USER MANUAL
MANUAL DE INSTRUCCIONES
NOTICE D'UTILISATION
DPC7000 D/P
Page is loading ...
3
INSTRUCTION MANUAL
1. IMPORTANT REMARK 04
1.1. Safety Precautions 04
2. INTRODUCTION 04
3. INSTALLATION 07
3.1. Placement and mounting 07
3.2. Hanging the system 07
3.3. Mounting the wheels 08
3.4. Connecting the system 09
3.5. Interconnecting two or more systems 09
4. DIAGRAMS 24
5. TECHNICAL CHARACTERISTICS 26
All numbers subject to variation due to production tolerances. ECLER SA reserves the right to make changes or
improvements in manufacturing or design which may affect specifications.
4
1. IMPORTANT REMARK
Congratulations! You are the owner of a carefully designed and manufactured equipment. We
thank you for having purchased our DPC processed system.
It is VERY IMPORTANT that you read this manual before connecting the unit in order to obtain its
maximum performance.
We recommend our authorised Technical Services whenever any maintenance task should be
needed so that optimum operation shall be achieved.
1.1. Safety Precautions
The DPC is capable of delivering maximum sound pressure levels greater than 150dB SPL at 1
meter. These sound pressure levels can cause permanent damage to human hearing. Protect your
ears when working at high power next to the system.
The DPC is a closed sound system designed to operate exclusively with ECLER amplifiers and the
DP300 digital processor, not only offering a well-balanced sound, but also ensuring perfect operating
safety. Using other components than the specified ones, be it from ECLER or from other manufactures, will
both worsen the system performance and mean a risk of serious damage to your loudspeakers.
The mids-highs enclosures DPC215 should be connected with 4-core cables. DO NOT use
conventional 2-core cabling (see paragraph 3.4)
2. INTRODUCTION
The DPC7000 (DIGITAL PROCESSED CABINET) has been specially designed for fixed or
mobile installations where high sound pressure levels and exceptional audio quality is required. We are
talking about a processed system capable of delivering a maximum SPL level of 150dB/1m.
The system consists of two DPC215D midrange / high frequency enclosures, four DPC118
subwoofer enclosures, the DP300 processor and following amplifiers, according to the version:
DPC7000D DT6800 DT4800 DPA600
DPC7000P* DPA4000T DPA2500T DPA600
The digital loudspeaker processor ECLER DP300, apart from actively dividing the audio
spectrum into three bands, equalizes each of these bands, allows accurate phase correction and delay
on each way. Additional system protection is provided with the use of a built-in compressor/limiter. The
DP300 can be remotely configured via the included software and can be set-up to either suit the D or P
version of the DPC7000. For further information about the DP300 processor, please refer to its specific
user manual.
This process is combined with the anticlip circuits from the high frequencies amplifier DPA600
and the A2SP (Analog Autogain Signal Processor). The A2SP is an Autogain protection and intelligent
anticlip system controlled by an VCA (Voltage Controlled Amplifier) and is included with the DPA2500T
and DPA4000T amplifiers. This anticlip system has different operation levels depending on the transient
signal type.
*In earlier versions PAM6100 / PAM4100 / PAM1100
5
STEP BY STEP THROUGH THE DPC7000
REDUCED DIMENSIONS AND WEIGHT HIGH PERFORMANCE
In the last years, the evolution of professional sound systems has been certainly influenced by
two facts: The reduction of acoustic cabinet size and the ever increasing output power of amplifiers.
Systems are now lighter, smaller and more portable, while the sound quality approaches more and more
that of a Hi-Fi system. Electronics is the key of this advances. The components generally called
"processors" are able to push a sound system to its limits. These intelligent electronic systems,
sometimes contained in the amplifier itself, but in most cases mounted into dedicated processor units,
constantly monitor the systems operating conditions. The result is a total reliability as far as the systems
behaviour is concerned, which is the main obsession when installing professional sound systems.
THREE-WAY SYSTEMS: THE PERFECT SOLUTION
This is the optimal system to achieve faithful voice and music reproduction. It's a fact that the
human ear is more sensible in the central portion of the audible spectrum, which enables us to easily
recognize any kind of irregularity in this frequency range. This justifies the need for a dedicated driver for
the reproduction of the human voice, which ranges from 200 to 1500Hz).
The overall structure of the DPC systems is based on two cabinets: The first one only reproduces
the lowest frequencies below 150Hz, while the second one reproduces both the midrange (from 150Hz
to 1500Hz) and the high frequencies (from 1500Hz to 22kHz).
FOLDED HORN TECHNOLOGY
The design of practical and easily transportable loudspeaker enclosures for the reproduction of
low frequencies using folded horn configuration has always been a challenge for acoustic designers. An
accurate reproduction of very low frequency signals involves very long horn lengths (e.g. 6.9 meters for
50Hz. Folding the horn is the only solution to overcome this physical inconvenience.
The DPC7000 employs a highly effective bass reproduction system based on two complementary
enclosures, which should be placed so that their lateral triangular marks are face to face (see paragraph
3.1.). The DPC118 enclosures employ an incredibly efficient tractix type folded horn design. This
approach permits the use of longer horns which amplify the bass frequencies while keeping the
enclosure size to a minimum and thus making them easily transportable. On the other hand, this
acoustically optimized system guarantees high efficiency and low distortion. The final result is an
enclosure that offers 6dB more per Watt on average than a standard bass-reflex enclosure with two 18’’
drivers. As a consequence, less enclosures and less amplification are necessary for a given installation.
The 18’’ speakers (45.7 cm) mounted on the DPC118 employ a powerful neodymium magnet and
a 100mm voice coil. The speaker is able to withstand maximum excursions up to 20mm and input power
of 1200W AES.
6
DIRECT RADIATION WITH TWIN SYSTEMS
Very high radiation levels can be achieved with this method, which consists of mounting two
identical drivers into the same enclosure. The drivers need to be perfectly matched in their
characteristics, as otherwise unwanted mutual loading may develop. This technique represents a 3dB
radiation increment in comparison to single driver configurations.
Both 15'' (38,1cm) speakers feature 100mm voice coils and withstand maximum excursion up to
4mm. For the high-frequency way, a neodymium motor has been used along with a 2'' ferrofluid voice
coil and a titanium diaphragm coupled to a plastic-moulded antiresonant constant-directivity "phase plug"
diffusor. These pieces are placed between the diaphragm and the horn throat, avoiding cancellation of
certain critical frequencies. The high frequency driver is mounted in d’Appolito configuration, i.e. placed
between the two 15’’ speakers.
ACOUSTIC ENCLOSURES
Wood and construction
If the employed components represent 51% of the success of an acoustic system, the remaining
49% belongs to the acoustic enclosure and its construction. The plywood panels used on the DPC is
very stiff and light. The boxes feature braces which minimize coloration caused by surface vibration.
Constructed with 15mm plywood, the midrange and high-frequency cabinets include a wooden ring
inside the box which snugly fits around the tweeter motor thus reinforcing its subjection and protecting
the diffusor from possible impacts or vibrations. Its trapezoidal shape has a 6° angle on each side. The
low frequency cabinet is built from 18mm birch plywood. Both enclosures feature inset handles to make
transporting and handling easier.
Absorbers
Inside the box, stationary waves can originate and affect the sound purity. One way to minimize
this effect is to use absorbers. DPC cabinets use antiallergic, oncologically inoffensive synthetic fibre
glued onto the inner box walls.
Painting
A new resin-based chemical component provides a high durability treating, being scratch and
bump resistant.
Hardware
The loudspeakers are protected with a foam-covered metal grille (foam on inside), preserving
them from dust and splashings. This assembly is solidly attached to the enclosure with screws. The
midrange and high frequency cabinets feature two adjustable fittings on the top and bottom side which
allow the use of a flying suspension system. (see 3.2)
Preinstalled fittings for mounting most wheel types found on the market. (See paragraph 3.3)
Connection panel with SPEAKON® connectors.
VERSIONS AND ACCESSORIES
Apart from the basic version consisting of acoustic cabinets, amplifiers and the processor unit, a
complementary version is available for upgrading purposes: The DPC7000 PC/DC. The only difference
lies in the fact that this version does not include the DP300 processor, as bigger systems need just one
of these units.
It is also possible to fit all system electronics into a flight case (ref EPC FL). 10m connection
cables are included apart from the internal wiring and connection panel.
7
Other accessories
EPP LINT This interconnection panel for DPCs lets you configure a DPC7000 as a slave (DP300
bypassed) or master device (DP300 working).
EPP AINT 15m multicore cable for interconnecting two EPP LINT or successive units.
3. INSTALLATION
3.1. Placement and mounting
The acoustic characteristics of the room, hall... and the number of
assistants must be taken into account. General rules valid for any case:
Place the acoustic cabinets on solid and firm surfaces. The bass
reinforcement cabinets DPC118 should be paired so that their marks are
face to face (see diagram), ensuring optimal low frequency reproduction.
The Bass enclosures are more efficient when placed directly on the floor in
landscape orientation rather than vertical, elevated or hanged. We
recommend to stack the bass cabinets vertically for a better sound quality.
Be sure that there is not any obstacle between the mid-treble
cabinets and the audience; the high frequencies are extremely directive and
any obstacle represents an attenuation. For a big audience, the higher you
place the mid-treble cabinets, the better sound propagation you will get.
Although all the DPC cabinets protect the loudspeakers with a grille and a
foam do not expose the system to the sun for long periods and avoid the
rain.
3.2. Rigging speaker enclosures
Following general guidelines must be considered:
- Always place acoustic enclosures on solid and firm ground.
- No obstacles should lie between the loudspeakers and the
audience.
- High frequencies, as opposed to low frequencies, tend to be
much more directional and any obstacle in the acoustic wave path
represents attenuation in the frequency response of the system.
The midrange and high frequency cabinets DPC215 feature an
effective flying system consisting in four adjustable tracks, the same
types as used in air cargo equipment (ISO 7166 standard). These
tracks allow flying one or two rows of enclosures, directly hanging the
second row directly from the first one. Four tracks are fitted at the
cabinet walls, two at the top and two at the bottom. These fittings are
additionally fixed to the lateral walls via internal metal braces. The
bottom tracks not only allow hanging additional enclosures, but also
permit a tilt of the system.
8
The enclosure will acquire
different tilt as a function of the
chosen link. Following table shows
the tilt angles for one single
enclosure. It the tilt angle is not steep
enough, tilt it further by using the
bottom rails.
In case two rows are utilized,
we recommend tilting the assembly
from the bottom track.
Each position of the
aeronautic specified cargo restraint
track has a maximum load capacity of
180kg, considering the enclosure is
correctly flown, as shown in the
diagrams.
The tracking system works in
combination with Ecler ADP cargo
restraint double stud and ring. (Adam
Hall Ref. 5740).
The total load capacity of the
structure (track + ring) is limited by
this track and is 180kg per anchor point. (360kg total).
Always make sure that the anchor points are firmly attached to the rail and locked.
3.3. Mounting the wheels
In case the system is to be used
for mobile applications, we recommend
the QRA and WH200 accessories.
The QRA consists of four fittings,
which once attached to the cabinet in the
appropriate locations, allow the quick
assembly and disassembly of the castor
wheels, thus avoiding annoying vibrations
during sound reproduction.
The WH200 is a four-piece castor
wheel set, suitable for the QRA.
1
-
-
-
-
-
-
-
-
-
8
FRONT
FRONT
1 = +5º
8 = -12º
1 = +5º
2 = +2,5º
3 = 0º
4 = -2,5º
5 = -5º
6 = -7,5º
7 = -10º
8 = -12º
9
3.4. Connecting the system
Connection to the acoustic cabinet. This connection must be done with, at least, 3mm cable (we
recommend 6mm). The amplifier output and the acoustic cabinet input connectors are 4 pin SPEAKON
(see diagram A). The mid-treble cabinet will be connected as follows:
Treble + > Pin 2+
Treble - > Pin 2-
Mid + > Pin 1+
Mid - > Pin 1-
The bass reinforcement cabinet only uses pin 1+ and pin 1-.
3.5. Interconnecting two or more systems
With one single DP300 base unit you may interconnect up to 10 DPC7000 PC/DC systems
(complementary unit without processor). You just have to use the Stack outputs found on any amplifier.
These Stack outputs should be connected to identical amplifiers. IMPORTANT
: The successively
interconnected amplifiers must be adjusted with identical settings as the amplifiers which are directly
connected to the DP300.
Another option is to use complete DPC7000 systems configured as master or slaves, depending
on the functional requirements. For that purpose we have designed the EPP LINT and EPC AINT
multicore, which let you interconnect several DPC units, configuring them as master or slave. The
master system will inhibit all the system associated processors. (See diagram B/C)
A set of small switches placed at the left side of the EPP LINT circuit board help you to use one
system for different configurations when stacking systems. It is for instance more convenient to use each
power amplifier rack in mono mode when working with even numbered systems (2, 4, 8…) (see diagram
B).
On the other hand, when working with odd numbered systems (3, 5, 7, 9…), one system would
operate in stereo (MASTER system) and the rest in mono mode (see diagram C).
Following this advice will in both cases minimise cable runs, as each power amplifier rack can be
placed next to the speakers, which is the most recommendable situation.
Page is loading ...
Page is loading ...
Page is loading ...
Page is loading ...
Page is loading ...
Page is loading ...
Page is loading ...
Page is loading ...
Page is loading ...
Page is loading ...
Page is loading ...
Page is loading ...
Page is loading ...
Page is loading ...
24
4. Diagrams
4. Diagramas
4. Schémas
A
CAUTION:
USE EXTERNAL FILTER OR PROCESSOR
made by ecler s.a. barcelona spain
ACTIVE CABINET
STACK OUTPUT
DPC118
LOUDSPEAKER
CABINET
IMPEDANCE: 8
1+ LIVE
1- GND
2+ N.C.
2- N.C.
INPUT
CAUTION:
USE EXTERNAL FILTER OR PROCESSOR
made by ecler s.a. barcelona spain
ACTIVE CABINET
STACK OUTPUT
DPC118
LOUDSPE AKER
CABINET
IMPEDANCE: 8
1+ LIVE
1- GND
2+ N.C.
2- N.C.
INPUT
DPC215
LOUDSPEAKER
CABINET
IMPEDANCE:
LOW 4
HIGH 8
CAUTION: ACTIVE CABINET
USE EXTERNAL FILTER OR PROCESSOR
made by ecler s.a. barcelona spain
INPUT
1+ LOW
1- LOW
2+ HIGH
2- HIGH
DPC215
LOUDSPEAKER
CABINET
IMPEDANCE:
LOW 4
HIGH 8
CAUTION: ACTIVE CABI NET
USE EXTERNAL FILTER OR PROCESSOR
made by ecler s.a. barcelona spain
INPUT
1+ LOW
1- LOW
2+ HIGH
2- HIGH
MAINS INPUT
GND
OFF
GND LINK
ON
BRIDGE
STEREO
INPUT
CHANNEL 2
JACK: TIP=HOT, RING=COLD XLR3: PIN2=HOT, PIN3=COLD
STK OUTPUT
CHANNEL 1 (BRIDGE)
CH1, 2 2
CH1
CH2
1
1
1
1
BRIDGED:
OUTPUT
STK OUTPUTINPUT
CHANNEL 1 (BRIDGE)CHANNEL 2
GND
GND LINK
OFF
INPUT INPUT
BRIDGE
STEREO
MAINS INPUT
STK OUTPUTSTK OUTPUT
PIN2=HOT
PIN1=GND
PIN3=COLD
OUTPU T
CH2 BRIDGED CH1
1+ LIVE 1- GND 2+ N.C. 2- N.C.
CHANNEL 1 (BRIDGE)CHANNEL 2
GND
GND LINK
OFF
INPUT INPUT
BRIDGE
STEREO
MAINS INPUT
STK OUTPUTSTK OUTPUT
PIN2=HOT
PIN1=GND
PIN3=COLD
OUTPU T
CH2 BRIDGED CH1
1+ LIVE 1- GND 2+ N.C. 2- N.C.
Page is loading ...
26
5. TECHNICAL CHARACTERISTICS
5. CARACTERÍSTICAS TÉCNICAS
5. CARACTERISTIQUES TECHNIQUES
DPC7000D DPC7000P
Power (*) 6588W RMS 6380W RMS
Maximum SPL @ 1m 148dB 150dB
Frequency response (-3dB) 50Hz-20kHz 50Hz-20kHz
Radiation angles (H-V) (Treble) 60ºx40º 60ºx40º
Power consumption (max) 7205VA 11715VA
Overall weight (app.) (without flight-case, cables & loudspeakers) 35kg. 78.5kg.
DPC215 DPC118
Dimensions (Height x Width x Depth) 1140x540x455mm 570x750x720mm
Weight 70kg 55.5kg
Remaining characteristics: see individual specifications.
(*)
DPC7000D: Maximum RMS total output power at 0,3% THD, 1kHz & independent from warm up time.
DPC7000P: RMS total output power at 1% THD, 1kHz.
Page is loading ...
28
ECLER Laboratorio de electro-acústica S.A.
Motors 166-168, 08038 Barcelona, Spain
INTERNET http://www.ecler.com E-mail: [email protected]
50.0094.01.02
-
1
-
2
-
3
-
4
-
5
-
6
-
7
-
8
-
9
-
10
-
11
-
12
-
13
-
14
-
15
-
16
-
17
-
18
-
19
-
20
-
21
-
22
-
23
-
24
-
25
-
26
-
27
-
28
Ask a question and I''ll find the answer in the document
Finding information in a document is now easier with AI
in other languages
- français: Ecler DPC7000 Manuel utilisateur
- español: Ecler DPC7000 Manual de usuario
Related papers
Other documents
-
Other BERGEN EXTRA HANGING RAIL User manual
-
Yamaha NS-AP1500 Owner's manual
-
Clarion WH200 User manual
-
AUDAC BASO Series User & Installation Manual
-
Adam Tensor Beta User manual
-
-
MUSICSON DP-H User manual
-
D.A.S. Ceiling series User manual
-
Audiolab MF-15 User manual
-
Palmer FAB5 User manual
