Mrc Ad324 User manual

AD324 ‘G’ Gauge

6-Function Decoder

with MRC Light Effects

Thank you for purchasing our highly advanced DCC locomotive

decoder. Combined with any DCC System, our decoder will

make your model railroad more realistic and exciting.

•Designed for G scale

•8 amp capacity

•Suitable for either 1 motor or 2 locomotives

•Programmable for either 2-digit (1-127) or 4-digit

(1-9999) addresses

•Programmable start voltage

•Programmable acceleration rate

•Programmable deceleration rate

•Programmable top voltage

•Programmable 14, 28 or 128 speed steps

•Directional lighting control for front and rear

lights at 0.2 amp rate

•Easy setting “Rule 17” lighting, ditch, strobe and

mars lights

•4 accessory functions (F1 to F4) at 0.1 amp rate

•Supports advanced consisting (CV19)

•Supports programming on the main

•Compatible with NMRADCC standard

•Complies with the part 15 of FCC

•2 wired quick disconnect plugs for easy decoder

installation

•Dimensions: 36mm x 88mm x 23mm



2003 MODEL RECTIFIER CORPORATION

80 NEWFIELD AVENUE, EDISON NJ 08837-3817

Tel. 732-225-6360

PRINTED IN CHINA

INS-2270

HOW TO SELECT THE MRC LIGHT EFFECTS

The AD324 is shipped from the factory in the normal/default mode (address #3)

normal lights & functions. There are two ways to access the MRC Light Effects:

1. The MRC EZ way (for all DCC systems except the MRC Command 2000):

Place your locomotive on a programming track. Program your locomotive to

address #1. To adjust the flash rates while in the programing mode, program

in a momentum/acceleration rate (CV#3). This step turns on our MRC Light

Effects. Final step: Now program in your locomotive running address, either

2 or 4-digit, and adjust the rest of your running parameters (momentum,

start voltage, etc). That’s it! To turn off the MRC Light Effects, simply

program the locomotive to address #3 and then follow the final step above.

You cannot run a locomotive on address #1 and retain normal lights/

function or run a locomotive on address #3 with MRC Light Effects.

These two addresses are reserved for turning the functions on and off,

but a locomotive will still be able to run on these addresses.

2. The other way:

If your non-MRC DCC system has the ability to program CVs, you can go

directly to the CVs to custom tailor your MRC Light Effects. You can use

the register/ CV chart we have provided for you in this instruction booklet or

visit the National Model Railroad Association website at www.nmra.org for

a more comprehensive understanding of CVs and registers.

PROGRAMMING

The AD324 decoder supports the following register and CV programming.

MRC PRODIGY DCC and MRC Command 2000 users do not need to know

all these register/CV numbers because the MRC DCC systems use model

railroading terminology. It is easy to understand and easy to program.

The MRC AD324 decoder should perform well when used with other brand

command systems. See your DCC command station’s manual to learn how to

program and operate the decoder. For more information about register/CVs

and their functions, please refer to the NMRA DCC Standard & Recommended

practices, RP-9.2.2 This is available directly from the NMRA or their website at

www.nmra.org.

FCC COMPLIANCE

This device complies with the part 15 of FCC rule. 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 interfer-

ence that cause undesired operation.

RETURN PROCEDURE

If it should become necessary to return your decoder, unplug the decoder and

return the decoder only. Please include a letter (printed clearly) with your

name, address, a daytime telephone number, and a detailed description of the

problem you are experiencing. Please also include a $9.00 check for handling

and shipping fee. Be certain to return the decoder only.

Send the decoder to:

Model Rectifier Corporation

Attn: Parts & Service

80 Newfield Avenue

Edison, NJ 08837-3817 U.S.A

CV Register Description Range Factory

Value

CV1 R1 Shortaddress 1-127 3

CV2 R2 Startvoltage 0-32 0

CV3 R3 Acceleration 0-32 0

CV4 R4 Deceleration 0-32 0

CV5 --- Maxvoltage 0-32 0

CV29 R5 Basic configuration --- 2

CV7 R7 Manufacturer version number --- 32

CV8 R8 Manufacturer ID --- 143

CV17 --- Long address upper byte 192-231 192

CV18 --- Long address lower byte 0-255 3

CV19 --- Advanced consist address 0-255 0

CV33 --- Forward headlight 0-255 1

CV34 --- Reverse headlight 0-255 2

CV35 --- Function 1 0-255 4

CV36 --- Function 2 0-255 8

CV37 --- Function 3 0-255 16

CV38 --- Function 4 0-255 32

CV39 --- Function 5 0-255 64

CV40 --- Function 6 0-255 128

CV41 --- Function 7 0-255 64

CV42 --- Function 8 0-255 128

CV62 --- Ditch lightflash rate 0-32 16

CV64 ---

Light effect setting

(0=special light effect/1=normal light effect) 0-1 1

CV105 --- User identifier number 0-255 0

CV106 --- User identifier number 0-255 0

--- R6 Page number 0-31 1

TEST

All MRC decoders have been factory programmed with address #3, 28/128

speed steps and maximum top voltage. After you have finished your decoder

installation, you are ready to test it. Never run the installed decoder on your

layout without first passing the test. You may damage the decoder if it is not

wired correctly or if you have not properly isolated the motor and the lights.

Put the loco on the test track. Select the Run Mode of your DCC system and

select or acquire address #3. Move up throttle and the loco should move

forward. Push the light button and the front light of your loco should turn on.

Push the reverse direction button. The loco should move backward and the

rear light should turn on. The loco cannot get normal speed because there is a

20-ohm protection resistor in the test track. If you are able to turn on/off the

front and rear lights and you are able to move the loco forward and reverse,

you did a great job. Congratulations! Do not test the loco on the test track

for an extended period of time. To do so will cause the protection resistor

to overheat.

If your installed decoder does not pass the test, find the problem, correct it

and test it again. As long as you test the decoder on the test track there is

little chance of damaging your decoder. This is why making a test track is

so important.

OPERATION

The AD324 decoder can be operated in either one of two ways:

1. Normal light/functions:

Headlights are directional and are controlled by your DCC system’s light

button (F0). Decoder functions (accessory lights) are normal on/off

controlled by F1-F4 buttons.

2. MRC Light Effects:

All MRC Light Effects have adjustable flash rates.

A. “Rule 17” directional headlights: Headlights on/off (F0). One light is bright

to indicate direction of travel, the other is dim. Uses normal headlight

wiring (white, yellow and blue common wire).

B. Ditch lights: Using decoder accessory function wire (F1-green and

F2-purple) and blue common wire.

F1 button: Double clicking F1 button turns ditch lights steady on or off,

still giving you independent operation of F1 function such as

bell sound.

F2 button: Using function button F2, ditch lights will flash fifteen (15) times.

F3 button: Using function button F3, the ditch lights will flash ten (10) times.

If your DCC system has an F5 button, this can be used to turn ditch

lights steady on/off instead of double clicking the F1 button.

The following two MRC Light Effects (C & D) can be used separately or

together and are controlled by function button F4.

C. Strobe light: Using decoder accessory function wire (F3-brown) and blue

common wire.

D. Mars light:Using decoder accessory function wire (F4-pink) and blue

common wire.

INSTALLATION

It is quite a challenge to install a decoder into a “G” scale 2-motor locomotive. You

should have some basic electrical knowledge and soldering skills. If you do not

have the above requirements, please ask the dealer for help in installation.

Figure 1 shows the electrical circuit of most standard locomotives. The terminals of

the motor(s), light(s) and smoke unit are directly connected to the wheel pick-ups.

Each type of loco has its own method of electrical pick-up and distribution. The

connection between the wheels, motor(s), light(s) and smoke unit could be wires,

clips, the body or chassis, a PC board or any other type of conductor. Figure out

your loco’s electrical system and how to disconnect (isolate) the motor(s), light(s)

and the smoke unit.

Figure 1. Connection of standard locomotive. Note: The ‘X’ marks indicate

where to disconnect (isolate).

The decoder will be inserted between the wheel pick-ups and the motor(s). The ‘X’

marks in Figure 1 show you where to disconnect (isolate). Please observe the

polarity of both motors in dual motored locomotives so both motors operate in the

same direction.

The G scale decoder has 2 sets of red wires, black wires, orange wires, and gray

wires to make the wiring of your dual motored locomotive easier. You could use just

one of each color or both, depending upon which is easier for you.

Figure 2 shows you how to wire the decoder. After disconnecting the motor

terminals from pick-ups, connect the red wire to the right side pickup and the black

wire to the left side pick up. Connect the orange wire to the motor terminal that

originally connected to the right pickup. Connect the gray wire to the motor’s other

terminal. Connect the front light to the blue wire and the white wire. Connect the

rear light to the blue wire and the yellow wire.

The two blue wires are the common terminal for lights and accessory functions. You

may use the black wire or the red wire to replace the blue wire. This is very useful

when you find that it is hard to isolate one of the light terminals from the pickup.

Wiring the bulb this way will also make the light dimmer. If your loco has only a

front light, you should connect the white and the yellow wires together.

Smoke units draw a lot of current! If your locomotive comes equipped with

a smoke unit, do not attempt to power it off any of the decoder functions.

Wire it directly to the wheel pick-ups for constant smoke emission

MAKE A TEST TRACK

Before you start with your decoder installation, we strongly recommend building a

test track that uses a 20-ohm resistor to limit current. Only test your installed

decoder on the test track. The test track will prevent any damage due to an

incorrectly wired decoder. Figure 3. Diagram of test track

Right side pickup

Front

light Motor Rear

light

Left side pickup

X X

X X X

Figure 2. AD324 wiring diagram

DCC base unit

Power supply

Test track

20 ohm resistor

Popular Media Converter manuals by other brands

TR-Electronic

TR-Electronic CMS582M-4096/4096 IOL DMS 14H7 KRF Assembly instructions

Korenix

Korenix JetCon 2301S user manual

StarTech.com

StarTech.com ET91000LCOAM manual

Alesis

Alesis AI-3 Reference manual

Caton

Caton Vpro 5100 user guide

Cypress

Cypress CSC-5500 Operation manual

H&B

H&B TX-100 Installation and instruction manual

Bolin Technology

Bolin Technology D Series user manual

IFM Electronic

IFM Electronic Efector 400 RN30 Series Device manual

GRASS VALLEY

GRASS VALLEY KUDOSPRO ULC2000 user manual

Linear Technology

Linear Technology DC1523A Demo Manual

Lika

Lika ROTAPULS I28 Series quick start guide

Weidmuller

Weidmuller IE-MC-VL Series Hardware installation guide

Optical Systems Design

Optical Systems Design OSD2139 Series Operator's manual

Tema Telecomunicazioni

Tema Telecomunicazioni AD615/S product manual

KTI Networks

KTI Networks KGC-352 Series installation guide

Gira

Gira 0588 Series operating instructions

Lika

Lika SFA-5000-FD user guide

MRC AD324 User manual

Popular Media Converter manuals by other brands