Behringer iNuke NU1000DSP User Manual

User Manual  
iNUKE  
NU6000DSP/NU3000DSP/NU1000DSP  
Ultra-Lightweight, High-Density 6000/3000/1000-Watt Power  
Amplifier with DSP Control and USB Interface  
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iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
9. Do not defeat the safety purpose of the polarized  
UNDERTAKING OR REPRESENTATION. THIS MANUAL  
IS COPYRIGHTED. NO PART OF THIS MANUAL MAY  
BE REPRODUCED OR TRANSMITTED IN ANY FORM  
OR BY ANY MEANS, ELECTRONIC OR MECHANICAL,  
Important Safety  
or grounding-type plug. A polarized plug has two blades  
with one wider than the other. A grounding-type plug  
has two blades and a third grounding prong. The wide  
Instructions  
blade or the third prong are provided for your safety. If the INCLUDING PHOTOCOPYING AND RECORDING OF ANY  
provided plug does not fit into your outlet, consult an  
electrician for replacement of the obsolete outlet.  
KIND, FOR ANY PURPOSE, WITHOUT THE EXPRESS  
WRITTEN PERMISSION OF MUSIC GROUP IP LTD.  
10. Protect the power cord from being walked on or  
pinched particularly at plugs, convenience receptacles,  
and the point where they exit from the apparatus.  
ALL RIGHTS RESERVED.  
© 2012 MUSIC Group IP Ltd.  
Trident Chambers, Wickhams Cay, P.O. Box 146,  
Road Town, Tortola, British Virgin Islands  
Terminals marked with this symbol carry  
electrical current of sufficient magnitude  
to constitute risk of electric shock.  
11. Use only attachments/accessories specified by  
the manufacturer.  
Use only high-quality professional speaker cables with  
¼" TS or twist-locking plugs pre-installed. All other  
installation or modification should be performed only  
by qualified personnel.  
12. Use only with the  
cart, stand, tripod, bracket,  
or table specified by the  
manufacturer, or sold with  
the apparatus. When a cart  
is used, use caution when  
moving the cart/apparatus  
combination to avoid  
LIMITED WARRANTY  
For the applicable warranty terms and conditions  
and additional information regarding MUSIC Group’s  
Limited Warranty, please see complete details online at  
This symbol, wherever it appears,  
alerts you to the presence of uninsulated  
dangerous voltage inside the  
enclosure - voltage that may be sufficient to constitute a  
risk of shock.  
injury from tip-over.  
This symbol, wherever it appears,  
alerts you to important operating and  
maintenance instructions in the  
13. Unplug this apparatus during lightning storms or  
when unused for long periods of time.  
14. Refer all servicing to qualified service personnel.  
Servicing is required when the apparatus has been  
damaged in any way, such as power supply cord or plug  
is damaged, liquid has been spilled or objects have fallen  
into the apparatus, the apparatus has been exposed  
to rain or moisture, does not operate normally, or has  
been dropped.  
accompanying literature. Please read the manual.  
Caution  
To reduce the risk of electric shock, do not  
remove the top cover (or the rear section).  
No user serviceable parts inside. Refer servicing to  
qualified personnel.  
Caution  
To reduce the risk of fire or electric shock,  
do not expose this appliance to rain and  
15. The apparatus shall be connected to a MAINS socket  
outlet with a protective earthing connection.  
16. Where the MAINS plug or an appliance coupler is  
used as the disconnect device, the disconnect device shall  
remain readily operable.  
moisture. The apparatus shall not be exposed to dripping  
or splashing liquids and no objects filled with liquids,  
such as vases, shall be placed on the apparatus.  
Caution  
These service instructions are for use  
by qualified service personnel only.  
To reduce the risk of electric shock do not perform any  
servicing other than that contained in the operation  
instructions. Repairs have to be performed by qualified  
service personnel.  
1. Read these instructions.  
2. Keep these instructions.  
3. Heed all warnings.  
LEGAL DISCLAIMER  
TECHNICAL SPECIFICATIONS AND APPEARANCES  
ARE SUBJECT TO CHANGE WITHOUT NOTICE AND  
ACCURACY IS NOT GUARANTEED. BEHRINGER IS  
PART OF THE MUSIC GROUP (MUSIC-GROUP.COM).  
ALL TRADEMARKS ARE THE PROPERTY OF THEIR  
RESPECTIVE OWNERS. MUSIC GROUP ACCEPTS NO  
LIABILITY FOR ANY LOSS WHICH MAY BE SUFFERED  
BY ANY PERSON WHO RELIES EITHER WHOLLY OR  
IN PART UPON ANY DESCRIPTION, PHOTOGRAPH  
OR STATEMENT CONTAINED HEREIN. COLORS AND  
SPECIFICATIONS MAY VARY FROM ACTUAL PRODUCT.  
MUSIC GROUP PRODUCTS ARE SOLD THROUGH  
AUTHORIZED FULLFILLERS AND RESELLERS ONLY.  
FULLFILLERS AND RESELLERS ARE NOT AGENTS OF  
MUSIC GROUP AND HAVE ABSOLUTELY NO AUTHORITY  
TO BIND MUSIC GROUP BY ANY EXPRESS OR IMPLIED  
4. Follow all instructions.  
5. Do not use this apparatus near water.  
6. Clean only with dry cloth.  
7. Do not block any ventilation openings. Install in  
accordance with the manufacturer’s instructions.  
8. Do not install near any heat sources such as  
radiators, heat registers, stoves, or other apparatus  
(including amplifiers) that produce heat.  
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iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
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(9)  
Front panel control elements  
1. Introduction  
1.1 Before you get started  
Should your BEHRINGER product malfunction, it is our intention to have it  
repaired as quickly as possible. To arrange for warranty service, please contact  
the BEHRINGER retailer from whom the equipment was purchased. Should  
your BEHRINGER dealer not be located in your vicinity, you may directly contact  
one of our subsidiaries. Corresponding contact information is included in the  
original equipment packaging (Global Contact Information/European Contact  
Information). Should your country not be listed, please contact the distributor  
nearest you. A list of distributors can be found in the support area of our website  
(http://behringer.com).  
1.1.1 Shipment  
Your iNUKE amplifier was carefully packed at the factory, and the packaging is  
designed to protect the unit from rough handling. Nevertheless, we recommend  
that you carefully examine the packaging and its contents for any signs of  
physical damage that may have occurred during transit.  
Registering your purchase and equipment with us helps us process your repair  
claims more quickly and efficiently.  
If the unit is damaged, please do NOT return it to BEHRINGER, but notify  
your dealer and the shipping company immediately. Otherwise, claims for  
damage or replacement may not be granted.  
2. Control Elements  
1.1.2 Initial operation  
Please make sure the unit is provided with sufficient ventilation, and never place 2.1 Front panel  
your iNUKE amp on top of other heat-emanating equipment or in the vicinity of a  
heater to avoid the risk of overheating.  
(1) USB connection enables firmware updates and control over parameters via  
computer. Please visit Behringer.com to download DSP control software for  
your computer. The USB port is for amplifier configuration only.  
The mains connection is made via the enclosed power cord and a standard IEC  
receptacle. It meets all international safety certification requirements.  
(2) SIGNAL and LIMIT LEDs display the signal level for each channel. Reduce  
Please make sure that all units have a proper ground connection. For your  
own safety, never remove or disable the ground conductor from the unit or  
the AC power cord.  
the input gain if the red LIMIT LED lights up continuously.  
(3) CH A/CH B CONTROLS adjust the input level. To increase signal gain,  
rotate the knobs clockwise; to reduce the gain, rotate the knobs  
counter-clockwise.  
The sound quality may diminish within the range of powerful broadcasting  
stations and high-frequency sources. Increase the distance between the  
transmitter and the device and use shielded cables for all connections.  
(4) PROCESS button steps through the DSP processing modules.  
(5) SETUP button steps through parameters within DSP processing modules.  
(6) LCD SCREEN displays the current DSP module and parameter settings.  
1.1.3 Online registration  
Please register your new BEHRINGER equipment right after your purchase  
warranty carefully.  
(7) UP/DOWN/EXIT buttons step through DSP modules and parameters or exit  
to the top-level iNUKE screen (center button).  
(8) SELECT encoder knob toggles between Graphic and Edit modes  
(when pressed) and changes parameter values (when rotated).  
(9) POWER button turns the amplifier on and off.  
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Rear panel control elements (NU6000DSP shown)  
3.2.2 SETUP screens  
2.2 Rear panel  
The SETUP screens access the preset, panel lock, device naming, and LCD screen  
contrast functions. To access these functions, press the SETUP button, and then  
move up and down through the top-level screens by pressing either the SETUP  
button or the UP / DOWN arrow buttons.  
(10) BREAKER (automated fuse, NU6000DSP only). After eliminating the cause of  
faulty operation, simply depress the BREAKER and power up the unit again.  
The BREAKER acts in place of common discardable fuses.  
(11) POWER SOURCE jack accepts the included IEC power cable.  
(12) VENTILATION FAN speed adjusts automatically to ensure  
SETUP 1/4: Load Preset  
trouble-free operation.  
The top-level Load Preset screen displays the current Preset name  
(13) TWIST- LOCKING SPEAKER OUTPUTS connect the amplifier to the speakers (up to 10 characters) and Preset number (1–20). Subsidiary screens offer  
using professional speaker cables with twist-locking plugs.  
options for loading, saving, and naming Presets.  
(14) INPUTS route line-level input signals into these combination jacks using  
XLR, balanced ¼" TRS, or unbalanced ¼" TS connectors.  
3. DSP Processor  
Below the Preset name, this screen displays the “Load Preset” option by default.  
Rotate the SELECT encoder clockwise to access the “Save Preset” option.  
3.1 Processor Functionality  
The iNUKE DSP processor manipulates your signal in the digital domain, offering  
tremendous flexibility and control. You may control and program the DSP  
processor via either the iNUKE amplifier’s front panel or remotely by computer  
using the BEHRINGER Amp Remote software (available for download from  
behringer.com).  
Note: Preset #1:INIT_DATA cannot be overwritten. Select this preset any time  
you want to restore the amp's default settings.  
By using the DSP processor, you can program all amplifier functions and  
parameters—except for the CH A and CH B input gain settings, which can only  
be controlled using the CH A / CH B knobs on the amplifier’s front panel.  
Loading a Preset  
1. Make sure the “Load Preset” option appears on the screen. (Rotate the  
SELECT encoder to toggle between “Load Preset” and “Save Preset.”)  
3.2 Front Panel control  
The following material describes the DSP's screen organization and how to  
program the processor's various functions by manipulating your iNUKE amplifier's  
front panel controls.  
2. Press the SELECT encoder knob to access the DSP’s internal Preset list on the  
next sub-screen. The correct sub-screen will display the LOAD PRESET option  
in the upper right-hand corner of the screen.  
3.2.1 Main top-level screen  
The top-level screen displays “iNUKE,” as well as the model name: NU1000DSP,  
NU3000DSP, or NU6000DSP.  
3. Scroll up and down through the Preset list by rotating the SELECT encoder knob.  
As you scroll, the Preset number will appear to the left below the disk icon.  
4. To load the selected Preset, you may either press the SELECT encoder or press  
the UP arrow button.  
Saving a preset  
1. Make sure the “Save Preset” option appears on the screen. (Rotate the  
SELECT encoder to toggle between “Load Preset” and “Save Preset.”)  
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iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
2. Press the SELECT encoder knob to access the DSP’s internal Preset list on the  
next sub-screen. The correct sub-screen will display the EDIT TITLE and SAVE  
PRESET options on the right-hand side of the screen.  
SETUP 2/4: Panel Lock  
The Panel Lock function uses a 4-character alphanumeric access code to lock  
the front panel controls and prevent unauthorized changes to DSP settings.  
Current settings can still be viewed while the unit is locked, but the parameters  
cannot be changed.  
The amplifier can only be locked or unlocked from the Panel Lock screen.  
3. Scroll through the list until you find an EMPTY Preset slot or another Preset  
you wish to overwrite.  
Locking the amplifier  
1. Go to the Panel Lock screen by pressing the SETUP button.  
2. Press the SELECT encoder knob to access the password screen.  
4. If you wish to edit your Preset title before saving, press the UP arrow button  
to choose the EDIT TITLE option.  
3. Set an access code by using the SELECT encoder knob. Rotate the knob to  
scroll through the character list, and then select characters by pressing.  
With each press on the SELECT encoder knob, the password cursor will  
advance left to right by one space.  
5. Edit the Preset title (see “Editing the Preset” title below).  
6. Select the SAVE PRESET option by pressing the DOWN arrow key.  
Editing a Preset title  
1. Make sure the “Save Preset” option appears on the screen. (Rotate the  
SELECT encoder to toggle between “Load Preset” and “Save Preset.”)  
4. The amplifier will automatically lock when you select the final character  
for the access code. The display will flash a brief confirmation message:  
“Device Locked!”  
2. Press the SELECT encoder knob to access the DSP’s internal Preset list on the  
next sub-screen. The correct sub-screen will display the EDIT TITLE and  
SAVE PRESET options on the right-hand side of the screen.  
5. The status displayed on the Panel Lock screen will state “LOCKED!”  
Unlocking the amplifier  
1. Go to the Panel Lock screen by pressing the SETUP button.  
2. Press the SELECT encoder knob to access the password screen.  
3. Enter the access code by using the SELECT encoder knob. Rotate the knob  
to scroll through the character list, and then select characters by pressing.  
With each press on the SELECT encoder knob, the password cursor will  
advance left to right by one space.  
3. Scroll through the Preset list by rotating the SELECT encoder knob.  
4. Select a Preset slot as a save destination by pressing the SELECT encoder knob.  
5. Press the UP arrow button to select the EDIT TITLE function. The EDIT TITLE  
window will appear, with alphanumeric characters in a row at the top and  
the current title directly below with the editing cursor.  
4. The amplifier will automatically unlock when you select the final  
character for the access code. The display will flash a brief confirmation  
message: “Unlocked.”  
5. The status displayed on the Panel Lock screen will state “OFF.”  
SETUP 3/4: Device Name  
Each iNUKE DSP amplifier can be individually named for easy identification  
within a rack or remotely via the BEHRINGER Amp Remote control software  
(go to Behringer.com to download the software).  
6. Select the backward arrow from the row of characters by rotating the  
SELECT knob until the backward arrow is highlighted.  
7. Press the SELECT encoder knob to erase characters. The cursor will erase  
characters from right to left across the existing title.  
Naming the amplifier  
1. Access the Device Name screen by pressing the SETUP button.  
8. Rotate the SELECT encoder to select new characters from the row above the  
current Preset title.  
9. Insert selected characters into the Preset title by pressing the SELECT  
encoder knob. Once you select and insert a character, the editing cursor will  
change direction and advance from left to right.  
10. Save the new Preset title by pressing the DOWN arrow key to activate the  
SAVE PRESET function.  
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iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
2. Press the SELECT encoder knob to access the editing screen.  
BIAMP1  
3. Choose the backwards arrow by turning the SELECT knob and press it to  
delete the existing characters of the current preset name.  
BIAMP1 mode splits the Channel A input signal at a programmable frequency  
point, and then routes the resulting high and low frequency signals through  
a parallel chain of DSP modules with independent equalization, signal delay,  
and limiter settings. In BIAMP1 mode, Output A routes low frequencies to a  
low-range speaker, while Output B connects to a high-frequency transducer.  
4. Rotate the SELECT encoder to select new characters from the row above the  
current amplifier name.  
5. Insert selected characters into the new amplifier name by pressing the  
SELECT encoder knob. Once you select and insert a character, the editing  
cursor will change direction and advance from left to right.  
BIAMP2  
6. Save the new amplifier name by pressing the DOWN arrow key to activate  
the SAVE TITLE function.  
SETUP 4/4: Contrast  
BIAMP2 mode operates identically to BIAMP1 mode, except that the output  
signals are swapped between Outputs A and B (i.e., Output B handles low  
frequencies while Output A handles high frequencies). The swapped A and B  
output routing allows the user to quickly correct reversed high/low speaker  
connections without having to physically access the amplifier’s back panel and  
manually change the speaker connection.  
The Contrast screen allows you to adjust the LCD screen’s contrast level.  
The Contrast parameter ranges from 1–30, with 30 representing maximum  
contrast. Rotate the SELECT encoder knob to adjust the Contrast setting.  
BRIDGE  
3.2.3 PROCESS screens  
Pressing the PROCESS button opens up the various screens that determine the  
signal path setup and that control processing parameters for the DSP modules:  
I/O, PEQ, XOVER, DEQ, DELAY, and LIMIT.  
BRIDGE mode combines the signals from Inputs A and B into a blended mono  
You can move between top-level module screens by pressing the PROCESS button. signal and then routes the resulting mono signal through a single chain of  
DSP modules, leading to a combined mono output. The mono output signal is  
I/O  
identical at Outputs A and B, and the amplifier responds to a single combined  
speaker load.  
The I/O module sets up the signal routing inside the DSP from input to output.  
Press and rotate the SELECT encoder knob to choose between dual mono, stereo,  
bi-amped, or bridged routing options.  
PEQ  
The PEQ module deploys up to eight EQ bands for precise sound sculpting.  
The EQ bands can each be switched between low shelving, high shelving,  
and parametric modes. For the high shelving and low shelving EQ bands,  
the LS12 and HS12 settings provide steeper equalization curves than the LS6 and  
HS6 settings.  
DUAL  
The main PEQ screen displays the composite equalization curve across the  
frequency spectrum.  
DUAL (dual mono) mode routes each channel input, A and B, through completely  
separate parallel signal paths with independent outputs for each channel.  
Each channel may be processed with its own unique filter, equalization,  
signal delay, and limiter settings.  
STEREO  
Programming equalizers  
1. Choose individual equalizers by rotating the SELECT encoder knob. As you  
rotate the SELECT encoder knob, dotted vertical lines will appear at different  
points within the frequency spectrum, and the EQ band name will appear in  
the lower-left corner of the screen (e.g., A#1, A#2, B#1, B#2, and so on).  
STEREO mode routes the signal from both the A and B inputs through a single  
series of DSP modules. The parallel DSP modules process the A and B signals  
with identical, linked settings (only module “A” parameter settings appear on  
subsequent DSP module screens).  
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iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
2. Press the SELECT encoder knob to enter the parameter screens for your  
chosen EQ band.  
5. Set the filter thresholds for high-pass (HPfreq) and low-pass (LPfreq) by  
rotating the SELECT encoder knob.  
3. Press the UP / DOWN arrow keys to switch between parameters. The chosen  
parameter will appear highlighted.  
6. Set the filter’s overall signal gain (Gain) by rotating the SELECT encoder knob.  
4. Rotate the SELECT encoder knob to change parameter values.  
5. Choose the equalizer type (Type): OFF, PEQ (parametric), low shelving  
(LS6, LS12), or high shelving (HS6, HS12).  
7. Set the link parameter (LinkAB) to ON or OFF by rotating the SELECT encoder  
knob (BIAMP1 and BIAMP2 modes only).  
8. Press the SELECT encoder when finished to return to the top-level XOVER screen.  
DEQ  
6. Set the frequency (Freq) for each EQ band by rotating the SELECT encoder knob.  
The programmed frequency can represent either the center frequency for  
parametric mode, or the cutoff frequency for low and high shelving modes.  
The DEQ module deploys a dynamic EQ that is triggered by a programmable  
signal thresold. For example, you can program the dynamic EQ to cut or boost  
increasing amounts of mid frequencies as the signal gets louder beyond your  
preferred threshold.  
7. Set the EQ band’s cut or boost (Gain) by rotating the SELECT encoder knob.  
8. For parametric mode, control the width of the parametric curve by tweaking  
the Qual parameter. High Qual values produce a narrow, steep curve, while  
low Qual values create a wide curve with a gentle slope.  
STEREO and BRIDGE modes feature one set of dynamic EQs (A#1 and A#2),  
while DUAL, BIAMP1, and BIAMP2 modes feature two sets of dynamic EQs  
(A#1, A#2, B#1, and B#2). Each dynamic EQ may be set to OFF, band-pass (BP),  
low-pass (LP6, LP12), and high-pass (HP6, HP12).  
9. Press the SELECT encoder knob or the EXIT button to return to the top-level  
PEQ screen.  
Programming dynamic EQs  
XOVER  
1. Choose between dynamic EQ sets by rotating the SELECT encoder knob.  
2. Press the SELECT encoder knob to enter the parameter screens.  
The XOVER module offers programmable pairs of high- and low-pass filters.  
STEREO and BRIDGE modes possess only one filter set (A#1). DUAL, BIAMP1,  
and BIAMP2 modes use two filter sets (A#1 and B#1), and in BIAMP1 and BIAMP2 3. Move up or down between parameters by pressing the UP / DOWN  
modes, these two sets of filters may be linked.  
arrow buttons.  
On the top-level screen, vertical dotted lines indicate the threshold point for  
each filter.  
4. Choose between EQ types (Type) by rotating the SELECT encoder knob.  
5. Set the frequency (Freq) for each EQ by rotating the SELECT encoder knob.  
The programmed frequency can represent either the center frequency for  
band-pass mode, or the threshold frequency for low- and high-pass modes.  
Each low-pass and high-pass filter also offers multiple options for filter  
type and slope: OFF, Butterworth (BUT6, BUT12, BUT18, BUT24, BUT48),  
Bessel (BES12, BES24), or Linkwitz-Riley (LR12, LR24, LR48).  
6. For band-pass mode, control the width of the band-pass curve by tweaking  
the Qual parameter. High Qual values produce a narrow, steep curve,  
while low Qual values create a wide curve with a gentle slope.  
Programming filters/bi-amping crossover  
1. Choose between filter sets A#1 and B#1 by rotating the SELECT encoder knob  
(DUAL, BIAMP1, and BIAMP2 modes only).  
2. Press the SELECT encoder knob to enter the parameter screens.  
3. Move up or down between parameters by pressing the UP / DOWN  
arrow buttons.  
7. Set the dynamic equalizer’s cut or boost (Gain) by rotating the SELECT  
encoder knob.  
4. Choose between filter types for high-pass (HPtype) and low-pass (LPtype)  
by rotating the SELECT encoder knob.  
8. Set the signal threshold (Thresh) by rotating the SELECT encoder knob.  
9. Program your desired ratio (Ratio). Similar to a compressor, higher ratio  
values yield a more intense equalization effect.  
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10. Adjust attack (Atime) and release (Rtime) to your preferred values.  
3.3 BEHRINGER Amp Remote Software  
11. Press the SELECT encoder when finished to return to the top-level DEQ screen.  
DELAY  
The DELAY DSP module digitally slows the final signal output from the amplifier by a  
programmable amount (expressed as either distance or time). This signal delay helps  
prevent phase and synchronization problems caused by sound traveling through air  
over long distances, e.g., between speaker arrays separated by long distances or  
between a performance stage and distant sound reinforcement speakers.  
The BEHRINGER Amp Remote software allows the user to control all iNUKE DSP  
settings remotely from a computer via the USB connection located on the iNUKE  
front panel.  
3.3.1 METERS  
Meters  
Programming signal delay  
1. Choose between signal paths (A#1, B#1) by rotating the SELECT encoder knob.  
2. Press the SELECT encoder knob to enter the parameter screens.  
3. Move up or down between parameters by pressing the UP / DOWN arrow buttons.  
4. Choose between 0° and 180° phase (PHASE) by rotating the SELECT encoder knob.  
Monitor input and output levels by using the virtual meters on the right hand  
side of the control software screen. Adjust input levels using the knobs on the  
amplifier’s front panel.  
5. Choose your amount of signal delay (Delay) by rotating the SELECT encoder button.  
6. Fine tune the Delay value using the (fine) parameter.  
7. Change the delay’s unit of measure (Unit), if necessary, by rotating the  
SELECT encoder knob. The delay value can be expressed in milliseconds (ms),  
meters (m), or feet (ft).  
The Amp Remote software displays two level meters, one for the input signal,  
8. Press the SELECT encoder when finished to return to the top-level DELAY screen. and another meter for the final output signal.  
LIMIT  
Input Meters  
The LIMIT DSP module controls the unit’s output limiter, with programmable  
parameters for threshold (Thresh), release (Rtime), and hold (Hold).  
The top-level LIMIT screen always displays the threshold (Thresh) setting for  
quick reference.  
Programming the output limiter  
1. Choose between signal paths (A#1, B#1) by rotating the SELECT encoder knob.  
2. Press the SELECT encoder knob to enter the parameter screens.  
The input meters show the signal level at the CH A and CH B inputs. If the input  
signal exceeds the 0 dB level, the red Clip indicator will light over the channel  
experiencing an overload.  
3. Move up or down between parameters by pressing the UP / DOWN  
arrow buttons.  
4. Choose a threshold (Thres) setting by rotating the SELECT encoder knob.  
5. Choose a release time (Rtime) by rotating the SELECT encoder knob.  
6. Choose a hold (Hold) setting by rotating the SELECT encoder knob.  
7. Press the SELECT encoder when finished to return to the top-level LIMIT screen.  
The input level can only be controlled by using the CH A and CH B knobs on the  
front panel of the iNUKE amplifier. The Amp Remote software does not control  
the input level.  
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Output Meters  
3.3.4 Configuration  
The output meters show the signal level at the end of the DSP signal chain,  
following the Limit module. If the signal activates the limiter, the red Limit  
indicator will light over the channel experiencing an overload.  
3.3.2 Function Tabs  
The Configuration tab displays two main sets of software controls:  
The BEHRINGER Amp Remote window allows the user to access DSP functions via  
embedded tabs accessible near the top of the software window.  
Mode—controls the amplifier configuration. Choose between Dual Mono,  
Stereo, Bi-Amp 1, Bi-Amp 2, and Bridge configurations. Each configuration’s  
complete signal path appears in the display window, including the  
arrangement of internal DSP modules and speaker outputs.  
Delay/Peak Limiter—controls settings for the Delay and Limit DSP  
modules, as well as options for channel phase, Load settings (in Ohms) for  
the limiter wattage display, Hold and Release for the Limiter, and channel  
linking. The number of Delay/Peak Limiter controls change depending on the  
amplifier Mode configuration.  
Mode  
Stereo  
Bi-Amp 1  
Bi-Amp 2  
Bridge  
The software window includes these tabbed screens:  
Changing amplifier mode  
Configuration—controls the amplifier Mode setting for Dual Mono,  
Stereo, and other routing options, as well setting controls for output delay  
and limiting.  
The amplifier mode can be changed by clicking on the button for your desired  
routing option along the left-hand side of the window. When you click on a  
mode button, the software will launch a confirmation window. Click “Yes” in the  
confirmation window to launch the new amplifier mode, and the new signal path  
will appear in the display.  
Filter/Crossover—offers control over adjustable hi-pass and lo-pass  
filters. In Bi-Amp 1 and Bi-Amp 2 configuration, this tab controls the  
crossover point for splitting the blended, mono input signal into separate  
high- and low-frequency mono signals for bi-amping.  
Mode descriptions  
Parametric EQ—controls up to 8 adjustable parametric and shelving EQs  
for each channel.  
Dual Mono  
Dynamic EQ—adjusts parameters for 2 bands of level-dependent, dynamic  
equalization per channel.  
Stereo  
Bi-Amp 1  
Bi-Amp 2  
Bridge  
Setup—manages presets and networking options.  
3.3.3 Connection Status  
Dual Mono mode routes each channel input, A and B, through completely  
separate parallel signal paths with independent outputs for each channel.  
Each channel may be processed with its own unique filter, equalization, delay,  
and limiter settings. The Delay and Limit modules for A and B can be linked and  
programmed with identical settings by clicking on the Channel Link button  
below the Mode window.  
The software displays the connection status in the top header of the main  
software window.  
BEHRINGER Amp Remote [not connected!]  
Stereo  
When the amp/software connection is active, the window heading displays the  
name of the amplifier.  
Bi-Amp 1  
Bi-Amp 2  
Bridge  
BEHRINGER Amp Remote [Device: NU1000DSP!]  
11 iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
Stereo mode routes the signal from both the A and B inputs through a single  
series of DSP modules. Each DSP module processes both the A and B signals  
with identical, linked settings. The linked Delay and Limit parameters can be  
controlled from Stereo mode’s consolidated Channel A+B control window  
(which displays automatically when Stereo mode is selected).  
Delay  
The Delay function digitally slows the final signal output from the amplifier by a  
programmable amount (expressed as either distance or time). This signal delay helps  
prevent phase and synchronization problems caused by sound traveling through  
air over long distances, e.g., between speaker arrays separated by long distances or  
between a performance stage and distant sound reinforcement speakers.  
Bi-Amp 1  
The Delay controls also simultaneously display the amount of signal delay in  
milliseconds (ms), meters (m), and feet (ft), which can be useful if you already  
know the precise distance between speakers.  
Stereo  
Bi-Amp 2  
Bridge  
Programming signal delay  
Bi-Amp 1 mode splits the Channel A input signal in the XOver DSP module at  
a programmable frequency point, and then routes the resulting high and low  
frequency signals through a parallel chain of DSP modules with independent  
equalization, delay, and limiter settings. The Delay and Limit modules for the split  
high and low frequency signals can be linked and programmed with identical  
settings by clicking on the Channel Link button below the Mode window. In  
Bi-Amp 1 mode, Output A routes low frequencies to a low-range speaker, while  
Output B connects to a high-frequency transducer.  
1. Program the signal delay by using either of these two methods:  
a) Rotate the Delay virtual knob clockwise until you achieve a suitable amount  
of signal delay. The ms, m, and ft text boxes will each display equivalent  
values as you rotate the virtual knob.  
b) Type a delay value directly into one of the text boxes below the Delay virtual  
knob (ms, m, or ft, depending on your preference). The Delay virtual knob  
will rotate to a position matching the delay value you have entered.  
Bi-Amp 2  
2. Choose between 0° and 180° phase either by clicking on the Phase virtual  
button or by clicking directly on 0° or 180° directly below the virtual button.  
When the Phase virtual button is engaged, the virtual button will light  
yellow and the indicator next to 180° will light up.  
Stereo  
Bi-Amp 1  
Bridge  
Peak Limiter  
Bi-Amp 2 mode operates identically to Bi-Amp 1 mode, except that the signals  
are swapped between Outputs A and B (i.e., Output B handles low frequencies  
while Output A handles high frequencies). The swapped A and B output routing  
allows the user to quickly correct reversed high/low speaker connections without  
having to physically access the amplifier’s back panel and manually change the  
speaker connection.  
The Peak Limiter helps protect your speakers by preventing signal spikes at the  
amplifier's output stage.  
The Peak Limiter controls include a dedicated virtual knob with matching  
numerical displays in dBfs (decibels relative to full scale), Vp (Voltage(peak)),  
as well as a rating in Watts, which appears only when you choose an Ohm setting  
from the Load pulldown menu.  
Bridge  
The BEHRINGER Amp Remote software also allows you to see the amplifier's total  
output as a rating in Watts. This Watt rating allows you to connect speakers with  
lower power ratings and then adjust the limiter to match the speakers' maximum  
Watt rating.  
Stereo  
Bi-Amp 1  
Bi-Amp 2  
Note: the Amp Remote software does not automatically detect or show the total  
speaker load connected to the amplifier.  
Bridge mode combines the signals from Inputs A and B into a blended mono  
signal and then routes the resulting mono signal through a single chain of  
DSP modules, leading to a combined mono output. The mono output signal is  
identical at Outputs A and B, and the amplifier responds to a single combined  
speaker load.  
Controls for Hold and Release times appear near the bottom of the window, each  
with a matching numerical display.  
Programming the output limiter  
1. Program the output limiter by using either of these two methods:  
Delay/Peak Limiter  
a) Rotate the Peak Limiter virtual knob counter-clockwise until you find an  
adequate limiter setting for your sound system. The dBfs (decibels relative  
to full scale) and Vp (Voltage [peak]) text boxes will each display equivalent  
values as you rotate the virtual knob.  
b) Type a limiter value directly into one of the text boxes below the Peak  
Limiter virtual knob (dBfs or Vp). The Peak Limiter virtual knob will rotate to  
a position matching the delay value you have entered.  
2. Choose a Load value from the Load pulldown menu (none, 2, 4, 8, or 16 Ohms)  
that matches the total combined load of all speakers connected to the  
amplifier's outputs. If your combined speaker load in Ohms does not exactly  
match 2, 4, 8, or 16 Ohms, choose the next lower Ohm setting from the Load  
pulldown menu (i.e., if your total combined speaker load equals 4.25 Ohms,  
select the 4 Ohm setting). When you select a Load setting, an additional Watt  
rating for the limiter will appear above the Load pulldown menu.  
Channel Link  
In Dual Mono, Bi-Amp 1, and Bi-Amp 2 modes, the Channel Link virtual button  
will appear just above the Delay and Peak Limiter controls. When you click on  
the Channel Link virtual button, the button will light up, and the Delay and Peak  
Limiter controls for both channels will display identical values.  
12 iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
3. Choose a Hold value either by rotating the Hold virtual knob or by entering a Filter/Crossover Control View  
value (in milliseconds) into the matching text box below the knob.  
4. Choose a Release value either by rotating the Release virtual knob or by  
entering a value (in milliseconds) into the matching text box below the knob.  
3.3.5 Filter/Crossover  
The Control View of the Filter/Crossover tab contains virtual knob controls for  
Gain, High Pass filter, and Low Pass filter. Exact parameter values appear in boxes  
below each virtual knob. These parameters may be altered by either adjusting  
the virtual knobs or by entering values directly in the parameter boxes.  
Pull-down menus contain filter options for Type (Butterworth, Bessel,  
Linkwitz-Riley) and Slope (6–48 dB).  
X-Over option for bi-amping  
In Bi-Amp 1 and Bi-Amp 2 modes, the X-Over button appears on the Filter/  
Crossover tab. Activating the X-Over button links the Low Pass 2 and High Pass  
3 filter controls and automatically creates a synchronized crossover point for  
bi-amped low frequency and high frequency signals.  
Setting a linked crossover frequency  
1. Activate the Bi-Amp 1 or Bi-Amp 2 settings on the Configuration tab.  
2. Click on the Filter/Crossover tab.  
The Filter/Crossover tab displays and controls Filter/XOver module settings in  
two formats:  
Frequency Curve—displays the filter curves in visual form, and allows  
click-and-drag manipulation of filter threshold points.  
3. Click on the X-Over button on the Filter/Crossover tab. The X-Over button will  
light up and overlapping filter curves will appear in the Frequency Curve.  
Control View—allows parameter tweaks via virtual controls, as well as  
pull-down menus for filter type and slope.  
4. Set the crossover frequency by any of these methods:  
The Frequency Curve and Control View interact with each other and  
simultaneously shift as you change parameters in either view.  
a) drag the Low Pass 2/High Pass 3 threshold line to the desired frequency in  
the Frequency Curve by clicking and dragging;  
Filter/Crossover Frequency Curve Display  
b) adjust the Low Pass 2 or High Pass 3 virtual knobs;  
c) Enter the desired frequency directly into the Freq. text box.  
5. Select a filter curve from the Type dropdown menu below either the Low  
Pass 2 or High Pass 3 virtual knobs.  
6. Select the desired curve steepness from the Slope dropdown menu.  
The Frequency Curve displays a frequency range from 20 Hz to 20 kHz, with 15 dB of 3.3.6 Parametric EQ  
cut/boost displayed on the vertical axis. Within this graphic field, the filter curve  
appears as a solid, colored line running from left to right. The line shifts and  
moves to reflect changing parameter values entered using the virtual controls and  
pull-down menus. Dotted vertical lines indicate frequency threshold points for the  
various filters, numbered 1 through 4, and these threshold points can be selected  
and moved through the frequency spectrum using the mouse or trackpad.  
Moving filter thresholds via click-and-drag  
1. Click and hold on the numbered box at the top of the desired filter threshold line.  
2. Drag the threshold line to the desired location on the frequency spectrum.  
3. The filter curve shown by the solid line will move and adjust as you shift  
the threshold line. The virtual knob and frequency displayed in the Control  
View will also simultaneously change as you move the threshold line in the  
Frequency Curve.  
The Parametric EQ tab displays and controls PEQ DSP module settings in two  
formats (similar to the Filter/Crossover tab):  
Control View—allows parameter tweaks via virtual controls, as well as  
pull-down menus for EQ type (parametric, low shelving, and high shelving).  
13 iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
Frequency Curve—displays the filter curves in visual form, and allows  
3. The EQ curve shown by the solid yellow fill will re-size and adjust as you  
move the cursor up and down the frequency line. The virtual gain knob and  
gain dB displayed in the Control View will also simultaneously change as you  
move the cursor up and down frequency line in the Frequency Curve.  
click-and-drag manipulation of EQ frequencies and gain.  
The Frequency Curve and Control View interact with each other and  
simultaneously shift as you change parameters in either view.  
4. Dynamic EQ  
Parametric EQ Control View  
The Control View of the Parametric EQ tab contains virtual knob controls for Gain,  
Frequency, Quality (parametric EQ only). Exact parameter values appear in boxes  
below each virtual knob. These parameters may be altered by either adjusting  
the virtual knobs or by entering values directly in the parameter boxes.  
The Dynamic EQ tab displays and controls DEQ DSP module settings in two  
formats (similar to the Filter/Crossover and Parametric EQ tabs):  
To activate an EQ band, click the button (Filter 1, Filter 2, and so on) at the top of  
each channel strip. The channel button will light up to indicate the EQ is active.  
Frequency Curve—displays the layered dynamic EQ curves in visual form,  
and allows click-and-drag manipulation of dynamic EQ/filter frequencies  
and gain.  
Pull-down Type menus for each EQ band contain these additional options:  
PEQ (parametric EQ)  
LS6 (low shelving EQ, with a 6 dB slope)  
LS12 (low shelving EQ, with a 12 dB slope)  
HS6 (high shelving EQ, with a 6 dB slope)  
HS12 (high shelving EQ, with a 12 dB slope)  
Control View—allows parameter tweaks via virtual controls, as well  
as pull-down menus for EQ/filter type (Type) and gain reduction/boost  
ratio (Ratio).  
The Frequency Curve and Control View interact with each other and  
simultaneously shift as you change parameters in either view.  
Parametric EQ Frequency Curve Display  
Dynamic EQ Frequency Curve Display  
The Frequency Curve displays a frequency range from 20 Hz to 20 kHz, with 15 dB The Frequency Curve displays a frequency range from 20 Hz to 20 kHz, with  
of cut/boost displayed on the vertical axis. Within this graphic field, the EQ curve layered dynamic EQ curves. Within this graphic field, the dynamic EQ curves  
appears as a solid fill above and below the 0 dB center line and running from  
left to right. The curve shifts and moves to reflect changing parameter values.  
Dotted vertical lines indicate frequency points for the various EQ bands,  
numbered 1 through 8, and these frequency points can be selected and moved  
through the frequency spectrum using the mouse or trackpad. The gain for each  
EQ band may also be adjusted by using the frequency lines.  
appear as solid yellow lines that appear at every 10 dB (0 to -50 dB) threshold on  
the vertical axis. The curves shift and move to reflect changing parameter values.  
Dotted vertical lines indicate frequency points for the various dynamic EQ bands,  
numbered 1 and 2 (per channel), and these frequency points can be selected and  
moved through the frequency spectrum using the mouse or trackpad. The gain  
for each dynamic EQ band may also be adjusted by using the frequency lines.  
Adjusting Parametric EQ frequency via click-and-drag  
Adjusting dynamic EQ frequency via click-and-drag  
1. Click and hold on the numbered box at the top of the desired EQ band  
frequency line.  
1. Click and hold on the numbered box at the top of the desired dynamic  
EQ band frequency line.  
2. Drag the frequency line to the desired location on the frequency spectrum.  
2. Drag the frequency line to the desired location on the frequency spectrum.  
3. The EQ curve shown by the solid yellow fill will move and adjust as you shift  
the frequency line. The virtual knob and frequency displayed in the Control  
View will also simultaneously change as you move the frequency line in the  
Frequency Curve.  
3. The layered dynamic EQ curves shown by the layered yellow lines will move  
and adjust as you shift the frequency line. The virtual knob and frequency  
displayed in the Control View will also simultaneously change as you move  
the frequency line in the Frequency Curve.  
Adjusting Parametric EQ gain via click-and-drag  
1. Click and hold over the numbered box at the top of the desired EQ band’s  
frequency line.  
2. Move the cursor vertically up or down the frequency line to the desired gain level.  
14 iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
Adjusting dynamic EQ gain via click-and-drag  
6. Program your desired ratio by selecting from the Ratio pulldown menu.  
Similar to a compressor, higher ratio values yield a more intense  
equalization effect.  
1. Click and hold on the numbered box at the top of the desired dynamic  
EQ band frequency line.  
7. Adjust the attack (Attack) and release (Release) values by rotating each  
parameters respective virtual knob.  
2. Move the cursor vertically up or down the frequency line to the desired  
gain level.  
3. The layered EQ curves shown by the solid yellow line will adjust as you move  
the cursor up and down the frequency line. The virtual gain knob and gain  
dB displayed in the Control View will also simultaneously change as you  
move the cursor up and down frequency line in the Frequency Curve.  
3.3.7 Setup  
Dynamic EQ Control View  
The Setup tab allows you to manage connections and settings for your  
iNUKE amps. Amp presets may be stored either on the iNUKE DSP or on the PC  
(presets stored on your PC may then be loaded onto any iNUKE amplifier).  
The Control View of the Dynamic EQ tab contains virtual knob controls for Gain,  
Threshold, Frequency, Quality (bandpass filter only). Exact parameter values  
appear in boxes below each virtual knob. These parameters may be altered  
by either adjusting the virtual knobs or by entering values directly in the  
parameter boxes.  
PC Presets  
Pull-down Type menus for each dynamic EQ band contain these  
additional options:  
BP (bandpass filter)  
LP6 (lo-pass filter, with a 6 dB slope)  
LP12 (lo-pass filter, with a 12 dB slope)  
HP6 (hi-pass filter, with a 6 dB slope)  
HP12 (hi-pass filter, with a 12 dB slope)  
The PC Presets section allows you to store iNUKE DSP presets on your computer  
instead of the iNUKE amp’s internal memory. The Load function allows you to  
upload presets from the computer, while the Save function stores the current  
iNUKE DSP settings to the computer (these files use a .arp filename extension).  
The Ratio pulldown menu offers four options:  
Amp Presets  
1:2.0  
1:3.0  
1:5.0  
1:10  
Gain vs. Ratio  
Positive gain settings result in a frequency boost at low signal levels and a nearly  
flat EQ response at high levels. Negative gain settings yield opposite results: at  
low signal levels, the EQ response is nearly flat, while higher signal levels receive  
increasing amounts of cut from the equalizer. The higher the Ratio setting, the  
more the equalizer will cut or boost the signal at different signal levels.  
Programming a dynamic EQ  
1. Choose an EQ type from the Type pulldown menu.  
The Amp Presets section allows you to access and manage presets stored in the  
2. Set the dynamic EQ's band frequency by rotating the Frequency virtual knob. iNUKE amp’s internal memory. The amp’s internal memory holds up to 20 presets,  
The programmed frequency can represent either the center frequency for and these 20 preset slots appear in the Amp Presets section as a numbered,  
band-pass (BP) mode, or the threshold frequency for low- (LP) and high-pass double-column list showing the preset name and the preset’s signal routing  
modes (HP).  
configuration (DUAL, STEREO, BIAMP1, and so on). The preset currently in use will  
display an illuminated dot immediately to the preset’s left.  
3. For band-pass BP mode, control the width of the band-pass curve by  
rotating the Quality virtual knob parameter. High Qual values produce  
a narrow, steep curve, while low Qual values create a wide curve with a  
gentle slope.  
Note: Preset #1:INIT_DATA cannot be overwritten. Select this preset any time  
you want to restore the amp's default settings.  
Recalling a preset stored in the amp’s internal memory  
4. Set the dynamic EQ’s band cut or boost by rotating the Gain virtual knob.  
5. Set the signal threshold by rotating the Threshold knob.  
1. Click on the desired preset in the Amp Presets list. The dot to the immediate  
left of the selected preset will light up.  
15 iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
2. Click on the Recall button in the upper left of the Amp Presets section. The  
selected preset’s name will appear in the text box next to the Recall button.  
All settings contained in the preset will automatically deploy.  
Renaming an amplifier  
1. Type the new amplifier name directly into the text box to the left of the  
Rename Amp virtual button near the bottom of the Amp Connection section.  
Saving a preset to the amp’s internal memory  
2. Click on the Rename Amp virtual button. The new amplifier name will  
appear in the Amp Name column of the amplifier list.  
1. Select a destination for the preset by clicking on a slot in the preset list.  
(If you save your preset to a slot already holding a stored preset, the stored  
preset will be replaced by your new preset.)  
Locking the amplifier  
1. Type a 4-character lock code of your choosing directly into the Lock Code  
window near the bottom of the Amp Connection section. (The Lock function  
requires a new lock code every time you lock the amplifier.)  
2. Type your new preset’s name into the text box to the right of the Recall button.  
3. Click on the Store button to store your preset in the selected slot in the preset  
list. Your new preset’s name will appear in the selected slot in the preset list.  
2. Click on the Lock virtual button at the bottom right of the Amp Connection  
section. The Lock virtual button will turn red to indicate the amplifier front  
panel has been locked.  
Amp Connection  
3. Clear the 4-character code from the Lock Code window if you desire  
extra security.  
Unlocking the amplifier  
1. Type the amplifier's 4-character lock code into the Lock Code window near  
the bottom of the Amp Connection section.  
2. Click on the Unlock virtual button located directly to the right of the Lock  
Code text box. The Unlock virtual button will light up yellow to indicate the  
amplifier is unlocked, while the Lock button will change colors from red to  
gray. The characters in the Lock Code text box will disappear and be replaced  
by asterisks.  
The Amp Connection section tells you which iNUKE amplifier you have connected  
to the software, as well as options for naming your iNUKE amp and for setting  
up a code to lock the amplifier's front panel and prevent tampering (the amp can  
still be edited from your laptop using the Amp Remote software).  
4. Applications  
4.1 Bi-amping  
Bi-amping splits a mono signal into upper and lower frequency bands, and then  
assigns each frequency band to separate speaker cabinets. A subwoofer typically  
takes the low frequency range. By splitting the signal this way, the speakers work  
more efficiently, and you can achieve a cleaner overall sound.  
For the current edition of the BEHRINGER Amp Remote software, only one iNUKE  
amplifier can appear at any one time in the amplifier list and be recognized  
by the software. Similarly, the IP address function can only be deployed with  
EUROCOM installed sound power amplifiers.  
Connecting to an amplifier  
Setting up hardware for bi-amping  
this procedure assumes you already have an iNUKE amplifier  
connected to your computer, and that you are switching to another  
iNUKE amplifer. Usually, the Amp Remote software will automatically  
detect a USB-connected iNUKE amp and then ask if you wish to connect  
to the detected amplifer.  
1. Run a 4-pole speaker cable with professional twist-locking connectors from  
OUTPUT CH A to the subwoofer. (The subwoofer receives its low-frequency  
signal from Channel B using poles 2+ and 2-, while the middle and upper  
frequency ranges use Channel A via poles 1+ and 1-.)  
2. Set the subwoofer into BIAMPING mode.  
1. Click on the Connect virtual button near the bottom of the Amp Connection  
section of the Setup tab. The software will disconnect from the current  
amplifer, clear the amplifier from the list in the Amp Connection section,  
and clear all presets from the Amp Presets list.  
3. Run a 2-pole speaker cable with professional twist-locking connectors from  
the subwoofer to the other speaker.  
Programming DSP parameters for bi-amping  
2. Press the Search virtual button near the top of the Amp Connection section,  
above and to the left of the amplifier list window. When the software finds  
your newly-connected iNUKE amp, the amplifier will appear in the amplifier  
list window, and the amp's internal presets will populate the Amp Presets  
list. The software will also launch a confirmation window asking if you wish  
to connect to the detected amplifier.  
1. Choose the BIAMP1 setting on the Amp Mode screen.  
2. Go to the XOVER screen using the UP/DOWN buttons to set appropriate  
high/low crossover frequencies.  
3. In Channel A#1, choose your high-pass filter type (HPtype: BUT6, BUT12,  
BES12, etc.) and set the cutoff frequency (HPfreq) to approximately 100 Hz.  
Deactivate the low-pass filter (LPtype: OFF) on this channel and set the gain  
level (Gain) to suit your system.  
3. Press the Connect virtual button in the confirmation window to finalize  
the connection.  
4. In Channel B#1, choose your low-pass filter type (LPtype: BUT6, BUT12,  
BES12, etc.) and set the cutoff frequency (LPfreq) to approximately 100 Hz.  
Deactivate the high-pass filter (HPtype: OFF) on this channel and set the gain  
level (Gain) to suit your system.  
16 iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
Programming BEHRINGER Amp Remote Software for  
bi-amping  
Again, matching parameters will automatically appear in both filter’s Control  
View settings.  
1. Select the Configuration tab.  
9. Set the crossover frequency by using any of these three methods:  
2. Choose the Bi-Amp 2 signal path in the Configuration tab. A confirmation  
window will pop up.  
a) Rotate the Low Pass 2 or High Pass 3 virtual Freq knobs in the Control View.  
The crossover frequency displayed in the Freq box below the virtual knob  
will change simultaneously for both filters.  
3. Click “Yes” on the Amp Mode confirmation window.  
4. Select the Filter/Crossover tab.  
b) Select the text box below either Freq virtual knob, and type your desired  
frequency directly into the text box.  
5. Select the X-Over button below the Frequency Curve display. A confirmation  
window will up up asking if you wish to set a Default Crossover.  
c) Go to the Frequency Curve display, click on the frequency line marked “2,”  
and drag the frequency line to the desired area of the Frequency Curve.  
Parameter settings and virtual knobs in the Control View will automatically  
move and change as you drag the crossover frequency through the  
Frequency Curve window.  
6. Click “Yes” in the confirmation window. The X-Over button will illuminate,  
and default crossover settings will appear in the Frequency Curve and  
Control View.  
7. Choose a filter type from either the Low Pass 2 or High Pass 3 Type pulldown 10. If necessary, adjust the Gain settings for Channel A and Channel B by rotating  
menus (the software defaults to a Butterworth filter). Any changes to the  
Low Pass 2 or High Pass 3 settings will also automatically appear in both  
filter’s Control View settings.  
the respective Gain virtual knobs.  
8. Choose a filter slope setting from the Slope pulldown menu under either  
Low Pass 2 or High Pass 3 (the software defaults to a Butterworth filter).  
XLR balanced  
XLR balanced  
XENYX 1202FX  
NU3000DSP  
NU3000DSP  
4-pole  
4-pole  
2-pole  
2-pole  
EUROLIVE  
B1520 PRO  
B1800X PRO Front  
EUROLIVE  
B1520 PRO  
B1800X PRO Front  
B1800X PRO Rear  
B1800X PRO Rear  
17 iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
5. Installation  
5.1 Rack mounting  
Your iNUKE amplifier fits into a 19" rack and requires two rack units. Install  
into the rack using four attaching screws and washers for the front panel.  
Reinforce the back panel, especially if you will be taking the iNUKE on the  
road. Make sure enough cool air reaches the rack, especially when other rack  
equipment emanates a lot of heat. The iNUKE amplifiers circulate heat from the  
rear to the front vents to relieve heat inside the rack enclosure.  
Fan speed adjusts automatically to assure safe operation. Never block ventilation  
openings. Should internal temperature reach extreme values, the unit will shut  
down automatically.  
5.2 Connections  
5.2.1 Audio inputs  
Each channel input uses combo jacks that can accept both balanced XLR and  
¼" TRS stereo connectors, as well as unbalanced ¼" TS connectors. To deploy XLR  
connectors for unbalanced signals, bridge pins 1 and 3; mono ¼" TS connectors  
do not require any alteration to carry unbalanced signals.  
When working with balanced signals, please make sure to exclusively use  
balanced cables. One unbalanced cable in the signal chain can change a balanced  
signal into an unbalanced signal.  
5.2.2 Outputs  
Your iNUKE amplifier requires two twist-locking professional speaker connectors.  
These professional speaker connectors were developed specially for driving  
high-powered speakers. The connectors snap in securely, prevent electric shock,  
and ensure correct polarity.  
Inside the professional speaker connector, the 1+ pin (see figure) carries signal  
from either one or both channels, and this pin therefore suits mono-bridged  
operation (use pins 1+ and 2+). The lower connector, the 2+ pin, carries signal  
from CH B only.  
Whenever possible, use thick and short speaker cables to minimize  
power loss. Never lay output cables near input cables.  
Professional speaker connector  
(compatible with Neutrik Speakon connectors)  
front view  
rear view  
5.2.3 Connecting to the mains  
Always connect your iNUKE amplifier to the voltage specified on the rear of the  
device. Connecting the amp to an incorrect voltage can permanently damage  
your amp.  
Before powering up the amplifier, double-check all connections and fully lower  
the gain setting.  
18 iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
6. Specifications  
NU6000DSP  
Connectors  
Inputs  
Output Power  
2 x combo jacks  
Maximum Output Power  
Input impedance  
Outputs  
10 kΩ unbalanced, 20 kΩ balanced  
Stereo  
2 x locking-style professional  
speaker connectors  
8 Ω per channel, stereo  
4 Ω per channel, stereo  
2 Ω per channel, stereo  
Bridged mono  
8 Ω  
1600 W  
3100 W  
Output circuit type  
Distortion  
Class D  
<0.2%  
Frequency response  
Damping factor  
Signal-to-noise  
USB  
20 Hz to 20 kHz, +0 / -2 dB  
>140 @ 8 Ω  
>98 dB  
4 Ω  
Front panel USB connector type B for  
remote control of DSP section  
System  
Controls  
Circuit Protection  
Front  
Power switch, Gain controls  
(channels A and B)  
DSP section rotary push-encoder,  
Buttons for Process, Setup,  
Up/Down, Exit  
Cooling  
Continuously variable speed fan,  
Back-to-front air flow  
Amplifier protection  
Load protection  
Thermal and DC protection, Stable into  
reactive or mismatched loads  
Indicators  
On/off muting, DC-fault power  
supply shutdown  
Power  
Amber backlit illuminated gain controls  
0 dB, full scale  
Limit (per channel)  
Power Supply, Power Consumption @ 1/8 Rated Power, Voltage (Breaker/Fuses)  
Signal (per channel)  
Digital Signal Processing (DSP)  
Display  
-24, -12, -6 dB  
USA / Canada  
120V~, 60Hz (25A)  
220-240 V~, 50/60 Hz, (12A)  
220-240 V~, 50/60 Hz,(12A)  
100 V~, 50/60 Hz, (25A)  
UK / Australia / Europe  
Korea / China  
LCD 128 x 32, amber backlit  
Digital delay function (per channel) 0 - 300 ms  
Japan  
Digital crossover function  
3 filter types, up to 48 dB/octave  
Power consumption @ 2 ohms  
Power consumption @ 4 ohms  
Mains connector  
Digital EQ function (per channel) 8-band parametric,  
620 W  
2-band dynamic equalizer  
Standard IEC receptacle  
Digital dynamics function  
(per channel)  
Zero attack limiter (peak)  
Dimensions/Weight  
Presets  
20 total presets, 19 user-definable  
Dimensions (H x W x D)  
appr. 3.5 x 19 x 12.91"  
appr. 89 x 483 x 328 mm  
Weight  
appr. 11.9 lbs / 5.4 kg  
19 iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
NU3000DSP  
Connectors  
Inputs  
Output Power  
2 x combo jacks  
Maximum Output Power  
Input impedance  
Outputs  
10 kΩ unbalanced, 20 kΩ balanced  
Stereo  
2 x locking-style professional  
speaker connectors  
8 Ω per channel, stereo  
4 Ω per channel, stereo  
2 Ω per channel, stereo  
Bridged mono  
8 Ω  
440 W  
820 W  
1520 W  
Output circuit type  
Distortion  
Class D  
<0.3%  
Frequency response  
Damping factor  
Signal-to-noise  
USB  
20 Hz to 20 kHz, +0 / -1 dB  
>145 @ 8 Ω  
>98 dB  
1520 W  
3000 W  
4 Ω  
Front panel USB connector type B for  
remote control of DSP section  
System  
Controls  
Circuit Protection  
Front  
Power switch, Gain controls  
(channels A and B)  
DSP section rotary push-encoder,  
Buttons for Process, Setup,  
Up/Down, Exit  
Cooling  
Continuously variable speed fan,  
Back-to-front air flow  
Amplifier protection  
Load protection  
Thermal and DC protection, Stable into  
reactive or mismatched loads  
Indicators  
On/off muting, DC-fault power  
supply shutdown  
Power  
Amber backlit illuminated gain controls  
0 dB, full scale  
Limit (per channel)  
Power Supply, Power Consumption @ 1/8 Rated Power, Voltage (Breaker/Fuses)  
Signal (per channel)  
Digital Signal Processing (DSP)  
Display  
-24, -12, -6 dB  
USA / Canada  
120 V~, 60 Hz (T 10 A H 250 V)  
220-240 V~, 50/60 Hz (T 6.3 A H 250 V)  
220-240 V~, 50/60 Hz (T 6.3 A H 250 V)  
100 V~, 50/60 Hz (T 10 A H 250 V)  
350 W  
UK / Australia / Europe  
Korea / China  
LCD 128 x 32, amber backlit  
Digital delay function (per channel) 0 - 300 ms  
Japan  
Digital crossover function  
3 filter types, up to 48 dB/octave  
Power consumption @ 2 ohms  
Power consumption @ 4 ohms  
Mains connector  
Digital EQ function (per channel) 8-band parametric,  
210 W  
2-band dynamic equalizer  
Standard IEC receptacle  
Digital dynamics function  
(per channel)  
Zero attack limiter (peak)  
Dimensions/Weight  
Presets  
20 total presets, 19 user-definable  
Dimensions (H x W x D)  
appr. 3.5 x 19 x 9.76"  
appr. 89 x 483 x 248 mm  
Weight  
appr. 6.8 lbs / 3.1 kg  
20 iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
NU1000DSP  
Connectors  
Inputs  
Output Power  
2 x combo jacks  
Maximum Output Power  
Input impedance  
Outputs  
10 kΩ unbalanced, 20 kΩ balanced  
Stereo  
2 x locking-style professional  
speaker connectors  
8 Ω per channel, stereo  
4 Ω per channel, stereo  
2 Ω per channel, stereo  
Bridged mono  
8 Ω  
160 W  
310 W  
530 W  
Output circuit type  
Distortion  
Class D  
<0.1%  
Frequency response  
Damping factor  
Signal-to-noise  
USB  
20 Hz to 20 kHz, +0 / -1 dB  
>155 @ 8 Ω  
>98 dB  
620 W  
4 Ω  
1050 W  
Front panel USB connector type B for  
remote control of DSP section  
System  
Controls  
Circuit Protection  
Front  
Power switch, Gain controls  
(channels A and B)  
DSP section rotary push-encoder,  
Buttons for Process, Setup,  
Up/Down, Exit  
Cooling  
Continuously variable speed fan,  
Back-to-front air flow  
Amplifier protection  
Load protection  
Thermal and DC protection, Stable into  
reactive or mismatched loads  
Indicators  
On/off muting, DC-fault power  
supply shutdown  
Power  
Amber backlit illuminated gain controls  
0 dB, full scale  
Limit (per channel)  
Power Supply, Power Consumption @ 1/8 Rated Power, Voltage (Breaker/Fuses)  
Signal (per channel)  
Digital Signal Processing (DSP)  
Display  
-24, -12, -6 dB  
USA / Canada  
120 V~, 60 Hz (T 6.3 A H 250 V)  
220-240 V~, 50/60 Hz (T 3.15 A H 250 V)  
220-240 V~, 50/60 Hz (T 3.15 A H 250 V)  
100 V~, 50/60 Hz (T 6.3 A H 250 V)  
150 W  
UK / Australia / Europe  
Korea / China  
LCD 128 x 32, amber backlit  
Digital delay function (per channel) 0 - 300 ms  
Japan  
Digital crossover function  
3 filter types, up to 48 dB/octave  
Power consumption @ 2 ohms  
Power consumption @ 4 ohms  
Mains connector  
Digital EQ function (per channel) 8-band parametric,  
70 W  
2-band dynamic equalizer  
Standard IEC receptacle  
Digital dynamics function  
(per channel)  
Zero attack limiter (peak)  
Dimensions/Weight  
Presets  
20 total presets, 19 user-definable  
Dimensions (H x W x D)  
appr. 3.5 x 19 x 9.76"  
appr. 89 x 483 x 248 mm  
Weight  
appr. 6.4 lbs / 2.9 kg  
21 iNUKE NU6000DSP/NU3000DSP/NU1000DSP User Manual  
FEDERAL COMMUNICATIONS  
COMMISSION COMPLIANCE  
INFORMATION  
iNUKE NU6000DSP/NU3000DSP/  
NU1000DSP  
Responsible Party Name:  
Address:  
MUSIC Group Services US Inc.  
18912 North Creek Parkway,  
Suite 200 Bothell, WA 98011,  
USA  
Phone/Fax No.:  
Phone: +1 425 672 0816  
Fax: +1 425 673 7647  
iNUKE NU6000DSP/NU3000DSP/NU1000DSP  
complies with the FCC rules as mentioned in the following paragraph:  
This equipment has been tested and found to comply with the limits for a Class B  
digital device, pursuant to part 15 of the FCC Rules. These limits are designed  
to provide reasonable protection against harmful interference in a residential  
installation. This equipment generates, uses and can radiate radio frequency  
energy and, if not installed and used in accordance with the instructions, may cause  
harmful interference to radio communications. However, there is no guarantee that  
interference will not occur in a particular installation. If this equipment does cause  
harmful interference to radio or television reception, which can be determined  
by turning the equipment off and on, the user is encouraged to try to correct the  
interference by one or more of the following measures:  
Reorient or relocate the receiving antenna.  
Increase the separation between the equipment and receiver.  
Connect the equipment into an outlet on a circuit different from that to which the  
receiver is connected.  
Consult the dealer or an experienced radio/TV technician for help.  
This device complies with Part 15 of the FCC rules. Operation is subject to the  
following two conditions:  
(1) this device may not cause harmful interference, and  
(2) this device must accept any interference received, including interference that may  
cause undesired operation.  
Important information:  
Changes or modifications to the equipment not expressly approved by MUSIC Group  
can void the user’s authority to use the equipment.  
We Hear You  

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