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3-13
INS
TALLER
US
ER
MAINTEN
AN
CE TECHNI
CI
AN
3.15 "CHIMNEY SWEEP" FUNCTION.
This function allows the technician to check
the combustion parameters. Boiler operation in
chimney sweep function can be adjusted to an
output between 0% and 100%.
To enable the function press and hold down “A”
If there is a common flow probe, it is possible
to activate the chimney sweep function by
pressing buttons “A” and “B” simultaneously. In
this case, the plant pump is activated as well as
the boiler (in the “simple cascade” both boilers
are activated)
The output is adjusted from the + and - DHW
adjustment buttons at a range between 0 and
100%, while using the + and - buttons for CH
adjustment, the percentage changes by 1% each
time they are pressed.
In this state all adjustments are excluded and
only the temperature safety thermostat and the
limit thermostat remain active. When the checks
are finished, disable the function by pressing
and holding down button “A” (Or A + b in the
other case).
If you enable the function when there is no active
request, you will need to wait approximately 30’’
to reach the set output. If you enable the function
when there is an active request, you will need
to wait approximately 3 minutes to reach the
set output.
If you enable the function, you will need to wait
approximately 30’’ to reach the set output (3’ on
the Slave boiler)
3.16 3-WAY PUMP ANTI-BLOCK
FUNCTION (OPTIONAL).
The boiler has a function that starts the pump
and 3-way valve at least once every 24 hours for
the duration of 20 seconds in order to reduce
the risk of the pump becoming blocked due to
prolonged inactivity.
3.17 RADIATORS ANTI-FREEZE
FUNCTION.
The boiler has a function that makes the pump
start when the system flow water reaches 8 °C. If
3-8
the system flow water is at a temperature below
5 °C, the boiler starts to operate until it reaches
approximately 16 °C.
3.18 ANTI-HUMIDITY ELECTRODE
FUNCTION.
With cascade installations combined with their
relative flue manifold kits with flue adjusting
devices, humidity may develop on the electrodes,
causing them to fail. Avoid the formation of
humidity by enabling this function (by setting
a value other than 0), which turns the fan on
at the speed set in parameter “P11” (5 minutes
on and 5 minutes off). The function is active
when the burner is off and the flow NTC probe
temperature reading is greater than 35°C. The
function is disabled when the temperature drops
below 30 °C.
3.19 INLET 0 ÷ 10 V.
The microprocessor has an analogue 0 ÷ 10 V
inlet (“Y” and “Z” terminals fig. 1-4) that enables
the boiler to be controlled from the outside.
By setting the “P37” parameter, it is possible
to set-up the inlet by choosing the functioning
mode between temperature set and power set.
The inlet activates a 2 V (minimum) request and
increases it proportionally up to 9.5 V (max-
imum). The request is deactivated below 1 V.
Notes:
- If “P37” is set at “0”, it is not active when the
boiler is in “stand-by” or “summer” mode.
The calculated set is limited by the “P02” ÷ 20 °C
range. The maximum and minimum temperature
within the set is limited by “P01” and “P32”.
- If “P37” is set on “1” it is always active.
It is not limited by the “P08” and “P09” param-
eters and does not have priority over the DHW
request.
- Input voltage = -2.5 ÷ 12.5 V
- Input = 200 μA
- Impedance = > 50 KΩ
3.20 FUNCTIONING WITH COMMON
FLOW PROBE.
With a hydraulic circuit breaker, there must be
a common flow probe (with boiler flow probe
functions) and a pump to be connected down-
stream of the plant.
The probe must be connected to terminals “S1”
and “S2” and parameter “P38” must be set up,
whereas the pump must be connected to termi-
nals “C” and “D”.
If there is a DHW circuit, it can be connected
via an external 3-way to be connected to “IT”,
“IS” and IK terminal, or use a suitable pump to
be connected to “IT” and “IK” terminals. The
DHW circuit has priority over the heating circuit.
Please refer to chart fig. 3-13 for the correct
configuration
3.21 AUTODETECTION.
This function enables the association of the
display board to the boiler’s P.C.B. In addition,
in case of “simple cascade” installation, it enables
the detection and combination of cascade boilers.
Turn the boiler on, programme it according to
your needs, press and hold the “-” (fig. 2-1 ref. 2)
button down until “AUTO” appears, then press
“RESET” until “bu 1” appears.
3.22 SIMPLE CASCADE (MAX. 2
BOILERS)
It is possible to create a “simple cascade” by
directly connecting two boilers.
The two boilers turn on alternatively based on
the plant’s requirements.
Carry out the connection as indicated in the
diagram (fig. 3-6). With this configuration, there
must be a common flow probe on the thermal
plant, see the chart (fig. 3-13) for the possible
options.
In order for the system to recognise the two
boilers, you must activate the Autodetection and
make sure both boilers are on.
They are associated when “bu 2” appears on
the Master boiler and “SLA 2” appears on the
Slave boiler.
From this moment on, all programming is car-
ried out on the Master boiler, while the “SLA 2”
caption always appears on the Slave boiler, except
in case of anomaly.
The customised parameters of the Master boiler
are automatically replicated on the Slave boiler.
Warning: it is not possible to combine the cascade
and zone regulator to the plant in this case. It is
possible to connect an On/Off room thermostat
or use the 0 ÷ 10 V inlet (which must only be
connected to the Master) to control the plant.
N°
boilers
Parameter “P38”
Parameter “P17”
Common flow
probe
Boiler flow probe
Common flow probe
present = 1
Common flow probe
absent = 0
DHW pump (down-
stream the distribu-
tion manifold) = 1
3-way valve = 0
1
X
X
No
Central heating
Domestic hot water
1
X
X
Central heating
Domestic hot water
1
X
X
Central heating
Domestic hot water
Just as
limit thermostat
2
X
Not admitted
Central heating
Just as
limit thermostat
2
X
X
Central heating
Domestic hot water
Just as
limit thermostat