iLight SCI0405, SCI0410, SCI1205, SCI1210, SCI1220 Instruction Manual

Contents

2 Warning
3 Installation
5 Supply and load connections
7 iCAN Network
8 ASCII control messages
9 Typical system schematics
10 Service switches and LEDs
12 Specifications

- Inductive

- H F Ballast

- Power Switching

- Adaptive

- Trailing Edge

Instruction Manual

Read this document prior to installation

Source Controllers

INTELLIGENT CON TROLS

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INTELLIGENT CON TROLS

Where?

Source Controllers (Racks) should be located in a
ventilated dry location where the ambient temperature
is within the operating range of the controller. When
choosing the installation location take the following
into account:

l  Depending on the size of the loads connected

to an Inductive or Adaptive Source Controller
it will get warm. Adequate ventilation
should be provided to ensure the ambient
temperature does not rise above 40oC.

l  Allow adequate space for future maintenance

of the unit. Do not install in a location that
will later be inaccessible.

l  Instal only on a vertical surface.
l  Depending on Source Controller type and

the loads connected, Source Controllers can
create noise. This is caused by electrical noise
suppression components within the unit. The
noise is a low level buzz that varies with the
level of dimming. If noise of this type causes a
problem, locate the Source Controller
elsewhere.

Source Controllers require ventilation and have slots
on all sides to allow for a convection flow of air
through the unit. For this reason it is important to
orientate the unit correctly and allow a minimum
space between adjacent Source Controllers and
other surfaces. A minimum of 100mm of free space
should be left either side of a Source Controller or
between adjacent Controllers.

IMPORTANT NOTE

Mounting the Source Controller in the wrong
orientation, without proper ventilation or with
inadequate airflow could result in overheating.

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Installation Instructions

If a Source Controller is connecting to trunking
of depth 50mm or less, then it may be coupled
directly as shown below.

Leave 100mm of free space between
other equipment, walls etc. either side

of the equipment.

If the trunking depth is greater than 50mm,
installation of Source Controllers should be as
shown below.

Typical installation for trunking less than 50mm
depth. Source Controller connected directly to

trunking.

Typical installation where trunking depth is
greater than 50mm. Controller connected to
trunking using conduit couplers.

INTELLIGENT CON TROLS

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Installation Instructions

Simply calculate the load for each channel, add
all the loads together and this will be the size
of the supply you require. Always calculate the
supply assuming all channels working at full
output simultaneously.

For a Source Controller being fed from a 3-Phase
supply, calculate the load on each phase and
fit externally to the Controller, a suitably rated
3-pole circuit breaker. Do not apply power until
you are certain that a good Neutral connection is
present at the Source Controller.

Sample supply requirement calculations:

Example 1 - Resistive loads connected to a
4 channel 5A Inductive Source Controller.
(SCI0405S)

Channel 1 load is 300Watts
Channel 2 load is 150Watts
Channel 3 load is 1000Watts
Channel 4 load is 500Watts
Total connected load = 1950Watts

(All loads in this example are resistive or have
unity power factor).

For the this example the minimum size of the
supply required is: 1950W/230V = 8.5Amps

Therefore, the unit should be fed with a supply
of
at least 10Amps.

As the individual load channels are protected by
5Amp MCB’s a supply capable of delivering
more than 10Amps could be used, but it is
recommended that it should not exceed the
rating shown on the label fitted inside the door.

Example 2 - Fluorescent lamps with dimmable
HF ballasts connected to a 4 channel 10A
High Frequency Ballast Source Controller.
(SCH0410S)

Channel 1 load is 8 x 58 Watt tubes
Channel 2 load is 16 x18 Watt tubes
Channel 3 load is 10 x 26 Watt PL lamps
Channel 4 load is 5 x 36 Watt tubes

Total connected load = 1192Watts

(All loads in this example have unity power
factor).

For this example the minimum size of supply
required is: 1192W / 230V = 5.18 Amps

Therefore the unit should be fed with at least
6 Amps supply.

How?

Remove the unit cover to gain access to the fixing
holes.

Four screws hold on the cover of the Source
Controller; two are visible from the front and two
are visible only when the MCB cover door is opened.
There is no need to remove the MCB door.

Four fixings holes are provided allowing for fixings
up to 6mm diameter.

4 Channel version shown (SCI0405S)

Supply and Load Connections

Size of supply

The size of the supply required to the Source
Controller is dependent on the power requirements
of the loads connected to it.

(inside door)

(inside door)

INTELLIGENT CON TROLS

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The diagram above shows the power supply
connections to a single phase Source Controller.
The Live supply is connected directly to one of the
channel MCBs or Mains Isolator if fitted. These are
factory fitted with a busbar linking them together.
Do not remove the busbar or any other cables
already connected to the MCBs or Isolator. The
maximum supply cable size is 16mm2.

The Neutral supply cable is connected to the neutral
busbar terminal (except in the case of a Source
Controller fitted with Neutral disconnect circuit
breakers, where connection is to the neutral busbar
fitted to circuit breakers).

An earth connection must be made to the chassis,
using the Earth stud. It is important that all supply
and neutral connections are tight. There is also
a diagram on the cover of the unit showing the
connections.

Supply & Load Cable Terminations

Connections to 3-Phase units are similar, except
that live connections must be made to three
sequential MCB’s. For example RED to MCB 1;
YELLOW to MCB 2; BLUE to MCB 3. The MCBs
are fitted on the supply side with a 3-phase
busbar which distributes the incoming supply
sequentially to all twelve breakers.

Load Cable Terminations

Load cables are connected to the column of
terminal blocks located on the left hand side of
a Source Controller. These terminals are labelled
L1,E, N1 L2,E, etc… and will accept up to 6mm

2

cables.

It is important that each load circuit neutral is
connected to the appropriate neutral terminal
within the Source Controller. Failure to observe
this could result in electrical interference affecting
other equipment. Do not use a common neutral
for multiple loads.

The Load terminals of 3 phase units are phase
sequential as follows:
L1 Phase 1 (R)
L2 Phase 2 (Y)
L3 Phase 3 (B)
L4 Phase 1 (R)
L5 Phase 2 (Y)
L6 Phase 3 (B)
.
.
.
L11 Phase 2 (Y)
L12 Phase 3 (B)

Note Adaptive dimmers (Source Controllers with

prefix SCA.....) are shipped in Switch mode,

and will be set (according to type of connected
load) by the commissioning engineer. Please
retain all information concerning the type of load
transformers that are installed (for each dimmer
channel), so as to assist this process.

WARNING: Meggers must not be used on any
circuitry that is connected to iLight equipment. To
avoid damage, load cables must be disconnected
prior to any such testing.

HF Ballast Controllers - Connection of
low voltage cables

(Applies only to Source Controllers with prefix
SCH...) For each individual load circuit, there should
be a pair of cables linking all ballast LV connections
together (paying due attention to polarity), and
terminating at the relevant connections in the
Source Controller.

4 Channel inductive version shown

IMPORTANT:

Ensure that load cables are connected to the relevant
type of Source Controller in accordance with iLight

project drawing (normally supplied with quotation).
For example:

Source Controllers with part no. SCI..... are dimmers,

eg for tungsten or inductive loads.

Source Controllers with part no. SCI08..... are dual

units, incorporating four dimmers (O/P’s 1 to 4) and
four O/P’s (5 to 8) with corresponding 0-10v (or DSI)
connections for HF Ballasts.

Source Controllers with part no. SCH..... are HF

ballast controllers, eg for 0-10v fluorescent fittings.

Source Controllers with part no. SCS..... are switching

units, eg for non-dimmable luminaires.

Source Controllers with part no. SCA..... are adaptive

dimmers - eg where there is a mixture of inductive
and capacitive loads.

Source Controllers with part no. SCT..... are trailing

edge dimmers - eg where “trailing edge” dimming is
required on some circuits.

Supply Cable Terminations

INTELLIGENT CON TROLS

Networks and Connecting Control
Cables

Network control cables should enter the Source
Controller through the segregated route shown
in the diagram below (A).

Ensure the CAT5 data cable is linked into all
Source Controllers in this manner.

Segregation between Control Data cabling and
power wiring should be maintained for safety
and noise immunity. Control Data cabling should
be run in separate or divided metal trunking
or conduits. Where cables are run outside
trunking or conduit then there should be 300mm
separation between them, and where they cross
they should do so at right angles.

Terminals for network and RS485 connections
use two-part connectors allowing connections
to be made outside of the Source Controller.
Simply pull the connectors from the board

A Source controller is connected to other devices,
control panels, Source Controllers, audio-visual
systems and interfaces using the iCAN network
or a RS485 data connection. The RS485 data
connection is designed for use primarily with
external systems and does not offer the full
functionality and integrity that use of the iCAN
network can provide. All other iLight products
communicate with each other using the iCAN
network. At no point should the RS485 and iCAN
networks be joined together.

Ensure each low voltage pair is terminated at the
connection corresponding to the associated mains
pair - for example all ballasts which are fed with 230
volts from MCB 2 must have their low voltage cable
terminated at 0V and DIM2.

If there is any doubt concerning which cable carries
mains, this must be resolved (using a voltmeter) before
connecting to the Source Controller. Connecting a
mains potential cable to the Low Voltage terminals
will damage the unit and invalidate warranty.

HF Ballast types:

The Source Controller is able to control either Analogue
or DSI (digital) ballasts, with each channel individually
configurable. This selection is normally made as part
of commissioning, but it is also possible to “group
configure” all outputs to one or other of the two
standards. Source Controllers are ex-factory shipped
set for Analogue ballasts. The procedure to alter this
to DSI (for all channels) is:

Isolate the Source Controller.
Locate the 3-way DIPswitches on the processor pcb.
Move switch 1 to the ON position.
Return power to the Source Controller.
(to return to Analogue, reverse the above process)

Emergency Luminaires

Any luminaries that require a Permanent Live feed
must be wired with an additional (identified) live
cable, fed from the right-hand (protected) side of
the relevant MCB. Install your Permanent Live cable
together with the existing brown cable. Use only the
MCB which relates to the circuit in question.

Additional Lighting Connections

Diagram shows typical connection of
emergency lighting circuit and the entry
point of the network control cable (A).

Note

Control and network cables do not include the
0-10V or DSI control cables that are connected to
controllable ballasts. The control cables to ballasts
should be regarded as power cables and segregated
from the CAN and RS485 cables that connect to the
source controller.

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Permanent
Live

INTELLIGENT CON TROLS

Two sets of terminals are provided for the connection
of iCANnet cables. Both iCAN terminals on the
control board are connected in parallel.

The recommended cable to use for iCANnet is: CAT5
FTP such as RS part numbers 196-331 for 305m or
298-0885 for 1000m.

The Control Board paralleled iCANnet terminals are
labelled with the recommended colours of the pairs
in CAT5 cable to use.
Orange pair +12V
Blue/White CAN-H
Blue CAN-L
Green pair 0V
Brown pair Shield

The structure of an iCAN network is shown in the
diagram below.

In the above example, resistors should be fitted at the
two ends of the network as marked with asterisks(*).
The devices on an iCAN network may be wired in
any order, but the network must be one continuous
“daisy-chain”. Spurs are NOT permitted, as this is
liable to result in communication problems.

Source Controllers and Control Panels are all shipped
with a 120 ohm Termination resistor fitted on the
iCANnet termination block. At all locations other
than the two end-of-line positions, the resistors
should be removed. Except where isolating Bridge
Nodes are installed, every iCAN network requires
two Termination resistors only.

iCANnet Connections

RS485 Control

The RS485 Control terminals are located adjacent
to the iCAN network terminals.

The terminals to be used are labelled:
RS485­ RS485+
0V
See the ASCII control message section on
page 13.

RJ12 Connector

The Source Controller is fitted with an RJ12
socket to allow local connection of a handheld
programmer or PC interface.

No connection should be made to the factory
pins of the connector.

Alarm Input

An alarm input, designed for connection to a fire
alarm system, is available on the same terminal
block as the RS485 connections. The terminals
to be used for an Alarm input are:
0V
AL
Any connection to this input MUST be volt free
and have a cable length of less than 50 metres.
Cabling for this input should be segregated from
power wiring.

The default action that occurs when these
terminals are linked is for every channel of the
source controller to turn on to maximum output.
It will then remain in this state, regardless of
any other command received, until the link
between the 0V and AL terminals is removed.
Only when the alarm link is removed can levels
be changed.

On an entire iCAN network only one fire alarm
input is required.

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INTELLIGENT CON TROLS

ASCII Control Messages

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ASCII Control Messages provide a simple method of
control for AV systems. This is done by sending a string
of ASCII characters via the in-built RS485 serial port in
the Source Controllers.
The command is not case sensitive.

1.1 Message Syntax

The general form of the message is:

1.1.1 Start Character

Each message starts with the @ character
The command is started receiving the @ character.
If a command is incomplete when a new @ is received,
the old command is discarded.

1.1.2 Command

The start character is followed by a two character
command.
Example: SS (select scene)

1.1.3 Parameters

After the command characters several characters define
the parameters, such as the scene number, area
number, and fade time.
A colon delimits the values. If a colon is received after
only 1 digit then a single digit value is assumed. <O:
P</O:P

1.1.4 End Character

The command is ended with a carriage return, <cr> (13
dec). The # character can also be used.

1.3 Virtual Control Messages

Virtual control messages are used to control the system,
and not individual devices. The message is transmitted
across the iCANnet network to all other devices.

1.3.1 Command SS Select Scene

This message selects a scene in an area.
The syntax is: @SSxx:Axx:Fxx<cr>
SSxx defines the scene number, where xx is valid from
00 to 99. Scene 00 is OFF.
Axx defines the Area Number, valid for 00 to 99.
Fxx defines the Fade Time , valid for 00 to 99 for
seconds.

1.3.2 Command SA Save Scene

This message saves the current levels to a scene in an
area.
The syntax is: @SAxx:Axx<cr>
SAxx defines the scene number, where xx is valid from
00 to 99. Scene 00 saves to the current scene.
Axx defines the Area Number, valid for 00 to 99.

1.3.3 Command RS Request Current Scene

This message requests the current scene number in an
area.
The syntax is: @RSxx<cr>
RSxx defines the Area Number, valid for 01 to 99.

1.3.4 Command RE Report Current Scene

This message reports the current scene number in an
area. The syntax is: @RExx:Axx<cr>
RExx defines the Scene Number, valid for 01 to 99.
Axx defines the Area Number, valid for 01 to 99.

1.3.5 Command SC Set Channel Level

This message sets the level of a channel in an area.
The syntax is: @SCxx:Axx:Lxx:Fxx<cr>
SCxx defines the channel number, where xx is valid
from 00 to 99. Channel 00 affect ALL channels in
an area.
Axx defines the Area Number, valid for 00 to 99.
Lxx defines the Level, valid for 00 to 99 in %, and FF
for FULL (100%)
Fxx defines the Fade Time , valid for 00 to 99 for
seconds.

1.3.6 Command RC Request Channel Level

This message request the level of a channel in an
area.
The syntax is: @RCxx:Axx<cr>
RCxx defines the channel number, where xx is valid
from 00 to 99. Channel 00 requests ALL channels in
an area. (use with caution).
Axx defines the Area Number, valid for 00 to 99.

1.3.7 Command RL Report Channel Level

This message reports the current level of a channel
in an area.
The syntax is: @RLxx:Axx:Lxx<cr>
RLxx defines the Channel Number, valid for 01 to

99.
Axx defines the Area Number, valid for 00 to 99.
Lxx defines the Level, valid for 00 to 99 in %, and FF
for FULL (100%)

1.3.8 Command CR Raise

This message increments the area by 1% level
The syntax is: @CRxx:Axx <cr>
CRxx defines the channel number, where xx is valid
from 00 to 99. Channel 00 affect ALL channels in
an area.
Axx defines the Area Number, valid for 00 to 99.

1.3.9 Command CL Lower

This message decrements the area by 1% level
The syntax is: @CLxx:Axx <cr>
CLxx defines the channel number, where xx is valid
from 00 to 99. Channel 00 affect ALL channels in
an area.
Axx defines the Area Number, valid for 00 to 99.

1.3.10 Command SF Stop Fade

This message stops fading in an area
The syntax is: @SFxx:Axx <cr>
SFxx defines the channel number, where xx is valid
from 00 to 99. Channel 00 affect ALL channels in
an area.
Axx defines the Area Number, valid for 00 to 99.

1.3.11 Command TC Toggle Channel

This message toggles a channel state.
The syntax is: @TCxx:Axx:Lxx:Fxx<cr>
TCxx defines the channel number, where xx is valid
from 00 to 99. Channel 00 affect ALL channels in
an area.
Axx defines the Area Number, valid for 00 to 99.
Lxx defines the Level, valid for 00 to 99 in %, and
FF for FULL (100%)
Fxx defines the Fade Time , valid for 00 to 99 for
seconds.

INTELLIGENT CON TROLS

Typical System Schematic

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Commissioning

Please retain any Job-specific drawings or
schedules relating to load connections at the Source
Controllers. This information is required by the
commissioning engineer to assist in configuration
of the equipment.

When first energised after installation all Source
Controllers will default to all channels being at 100%
output.

Source Controllers can be energised without network
cables being terminated.

If iCANnet cables are terminated after Source
Controllers have been energised it should be noted
that cables will be carrying low voltage signals and
mis-connection of these could result in damage to
other devices on the network.

Factory Set Source Controller Settings

All channels set to Area 1
Physical Channel No = Virtual Channel No
Power Up Scene = Last Scene Selected (From
factory last scene selected will be Scene 1 - all
channels at 100%.
Alarm Input set to operate with contact closing
AL terminal to 0V.

Factory Set Scenes

Scene Level
1 100%
2 70%
3 50%
4 30%
5 80%
6 60%
7 40%
8 20%

INTELLIGENT CON TROLS

Service Switches and LEDs

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These switches and LEDs are located at the base of
the unit.
The two service switches on the source controllers
are used for the following:

l  Entering Diagnostic Mode.
l  Putting the Source Controller in override

mode.

l  Sending a message to identify the device on

the network.

Sending a message to identify the device on the
network.
The LEDs indicate the following:

l  Normal operation.
l  Message transmission and receipt.
l  Override status

ICANnet error status will occur when a Source
Controller is not connected to an iCAN network for
any reason. Once either connected to a network of
one or more other devices which are powered the
error status will be removed. It is still possible to
enter Diagnostic mode if a Source Controller is in
iCANnet error status.

INTELLIGENT CON TROLS

General Specifications

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INTELLIGENT CON TROLS

General Specifications

12 of 23

Key Features

l 128 scene memory.
l Multiple choice of circuit protection.
l Security door for MCB’s (where fitted).
l Fail to full safety feature.
l iCANnet™ inputs (10,000 node enabled).
l Audio Visual port (RS485).
l Alarm input.
l CE mark compliant for all relevant standards.
l Future proof with FLASH memory.
l Designed and manufactured to ISO9000 standards.
l Emergency Lighting Terminals.

Mechanical Data

Climate Range

l Temperature: - 20ºC to +40ºC.
l Humidity: +5 to 95 % non-condensing.

Control Inputs

l Two sets of terminals for the iCANnet™ suitable

for CAT5 FTP.

l One RJ12 socket for the programming of iCANnet™.
l One set of terminals for the Audio Visual port, RS485.
l One set of terminals for alarm input.

Electrical Data

Terminal Sizes

l Loads, maximum cable size: 1 x 4 mm

2

or

2 x 2.5 mm2 per circuit.

l iCANnet cable size: 5 x 1mm

2

.

l Audio Visual Port: RS485 2 x 1mm

2

.

l Alarm input: 2 x 1mm

2

.

Memory

l FLASH memory to be able to upgrade firmware

EEPROM for 128 scene memory.

Fade Times

l 0.1 seconds to 60 minutes.

Mains Stabilisation

l 50:1.

Mains Isolators

Isolators are standard on the following Source Controllers
SCH1210S & SCH1210N
SCH1220S & SCH1220N
SCS1210S & SCS1210N
SCS1220S & SCS1220N
SCI1205S & SCI1205N
SCI1210S & SCI1210N
SCI1220S & SCI1220SN
See SCT1205S for details of isolator wiring.

Isolators are NOT fitted to the following products
'D' (double pole) versions
SCI0805S
SCI0805N

Special order products that use different mechanics
SCI0405
SCH0410
SCS0410
SCS0420
SCI0805T

All iLight Source Controllers have the following specifications:

INTELLIGENT CON TROLS

Inductive Source Controllers

Euro version

l Mains Cable Access: 12 x PG16 and 1 x PG29

knockouts.

l Control Cable Access: 1 x PG16 knockout.

SCI1220

l Weight: 18kg

UK version

l Mains Cable Access: 12 x 25 mm, 1 x PG29

knockouts.

l Control Cable Access: 1 x 25 mm knockout.

Euro version

l Mains Cable Access: 12 x PG16 and 1 x PG29

knockouts.

l Control Cable Access: 1 x PG16 knockout.

Electrical Data

SCI0405

l Maximum Load: 20 Amp single phase @ 40ºC.
l Maximum Channel Current: 6 Amps.
l Supply: 230 volts -/+ 10% 50/60 Hz.

(optionally, 127 volt 60 Hz).

l Protection: 4 x 6 Amp MCB’s type C, 6KA rated.

SCI0410

l Maximum Load: 40 Amp single phase @ 40ºC.
l Maximum Channel Current: 10 Amps.
l Supply: 230 volts -/+ 10% 50/60 Hz.

(optionally, 127 volt 60 Hz).

l Protection: 4 x 10 Amp MCB’s type C, 6KA rated.

SCI1205

l Maximum Load: 40 Amp single phase @ 40ºC.
l Maximum Channel Current: 6 Amps.
l Supply: 230 volts -/+ 10% 50/60 Hz.

(optionally, 127 volt 60 Hz).

l Protection: 12 x 6 Amp MCB’s type C, 6KA rated.

SCI1210

l Maximum Load: 40 Amp three phase @ 40ºC.
l Maximum Channel Current: 10 Amps.
l Supply: 415/230 volts -/+ 10% 50/60 Hz.

(optionally, 220/127 volt 60 Hz).

l Protection: 12 x 10 Amp MCB’s type C, 6KA rated.

SCI1220

l Maximum Load: 63 Amp three phase @ 40ºC.
l Maximum Channel Current: 20 Amps.
l Supply: 415/230 volts -/+ 10% 50/60 Hz.

(optionally, 220/127 volt 60 Hz).

l Protection: 12 x 20 Amp MCB’s type C, 6KA rated.

Load Types

l Incandescent 230 volt lamps.
l Inductive Wire wound (allow for 10% transformer

losses).

l Leading edge electronic transformers.
l Cold Cathode (Check the iLight™ help desk for details).

Minimum Load

l 20 watts per channel.

Dimmed Outputs
SCI0405, SCI0410

l 4 x 40 Amp rated Triacs.

SCI1205, SCI1210, SCI1220

l 12 x 40 Amp Triacs.

Switched Outputs

l The Dimmed outputs may be configured as switches,

for non-dimmed loads. They require a minimum load
of 30mA for them to latch. Before connecting
Discharge lamps, consult with the iLight™ help desk.

Terminal Sizes

l Incoming supply, maximum cable size: 10mm

2

.

SCI0405S - Single pole
SCI0405N - Neutral disconnect
SCI0410S - Single pole
SCI0410N - Neutral disconnect
SCI0410D - Double pole
SCI1205S - Single pole
SCI1205N - Neutral disconnect
SCI1210S - Single pole
SCI1210N - Neutral disconnect
SCI1210D - Double pole
SCI1220S - Single pole
SCI1220N - Neutral disconnect
SCI1220D - Double pole

Common specifications as detailed on
page 12 plus the following:

Key Features

SCI0405

l - 4 x 5 Amp fully rated Source Controller.

SCI0410

l - 4 x 10 Amp fully rated Source Controller.

SCI1205

l - 12 x 5 Amp fully rated Source Controller.

SCI1210

l - 12 x 10 Amp fully rated Source Controller.

SCI1220

l - 12 x 20 Amp Source Controller.

l Dims resistive, inductive and low voltage electronic

transformer loads (That are compatible with leading
edge dimmers).

l Quiet operation.

Mechanical Data

SCI0405

l Weight: 4kg.
l Mains Cable Access: 4 x 25 mm, 4 x PG16 and 1 x

PG21knockouts.

l Control Cable Access: 1 x 25 mm, 1 x PG16

knockouts.

SCI0410

l Weight: 7kg.
l Mains Cable Access: 4 x 25 mm, 4 x PG16 and 1 x

PG21knockouts.

l Control Cable Access: 1 x 25 mm, 1 x PG16

knockouts.

SCI1205

l Weight: 10kg.

UK version

l Mains Cable Access: 12 x 25 mm, 1 x PG29

knockouts.

l Control Cable Access: 1 x 25 mm knockout.

Euro version

l Mains Cable Access: 12 x PG16 and 1 x PG29

knockouts.

l Control Cable Access: 1 x PG16 knockout.

SCI1210

l Weight: 18kg.

UK version

l Mains Cable Access: 12 x 25 mm, 1 x PG29

knockouts.

l Control Cable Access: 1 x 25 mm knockout.

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INTELLIGENT CON TROLS

Inductive Source Controllers

14 of 23

SCI1205S

INTELLIGENT CON TROLS

RS485

RS485

oV

AL

Output Status LEDs

Load Terminals

Supply Earth Terminals

RJ12 iCANnet

Socket

Control Board

+12V

Orange Pair

CAN-H

Blue/White

CAN-L

Blue

0V

Green Pair

SHIELD

Brown Pair

Supply & Load Cable entry knockouts

Control Cable entry knockouts

Service switches

and LEDs

+12V

Orange Pair

CAN-H

Blue/White

CAN-L

Blue

0V

Green Pair

SHIELD

Brown Pair

Channel Circuit Breakers

MAINS IN

RS485 & Alarm

Terminals

iCANnet

Terminals

SCH0410

l Maximum Load: 40 Amp single phase @ 40ºC.
l Maximum Channel Current: 10 Amps.
l Supply: 230 volts -/+ 10% 50/60 Hz.

(optionally, 127 volt 60 Hz).

l Protection: 4 x 10 Amp MCB’s type C, 6KA rated.

SCH1210 - As 0410 but 3 phase + 12 x 10 Amp.

SCI0805

l Maximum Load: 40 Amp single phase @ 40ºC.
l Maximum Channel Current: 5 Amps.
l Supply: 230 volts -/+ 10% 50/60 Hz (same phase).
l Protection: 1 x 20 Amp Double pole input MCB’s

type C, 6KA rated.

SCH1200

l Maximum Load: There is no load control.
l Power switching is achieved by the DSI ballasts

themselves.

l Maximum Channel Current: Not applicable.
l Supply: 1 x 230 volts -/+ 10% 50/60 Hz.
l Protection: Thermal non resetting fuse.

SCH0410
Dimmed Outputs

l 4 x 1-10 volt at 0.1 Amp sink current per channel.
l 4 x Tridonic DSI outputs (uses electronic power

switching in ballasts).

Switched Outputs

l 4 x 230 volt 10A (inductive or resistive).

SCH1210
Dimmed Outputs

l 12 x 1-10 volt at 0.1 Amp sink current per channel.
l 12 x Tridonic DSI outputs (uses electronic power

switching in ballasts).

Switched Outputs

l 12 x 230 volt 10A (inductive or resistive).

SCI0805
Dimmed Outputs

l 4 x 1-10 volt at 0.1 Amp sink current per channel.
l 4 x Tridonic DSI outputs (uses electronic power

switching in ballasts).

l 4 x 5 Amp inductive.

Switched Outputs

l 4 x 230 volt 5A (inductive or resistive).

SCH1200T
Dimmed Outputs

l 12 x 0-10 volts at 0.1 Amp sink current per channel.
l 12 x Tridonic DSI outputs (uses electronic power

switching in ballasts).

Switched Outputs

l None.

Terminal Sizes
SCH0410, SCH1210, SCI0805

l Incoming supply, maximum cable size: 10mm

2

.

SI0805T

l Incoming supply, cable rated for 40 Amp or to

correspond to input supply voltage.

l Maximum cable size 10mm

2

.

SCH1200T

l Incoming supply, maximum cable size: 2.5mm

2

l Ballast output, maximum cable size: 12 pairs

2.5 mm2 per circuit.

SCH0410S - Single pole 4 channels
SCH0410N - Neutral disconnect “
SCH0410D - Double pole “
SCH1210S - Single pole 12 Channels
SCH1210N - Neutral disconnect “
SCH1210D - Double pole “
SCI0805T - Single pole - Dual unit
SCI0805S - Single pole “
SCI0805N - Neutral disconnect “
SCH1200T - Terminals - 12 Channel, no relays

Common specifications as detailed on page
12 plus the following features:

Key Features

SCH0410S

l 40 Amp fully rated source controller.

SCH1210

l 120 Amp total box load on 4 circuits.

SCI0805

l 40 Amp total box load on 1 supply.

SCH1200

l A 12 channel device source controller.

l Suitable for both 0-10 volt analogue and DSI ballasts.
l Quiet operation.

Mechanical Data

SCH0410

l Weight: 4kg.
l Mains Cable Access: 4 x 25 mm, 4 x PG16 and 1 x

PG21knockouts.

l Control Cable Access: 1 x 25 mm, 1 x PG16

knockouts.

SCH1210

l Weight: 7.5kg.

UK version

l Mains Cable Access: 12 x 25 mm, 1 x PG29

knockouts.

l Control Cable Access: 1 x 25 mm knockout.

Euro version

l Mains Cable Access: 12 x PG16 and 1 x PG29

knockouts.

l Control Cable Access: 1 x PG16 knockout.

SCI0805

l Weight: 7.5kg.
l Mains Cable Access: 4 x 25 mm, 4 x PG16 and 1 x

PG21knockouts.

l Control Cable Access: 1 x 25 mm, 1 x PG16

knockouts.

SCH1200T

l Weight: 3kg.
l Mains Cable Access: 2 x 25 mm and 2 x PG16

knockouts.

l Control Cable Access: 1 x 25 mm and 1 x PG16

knockouts.

Electrical Data

Load Types

l 1-10volt HF Fluorescent, 100 per channel.
l DSI & DALI Fluorescent Ballasts

SCH0410 & SCI0805, 32 / channel. 128 / unit
SCH1210, SCH1220 & SCH1200T, 64 / channel; 128 / unit

l 0-10 volt Iris control 20K Ohm input).
l 1-10 volt Multi-Load transformers 100 (control only).

HF Ballast Controllers

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INTELLIGENT CON TROLS

HF Ballast Controllers

16 of 23

SCI0805S

SCH1200T

HF Control Connections

Option Switch

SCH0410S

INTELLIGENT CON TROLS

Channel Circuit Breakers

Load Terminals

Supply Earth Terminals

RJ12 iCANnet Socket

Load Terminals Supply Earth Terminals

HF Control Connections

Channel Circuit Breakers

HF Control Connections

Control Board

Option SwitchOption Switch

+12V

Orange Pair

CAN-H

Blue/White

CAN-L

Blue

0V

Green Pair

SHIELD

Brown Pair

RS485

RS485

oV

AL

+12V

Orange Pair

CAN-H

Blue/White

CAN-L

Blue

0V

Green Pair

SHIELD

Brown Pair

+12V

Orange Pair

CAN-H

Blue/White

CAN-L

Blue

0V

Green Pair

SHIELD

Brown Pair

RS485

RS485

oV

AL

+12V

Orange Pair

CAN-H

Blue/White

CAN-L

Blue

0V

Green Pair

SHIELD

Brown Pair

+12V

Orange Pair

CAN-H

Blue/White

CAN-L

Blue

0V

Green Pair

SHIELD

Brown Pair

RS485

RS485

oV

AL

+12V

Orange Pair

CAN-H

Blue/White

CAN-L

Blue

0V

Green Pair

SHIELD

Brown Pair

Mains Supply In

Supply & Load Cable entry knockouts

Supply & Load Cable entry knockouts

Control Cable entry knockouts

Control Cable entry knockouts

Service switches

and LEDs

Service switches

and LEDs

Service switches

and LEDs

Control Board

RJ12 iCANnet Socket

RJ12 iCANnet Socket

Control Board

MAINS IN

MAINS IN

RS485 & Alarm

Terminals

iCANnet

Terminals

RS485 & Alarm

Terminals

iCANnet

Terminals

RS485 & Alarm

Terminals

iCANnet

Terminals

SCS1210S - Single pole
SCS1210N - Neutral disconnect
SCS1220S - Single pole
SCS1220N - Neutral disconnect

Common specifications as detailed on
page 12 plus the following features:

Key Features

l Twelve channels of switching for resistive, inductive

or capacitive lighting loads.

l Quiet operation.

SCS1210

l 12 x 10 Amp fully rated switching Source Controller.

SCS1220

l 12 x 20 Amp Source Controller.

Mechanical Data

SCS1210, SCS1220

l Weight: 7.5kg.

UK version

l Mains Cable Access: 12 x 25 mm, 1 x PG29

knockouts.

l Control Cable Access: 1 x 25 mm knockout.

Euro version

l Mains Cable Access: 12 x PG16 and 1 x PG29

knockouts.

l Control Cable Access: 1 x PG16 knockout.

Switched Relay Controllers

17 of 23

Electrical Data

Load Types

l This unit is designed to work with most lighting load

types. Please consult with the iLight™ help desk for
guidance on true load calculations. Care should be
taken when specifying discharge lighting sources.

Switched Outputs

l This device uses 12 x 230 volt 20A (resistive and

inductive) relays.

Terminal Sizes

l Incoming supply, maximum cable size: 10mm

2

.

SCS1210

l Maximum Load: 40 Amp three phase @ 40ºC.
l Maximum Channel Current: 10 Amps.
l Supply: 415/230 volts -/+ 10% 50/60 Hz.

(optionally, 220/127 volt 60 Hz).

l Protection: 12 x 10 Amp MCB’s type C, 6KA rated.

SCS1220

l Maximum Load: 63 Amp three phase @ 40ºC.
l Maximum Channel Current: 20 Amps.
l Supply: 415/230 volts -/+ 10% 50/60 Hz.

(optionally, 220/127 volt 60 Hz).

l Protection: 12 x 20 Amp MCB’s type C, 6KA rated.

INTELLIGENT CON TROLS

SCS1210S

Switched Relay Controllers

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INTELLIGENT CON TROLS

Output Status LEDs

Option Switch

Load Terminals

Supply Earth Terminals

RJ12 iCANnet

Socket

Control Board

Supply & Load Cable entry knockouts

Control Cable entry knockouts

Service switches

and LEDs

Channel Circuit Breakers

MAINS IN

+12V

Orange Pair

CAN-H

Blue/White

CAN-L

Blue

0V

Green Pair

SHIELD

Brown Pair

RS485

RS485

oV

AL

+12V

Orange Pair

CAN-H

Blue/White

CAN-L

Blue

0V

Green Pair

SHIELD

Brown Pair

RS485 & Alarm

Terminals

iCANnet

Terminals

SCA0410S - Single Pole
SCA0410N - Neutral Disconnect
SCA0410D - Double Pole
SCA1210S - Single Pole
SCA1210N - Neutral Disconnect
SCA1210D - Double Pole

Common specifications as detailed on
page 12 plus the following:

Key Features

SCA0410

l - 4 x 10 Amp fully rated Source Controller.

SCA1210

l - 12 x 10 Amp fully rated Source Controller.

l Auto Senses for load type, and suitable for resistive,

inductive and capacitive loads.

l Complete with iPROTECT™ lamp protection and auto

short circuit protection.

Mechanical Data

SCA0410

l Weight: 9kg.
l Mains Cable Access: 4 x 25 mm, 4 x PG16 and

1 x PG21knockouts.

l Control Cable Access: 1 x 25 mm, 1 x PG16

knockouts.

SCA1210

l Weight: 18kg.

UK version

l Mains Cable Access: 12 x 25 mm, 1 x PG29

knockouts.

l Control Cable Access: 1 x 25 mm knockout.

Euro version

l Mains Cable Access: 12 x PG16 and 1 x PG29

knockouts.

l Control Cable Access: 1 x PG16 knockout.

Electrical Data

SCA0410

l Maximum Load: 40 Amp single phase @ 40ºC.
l Maximum Channel Current: 10 Amps.
l Supply: 230 volts -/+ 10% 50/60 Hz.

(optionally, 127 volt 60 Hz).

l Protection: 4 x 10 Amp MCB’s type C, 6KA rated.

SCA1210

l Maximum Load: 40 Amp three phase @ 40ºC.
l Maximum Channel Current: 10 Amps.
l Supply: 415/230 volts -/+ 10% 50/60 Hz.

(optionally, 220/127 volt 60 Hz).

l Protection: 12 x 10 Amp MCB’s type C, 6KA rated.

Load Types

l Incandescent 230 volt lamps.
l Low voltage inductive lamps (wire wound or

electronic).

l Low voltage electronic (capacitive).
l Cold Cathode (Check the iLight™ help desk for

details).

Minimum Load

l 20 watts per channel.

Dimmed Outputs

l 2 x 45 Amp FET’s per circuit.

Switched Outputs

l The Dimmed outputs may be configured as switches,

for non-dimmed loads. They require a minimum load
of 30mA for them to latch.

Terminal Sizes
SCA0410, SCA1210

l Incoming supply, maximum cable size: 10mm

2

.

Adaptive Source Controllers

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INTELLIGENT CON TROLS

Adaptive Source Controllers

20 of 23

SCA1210S

INTELLIGENT CON TROLS

Trailing Edge Source Controllers

Electrical Data

SCI0405

l Maximum Load: 20 Amp single phase @ 40ºC.
l Maximum Channel Current: 6 Amps.
l Supply: 230 volts -/+ 10% 50/60 Hz.

(optionally, 127 volt 60 Hz).

l Protection: 4 x 6 Amp MCB’s type C, 6KA rated.

SCI1205

l Maximum Load: 40 Amp single phase @ 40ºC.
l Maximum Channel Current: 6 Amps.
l Supply: 230 volts -/+ 10% 50/60 Hz.

(optionally, 127 volt 60 Hz).

l Protection: 12 x 6 Amp MCB’s type C, 6KA rated.

Load Types

l Incandescent 230 volt lamps.
l Capacitive loads
l Trailing edge electronic transformers.

Minimum Load

l 20 watts per channel.

Dimmed Outputs
SCT0405

l 4 x 19 Amp rated Transistors.

SCT1205

l 12 x 19 Amp rated Transistors.

Switched Outputs

l The Dimmed outputs may be configured as switches,

for non-dimmed loads. They require a minimum load
of 30mA for them to latch. Before connecting
Discharge lamps, consult with the iLight™ help desk.

Terminal Sizes

l Incoming supply, maximum cable size: 10mm

2

.

SCT0405S - Single pole
SCT0405N - Neutral disconnect
SCT0405D - Double pole
SCT1205S - Single pole
SCT1205N - Neutral disconnect
SCT1205D - Double pole

Common specifications as detailed on
page 12 plus the following:

Key Features

SCT0405

l - 4 x 5 Amp fully rated Source Controller.

SCT1205

l - 12 x 5 Amp fully rated Source Controller.

l Dims resistive, capacitive and low voltage electronic

transformer loads.

l Quiet operation.

Mechanical Data

SCT0405

l Weight: 4kg.
l Mains Cable Access: 4 x 25 mm, 4 x PG16 and 1 x

PG21knockouts.

l Control Cable Access: 1 x 25 mm, 1 x PG16

knockouts.

SCT1205

l Weight: 10kg.
l Mains Cable Access: 12 x 25 mm, 1 x PG29

knockouts.

l Control Cable Access: 1 x 25 mm knockout.

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INTELLIGENT CON TROLS

Trailing Edge Source Controllers

22 of 23

SCT1205S

INTELLIGENT CON TROLS

RS485

RS485

oV

AL

Channel Circuit Breakers

Option Switch

Load Terminals

Supply Earth Terminals

RJ12 iCANnet

Socket

Control Board

+12V

Orange Pair

CAN-H

Blue/White

CAN-L

Blue

0V

Green Pair

SHIELD

Brown Pair

Supply & Load Cable entry knockouts

Control Cable entry knockouts

Service switches

and LEDs

+12V

Orange Pair

CAN-H

Blue/White

CAN-L

Blue

0V

Green Pair

SHIELD

Brown Pair

Isolator

MAINS IN

RS485 & Alarm

Terminals

iCANnet

Terminals

23 of 23

iLight
Unit 4 Enterprise Centre
Penshurst Tonbridge
Kent TN11 8BG

T +44 (0)1892 870072
F +44 (0)1892 870074
E service@iLight.co.uk
www.iLight.co.uk

ILIGHT™, iCAN™, iCanTools™, iCANnet™, iPROTECT™ are registered trademarks of Cooper Controls
Limited.
All servicing must be referred to iLight - Cooper Controls Limited.
This equipment is designed for professional lighting control, and is unsuitable for any other purpose.
Cooper Controls Limited reserves the right to make changes to the equipment described in this
handbook without prior notice.
Errors and omissions excepted (E&OE)

Part No.: 7385000 Issue 10 January 2008

INTELLIGENT CON TROLS