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Installer and user manual
Meteo Green HE R.S.I.
METEO GREEN HE R.S.I.
METEO GREEN HE R.S.I.
boiler complies with basic requirements of the following Directives:
- Gas directive 2009/142/EC;
- Yield directive 92/42/EEC;
- Electromagnetic compatibility directive 2004/108/EC;
- Low-voltage directive 2006/95/EC;
- Directive 2009/125/EC Ecodesign for energy-using appliances;
- Directive 2010/30/EU Indication by labelling of the consumption of energy by energy-related products;
- Delegated Regulation (EU) No. 811/2013;
- Delegated Regulation (EU) No. 813/2013;
- Delegated Regulation (EU) No. 814/2013.
0694
BU1240
RANGE RATED
This boiler can be adapted to the heating requirements of the system, it is possible to change the maximum output in central heating. Refer to chapter
“Adjustments” for calibration.
After setting the desired output (parameter 23 maximum heating) report the value in the table on the back cover of this manual, for future references.
INSTALLER MANUAL - CONTENTS
1
2
GENERAL SAFETY DEVICES
BOILER OPERATING ELEMENTS page 3 page 4
11 INSTALLING THE EXTERNAL PROBE page 12
15
16
FILLING AND EMPTYING THE SYSTEM
FUMES EXHAUSTION AND BURNING AIR SUCTION page 13 page 14
25 CHECKING COMBUSTION PARAMETERS
REMOTE CONTROL USER MANUAL - CONTENTS
1 GENERAL SAFETY INFORMATION
3 USING THE REMOTE CONTROL PANEL page 34 page 37 page 39
2
In some parts of the manual, these symbols are used:
ATTENTION = for actions that require particular caution and proper training
FORBIDDEN = for actions that MUST NOT be performed
This handbook contains data and information for both users and installers. In detail:
Gas connection, Electric connection, Filling and emptying the system, Fumes exhaustion and burning air suction, Technical data, Programming parameters, Gas conversion, Checking combustion parameters” are intended for installers; operation” are for both users and installers.
INSTALLER MANUAL
METEO GREEN HE R.S.I.
1 - GENERAL SAFETY DEVICES
The boilers produced in our factory are built with care down to the last component to protect both the user and installer from eventual accidents.
We therefore recommend qualified personnel that after working on the product they should pay particular attention to the wiring, especially the bare wires, that must not be exposed outside the terminal board for any rason to prevent any contact with the live parts of the wiring.
This instructions manual is integral parts of the product. Make sure they remain with the boiler, even if it is transferred to another owner or user or moved to another heating system. In case of loss or damage, please contact your local Technical Assistance Service for a new copy.
This boiler may only be installed and serviced by qualified fitters who satisfy the requirements of local rules. Work must be done in compliance with regulations in force and subsequent updates.
Safety measures:
The boiler should not be used by children or unassisted disabled people
Electrical devices or equipment, such as switches, appliances, etc., should not be used if there is a smell of gas or fumes. If there is a gas leak, open all the doors and windows to ventilate the area, turn off the general gas tap and immediately call the Technical Assistance Service
Do not touch the boiler barefoot or if parts of your body are wet or damp
The boiler must be serviced at least once a year. This should be booked in advance with the Technical Assistance Service.
The installer shall instruct the user in the operation of the boiler and the safety devices.
This boiler may only be used for what it was expressly built to do. The manufacturer declines all contractual and non-contractual liability for injury to persons or animals or damage to property deriving from errors made during installation, adjustment and servicing and from improper use.
This appliance is used to produce hot water and must therefore be connected to a heating and/or a domestic hot water system, according to its performance and power.
After removing the packaging, make sure the contents are undamaged and complete. If this is not the case, contact your dealer.
When the product reaches the end of its life it should not be disposed of as solid urban waste but should be brought to a separated waste collection facility.
The safety valve outlet must be connected to a suitable collection and venting system. The manufacturer declines all liability for any damage caused by the safety valve.
The safety and automatic adjustment devices on the appliance must never be modified during its lifetime, except by the maker or dealer.
If the appliance develops a fault and/or works badly, switch it off and do not attempt to repair it yourself.
Immediately after installation, inform the user that:
- in the event of leaks, he/she must shut off the water supply and promptly inform the Technical Assistance Service
-
GREEN HE R.S.I.:
must periodically check, on the display, that the pressure value is between 1 and 1,5 bar; if not fill the system as described in the paragraph “Boiler functions”
- if the boiler is not planned to be used for a long period, he/she should call in the Technical Assistance Service to perform the following operations:
- turn off the main boiler and general system switches.
- close the gas and water taps on the heating.
- drain the heating circuits to prevent freezing.
Connect the outlet collector to a suitable outlet system (refer to chapter
5 - CONDENSATE COLLECTION).
electricity supply by turning off the two-position system switch, before cleaning
It is forbidden to modify the safety or adjustment devices without the manufacturer’s permission and relative instructions
Do not pull, detach or twist the wires from the boiler even if they are not connected to the power supply
Do not block or reduce the size of the ventilation openings in the room
Do not leave inflammable containers or substances in the room
Keep packaging out of reach of children
Only use appliance for purposes it is devoted to
Do not lean any object on the boiler
Do not tamper with sealed elements
It is forbidden to block the condensate outlet.
3
METEO GREEN HE R.S.I.
2 - BOILER OPERATING ELEMENTS
1. Electrical connections box
3. Three-way solenoid valve
5. Lower air vent valve
6. Siphon
7. Return NTC sensor
10. Fume analysis sample cap
12. Ignition transformer
13. Upper air vent valve
14. Delivery NTC sensor
15. High limit thermostat
16. Detection electrode
17. Ignition electrode
18. Condensate level sensor
19. Burner
20. Silencier (25 HE only)
21. Main exchanger
22. Fan
23. Mixer
24. Pressure transducer
25. Gas valve
26. Alarm reset button
27. Hydrometer
3 - BOILER DIMENSIONS
NOTE: measures in mm
A: condensate outlet
C: water-gas
A
C
4
4 - TECHNICAL DATA
METEO GREEN HE R.S.I.
R.S.I. 25 kW R.S.I. 35 kW
CH
Nominal thermal load
Nominal thermal power (80-60°C)
Nominal thermal power (50-30°C)
Reduced thermal load (G20/G31) kW kcal/h kW kcal/h kW kcal/h kW
25.00
21 500
24.38
20 963
26.20
22 532
2.50 / 4.50
34.60
29 756
33.74
29 012
36.50
31 393
3.50 / 6.20
Reduced thermal power (80-60°C) (G20/G31)
Reduced thermal power (50-30°C)(G20/G31)
Nominal thermal load Range Rated heat (Cn)
Minimal thermal load Range Rated (Qm) (G20/G31)
Working efficiency Pn max - Pn min (80-60°C)
Working efficiency 30% (47°C return)
Combustion efficiency
Working efficiency Pn max - Pn min (50-30°C)
Working efficiency 30% (30°C return)
Average Range Rated Pn performance (80-60°C)
Average Range Rated Pn performance (50-30°C)
Electric power
Category
Supply voltage
Protection level
Chimney losses with burner off-on
CH operation
Maximum pressure - temperature
Minimum pressure for standard working/operating
Selection field of CH water temperature
Pump maximum head available for system capacity
Membrane expansion tank
Expansion vessel pre-charge (CH)
Gas pressure
Natural gas pressure (G20)
LPG pressure (G31)
Hydraulic connections
CH input-output
Water tank delivery-return l kcal/h kW kcal/h kW kcal/h kW kcal/h kW kcal/h
%
%
%
%
%
%
%
W
V - Hz
IP
% bar - °C bar
°C mbar l/h bar mbar mbar
2 150 / 3 870
2.49 / 4.47
2 144 / 3 847
2.69 / 4.82
2 309 / 4 145
25.00
21 500
2.50 / 4.50
2 150 / 3 870
97.5 - 99.7 (G31: 99.4)
102.8
97.8
103.1
97.7
104.8 - 107.4 (G31: 107.1) 105.5 - 105.9 (G31: 105.9)
109.4
108.0
98.1
97.6
105.2
88
II2H3P
230 - 50
X5D
0.10 - 2.16
3 - 90
0.25 - 0.45
20 - 80
320
1 000
10
1
Ø
Ø
Ø
3/4"
3/4"
3/4" Gas input
Boiler dimensions and weight
Height
Width
Depth mm mm mm kg
797
553
268
44 Weight
Fan performance
Fan residual head without pipes
Flow rates (G20)
Air capacity
Fumes capacity
Nm 3 /h
Nm
3
/h
31.135
33.642
Mass flow (max-min)
Fume exhaustion and air suction concentric pipe
gr/s 11.282 - 1.070
Diameter mm 60 - 100
Max len
JWKPP
Loss for a 90°/45° bend m 1.6 / 1.3
mm 105 Hole in the wall
Fume exhaustion and air suction concentric pipe
Diameter
Max leng
WK
Loss for a 90°/45° bend
Hole in the wall
Pa mm
PP m mm
98
80 - 125
1
1,5 / 1
130
3 010 / 5 332
3.41 / 6.04
2 929 / 5 193
3.71 / 6.57
3 188 / 5 647
34.60
29 756
3.50 / 6.20
3 010 / 5 332
97.5 - 97.3 (G31: 97.4)
106.1
116
II2H3P
230 - 50
X5D
0.08 - 2.30
3 - 90
0.25 - 0.45
20 - 80
320
1 000
10
1
3/4"
3/4"
3/4"
797
553
268
45
199
43.090
46.561
15.614 - 1.498
60 - 100
7.85
1.6 / 1.3
105
80 - 125
14.85
1.5 / 1
130
5
METEO GREEN HE R.S.I.
Fume exhaustion and air suction separated pipe
Diameter
Max lenght
Loss for a 90°/45° bend
Forced open installation (B23P-B53P)
Diameter
Max lenght
Loss for a 90°/45° bend
Nox
Emission values at maximum and minimum of gas G20 **
Maximum CO s.a. lower than
CO
2
NOx s.a. lower than mm m m mm m m
Minimum CO s.a. lower than
CO
2
NOx s.a. lower than p.p.m.
% p.p.m.
°C p.p.m.
% p.p.m.
°C
* Average value among various sanitary running conditions.
** Tested with Ø60-100 concentric - lenght 0,85m - water temperature 80-60°C.
R.S.I. 25 kW
5.0
9.5
10
59
180
9.0
45
76
80
32 + 32
1.5 / 1
80
50
1.5 / 1
5
R.S.I. 35 kW
10
9.5
15
62
180
9.0
35
74
80
40 + 40
1.5 / 1
80
60
1.5 / 1
5
5 - MULTIGAS TABLE
Lower Wobbe index (15°C-1013 mbar)
Lower heat value
Supply nominal pressure
Supply minimum pressure
Meteo Green R.S.I. 25 kW
Diaphragm (number of holes)
Diaphragm (diameter of holes)
CH maximum gas capacity
CH minimum gas capacity
Numbers of fan revolutions at slow start
Maximum number of fan revolutions
Minimum number of fan revolutions
Meteo Green R.S.I. 35 kW
Diaphragm (number of holes)
Diaphragm (diameter of holes)
CH maximum gas capacity
CH minimum gas capacity
Numbers of fan revolutions at slow start
Maximum number of fan revolutions
Minimum number of fan revolutions
2
3.80
3.66
-
0.37
-
3 300
6 000
1 200
2
3.65
2.64
-
0.26
-
3 700
6 000
1 200
G20
45.67
34.02
-
20
203.9
10
102.0
n.
mm
Sm
3
/h kg/h
Sm 3 /h kg/h rpm rpm rpm n.
mm
Sm 3 /h kg/h
Sm 3 /h kg/h rpm rpm rpm
MJ/m 3 S
MJ/m 3 S
MJ/kgS mbar mm H
2
O mbar mm H
2
O
2
3.05
-
2.69
-
0,48
3 300
5 900
1 900
2
2.95
-
1.94
-
0.35
3 700
6 000
1 900
G31
70.69
88
46.34
37
377.3
-
6
METEO GREEN HE R.S.I.
Parameter
Seasonal space heating energy efficiency class
Water heating energy efficiency class
Rated heat output
Seasonal space heating energy efficiency
Useful heat output
At rated heat output and high-temperature regime (*)
At 30% of rated heat output and low-temperature regime (**)
Useful efficiency
At rated heat output and high-temperature regime (*)
At 30% of rated heat output and low-temperature regime (**)
Auxiliary electricity consumption
At full load
At part load
In Stand-by mode
Other parameters
Stand-by heat loss
Pilot flame energy consumption
Annual energy consumption
Sound power level, indoors
Emissions of nitrogen oxides
For combination heaters
Declared load profile
Water heating energy efficiency
Daily electricity consumption
Daily fuel consumption
Annual electricity consumption
Annual fuel consumption
Symbol
-
-
Pnominal
P4
P1 elmax elmin
PSB
Pstby
Pign
QHE
LWA
NOx
Qelec
Qfuel
AEC
AFC
R.S.I. 25 kW
A
93
24,4
8,2
88,3
98,5
40,0
16,4
6,3
55,0
-
42
58
36
-
-
-
-
-
-
-
24
R.S.I. 35 kW
A
-
-
-
-
-
-
-
34
92
33,7
11,2
87,9
97,3
68,0
25,8
7,7
42,0
-
58
60
23
Unit
-
kW
% kW kW
%
%
W
W
W
W
W
GJ dB mg/kWh
% kWh kWh kWh
GJ
(*) High-temperature regime means 60 °C return temperature at heater inlet and 80 °C feed temperature at heater outlet.
(**) Low temperature means for condensing boilers 30 °C, for low-temperature boilers 37 °C and for other heaters 50 °C return temperature (at heater inlet).
NOTE (if the external probe or the control panel or both devices are in the boiler) With reference to Delegated Regulation (EU) No. 811/2013, the data in the table can be used for completing the product card and the labelling for ambient heating appliances, for mixed heating appliances, for assemblies of appliances for ambient heating, and for temperature control devices and solar devices:
Component
External probe
Control panel
External probe + control panel
Class
II
V
VI
Bonus
2%
3%
4%
6 - HYDRAULIC CIRCUIT
Q
R
S
T
U
A. Water tank delivery (DO NOT USE)
B. Water tank return (DO NOT USE)
P
O
V
L. 3-way motor valve
M. Circulator
N. Lower air vent valve
P. Return NTC sensor
R. Delivery NTC sensor
S. Upper air vent valve
T. Air water separator
U. Manual bleed valve
Z. Hydrometer
N
M
G Z
L
I
H
D C B A
7
METEO GREEN HE R.S.I.
7 - MULTI-WIRE DIAGRAM
8
8 - ELECTRICAL CONNECTIONS
METEO GREEN HE R.S.I.
HIGH VOLTAGE CONNECTIONS
Any external connection of a second circulator will be connected to the terminal black M2 as shown below.
The limit of the zone valves must have free contact tension.
The contacts of the room thermostat must be designed for V= 230 volts.
HIGH VOLTAGE CONNECTIONS
The programmable heating thermostat and ambient thermostat to be connected as shown in the diagram. The contacts of the room thermostat and time programmer must be designed for V= 230 volts.
P.O.R. = Programmable Thermostat
Zone valves or
Thermostat
F = 3.15 A fuse
Ambient
Thermostat
F = 3.15 A fuse
LOW VOLTAGE CONNECTIONS
Any low voltage units to be connected as shown in the diagram below on the terminal M10 disigned for connection of loads in the low voltage.
TSBT = safety thermostat low temperature
SE = outside probe
REC = remote control panel
S.BOLL = DHW probe
T.BOLL = boiler thermostat
HIGH VOLTAGE CONNECTIONS
The programmable heating thermostat to be connected as shown in the diagram. The contacts of the room thermostat and time programmer must be designed for V= 230 volts.
P.O.R. = Programmable Thermostat
9
METEO GREEN HE R.S.I.
9 - BOILER INSTALLATION
Boiler must only be installed by qualified personnel.
Boiler is available in the following models:
Model
R.S.I.
Type
CH only
Category
C
Power
25-35 kW
Meteo Green HE R.S.I.
is a C-type condensation wall-mounted boiler and is able to operate:
-
CASE A:
only heating. The boiler doesn’t supply domestic hot water
Meteo Green HE
boilers are fitted with:
- circulation at adjustable speed (PWM = Pulse-Width Modulation)
- 1-10 modulation, the boiler is designed to automatically modulate the flow rate supplied between a maximum and a minimum (see technical data)
- Range Rated, indicates that the boiler has a device for adapting to the system’s heat requirements, making it possible to adjust the boiler’s thermal load to the energy requirements of the building
The following types of fumes outlet are available for this kind of boiler:
B23P; B53P; C13,C13x; C23; C33,C33x; C43,C43x; C53,C53x; C63,C63x;
C83,C83x, C93,C93x.
In
B23P
configuration (if installed inside), do not install the apparatus in rooms used as bedrooms, bathrooms, showers or where there are open vent stacks without own air exchange. The boiler must be installed in an adequately ventilated room. See the local and national rules aboutetailed instructions on installing vent stacks, gas pipes and to ventilate the room.
In
C
configuration the boiler can be installed in any type of room and there are no limits to aeration conditions and size of room.
For proper installation, we remind you that:
- the boiler must not be installed over a kitchen or any other cooking equipment
- minimum spaces are to be left in order to allow maintenance operations: at least 5,0 cm every side and 20 cm under the boiler
- it is forbidden to leave inflammable substances in the room
- suitably insulate heat-sensitive walls (e.g.: in wood).
Support plate and integrated pre-installation template are provided for with the boiler (Fig. 1.1).
Mounting instructions:
- fix the boiler support plate (F) with the template (C) to the wall and use a plumb to check that it is perfectly horizontal
- trace out 4 holes (Ø 6 mm) for fixing the boiler support plate (F) and 2 holes (Ø 4 mm) for fixing the pre-installation template (C)
- make sure all the measurements are correct, then drill holes in the wall using a drill and point with the diameter given previously
- fix the plate to the wall by the supplied anchor screws
- make hydraulic connections.
Fit the lower cover (Fig. 1.2) so that its hooks slip into the relative slots in the lower part of the boiler. Fix the lower cover with the screws A- B (Fig. 1.3) contained in the documentation envelope in the boiler.
CLEANING THE SYSTEM AND CHARACTERISTICS OF
HEATING CIRCUIT WATER
After installing a new system or replacing a boiler, clean the heating system.
To ensure the product works correctly, after cleaning, additivating and/or chemically treating the system (e.g.: anti-freeze, film-formers, etc.), make sure the characteristics of the water satisfy the parameters indicated in the table.
Inlet water Parameters
PH
Water in heating circuit
7÷8
Hardness
Appearance
-
-
15÷20 °F limpid
If water hardness exceeds 28°Fr, it is recommended to use water softeners, to prevent any limestone deposit in boiler due to excessively hard water.
PUMP DUTY
Meteo Green HE
boilers are fitted with a variable speed circulation unit that is already connected up in terms of plumbing and electrics, and the usable performance it provides is shown in the graph.
The boilers are fitted with an anti-blocking system that starts an operating cycle every 24 hours when not used, irrespective of the position of the function selector. pressure relief inlet outlet
- 1.1 -
- 1.2 -
- 1.3 -
A
G
F
R
M
B
G
C
10
METEO GREEN HE R.S.I.
The “anti-blocking” function is only active when the electrical power supply to the boiler is on.
Operating the circulation system without any water is strictly forbidden.
VARIABLE SPEED CIRCULATION UNIT
The modulating circulating function is only active for the heating function.
When switching the three ways on the plate heat exchanger, the circulation unit is set at maximum speed. The modulating circulation function applies only to the boiler circulation unit and not to circulation units on any external devices connected to it (e.g. booster circulation unit).
Any of 4 operating modes can be chosen, depending on situations and the type of plant.
By accessing parameter 90 in the technical menu, one of the following possibilities can be chosen:
1 - VARIABLE SPEED CIRCULATION UNIT WITH PROPORTIONAL
!# $
3 - VARIABLE SPEED CIRCULATION UNIT WITH MAXIMUM FIXED
MAXIMUM SPEED MODE (P90 = 1)
4 - EXCEPTIONAL USE OF A STANDARD CIRCULATION UNIT WITHOUT
SPEED ADJUSTMENT (P90 = 0)
When working with a constant delivery temperature and attainment of stabilising the ambient conditions, the average temperature of the radiators
'[&@'?<&^[\[[[|<&$?&'\&' '[^[@`'<?&<&'[}]?^\'[< obtained by changing the operating curve, which produces a lower return temperature that in turn favours high boiler performance and the reduction of electricity consumption.
Operationally:
- Access parameter 90
- Set the parameter at a value between 2 and 40 (normally between 10 and 20).
3 - VARIABLE SPEED CIRCULATION UNIT WITH MAXIMUM FIXED
MAXIMUM SPEED MODE (P90 = 1)
In this mode the modulating circulation unit works constantly at maximum speed.
It is used on plants with a high load loss in which the boiler’s head must be used as much as possible in order to guarantee sufficient circulation (plant flow rate at maximum speed lower than 600 litres per hour).
This is used when bottles of mixture are involved, with high flow rates in the circuit downstream.
Operationally:
- Access parameter 90
- Set the parameter = 1
1 - VARIABLE SPEED CIRCULATION UNIT WITH PROPORTIONAL
In this mode the boiler’s board determines what flow rate curve to adopt according to the instantaneous power supplied by the boiler.
The boiler controller breaks down the power range within which the boiler operates in heating mode into various levels. Depending on the power level in use when heating, one of the speeds available is selected automatically according to a linear logic:
- maximum power = high speed
- minimum power = low speed
This is used on all types of plants where the machine’s power has been correctly balanced with the plant’s real needs.
Operationally:
- Access parameter 90
- Set the parameter = 41
NOTE -
The parameter 90 = 41 setting is recommended by the manufacturer.
Values exceeding 41 are used in specific cases.
4 - EXCEPTIONAL USE OF A STANDARD CIRCULATION UNIT
WITHOUT SPEED ADJUSTMENT (P90 = 0)
This mode must be used in exceptional cases in which the boiler is to be used with a traditional circulation unit without a speed adjustment. It presupposes that the adjustable speed circulation unit has been removed and replaced with a non-adjustable speed circulation unit.
WARNING!!!
The BE06 board connected to connector CN9 must be removed and replaced with a connector with a jumper to be inserted into connector
CN9. This latter connection is obligatory and if not formed may cause the system to malfunction.
Operationally:
- Access parameter 90
- Set the parameter = 0
CONFIGURATIONS RECOMMENDED BY THE
MANUFACTURER
6,0
5,8
5,6
5,4
5,2
5,0
4,8
4,6
4,4
4,2
4,0
3,8
3,6
3,4
3,2
3,0
2,8
2,6
2,4
2,2
2,0
1,8
1,6
1,4
1,2
1,0
0,8
0,6
0,4
0,2
0,0
0 100 200
MIN
300
MAX
PUMP
MODULATION
AREA
900 1000 1100 1200
HIGH TEMPERATURE
(radiators without thermostatic valves)
LOW TEMPERATURE
(floor)
HIGH TEMPERATURE
(radiators with thermostatic valves)
EXTERNAL
SENSOR YES
(heat regulation)
PROPORTIONAL
(P90 = 41)
PROPORTIONAL
(P90 = 41)
PROPORTIONAL
(P90 = 41)
EXTERNAL
SENSOR NO
(no heat regulation)
$?&'\&'
PROPORTIONAL
(P90 = 41)
PROPORTIONAL
(P90 = 41)
400 500 600 700 800
Plant flow rate (l/h)
2 - VARIABLE SPEED CIRCULATION UNIT WITH CONSTANT DT
&'<>?@['[<&'\]][^[''[$_\]`['?{[>\<&'\<&[@{['[[&'[ delivery and return (e.g. if a value of 10 is entered, the circulation unit’s speed will change to implement a plant flow rate aimed at maintaining the
${['[[&`|'^[\>\&@@?&'^[\>?}'[[\'[~\&[^\'
By periodically sampling the values provided by the boiler delivery/return sensors, the board increases or decreases the circulation unit’s speed
\&@'[^[}?^['[|]\&'}]?^\'[}'[\>|]<&?\$_\]`[]?[^
'\&'\'[' '[|[[@<^[@`[@`&'<]'[$<&^[\['?'[_\]`[['
Vice-versa is sampling is higher than the value set, the speed is increased.
This is used for direct high temperature plants (typical of replacement), where the boiler is not thermostatically controlled, and where a calculated
$\&{[['
10 - HYDRAULIC CONNECTIONS
Position and dimensions of hydraulic connections are specified in figure 1.1:
R
CH
M
CH
G
Gas 3/4"
F
Support
C
Pre-installation
11
METEO GREEN HE R.S.I.
11 - INSTALLING THE EXTERNAL PROBE
The sensor (Fig. 1.4) must be installed on an external wall of the building you want to heat, while taking care to comply with the instructions below:
- It must be fitted on the facade most often exposed to wind, on a wall facing SOUTH or SOUTH-EAST, and taking care to avoid direct sunlight.
- It must be fitted about 2/3 up the height of the façade.
- It must not be near any doors, windows, outlets for air ducts, or near chimneys or other heat sources.
The electrical connection to the external sensor must be formed using a twopole cable (not supplied), with a cross-section of 0,5 to 1 mm² and a maximum length of 30 metres. It is not necessary to worry about the polarity of the cable for the connection to the external sensor. Do not form joints in this cable.
If a joint has to be made it must be watertight and adequately protected.
Any conduiting used for the connection cable must be separate from the conduits used for the power cables (230 Vac).
WALL MOUNTING OF THE EXTERNAL SENSOR
- Install the probe in an area of smooth wall; for brick walls or other irregular surfaces, prepare a smooth contact area if at all possible.
- Remove the upper plastic cover by turning it anti-clockwise.
- Identify the wall fixing point and drill a hole for the 5x25 expansion grip.
- Insert the expansion grip into the hole.
- Remove the card from its housing.
- Fix the housing to the wall using the supplied screw.
- Attach the bracket and tighten the screw.
- Loosen the cable grommet screw, push in the probe connection cable and connect it to the electrical terminal.
Remember to firmly secure the cable grommet to prevent humidity from entering.
- Put the card back into its housing.
- Close the upper plastic cover by turning it clockwise. Firmly secure the cable grommet.
12 - CONDENSATE COLLECTION
The outlet collector A (Fig. 1.5) collects: the condensate water, any evacuation water from the safety valve and the system outlet water.
The collector must be connected, by means of a rubber pipe (not supplied), to a suitable collection and evacuation system in the storm water outlet and in compliance with current regulations.
The external diameter of the collector is 20 mm: we therefore suggest using an Ø 18-19 mm pipe, to be closed with a suitable clamp (not supplied).
The manufacturer is not responsible for any damage caused by the lack of a collection system.
The outlet connection line must have a guaranteed seal.
The manufacturer of the boiler is not responsible for any flooding caused by interventions of the safety valve.
A
- 1.4 -
- 1.5 -
- 1.6 -
114
13 - GAS CONNECTION
Before connecting appliance to gas pipe network, check the following:
- regulations in force are met
- gas type used is the same as set for appliance operation
- pipes are clean.
Gas must be piped externally. If the pipe goes through a wall it must go through the central opening in the lower part of the template. It is recommended to install an appropriately sized filter on the gas line in case gas from the mains contains some small solid particles. After installation make sure that all the joints have been made airtight conforming to standard installation practices
B
The boiler can operate with phase-neutral or phase-phase power supply. For floating power supply, without an earth-bonded conductor, it is necessary to use an insulation transformer with secondary anchored to ground.
The earth conductor must be a couple of cm longer than the others.
14 - ELECTRIC CONNECTION
To access the electrical connections, proceed as follows:
- unscrew the lower cover fixing screw B, (Fig. 1.6)
- loosen the fixing screws (A - B) (Fig. 1.3) and remove the shell
- open the terminal board (Fig. 1.7 : high voltage connections 230 V, low voltage connections.
Connect the appliance to the mains power supply with a switch featuring a distance of at least 3,5 mm (EN 60335-1, category III) between each wire.
The appliance uses alternating current at 230 Volt/50 Hz, has a power input of 88 W (25kW R.S.I.) and 116 W (35kW R.S.I.) and complies with EN 60335-
1 standard. Connect the boiler to a safe earth circuit according to current legislation. Live and neutral (L-N) connections should also be respected.
Gas and/or water pipes may not be used to earth electrical equipment.
The installer is responsible for making sure that the appliance has an adequate earthing system; the manufacturer shall not be held liable for eventual damages caused by incorrect usage or failing to earth the boiler.
Use the
supplied power cable
to connect the boiler to the mains power supply. Connect the ambient thermostat and/or time clock as shown in the electrical diagrams.
When replacing the power cable, use a HAR H05V2V2-F cable, 3 x 0,75 mm², Ø max. external 7 mm
.
12
- 1.7 - 1.8 -
METEO GREEN HE R.S.I.
HIGH VOLTAGE CONNECTIONS (230V)
C
LOW VOLTAGE CONNECTIONS
15 - FILLING AND EMPTYING THE SYSTEM
The central heating system can be filled up once the water mains have been connected up. This must be done while the installation is cold by:
- turn the caps of the lower (A) and upper (E) automatic bleed valves two or three times; leave A and E valve caps open for continual air venting
(Fig. 1.8);
- making sure the cold water inlet tap is open
- opening the external filling tap until the pressure on the hydrometer (C) is between 1 and 1,5 bar (blue zone) (Fig. 1.8).
Close the filling tap after filling it up.
The boiler is equipped with an efficient air separator so that there is no need to do anything manually.
The burner only ignites when air venting has finished.
NOTE:
air extraction from the boiler takes place automatically, through two automatic bleeding valves, A and E.
The first is situated on the pump, while the second is inside the air chamber.
NOTE:
manual filling tap is not supplied with the boiler, foresee one external or verify if external water tank has one.
Before starting to empty it, remove the electrical feeder by positioning the general switch for the system on “off”.
- Close the interception devices for the thermal system
- Loosen the system outlet valve (B) manually
- The water from the system is discharged through the outlet collector
(A - Fig. 1.5).
- 1.9 -
SUGGESTIONS TO CORRECTLY ELIMINATE AIR FROM THE
HEATING SYSTEM AND BOILER (Fig. 1.9)
We recommend carrying out the sequence of operations given below during first installation or with extraordinary maintenance work:
1. Using a CH11 spanner open the manual air vent valve located above the air box; the tube supplied with the boiler must be connected to the valve to let out the water into an outside container.
2. Open the manual system filling stopcock on the water group, wait until the water starts coming out of the valve;
3. Switch on the boiler leaving the gas cock closed;
4. Use the room thermostat or the remote control panel to activate request for heat so that the three-way will turn to heating;
5. Activate request for hot water as follows:
instant boilers:
turn on a tap for 30” every minute so that the threeway cycles from heating to domestic hot water and vice versa about ten times (here the boiler will go into alarm as it lacks gas and has to be reset every time this happens).
Heating only boilers connected to an external water tank:
use the water tank thermostat;
6. Continue the sequence until water only comes out of the manual air vent valve and the flow of air has finished; close the manual air vent valve at this point;
7. Make sure the system is at the correct pressure (1 bar is ideal);
8. Close the manual system filling stopcock on the water group;
9. Open the gas cock and ignite the boiler.
13
METEO GREEN HE R.S.I.
16 - FUMES EXHAUSTION AND BURNING AIR
SUCTION
EXHAUSTION CONFIGURATIONS (Fig. 1.10-1.11)
Boiler is homologated for the following exhaustion configurations:
B23P-B53P -
Suction in room and discharge outside
C13 -
Concentric wall exhaustion. Pipes can separately start from boiler, but outlets must be concentric or close enough to be subject to similar wind conditions (within 50 cm)
C23 -
Concentric exhaustion in common chimney (suction and exhaustion in the same chimney)
C33 -
Concentric roof exhaustion. Outlets like C13
C43 -
Exhaustion and suction in common separate chimneys, but subject to similar wind conditions
C53 -
Wall or roof separate exhaustion and suction in different pressure areas.
Exhaustion and suction must never be located on opposite walls
C63 -
Exhaustion and suction with separately certified and sold pipes (1856/1)
C83 -
Single or common chimney exhaustion and wall suction
C93 -
Exhaust on roof (similar to C33) and air
Refer to regulations in force for exhaustion of combustion products.
Boiler is provided for without fume exhaustion/air suction kit, since forced draught sealed chamber accessories can be used, as they better adapt to installation characteristics. For fume extraction and burning air restoration in boiler, use original pipes or other EC-certified pipes with equivalent characteristics; check connection is correct as shown on instructions fume accessories provided for with. More appliances can be connected to a single chimney, provided that all appliances are condensing type.
“FORCED OPEN” INSTALLATION (TYPE B23P-B53P, intake inside and outlet outside)Fumes outlet duct Ø 80 mm
The fumes outlet duct can be aimed in the most suitable direction for installation needs. To install follow the instructions supplied with the kit.
In this configuration, the boiler is connected to the Ø 80 mm fumes outlet duct by means of a Ø 60-80 mm adaptor.
In this case, the combustion supporting air is taken from the room in which the boiler is installed, which must be a suitable and ventilated technical room.
Non-insulated fumes outlet ducts are potential sources of danger.
Provision must be made for a 1% slope of the fumes outlet duct towards the boiler.
25 R.S.I.
35 R.S.I.
Max length fumes outlet duct Ø 80 mm
50 m
60 m
Pressure drop for each bend (45°/90°) [m]
1 / 1,5
INSTALLATION “SEALED” (TYPE C)
Boiler is a C-type appliance (sealed chamber) and must be safely connected to fume exhaustion duct and burning air suction duct, both getting outside; appliance cannot operate without these ducts.
Concentric outlets (Ø 60-100 mm) (Fig. 1.12)
Concentric ducts may be placed in the most suitable direction for installation requirements but special care must be taken as regards the external temperature and the length of the duct.
Horizontal
Max linear length concentric duct Ø 60-100 mm
Pressure drop for each bend (45°/90°) [m]
25 R.S.I.
35 R.S.I.
7.85 m
7.85 m
1.3 / 1.6
Vertical
25 R.S.I.
35 R.S.I.
Max linear length concentric duct Ø 60-100 mm
Pressure drop for each bend (45°/90°) [m]
8.85 m
8.85 m
1.3 / 1.6
14
- 1.10 -
- 1.11 -
- 1.12 -
C93
B53
CONCENTRIC DUCT FOR FUMES OUTLET/AIR INTAKE
- 1.13 sealing rubber
METEO GREEN HE R.S.I.
Rectilinear length means without bends, outlet ends and connections.
The fumes outlet duct must slope by 1% towards the condensate collector.
Uninsulated fumes outlets are potential hazards.
The boiler automatically adapts ventilation according to the type of installation and the length of the duct.
Do not obstruct or narrow the comburent air inlet duct in any way.
To install follow the instructions supplied with the kit.
Concentric outlets (Ø 80-125)
For this installation it is necessary to install the suitable adaptor kit. Ducts may be placed in the most suitable direction for installation requirements.
For the installation process, follow the instructions supplied with the kit for the specific accessory for condensation boilers.
25 R.S.I.
35 R.S.I.
Max linear length concentric duct
Ø 80-125 mm
14,85 m
14,85 m
Pressure drop for each bend (45°/90°) [m]
1 / 1.5
- 1.14 -
25 R.S.I.
60
55
50
45
40
35
30
25
20
15
10
5
0
0 5 10 15 20 25 30 35 40 45 50
Length of the intake duct (m)
55
35 R.S.I.
60 65 70 75
25
20
15
35
30
10
5
0
0
70
65
60
55
50
45
40
5 10 15 20 25 30 35 40 45 50 55 60 65 70
Length of the intake duct (m)
75 80 85 90 95 100
Twin outlets (Ø 80)
The split duct can be aimed in the most suitable direction for installation needs. Upper cover not used (Fig. 1.13).
The combustion-supporting air intake duct must be connected to the entrance after having removed the closing cap, attached with three screws, and having attached a suitable adaptor.
The fumes outlet duct must be connected to the fumes outlet after having installed a suitable adaptor.
For the installation process, follow the instructions supplied with the kit for the specific accessory for condensation boilers.
The fumes outlet duct must slope by 1% towards the condensate collector.
The boiler automatically adapts ventilation according to the type of installation and the length of the duct. Do not obstruct or narrow the comburent air inlet duct in any way.
For an indication of the maximum lengths of every single pipe, refer to the graphs (Fig. 1.14).
Using longer ducts causes a loss in the power of the boiler.
25 R.S.I.
35 R.S.I.
Max length twin duct
Ø 80 mm
32 + 32 m
40 + 40 m
Pressure drop for each bend (45°/90°) [m]
1 / 1.5
Rectilinear length means without bends, outlet ends and connections.
15
METEO GREEN HE R.S.I.
17 - START-UP AND OPERATION
NB: all the adjustments (boiler calibration, thermoregulation setting, parameter setting) must be made directly on the boiler control panel only
.
Ignition, switch-off, function selection and heat requests must ALWAYS be carried out on the remote control panel only.
This boiler is able to operate only in heating condition.
or
fault symbol (e.g. 10 - no flame)
function selector (turned to the chosen operating mode:
summer (DO NOT USE)
DESCRIPTION OF COMMANDS
burner operating symbol
anti-freeze function active symbol
winter or
Heating water circuit temperature selector
ON-OFF-RESET function selector
INFO button
Operating mode button
Domestic hot water temperature selector
Setting parameters selector
-
Heating water temperature selector:
sets the heating water temperature.
-
Domestic hot water temperature selector:
sets the domestic hot water temperature storaged in the water tank.
-
Setting parameters selector (cases A):
using in calibration and programmation phase.
-
Function key:
ON -
the boiler is electrically powered and waiting for operating requests
( - )
OFF -
the boiler is electrically powered but will not respond to operating requests
RESET -
resets the boiler following a fault
-
Operating mode button:
button allows to choose the desired operating mode: pressing it, the indicator “function selector” moves to: (winter) or (summer, only if water-tank connected - DO
NOT USE).
-
Info button:
shows a sequence of information concerning the operating status of the machine.
17.1 - SWITCHING ON
Switch on the boiler as follows:
- access the gas tap through the slots in the cover located in the lower part of the boiler.
- open the gas tap by turning it anti-clockwise (Fig. A)
- power the boiler.
When powered, the boiler performs a test sequence and a series of numbers and letters are shown on the display (Fig. B).
If the test is successful the boiler is ready to work about 4 seconds after the cycle ends.
After being powered, the boiler begins an automatic vent cycle lasting approximately 2 minutes. The display indicates “sf” and the “function selection indicators” light up in sequence.
- Press button to interrupt the automatic vent cycle. The display will look like Fig. C.
- With the door of the remote control panel closed, press the key to view the required type of operation - summer or winter (fig. 1A).
If the test is unsuccessful, the boiler will not work and a “0” will flash on the display.
In this case, contact the Technical Assistance Centre.
The boiler turns on in the status it was in before it was switched off: if the boiler was in the winter mode when it was switched off, it will turn on again in the winter mode. If it was in the OFF mode, the display will show two segments in the central area (Fig. D). Press the button to enable operation.
Choose the desired operating mode by pressing
symbol moves to:
- WINTER
- SUMMER (DO NOT USE)
button, until the
WINTER function (Fig. E)
With the selector in this position, the boiler provides hot water for the heating and, if an external water tank is connected, provides water to the water tank to allow domestic hot water preparation. Function S.A.R.A is enabled in this position.
DESCRIPTION OF DISPLAY SYMBOLS
- A -
Open position
graduated heating water temperature scale with heating function symbol
16
graduated domestic hot water temperature scale (DO NOT USE)
domestic hot water function symbol (DO NOT USE)
fault symbol
reset symbol
external sensor connection
heating/domestic hot water temperature
- B -
PAUSE
AUTO MAN
METEO GREEN HE R.S.I.
SUMMER function (only with external water tank connected,
DO NOT USE Fig. F)
With the selector in this position, the boiler provides water to the water tank with a temperature stabiliser to allow domestic hot water preparation.
ADJUSTING HEATING WATER TEMPERATURE
Turning the selector
A
(Fig. G), after having positioned the selector mode on winter , it is possible to regulate the heating water temperature.
Turn clockwise to increase the temperature and anticlockwise to decrease.
The bar segments light up (every 5°C) as the temperature is increased. The selected temperature value appears on the display.
The boiler switches on the mode indicated by the remote control panel.
- C -
ADJUSTING HEATING WATER TEMPERATURE WITH AN
EXTERNAL SENSOR CONNECTED
When an external probe is connected, the value of the delivery temperature is automatically chosen by the system which rapidly adjusts ambient temperature to the changes in external temperature. Just the central segment of the bar is illuminated (Fig. H).
To increase or decrease the temperature with respect to the value automatically calculated by the electronic board, turn the heating water selector clockwise to increase and anticlockwise to decrease. The bar segments light up (at every comfort level), correction tolerance lies between - 5 and +
5 comfort levels (Fig. H). When choosing the level of comfort, the digit area of the display shows the required level of comfort while the bar shows the matching segment (Fig. I).
ADJUSTING DOMESTIC HOT WATER TEMPERATURE
CASE A - only heating - adjusting not applicable
- D -
- G -
- E -
A
- H -
+4/5˚C
+3˚C
+2˚C
+1˚C
0˚C
-1˚C
-2˚C
-3˚C
-4/5˚C
- F -
- I -
17
METEO GREEN HE R.S.I.
WORKING THE BOILER
Adjust the ambient thermostat to the required temperature (approx. 20°C).
If there is a demand for heating water, the boiler starts and the symbol is shown on the display (Fig. K). The boiler will remain working until the set temperatures are reached, after which it will go on stand-by. In the event of ignition or operating faults, the boiler will perform a “safety stop”.
The flame symbol will go out and the fault code and will be displayed
(Fig. L). For a description of faults and how to reset them, consult chapter
“Troubleshooting”.
17.2 - SWITCHING OFF
Switching off for short periods
For brief absences press the button to switch off the boiler. The display will show two segments in the central area (Fig. M). When the boiler remains powered with the gas tap open, it is protected by the following systems:
- anti-freeze: when the temperature of the water in the boiler falls below safety values, the circulator and the burner work at minimum power to increase the water temperature to a safe value (35°C). The symbol lights up on the display.
- circulator anti-block: one operating cycle is performed every 24 hours.
Switching off for long periods
For prolonged absences press the button to switch off the boiler (Fig. D).
The display will show two segments in the central area. Turn the main switch to “off”.
Turn off the gas tap under the boiler by turning it clockwise (Fig. N).
In this case, the anti-freeze and anti-block systems are disabled . Empty the water circuit or suitably protect it with a good make of anti-freeze .
17.3 - BOILER FUNCTIONS
Filling the circuit
If circuit pressure reaches 0.6 bar, the pressure value flashes on the display (Fig. O); if it falls below a minimum safety value (0.3 bar), fault code
41 appears on the display (Fig. P) for a certain time, following which, if the fault persists, fault code 40 is displayed (see chapter on “Troubleshooting”).
In the event of faul 40 (Fig. Q) proceed as follow to restore the correct pressure value:
- press button
- open the filling tap external to the boiler, until the pressure shown in the display is between 1 and 1,5 bar.
If you have to fill the system several times, contact the Technical Service
Centre to check whether the heating circuit is watertight (see if there are any leaks).
Information
Press , the display turns off and just the word InFO appears (Fig. R). Press the button to view operating information. Press the button again to move on to the next piece of information. If the button is not pressed, the system automatically exits the function.
Info list:
Info 0 -
shows the word InFO (Fig. R)
Info 1 -
only with the external probe connected, displays external temperature
(e.g. 12°C) (Fig. S). The values shown on the display range between - 30°C and 35°C. Beyond these values the display shows “- -”
Info 2 -
shows circuit pressure (Fig. T)
Info 3 -
shows the set heating temperature (Fig. U)
Info 4 -
shows the setted temperature (only water tank with sensor, Fig. V)
Info 5 -
displays the set heating temperature, in reference to the second circuit, only if it is connected.
S.A.R.A. function (Fig. W)
If the “winter” mode is selected, the S.A.R.A. function is activated for the heating circuit. This function allows to reach the required ambient temperature more quickly.
Depending on the temperature set on the ambient thermostat and the time taken to reach it, the boiler automatically adjusts the heating water temperature to reduce operating times, thereby increasing operating comfort and energy saving.
18
- J -
- M -
- N -
Tap closed
- O -
- K -
D
- L -
- P -
- Q -
- U -
- V -
- W -
- R -
- S -
- T -
METEO GREEN HE R.S.I.
17.4 - INF2
It is possible to display information, which may be useful for the Technical
Assistance Centre, by pressing the button for 10 seconds: the code “INF2” appears on the display.
INF2 list
Step
9
10
7
8
4
5
1
2
3
6
11
12-19
Description
Input probe temperature
Return probe temperature
Sanitary probe temperature:
(DO NOT USE)
Water tank with thermostat
(DO NOT USE)
Water tank with probe (DO
NOT USE)
Not used in this model
Fumes probe temperature
Second heating system probe temperature
Not used in this model
Fan speed /100
Not used in this model
Not used in this model
Exchanger cleaning counter status
Display
2 digits
Display
4 digits
xx xx
01
02
°C
°C
-xx xx xx(**) xx xx xx xx xx bH
03
03
Cond
05
06
07
FAN
09
10 xxxx
°C
°C
°C
°C
Historic alarm codes xx
HIS0-
HIS7
(**): if the display also shows the dot (.), the temperature of the fumes probe is 100+displayed value.
19
METEO GREEN HE R.S.I.
18 - TROUBLESHOOTING
DIAGNOSTIC CODES
In this generation of PCB it’s possible to have more detailed fault signals compared to the past. This is made to give to the service the chance to know with an higher level of precision where the problem is, and avoid in this way loss of time and/or the unnecessary substitution of functioning components.
FAMILY
GAS
SAFETY
AIR
WATER
CODE
1X
2X
3X
4X
FAULT CODES
Fault codes take priority over all display functions in the event of a system fault occurring.
There are TWO different kind of faults (temporary-final) and THREE kind of signals are displayed, as you can see here under:
Only KEY : it’s a temporary error, that the boiler attempts to solve automatically (in the meanwhile it will go on working).
If the correct functioning is not reached, we can have two different situations:
(A) the KEY disappears, appears RESET with a different fault code; or (B) KEY + , different fault code.
A RESET DURING THIS PHASE WILL HAVE NO EFFECT.
(A) Only RESET : it’s necessary to reset the boiler with the RESET button.
The fault is due to a random situation. If the alarm is repeated in the time, is strongly suggested to call the After Sales Service.
(B) KEY + RESET : it’s necessary to call the After Sales Service.
PCBs 5X
DHW CIRCUIT
CH CIRCUIT
6X
7X
If alarm 12 code is temporarily displayed at ignition (with flame burning) this does not indicate a fault. Check the relevant table if the alarm persists.
GENERAL/SYSTEM
CONDENSE
8X
9X
20
CODE
10
11
12
13
14
15
TYPE
Final
Temporary
Temporary
Fault codes: GAS FAMILY
MEANING
End of available attempts:
this alarm is generated because the boiler failed the ignition for the 5 attempts available.
It’s necessary to reset the boiler.
Post pump time 30”, Post purge time for 5”.
Or
Condense electrode intervention
.
False flame:
this alarm is generated because the boiler sensed the flame before the
IGNITION PHASE (spark +gas operators). The boiler stops the ignition and goes in stand-by mode.
If the situation resets, the boiler will work, otherwise appears on the display the fault code 15.
Unsuccessful ignition in the second attempt:
this alarm is generated from the 2nd attempt.
If the ignition is successful the boiler will work at the requested thermal load, otherwise, if the 5th attempt is failed appears on the display the fault code 10.
Condense electrode intervention
.
This alarm is generated because there is a problem on the bridge on the wiring harness.
Check the plug J13 between 3&4.
Temporary
Final
Final
Flame presence without reasons in stand-by:
This alarm is generated as the evolution of error code 11. Check the electrode connections, the ignition transformer, the wiring harness.
YES
NO
NO
NO
YES
YES
CODE
20
21
22
23
TYPE
Final
Temporary
Final
Temporary
Fault codes: SAFETY
MEANING
Limit thermostats:
this alarm is generated because the boiler sensed the intervention of one of the two thermostats described in the section “LIMIT THERMOSTATS” of this presentation.
It’s necessary to reset the boiler.
Post pump time for 30”, Post purge time for 5”.
NTC FLUE TEMPERATURE
probe disconnected.
Wiring harness:
this alarm is generated because there is a problem on the bridge on the wiring harness.
['[`&`[@|]`{['[[& '[^[<'\&[?`]@{[\{?`'
YES
NO
YES
NO
YES
NO
YES
NO
NO
YES
NO
YES
NO
YES
(continued)
CODE
24
25
26
27
28
29
TYPE
Final
Temporary
Final
Temporary
Final
Final
Fault codes: SAFETY
MEANING
Flow NTC temperature too high:
this alarm is generated because the boiler sensed that the value of flow NTC exceeded the value of 105°C continuously for more than 120”.
It’s necessary to reset the boiler.
Post pump time 60”, Post purge time for 5”.
Flow NTC temperature too high:
This alarm is generated because the boiler sensed that the value of flow NTC exceeded the value of 105°C continuously for more than 2”.
The burner will be switched off and the pump and fan stay on.
If the situation doesn’t reset automatically, the alarm will become fault code 25.
Return NTC temperature too high:
this alarm is generated because the boiler sensed that the value of return NTC exceeded the value of 95°C continuously for more than
120”.
It’s necessary to reset the boiler.
Post pump time 60”, Post purge time for 5”.
Return NTC temperature too high:
this alarm is generated because the boiler sensed that the value of return NTC exceeded the value of 95°C continuously for more than
2”. The burner will be switched off, pump and fan running. If the situation doesn’t reset automatically, the alarm will become fault code 26.
Maximum delta between return temperature and flow temperature reached:
it’s generated when the burner is on during the modulation phase and the boiler sensed the following difference between the return temperature and the flow temperature:
T2 - T1 > 40°C after 30 sec.
T2 - T1 > 20°C after 60 sec.
T2 - T1 > 10°C after 90 sec.
The burner is switched off and blocked.
Wiring harness:
this alarm is generated because there is a problem on the bridge on
'[<^<&\^&[ {['[[&[[^[<'\&[?`]@{[
OVERHEATING FLUE TEMPERATURE:
Permanent lock out.
METEO GREEN HE R.S.I.
YES
NO
YES
NO
YES
YES
NO
YES
NO
YES
YES
YES
CODE
30
31
33
34
35
36
37
38
TYPE
Final
Temporary
Final
MEANING
Fault codes: FAN OR FLUE SYSTEM
Wrong parameter from factory (EEPROM read/write error):
the main printed circuit electronic board.
is necessary replacing
Final
Temporary
Temporary
Final
Final
Fan error (incorrect fan rotation):
this alarm is generated because the fan during the ignition cycle didn’t reach within 10” at least the value of 600 rpm.
It’s necessary to reset the boiler.
Fan error TACHO signal:
this alarm is generated to check the fan printed circuit board during the ignition cycle.
It’s generated if the TACHO frequency didn’t reach within 5” at least the value of 5 Hz.
Complementary of fault code 33.
It’s necessary to reset the boiler by pressing the reset button.
Fan error TACHO signal:
this alarm is generated because after 15 seconds the PCB still senses a TACHO signal with the fan switched off.
Wrong parameter from factory (EEPROM read/write error):
is necessary replacing the main printed circuit electronic board.
Fan error (incorrect fan rotation):
this alarm is generated because the fan during the ignition cycle exceeded after 10” at least the value of 7500 rpm.
It’s necessary to reset the boiler by pressing the reset button.
Wrong parameter from factory (EEPROM read/write error):
is necessary replacing the main printed circuit electronic board.
YES
NO
YES
YES
NO
NO
YES
YES
NO
YES
YES
NO
YES
YES
YES
YES
CODE
40
TYPE
Final
Fault codes: WATER
MEANING
No water pressure in the appliance:
this alarm is generated because the CH system pressure was dropped 0,3 bar for more than 60 seconds.
It’s necessary to reset the boiler by pressing the RESET button.
YES NO
(continued)
21
METEO GREEN HE R.S.I.
CODE
41
42
TYPE
Temporary
Final
Fault codes: WATER
MEANING
Too little water pressure in the appliance:
this alarm is generated because the CH system pressure level drops below 0,3 bar.
The burner is switched off during this 60 seconds.
If the pressure goes over 0,4 bar within 60 seconds the boiler will work normally, otherwise will become fault code 40.
Water pressure transducer fault:
this alarm is generated when the transducer gives to the PCB immediately (without passing through the previous two alarms) a value of tension out of range correspondent to a pressure of 0 or 6 bar (short circuit or open circuit). The 4-digits display will show “----“.
Check: wiring harness or water pressure transducer defected.
NO
YES
CODE
50-51
52-53
54-55
56-57
58-59
60
TYPE
Final
MEANING
Internal failure:
they can be related to EEPROM read/write error or error reading parameters or internal fault PCB.
Fault codes: PCBs
For all these fault codes, check the parameters setting and wiring connections.
If the problem still remain replace PCBs.
Temporary
Domestic hot water sensor NTC3 short circuit or open circuit:
it’s generated because the DHW sensor NTC3 value has been continuously (over 120°C or under
-10°C) for more than 2 seconds.
The alarm will automatically reset if the temperature will return for more than 2 seconds within the limits (118°C or -8°C).
The fault will be shown ONLY when the boiler is in stand-by mode, and ONLY if the
PARAMETER 10 is set to 1, 2 or 4.
The boiler will continue to produce DHW, but modulating on the FLOW NTC1 sensor at a fix value of 55°C, switching off at 60°C and switching on at 55°C. (SURVIVOR
FUNCTION)
YES
NO
CODE
70
71
72
74
TYPE
Final
Temporary
Final
Final
Fault codes: TEMPERATURE PROTECTIONS
MEANING
Flow NTC1 sensor short circuit or open circuit:
it is generated when the detected value of the flow NTC1 sensor stays continuously for more than 2 seconds out of range:
T1 > 120°C NTC1 short circuit
T1 < -10°C NTC1 open circuit
The burner is switched off because of protection.
It’s necessary to reset the boiler by pressing the RESET button.
Maximum flow NTC1 temperature reached:
it is generated when the detected value of the flow NTC1 sensor is:
T1 > 95°C if the burner is on during modulation phase
Each next block is updated an OVER TEMPERATURE COUNTER with 0,25 seconds
The burner is on during this time.
Return NTC2 sensor short circuit or open circuit:
it is generated when the detected value of the return NTC2 sensor stays continuously for more than 2”
T2> 120°C NTC2 short circuit
T2 < -10°C NTC2 open circuit
The burner is switched off because of protection.
It’s necessary to reset the boiler by pressing the RESET button.
DT1/dt too high or dT2/dt too high (no water circulation):
every time that the burner is on and the system start modulating, the boiler checks the flow temperature and return temperature.
After 6 seconds checks again both temperatures.
The alarm is generated if one or both temperatures increased too fast within the first 6 seconds: dT1/dt > 15°C (dT1 MAX delta) the burner is switched off and blocked.
dT2/dt > 12°C (dT2 MAX delta) the burner is switched off and blocked.
It’s necessary to reset the boiler.
Post pump time during 60 seconds.
YES
NO
YES
YES
YES
YES
YES
YES
YES
NO
YES
NO
(continued)
22
CODE
77
78
79
TYPE
Temporary
Temporary
Final
Fault codes: TEMPERATURE PROTECTIONS
MEANING
Over heat under floor heating thermostat:
it is generated when the contact of the under floor safety thermostat that protects an eventual under floor system opens.
The burner is switched off and blocked.
Maximum delta between flow temperature and return temperature reached:
it’s generated when the burner is on during the modulation phase and the difference between T1-T2 >35°C(MAX delta).
Each next block is updated an OVER TEMPERATURE COUNTER with 0,25 seconds.
The burner stays on during this time, only later on the n° of max.attempts will appear the final fault code 79.
Maximum delta between flow temperature and return temperature reached:
it’s generated when the difference T1-T2 >35°C(TMAX delta) was too large after 100 attempts of the OVER TEMPERATURE COUNTER.
The burner is switched off and blocked.
Post pump time 30”, Post purge time for 5”.
It’s necessary to reset the boiler.
METEO GREEN HE R.S.I.
NO
NO
YES
YES
YES
NO
CODE
8X
8X
8X
8X
Fault codes: GENERAL / SYSTEM
TYPE
-
-
-
-
MEANING
This alarms are not used and written in the PCB SW.
YES
NO
YES
NO
YES
YES
YES
YES
CODE
91
TYPE
-
Fault codes: COUNTER OR CONDENSE SENSOR
MEANING
When the counter reach the limit set of 2500 hours, the boiler show this error code
(
Exchanger cleaning
). In any case the boiler run in normal condition.
MAKE COUNTER RESET
NO YES
23
METEO GREEN HE R.S.I.
19 - Resetting faults
Wait for about 10 seconds before resetting operating conditions. Then proceed as follows:
1) VIEWING JUST THE SYMBOL
If disappears, it means that an operating fault has been discovered which the boiler is attempting to solve on its own (temporary stoppage). If the boiler does not resume normal operation, two things may happen:
Case A (Fig. AA)
disappears, the symbol and a different alarm code appear. In this case, proceed as described in point 2.
Case B (Fig. BB)
and a different alarm code are displayed together with . In this case, proceed as described in point 3.
- AA -
Temporary fault
A
B
C
Permanent fault
- BB -
D
Temporary fault
- CC -
E
Permanent fault
F
24
Case C
Alarm 91 - Contact the Technical Assistance
The boiler has a self-diagnosis system which, on the basis of the hours totalised in particular operating conditions, signals the need for maintenance or cleaning of the primary exchanger (alarm code 91). After cleaning using the kit supplied as an accessory, reset the hour counter as follows:
- disconnect the mains power supply
- remove the screws and hooks securing the electrical cover
- remove connector J13 (see wiring diagram)
- power the boiler and wait for alarm 13 to appear on the display
- disconnect the power supply and reconnect connector J13
- put back the electrical cover and restart the boiler
N.B.: perform the counter reset procedure every time the primary exchanger is thoroughly cleaned or replaced.
COMBUSTION GROUP PERIODICAL MAINTENANCE (Fig. CC)
For washing the exchanger, use the cleaning kit for condensing heat exchanger. Follows the procedure more detailed on instruction sheet of the kit, that consisting in:
A) remove the flanges and the burner
B) fill the heat exchanger with the contents of the kit
C) use the brush to push the foam between the coils
D) wait a few minutes and then acting with the blade pass all the coils
E) rinse with water and vacuum residue
F) reassemble
2) Viewing just the symbol (Fig. DD)
Press the button to reset the appliance. If the boiler starts the ignition phase and resumes normal operation, it may have stopped by accident.
If these stoppages should continue, contact the Technical Assistance Centre.
3) Viewing the and symbols (Fig. EE)
Contact the Technical Assistance Centre.
20 - PROGRAMMING PARAMETERS
This boiler incorporates a new generation of electronic boards that, by setting/ modifying operating parameters, allow the boiler to be personalised to satisfy various system and/or user requirements. The programmable parameters are shown in the table on the next page.
The parameters must be programmed with the boiler in the OFF position.
To do this, press the button until the display shows “- -” (Fig. FF).
During parameter modification operations, the “select functions” button acts as an enter (confirm) button, the button acts as an ESCAPE
(escape) button. If no confirmation is given within 10 seconds, the value is discarded and returns to the previously set one.
SETTING THE PASSWORD
Press and hold down the operating functions button and the button together for about 10 seconds. The display will look like Fig. GG. Enter the password for accessing the parameter modifications function by turning the domestic hot water temperature selector to obtain the required value. The password for accessing the parameter programming function is located on the back side of the control panel. Confirm by pressing ENTER.
MODIFYING PARAMETERS
Turn the domestic hot water temperature selector (Fig. HH) to sequentially scroll the two-figure codes of the parameters indicated in the table. After identifying the parameter you wish to modify, proceed as follows:
- press ENTER to access the parameter modification function. When ENTER is pressed, the previously set value starts flashing (Fig.II)
- turn the domestic hot water temperature selector to change the value
- press ENTER to confirm the new value. The digits stop flashing
- press ESCAPE to exit.
The boiler returns to the “- -” (OFF) status.
To reset, press the button (Fig. FF).
- DD -
METEO GREEN HE R.S.I.
- EE -
- FF -
- GG -
- HH -
- II -
25
METEO GREEN HE R.S.I.
PROGRAMMABLE PARAMETERS
N°
PAR.
DESCRIPTION PARAMETERS
UNIT OF
MEASURE
MIN MAX
1 THIS PARAMETER IS NOT USED ON THIS MODEL. DO NOT MODIFY
2 THIS PARAMETER IS NOT influential
3 INSULATION LEVEL OF BUILDING
10 DHW MODE min
10-16-20-26-30-34-50-70
5
0 (OFF)
20
1 (Instantaneous)
2 (Mini-tank)
3 (External water-tank with thermostat)
4 (External water-tank with sensor)
11 THIS PARAMETER IS NOT USED ON THIS MODEL. DO NOT MODIFY
12 WATER TANK MAXIMUM SET-POINT °C
13 DELIVERY TERMPERATURE EXT. WATER TANK
14 DELTA EXTERNAL WATER TANK (ON)
20 HEATING MODE
°C
°C
5 (DS built-in storage tank)
6 (3S built-in storage tank)
40
50
0
0 (OFF)
1 (ON)
2 (not used)
80
85
10
21
22
23
24
HEATING CIRCUIT MAXIMUM SET-POINT
MINIMUM HEATING SET POINT
MAXIMUM HEATING FAN SPEED
MINIMUM HEATING FAN SPEED
25 DIFFERENTIAL HEATING POSITIVE
26 DIFFERENTIAL HEATING NEGATIVE
28 MAX HEATING POWER REDUCTION TIMER
29 FORCED HEATING SHUT DOWN TIMER
30 HEATING TIMER RESET FUNCTION
31 MAXIMUM HEATING SET POINT 2CH (II circuit)
32 MINIMUM HEATING SET POINT 2CH (II circuit)
35 DIFFERENTIAL HEATING POSITIVE 2CH
36 DIFFERENTIAL HEATING NEGATIVE 2CH
°C
°C
6 (CONNECT AT/BT)
7 (Remote panel + CONNECT AT/BT)
8 (Remote panel + zone valves)
40
20
80
39 rpm
3 (CONNECT AP)
4 (not used)
5 (not used)
G20 G31
25kW 60** 60**
35kW 60** 59** rpm
°C
°C min min
-
°C
°C
°C
°C
40 THIS PARAMETER IS NOT USED ON THIS MODEL. DO NOT MODIFY
41 THIS PARAMETER IS NOT USED ON THIS MODEL. DO NOT MODIFY
42 S.A.R.A. FUNCTION
G20 G31
25kW 12** 19**
35kW 12** 19**
0
0
2
2
0 (NO)
40
20
2
2
0 (OFF)
1 (AUTO)
10
10
20
20
1 (YES)
80
39
10
10
43 THIS PARAMETER IS NOT USED ON THIS MODEL. DO NOT MODIFY
44 THERMOREGULATION FUNCTION
-
0 (OFF)
1 (AUTO)
2,5 40 45 INCLINATION THERMOREGULATION CURVE
(OTC)
46 THERMOREGULATION FUNCTION 2CH 0 (OFF)
1 (AUTO)
2,5 40 47 INCLINATION THERMOREGULATION CURVE
(OTC) 2CH
-
48 THIS PARAMETER IS NOT USED ON THIS MODEL. DO NOT MODIFY
50 THIS PARAMETER IS NOT USED ON THIS MODEL. DO NOT MODIFY
51 HEAT REQUEST TYPE CH1 (I circuit)
52 HEAT REQUEST TYPE CH2 (II circuit)
-
-
61 THIS PARAMETER IS NOT USED ON THIS MODEL. DO NOT MODIFY
62 HEATING ANTIFREEZE FUNC. DELIVERY TEMP.
(ON)
°C
63 WATER TANK ANTIFREEZE FUNC. DELIV. TEMP.
(ON)
°C
65 EXTERNAL SENSOR REACTIVITY
85 SEMI-AUTOMATIC FILLING
0
0
0
0
0 (very fast)
0 (disabled)
1 (enabled)
0,4
1
1
10
10
255 (very slow)
1,0 86 AUTOMATIC FILLING PRESSURE (ON) bar
87 THIS PARAMETER IS NOT USED ON THIS MODEL. DO NOT MODIFY
90 VARIABLE SPEED PUMP -
92 enable post-circulation from dhw to heating
93 duration of post-circulation from dhw to heating
94 pump in continual mode ch1 (circuit 1)
95 pump in continual mode ch2 (circuit 2)
-
-
-
-
0
0
1
0
0
100
1
255
1
1
DEFAULT
(setted in factory)
1
20
5
3
PARAMETERS
(setted by techn.
assist. centre)
60
60
80
5
1
80
20
MAX
MIN
6
6
15
5
0
45
25
3
3
1
1
1
1
1
20
1
10
0
1
0
0
4
6
6
20
0
0,6
0
41
0
5
0
0
** The value is expressed on the display in rpm/100 (example 3.600 = 36)
Some defaults may be different from what is indicated in the table for updates to the board
26
METEO GREEN HE R.S.I.
21 - SERIAL NUMBER PLATE
During parameter modification operations, the “select functions” button acts as an ENTER (confirm) button, the button acts as an ESCAPE button. If no confirmation is given within 10 seconds, the value is discarded and returns to the previously set one.
IP protection t max
NOx temperature
NOx value class
METEO GREEN HE R.S.I.
Serial No.
Condensing Boiler EAN 80-18000-32117-1
IAPMO Certificate No. GMK10203
max min
Q kW
P 80°-60° kW
P 50°-30° kW
max water pressure min water pressure t max max gas pressure
MJ/h NG
MJ/h ULPG min inlet pressure NG min inlet pressure ULPG
CO
2
limits (all models):
230 V ~ 50 Hz IPX5D NOx:
Safety valve setting = Weight (net) =
Appliance category:
SETTING THE PASSWORD
To enter the password, and then setting the parameters, follow the procedure:
1. Turn the boiler in OFF, press the ON / OFF button until the display shows two horizontal lines “--”.
2. Simultaneously press the button INFO and MODE 5“ until the display shows:
In display 4 digits written intermittent “Code” - “0000”.
In display 2 digit visualized 00.
Press MODE to confirm and to enter their passwords by turning the encoder
DHW, and then always confirm the code by pressing another time MODE.
In the display 2-digit appears the number of the parameter, in the display
4-digit appears the value.
CALIBRATION PHASES
In this boiler we have the possibility of three different mode for three different level of setting:
22 - ADJUSTMENTS
The boiler has already been factory adjusted by the manufacturer. If a new adjustment is required, for example, after extraordinary maintenance, replacing the gas valve or converting fro m natural gas to LPG, proceed as follows.
Maximum and minimum power, minimum and maximum heating, must be adjusted in the indicated sequence by qualified staff
.
- Unscrew the lower cover fixing screw (A-B) (Fig. 1.5).
- Pull the cover towards you and remove.
- Lift up the panel and turn it forwards
CALIBRATION & SERVICE operations must be performed with the boiler in the OFF position. To do this, press the button until the display shows “- -” (Fig. FF).
Level one Programmer Setting
Use password 53
With this mode is possible change all the parameter. This mode is useful for personalize the boiler in function of the type of installation.
Level two Adjusting Setting (Calibration end Setting)
Use password 18
With this mode is possible change ONLY the parameter for setting the boiler.
E.g. this mode is useful when you need to change the gas.
Level three Combustion Analysis mode
Use password 19 (RANGE RATED & chimney sweeper function)
With this mode is possible do set up the maximum power in heating and make the combustion analysis test at this power.
PAR.
1
2
3
10
45
MEANING
Kind of gas- don’t change
Power boiler
Thermal insolation of the house
ONLY IF IS CONNECTED THE EXTERNAL SENSOR
Tipe of sanitary DHW
CH1 OTC (climatic curve)
Parameter with password 18
UNIT
--
--
MIN MAX
1 = G20 - LPG
5
26 = (25 kW)
34 = (35 kW)
20 min
--
--
0 =OFF
1 =Istant
2 =not used
3= Ext. Tank with thermostat
4= Ext. Tank with NTC sensor
5= not used
2,5 40
ONLY IF IS CONNECTED THE EXTERNAL SENSOR
STEP
1
26-30
DEFAULT
1
26-34
1
1
2,5
(continued)
5
1
20
CH1 = first CH circuit / CH2 = second CH circuit
27
METEO GREEN HE R.S.I.
HH
LL
MM
23
24
PAR.
47
HP
LP
SP
Parameter with password 18
UNIT MEANING
CH2 OTC (climatic curve)
ONLY IF THE PAR. 20 SET UP IS 6 (2 HEATING CIRCUIT)
Max. speed fan
The value visualized is rpm/100 (e.g.: 3700/100 = 37)
--
--
-Min. speed fan
The value visualized is rpm/100 (e.g.: 3700/100 = 37)
Slow ignition fan speed
The value visualized is rpm/100 (e.g.: 3700/100 = 37)
Max. power (flue analysais CO2)
Min. power (flue analysais CO2)
Modulation speed fan
--
--
--
--
Max. power CH (fan speed)
Min. power CH (fan speed) rpm rpm
MIN
2,5
LP
MAX
40
HP
--
--
--
--
--
--
37=(3700)
LP
HP
36=(3600)
STEP
2,5
DEFAULT
20
1
1
1
1
1
1
1
1
Look istr. boiler
Look istr. boiler
37
--
--
--
--
--
CH1 = first CH circuit / CH2 = second CH circuit
DETAILED DESCRIPTION OF PARAMETERS AND
FUNCTIONS
HP
The HP function allows to modify, only if strictly necessary, the value of the absolute maximum fan speed (burner OFF) and consequently the maximum power of the boiler. We cannot guarantee the well functioning of the boiler if it will be set to an higher value than the one shown in the booklet!
The parameter 23 is automatically adjusted to this value setting by HP function.
LP
The LP function allows to modify, only if strictly necessary, the value of the
ABSOLUTE minimum fan speed (burner OFF) and consequently the minimum power of the boiler. We cannot guarantee the well functioning of the boiler if it will be set to a lower value than the one shown in the booklet!
The parameter 24 is automatically adjusted to the value setting by LP function
SP
The SP function allows to modify, only if strictly necessary, the value of the fan speed (burner OFF) during the ignition fan speed procedure.
We cannot guarantee the well functioning of the boiler if it will be set to a different value than the one shown in the booklet!
Differences between HP, LP and parameter 23 and parameter 24
- The functions HP and LP are correspondent to the fan absolute maximum and minimum fan speed (DHW), while parameter 23 and parameter 24 can be set only within (at limit equal to) HP and LP functions and are only related to CH functioning.
-
Parameter 23 -
It’s possible to modify the maximum fan speed for CH mode, push Mode button, it’s possible to reduce the maximum output in central heating (fan speed) by turning the DHW encoder. The parameter
23 can be adjusted between the low-limit as rpm/100 (3600/100 = 36) and the absolute maximum fan speed by setting HP function.
-
Parameter 24 -
It’s possible to modify the minimum fan speed for CH mode, push Mode button, it’s possible to increase the minimum output in central heating (fan speed) by turning the DHW encoder. The parameter
24 can be adjusted between the absolute minimum fan speed by setting
LP function and the high-limit as rpm/100 (3600/100 = 36).
For example if the function HP=51 (factory setting) the parameter 23 can be set between 36 and 51. To change parameter in service mode is sufficient to move the DHW encoder.
HH
The test mode function at maximum power is necessary to carry out a combustion analysis check, or the set the gas valve in order to obtain the CO
2 nominal percentage at the maximum power. In this mode an automatic heat request is simulated, the 3-way valve motor is adjusted to CH position and the fan goes to the absolute maximum speed related to PAR.1 and PAR.2 or HP continuously for 15 minutes. It’s now possible to adjust the gas valve.
The test mode willautomatically end after 15 minutes, or prematurely by turning the DHW selector.
IMPORTANT - During this function the boiler won’t modulate according to the CH set-value. In case of floor heating systems, or whenever the CH system is not sufficient to exchange all the heat, can be suggestible to open all the DHW taps at the maximum flow after removed the 3 way valve motor.
LL
The test mode function at minimum power is necessary to carry out a combustion analysis check, or the set the gas valve in order to obtain the CO
2 nominal percentage at the minimum power. In this mode an automatic heat request is simulated, the 3-way valve motor is adjusted to CH position and the fan goes to the absolute minimum speed related to PAR.1 and PAR.2 or
LP continuously for 15 minutes. It’s now possible to adjust the gas valve. The test mode will automatically end after 15 minutes, or prematurely by turning the DHW selector. To exit service mode push Info button.
ATTENTION - See the remark for function HH.
28
METEO GREEN HE R.S.I.
25
26
28
29
21
22
23
11
12
13
14
20
PAR.
1
2
3
10
24
MEANING
Gas type - don’t change
Boiler power - not used - don’t change
Kind of building
Domestic hot water type
Maximum set point for DHW (Instantaneous)
Maximum set point for DHW (storage tank)
Maximum flow temperature for storage tank
Detection hysteresis ON for storage tank
CH type
Maximum flow temperature CH1
Minimum flow temperature CH1
Maximum output CH (fan speed)
The value is shown on the display is rpm/100 (e.g.: 3700/100 = 37)
CH1 = 1st CH circuit / CH2 = 2nd CH circuit
Minimum output CH (fan speed)
The value is shown on the display is rpm/100 (e.g.: 3700/100 = 37)
CH1 = 1st CH circuit / CH2 = 2nd CH circuit
CH Hysteresis OFF
CH Hysteresis ON
CH timer: force burner (75%)
CH timer: blocking time
Parameter with password 53
UNIT
--
-min
--
°C
°C
°C
°C
--
°C
°C rpm rpm
°C
°C min min
MIN MAX
1 = G20 - LPG
5 20
0= OFF
1= Instantaneous
(COMBO)
2= Minitank
3= System boiler + storage tank with thermostat (SOLO)
4= System boiler + storage tank with NTC sensor (SOLO)
5= Not used
40
40
50
60
80
85
0 10
0= OFF
1= ON
2= unused
3= external pump or
CONNECT AP
4= unused
5= unused
6= 2nd circuit is connected or
CONNECT AT/BT
45 80
20 39
36 (3600) 25 kW
G20 = 60
G31 = 60
35 kW
G20 = 60
G31 = 59
36 (3600) 25 kW
G20 = 12
G31 = 19
35 kW
G20 = 12
G31 = 19
2 10
2
0
0
10
20
20
STEP
1
26-30-34
1
1
DEFAULT
1
26
5
1
(COMBO)
1
1
1
1
1
1
1
1
1
1
1
1
1
80
20
MAX
MIN
(continued)
6
6
15
5
60
60
80
5
1
CH1 = first CH circuit / CH2 = second CH circuit
29
METEO GREEN HE R.S.I.
PAR.
30
31
32
40
41
MEANING
CH timers: ON /OFF selection
Maximum flow temperature CH2
Minimum flow temperature CH2
DHW thermostat function
Pre-heating function
42 S.A.R.A. function
43 Booster function
44 Thermoregulation function CH1
45
46
Setting of heating curves CH1
Thermoregulation function CH2
61
62
63
65
85
47
48
50
51
52
Setting of heating curves CH2
Unused
Unused
Type of heat request CH1
Type of heat request CH2
DHW frost protection tank
CH frost protection temperature
Not used – don’t modified
Outside sensor reactiveness
Automatic filling function
92
93
94
95
86
87
90
Warning water pressure value
Not used – don’t modified
Adjustable speed pump
Enable post-circulation from DHW to CH
Duration post-circulation from DHW to CH
Pump in continual CH1
Pump in continual CH2
--
--
--
--
--
°C
°C
°C bit
--
--
--
--
--
-bar
Parameter with password 53
UNIT
--
°C
°C
--
--
MIN
0 = OFF
1 = ON
MAX
40 80
20 39
0 = OFF
1 = AUTO
2 = ON
0 = OFF
1 = AUTO
2 = ON
0 = OFF
1 = AUTO
0 = OFF
1 = AUTO
0 = OFF
1 = AUTO
2,5 40
0 = OFF
1 = AUTO
2,5 40
STEP
1
1
1
1
1
DEFAULT
0
80
25
1
1
0
1
1
0
0
0
0
1
1
0
0
0
0 (fast)
0 = OFF
1 = ON
10
10
10
255 (slow)
0.4
0.8
0.1
1
1
1
1
1
1
1
100
0
255
1
1
1
2,5
1
1
2,5
1
1
1
1
1
1
20
1
1
1
0
5
1
41
0
0
6
20
4
6
1
0
20
1
0
1
(COMBO)
0.6
CH1 = first CH circuit / CH2 = second CH circuit
30
METEO GREEN HE R.S.I.
The parameters 10 - HP - SP - LP - MM - 23 - 24 must be modified, by professionally qualified personnel, only if absolutely necessary.
The manufacturer refuses any responsibility in the case of incorrect setting of the parameters
.
- 1.15 -
MAXIMUM FAN SPEED (PAR. HP)
- Select parameter HP
- Press the ENTER button, then modify the value of the parameter by turning the sanitary water temperature selector. The maximum speed of the fan is linked with the type of gas and the power of the boiler,
table 1
.
- Turn the sanitary water temperature selector in order to adjust the set value
- Confirm the new value you have set by pressing ENTER.
The value indicated on the display is expressed in rpm/100 (example 3600 =
36). The value set during this operation automatically modifies the maximum value of parameter 23.
Table 1 - MAXIMUM NUMBER OF FAN RPM
Minimum power adjusting screw
Maximum power adjusting screw
25 R.S.I.
rpm
30 R.S.I.
60 59 rpm
MINIMUM FAN SPEED (PAR. LP)
- Select parameter LP
- Press the ENTER button, then modify the value of the parameter by turning the sanitary water temperature selector. The minimum speed of the fan is linked with the type of gas and the power of the boiler,
table 2
.
- Turn the sanitary water temperature selector in order to adjust the set value
- Confirm the new value you have set by pressing ENTER.
The value indicated on the display is expressed in rpm/100 (example 3600
= 36).
The value set during this operation automatically modifies the maximum value of parameter 24.
Table 4
MINIMUM POWER ADJUSTMENT (PAR. LL) (Fig. 1.15)
- Select the parameter LL (with the boiler still OFF) and wait for the boiler to come on.
- Check that the minimum CO2 reading on the analyser (see paragraph
“Checking combustion parameters”) corresponds with the values indicated in
table 4
.
If the CO
2
proves to be different from the values in the table, proceed to adjust the parameter by turning the maximum power adjustment screw after having unscrewed the protective cap (clockwise to increase) until you obtain a value contained in
table 4.
G20 G31
Table 2 - MAXIMUM NUMBER OF FAN RPM
25 R.S.I.
9.5
10.0
%
30 R.S.I.
9.5
10.0
%
25 R.S.I.
30 R.S.I.
G20
60
G20
12
12
G31
60
G31
19
19 rpm rpm
IGNITION SPEED (PAR. MM)
- Select parameter MM.
FAN IGNITION SPEED (PAR. SP)
- Select parameter SP
- Press the ENTER button, then modify the value of the parameter by turning the sanitary water temperature selector. The standard slow start value is
3700 rpm (25HE) - 3300 rpm (35HE)
- Confirm the new value you have set by pressing ENTER.
MAXIMUM POWER ADJUSTMENT (PAR. HH) (Fig. 1.16)
- Turn the boiler OFF
- Select the parameter HH and wait for the boiler to come on
- Check that the maximum CO2 reading on the analyser (see paragraph
“Checking combustion parameters”) corresponds with the values indicated in
table 3
.
If the CO
2
proves to comply with the values in the table, proceed to adjust the next parameter (LL - adjusting the minimum), if different modify the value by turning the maximum power adjustment screw with a screwdriver (clockwise to decrease) until you obtain a value contained in
table 3
.
Table 3
25 R.S.I.
30 R.S.I.
G20
9.0
9.0
G31
10.0
10.0
%
%
- Turn the heating water selector to increase or decrease the fan speed.
MINIMUM HEATING ADJUSTMENT POSSIBILITY (PAR. 24)
- Select parameter 24
- Press the ENTER button to access the parameter value modification function
- Turn the sanitary water selector to modify the minimum fan speed
- Confirm the value you have set by pressing ENTER.
Exit the CALIBRATION & SERVICE function by pressing ESCAPE.
The boiler returns to the “- -” (OFF) status.
To reset, press the button.
- Disconnect the pressure gauge and tighten the pressure tap screw.
RANGE RATED MAXIMUM OUTPUT CH (fan speed) (PAR. 23)
Select the parameter 23 by turning the encoder. Push ENTER button and modify the maximum fan speed as indicated in the range rated table by turning the encoder. Push ENTER button to store the alue. The values just setted must be recorded on the last page of this manual.
After adjusting the gas valve, seal it with sealing wax.
After making adjustments:
- return the temperature set with the ambient thermostat to the required position
- close the panel
- put back the shell.
31
METEO GREEN HE R.S.I.
23 - SETTING THE THERMOREGULATION
CHECKING THE CONNECTION WITH THE EXTERNAL PROBE
After connecting the external probe to the boiler, use the INFO function to check that the probe has been automatically recognised by the temperature control card. Immediately after installation, the value read by the probe may very well be higher then that measured by a reference probe.
Enable and optimise the THERMOREGULATION function by setting the following parameters:
PARAMETER
TYPE OF BUILDING 3
AVAILABLE IN THE
PROGRAMMING MODE
INSTALLATION AND
CALIBRATION & SERVICE
PARAMETER 44. Enable thermoregulation function
The connected external temperature probe combined with PARAMETER 44 provides the following operating modes:
- EXTERNAL PROBE CONNECTED and PARAMETER 44 = 0 (OFF) in this case the TEMPERATURE CONTROL function is disabled even though the external probe is connected. The temperature read by the external probe can always be viewed by pressing the INFO button. The TEMPERATURE
CONTROL symbols are not displayed.
- EXTERNAL PROBE CONNECTED, PARAMETER 44 = 1 (ON) in this case the TEMPERATURE CONTROL function is enabled. The temperature read by the external probe and the TEMPERATURE CONTROL symbols can be viewed by pressing the INFO button.
The TEMPERATURE CONTROL function cannot be enabled unless the external probe has been fitted and connected. In this case, PARAMETER
44 is ignored and has no effect on boiler operation.
MAXIMUM HEATING SET
POINT
21 INSTALLATION
PARAMETER 45. Choosing the offset temperature curve
(graph 1)
MINIMUM HEATING SET
POINT
22 INSTALLATION
ENABLE
THERMOREGULATION
FUNCTION
44 INSTALLATION
100
GRAPH 1
THERMOREGULATION CURVES
40
37,5
35
32,5
30 27,5 25 22,5
20
17,5
OFFSET TEMPERATURE
CURVE
TYPE OF HEAT REQUEST
45
INSTALLATION AND
CALIBRATION & SERVICE
51 INSTALLATION
90
80
70
15
P.21
12,5
10
To access the programming mode, consult “Programming parameters”.
60
50
40
PARAMETER 03. Type of building
In order to calculate delivery temperature, the temperature control system does not directly use the external temperature value but considers the heat insulation of the building: in well-lagged buildings, external temperature variations affect the ambient temperature less than they do in badly-lagged buildings. Use parameter 3 to set the heat insulation level of the building according to the following scheme:
30
20
20 15 10 5 0 -5 -10
EXTERNAL TEMPERATURE (°C)
P21 = MAXIMUM HEATING SET POINT
P22 = MINIMUM HEATING SET POINT
-15
7,5
5
-20
2,5
P.22
A
New houses
Old houses
B
Type of building
Hollow bricks
C
Solid bricks
D
Stones
The offset heating curve maintains a theoretical ambient temperature of
20°C at external temperatures ranging from +20°C to -20°C. The choice of the curve depends on the rated minimum external temperature (on the geographical area, therefore) and the rated delivery temperature (on the type of system, therefore) and must be carefully calculated by the fitter using the following formula: rated delivery T - 20
P. 45 = 10 x
20- rated min. external T
If, from your calculations, you obtain an intermediate value between two curves, we suggest choosing the compensation curve closest to the value obtained.
Example: if the value obtained from the calculations is 8, this is between curve 7.5 and curve 10. In this case, choose the closest curve, which is 7.5.
A
B
C
D
19
20
19
18
14
16
15
12
12
15
14
10
8
11
9
5
PARAMETERS 21 and 22. Maximum and minimum delivery temperature
These two parameters limit the delivery temperature automatically produced by the TEMPERATURE CONTROL function. PARAMETER 21 determines
MAXIMUM DELIVERY TEMPERATURE (MAXIMUM HEATING SET POINT) while PARAMETER 22 determines MINIMUM DELIVERY TEMPERATURE
(MINIMUM HEATING SET POINT).
PARAMETER 51. Type of heat request
IF AN AMBIENT THERMOSTAT IS CONNECTED TO THE BOILER, SET
PARAMETER 51 = 0 (graph 2)
GRAPH 2
TEMPERATURE CURVE CORRECTION
90
80
70
60
50
40
30
20
10
30
+5˚C
25
0˚C
20
-5˚C
15 10 5 0 -5 -10
EXTERNAL TEMPERATURE (°C)
-15 -20
32
CONNECT AT/BT
In case of using CONNECT AT/BT, accessory supplied on request, the boiler gives the possibility to choose 2 thermoregulation curves:
- OTC 1 CH (parameter 45) for a direct system
- OTC 2 CH (parameter 47) for a mixed system.
Even in case of second circuit (2CH) the curve depends on the external minimum project temperature (on the geographical area, therefore) and on the delivey project temperature (on the type of system, therefore); the installer must to put attention to calculate it using the following formula: rated delivery T - 20
P. 47 = 10 x
20- rated min. external T
Parameters 31 and 32 give the possibility to define the maximum and the minimum central heating set-point of the second circuit.
To correct the curve in this configuration, please refer to the instructions supplied with the accessory.
- 1.17 -
METEO GREEN HE R.S.I.
The ambient thermostat makes a heat request when its contact closes, while it stops it when its contact opens. Though delivery temperature is automatically calculated by the boiler, the user may manually override it. By modifying
HEATING on the user interface, the HEATING SET POINT will no longer be available but just a value that can be set from +5 to -5°C as required.
Modifications to this value do not directly change delivery temperature but affect the calculation made to automatically determine its value by modifying the reference temperature of the system (0 = 20°C).
For boilers fitted with the S.A.R.A. Function, if the AMBIENT THERMOSTAT remains closed for a long time, the boiler automatically increases the delivery temperature which is added to the effect of the temperature control function.
When the AMBIENT THERMOSTAT opens, the boiler automatically returns to the value determined by the TEMPERATURE CONTROL function.
IF A PROGRAMMABLE TIMER IS CONNECTED TO THE BOILER, SET
PARAMETER 51 = 1 (graph 3)
GRAPH 3
PARALLEL NIGHT REDUCTION
24 - GAS CONVERSION
It is easy to transform gas from one family to gas belonging to another family even with the boiler installed.
This job must be done by professionally qualified personnel only.
The boiler is supplied to run on natural gas (G20) – see the product rating plate for details.
The boiler can be transformed to use propane gas using a special kit.
Follow the instructions given here below for disassembly:
- Switch off the power to the boiler and turn off the gas cock
- Remove the panel and casing
- Lift up and rotate the instrument panel
- Open the air box cover
For 25 HE only: unscrew the screws fastening the silencer (A) and remove it (Fig. 1.16)
- Disconnect the mixer gas ramp. Unscrew the clamp screws and relative mixer springs to fan and then remove it.
minium shell
90
80
70
60
50
40
30
20
10
20
DAY
temperature curve
15
NIGHT temperature curve
10 5 0 -5 -10
EXTERNAL TEMPERATURE (°C)
-15 -20
(BE CAREFUL NOT TO FORCE THEM) and press from the opposite side until it is completely extracted from the aluminium shell.
nozzles (C), clean plastic debris from relative housing (Fig. 1.17) screw in tightly
- 1.16 -
When the contact is closed, the heat request is made by the delivery probe on the basis of the external temperature in order to maintain the rated ambient temperature at the DAY level (20°C). When the contact opens, it does not stop the heat request but reduces (parallel shift) the temperature curve to the NIGHT level (16°C). Though delivery temperature is automatically calculated by the boiler, the user may manually override it.
By modifying HEATING on the user interface, the HEATING SET POINT will no longer be available but just a value that can be set from +5 to –5°C as required.
Modifications to this value do not directly change delivery temperature but affect the calculation made to automatically determine its value by modifying the reference temperature of the system (0 = 20°C for DAY level; 16°C for NIGHT level).
B
A
C
C
33
METEO GREEN HE R.S.I.
springs placed at 120° as shown in the (Fig. 1.18)
- 1.18 -
METEO GREEN 25 HE
M
M
Programme the “Gas type” parameter and regulate the boiler following the instructions in the “Adjustments” section.
Transformation must be done by qualified personnel only.
After completing transformation, regulate the boiler again following instructions given in the specific paragraph and apply the new identification label from the kit.
GENERAL MAINTENANCE
Be particularly careful when handling the mixer: the Clapet juts out from the body so that the mixer must be laid on the air inlet side (flap area) or make sure the Clapet is inside the body if it has to be laid on the Clapet side.
The Clapet must never have to bear the weight of the mixer.
Clean the Venturi from any dust with an aspirator during the annual system cleaning. Check that flap and Clapet are working correctly (all open at rated flow, all closed at minimum flow).
25 - CHECKING COMBUSTION PARAMETERS
Do as follows to analyze combustion:
- Go to GAUGING & SERVICE and set the combustion analysis password as given in paragraph “Adjustments”
- Insert the analyzer probe into the specific openings on the air box, after removing screw B and cap C.
The fumes analysis probe must be introduced as far as possible.
- Screw the analyzer setscrews into the fumes analysis opening.
- The first display gives the reading of the number of turns corresponding to maximum heating power set on the boiler (see paragraph “Adjustments” item P23)
After turning the domestic hot water temperature selector again the boiler will ignite to check combustion.
- Check combustion.
- Refer to the “Adjustments” paragraph if the boiler has to be gauged.
- Remove the analyzer gauge and close the combustion analysis openings by their screws.
IMPORTANT
The function switching off the boiler when the water temperature reaches maximum limit of about 90°C will also stay on during combustion analysis.
26 - MAINTENANCE
- The appliance must be systematically controlled at regular intervals to make sure it works correctly and efficiently and conforms to legislative provisions in force.
- The frequency of controls depends on the conditions of installation and usage, it being anyhow necessary to have a complete check carried out by authorized personnel from the Servicing Centre every year.
- Check and compare the boiler’s performance with the relative specifications. Any cause of visible deterioration must be immediately identified and eliminated.
- Closely inspect the boiler for signs of damages or deterioration, particularly with the drainage and aspiration system and electrical apparatus.
- Check and adjust - where necessary – all the burner’s parameters.
- Check and adjust - where necessary – the system’s pressure.
- Analyze combustion. Compare results with the product’s specification.
Any loss in performance must be identified and corrected by finding and eliminating the cause.
- Make sure the main heat exchanger is clean and free of any residuals or obstruction.
- Check and clean - where necessary - the condensation tray to make sure it works properly.
IMPORTANT
- Always switch off the power to the appliance and close the gas by the gas cock on the boiler before carrying out any maintenance and cleaning jobs on the boiler.
Do not clean the appliance or any latter part with flammable substances
(e.g. petrol, alcohol, etc.).
Do not clean panelling, enamelled and plastic parts with paint solvents.
Panels must be cleaned with ordinary soap and water only.
34
M
M
F
METEO GREEN 35 HE
M
M spring – F horizontal flap
M
- 1.19 -
C
F
B
METEO GREEN HE R.S.I.
The boiler is supplied with the settings shown in the table. But said values may be adjusted by following the graphs given here below, depending on installation requirements or regional rules and regulations combusted gas emission limits.
Heat capacity curve – emissions (Qnrisc) – 25 HE
190
180
170
160
150
140
130
120
110
60
50
40
30
20
10
0
100
90
80
70
2 4 6 8 10 12 14 16
Heating heat capacity (kW)
18 20 22 24 26
Heat capacity curve – fan rpm (Qnrisc) – 25 HE
3800
3400
3000
2600
2200
1800
1400
1000
2
6200
5800
5400
5000
4600
4200
4 6 8 10 12 14 16
Heating heat capacity (kW)
18 20 22 24 26
35
METEO GREEN HE R.S.I.
Heat capacity curve – emissions (Qnrisc) – 35 HE
150
140
130
120
110
100
90
80
200
190
180
170
160
70
60
50
40
30
20
10
0
2 4 6 8 10 12 14 16 18 20 22
Heating heat capacity (kW)
24 26 28 30 32 34 36
Heat capacity curve – fan rpm (Qnrisc) – 35 HE
6500
6000
5500
5000
4500
4000
3500
3000
2500
2000
1500
1000
2 4 6 8 10 12 14 16 18 20 22
Heating heat capacity (kW)
24 26 28 30 32 34 36
36
REMOTE CONTROL USER MANUAL
METEO GREEN HE R.S.I.
Dear Client,
Beretta has always been committing itself to comply with the demands of its own Clients and uses all its experience and competence for the realization of all its appliances.
We made this advisory manual in order to let you become familiar with your new boiler and appreciate with maximum satisfaction the advantages of autonomous heating and instantaneous hot water production.
Please read carefully because, following our information and advice, you would be able to use properly your new appliance and provide for its proper maintenance.
Having finished reading, you should keep it with care; it could be useful for a later consultation.
The
Remote control panel
complies with the following Directives:
- Electromagnetic compatibility Directive 2004/108/CEE
- Low-voltage Directive 2006/95/CEE
0694
1 - GENERAL SAFETY INFORMATION
FOR A PROPER USE OF THE REMOTE CONTROL PANEL, PLEASE READ
CAREFULLY THE ENTIRE CONTENTS OF THIS MANUAL.
WARNINGS
1) The remote control panel has to be installed in the room most accessible for checking the temperature of the environment (normally the living room).
2) In order to read the display more easily, the remote control panel has to be placed, according to standards, at a height of 1.5 metres from the floor.
3) The control panel is supplied with low-voltage directly by the boiler.
Nevertheless, it contains a buffer battery, which guarantees the maintenance of the user settings even when there is a blackout or a break in the boiler connection.
4) It is essential that the control panel be kept away from heat sources and draughts: these may affect the accuracy of the room thermostat incorporated in the panel.
5) Do not attempt to open the panel: it requires no maintenance.
6) Do not press against the surface of the liquid crystal display: this could damage the surface itself and cause viewing problems.
7) To clean the display, simply wipe with a dry cloth: any infiltrated liquid could damage the liquid crystals.
HOW TO USE
The remote control panel has three operating modes:
This instructions manual is integral parts of the product. Make sure they remain with the boiler, even if it is transferred to another owner or user or moved to another heating system. In case of loss or damage, please contact your local Technical Assistance Service for a new copy.
This boiler may only be installed and serviced by qualified fitters who satisfy the requirements of local rules. Work must be done in compliance with regulations in force and subsequent updates.
The boiler must be serviced at least once a year. This should be booked in advance with the Technical Assistance Service.
The installer shall instruct the user in the operation of the boiler and the safety devices.
This boiler may only be used for what it was expressly built to do. The manufacturer declines all contractual and non-contractual liability for injury to persons or animals or damage to property deriving from errors made during installation, adjustment and servicing and from improper use.
When the product reaches the end of its life it should not be disposed of as solid urban waste but should be brought to a separated waste collection facility.
The control panel keeps the temperature of the environment constant, based on the settings made by the user.
The safety and automatic adjustment devices on the appliance must never be modified during its lifetime, except by the maker or dealer.
In this mode, advanced settings are available; you can decide how and when the boiler will switch on to heat up the environment.
If the appliance develops a fault and/or works badly, switch it off and do not attempt to repair it yourself.
In this mode, the control panel works only with the boiler controls; it does not control the temperature of the environment. For that, you should use an external room thermostat.
In the event of leaks, he/she must shut off the water supply and promptly inform the Technical Assistance Service.
Must periodically check, on the display, that the pressure value is between 1 and 1,5 bar; if not fill the system as described in the paragraph
“Boiler functions”.
If the boiler is not planned to be used for a long period, he/she should call in the Technical Assistance Service to perform the following operations:
- turn off the main boiler and general system switches.
- close the gas and water taps on the heating circuits.
- drain the heating circuits to prevent freezing.
In some parts of the manual, these symbols are used:
ATTENTION = for actions that require particular caution and proper training
FORBIDDEN = for actions that MUST NOT be performed
37
METEO GREEN HE R.S.I.
DESCRIPTION OF DISPLAY
A
B
C
D
E F G H
J
I
K
C
J
K
H
I
F
G
D
E
A
B
Text messages and time display field
Daily current heating schedule
Communication with the boiler symbol, indicates that there is an exchange of data between the boiler and the remote control panel
Holiday function symbo
Symbol for burner operating in the heating or sanitary function
Anti-freeze protection symbol
Modification symbol: indicates that the values set may vary
Arrow indicating the current day number
Centigrade degrees
Displaying the values set
Operating mode symbols
Stand-by/OFF (The heating and domestic hot water are off, only the anti-freeze function is active)
Automatic operating mode – programmable room thermostat
Manual operating mode (continuous heating at selected temperature - T-AMB1) – room thermostat
For the heating schedule, the symbols correspond to:
1st operating time band
2nd operating time band
3rd operating time band
Night operating mode (reduced temperature heating)
Summer operating mode (heating off, domestic hot water only)
38
METEO GREEN HE R.S.I.
2 - SWITCHING ON
With the dashboard cover closed, push the button until you see on the display the desired operating mode, summer or winter
- - (the display shows one of the available winter operating modes – see section “Winter operating mode”).
PAUSE
+
code will appear on the display.
AUTO I MAN
To reset the boiler: press the PAUSE and AUTO-
MAN buttons simultaneously on the remote control panel.
The remote control panel starts up in the operating mode in which was set to work before it was switched tion “Faults”.
RESET
If the blocking fault occurs over again, contact the Service Center.
For detailed information, see secoff: if it was in winter mode
, it starts up in winter mode; if it was in summer mode starts up in summer mode.
, it
ATTENTION
The remote control panel carries out different functions, depending on the dashboard cover being open or closed.
With the dashboard
cover closed
, basic functions are available,
The boiler will start up and continue to operate until the which allow the user to switch on or off the boiler, choose the desired operating mode and unblock the boiler when a fault occurred.
selected temperatures are
It is very interesting the presence of the selector for adjusting the reached.
If faults occur on starting or operating, the boiler will make a “safety stop” and a fault room temperature, which facilitates the correction of the room temperature set with ± 5°C.
With the dashboard
cover open
, advanced functions are available, as for instance regulating temperatures, setting the heating schedule and others
(see dedicated chapter).
3 - USING THE REMOTE CONTROL PANEL
3.1 Basic functions (dashboard cover closed)
Pause/holiday button
Manual/Automatic operating mode
On/Off
Summer/Winter
Resetting faults
(press both keys simultaneously)
±5°C given the room temperature set
With the cover closed, the following buttons are enabled:
l
On/Off, selects the operating mode
Pause/Holiday (Interrupts the heating schedule)
In winter mode, selects the operating mode: manual, night or automatic
PAUSE
+
RESET
AUTO I MAN
Pressed simultaneously, they unblock the boiler (RESET)
°C
Selector for adjusting the room temperature set with ±5°C.
+
39
METEO GREEN HE R.S.I.
3.1.1 Selecting the operating mode
SUMMER MODE (boiler in STAND-BY)
WINTER MODE
heating
To select the winter operating mode, press the “ ” button.
To select the desired winter operating mode, press the AUTO/MAN button until you see the corresponding symbol on the display.
The display shows one of the available winter operating modes:
3.1.2 Selector for adjusting the room temperature set
In the manual and automatic operating modes, the heating function depends on the room temperature values set.
These values can be adjusted with
± 5°C by turning the selector – see
`^[
To adjust the temperature, proceed as follows:
- to increase the temperature set, turn the selector to the right,
- to decrease the temperature set, turn the selector to the left.
selettore correzione temperatura ambiente (± 5°C) selector for adjusting the room temperature (± 5°C)
MANUAL MODE
T-AMB1/T-ROOM DES1
When the symbol “ ”, is displayed, the remote control panel operates as
ROOM THERMOSTAT
.
It is not possible to use the selector for adjusting the domestic hot water temperature.
In the “ ” operating mode, the boiler works “manually”, that is to say independently of the time bands set in the heating schedule (paragraph 3.2.4.
HTG-PROG dedicated section). As a result, the heating works continuously at the selected temperature
(see USER MENU).
To modify the room temperature, see section “Adjusting the preset data” paragraph 3.2.3, “T-ROOM” dedicated section.
[>?@<\'<?&@?[&?'|^?@`[\&[}}['?&'[^[@`[@ temperature set (night operating mode).
3.1.3 Interrupting the heating schedule
PAUSE
The
PAUSE
function is active only in
NIGHT OPERATING MODE
T-RIDOTTA/T-REDUCED
When the “ ”,symbol is displayed, the heating is off.
he heating function will enable only if the room temperature falls below the reduced temperature set (T-REDU-
CED - see USER MENU, paragraph
3.2.4)..
To adjust the reduced temperature values, see chapter “Adjusting the preset data” paragraph 3.2.3.,
“T-REDUCED” dedicated section)
PAUSE
AUTO MAN
the and - - - operating mode.
During this phase, the boiler does not operate and it will start over when the
'<>[ {\&@ [' < &<[@ ?^ when the room temperature falls under the reduced temperature set.
If you press the
PAUSE
button If you press the PAUSE button once, the display shows four zeros in the room
'[>|[^\'`^[[]@
PAUSE
AUTO MAN
} }?^[}^?>'[^'
pressing you do not make
\&>?@<\'<?& '[|\&[] exits the function.
AUTOMATIC OPERATING MODE
When the “ ”, s displayed, the remote control panel operates as
PRO-
GRAMMABLE ROOM THERMO-
STAT
, given the heating time bands scheduled. The time bands are three and they identify with the symbols:
PAUSE
AUTO MAN
e - -
To adjust them, see the paragraph
3.2.4 “HTG-PROG” dedicated section
Another time, you can move on to set the interruption time bands, which can reach a maximum of 24 hours.
[@<|]\\||[\^\<&`^[
Each pressing of the
PAUSE
button increases the interruption time band with 1 hour.
In the “ “ operating mode, the boiler works “automatically”.
Each pressing of the AUTO/MAN button decreases the interruption time band with 1 hour.
The “PAUSE” function enables right after the PAUSE hours are set and disables when they are over.
To exit the PAUSE function before the time set is over, you have
To adjust the room temperature values, see chapter “Adjusting the preset data” paragraph 3.2.3., “T-ROOM” dedicated section.
to press the “ “, button; after some seconds the PAUSE word disappears from the display.
To return to the automatic operating mode after a period of manual functioning, you need to press the button AUTO/MAN until the
Press again the “ ” button, to select the function desired.
display shows the“ ” symbol.
PAUSE
AUTO MAN
40
HOLIDAY
PAUSE
To enable the function, you have to set the system in winter mode and overtake the 24 hours PAUSE in the following way:
AUTO MAN
- in winter mode press the
PAUSE
button.
The display shows four zeros in the
^??>'[>|[^\'`^[[]@
METEO GREEN HE R.S.I.
3.1.4 Unblocking function
PAUSE
+
RESET
AUTO I MAN
Pressing simultaneously the buttons
You can reset the boiler after a safety stop caused by a functioning fault.
During this function, the display shows the word RESET and the “ “
\<&>{?]
- press the PAUSE button repeteadly to start setting the interruption hours.
Once the 24 hours are overtaken, the
PAUSE word will disappear from the display
The displayshows HOLIDAY DUR and thenumber of days of absence
(forexample 01).
PAUSE AUTO MAN
After some moments, the word
RESET dissapears, the fault code and the “ “, symbol appear again for some seconds and then the boiler starts to work normally.
PAUSE
RESET
AUTO MAN
If you do not make any setting, after 3 sec. from displaying HO-
LIDAY DUR, the panel automatically exits the programming
PAUSE
AUTO MAN
With the PAUSE button, you can increase the number of vacation days.
With the AUTO/MAN button, you can decrease the number of vacation days.
If, after a safety stop, the boiler starts over to work normally, the blocking is due to a casual situation.
If the blockings repeat, you should call the Service Center.
You can make up to 5 unblocking attempts in 15 minutes, after that press the OFF/Reset button directly on the boiler.
To enable the function, wait 3 seconds, the panel memorizes the data set. On the display appears “
The panel enters off mode.
”.
The “HOLIDAY” function will enable right after the values are set.
For faults description, please refer to chapter 5 “Faults”.
The function always disables at 24.00 of the last day scheduled.
If you want to disable the Holiday function before it was scheduled to stop, press the” ” button.
The “ ” symbol disables.
PAUSE
AUTO MAN
Select the desired operating mode
.
41
METEO GREEN HE R.S.I.
3.2 Advanced functions (dashboard cover open)
ITALIANO
PORTUGUES
[\^[?^>?@<[_\]`[
POLSKI
CROATIAN
CESKY
LIETUVISKAI
LATVIESU
SLOVENSKY
MAGYAR
DEUTSCH
ENGLISH
FRANCAIS
NEDERLANDS
ESPANOL
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3.2.2 Selecting the menus available
Access the adjusting menus
Selects data to be adjusted
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The ENTER button permits:
- selecting the menu
- memorizing the new value
Fills up the installation (press both buttons simultaneously)
By opening the dashboard cover, you can access Control or Settings mode directly.
In this mode, you can adjust parameters of either the remote control panel or the boiler and see the installation data..
The buttons described previously in the section “dashboard cover closed, basic functions”, acquire the following new functions:
With the +/- buttons, you can run through the menus available, presented below:
USER: Setting values, made by user
DISPLAYING: Displaying temperatures and installation data (in this menu it is not possible to modify the values displayed)
TIME+DAY: Setting the hour and day of the week
HTG-PROG Setting the heating schedule
EXPERT: Setting parameters, made exclusively by the Service Center
Press ENTER to go to a menu.
The “+” button.
Permits searching or adjusting a value set.
3.2.3 Adjusting the preset data
The “-” button.
Permits searching or adjusting a value set
3.2.1 Setting the language
ENTER
ENTER
+
+ -
-
By opening the dashboard cover, only after each power supply interruption of the remote control panel, the display shows the language set.
The language set by the manufacturer is ITALIAN.
If the language displayed corresponds to the one you desire, press
ENTER twice to move on.
If you reopen the dashboard cover successively, the display will show the word “USER”.
To adjust the values set in each menu, proceed as follows:
- after you selected and entered the MENU in the way it is written above, with the + or - buttons select the parameter to be adjusted, then
|^['??&^>'[[]['<?&[@<|]\?}'[ “ symbol indicates that it is possible to modify the value
- adjust the value of the parameter set by pressing the + or – button.
|^['??&^>'[>?@<\'<?&
The new value is memorized and the “ from the display.
3.2.4 Description of menus
USER
T-DHW (DO NOT USE):
“ symbol dissappears
If you do not want the remote control panel to memorize the new value set, close the dashboard cover before pressing ENTER.
ENTER
+
-
If the language displayed does not correspond to the one you desire, adjust it as follows:
- right after you open the dashboard, press ENTER.
The current language and the “ “ symbol appear on the display.
- press the +/- buttons to selec the language; here are the ones available:
- T-DHW 1 (35°C-60°C): Desired domestic hot water temperature.
Desired temperature for the in case of domestic hot water schedule (HOTW-PROG).
- T-DHW 2 (35°C-60°C): Desired temperature for the
second time band
in case of domestic hot water schedule (HOTW-
PROG).
- T-DHW 3 (35°C-60°C): Desired temperature for the
third time band
in case of domestic hot water schedule (HOTW-PROG).
- T-ROOM DES 1 (5°C-40°C): Comfort level temperature in case
42
METEO GREEN HE R.S.I.
of manual operating mode (see paragraph “operating mode”) menu, displaying the new memorized settings.
Desired temperature for the in case of heating schedule (HTG-PROG), see paragraph “HTG-PROG”
- T-ROOM DES 2 (5°C-40°C °C): Desired temperature for the
second time band
.
- T-ROOM DES 3(5°C-40°C):Desired temperature for the
third time band
.
- T-REDUCED (5°C-40°C): Desired temperature for night operating mode and for PAUSE mode.
- RETURN: Permits returning to USER menu
To change the values set, follow the indications in the paragraph
“Adjusting the values set”
DISPLAYING
In displaying menu, you can run through the following values, which refer to instantaneously recorded temperatures:
- T-OUTSIDE: Displaying the external temperature, only if an external probe was connected to the boiler. By pressing EN-
TER, the display shows the maximum temperature value and the hour when it has been recorded. By pressing + and – the display shows the maximum and minimum values and the hour when they have been recorded. By pressing ENTER, you return to the DISPLAYING menu.
- T-ROOM: Displaying the room temperature [°C]. By pressing
ENTER, the display shows the room temperature set (T-ROOM
DES 1).
By pressing + and – the display shows the maximum and minimum values and the hour when they have been recorded. By pressing ENTER, you return to the T-ROOM menu.
- T-DHW (DO NOT USED): Displaying domestic hot water realtime temperature [°C] .
By pressing ENTER, the display shows the current desired temperature.
By pressing ENTER, you return to the T-DHW menu.
- T-BOILER: displaying the boiler delivery temperature (°C). By pressing ENTER, the display shows the calculed temperature.
By pressing ENTER, you return to the T-BOILER menu.
<|]\<&'[{?<][^`^^[&'?^<&[}<[&
[%].
- BURNER-TIME: Displaying the burner working hours. By pressing ENTER, you cancel the memorized value.
By pressing ENTER you return to the BURNER-TIME menu.
- BURNER-START: Displaying the burner start-ups number.
By pressing ENTER, you cancel the memorized value.
By pressing ENTER, you return to the Information menu.
- WATER-PRESS: Displaying the boiler water pressure.
- RETURN: Permits returning to the DISPLAYING menu.
HTG-PROG
(heating schedule)
Permits programming three 24 hours operating time bands.
Each time band is assigned a room temperature set in USER menu (T-
ROOM DES 1, 2, 3).
To set the time bands, proceed as follows:
- go to HTG-PROG
- press ENTER and the display will
?'[^'@\?}'[[[
- with the + e – buttons select one of the available programs, described below:
- Daily: you can schedule each day of the week separately. The display will show each day: Monday, Tuesday,
Wednesday, etc.
- Holiday: you can schedule week days at the same time (Monday to
Friday) and Saturday and Sunday differently
- Sat-Sun: you schedule only Saturday and Sunday
- Weekly : you can schedule all the days of the week at the same time
(Monday to Sunday)
[]['\[@`][ '[&|^['??&^>
1)
2)
3)
A
ON
ON
ON
OFF
OFF
OFF
ENTER
B
+ -
?^\}[[?&@ '[@<|]\<]]\||[\^\<&`^[ \}'[^'\'
\<&`^[
The time bands programming phase always begins with a starting timetable (
ON
<@[&'<[@<''[>{?] \&@&<[<'\& ending timetable (
OFF
<@[&'<[@<''[>{?] .
The 3 time bands are expressed on the display by the following symbols:
Set the starting timetable (
ON
) by pressing the + and – buttons and
TIME+ DAY
In TIME+DAY menu, perform the following operations:
- Press ENTER.
The display shows the current hour and the ” “symbol.
- With + and – set the right hour.
By pressing continously + or - the minutes elapse by 15 minutes stages: 15,
30, 45.
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- The display shows the current day and the corresponding number:
Monday 01
Tuesday 02
Wednesday 03 etc.
- With the + o – set the desired day
^['??&^>
- The display returns to the TIME+DAY
ENTER
+
-
ENTER
+ -
'[|^['??&^>
[@<|]\\||[\^\<&`^[
Set the ending timetable (
OFF
) by pressing the + and – buttons
\&@'[|^['??&^>
During the OFF phase, the boiler is in night operating mode
, and it will switch on only if the temperature falls under the
T-REDUCED value set (see USER menu, paragraph 3.2.4).
Once you set down the ending timetable, press ENTER.
[@<|]\\||[\^\<&`^[
Proceed the same way to set the subsequent time bands ,
43
METEO GREEN HE R.S.I.
ENTER
ENTER
+
+
-
-
ENTER
ENTER
+
+
-
-
.
}'[^?`&<[@|^?^\>><& |^['[?^{`''?&'??'?
RETURN and exit the HTG-PROG menu.
To stop at any moment the time bands programming, close the cover of the panel.
The values set will not be memorized.
ou may exclude the heating schedule from one or more time bands. To do so, proceed as follows:
- set a time band: example ON - OFF as previously indicated
- press ENTER
- or the second time band overtake the 24 hours by pressing the
+ button.
The display shows segments instead of the timetable, see the
`^[
|^['??&^>
By doing this operation, you excluded the second time band from the heating schedule
- for the third time band overtake the 24 hours by pressing the + button
The display shows segments instead of the timetable.
|^['??&^>
By doing this operation, you excluded the third time band from the heating schedule.
In USER MENU set the desired temperature:
T-ROOM DES1 20°C
T-ROOM DES2 18°C
T-ROOM DES3 24°C
The progress of temperature/time bands will be as shown in the diagram.
T-AMB3
T-ROOM DES 3
24
23
°C fascia 3 time band 3
22
21 fascia 1 time band 1
T-AMB1
T-ROOM DES 1
20
19
T-AMB2
T-ROOM DES 2
18
17 fascia 2 time band 2
T-RIDOTTA
T-REDUCED
16
15
6.30
ON
8.30
OFF
12.00
15.00
ON OFF fasce orarie/time bands
17.00
23.00
ON OFF
You may set even temperatures for different time bands
Eg. T-ROOM DES-1 = T-ROOM DES-2
It is not possible to overlay the time bands.
HOTW-PROG (DO NOT USE
ora hour
FOR METEO GREEN HE R.S.I.)
(domestic hot water schedule)
Permits programming three operating time bands during the 24 hours.
Each time band is assigned a sanitary temperature set in the USER menu
(T-DHW 1, 2, 3).
This function is enabled only for boilers with water tanks.
If the water tank is equipped with probe, you can set the desired temperature; for boilers with thermostat, you have to set the water temperature directly on the boiler.
ENTER
+ -
ENTER
+
-
The boiler will operate according to the time band set and will stay off the rest of the time.
The relative room temperature is automatically assigned to each time band set in the HTG-PROG menu (T-ROOM DES 1, 2, 3):
To set the time bands, proceed as follows:
- go to HOTW-PROG
|^[ '[@<|]\<]]?'[^'@\?}'[[[
- with the + e – buttons select one of the available schedules described below:
· Daily: you can schedule each day of the week separately. The display will show each day: Monday, Tuesday, Wednesday, etc
· Holiday: you can schedule week days at the same time (Monday to Friday) and Saturday and Sunday differently
· Sab-Dom: you schedule only Saturday and Sunday
· Weekly: you can schedule all the days of the week at the same
T-ROOM DES1
The default room temperatures are set for 20°C, but you may adjust them, as already explained in paragraph 3.2.4 “Description of menus” “USER” dedicated section.
} '[ ^??> '[>|[^\'`^[ [^[ |[^?&\]<[@ >?@<[@ '[ |^?grams are assigned these new values.
time (Monday to Sunday)
[]['\[@`][ '[&|^['??&^>
?^\}[[?&@ '[@<|]\<]]\||[\^\<&`^[ \}'[^'\-
EXAMPLE OF PROGRAMMING
We consider that you want to set three heating time bands in 24 hours.
- time band 1: from 6.30 to 8.30 desired temperature 20°
- time band 2: from 12.00 to 15.00 desired temperature 18°
- time band 3: from 17.00 to 23.00 desired temperature 24°
In HTG-PROG MENU set the time bands.
'\<&`^[
ENTER
+ -
44
The time bands programming phase always begins with a starting
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[&@<&'<>['\{][ <@[&'<[@<''[>{?] .
The 3 time bands are expressed on the display by the following symbols:
1) ON OFF
METEO GREEN HE R.S.I.
ENTER
+ -
ENTER
+ -
3) ON OFF
Set the starting timetable (ON) by pressing the + and – buttons and
'[|^['??&^>
[@<|]\\||[\^\<&`^[
The relative domestic hot water temperature is automatically assigned to each time band set in the HOTW-PROG menu (T-DHW
1, 2, 3):
T-DHW1
T-DHW2
T-DHW3
ENTER
+ -
ENTER
+ -
The default domestic hot water temperatures are set for 50°C, but you may adjust them as already explained in paragraph 3.2.4
“Description of menus”, “USER” dedicated section. If the domestic
?' \'[^ '[>|[^\'`^[ [^[ |[^?&\]<[@ >?@<[@ '[ |^?^\> are assigned these new values.
Set the ending timetable (OFF) by pressing the + and – buttons and
'[|^['??&^>
During the OFF phase, the preparation of domestic hotwater is stopped.
Once you set down the ending timetable, press ENTER.
[@<|]\\||[\^\<&`^[
Proceed the same way to set the subsequent time bands
, .
EXAMPLE OF PROGRAMMING
We consider that you want to set three heating time bands in 24 hours.
- time band 1 from 6.30 to 8.30 desired temperature 45°
- time band 2 from 12.00 to 15.00 desired temperature 50°
- time band 3 from 17.00 to 23.00 desired temperature 48°
In PROGR-RISC MENU set the time bands.
In USER MENU set the desired temperature:
ENTER
+
-
ENTER
+ -
T-DHW1 45°C
T-DHW2 50°C
T-DHW3 48°C
The progress of temperature/time bands will be as shown in the diagram.
ENTER
+
-
ENTER
+ -
}'[^ ?` &<[@ |^?^\>><& |^[ '[ ?^ {`''?& '? ? '?
RETURN and exit the HOTW-PROG menu.
To stop at any moment the time bands programming, close the cover of the panel.
The values set will not be memorized.
You may exclude the heating schedule from one or more time bands. To do so, proceed as follows:
- set a time band: example ON - OFF as previously indicated
- press ENTER
- for the second time band overtake the 24 hours by pressing the
+ button.
The display shows segments instead of the timetable, see the
`^[
|^['??&^>
By doing this operation, you
excluded the second time
band from the heating schedule
- for the
third time band
overtake the 24 hours by pressing the + button
The display shows segments instead of the timetable.
|^['??&^>
By doing this operation, you
excluded the third time band
from the heating schedule.
The boiler will operate according to the time band set and will stay off the rest of the time.
T-ACS2
T-DHW2
T-ACS3
T-DHW3
T-ACS1
T-DHW1
50
°C
48
46 fascia 1 time band 1
44
42
40
38
36
34
6.30
ON fascia 2 time band 2
8.30
OFF
12.00
15.00
ON OFF fasce orarie/time bands fascia 3 time band 3
17.00
23.00
ON OFF
You may set even temperatures for different time bands
Eg. T-DHW-1 = T-DHW-2
It is not possible to overlay the time bands.
ora/ hour
45
METEO GREEN HE R.S.I.
4 - SWITCHING OFF
Switching off for short periods
In the event of short periods of absence, press the “ ” button on the remote control panel – with the dashboard cover closed – to switch off the boiler.
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The remote control panel keeps all the settings memorized.
This way, leaving the power supply and the gas supply on, the boiler is protected by the systems:
- Anti-freeze: when the water temperature in the boiler falls below safety values, the circulation pump enables and the burner starts at minimum power, in order to restore the water temperature to safety values (35 °C).
- Anti-freeze from remote control panel (see installer’s manual).
- Circulation pump anti-blocking: an operating cycle starts at every 24 h.
PAUSE AUTO MAN
FAULT E41
Should the wording
FILL REQ
appear on the display for lack of water, the
]]<& |^?[@`^[ \& {[ \'<_\'[@ \ follows:
} '[ ]]<& |^?[@`^[ ?&]`@[ `[}`]] '[ ?^@<&
FILL REQ disappears from the display.
}'[?^@<&^[>\<&\&@]]<&\&?'{[[&\'<_\'[@^'
<'?`]@{['^\&}?^>[@<&'?[^^?^'[&<&'?@[&<'<_[[^^?^
E40.
Error E40
: un-lock the boiler by pressing both the PAUSE and AUTO MAN buttons together for about 3 seconds
'[&\^^?&<']]<&'['[>\ described above.
Best to call the servicing centre with repeated lock-outs.
Switching off for long periods
In case of long periods of absence, press the“ ”button on the remote control panel – with dashboard cover closed - to switch off the boiler.
Turn the general system switch to
“OFF”.
rubinetto gas chiuso gas tap closed
Then, close the gas tap placed under the boiler, by turning it clockwise. In cking systems are disabled.
this case, the anti-freeze and anti-blo-
Drain the heating system or suitably protect it with a good make of anti-freeze. Drain the hot water system.
R.S.I. MODELS
- press the button to switch off the boiler
- call the servicing centre for help.
FAULT VENT
(only for Exclusive Boiler Green models)
The display of “VENT” indicates that the boiler is making the automatic air discharge cycle, which takes about 2 minutes. By pressing the PAUSE and AUTO MAN buttons simultaneously for about
3 seconds, you can interrupt the cycle.
6 - MISCELLANEOUS
5 - FAULTS
PAUSE
PAUSE
+
AUTO MAN
AUTO I MAN
When a functioning fault occurs, the di-
|]\?\\<&}\`]'?@[\&@ the ” “ symbol.
To reset the boiler after a fault occurred, press the PAUSE and AUTO MAN buttons simultaneously for about 3 seconds, see paragraph
“3.1.4 Unblocking function”
.
The remote control panel is supplied with electric power by the boiler. If there is a breakdown in the communication line between the remote panel and the boiler or there is no power supply, the digital display shuts off completely. The panel is equipped with a long duration internal memory with the purpose of memorizing all the schedules set, except hour and day settings.
RESET
During this operation, the display shows the word RESET and the ”
\<&>{?][[|\^\^\|
3.1.4
Unblocking function
).
PAUSE
RESET
AUTO MAN
If, after a safety stop, the boiler starts over to operate normally, the blocking is due to a casual situation. If the blockings repeat, you should call the Service Center.
PAUSE
AUTO MAN
FAULT E20
Whether the E20 code appears on the display.
If resetting succeeds, the
E20
code dissapears from the display. If the fault persists, press the button to switch off the boiler and call the Service Center.
46
GUIDE TO MAIN CONFIGURATIONS
SOLUTION A
System
Direct
Temperature
High or Low
TRADITIONAL SYSTEM – RADIATORS HIGH TEMP.
METEO GREEN HE R.S.I.
External Probe
Not installed
Heating Call
Rec07
UNDERFLOOR HEATING SYSTEM
With Parameter nr.20=1, and then with Par. nr. 21 and Par.22 we define the maximum and minimum limit of the Heating Set Point (SP).
When the Rec07 makes an heating call, the system can work in 2 different ways:
- The Rec07 defines the value of the water flow temperature thanks to the thermoregulation ( ambient temperature probe installed). The value of the water flow temperature is between the “MAX T-HS”- Maximum Flow Temperature (80°C default) and – “MIN T-HS” Minimum Flow Temperature (30°C default).
The thermoregulation curves start from the “MIN T-HS” (Minimum Flow Temperature) value. For each degree of temperature (delta difference to the set point) the flow temperature is increased of 2 x “ROOM – INFL” value.
Example for high temperature:
Parameter “MIN T-HS” (Minimum Flow Temperature) = 50 and parameter “ROOM – INFL” = 5. If we have an ambient temperature of 18°C vs 20°C as ambient temperature set point, we have accordingly a flow temperature of 50 + 2 x (20-18) x 5 (“ROOM INFL”) = 70°C.
Example for low temperature:
Parameter “MIN T-HS” (Minimum Flow Temperature) = 20 and parameter “ROOM INFL” = 2. If we have an ambient temperature of 18°C vs 20°C as ambient temperature set point, we have accordingly a flow temperature of 20 + 2 x (20-18) x 2 (“ROOM – INFL”) = 28°C.
- The Rec07 defines the flow temperature at a fixed point if it is configured with parameter “ROOM – INFL” = 0 and parameter “MIN T-HS” (Minimum Flow
Temperature) = parameter SP (Set Point) of the desired heating value. The parameter “MIN T-HS” (Minimum Flow Temperature) can be set from 20÷80°C.
47
METEO GREEN HE R.S.I.
SOLUTION B
System
Direct
Temperature
High or Low
TRADITIONAL SYSTEM – RADIATORS HIGH TEMP.
External Probe
Installed
Heating call
Rec07
UNDERFLOOR HETING SYSTEM
With Parameter nr.20=1, and then with Par. nr. 21 and Par.22 we define the maximum and minimum limit of the Heating Set Point (SP).
With the external probe and the Rec07 request, the system can work in 2 ways, according to Parameter nr.44:
- If the Par.44=0, the thermoregulation is managed by the Rec07 which uses both its ambient probe and the boiler external one. With the parameter “HEAT
SLOPE”, we define the external probe curve and with the parameter “ROOM – INFL”, the compensation of the ambient probe. With the parameter “MIN
T-HS” (Minimum Flow Temperature) and the parameter “MAX T-HS” (Maximum Flow Temperature), we define the maximum and the minimum limit of the calculated flow temperature.
Example for high temperature:
parameter “HEAT SLOPE”=2 and parameter “ROOM – INFL”=5. If we have an ambient temperature of 18°C vs 20°C as ambient temperature set point, and 0°C outside, , we have accordingly a flow temperature of 67.5°C calculated by the Rec07 (“HEAT SLOPE”=2) increased of (20-18) x 5 (“ROOM – INFL”)= 77,5°C.
Example for low temperature:
parameter “HEAT SLOPE”=0,5 and parameter “ROOM – INFL”=2. If we have an ambient temperature of 18°C vs 20° as ambient temperature set point and 0°C outside, therefore we have a flow temperature of 30°C calculated by the Rec07 (“HEAT SLOPE”=0,5) increased of (20-18) x2 (“ROOM – INFL”)= 34°C.
- The Rec07 defines the flow temperature thanks to the combined thermoregulation between the ambient probe and the external probe, always restricted between “MAX T-HS” – Maximum Flow Temperature (80°C default) and “MIN T-HS” – Minimum Flow Temperature (30°C default).
- With Parameter nr. 44=1 (default), the external probe thermoregulation is managed by the boiler electronic PCB (AE02). With Parameter nr.45 it is defined the thermoregulation curve: 20 (default) for systems with high temperature, 10 for systems with low temperature, but the value can be modified according to the system characteristics. It is suggested to keep the Parameter nr.3 = 5 and use the Parameter nr.65 to define the reactivity value of the external probe. If the house is new and well insulated, the Parameter nr.65 can be set at 20÷25 as the internal temperature varies more slowly than the external one. If the house is scarcely insulated, it is advisable to set values between 10÷15. Rotating the ENCODER for Central Heating settings it is possible to optimize the curve with a translation of ±5°C on the desired ambient temperature used for the thermoregulation calculation.
48
SOLUTION C
System
Direct
Temperature
High or Low
TRADITIONAL SYSTEM – RADIATORS HIGH TEMP.
METEO GREEN HE R.S.I.
External Probe
Not installed
Heating call
Ambient Thermostat
UNDERFLOOR HEATING SYSTEM
With Parameter nr.20=11, Par. nr. 21 and Par.22 we define the maximum and minimum limit of the Heating Set Point (SP)
When the Ambient Thermostat (TA) makes a heating call, the boiler starts working with a heating SP defined with the heating encoder (20÷80°C =
Par.22÷Par.21). The Rec07 has to be set modifying its 3 day temperature, the night temperature at 5 °C and the parameter “ROOM – INFL”=20, in order to avoid heating call.
49
METEO GREEN HE R.S.I.
SOLUTION D
System
Direct
Temperature
High or Low
TRADITIONAL SYSTEM – RADIATORS HIGH TEMP.
External Probe
Installed
Heating call
Ambient Thermostat
UNDERFLOOR HEATING SYSTEM
With Parameter nr.20=11, Parameter nr.44=1, Par.21 and Par.22 we define the maximum and minimum limit of the Heating Set Point (SP)
With the external probe and the request from the Ambient Thermostat, the system works according to the thermoregulation of the electronic PCB embedded in the boiler (AE02), thanks to Parameter nr.44=1 and with the climatic curve defined with Parameter nr.45: 20 (default) for systems with high temperature,
10 for systems with low temperature, but the value can be modified according to the system characteristics. It is suggested to keep the Parameter nr.3 = 5 and use the Parameter nr.65 to define the reactivity value of the external probe. If the house is new and well insulated, the Parameter nr.65 can be set at
20÷25 as the internal temperature varies more slowly than the external one. If the house is scarcely insulated, it is advisable to set values between 10÷15.
Rotating the ENCODER for Central Heating settings it is possible to optimize the curve with a translation of ±5°C on the required ambient temperature value used for the thermoregulation calculation. The Rec07 has to be set modifying its 3 day temperature, the night temperature at 5 °C and the parameter
“ROOM – INFL”=20, in order to avoid any heating call.
50
SOLUTION E
System
2 zones at leat
Temperature
High or Low
TRADITIONAL SYSTEM – RADIATORS HIGH TEMP.
METEO GREEN HE R.S.I.
External Probe
Not installed
Heating Call
Rec07 and / or TA
UNDERFLOOR HEATING SYSTEM
With Parameter nr.20=11, Par. nr. 21 and Par.22 we define the maximum and minimum limit of the Heating Set Point (SP)
The Rec07 has not the dry contact, typical of the Ambient Thermostat, which is necessary to energize the zone valve - VDZ (230 vac). Thus, if we want the Rec07 to energize its Zone Valve, it is necessary to use Kit Cod.1103039. The kit includes an electronic PCB “BE08” connected to the boiler electronic
PCB (AE02). When the Rec07 makes a heating call, it is closed the BE08 dry contact which energizes the Zone Valve. Once opened, this Zone Valve closes its limit switch contact (FC) connected in parallel to other ones on the boiler Ambient Thermostat clamp. In this way, the boiler starts heating only if at least a zone makes a heating call.
If the Rec07 has not to manage a zone, it is not necessary to have a kit Cod.1103039 and it has to be set modifying its 3 day temperature, the night temperature at 5 °C and the parameter
“ROOM – INFL”=20, in order to avoid any heating call. The different Ambient Thermostats (TA) energize their respective Zone Valves through the limit switch contacts (FC) placed in parallel on the boiler Ambient Thermostat contact.
When we have a heating call from the limit switch contacts (FC) of the Zone Valves controlled by the Rec07 or the Ambient Thermostats, the boiler starts working with a heating set point (SP) defined with the heating encoder (20÷80°C = Par.22÷Par.21).
51
METEO GREEN HE R.S.I.
SOLUTION F
System
2 zones at least
Tempoerature
High or Low
TRADITIONAL SYSTEM – RADIATORS HIGH TEMP.
External Probe
Installed
Heating Call
Rec07 and / or TA
UNDERFLOOR HEATING SYSTEM
With Parameter nr.20=11, Parameter nr.44=1, Par.21 and Par.22 we define the maximum and minimum limit of the Heating Set Point (SP)
The Rec07 has not the dry contact, typical of the Ambient Thermostat, which is necessary to energize the zone valve – “VDZ” (230 vac). Thus, if we want the Rec07 to energize its Zone Valve, it is necessary to use Kit Cod.1103039. The kit includes an electronic PCB connected to the boiler electronic PCB
(AE02). When the Rec07 makes a heating call, it is closed the BE08 dry contact which energizes the Zone Valve. Once opened, this Zone Valve closes its limit switch contact (FC) connected in parallel to other ones on the boiler Ambient Thermostat clamp. In this way, the boiler starts heating only if at least a zone makes a heating call.
If the Rec07 has not to manage a zone, it is not necessary to have a kit Cod.1103039 and it has to be set modifying its 3 day temperature, the night temperature at 5 °C and the parameter INFLAMB=20, in order to avoid any heating call. The different Ambient Thermostats (TA) energize their respective Zone
Valves through the limit switch contacts (FC) placed in parallel on the boiler Ambient Thermostat contact.
When we have a heating call from the limit switch contacts (FC) of the Zone Valves controlled by the Rec07 or the Ambient Thermostats, the system works according to the thermoregulation of the electronic PCB embedded in the boiler (AE02), thanks to Parameter nr.44=1 and with the climatic curve defined with Parameter nr.45: 20 (default) for systems with high temperature, 10 for systems with low temperature, but the value can be modified according to the system characteristics. It is suggested to keep the Parameter nr.3 = 5 and use the Parameter nr.65 to define the reactivity value of the external probe. If the house is new and well insulated, the Parameter nr.65 can be set at 20÷25 as the internal temperature varies more slowly than the external one. If the house is scarcely insulated, it is advisable to set values between 10÷15. Rotating the ENCODER for Central Heating settings it is possible to optimize the curve with a translation of ±5°C on the required ambient temperature used for the thermoregulation calculation.
52
SOLUTION G
System
1 High temp. e 1 Low Temp.
Circuit
Temperature
High and Low
External Probe unconcerned
Richiesta Calore
Rec07 and / or TA
METEO GREEN HE R.S.I.
Connect BASE
The electronic PCB embedded in the boiler (AE02) considers the “Connect BASE” as the only Ambient Thermostat of a direct system (High Temp.). The
Connect is equipped with a relay to which the 2 Ambient Thermostats of the 2 zones are connected;
When one of the two 2 ambient thermostat make an heat call, the relay board (PCB) will pilot the related injection pump/s and will “bring” an heat call to the “TA” (ambient thermostat) of the gas boiler. The Temperature value of the High Temperature Circuit is defined by the gas boiler while the Temperature value of the Low Temperature Circuit is defined by the 3-way thermostatic mixing valve.
As already described in SOLUTION E and F, if we want the Rec07 to manage a zone, it is necessary to adopt a kit Cod.1103039; otherwise, it is necessary to switch it off. If the external probe is installed, it is suggested to set the Parameter nr. 44 = 0 (not Par.44-=1) in order to disable the thermoregulation, as it would excessively stress the Connect thermostatic.
RANGE RATED - EN483
The rating for the heat output in heating mode is . . . . . . . . . . . . . . . kW equivalent to a maximum fan speed in heating mode of . . . . . . . . . . . . . . . rpm
Date . . . . . . / . . . . . . / . . . . . .
Signature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Boiler registration number . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
53
METEO GREEN HE R.S.I.
54
METEO GREEN HE R.S.I.
55
BERETTA
Via Risorgimento, 23/A
23900 LECCO
Italy
Tel. +39 0341 277111
Fax +39 0341 277263 [email protected]
www.berettaboilers.com
In order to improve its products, Beretta reserves the right to modify the characteristics and information contained in this manual at any time and without prior notice. Consumers statutory rights are not aected.
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