DecaLED 95312351 User manual
DecaLED®High Power DMX
Controller TV
95312351
Manual
Description
The DecaLED®High Power DMX Controller TV offers a solution for controlling all dimmable 1 Watt Power LED
products. The DecaLED®High Power DMX Controller TV is also ideally suited to use in TV studios, as it causes no
interference to cameras.
Package contents
1 x DecaLED High Power DMX Controller TV
1 x Manual
Carefully unpack the carton. Check the contents to ensure
that all parts are present and have been received in good
condition. If any parts appear damaged or missing, notify
the shipper immediately and retain packing material for
inspection. In the event that the xture must be returned to
the factory, it is important that the xture is returned in the
original factory box and packaging.
Safety Instruction
The ground connection should be essential for this unit.•
Donotmakeanyinammableliquids,waterormetalobjectsentertheunit.•
Topreventorreducetheriskofelectricshock,donotopenthetopcover.•
Thisunitmustbeoperatedbyadults,tonotallowchildrentoplaywithit.•
There are no user serviceable parts inside this unit. Do not attempt any repairs yourself.•
Shouldyouexperienceanyproblemduringuse,pleasecontactyourlocaldealerimmediately.•
Donotdiscardtheshippingcartoninthetrash.Pleaserecyclewheneverpossible.•
Alwaysconsultauthorizedpersonellforanyrepairsandmaintenance.•
Features
USITT Standard DMX-512 (1990) multiplexed digital control, via 3-pin XLR connector and terminals.•
DMX Control Mode and Stand Alone Mode available.•
1~7 patterns plus a sequence of 7 patterns, chase speed and fade time adjustable.•
Different Ouput Group modes for user assignable.•
Output loading modes available in RGB mode, WHITE mode and COOL WHITE & WARM WHITE mode.•
Manual Dim mode allows to control overall output intensity.•
Full range voltage of AC 110-120V / AC 220-240V power input option by voltage selector.•
Providing built-in DC24V 6.5A / 48V 3.2A PSU.•
Power Failure Memory.•
Installation
Connectingthepowersupply
Before plugging your unit in, be sure the voltage in your area matches the required voltage for you The
DecaLED®High Power DMX Controller TV power supply. The DecaLED®High Power DMX Controller TV is
available in a 120V and 230V version. Due to variations in line voltage from venue to venue, be sure to plug
your power supply into a wall outlet with matching power before attempting to operate.
Datacable(DMXcable)requirements
Connect the DecaLED® High Power DMX Controller TV and you xtures using standard 3-pin DMX cables. The
DecaLED® High Power DMX Controller TV uses the DMX-512 protocol to operate your xtures.
Instruction Manual
P/N:24-004-2151-00
Draft copy(Rev1.0)
0 = OFF 1 = ON
000
100
010
110
001
101
011
111
0%
100%
123
ON
FADE TIME
000
100
010
110
001
101
011
111
0.1S
0.2S
0.5S
1S
5S
10S
20S
30S
456
ON
SPEED
000
100
010
110
001
101
011
111
1
2
3
4
5
6
7
AUTO
7 8 9
ON
PROGRAM
(Dip Switches 10 = off)
STAND ALONE
............
1 2 3 4 5 6 7 8 9 10
ON RS
1,2,4
3,4
1,3,4
2,3,4
1,2,3,4
1,2,3,4,5,6,7,8,9
1
2
1,2
3
1,3
2,3
1,2,3
4
1,4
2,4
DMX ADDRESS (SLAVE)
SWITCHES ON SWITCHES ON
(Dip Switches 10 = on)
START
CH#
START
CH#
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
..
511
..
..
..
..
..
..
..
1 2 3 4 5 6 7 8 9 10
ON RS
MODE OUTPUT
00 1 Group
10 2 Group
01 3 Group
11 6 Group
OUTPUT TERMINALS
4
5
1 =ON
0=OFF
1
2
1 =ON
0=OFF
00 RGB
10 White
01 White & Wa rm
11 RGB
1
Red +
White +
+
Red +
Warm White
2
Red -
White -
Warm White -
Red -
3
Green +
White +
White +
Green +
4
Green -
White -
White -
Green -
5
Blue +
White +
Warm White +
Blue +
6
Blue -
White -
Warm White -
Blue -
123456
www.decaled.com
Product code:
High Power DMX Controller TV
95312351
Product code: 95312351
High Power DMX Controller TV
If you want to construct your own data cables, be sture to use standard two conductor shielded cable (this
cable may be purchased at almost all professional sound and lighting stores). Your cables should be made
with a 3-pin male and female XLR connector on either end of the cable. Also remember that DMX lines must
be daisy chained and can not be split.
Be sure to follow the gures 2 and 3 below when making your own cables. Do not use the ground lug on the
XLR connector. Do not connect the cable’s shield conductor to the ground lug or allow the shield conductor
to come in contact with the XLR’s out casing. Grounding the shield could case a short circuit and erratic
behavior.
Special note: Line termination
When longer runs of cable are used, you may need to use a terminator on the last unit to avoid erratic
behavior. A terminator is a 120 Ohm 1/4W resistor which is connected to pins 2 and 3 of a male XLR connector
(DATA+ and DATA-). This unit is inserted in the female XLR connector of the last unit in your daisy chain to
terminate the line. Using a cable terminator will decrease the possibilities of erratic behavior.
5-pin XLR DMX connectors
Some manufacturers use 5-pin XLR connector for DATA transmission in place of 3-pin. 5-pin XLR xtures may be
implemented in a 3-pin XLR DMX line. When inserting standard 5-pin XLR connectors in to a 3-pin line a cable
adaptor must be used, these adaptors are readily available at most electric stores. The chart below details a
proper cable conversion:
Controls and functions
Rear panel layout
Power input: AC100~120V (3.2A) / AC220~240V (1.2A), 50~60Hz1.
Voltage selector: AC120V/230V optional by this voltage selector2.
2.Main Features
3.Set Up
3.1 Power Supply:
Before plugging your unit in, be sure the source voltage in your area matches the required voltage for your
High Power DMX Controller TV power supply. The High Power DMX Controller TV is available in a 120v and
230v version. Due to variations in line voltage from venue to venue, be sure to plug your power supply into a
wall outlet with matching power before attempting to operate.
Notice:
Be sure to follow figures two and three when making your own cables. Do not use the ground lug on the XLR
connector. Do not connect the cable's shield conductor to the ground lug or allow the shield conductor to
come in contact with the XLR's outer casing. Grounding the shield could cause a short circuit and erratic
behavior.
Figure 1
If you are constructing your own data cables, be sure to use standard two conductor
shielded cable (This cable may be purchased at almost all professional sound and
lighting stores). Your cables should be made with a 3-pin male and female XLR
connector on either end of the cable. Also remember that DMX lines must be daisy
chained and can not be split.
High Power DMX Controller TV is a HP LED control unit, specially used to drive 1 Watt high power LED
fixtures, such as High Power LED Bar.
High frequency driving HP LED bars suitable for CCD cameras pick up facility.
High Power DMX Controller TV is engaged as a combination of a control interface and tension provider
for 1Watt high power LED fixtures.
Ability of the maximum of 6 channels can be controlled separately, allows a maximum loads of 3x350mA
per output and the maximum amount connected loads distributed over all 6 outputs must not exceed 6A.
All work modes and parameters can be set by flipping 10-way Function Dip Switch and 6-way Mode Dip
Switch.
USITT DMX512(1990) multiplexed digital control, via 3 pin XLR connector or terminals.
DMX Control Mode and Stand Alone Mode available .
1~7 patterns plus a sequence of 7 patterns, chase speed & fade time adjustable..
Different Output Group modes for user assignable.
Output loading modes available in R.G.B mode, WHITE mode and COOL WHITE& WARM WHITE mode.
Manual Dim mode allows to control overall output intensity.
AC 110-120V/AC220-240V power input option by voltage selector.
Providing built-in DC24V 6.5A/48V 3.2A PSU.
Power Failure Memory.
Full range voltage of
-2-
3.2 Data Cable (DMX Cable) Requirements:
Connect the High Power DMX Controller TV and your fixtures together using standard 3 pin DMX cables. The
High Power DMX Controller TV uses DMX-512 protocol to operate your fixtures.
Figure 2
Figure 3
Line Termination. When longer runs of cable are used, you may need to use a terminator on the last unit to
avoid erratic behavior. A terminator is a 120 ohm 1/4 watt resistor which is connected between pins 2 and 3
of a male XLR connector (DATA + and DATA -). This unit is inserted in the female XLR connector of the last
unit in your daisy chain to terminate the line. Using a cable terminator will decrease the possibilities of
erratic behavior.
XLR Male Socket
1 Ground 2 Cold
3 Hot
XLR Female Socket
3 Hot
2 Cold 1 Ground
XLR Pin Configuration
Pin 1 = Ground
Pin 2 = Data Compliment (negative)
Pin 3 = Data True (positive)
DMX 512 OUT
3-PIN XLR
1
2
3
1
2
3DMX 512 IN
3-PIN XLR
Special Note:
Termination reduces signal errors and avoids signal transmission
problems and interference. It is always advisable to connect a
DMX terminal, (Resistance 120 Ohm 1/4 W) between PIN 2 (
DMX-) and PIN 3 (DMX +) of the last fixture. Figure 4
4.Product Layout & Functions
1. Dip Switches(10-way and 6-way):
Flip 10-way and 6-way Dip Switches to set some functions and modes for user's desired effects.
2. DMX Input:
3-Pin XLR male connector or terminal. Connect a universal DMX controller into this input for receiving DMX
values or DMX signals.
3. DMX Output:
3-Pin XLR female connector or terminal. Connect to next DMX fixtures for sending DMX values or DMX
signals.
4. Output:
6 terminal output connectors, allows a maximum loads of 3x350mA per output and the maximum amount
connected loads distributed over all 6 outputs must not exceed 6A.
-3-
4.1 Front Panel Layout
1
2
3
3-Pin XLR to 5-Pin XLR Conversion
Conductor
Ground/Shield
Data Compliment(-signal)
Data True(+signal)
Not Used
Not Used
3-Pin XLR Female(Out)
Pin 1
Pin 2
Pin 3
5-pin XLR Male(In)
Pin 1
Pin 2
Pin 3
Pin 4 - Do Not Used
Pin 5 - Do Not Used
5-Pin XLR DMX Connectors.
Some manufactures use 5-pin XLR connectors for DATA transmission in place of 3-pin. 5-pin XLR fixtures may
be implemented in a 3-pin XLR DMX line. When inserting standard 5-pin XLR connectors in to a 3-pin line a
cable adaptor must be used, these adaptors are readily available at most electric stores. The chart below
details a proper cable conversion.
4
2
3
1
Termination reduces signal errors and avoids signal transmission
problems and interference. It is always advisable to connect a
DMX terminal, (Resistance 120 Ohm 1/4 W) between PIN 2 (
DMX-) and PIN 3 (DMX +) of the last fixture. Figure 4
4.Product Layout & Functions
1. Dip Switches(10-way and 6-way):
Flip 10-way and 6-way Dip Switches to set some functions and modes for user's desired effects.
2. DMX Input:
3-Pin XLR male connector or terminal. Connect a universal DMX controller into this input for receiving DMX
values or DMX signals.
3. DMX Output:
3-Pin XLR female connector or terminal. Connect to next DMX fixtures for sending DMX values or DMX
signals.
4. Output:
6 terminal output connectors, allows a maximum loads of 3x350mA per output and the maximum amount
connected loads distributed over all 6 outputs must not exceed 6A.
-3-
4.1 Front Panel Layout
1
2
3
3-Pin XLR to 5-Pin XLR Conversion
Conductor
Ground/Shield
Data Compliment(-signal)
Data True(+signal)
Not Used
Not Used
3-Pin XLR Female(Out)
Pin 1
Pin 2
Pin 3
5-pin XLR Male(In)
Pin 1
Pin 2
Pin 3
Pin 4 - Do Not Used
Pin 5 - Do Not Used
5-Pin XLR DMX Connectors.
Some manufactures use 5-pin XLR connectors for DATA transmission in place of 3-pin. 5-pin XLR fixtures may
be implemented in a 3-pin XLR DMX line. When inserting standard 5-pin XLR connectors in to a 3-pin line a
cable adaptor must be used, these adaptors are readily available at most electric stores. The chart below
details a proper cable conversion.
4
2
3
1
230
RISK OF ELECTRIC SHOCK
DISCONNECT INPUT POWER
BEFORE OPENING
N'OUVREZ PAS..RISQUE DE CHOC ELECTRIQUE
WARNING: THIS APPARATUS MUST BE EARTHED
POWER INPUT: 110-120VAC(3.2A) / 220-240VAC(1.6A), 50/60Hz.
CAUTION ! POWER IN
Made in PRC
VOLTAGE-SELECT
High Power DMX Controller TV
Product code: 95312351
5.2Stand Alone Mode
The Stand Alone Mode is engaged in by flipping the dip-switch 10 to the "OFF" position. And this mode includes
sub-modes with many functions, such as fade time, chasing speed, built-in programs.
12 3 4 5 6 7 8 910
ON RS
ON
OFF
1,2,4
3,4
1,3,4
2,3,4
1,2,3,4
1,2,3,4,5,6,7,8,9
1
2
1,2
3
1,3
2,3
1,2,3
4
1,4
2,4
DMX ADDRESS (SLAVE)
SWITCHES ON SWITCHES ON
(Dip Switch 10 = on)
START
CH#
START
CH#
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
..
511
..
..
..
..
..
..
..
12 3 4 5 6 7 8 910
ON RS
DMX is short for Digital Multiplex. This is a universal binary language used as a form of communication
between intelligent fixtures. Each dip switch represents a binary value.
5.Operation Guide
A DMX value(address) is set by combining the different dipswitches that will add up to the value you wish to
achieve, for example:
Setting DMX address for 21.
Flip switches1,3,&5 to the
"ON" position
Setting DMX address for 201.
Flip switches1,4,7,& 8 to the
"ON" position
Dipswitches# Value
1=1
3=4
5=16
=21
Dipswitches# Value
1=1
4=8
7=64
8=128
=201
-4-
4.2 Rear Panel Layout
1. Power Input: AC110~120V(3.2A) /AC220~240V(1.2A), 50~60Hz.
2. Voltage Selector: AC120V/230V optional by this voltage selector.
In this mode, the dip-switch 10 is flipped to the "ON" position. And this switch sometimes used to activate
some fixture special functions.
Dip Switch 1 address equals 1
Dip Switch 2 address equals 2
Dip Switch 3 address equals 4
Dip Switch 4 address equals 8
Dip Switch 5 address equals 16
Dip Switch 6 address equals 32
Dip Switch 7 address equals 64
Dip Switch 8 address equals 128
Dip Switch 9 address equals 256
5.1 DMX Control Mode(DMX Addressing)
1
2
Front panel layout
Dip-switches(10-wayand6-way)1.
Flip 10-way and 6-way dip-switches to set some functions and modes for user’s desired effects.
DMX input2.
3-pin XLR male connector or terminal. Connect a universal DMX controller into this input for receiving
DMX values or DMX signals.
DMX output3.
3-pin XLR female connector or terminal. Connect to next DMX xtures for sending DMX values or DMX
signals.
Output4.
6 terminal output connectors, allows a maximum load of 3 x 350mA per output and the maximum
amount connector load distributed over all outputs must not exceed 6A.
Physical dimensions
Termination reduces signal errors and avoids signal transmission
problems and interference. It is always advisable to connect a
DMX terminal, (Resistance 120 Ohm 1/4 W) between PIN 2 (
DMX-) and PIN 3 (DMX +) of the last fixture. Figure 4
4.Product Layout & Functions
1. Dip Switches(10-way and 6-way):
Flip 10-way and 6-way Dip Switches to set some functions and modes for user's desired effects.
2. DMX Input:
3-Pin XLR male connector or terminal. Connect a universal DMX controller into this input for receiving DMX
values or DMX signals.
3. DMX Output:
3-Pin XLR female connector or terminal. Connect to next DMX fixtures for sending DMX values or DMX
signals.
4. Output:
6 terminal output connectors, allows a maximum loads of 3x350mA per output and the maximum amount
connected loads distributed over all 6 outputs must not exceed 6A.
-3-
4.1 Front Panel Layout
1
2
3
3-Pin XLR to 5-Pin XLR Conversion
Conductor
Ground/Shield
Data Compliment(-signal)
Data True(+signal)
Not Used
Not Used
3-Pin XLR Female(Out)
Pin 1
Pin 2
Pin 3
5-pin XLR Male(In)
Pin 1
Pin 2
Pin 3
Pin 4 - Do Not Used
Pin 5 - Do Not Used
5-Pin XLR DMX Connectors.
Some manufactures use 5-pin XLR connectors for DATA transmission in place of 3-pin. 5-pin XLR fixtures may
be implemented in a 3-pin XLR DMX line. When inserting standard 5-pin XLR connectors in to a 3-pin line a
cable adaptor must be used, these adaptors are readily available at most electric stores. The chart below
details a proper cable conversion.
4
2
3
1
6.Technical Specifications
Power Input: AC110-120V(3.2A)/AC220~240V(1.2A)-50/60Hz
DMX In: 3-pin male XLR connector or terminal
DMX Out: 3-pin female XLR connector or terminal
Output: 6 output terminals, 3x350mA per output
Dimension: 285X176X67mm
Weight: 2.2kg
*Please Note:
Specifications and improvements in the design of this unit and this manual are subject to change without any
prior written notice.
Physical Dimensions
Front View Back View
Top View
High Power DMX Controller TV
-8-
Operation guide
1.1DMXControlMode(DMXaddressing)
DMX is short for Digital Multiplex. This is a universal binary language used as a form of communication between
intelligent xtures. Each Dip Switch(10-digit Addressing Dip Switch) represents a binary value.
To enter this mode, dip-switch 10 is ipped to the “ON” position. This switch is sometimes used to activate some
xture special functions. A DMX value(address) is set by combining the different dipswitches that will add up
to the value you wish to achieve, for example:
1.2StandAloneMode
The Stand Alone Mode is engaged in by ipping dip-switch 10 to the “OFF”
position. This mode includes sub-modes with many functions, such as fade
time, chasing speed, and built-in programs.
1.2.1Settingfadetime
Enable Stand Alone Mode.1.
Flip dip-switches 1, 2 and 3 (10-way function dip-switch) to set a desired level for fade time.2.
1.2.2Adjustingchasespeed
Enable Stand Alone Mode.1.
Flip dip-switches 4, 5 and 6 (10-way function dip-switch) to set a desired level for chasing speed.2.
-Page 7-
2.Full DMX Control Mode
DMX is short for Digital Multiplex. This is a universal binary language used as a form of communication between
intelligent fixtures. Each Dip Switch(10-digit Addressing Dip Switch) represents a binary value.
A DMX value(address) is set by combining the different dipswitches that will add up to the value you wish to achieve,
for example: Setting DMX address for 21.
Flip switches1,3,&5 to the
"ON" position
Setting DMX address for 201.
Flip switches1,4,7,& 8 to the
"ON" position
Dipswitches# Value
1=1
3=4
5=16
=21
Dipswitches# Value
1=1
4=8
7=64
8=128
=201
In this mode, the Dip Switch 11(2 )
is flipped to the " " position, the Dip Switch 10(
) is to the " " position. And these
switches sometimes used to activate a fixture special functions.
-digit function Dip Switch
OFF 10-digit
addressing Dip Switch ON
Dip Switch 1 address equals 1
Dip Switch 2 address equals 2
Dip Switch 3 address equals 4
Dip Switch 4 address equals 8
Dip Switch 5 address equals 16
Dip Switch 6 address equals 32
Dip Switch 7 address equals 64
Dip Switch 8 address equals 128
Dip Switch 9 address equals 256
1,2,4
3,4
1,3,4
2,3,4
1,2,3,4
1
2
1,2
3
1,3
2,3
1,2,3
4
1,4
2,4
SWITCHES ON SWITCHES ON
START
CH#
START
CH#
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
..
..
..
..
..
..
1 2 3 4 5 6 7 8 9 10
ON
OFF
1=
0=
511 1,2,3,4,5,6,7,8,9
ON
OFF
1=
0=
(10-digit Addressing Dip Switch)
123456789 10 11 12
..
..
Remark:
In , one output with R.G.B. Is controlled by three channels separately. And the Red effect is controlled
by Channel1, the Green effect is controlled by Channel 2 and the Blue effect is controlled by Channel3.
DMX Mode
DMX Addressing
-Page 7-
2.Full DMX Control Mode
DMX is short for Digital Multiplex. This is a universal binary language used as a form of communication between
intelligent fixtures. Each Dip Switch(10-digit Addressing Dip Switch) represents a binary value.
A DMX value(address) is set by combining the different dipswitches that will add up to the value you wish to achieve,
for example: Setting DMX address for 21.
Flip switches1,3,&5 to the
"ON" position
Setting DMX address for 201.
Flip switches1,4,7,& 8 to the
"ON" position
Dipswitches# Value
1=1
3=4
5=16
=21
Dipswitches# Value
1=1
4=8
7=64
8=128
=201
In this mode, the Dip Switch 11(2 )
is flipped to the " " position, the Dip Switch 10(
) is to the " " position. And these
switches sometimes used to activate a fixture special functions.
-digit function Dip Switch
OFF 10-digit
addressing Dip Switch ON
Dip Switch 1 address equals 1
Dip Switch 2 address equals 2
Dip Switch 3 address equals 4
Dip Switch 4 address equals 8
Dip Switch 5 address equals 16
Dip Switch 6 address equals 32
Dip Switch 7 address equals 64
Dip Switch 8 address equals 128
Dip Switch 9 address equals 256
1,2,4
3,4
1,3,4
2,3,4
1,2,3,4
1
2
1,2
3
1,3
2,3
1,2,3
4
1,4
2,4
SWITCHES ON SWITCHES ON
START
CH#
START
CH#
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
..
..
..
..
..
..
1 2 3 4 5 6 7 8 9 10
ON
OFF
1=
0=
511 1,2,3,4,5,6,7,8,9
ON
OFF
1=
0=
(10-digit Addressing Dip Switch)
123456789 10 11 12
..
..
Remark:
In , one output with R.G.B. Is controlled by three channels separately. And the Red effect is controlled
by Channel1, the Green effect is controlled by Channel 2 and the Blue effect is controlled by Channel3.
DMX Mode
DMX Addressing
230
RISK OF ELECTRIC SHOCK
DISCONNECT INPUT POWER
BEFORE OPENING
N'OUVREZ PAS..RISQUE DE CHOC ELECTRIQUE
WARNING: THIS APPARATUS MUST BE EARTHED
POWER INPUT: 110-120VAC(3.2A) / 220-240VAC(1.6A), 50/60Hz.
CAUTION ! POWER IN
Made in PRC
VOLTAGE-SELECT
High Power DMX Controller TV
Product code: 95312351
5.2Stand Alone Mode
The Stand Alone Mode is engaged in by flipping the dip-switch 10 to the "OFF" position. And this mode includes
sub-modes with many functions, such as fade time, chasing speed, built-in programs.
1 2 3 4 5 6 7 8 9 10
ON RS
ON
OFF
1,2,4
3,4
1,3,4
2,3,4
1,2,3,4
1,2,3,4,5,6,7,8,9
1
2
1,2
3
1,3
2,3
1,2,3
4
1,4
2,4
DMX ADDRESS (SLAVE)
SWITCHES ON SWITCHES ON
(Dip Switch 10 = on)
START
CH#
START
CH#
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
..
511
..
..
..
..
..
..
..
12345678910
ON RS
DMX is short for Digital Multiplex. This is a universal binary language used as a form of communication
between intelligent fixtures. Each dip switch represents a binary value.
5.Operation Guide
A DMX value(address) is set by combining the different dipswitches that will add up to the value you wish to
achieve, for example:
Setting DMX address for 21.
Flip switches1,3,&5 to the
"ON" position
Setting DMX address for 201.
Flip switches1,4,7,& 8 to the
"ON" position
Dipswitches# Value
1=1
3=4
5=16
=21
Dipswitches# Value
1=1
4=8
7=64
8=128
=201
-4-
4.2 Rear Panel Layout
1. Power Input: AC110~120V(3.2A) /AC220~240V(1.2A), 50~60Hz.
2. Voltage Selector: AC120V/230V optional by this voltage selector.
In this mode, the dip-switch 10 is flipped to the "ON" position. And this switch sometimes used to activate
some fixture special functions.
Dip Switch 1 address equals 1
Dip Switch 2 address equals 2
Dip Switch 3 address equals 4
Dip Switch 4 address equals 8
Dip Switch 5 address equals 16
Dip Switch 6 address equals 32
Dip Switch 7 address equals 64
Dip Switch 8 address equals 128
Dip Switch 9 address equals 256
5.1 DMX Control Mode(DMX Addressing)
1
2
000
100
010
110
001
101
011
111
0%
100%
123
ON
FADE TIME
"0" = "OFF" position
"1" = "ON" position.
(Dip Switches 10 = off)
1. The Stand Alone Mode enables;
2. Thus, flip the dip-switch 4,5 & 6(10-way Function Dip Switch)to adjust a desired level for chasing speed.
456
ON
SPEED
000
100
010
110
001
101
011
111
0.1S
0.2S
0.5S
1S
5S
10S
20S
30S
"0" = "OFF" position
"1" = "ON" position.
(Dip Switches 10 = off)
1. The Stand Alone Mode enables.
2. Thus, flip the dip-switch 1,2 & 3(10-way Function Dip Switch) to set a desired level for fade time.
-5-
5.2.1 Setting fade time
5.2.2 Adjusting chase speed
14%
28%
43%
57%
71%
86%
1. The Stand Alone mode enables;
2. Thus, flip the dip-switch 7,8 & 9 (10-way Function Dip Switch) TO select the desired program.
5.2.3 Selecting Built-in programs
000
100
010
1
2
3
7 8 9
ON
PROGRAM
(Dip Switches 10 = off) 110
001
101
011
111
4
5
6
7
AUTO
"0" = "OFF" position
"1" = "ON" position.
AUTO=a sequence of 7 programs
000
100
010
110
001
101
011
111
0%
100%
123
ON
FADE TIME
"0" = "OFF" position
"1" = "ON" position.
(Dip Switches 10 = off)
1. The Stand Alone Mode enables;
2. Thus, flip the dip-switch 4,5 & 6(10-way Function Dip Switch)to adjust a desired level for chasing speed.
456
ON
SPEED
000
100
010
110
001
101
011
111
0.1S
0.2S
0.5S
1S
5S
10S
20S
30S
"0" = "OFF" position
"1" = "ON" position.
(Dip Switches 10 = off)
1. The Stand Alone Mode enables.
2. Thus, flip the dip-switch 1,2 & 3(10-way Function Dip Switch) to set a desired level for fade time.
-5-
5.2.1 Setting fade time
5.2.2 Adjusting chase speed
14%
28%
43%
57%
71%
86%
1. The Stand Alone mode enables;
2. Thus, flip the dip-switch 7,8 & 9 (10-way Function Dip Switch) TO select the desired program.
5.2.3 Selecting Built-in programs
000
100
010
1
2
3
7 8 9
ON
PROGRAM
(Dip Switches 10 = off) 110
001
101
011
111
4
5
6
7
AUTO
"0" = "OFF" position
"1" = "ON" position.
AUTO=a sequence of 7 programs
1.2.3Selectingbuilt-inprograms
Enable Stand Alone Mode.1.
Flip dip-switches 7, 8 and 9 (10-way function dip-switch) to select the desired program.2.
1.2.4OutputGroupModeSetting
In this function, the dip-switches 1 and 2 (6-way mode dip-switch) are used to set your desired Output Group
mode.
1.) 1 Group Output Mode is engaged by ipping the dip-switches 1 and 2 to the
“OFF” position. This mode has 1 group output. The signal on output 1~6 is identical.
2.) 2GroupOutputMode is engaged by ipping the dip-switch 1 to the “ON” position
and dip-switch 2 to the “OFF” position. This mode has 2 group outputs, providing 3
identical outputs distributed over 2 groups: Output 1~3 are identical and Output 4~6
are identical.
3.) 3GroupOutputMode is engaged by ipping the dip-switch 1 to the “OFF” position
and dip-switch 2 to the “ON” position. This mode has 3 group outputs, providing 2
identical outputs distributed over 3 groups: Output 1~2 are identical, Output 3~4 are
identical and Output 5~6 are identical.
4.) 6GroupOutputModeis engaged by ipping the dip-switches 1 and 2 to the “ON” position. This mode
has 6 group outputs, which means the signal on output 1~6 is all individual.
1.2.5OutputLoadingModeSetting
In this function, the dip-switches 5 and 6 (6-way mode dip-switch) are used to set your desired Output Loading
mode.
1.) RGBOutputMode is engaged by ipping the dip-switches 4 and 5 to the “OFF” position. One output with
RGB control is controlled by 3 channels separately.
2.) WHITE Output Mode is engaged by ipping dip-switch 4 to the “ON” position and dip-switch 5 to the
“OFF” position. One output with RGB control is controlled by one channel and the output of RGB is identical.
3.) COOL WHITE and WARM WHITE Output Mode is engaged by ipping dip-switch 4 to the “OFF” position
and dip-switch 5 to the “ON” position. One output with Cool White and Warm White is controlled by 2
channels. The output with Cool White is controlled by channel 1, and the output of RB is identitcal. The
output with Warm White is controlled by channel 2, and the output is G.
4.) RGBOutputModeis engaged by ipping the dip-switches 4 and 5 to the “ON” position. One output with
RGB control is controlled by 3 channels separately.
000
100
010
110
001
101
011
111
0%
100%
123
ON
FADE TIME
"0" = "OFF" position
"1" = "ON" position.
(Dip Switches 10 = off)
1. The Stand Alone Mode enables;
2. Thus, flip the dip-switch 4,5 & 6(10-way Function Dip Switch)to adjust a desired level for chasing speed.
456
ON
SPEED
000
100
010
110
001
101
011
111
0.1S
0.2S
0.5S
1S
5S
10S
20S
30S
"0" = "OFF" position
"1" = "ON" position.
(Dip Switches 10 = off)
1. The Stand Alone Mode enables.
2. Thus, flip the dip-switch 1,2 & 3(10-way Function Dip Switch) to set a desired level for fade time.
-5-
5.2.1 Setting fade time
5.2.2 Adjusting chase speed
14%
28%
43%
57%
71%
86%
1. The Stand Alone mode enables;
2. Thus, flip the dip-switch 7,8 & 9 (10-way Function Dip Switch) TO select the desired program.
5.2.3 Selecting Built-in programs
000
100
010
1
2
3
7 8 9
ON
PROGRAM
(Dip Switches 10 = off) 110
001
101
011
111
4
5
6
7
AUTO
"0" = "OFF" position
"1" = "ON" position.
AUTO=a sequence of 7 programs
1.) RGB Output Mode is engaged by flipping the dip-switch 4 and 5 to the "OFF" position, one output with
R.G.B. Control is controlled by three channels separately.
In the function, user can flip the dip-switch 5 & 6(6-way Mode Dip Switch) to sel the desired Output Loading
Mode.
5.2.5 Output loading Mode Setting
123456
1
Red+
White +
Warm White +
Blue +
2
Red -
White -
Warm White -
Blue -
OUTPUT TERMINALS
3
Green +
White +
White +
Red +
4
Green-
White -
White -
Red +
5
Blue +
White +
Warm White +
Green +
6
Blue -
White -
Warm White -
Green -
OUTPUT
4
5
1 =ON
0=OFF
00 RGB
10 WHITE
01 WHITE&WARM
11 RGB
-6-
5.2.4 Output Group Mode Setting
In the function, the dip-switch 1& 2 (6-way Mode Dip Switch)is used to set your desired Output Group mode.
MODE
00 1 Group
10 2 Group
01 3 Group
11 6 Group
1
2
1 =ON
0=OFF
1.) 1 Group Output Mode is engaged by flipping the dip-switch 1& 2 to the "OFF"
position, has 1 group output and Output 1~6 is identical.
2.) 2 Group Output Mode is engaged by flipping the dip-switch 1 to the "ON"
position and the dip-switch 2 to the "OFF" position, has 2 group output and has
3 identical outputs distributed over 2 groups, Output1~3 is identical, and Output
4~6 is identical.
3.) 3 Group Output Mode is engaged by flipping the dip-switch 1 to the "OFF"
position and the dip-switch 2 to the "ON" position, has 3 group output and has
2 identical outputs distributed over 3 groups, Output1~2 is identical, Output 3~4
is identical and Output 5~6 is identical.
4.) 6 Group Output Mode is engaged by flipping the dip-switch 1& 2 to the "ON" position, has 6 group output
and Output 1~6 is not perfectly identical.
2.) WHITE Output Mode is engaged by flipping the dip-switch 4 to the "ON" position and the dip-switch 5 to
the "OFF" position, one output with R.G.B. Control is controlled by one channel and the output of R.G.B. Is
identical.
3.) COOL WHITE & WARM WHITE Output Mode is engaged by flipping the dip-switch 4 to the "OFF" position
and the dip-switch 5 to the "ON" position, one output with Cool White & Warm White is controlled by two
channels. The output with Cool White is controlled by Ch 1, and the output of R.B. Is identical; the output
with Warm White is controlled by Ch 2, and the output is G.
4.) RGB Output Mode is engaged by flipping the dip-switch 4 and 5 to the "ON" position, one output with
R.G.B. Control is controlled by three channels separately.
1.) RGB Output Mode is engaged by flipping the dip-switch 4 and 5 to the "OFF" position, one output with
R.G.B. Control is controlled by three channels separately.
In the function, user can flip the dip-switch 5 & 6(6-way Mode Dip Switch) to sel the desired Output Loading
Mode.
5.2.5 Output loading Mode Setting
123456
1
Red+
White +
Warm White +
Blue +
2
Red -
White -
Warm White -
Blue -
OUTPUT TERMINALS
3
Green +
White +
White +
Red +
4
Green-
White -
White -
Red +
5
Blue +
White +
Warm White +
Green +
6
Blue -
White -
Warm White -
Green -
OUTPUT
4
5
1 =ON
0=OFF
00 RGB
10 WHITE
01 WHITE&WARM
11 RGB
-6-
5.2.4 Output Group Mode Setting
In the function, the dip-switch 1& 2 (6-way Mode Dip Switch)is used to set your desired Output Group mode.
MODE
00 1 Group
10 2 Group
01 3 Group
11 6 Group
1
2
1 =ON
0=OFF
1.) 1 Group Output Mode is engaged by flipping the dip-switch 1& 2 to the "OFF"
position, has 1 group output and Output 1~6 is identical.
2.) 2 Group Output Mode is engaged by flipping the dip-switch 1 to the "ON"
position and the dip-switch 2 to the "OFF" position, has 2 group output and has
3 identical outputs distributed over 2 groups, Output1~3 is identical, and Output
4~6 is identical.
3.) 3 Group Output Mode is engaged by flipping the dip-switch 1 to the "OFF"
position and the dip-switch 2 to the "ON" position, has 3 group output and has
2 identical outputs distributed over 3 groups, Output1~2 is identical, Output 3~4
is identical and Output 5~6 is identical.
4.) 6 Group Output Mode is engaged by flipping the dip-switch 1& 2 to the "ON" position, has 6 group output
and Output 1~6 is not perfectly identical.
2.) WHITE Output Mode is engaged by flipping the dip-switch 4 to the "ON" position and the dip-switch 5 to
the "OFF" position, one output with R.G.B. Control is controlled by one channel and the output of R.G.B. Is
identical.
3.) COOL WHITE & WARM WHITE Output Mode is engaged by flipping the dip-switch 4 to the "OFF" position
and the dip-switch 5 to the "ON" position, one output with Cool White & Warm White is controlled by two
channels. The output with Cool White is controlled by Ch 1, and the output of R.B. Is identical; the output
with Warm White is controlled by Ch 2, and the output is G.
4.) RGB Output Mode is engaged by flipping the dip-switch 4 and 5 to the "ON" position, one output with
R.G.B. Control is controlled by three channels separately.
1.2.6ManualDimMode
The Manual Dim Mode allows to manually control the overall output intensity.
Flip dip-switch 6 of the 6-way Mode Dip-switch to the “ON” position to engage the Manual Dim Mode. In this
function, the dip-switched 1~8 of the 10-way Function Dip-switch are used to set the overall output intensity.
Each dip-switch represents a binary value.
The intensity can be set by combining the different dip-switches that will add up to the value you wish to
achieve, for example:
-7-
In Manual Dim Mode, it allows to manually control overall output intensity.
Flip the dip-switch 6 of the 6-way Mode Dip Switch to the "ON" position and the Manual Dim Mode is
engaged. In this function, the dip-switch1~8 of the 10-way Function Dip Switch is used to set overall output
intensity. Each dip-switch represents a binary value.
The intensity can be set by combining the different dipswitches that will add up to the value you wish to
achieve, for example:
Setting the intensity for 21.
Flip switches1,3,&5 to the
"ON" position
Dipswitches# Value
1=1
3=4
5=16
=21
Setting the intensity for 201.
Flip switches1,4,7,& 8 to the
"ON" position
Dipswitches# Value
1=1
4=8
7=64
8=128
=201
Example 1: Example 2:
Dip Switch 1 intensity equals 1
Dip Switch 2 intensity equals 2
Dip Switch 3 intensity equals 4
Dip Switch 4 intensity equals 8
Dip Switch 5 intensity equals 16
Dip Switch 6 intensity equals 32
Dip Switch 7 intensity equals 64
Dip Switch 8 intensity equals 128
5.2.6 Manual Dim Mode
1,2,4
3,4
1,3,4
2,3,4
1,2,3,4
1,2,3,4,5,6,7,8
1
2
1,2
3
1,3
2,3
1,2,3
4
1,4
2,4
SWITCHES ON SWITCHES ON
Intensity
value
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
..
255
..
..
..
..
..
..
..
1 2 3 4 5 6 7 8 9 10
ON RS
Intensity
value
-7-
In Manual Dim Mode, it allows to manually control overall output intensity.
Flip the dip-switch 6 of the 6-way Mode Dip Switch to the "ON" position and the Manual Dim Mode is
engaged. In this function, the dip-switch1~8 of the 10-way Function Dip Switch is used to set overall output
intensity. Each dip-switch represents a binary value.
The intensity can be set by combining the different dipswitches that will add up to the value you wish to
achieve, for example:
Setting the intensity for 21.
Flip switches1,3,&5 to the
"ON" position
Dipswitches# Value
1=1
3=4
5=16
=21
Setting the intensity for 201.
Flip switches1,4,7,& 8 to the
"ON" position
Dipswitches# Value
1=1
4=8
7=64
8=128
=201
Example 1: Example 2:
Dip Switch 1 intensity equals 1
Dip Switch 2 intensity equals 2
Dip Switch 3 intensity equals 4
Dip Switch 4 intensity equals 8
Dip Switch 5 intensity equals 16
Dip Switch 6 intensity equals 32
Dip Switch 7 intensity equals 64
Dip Switch 8 intensity equals 128
5.2.6 Manual Dim Mode
1,2,4
3,4
1,3,4
2,3,4
1,2,3,4
1,2,3,4,5,6,7,8
1
2
1,2
3
1,3
2,3
1,2,3
4
1,4
2,4
SWITCHES ON SWITCHES ON
Intensity
value
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
..
255
..
..
..
..
..
..
..
1 2 3 4 5 6 7 8 9 10
ON RS
Intensity
value
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