LumaStream Trinity PERMANENT User Manual

Document: 66APPMAN Rev: H

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8.0

OUTPUT CHANNEL REQUIREMENTS

8.1 Electrical Output Specifications:

Output specifications are defined in table 2 at the beginning of this manual.
Actual output currents and maximum voltages are dependant on the
model configuration, see table 6, 8, or table 10 at the beginning of this
manual for configuration options.

8.2 Output Wiring Requirements



WARNING: All output channels are isolated from each other and

require a separate 2 wire twisted pair for each output LED load.

When connecting LED loads to output cables observe ‘+’ and ‘-‘

polarity connections to prevent damage to loads. To reduce risk of
fire or electric shock, do not interconnect output terminations.



A common anode or cathode wiring method for multiple LED
loads cannot be used for the TRINITY LED Driver Dimmer.



All output wires should be connected to their respective LED loads

before power up to prevent inadvertent shorting of outputs. Shorting

of outputs (+ve to –ve only) will result in a hiccup mode of operation

with automatic recovery after removal of a short.



Output Class 2 circuit wiring must comply with NEC Article 725 wiring
methods or to CEC section 16-210 wiring methods.



Output cabling should be overall shielded cables with twisted pair

conductors (18 AWG ) to minimize cross talk between

channels and minimize Electromagnetic Interference (EMI). Consult

your local Electrical Safety Authority for acceptability in your end

use application.



With appropriate cabling, the TRINITY LED Driver Dimmer may be
remote mounted up to 150 feet (45 meters) from the LED loads.

Document: 66APPMAN Rev: H

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10.8 MULTI CHANNEL CONTROL MODES



The Trinity LED Driver Dimmer is able to link certain output channels
together so that they will respond on the same DMX channel. This is
useful for general illumination applications, For example all the lighting
in a room could be connected to a single Trinity LED Driver Dimmer,
and all lights can be dimmed by a single DMX channel. See table below

ADDRESS

FUNCTION/SEQUENCE (For a 9 & 12 Channel Unit)

601

DMX ADDRESS 1 CONTROLS CHANNELS 1,2 & 3; DMX ADDRESS 2
CONTROLS CHANNELS 4,5, & 6; DMX ADDRESS 3 CONTROLS
CHANNELS 7,8, & 9; DMX ADDRESS 4 CONTROLS CHANNELS 10, 11,
& 12

602

DMX ADDRESS 2 CONTROLS CHANNELS 1,2 & 3; DMX ADDRESS 3
CONTROLS CHANNELS 4,5, & 6; DMX ADDRESS 4 CONTROLS
CHANNELS 7,8, & 9; DMX ADDRESS 5 CONTROLS CHANNELS 10, 11,
& 12

…

…

699

DMX ADDRESS 99 CONTROLS CHANNELS 1,2 & 3; DMX ADDRESS
100 CONTROLS CHANNELS 4,5, & 6; DMX ADDRESS 101 CONTROLS
CHANNELS 7,8, & 9; DMX ADDRESS 103 CONTROLS CHANNELS 10,
11, & 12

700

CHANNELS 1 TO 6 ON DMX ADDRESS 1, CHANNELS 7 TO 12 ON
DMX ADDRESS 2

701

CHANNELS 1 TO 6 ON DMX ADDRESS 2, CHANNELS 7 TO 12 ON
DMX ADDRESS 3

…

…

799

CHANNELS 1 TO 6 ON DMX ADDRESS 99, CHANNELS 7 TO 12 ON
DMX ADDRESS 800

801

ALL CHANNELS ON DMX ADDRESS 1

802

ALL CHANNELS ON DMX ADDRESS 2

…

…

850

ALL CHANNELS ON DMX ADDRESS 50

ADDRESS

FUNCTION/SEQUENCE (For a 6 Channel Unit)

601

DMX ADDRESS 1 CONTROLS CHANNELS 1 & 2; DMX ADDRESS 2
CONTROLS CHANNELS 3 & 4; DMX ADDRESS 3 CONTROLS
CHANNELS 5 & 6;

602

DMX ADDRESS 2 CONTROLS CHANNELS 1 & 2; DMX ADDRESS 3
CONTROLS CHANNELS 3 & 4; DMX ADDRESS 4 CONTROLS
CHANNELS 5 & 6;

…

…

699

DMX ADDRESS 99 CONTROLS CHANNELS 1 & 2; DMX ADDRESS 100
CONTROLS CHANNELS 3 & 4; DMX ADDRESS 101 CONTROLS
CHANNELS 5 & 6;

700

CHANNELS 1 TO 3 ON DMX ADDRESS 1, CHANNELS 4 TO 6 ON DMX
ADDRESS 2

701

CHANNELS 1 TO 3 ON DMX ADDRESS 2, CHANNELS 4 TO 6 ON
DMX ADDRESS 3

…

…

799

CHANNELS 1 TO 3 ON DMX ADDRESS 99, CHANNELS 4 TO 6 ON
DMX ADDRESS 800

801 to 850

SAME AS 9 & 12 CHANNEL TABLE ABOVE