Architectural Decorative
IS:CCLPS602P
Page 4 of 4
Instruction Sheet for Assembly and Installation
Lightolier is a Philips group brand
631 Airport Road, Fall River, MA 02720 • (508) 679-8131 • Fax (508) 674-4710
We reserve the right to change details of design, materials and finish.
www.lightolier.com © 2008 Philips Group • A0908
Group
Address
How Luminaires Are Addressed
-1
All luminaires are addressed sequentially, starting with the Base
Address. If you have 20 luminaires with a Base Address of 1, they are
addressed as follows:
Light #: 1 2 3 4 5 6 7 8 ... 18 19 20
Address: 20 19 18 17 16 15 14 13 ... 3 2 1
-2
Every two luminaires are assigned the same address. For example, if
you have 20 luminaires with a Base Address of 1, they are addressed
as follows:
Light #: 1 2 3 4 5 6 7 8 ... 18 19 20
Address: 10 10 9 9 8 8 7 7 ... 2 1 1
-3
Every three luminaires are assigned the same address. For example,
if you have 20 luminaires with a Base Address of 1, they are ad-
dressed as follows:
Light #: 1 2 3 4 5 6 7 8 ... 18 19 20
Address: 7 7 6 6 6 5 5 5 ... 1 1 1
-4 to -20
...
Note:
It is recommended that you set your group number to a number that
evenly divides the number of luminaires connected to Output 1 and you
balance the number of luminaires on each output. Otherwise, you may have
a smaller amount of luminaires at the end of each output port that would
receive the next address.
5. To exit Configuration mode, press both buttons simultaneously. The base
address for CCLPS602P will appear on the display.
CCLPS602P Specifications
Power Input
100-240VAC, 50Hz–60Hz, 1.1-0.4A
Power Output
24VDC (62W Max.)
Heat Dissipation
22% of total power input at maximum load
Ambient Operating Temp
14°F to 122°F (-10°C to 50°C)
Housing
8.8” (22.4 cm) X 4.0” (10.2 cm) X
2.0” (5.1 cm)
Weight: 2.0 lbs (907 g)
Connectors
Data: RJ45 input and output connectors
Power: 4-pin output connectors, IEC power con-
nector (Supplied with C13 IEC plug, grounded US
outlet plug. UL/CSA rated 18 AWG 3/C ST 90°C
Rated.)
Data Input Interface
Lightolier Lytemode DMX, color rotary dial or
DMX 512 compatible controllers.
Data Output Interface
24V
Classification
Class 2
Listings
UL/cUL, CE, PSE
Max. # of Luminaires
12": 20; 6": 36
OUT
1
OUT
2
ENET IN
DMX IN
DMX OU
T
CCLPS602P
(Center Feed Installation)
Base Address = 1
9
2
10
1
2
9
1
20
2
9
1
0
2
9
1
20
Group Address
Set to “-1”
Group Address
Set to “1”
Example 1:
When using a Rainbow Wash with sequential addressing
(group address set to 1), the luminaire flows from the center
(the first luminaire on Output 1) to the last luminaire in Output 1, and
then back to the first luminaire on Output 2.
When using a Rainbow Wash with reverse addressing
(group address set to -1), the luminaire flows from left to
right across all fixtures. The luminaire goes from the last fixture
on Ouput 1 to the first fixture on Output 1, and then to the
first fixture on Output 2 to the last fixture on Output 2.
Examples of Sequential and Reverse Addressing
Note: Reverse addressing only reverses the addresses on Output 1 of the CCLPS602P.
Fig. 9
OUT
1
OUT
2
ENET IN
DMX IN
DMX OU
T
OUT
1
OUT
2
ENET IN
DMX IN
DMX OU
T
CCLPS602P DMX/Ethernet
(Base Address = 2
1
)
CCLPS602P DMX/Ethernet
(Base Address = 1)
20
2
1
20
2
1
22
40
2
2
39
40
Group Address
Set to “-1”
Group Address
Set to “1”
Group Address
Set to “1”
Group Address
Set to “-1”
Example 2:
Reverse addressing allows you to have a continuous Rainbow Wash
when you have an installation fed by more than one power supply.
When using sequential addressing on both power supplies, the luminaire
flows from the first luminaire on Output 1 of the first power supply to the
last luminaire on Output 1 (left to right), and then it flows from the first
luminaire on Output 1 of the second power supply to the last luminaire on
Output 1 (right to left).
Using reverse addressing on the second power supply allows you to
set up the flow from left to right across all fixtures. With this setup,
the luminaire flows from the first luminaire on Output 1 of the first power supply
to the last luminaire on Output 1, and from the last luminaire on Output 1 of the
second power supply to the first luminaire on Output 1.
