.This ensures optimum system performance and relieves the end user from the burden of conﬁguration.

This design continues EAW’s commitment to the primary importance of total system design in controlling a

loudspeaker’s ability to maximize its outputs within your application.

Features Overview

The MX250 CCEP™ incorporates a unique combination of features and design innovations that set it apart from conventional crossover

networks and permit its precise adjustment for a particular EAW speaker system.EAW Engineering completed all the guesswork that you would

normally perform with a conventional crossover in an attempt to attain the optimum parameters for each speaker system.

NON-COINCIDENT FILTERS

When necessary,the MX250 CCEP incorporates a non-coincident ﬁlter system.This means that the high-frequency and low-frequency ﬁlters

aren’t restricted to the same corner frequency—contributing to the system’s overall superior acoustic performance.The ﬁlter types for both

high frequencies and low frequencies are 24 dB-per-octave Linkwitz-Riley.Careful analysis of the MX250’s electrical performance and the loud-

speaker’s acoustical performance remain key elements in the close coupling of the crossover to a particular speaker system.The end result of

the close coupling process corrects acoustic response at the crossover frequency rather than depending on an “idealized”electrical response.

Optimum crossover frequencies and ﬁlter shapes for each speaker system conﬁguration have been determined,and incorporated at the

factory as the MX250 CCEP’s presets.The label on the rear of the unit conﬁrms the conﬁguration.

Technical Description

OPERATIONAL SUMMARY

The MX250 CCEP functions as a stereo two-way crossover or as a stereo two-way crossover with additional summed monaural low and high

outputs.EAW presets the MX250 as part of the conﬁguration process.Unlike most outboard crossover devices,we optimize this device for a

particular combination of EAW subwoofers and full-range speakers or for bi-amping speciﬁc EAW full-range systems.The conﬁguration of

your unit is labeled on the back of the MX250 CCEP chassis.

The crossover ﬁlters use 4th order Linkwitz-Riley alignments,which yield a 24 dB per octave slope.By measuring the actual acoustical output

of the various combinations of EAW speakers,EAW’s Engineering department has calculated the optimal crossover frequencies for each

conﬁguration.Your MX250 CCEP has been preset at the factory using separate high-pass and low-pass ﬁlter modules.The summed output

conﬁguration is also preset at the factory.

If you wish to reconﬁgure your MX250 CCEP for a different speaker system contact the EAW Service Department at 800-992-5013

(508-234-6158),fax 508-234-3376.The MX250 CCEP is not intended to be modiﬁed in the ﬁeld.

ENCLOSURE

The steel chassis of the MX250 CCEP is designed and built to withstand the abuse and jostling of portable and mobile applications while

ensuring reliable operation.The chassis is one rack-space tall (1.75 in.; 44.5 mm) and has a depth of 8.16 in. (207.3 mm).

The inputs and outputs are 3-pin XLR connectors on the rear panel of the chassis;two females for the inputs,and six males for the outputs.

AC POWER

The MX250 CCEP has a universal power supply compatible with virtually any AC power source throughout the world today.An internal switch

sets the power supply for either 95-130 VAC (50-60 Hz) or 190-260 VAC (50-60 Hz) operation.A label on the rear of the MX250 indicates the

factory voltage setting.

The AC power line cord attaches to the MX250 CCEP chassis via an IEC-230 connector on the rear panel.Check and insure the AC line cord

mains cable and voltage setting are correct for the power source.An incorrect voltage switch setting could cause severe damage to the unit.

The power switch on the front panel switches the AC on and off.No current ﬂows when this switch is in the “off”position. A power LED on the

front panel conﬁrms that the unit is correctly powered up.

C ONNECTING THE MX250 CCEP

Care should be taken to ensure that pin #3 of the MX250 input XLR is always connected.If connected to a balanced (differential) signal source,

pin #3 should be connected to the negative (i.e., inverting or “-”) signal line.If driven by an unbalanced (single-ended) source,pin #3 must be

tied to ground in order to avoid a signiﬁcant loss in signal.The following diagram illustrates one example of how this is done.

INPUT SIGNAL CONNECTION

Input signal connections are through the female XLRs.The MX250’s inputs have actively-balanced differential ampliﬁers.Whenever possible,

use the inputs in a balanced conﬁguration.This helps minimize hum and noise pickup from the input signal cables by maximizing the

common-mode rejection (canceling voltages common to both the + and - input terminals).

The input XLRs are wired as follows:

2+ non-inverting input

3- inverting input

1ground

All XLR connectors are wired pin 2 hot (positive).The input impedance of the MX250 CCEP is 20 kΩbalanced, 10 kΩor greater unbalanced.

OUTPUT SIGNAL CONNECTION

Output signal connections are through the male XLRs.The MX250 has actively-balanced differential output ampliﬁers.

The outputs are wired as follows:

2 signal +

3 signal -

1ground

INTERNAL SERVICING

There are no user-serviceable parts inside the MX250 CCEP.The ﬁlter modules,presets,trims,etc., should not be changed,adjusted,or modiﬁed

by anyone other than an EAW authorized service engineer.The settings within the unit are the results of careful testing and are not designed to

be modiﬁed in the ﬁeld.Tampering with them will probably result in audibly inferior performance.It will also void your warranty.POTENTIALLY

LETHAL VOLTAGES ARE PRESENT INSIDE THE MX250,THEREFORE SERVICING SHOULD BE LEFT TO QUALIFIED TECHNICIANS.

-9

-12

-1 +1

-2 +2

-3 +3

+12

-6

-9

-12

-1 +1

-2 +2

-3 +3

+12

-6

-9

-12

-1 +1

-2 +2

-3 +3

+12

-1 +1

-2 +2

-3 +3

-6 +6

-9 +9

-12 +12

Power

High

(High)

Mid

(None)

Low

(Low)

High

(High)

Mid

(None)

Low

(Low)

High

(High)

Mid

(None)

Low

(Low)

CX300

(MX250)

-1 +1

-2 +2

-3 +3

-6 +6

-9 +9

-12 +12

-6

-9

-12

-1 +1

-2 +2

-3 +3

+12

-6

-9

-12

-1 +1

-2 +2

-3 +3

+12

-6

-9

-12

-1 +1

-2 +2

-3 +3

+12

-6

-9

-12

-1 +1

-2 +2

-3 +3

+12

Right Outputs

(Right Outputs)

Left Outputs

(Left Outputs)

Center Outputs

(Right/Left Summed)

(-)(+)

Inputs

Left Right

Left Outputs Summed Outputs Right Outputs

Low High

One Main Street, Whitinsville, MA 01588

CAUTION

RISK OF ELECTRIC SHOCK

DO NOT OPEN

Low High

120VAC

50-60Hz

12W

PUSH

SIGNAL

GND

PIN #2

PIN #3

PIN #1

Practical Considerations

PHYSICAL

The case of the MX250 CCEP is fully enclosed to prevent the entry of foreign material and to shield the internal circuitry from most outside

electromagnetic ﬁelds.To prevent the circuitry’s picking up hum from inadequately shielded transformers, mount the MX250 CCEP at least two

inches from any power ampliﬁer.Computer monitors,motorized devices,and some other gear may emit strong hum or electromagnetic ﬁelds

also, so exhibit care when mounting the MX250 CCEP near them.

Convection currents from power ampliﬁers and other such heat-producing equipment could cause the MX250 CCEP to run hotter than it

should,perhaps eventually causing premature failure of the electronic components and/or power supply.Make sure there is adequate

ventilation in the equipment rack – use fans if there is any concern.

ENVIRONMENTAL

As with all electronic equipment,avoid using the MX250 CCEP in damp or excessively humid conditions.In outdoor applications,protect the

unit from rain and precipitation or any other dampness.If some mishap causes the unit to get wet or damp,dry it out thoroughly before using

it again.

CLEANING

You can clean the exterior of the MX250 CCEP with a slightly damp cloth.Use a small amount of mild detergent or cleaning ﬂuid if necessary.

Do not use petroleum spirits,thinners,or other solvent cleaners – they might seriously damage the ﬁnish.

SPECIFICATIONS:

Inputs Two;active balanced

Input Impedance > 20k Ohms

Max.Input Level +22dBu

Outputs Six;active balanced

Output Source Impedance 200 Ohms

Output Min.Load 600 Ohms

Output Max.Level +26dBu into 600 Ohm load

Frequency Resp. +/- 0.5dB 20Hz - 20kHz

Noise < -90dBu,20Hz - 20kHz unwtd

Dynamic Range 110dB

Total Harmonic Distortion < 0.003% 20Hz - 20kHz,0dBu

Gain +/- 12dB from unity setting

Gain at Unity Setting 0dB unbalanced out,6dB balanced out within passband

Input Connectors 3-pin female XLR

Output Connectors 3-pin male XLR

Power Connector 3 pin IEC

Power 95-130 VAC,190-260 VAC; 50-60Hz

Power Consumption < 15 watts

Net Weight 8.5 pounds (3.9kg)

Shipping Weight 10 pounds (4.5kg)

Dimensions 1.75 (1U) X 19.00 X 8.16 inches (44 X 483 X 207mm)

System Sensitivities

For the Direct Radiating Sub conﬁguration a default gain adjustment of +5dB on the sub output is factory preset. For

the Horn Loaded Sub conﬁguration a default gain adjustment of 0 dB is factory preset.Ampliﬁer gains,environment,

and personal taste may require the further level adjustment. The following list of sensitivities is for EAW products com-

monly used with the MX250.Use this reference to ﬁne tune your particular combination of sub and full range products.

This is easily done by removing the front panel of the MX250 and adjusting the gains to meet your needs.

Full Range

AS300e 98

CP621 101

DC5 97

DC6 95

DS122e 98

DS123e 97

DS153e 98

DS223e 99

FL103 95

FR129z 97

FR153z 97

FR159z 100

FR122e 98

FR152e 98

FR153e 98

FR253e 101

JF50S 91

JF60 90

JF80 93

JF100e 97

JF200e 98

JF260z 97

JF290z 97

JF560z 97

JF590z 97

KF300e 99

L8CX2XO 90

Full Range

LA212 97

LA215 97

LA325 100

LA460 97

LS432 95

LS832 97

MK2164 97

MK2194 97

MK5164 96

MK5194 97

MK8196 95

MS20 88

MS30Ci 90

MS63 95

MS103 95

SM122e 99

SM155e 98

SM200iH 98

SM260iV 98

SM400iH 101

SM500iV 98

UB12Se 89

UB22i 94

UB42 94

UB72 94

UB80 92

UB82 95

Subsytems

BH822e 109

DCS2 107

FR250z 101

KF940 109

LA118 95

LA128 98

LA400 107

SB48e 92

SB120 96

SB150 95

SB180 96

SB250 98

SB330e 96

SB528 99

SB600e 98

SB625P 98

SB750 99

SB850F 99

SB850P 99

SB850R 99

SB1000e 99

SB184C 96

SB185C 96

SB284C 99

SB284CP 99

SUM

Pin Ass ignment

(+)

(-)

Gnd

(+)

(-)

Gnd

Parametric EQ

(RN _09 )

INV

Left Channel

Input

180°

0 °

4th Order Hi-Pass

(RN _07 )

180°

0 °

HIGH

LOW 2 th Order All-Pass

(RN _01 )

4th Order Hi-Pass

With Variable "Q"

(RN _0 3 & RN_0 9 -1)

4th Order Lo-Pass

(RN _08 )

4th Order Lo-Pass

(RN _02 )

(+)

(-)

Gnd

Out+

Out-

Balanced

Outputs

Out+

Out-

(+)

(-)

Gnd

High

Low

Parametric EQ

(RN _09 )

INV

180°

0 °

4th Order Hi-Pass

(RN _07 )

180°

0 °

HIGH

LOW 2 th Order All-Pass

(RN _01 )

4th Order Hi-Pass

With Variable "Q"

(RN _0 3 & RN_0 9 -1)

4th Order Lo-Pass

(RN _08 )

4th Order Lo-Pass

(RN _02 )

Su mmed

Channel Input

(+)

(-)

Gnd

Out+

Out-

Out+

Out-

(+)

(-)

Gnd

High

Low

(+)

(-)

Gnd

Parametric EQ

(RN _09 )

INV

180°

0 °

4th Order Hi-Pass

(RN _07 )

180°

0 °

HIGH

LOW 2 th Order All-Pass

(RN _01 )

4th

With Variable "Q"

(RN _0 3 & RN_0 9 -1)

4th Order Lo-Pass

(RN _08 )

4th Order Lo-Pass

(RN _02 )

(+)

(-)

Gnd

Out+

Out-

Out+

Out-

(+)

(-)

Gnd

High

Low

Lef t/ Right

Summed

Input

MX250 BLOCK DIAGRAM

Right Channel

Input

Left Channel

Outputs

Right Channel

Outputs

Order All-Pass

Summed-Mono

Outputs

J_08

R_02

R_05

R_01

R_03

C_01

C_02

U_09B

C_08

C_09

R_15

R_14

R_13

U_08A

U_09A

U_06A

U_05A

U_05B

C_31

C_26

C_28

C_29

U_06B

U_14A

C_15C_22

RN_09-1

R_20

R_22

R_23

R_21

R_19

U_02B

C_12

C_13

R_18

R_16

R_17

U_03A

C_23

U_04A

U_04B

C_14

U_02A

U_03B

C_11

C_16

C_17

C_19

U_10B

U_10A

R_55

R_54

R_52

RN_09-7

U_14B

R_43

R_44

R_49

R_72

R_71

C_64

C_52

RN_09-6

R_06

C_56

C_66

R_79

R_80

R_51

R_48

R_47

U_16B

R_12

R_64

R_66

R_67

R_07

U_16A

C_04

C_30C_27

R_11 R_10

U_07A

R_38

R_37

R_40

R_39

R_42 R_41

R_36 R_35

C_34

C_32

C_35

C_37

C_06

U_07B

R_09

R_08

U_01B

U_08B

C_07

U_01A

RN_09-3RN_09-5

C_53

C_57

VR_01

R_53

R_56R_57

VR_03

R_65

R_68R_69

J_06

SW3

J_05

U3AR6

C_18

C_10

C_33 C_36

C_71

SW1S1

SW2

RN_09-4

C_05

C_03

RN_09

J5 J3

C_72

C_67

C_68

R_78

R_81

R_70

R_73

D_01

D_02

10S2125A

MX250 CLOSE COUPLED ELECTRONIC PROCESSOR

12/27/99JRD

WHITINSVILLE, MA 01588

ONE MAIN STREET

NONE 11

REV.

DRAWING NO.

SCHEMATIC DIAGRAM

DATE:

OFSHEETSCALE:

APPROVED:

DRAWN:

EASTERN ACOUSTIC WORKS

-A

78652134

ALL CAPACITOR VALUES ARE MICROFARAD

UNLESS OTHERWISE NOTED ALL RESISTORS ARE 5%

RIGHT CHANNEL = "1xx" - CENTER = "2xx" - LEFT = "3xx"

PART NUMBERS WITH NO "_" PREFIX ARE UNIQUE COMPONENTS

THE "_" PART NUMBER PREFIX REFLECTS WHICH CHANNEL IS USED.

NOTES:

FREQUENCY (Hz) TIME (S)

(Pi)Fr

T =

GROUP DELAY

4th ORDER HI-PASS and LO-PASS FILTERS

-9

WHEN C = .001uF

WHEN C = .01uF

-8

(8.9 x 10 )F

R =

ALL-PASS

(Pi)RC

.7071

Fr =

* 14 PIN DIP

RES. NETWORK

-15V TO ALL OPAMPS

+15V TO ALL OPAMPS

6-7

INOUT

IEC 320

ACINLET

120/240

NEUT

GROUND

HOT

POWER

240V120V

10.0k 1%10.0k 1%

ONE OF TWO SHOWN

BALANCED INPUTS (LEFT-RIGHT)

30K

10.0K

10.0K10.0K

10.0K

* RN_02

* RN_01 (3)

* RN_03

****

YEL

1.5K

1.5K .1uF

.1uF

1.5uF

4003

40034003

4003

.1uF

* RN_08

* RN_07

****

47uF

27P

FROM LEFT-CEN-RIGHT INPUT

10K

47u

7915

7815

PARAMETRIC EQ.

-A+A

.01

2.7K RES NET

4.99K

CENTER CHANNEL INPUT SUMMING

CENTER

LEFT & RIGHT SUM

RIGHT

LEFT

INPUT INVERTER

10K

47NP

.1 .1 .1 .1

.001

.001 .001

27p

.01

.01 .01

35V

1000

35V

1000

INPUT

10K

** **

10k

10k 10k

10k

LO IN

HI IN

180

680

4th ORDER HI-PASS

HIGH OUTPUT

LOW OUTPUT

4TH ORDER LO-PASS

4TH ORDER HI-PASS WITH VAR. "Q"

2ND ORDER ALL-PASS

4TH ORDER LO-PASS

100

27p

10k

100

27p

10k

100

1k 1k

* R

27P

27p

10k

10k10k

10k

(NONE)

R-U3B

L-U4A

PN 425011 | 06 00

All data,drawings and speciﬁcations published in this manual are subject to change without notice. EAW assumes no liability for typographical

errors.All the information contained herein has been carefully checked for accuracy.Nevertheless,no warranty whatsoever of product

performance is implied or assumed.

Terms of the EAW Warranty

EAW Professional Active Electronics devices are guaranteed for a period of two years from the date of original purchase against malfunction

due to defects in workmanship and materials.During the warranty period,EAW will remedy all such defects without charge for parts or labor

upon the return of the unit together with its original sales receipt or other proof of purchase to EAW or to an authorized EAW service facility.

This warranty does not extend to damage resulting from improper installation,misuse,neglect or abuse.Defects in or damage to the exterior

appearance of EAW products are speciﬁcally excluded from this warranty. In no event shall EAW be liable for incidental or consequential

damages.Repairs and/or modiﬁcations by other than EAW or its authorized service facilities automatically void this warranty.This warranty

gives you speciﬁc legal rights,and you may also have other rights which vary from state to state.For more information concerning EAW service

and warranty policies,contact EAW.

EAW is the worldwide technological and market leader in the design and manufacture of high-performance,professional loudspeaker systems

Eastern Acoustic Works One Main Street, Whitinsville, MA 01588 800 992 5013 / 508 234 6158 www.eaw.com

EAW MX250 Owner's manual

Brand: EAW

Model: MX250

Category: Processors

Type: Owner's manual

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EAW MX250 Owner's manual

EAW MX250 Owner's manual

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