3.4
EXTERNAL SENSOR
If there is an external sensor, the heating
settings SET can be taken from the climatic
curves according to the external tempera-
ture and, in any case, limited to with the
range values described in point 3.3 (para-
meters PAR 22 for zone 1, PAR 25 for zone
2 and PAR 28 for zone 3). The climatic
curve to be set can be selected from a value
of 3 and 40 (at step 1). Increasing the stee-
pness of the curves of fig. 13 will increase
the output temperature as the external
temperature decreases.
3.5
CARD FUNCTIONING
The electronic card has the following func-
tions:
– Antifreeze protection of the heating
and sanitary water circuits (ICE).
– Ignition and flame detection system.
– Control panel setting for the power and
the gas for boiler functioning.
– Anti-block for the pump which is fed for
a few seconds after 24 hours of inacti-
vity.
– Antifreeze protection for boilers with
an accumulation boiling unit.
– Chimney sweep function which can be
activated from the control panel.
– Temperature which can be shifted with
the external sensor connected.
It can be set from the control panel and
is active on the heating systems of both
circuit 1, circuit 2 and circuit 3.
– Management of 3 independent heating
circuit systems.
– Automatic regulation of the ignition
power and maximum heating.
Adjustments are managed automati-
cally by the electronic card to guaran-
tee maximum flexibility in use of the
system.
– Interface with the following electronic
systems: climatic regulator CR 53,
remote control CR 73, thermal regula-
tor RVS, connected to a management
card of a mixed zone ZONA MIX code
8092234, card solar INSOL code
8092235 and to board RS-485 for
managing up to 8 boilers in cascade or
implement
a
communication
Modbus (slave RTU-RS485, Reference
Guide
PI-MBUS-300
Rev.
8092243.
NOTE: If using CR 53 set parameter
10 to 2 (PAR 10 = 2).
3.6
TEMPERATURE
DETECTION SENSOR
Table 4 shows the resistance values of the
heating, DHW and exhaust fumes thermi-
stors.
If the C.H. flow sensor (SM), C.H. return
sensor (SR) and the exhaust fumes sen-
sor (SF) is faulty or open circuit, the boi-
ATTENTION: curves are calculated at an ambient temperature of
20°C. The user can act on the boiler controls to change the envi-
ronment set for which the bend has been calculated by ±5°C.
ler will not function on either heating or
DHW.
TABLE 4 (SM - SR - SF sensors)
Temperature (°C)
20
30
40
50
60
70
80
3.7
ELECTRONIC IGNITION
type
Ignition and flame detection is controlled
J)
cod.
by a single electrode on the burner which
guarantees reaction in the case of acci-
dental extinction or lack of gas within one
second.
3.7. 1
Functioning cycle
Burner ignition occurs within max. 10
seconds after the opening of the gas
valve. Ignition failure with consequent acti-
vation of block can be due to:
– Lack of gas
The ignition electrode persists in
discharging for max. 10 seconds. If the
burner does not ignite, the anomaly is
signalled.
This can happen the first time the boi-
ler is switched on after a long period of
inactivity due to the presence of air in
Resistance (Ω)
the gas pipes
12.090
It can be caused by a closed gas tap or
8.313
by a broken valve coil (the interruption
5.828
does not allow for opening).
4. 1 61
3.021
– The electrode does not discharge.
2.229
In the boiler, only the opening of the gas
1.669
to the burner can be detected.
After 10 seconds the anomaly is signal-
led. It can be caused by an interruption
in the electrode wire or if it is incorrec-
tly anchored to the connection points.
Or the electrode may be earthed or
strongly worn: it must be replaced.
Or the electronic card may be defecti-
ve.
– No flame detected
After start-up the electrode continues
to discharge even when the burner is
on.
After 10 seconds, the discharge stops,
the burner is switched off and a fault is
generated.
This fault is sometimes caused by the
shorting of the electrode cable or by its
improper fixing to the connection
points.
The electrode is connected to the
ES
PT
ENG
Fig. 13
101