Interfire D900.1, D1700.1, D3000.1 Instruction Manual

MONO CHANNEL CLASS "D"

AUTOMOTIVE AMPLIFIER

INSTRUCTION MANUAL

D900.1 / D1700.1 / D3000.1

PLEASE READ ALL INSTRUCTIONS BEFORE INSTALLATION !

free installation.

CONGRATULATIONS ON YOUR PURCHASE

Your new high fidelity mono block amplifier is designed to deliver maximum enjoyment
and one year of trouble free service. Please take a few moments to read this manual
thoroughly. It will explain the features and operation of your unit and help insure trouble

FEATURES

• Class ''D'' Technology

• 1 Ohm Stable

• Spec Audiophile Grade Components

• High Efficiency PWM Power Supply

- Multi-stranded power toroid

- Tow toroidal core

- MOSFET transistors

• Oversized Capacitor Banks

• Discrete Mount Power and speaker terminals

• Variable Low Pass Electronic Crossover 50Hz - 250Hz

• Built in power bridging module

• Circuit / Thermal / Overload Protection

• Remote Level Control

IMPORTANT

The quality of installation may affect the performance and reliability of your product. If
you have any doubts or questions regarding installation, you may wish to contact your
authorized dealer. Remember to heed all wire and fuse requirements suggested in this
manual. Warranty may be void if proper installation technique is not used (refer to warranty

section in the rearof the manual )

1

INSTALLATION

1. After reading precaution, decide where you are going to install the unit. Also, see Fig.1.

2. Once the location has been determined, place the amplifier into position. Using a felt tip
pen or pencil mark the four holes to be drilled for mounting. NEVER use the amplifier as
a template for drilling. It is very easy to damage the amplifier surface in this manner.

3. Remove amplifier. Drill four 3.5 m/m holes into mounting surface. If you want to mount

4. If possible, test the system to ensure it is operating correctly before final mounting of

5.

INSTALLATION DIAGRAM

FIG.1

2

Self Tapping Screws

MOUNTING:

Mount the amplifier using the supplied 4 self tapping screws.

the amplifier to MDF or wood panel, drill four 3.0m/m diameter holes into mounting surface.

the amplifier.

POWER

GND+12V REM

ON

PROTECT

SPEAKER FUSE

POWER

GND+12V REM

ON

PROTECT

SPEAKER FUSE

The Class "D" amplifier is a SINGLE CHANNEL dedicated subwoofer amplifier. Unlike
other amplifiers, the Class "D" operates as a single channel and cannot be bridged.
Don't be fooled by the outputs. Two outputs are used strictly for convenience and are
paralleled internally on the amplifier. This means that if both outputs are used with one
driver each, the amplifier sees the same load as if the same drivers are connected to

4OHM

SUBWOOFER

4OHM

SUBWOOFER

4OHM

SUBWOOFER

3

4OHM

SUBWOOFER

only one output terminal. See diagram below.

SPEAKER WIRING

In both diagrams, the amplifier sees a 2 ohm load.

4

FROM
RADIO

MONO BRIDGED

REMOCON

GAIN

L.P.F BASS

BOOST

50Hz

250Hz

L

R

LINE INPUT

SLAVE

6V 0.2V

MASTER SLAVE

0dB 12dB

REMOCON

GAIN

L.P.F BASS

BOOST

50Hz

250Hz

L

R

LINE INPUT

SLAVE

6V 0.2V

MASTER SLAVE

0dB 12dB

WIRING SUBWOOFERS (DUAL AMPS)

When using dual amplifiers to power one subwoofer, the Positive terminal of the Subwoofers
voice coil is connected the positive terminal of the MASTER Amplifier and the Negative terminal
of the Subwoofers voice coil is connected to Positive terminal on the SLAVE Amplifier. This
procedure will allow the total power of both amplifiers to be added together and act like a single
powerful amplifier. Please check that your subwoofer power handling capabilities are not exceeded

CAUTION

Always check your speaker load with a multi-meter before hooking up to the amplifier. These
digital amplifiers are only 1 ohm stable. Any Impedance (load) smaller than 1 ohm will damage
the amplifier. Such Damage is not covered under warranty either, so pay strict attention to what

when hooking two amplifiers to it.

connections are made to the amplifier.

Master
Amplifier

Slave
Amplifier

MASTER SLAVE

MASTER SLAVE

5

MONO BRIDGED

Master
Amplifier

Slave
Amplifier

(OPTION) TWO AMPLIFIER/ ONE SUBWOOFER (SINGLE VOICE COIL)CONFIGURATION

POWER

GND+12V REM

ON

PROTECT

SPEAKER FUSE

POWER

GND+12V REM

ON

PROTECT

SPEAKER FUSE

CHASSIS GROUND

REMOTE TURN ON

BATTERY VIA FUSE

Using a lead wire of 8 gauge or
bigger connect from the master
Amp's negative(-) speaker
terminal to the slave Amp's
negative(-) speaker terminal.

Master
Amplifier

Slave
Amplifier

POWER

GND+12V REM

ON

PROTECT

SPEAKER FUSE

POWER

GND+12V REM

ON

PROTECT

SPEAKER FUSE

Recommend : Competition Only

MONO BRIDGED

(OPTION) FOUR AMPLIFIER/ ONE SUBWOOFER (DUAL VOICE COIL)CONFIGURATION

6

Master
Amplifier

Slave
Amplifier

POWER

GND+12V REM

ON

PROTECT

SPEAKER FUSE

POWER

GND+12V REM

ON

PROTECT

SPEAKER FUSE

Master
Amplifier

Slave
Amplifier

POWER

GND+12V REM

ON

PROTECT

SPEAKER FUSE

POWER

GND+12V REM

ON

PROTECT

SPEAKER FUSE

Voice
Coil1

Voice
Coil2

7

The proper wire size is very important for an amplifier of this power level. Because the
Class "D" amplifier is capable of drawing in excess of 90 amperes,4 gauge wire is
recommended for lengths up to twenty feet. if a longer length is needed, a larger gauge

Amplifier power wire should be wired directly to the battery using the wire requirements
listed above. Start at the amplifier and run the power wire through the vehicle to the
battery. The use of grommets is recommended when passing the power wire through
any metal wall. Avoid sharp corners or sharp body parts that may easily cut through the
insulation on the wire. Avoid running the power wire over engine components and near
heater cores. Use an inline fuse to eliminate the risk of a fire caused by a short in your
power wire. Connect the fuse holder as close to the battery positive as possible. For
most applications, an 80 ampere Maxi fuse or comparable ANL wafer fuse can be used.
Now connect the wire to the battery, but remember to leave the fuse out until all other

POWER SUPPLY CONNECTIONS

RECOMMENDED POWER WIRE

POWER

The Class "D" amplifier is designed to work within 10 to 16 volts DC. Before any wires
are connected, the vehicle's electrical system should be checked for correct voltage
supply with the help of a voltmeter. First check the voltage at the battery terminals with
the ignition in the off position. The voltmeter should read no less than 12 volts. Next,
check the battery with the engine running between 1500 and 2000 rpm. The voltmeter
should now read between 13.5 and 14.5 volts. If your vehicle's electrical system Is not
up to these specifications, we recommend having it checked by an automotive mechanic
before further installation.

wire may be necessary.

wire connections are mode.

When grounding your amplifier, locate a metal area close to the amplifier that is a good
source of ground ( preferably the floor ).Once again, investigate the area you wish to use
for electrical wires, vacuum lines, and brake or fuel lines. Using either a wire brush or
sandpaper eliminate unwanted paint to supply a better contact for your ground. Use the
same gauge wire for ground as you did for the power. Terminate the ground wire using the
correct size ring terminal and attach it to the bare metal using a nut and bolt. It is important
for this connection to be solid. To complete the job, spread silicon over the screw and bare

GROUND

REMOTE TURN-ON

metal to prevent rust and possible water leaks.

In between the power and ground is a remote turn-on terminal. This terminal must be
connected to a switched +12volt source. Typically, remote turn-on leads are provided
at the source unit that will turn on and off the amplifier in correspondence with the source.
If a radio does not have a remote turn-on, then a power antenna wire may be used. Yet, if
neither of these leads are available at the source, a switched +12 volt supply must be
supplied. Run a minimum of 18-gauge wire from the amplifier location to the source of the
switched +12 volt lead. If possible, route this wire on the same side of the vehicle as your
power wire. Connect the source remote output wire to the REM terminal on the amplifier
using a 3mm screw key. Cut the remote wire to length. Strip approximately 1/2 inch of
insulation from the end of the wire and insert into the terminal. Tighten the screw securely.

8

1 2 3 4 5 6 7

1. RCA Input Jacks 2. Input Level Control 3. Low Pass Frequency

4. Bass Boost

5. Remote Control Jack 6. Master/Slave Switch 7. Slave Input Jack

OPERATION

REMOCON

GAIN

L.P.F BASS

BOOST

50Hz

250Hz

L

R

LINE INPUT

SLAVE

6V 0.2V

MASTER SLAVE

0dB 12dB

Control and Crossover

1. RCA Input Jacks - Low level-high impedance inputs. Use high quality RCA cables designed
for mobile applications.

2. Input Level Control - Adjust the input level for the marked channels. Turn clockwise to
increase the level, counterclockwise to decrease. Amplifiers will run cooler and produce
less system noise at lower level settings.

3. Low Pass Frequency - Adjust the crossover frequency by turning clockwise to set to a higher
frequency, counterclockwise to set to a lower frequency.

4. Bass Boost - Adjust the sub boost level of the selected frequency output from 0dB to 12dB.

5. Remote Control Jack - For connecting the remote control module to the amplifier.

6. Master/Slave Switch - Select the remote level control or the on-board level control as the
master control.

7. Slave Input Jack - Used to connect to another amplifier when bridging 2 amps together.
The Slave mode bypasses normal input jacks and controls.

REMOCON

GAIN

L.P.F BASS

BOOST

50Hz

250Hz

L

R

LINE INPUT

SLAVE

6V 0.2V

MASTER SLAVE

0dB 12dB

9

FRONT/REAR PANEL

POWER

GND+12V REM

ON

PROTECT

SPEAKER

D3000.1

POWER

GND+12V REM

ON

PROTECT

SPEAKER FUSE

30A30A 30A

D1700.1

POWER

GND+12V REM

ON

PROTECT

SPEAKER FUSE

25A25A 25A

D900.1

D900.1, D1700.1, D3000.1

D900.1

D1700.1

D3000.1

10

This section provides you with a catalog of amplifier symptoms and their probable causes
and solutions. Before you consult this listing, make sure the vehicle's electrical system is
working properly by verifying that other electrical items (e. g. headlights, windows, etc.)
Still function correctly.

TROUBLE SHOOTING GUIDE.

No Audio

Low or N.C Remote
Turn-on connections

Blown Fuse

Power wires not connected

Blown or non speakers
connected

Check remote turn-on voltage at
amp and head unit

Replace with new fast-blow fuse

Check butt splices or solder joints

Check ground and battery
connections

Use VOM or DVM to measure speaker
coil

impedance; check speaker wiring
connections

SOLUTIONPROBABLE CAUSE

SYMPTOM

See adjustment procedure and check
each step;

Inspect each speaker for damage
and repair or replace suspected
component
Refer to head unit owner's manual

Input Sensitivity not set
properly

or damaged speaker cones

Low turn-on voltage

Distorted Audio

Audio Level Low Mute circuit on head

unit is on.

Check electrical system for low
voltage;
Check ground connection

Audio Lacks

Speakers wired with wrong
polarity, causing

cancellation of bass

frequencies

Check polarity of wires from
amplifiers to each speaker as defined

by the system design

Check battery voltage at amplifier
during operation

External Fuse
Blowing

Incorrect wiring or short
circuit

Refer to electrical installation and
check each installation step

Whining noise
on audio with
engine running

Amplifier is picking
up alternator noise

Install an in-line noise filter on the
head unit's power wire; Check
alternator routing diodes or voltage
regulator for proper operation. Check

all grounds , battery voltage, and
RCA cables

Ticking noise on
audio with
engine
running

Amplifier is picking up

radiated spark noise

Check RCA audio cable; Install an
in-line noise filter on the head unit's
power wire. Check spark plug wires.

11

NOTE : Specifications & design subject to change without notice
for improvements.

SPECIFICATION

AMPLIFIER

D900.1 D1700.1 D3000.1

RMS POWER / 1 ohm @ 1% T.H.D

900W x 1 1700W x 1 3000W x 1

650W x 1 1000W x 1 2000W x 1

350W x 1 500W x 1 1000W x 1

90% 90% 90%

79% 79% 79%

10Hz ~ 250Hz 10Hz ~ 250Hz 10Hz ~ 250Hz

>100dB >100dB >100dB

150 150 150

200mV ~ 6V 200mV ~ 6V 200mV ~ 6V

20K Ohms 20K Ohms 20K Ohms

75Amp 90 Amp EXTERNAL

257 x 56 x 320 257 x 56 x 350 257 x 56 x 420

Variable

50 ~ 250Hz

Variable

50 ~ 250Hz

Variable

50 ~ 250Hz

24dB 24dB 24dB

20 ~ 50Hz @ 24dB 20 ~ 50Hz @ 24dB 20 ~ 50Hz @ 24dB

2 ohms @ 0.05% T.H.D

4 ohms @ 0.05% T.H.D

Efficiency / Typical @ 4 ohms

MIN RATE @ 1 ohm

Signal To Noise Ratio ('A' WTD)

Damping Factor

Input Sensitivity

Input Impedance

Circuit Breaker

Dimensions (W x H x D) mm

Crossover Selector Switch

Variable Low Pass Filter

X-Over Slope

Variable Subsonic Filter

Bandwidth ±1dB

Interfire Audio, Inc.
Santa Fe Springs, CA 90670
www.interfireaudio.com

Printed in Korea