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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 6mm2
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
A
daptive 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 CONTROLS
Содержание SCI0405
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