02627_SCS 6 Channel Dimmer_Technical sheet

PRO D U CT T E CHN I CA L SHE E T S
SCS 6 CHANNEL DIMMER
02627
Item 02627 is a 6 channel 300VA leading or trailing edge
dimmer. By default all 6 channels are set to trailing
edge operation. Each channel can be set to leading
or trailing edge by following the programming mode
below.
5
1
1
4
1
1
1
1
After connecting the dimmer directly to the bus and the
load, the brightness can be adjusted from any
correctly configured control point. Pressing the control
key quickly the loads can be switched on and off, while
the brightness can be adjusted by pressing it for longer.
The dimmer incorporates both short circuit and
overload protection.
2
3
The dimmer can also be virtually configured via
software. Each channel can be assigned to any address
in the system. Also, each device has its own unique mac
address for identification.
Technical data
7
6
Legend
Power supply:
18-27V d.c. from BUS
1. Loads
Consumption:
38mA
2. Configurator housing
Operating temperature
0 - 40°C
3. BUS
Power consumption with max load:
277W (1 channel load)
Size:
12 DIN modules
Loads:
- Halogen extra low
voltage & Halogen 240V
- Compact fluorescent
(approved types) *
- LED (approved types)*
- Incandescent
4. Active in
5. Neutral in
6. Channel indicator leds
7. Channel push buttons
+ When using electronic or magnetic transformers, the loading/channel should increase by 10VA due to inefficiency of the transformer.
* See HPM Legrand website.
Programming Mode
Setting the training or leading edge mode
Pressing the channel 6 button for longer than 20 seconds will enter the programming mode. The channel LEDs will start flashing.
1 flash/sec - Trailing edge mode (faster flash)
1 flash/2sec - Leading edge mode (slower flash)
Short press will toggle the mode of the channel. To accept the changes, dont press any button for at least 12 seconds, until the channel LEDs are no
longer flashing.
Wiring diagram
L
N
L1
L2
L3
N
A
L4
L5
L6
02627
BUS/SCS
Modes of operation
Depending on the configurator inserted in A the outputs assume the
following address:
Channel output
A=
1
2
3
4
5
6
1
A=1
PL = 1
A=1
PL = 2
A=1
PL = 3
A=1
PL = 4
A=1
PL = 5
A=1
PL = 6
2
A=2
PL = 1
A=2
PL = 2
A=2
PL = 3
A=2
PL = 4
A=2
PL = 5
A=2
PL = 6
3
A=3
PL = 1
A=3
PL = 2
A=3
PL = 3
A=3
PL = 4
A=3
PL = 5
A=3
PL = 6
4
A=4
PL = 1
A=4
PL = 2
A=4
PL = 3
A=4
PL = 4
A=4
PL = 5
A=4
PL = 6
5
A=5
PL = 1
A=5
PL = 2
A=5
PL = 3
A=5
PL = 4
A=5
PL = 5
A=5
PL = 6
6
A=6
PL = 1
A=6
PL = 2
A=6
PL = 3
A=6
PL = 4
A=6
PL = 5
A=6
PL = 6
7
A=7
PL = 1
A=7
PL = 2
A=7
PL = 3
A=7
PL = 4
A=7
PL = 5
A=7
PL = 6
8
A=8
PL = 1
A=8
PL = 2
A=8
PL = 3
A=8
PL = 4
A=8
PL = 5
A=8
PL = 6
9
A=9
PL = 1
A=9
PL = 2
A=9
PL = 3
A=9
PL = 4
A=9
PL = 5
A=9
PL = 6
N.B. The PL configurator is not present, because the value is set by
the output to which the dimmer is connected. All the outputs belong
to the same group entered in G.
The dimmer performs all the basic modes of operation which can
be configured directly on the control, apart from those which use
interlocking relays. The following table lists the functions which can
be performed with the configurator inserted in position M of the same
actuator.
Possible functions
Configurator position M
Dimmer as Slave. Receives a command
sent from a master dimmer with the
same address
SLA
The dimmer ignores the room and
general commands
PUL
In point to point control, a slave dimmer
will deactivate, corresponding to its
configuration, after the master has been
switched off. The configuration
denotes the elapsed time for
deactivation.
1 = 1min
2 = 2 min
3 = 3min
4 = 4min
Physical configurator housing
Position 1 (most left) is A
Position 2 is G
Position 3 is M
Position 4/5 not used
Position 6 is Diagnostic Mode
26064A
Configuration