Ferroli DIVAtech D F24 Gas Boiler Instructions

: June 6, 2024
: Ferroli

Table of Contents

GENERAL WARNINGS
OPERATING INSTRUCTIONS
INSTALLATION
Adjustments
Commissioning
Maintenance
Troubleshooting
References
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DIVAtech D F24/F32/F37
INSTRUCTIONS FOR USE, INSTALLATION, AND MAINTENANCE

cod. 3541R751 – Rev. 00 – 03/2021

INSTRUCTIONS FOR USE, INSTALLATION, AND MAINTENANCE

GENERAL WARNINGS

Carefully read and follow the instructions contained in this instruction booklet.
After boiler installation, inform the user regarding its operation and give him this manual, which is an integral and essential part of the product and must be kept with care for future reference.
Installation and maintenance must be carried out by professionally qualified personnel, in compliance with the current regulations and according to the manufacturer’s instructions. Do not carry out any operation on the sealed control parts.
Incorrect installation or inadequate maintenance can result in damage or injury. The Manufacturer declines any liability for damage due to errors in installation and use, or failure to follow the instructions.
Before carrying out any cleaning or maintenance operation, disconnect the unit from the electrical power supply using the switch and/or the special cut-off devices.
In case of a fault and/or poor operation, deactivate the unit and do not try to repair it or directly intervene.
Contact professionally qualified personnel. Any repair/replacement of the products must only be carried out by qualified personnel using original replacement parts. Failure to comply with the above could affect the safety of the unit.
This unit must only be used for its intended purpose. Any other use is deemed improper and therefore hazardous.
The packing materials are potentially hazardous and must not be left within the reach of children.
The unit must not be used by people (including children) with limited physical, sensory or mental abilities or without experience and knowledge of it, unless instructed or supervised in its use by someone responsible for their safety.
The unit and its accessories must be appropriately disposed of, in compliance with the current regulations.
The images given in this manual are a simplified representation of the product. In this representation, there may be slight and insignificant differences with respect to the product supplied.

THE CE MARKING CERTIFIES THAT THE PRODUCTS MEET THE ESSENTIAL REQUIREMENTS OF THE RELEVANT DIRECTIVES IN FORCE. THE DECLARATION OF CONFORMITY MAY BE REQUESTED FROM THE MANUFACTURER.

OPERATING INSTRUCTIONS

2.1 Introduction Dear Customer, DIVAtech DF is a high-efficiency sealed chamber heat generator for heating and hot water production running on natural gas or LPG and equipped with a microprocessor control system.
2.2 Control panel
Panel

1 DHW temperature setting decrease button
2 DHW temperature setting increase button
3 Heating system temperature setting decrease button
4 Heating system temperature setting increase button
5 Display
6 “Sliding Temperature” Menu – Summer/Winter mode selection – Reset button
7 Unit On/Off – Economy/Comfort mode selection button
8 DHW symbol
9 DHW mode| 10 Summer mode
11 Multifunction
12 Eco (Economy) mode
13 Heating
14 Heating symbol
15 Burner lit and actual power level (flashing during combustion fault function)
16 Service Tool connection
17 Water gauge
---|---

Indication during operation
Heating
A heating demand (generated by the Room Thermostat or Remote Timer Control) is indicated by flashing of the hot air above the radiator on the display. The display (detail 11 – fig. 1) shows the actual heating delivery temperature and, during heating standby time, the message “d2”.
In the event of continuous “d2” messages, reduce parameter P01 (ignition power – “tS” – Transparent Parameters Menu” on page 8) to a minimum of 9.
Domestic hot water (DHW)
A DHW demand (generated by drawing domestic hot water) is indicated by the flashing of the hot water under the tap on the display. The display (detail 11 – fig. 1) shows the actual DHW outlet temperature and, during DHW standby time, the message “d1”.
Comfort
A Comfort demand (reinstatement of the temperature inside the boiler) is indicated by flashing of the water under the tap on the display. The display (detail 11 – fig. 1) shows the actual temperature of the water in the boiler.
Fault
In case of a fault (see cap. 4.4) the display shows the fault code (detail 11 – fig. 1) and during safety pause times the messages “d3”, “d4” and “d5”.
2.3 Lighting and shutdown
Connection to the power supply

During the first 5 seconds, the display will also show the card software release.
Open the gas cock ahead of the boiler.
The boiler is now ready to function automatically whenever domestic hot water is drawn or in case of a heating demand (generated by Room Thermostat or Remote Temperature Control).

Turning the boiler off and on
Press the on/off button (detail 7 – fig. 1) for 5 seconds. ****When the boiler is turned off, the circuit board is still powered. Domestic hot water and heating are disabled. The frost protection system remains activated. To relight the boiler, press the on/off button (detail 7 fig. 1) again for 5 seconds.

** The boiler will be immediately ready to work whenever domestic hot water is drawn or in case of a heating demand (generated by the Room Thermostat or the Remote Timer control).
The frost protection system does not work when the power and/or gas to the unit are turned off. To avoid damage caused by freezing during long shutdowns in winter, it is advisable to drain all water from the boiler, the DHW circuit, and the heating system water; or drain just the DHW circuit and add a suitable antifreeze to the heating system, as prescribed in sec. 3.3.
2.4 Adjustments
Summer/Winter Switchover**
Press the summer/winter button (detail 6 – fig. 1) for 2 seconds.
The display activates the Summer symbol (detail 10 – fig. 1): the boiler will only deliver domestic hot water. The antifreeze system remains activated.
To deactivate the Summer mode, press the summer/winter button (detail 6 – fig.

again for 2 seconds.
Heating temperature adjustment Use the heating buttons (details 3 and 4 – fig.
to adjust the temperature from a min. of 30°C to a max. of 80°C; in any case, it is advisable not to operate the boiler below 45°C.
DHW temperature adjustment
Use the DHW buttons (details 1 and 2 – fig. 1) to adjust the temperature from a min. of 40°C to a max. of 55°C.
Adjustments from Remote Timer Control
If the Remote Timer Control (optional) is connected to the boiler, the above adjustments are managed according to that given in table 1. Room temperature adjustment (with optional room thermostat)
Using the room thermostat, set the temperature required in the rooms. If the room thermostat is not installed, the boiler will keep the system at the set system delivery setpoint temperature.
Room temperature adjustment (with optional remote timer control)
Using the remote timer control, set the required temperature in the rooms. The boiler will adjust the system water according to the required room temperature. For operation with remote timer control, please refer to the relevant instruction manual.
ECO/COMFORT selection
The unit has a function that ensures a high domestic hot water delivery speed and maximum comfort for the user. When the device is activated (COMFORT mode), the water contained in the boiler is kept hot, thereby ensuring immediate availability of hot water on opening the tap, without waiting times.
The user can deactivate the device (ECO mode) by pressing the eco/comfort button (detail 7 – fig. 1). In ECO mode the display activates the ECO symbol (detail 12 – fig. 1). To activate the COMFORT mode, press the eco/comfort button (detail 7 – fig. 1) again.
Sliding Temperature
When the optional external probe is installed the boiler adjustment system works with “Sliding Temperature”. In this mode, the heating system temperature is regulated according to weather conditions, to ensure high comfort and energy efficiency throughout the year. In particular, as the outside temperature increases the system delivery temperature decreases according to a specific “compensation curve”.
With the Sliding Temperature adjustment, the temperature set with the heating buttons (detail 3 – fig. 1) becomes the maximum system delivery temperature. It is advisable to set a maximum value to allow system adjustment throughout its useful operating range.
The boiler must be adjusted at the time of installation by qualified personnel. However, the user can make any further adjustments necessary to optimize comfort levels.
Compensation curve and curve offset
Press the reset button (detail 6 – fig. 1) for 5 seconds to access the “Sliding temperature” menu; the display shows “CU” flashing.
Use the DHW buttons (detail 1 – fig. 1) to adjust the desired curve from 1 to 10 according to the characteristic (fig. 6). By setting the curve to 0, the sliding temperature adjustment is disabled.
Press the heating buttons (detail 3 – fig. 1) to access parallel curve offset; the display shows “OF” flashing. Use the DHW buttons (detail 1 – fig. 1) to adjust the parallel curve offset according to the characteristic (fig. 7).
Press the reset button (detail 6 – fig. 1) again for 5 seconds to exit the “Sliding Temperature” menu.
If the room temperature is lower than the required value, it is advisable to set a higher-order curve and vice versa. Proceed by increasing or decreasing in steps of one and check the result in the room.

Adjustments from Remote Timer Control
If the Remote Timer Control (optional) is connected to the boiler, the above adjustments are managed according to that given in table 1.

Table. 1

Heating temperature setting| Adjustment can be made from the Remote Timer Control menu and the boiler control panel.
---|---
DHW temperature adjustment| Adjustment can be made from the Remote Timer Control menu and the boiler control panel.
Summer/Winter Switchover| Summer mode has priority over a possible Remote Timer Control heating demand.
Eco/Comfort selection| On disabling DHW from the Remote Timer Control menu, the
boiler selects the Economy mode. In this condition, the eco/comfort button (detail 7 – fig. 1) on the boiler panel is disabled.
On enabling DHW from the Remote Timer Control menu, the
boiler selects the Comfort mode. In this condition, it is possible
to select one of the two modes with the eco/comfort button (detail 7 – fig. 1) on the boiler panel.
Sliding Temperature| Both the Remote Timer Control and the boiler card manage Sliding Temperature adjustment: the boiler card Sliding
The temperature has priority.

System water pressure adjustment
The filling pressure read on the boiler water gauge (detail 2 – fig. 8) with system cold must be approx 1.0 bar. If the system pressure falls below minimum values, the boiler stops, and fault F37 is displayed. Pull out the filling knob (detail 1 – fig. 8) and turn it anticlockwise to return it to the initial value. Always close it afterward.
Once the system pressure is restored, the boiler will activate the 300-second air venting cycle indicated on the display by Fh.
To prevent boiler shutdown, it is advisable to periodically check the pressure on the gauge with system cold. In case of pressure below 0.8 bar, it is advisable to restore it.

System draining
The drain faucet ring nut is located under the safety valve inside the boiler. To drain the system, turn the ring (ref. 1 – fig. 9) counter-clockwise to open the faucet. Do not use any tools; use hands only. To drain only the water in the boiler, first, close the shut-off valves between the system and boiler before turning the ring.

INSTALLATION

3.1 General Instructions
BOILER INSTALLATION MUST ONLY BE PERFORMED BY QUALIFIED PERSONNEL, IN ACCORDANCE WITH ALL THE INSTRUCTIONS GIVEN IN THIS TECHNICAL MANUAL, THE PROVISIONS OF CURRENT LAW, THE PRESCRIPTIONS OF NATIONAL AND LOCAL STANDARDS AND THE RULES OF PROPER WORKMANSHIP.
3.2 Place of installation
The combustion circuit is sealed with respect to the place of installation and therefore the unit can be installed in any room except in a garage. The place of installation must be sufficiently ventilated to prevent the creation of dangerous conditions in case of even small gas leaks. Otherwise, there may be a risk of suffocation and intoxication or explosion and fire. This safety precaution is required by EEC Directive No. 2009/142 for all gas units, including so-called sealed chamber units.
The unit is designed to operate in a partially protected place, with a minimum temperature of -5°C. If provided with the special antifreeze kit, it can be used with a minimum temperature down to -15°C. The boiler must be installed in a sheltered place, for instance under the slope of a roof, inside a balcony, or in a protected recess.
The place of installation must be free of flammable materials, objects, and dust or corrosive gases.
The boiler is arranged for wall mounting and comes as standard with a hooking bracket. Wall fixing must ensure stable and effective support for the generator.
If the unit is enclosed in a cabinet or mounted alongside, there must be sufficient space for removing the casing and for normal maintenance activities
3.3 Plumbing connections
Important
The safety valve outlet must be connected to a funnel or collection pipe to prevent water from spurting onto the floor in case of overpressure in the heating circuit. Otherwise, if the discharge valve cuts in and floods the room, the boiler manufacturer cannot be held liable.
Before making the connection, check that the unit is arranged for operation with the type of fuel available and carefully clean all the system pipes.
Carry out the relevant connections according to the diagram in fig. 2.3 and the symbols on the unit.
Note: The unit is equipped with an internal bypass in the heating circuit.
Water system characteristics
In the presence of water harder than 25° Fr (1°F = 10ppm CaCO3), use suitably treated water in order to avoid possible scaling in the boiler.
Antifreeze system, antifreeze fluids, additives, and inhibitors
When necessary, antifreeze fluids, additives, and inhibitors can be used only if the manufacturer of such fluids or additives guarantees that they are suitable and do not cause damage to the exchanger or other components and/or materials of the boiler and system. Do not use generic antifreeze fluids, additives or inhibitors that are not specific for use in heating systems and compatible with the materials of the boiler and system.
3.4 Gas connection
The gas must be connected to the relevant connection (see fig. 2.3) in conformity with the current standards, using a rigid metal pipe or a continuous surface flexible s/steel tube and installing a gas cock between the system and boiler. Make sure all the gas connections are tight.
3.5 Electrical connections
IMPORTANT
**BEFORE CARRYING OUT ANY OPERATION THAT REQUIRES REMOVING THE CASING, DISCONNECT THE BOILER FROM THE ELECTRIC MAINS WITH THE MAIN SWITCH.
NEVER TOUCH THE ELECTRICAL COMPONENTS OR CONTACTS WITH THE MAIN SWITCH TURNED ON! DANGER OF ELECTRIC SHOCK WITH RISK OF INJURY OR DEATH!
** The unit must be connected to an efficient grounding system in accordance with applicable safety regulations. Have the efficiency and suitability of the grounding system checked by professionally qualified personnel; the Manufacturer declines any liability for damage caused by failure to earth the system.
The boiler is prewired and provided with a three-pole cable, without a plug, for connection to the electric line. The connections to the grid must be made with a permanent connection and equipped with a bipolar switch whose contacts have a minimum opening of at least 3 mm, interposing fuses of max. 3A between the boiler and the line. Make sure to respect the polarities (LINE: brown wire / NEUTRAL: blue wire / GROUND: yellow-green wire) in the connections to the electric line.
** The unit’s supply cable MUST NOT BE REPLACED BY THE USER. If the cable gets damaged, turn the unit off and have the cable replaced only by professionally qualified personnel. In case of replacement, only use cable “HAR H05 VV-F” 3×0.75 mm2 with max. external diameter of 8 mm.
Room thermostat (optional)
IMPORTANT: THE ROOM THERMOSTAT MUST HAVE VOLTAGE-FREE CONTACTS. CONNECTING 230 V TO THE ROOM THERMOSTAT TERMINALS WILL PERMANENTLY DAMAGE THE ELECTRONIC BOARD.
When connecting time controls or a timer, do not take the power supply for these devices from their breaking contacts Their power supply must be by means of the direct connection from the mains or with batteries, depending on the kind of device.
Accessing the electrical terminal block
** Accessing the electrical terminal block can be accessed after removing the casing. The layout of the terminals for the various connections is also given in the wiring diagram in fig. 31.

3.6 Fume ducts
Important
The unit is a “C type” with a sealed chamber and forced draught, the air inlet, and fume outlet must be connected to one of the following extraction/suction systems. The unit is approved for operation with all the CNY flue configurations given on the data plate. Some configurations may be expressly limited or not permitted by law, standards or local regulations. Before installation, check and carefully follow the instructions. Also, comply with the instructions on the positioning of wall and/or roof terminals and the minimum distances from windows, walls, ventilation openings, etc.
Baffles
Boiler operation requires fitting the baffles supplied with the unit. Make sure the boiler is properly fitted with the correct baffle (if to be used).

Connection with coaxial pipes

Table. 2 – Typology

Type	Description
C1X	Wall horizontal exhaust and inlet
C3X	Roof vertical exhaust and inlet

For coaxial connection, fit the unit with one of the following starting accessories. For the wall hole dimensions, refer to the figure on the cover.

Table. 3- Baffles for coaxial ducts

| Coaxial 60/100| Coaxial 80/125
---|---|---
Max. permissible length| DIVAtech D F24 = 5 m DIVAtech D F32 = 5 m| 10 m
Reduction factor 90° bend| 1 m| 0.5 m
Reduction factor 45° bend| 0.5 m| 0.25 m

Baffle to use

| 0 ÷ 2 m| DIVAtech D F24 = Ø43 DIVAtech D F32 = Ø45| 0 ÷ 3 m| DIVAtech D F24 = Ø43 DIVAtech D F32 = Ø45
2 ÷ 5 m| no baffle| 3 ÷ 10 m| no baffle

**Table. 4- Baffles for coaxial ducts**

| Coaxial 60/100| Coaxial 80/125
---|---|---
Max. permissible length| DIVAtech D F37 = 4 m| 10 m
Reduction factor 90° bend| 1 m| 0.5 m
Reduction factor 45° bend| 0.5 m| 0.25 m
Baffle to use| 0 ÷ 2 m| DIVAtech D F37 = Ø50| 0 ÷ 3 m| DIVAtech D F37 = Ø50
2 ÷ 4 m| no baffle| 3 ÷ 10 m| no baffle

Connection with separate pipes

Table. 5 – Typology

Type|

Description

---|---
C1X| Wall horizontal exhaust and intake. The inlet/outlet terminals must be concentric or close enough to be undergoing similar wind conditions (within 50 cm)
C3X| Roof vertical exhaust and intake. Inlet/outlet terminals like for C12
C5X| Wall or roof exhaust and intake separate or in any case in areas with different pressures. The exhaust and intake must not be positioned on opposite walls.
C6X| Intake and exhaust with separately certified pipes (EN 1856/1)
B2X| Intake from installation room and wall or roof exhaust
IMPORTANT – THE ROOM MUST BE PROVIDED WITH APPROPRIATE VENTILATION

For the connection of separate ducts, fit the unit with the following starting accessory:

Before installation, check the baffle to use and that the maximum permissible length is not exceeded, by means of a simple calculation:

Establish the layout of the system of split flues, including accessories and outlet terminals.
Consult table 6 and identify the losses in meq (equivalent meters) of every component, according to the installation position.
Check that the sum total of losses is less than or equal to the maximum permissible length in table 6.

Table. 6- Baffles for separate ducts

| DIVAtech D F24| DIVAtech D F32| DIVAtech D F37
---|---|---|---
Max. permissible length| 60 meq| 48 meq| 40 meq

Baffle to use

| 0 – 20 meq| Ø 43| 0 – 15 meq| Ø 45| 0 – 10 meq| Ø 47
20 – 45 meq| Ø 47| 15 – 35 meq| Ø 50| 10 – 20 meq| Ø 50
45 – 60 meq| No baffle| 35 – 48 meq| No baffle| 20 – 30 meq| Ø 52
| 30 – 40 meq| No baffle

Table. 7 – Accessories

| Losses in m eq
---|---
Air inlet| Fume exhaust
Vertical| Horizontal
Ø 80| PIPE| 0.5 m M/F| 1KWMA38A| 0.5| 0.5| 1.0
1 m M/F| 1KWMA83A| 1.0| 1.0| 2.0
2 m M/F| 1KWMA06K| 2.0| 2.0| 4.0
BEND| 45° F/F| 1KWMA01K| 1.9| 2.9
45° M/F| 1KWMA65A| 1.9| 2.9
90° F/F| 1KWMA02K| 2.0| 3.0
90° M/F| 1KWMA82A| 1.5| 2.5
90° M/F + Test point| 1KWMA70U| 1.5| 2.5
PIPE SECTION| with test point| 1KWMA16U| 0.2| 0.2
for condensate drain| 1KWMA55U| –| 3.0
TEE| for condensate drain| 1KWMA05K| –| 7.0
TERMINAL| air, wall| 1KWMA85A| 2.0| –
fumes, a wall with anti-wind| 1KWMA86A| –| 5.0
FLUE| Split air/fumes 80/80| 1KWMA84U| –| 12.0
Fume outlet only Ø80| 1KWMA83U +

1KWMA86U

| –| 4.0
Ø 100| REDUCTION| from Ø80 to Ø100| 1KWMA03U| 0.0| 0.0
from Ø100 to Ø80| 1.5| 3.0
PIPE| 1 m M/F| 1KWMA08K| 0.4| 0.4| 0.8
BEND| 45° M/F| 1KWMA03K| 0.6| 1.0
90° M/F| 1KWMA04K| 0.8| 1.3
TERMINAL| air, wall| 1KWMA14K| 1.5| –
fumes, a wall with anti-wind| 1KWMA29K| –| 3.0
Ø 60| PIPE| 1 m M/F| 010028X0| –| 2.0| 6.0
BEND| 90° M/F| 010029X0| –| 6.0
REDUCTION| 80 – 60| 010030X0| –| 8.0
TERMINAL| fumes, wall| 1KWMA90A| –| 7.0
| **| ATTENTION: CONSIDER THE HIGH-PRESSURE LOSSES OF Ø60 ACCESSORIES; USE THEM ONLY IF NECESSARY AND AT THE LAST FUME EXHAUST SECTION.**

Connection to collective flues

Table. 8 – Typology

Type

|

Description

---|---
C2X| Intake and exhaust in the common flue (intake and exhaust in the same flue)
C4X| Intake and exhaust in common and separate flues, but undergoing similar wind conditions
C8X| Exhaust in single or common flue and wall intake
B3X| Intake from installation room by means of concentric duct (that encloses the exhaust) and exhaust in the common flue with natural draught

IMPORTANT- THE ROOM MUST BE PROVIDED WITH APPROPRIATE VENTILATION

C93| Exhaust to a vertical terminal and intake from the existing flue.

If the boiler is to be connected DIVAtech DF to a collective flue or to a single flue with natural draught, the flue or chimney must be expressly designed by professionally qualified technical personnel in conformity with the current regulations and be suitable for sealed chamber units equipped with fan.
4. SERVICE AND MAINTENANCE
Important
All adjustment, conversion, commissioning and maintenance operations described below must only be carried out by Qualified Personnel (meeting the professional technical
requirements of current regulations) such as the personnel of the Local After- Sales Technical Service. FERROLI declines any liability for damage and/or injury caused by unqualified and unauthorized persons tampering with the unit.

Adjustments

Gas conversion
ALL COMPONENTS DAMAGED DURING CONVERSION OPERATIONS MUST BE REPLACED.
The unit can operate on natural gas or LPG and is factory-set for use with one of these two gases, as clearly shown on the packing and on the data plate. Whenever a gas different from that for which the unit is arranged has to be used, the special conversion kit will be required, proceeding as follows:

Disconnect the boiler power supply and close the gas cock.
Replace the nozzles at the main burner, fitting the nozzles specified in the technical data table in the cap. 5, according to the type of gas used
Switch the boiler power on and open the gas cock.
Modify the parameter for the type of gas:
· put the boiler in standby mode
· press the DHW buttons details 1 and 2 – fig. 1 for 10 seconds: the display shows “b01” flashing.
· press the DHW buttons details 1 and 2 – fig. 1 to set the parameter 00 (for natural gas operation) or 01 (for LPG operation).
· press the DHW buttons details 1 and 2 – fig. 1 for 10 seconds. · the boiler will return to standby mode
Adjust the minimum and maximum pressures at the burner (ref. relevant paragraph), setting the values given in the technical data table for the type of gas used
Apply the sticker contained in the conversion kit, near the data plate as proof of the conversion.

Activation of Auto-setting function for gas valve calibration
THIS PROCEDURE MUST ONLY BE CARRIED OUT IN THE FOLLOWING CASES: GAS VALVE REPLACEMENT, CARD REPLACEMENT, CONVERSION FOR GAS CHANGE.
The B&P Gas Valve (with integrated modulating operator) does not provide for mechanical calibration: the minimum and maximum power adjustments are therefore electronically done via two parameters:

Contents

| Description| Natural Gas|

Propane Gas

---|---|---|---
q01| The absolute minimum current offset| 0÷100| 0÷150
q02| The absolute maximum current offset| 0÷100| 0-150

Gas valve pre-calibration

Connect a pressure gauge to monitor the gas valve outlet pressure.
Enable the Auto-setting function (Parameter b12=1).
Activate the calibration procedure by pressing the heating + button and Eco/Comfort button together for 5 seconds. The message “Au-to” immediately appears (in two successive flashes) and the burner is lit. Within 8 seconds (natural gas and LPG) the boiler finds the ignition point. The ignition point, absolute minimum current Offset (Parameter q01) and absolute maximum current Offset (Parameter q02) values are stored by the card.

Gas valve calibration

The display will show “q02” flashing; the modulation current is forced to the pre-calibration value of the absolute maximum current Offset parameter (Parameter q02).
Press the DHW buttons to adjust the parameter “q02” until the maximum nominal pressure minus 1mbar is reached on the pressure gauge. Wait 10 seconds for the pressure to stabilize.
Press the DHW “+” button to set the parameter “q02” until the maximum nominal pressure is reached on the pressure gauge. Wait 10 seconds for the pressure to stabilize.
If the pressure read on the pressure gauge is different from the maximum nominal pressure, proceed in increments of 1 or 2 units of the parameter “q02” by pressing the DHW “+” button: after each change, wait 10 seconds for the pressure to stabilize.
When the pressure read on the pressure gauge is equal to the maximum nominal pressure (the newly calibrated value of the parameter “q02” is automatically saved), press the heating “” button: the display will show “q01” flashing; the modulation current is forced to the pre-calibration value of the absolute minimum current Offset parameter (Parameter q01).
Press the DHW buttons to adjust the parameter “q01” until the minimum nominal pressure plus 0.5mbar is reached on the pressure gauge. Wait 10 seconds for the pressure to stabilize.
Press the DHW “-” button to adjust the parameter “q01” until the minimum nominal pressure is reached on the pressure gauge. Wait 10 seconds for the pressure to stabilize.
If the pressure read on the pressure gauge is different from the minimum nominal pressure, proceed in decrements of 1 or 2 units of the parameter “q01” by pressing the DHW “-” button: after each change, wait 10 seconds for the pressure to stabilize.
When the pressure read on the pressure gauge is equal to the minimum nominal pressure (the newly calibrated value of the parameter “q01” is automatically saved.), recheck both adjustments by pressing the heating buttons and correct them if necessary by repeating the procedure described above.
The calibration procedure ends automatically after 15 minutes or by pressing the heating “+” and Eco/Comfort buttons together for 5 seconds.

Checking of gas pressure values and adjustment with limited range

Check that the supply pressure complies with that indicated in the technical data table.
Connect a suitable pressure gauge to the pressure sampling point “B” located downstream from the gas valve.
Activate the TEST mode and follow the instructions for checking the gas pressures at maximum power and minimum power (see next par.).

If the maximum and/or minimum nominal pressures read on the pressure gauge are different from those indicated in the technical data table, proceed with the next sequence.

Press the Eco/Comfort button for 2 seconds to go to the gas valve Calibration with limited range mode.
The card goes to the setting “q02”; displaying the currently saved value by pressing the DHW buttons.
If the maximum pressure read on the pressure gauge is different from the nominal one, proceed in increments/decrements of 1 or 2 units of the parameter “q02” by pressing the DHW buttons: after each change, the value is stored; wait 10 seconds for the pressure to stabilize.
Press the heating “-” button (ref. 3 – fig. 1). · The card goes to the setting “q01”; displaying the currently saved value by pressing the DHW buttons.
If the minimum pressure read on the pressure gauge is different from the nominal one, proceed in increments/decrements of 1 or 2 units of the parameter “q01” by pressing the DHW buttons: after each change, the value is stored; wait 10 seconds for the pressure to stabilize.
Recheck both settings by pressing the heating buttons and if necessary correct them by repeating the procedure described above.
Pressing the Eco/Comfort button for 2 seconds returns to TEST mode.
Deactivate TEST mode (see next par.).
Disconnect the pressure gauge.

TEST mode activation
Press the heating buttons (details 3 and 4 – fig. 1) together for 5 seconds to activate the TEST mode. The boiler lights at the maximum heating power set as described in the following section. The heating and DHW symbols (fig. 18) flash on the display; the heating power will appear alongside. Press the heating buttons (details 3 and 4 – fig. 1) to increase or decrease the power (Min.=0%, Max.=100%).
By pressing the DHW “-” button (detail 1 – fig. 1), boiler output is immediately adjusted to min. (0%). By pressing the DHW “+” button (detail 2 – fig. 1), boiler output is immediately adjusted to the max. (100%).
If the TEST mode is activated and enough hot water is drawn to activate the DHW mode, the boiler remains in TEST mode but the 3-way valve goes to DHW.
To deactivate the TEST mode, press the heating buttons (details 3 and 4 – fig.

together for 5 seconds.
The TEST mode is automatically deactivated in any case after 15 minutes or on stopping of hot water drawing (if enough hot water has been drawn to activate the DHW mode).
Heating power adjustment
To adjust the heating power, switch the boiler to TEST mode (see sec. 4.1). Press the heating buttons to detail 3 – fig. 1 to increase or decrease the power (min. = 00 – max. = 100). Press the reset button within 5 seconds and the max. power will remain that just set. Exit TEST mode (see sec. 4.1).
Configuration Menu
The configuration menu is accessed by pressing the DHW buttons together for 10 seconds. 12 parameters, indicated by the letter “b” and not modifiable from Remote Timer Control, are available.
Press the Heating buttons to scroll the list of parameters in increasing or decreasing order. Press the DHW buttons to view or modify the value of a parameter: the change will be automatically saved.

Contents| Description| Range|

Parameter

---|---|---|---
b01| Gas type selection| 0=Natural Gas| 0
1=LPG
b02| Boiler type selection| 1=Bithermal instantaneous| 2
2=Monothermal instantaneous
3=Heating only (3-way valve)
4=Heating only (circulating pump)
b03| Combustion chamber type selection| 0=Sealed Chamber combustion control

(without fume pressure switch)

| 0
1=Open Chamber (with fume thermostat)
2=Sealed Chamber (with fume pressure switch)
3=Sealed Chamber Combustion control

(with fume thermostat on recuperator)

Notes:

Parameters with more than one description vary their function and/or range in relation to the setting of the parameter given in brackets.
Parameters with more than one description are reset to the default value if the parameter given in brackets is modified.

To exit the Configuration Menu press the DHW buttons together for 10 seconds, or exiting occurs automatically after 2 minutes
Service menu
The card Service Menu is accessed by pressing the Reset button for 20 seconds. 4 submenus are available: press the Heating buttons to select, in increasing or decreasing order, “tS”, “In”, “Hi” or “rE”. “tS” means Transparent Parameters Menu, “In” means Information Menu, “Hi” means History Menu: after selecting the submenu, press the Reset button again to access it; “rE” means History Menu Reset: see description.
“tS” – Transparent Parameters Menu
21 parameters indicated by the letter “P” are available, which are also modifiable from Remote Timer Control.
Press the Heating buttons to scroll the list of parameters in increasing or decreasing order. Press the DHW buttons to view or modify the value of a parameter: the change will be automatically saved.

Contents

| Description| Range|

DIVAtech DF

---|---|---|---
P01| Ignition ramp Offset| 9 ÷ 19| 15
P02| Heating ramp| 1-20°C/minute| 5
P03| Heating standby time| 0-10 minutes| 2
P04| Heating Post-Circulation| 0-20 minutes| 6
P05| Heating user max. setpoint| 31-85°C| 80
P06| Max. output in heating| 0-100%| 100
P07| Burner shutdown in DHW (b02=1)| 0=Fixed|
1=Linked to set point
2=Solar
3 = DO NOT USE
4 = DO NOT USE
Burner shutdown in DHW (b02=2)| 0=Fixed| 0
1=Linked to set point
2=Solar
3 = DO NOT USE
4 = DO NOT USE
Hot water tank hysteresis (b02=3)| 0 (do not use) 1-2-3-4°C|
Hot water tank hysteresis (b02=4)| 0 (do not use) 1-2-3-4°C|
P08| DHW standby time (b02=1)| 0-60 seconds| 30
DHW standby time (b02=2)| 0-60 seconds
DHW standby time (b02=3)| 0-60 seconds
DHW standby time (b02=4)| 0-60 seconds
P09| DHW user max. setpoint (b02=1)| 50-65°C| 50
DHW user max. setpoint (b02=2)| 50-65°C
DHW user max. setpoint (b02=3)| 50-65°C
DHW user max. setpoint (b02=4)| 50-65°C
P10| Anti-inertia function temperature (b02=1)| 5-85°C|
No effect on adjustment (b02=2)| —| 0
The delivery temperature in DHW (b02=3)| 70-85°C|
The delivery temperature in DHW (b02=4)| 70-85°C|
P11| Anti-inertia function Post-Circulation (b02=1)| 0-10 Seconds|
DHW Post-Circulation (b02=2)| 0-60 Seconds| 30
DHW Post-Circulation (b02=3)| 0-60 Seconds|
DHW Post-Circulation (b02=4)| 0-60 Seconds|
P12| Max. output in DHW| 0-100%| 100
P13| Absolute min. power| 0-100%| 0
P14| Post-Ventilation| 0=Default| 0
1=50 seconds
P15| CO2 limit Offset (b03=0)| 0 (Minimum) 30 (Maximum)|
No effect on adjustment (b03=1)| —|
No effect on adjustment (b03=2)| —|
CO2 limit Offset (b03=3)| 0 (Minimum) 30 (Maximum)| 20
CO2 limit Offset (b03=4)| 0 (Minimum) 30 (Maximum)|
No effect on adjustment (b03=5)| —|
P16| Exchanger protection activation| 0=No F43| 10
1-15=1-15°C/second
P17| Modulating pump max. speed – absolute| Operating at 100%. Adjustable with an optional cable.| 100
P18| Modulating pump max. speed – post circulation| 0-100% not operating. Always at 100% in this model| 60
P19| Solar deactivation temperature (b02=1)| 0÷20°C| 10
Solar deactivation temperature (b02=2)| 0÷20°C
No effect on adjustment (b02=3)| —
No effect on adjustment (b02=4)| —

Contents

| Description| Range|

DIVAtech DF

---|---|---|---
P20| Solar ignition temperature (b02=1)| 0÷20°C| 10
Solar ignition temperature (b02=2)| 0÷20°C
No effect on adjustment (b02=3)| —
No effect on adjustment (b02=4)| —
P21| Solar standby time (b02=1)| 0-20 seconds| 10
Solar standby time (b02=2)| 0-20 seconds
No effect on adjustment (b02=3)| —
No effect on adjustment (b02=4)| —

Notes:

Parameters with more than one description vary their function and/or range in relation to the setting of the parameter given in brackets.
Parameters with more than one description are reset to the default value if the parameter given in brackets is modified.
The Maximum Heating Power parameter can also be modified in Test Mode.

Press the Reset button to return to the Service Menu. Press the Reset button for 20 seconds to exit the card Service Menu, or exiting occurs automatically after 15 minutes.
“In” – Information Menu
PAR_INFO pieces of information are available.
Press the Heating buttons to scroll the list of information in increasing or decreasing order. Press the DHW buttons to display the value.

Contents

| Description|

Range

---|---|---
t01| NTC Heating sensor (°C)| between 05 and 125°C
t02| NTC Safety sensor (°C)| between 05 and 125°C
t03| NTC DHW sensor (°C)| between 05 and 125°C
t04| NTC External sensor (°C)| between -30 and 70°C (negative values flash)Without NTC = —
L05| Actual burner power (%)| 00%=Min., 100%=Max.
F06| Actual Flame resistance (kOhm)| 00-99 kOhm (– = burner off)
St07| Fan step (Number)| 0=Off, 1=Min, 2=Med, 3=Max
F08| Actual DHW drawing (L min/10)| L min/10 over 99 flashing 3 figures
PP09| Actual modulating pump speed (%)| 00-100% not working in this model

Notes:
In case of a damaged sensor, the card displays hyphens.
Press the Reset button to return to the Service Menu. Press the Reset button for 20 seconds to exit the card Service Menu or exiting occurs automatically after 15 minutes.
“Hi” – History Menu
The card can store the last 11 faults: the History datum item H1: represents the most recent fault that occurred; the History datum item H10: represents the least recent fault that occurred.
The codes of the faults saved are also displayed in the corresponding menu of the Remote Timer Control.
Press the Heating buttons to scroll the list of faults in increasing or decreasing order. Press the DHW buttons to display the value.
Press the Reset button to return to the Service Menu. Press the Reset button for 20 seconds to exit the card Service Menu, or exiting occurs automatically after 15 minutes.
“rE” – History Reset
Press the Eco/Comfort button for 3 seconds to delete all the faults stored in the History Menu: the card will automatically exit the Service Menu, in order to confirm the operation.
Press the Reset button for 20 seconds to exit the card Service Menu, or exiting occurs automatically after 15 minutes.

Commissioning

Before lighting the boiler

Check the seal of the gas system.
Check correct prefilling of the expansion tank.
Fill the water system and make sure all air contained in the boiler and the system has been vented.
Make sure there are no water leaks in the system, DHW circuits, connections or boiler.
Check correct connection of the electrical system and efficiency of the earthing system.
Make sure the gas pressure for heating is that required.
Make sure there are no flammable liquids or materials in the immediate vicinity of the boiler

IF THE ABOVE INSTRUCTIONS ARE NOT OBSERVED THERE MAY BE A RISK OF SUFFOCATION OR POISONING DUE TO GAS OR FUMES ESCAPING; DANGER OF FIRE OR EXPLOSION. ALSO, THERE MAY BE A RISK OF ELECTRIC SHOCK OR FLOODING THE ROOM.
Checks during operation

Switch the unit on.
Check the tightness of the fuel circuit and water systems.
Check the efficiency of the flue and air/fume ducts while the boiler is working.
Make sure the water is circulating properly between the boiler and the systems.
Make sure the gas valve modulates correctly in the heating and domestic hot water production stages.
Check correct boiler lighting by performing various tests, turning it on and off with the room thermostat or remote control.
Make sure the fuel consumption indicated on the meter matches that given in the technical data table in the cap. 5.
Make sure that with no demand for heating, the burner lights correctly on opening a hot water tap. Check that in heating mode, on opening a hot water tap, the heating circulating pump stops and there is the regular production of hot water.
Make sure the parameters are programmed correctly and carry out any required customization (compensation curve, power, temperatures, etc.).

Maintenance

IMPORTANT
ALL MAINTENANCE WORK AND REPLACEMENTS MUST BE CARRIED OUT BY SKILLED QUALIFIED PERSONNEL.
Before carrying out any operation inside the boiler, disconnect the power and close the gas cock upstream. Otherwise, there may be a danger of explosion, electric shock, suffocation, or poisoning.
Periodical inspection
To ensure proper operation of the unit over time, have qualified personnel carries out a yearly inspection, providing for the following checks:

The control and safety devices (gas valve, flow switch, thermostats, etc.) must function correctly.
The fume exhaust circuit must be perfectly efficient.
(Sealed chamber boiler: fan, pressure switch, etc. – The sealed chamber must be tight: seals, cable glands, etc.) (Open chamber boiler: anti-backflow device, fume thermostat, etc.)
The air/fume terminal and ducts must be free of obstructions and leaks
The burner and exchanger must be clean and free of deposits. Do not use chemical products or wire brushes to clean.
The electrode must be properly positioned and free of deposits.
The gas and water systems must be tight.
The pressure of the water in the system when cold must be approx. 1 bar; otherwise, bring it to that value.
The circulating pump must not be blocked.
The expansion tank must be filled.
The gas flow and pressure must match that given in the respective tables.

Troubleshooting

Diagnostics
The boiler has an advanced self-diagnosis system. In case of a boiler fault, the display will flash together with the fault symbol (detail 11 – fig. 1) indicating the fault code.
There are faults that cause permanent shutdowns (marked with the letter “A”): to restore operation, press the RESET button (detail 6 – fig. 1) for 1 second or RESET on the optional remote timer control if installed. At this point, the display will show “d4” for about 30 seconds or “d5” for about 5 minutes which indicates the waiting time after which the boiler will resume normal operation. if the boiler fails to restart, it is necessary to eliminate the fault.
Other faults cause temporary shutdowns (marked with the letter “F”) which are automatically reset as soon as the value returns within the boiler’s normal working range.
List of faults
Table. 9

Code fault

| Fault| Possible cause|

Cure

---|---|---|---
A01| No burner ignition| No gas| Check the regular gas flow to the boiler and that the air has been eliminated from the pipes
Ignition/detection electrode fault| Check the wiring of the electrode and that it is correctly positioned and free of any deposits
Faulty gas valve| Check the gas valve and replace it if necessary
Gas valve wiring disconnected| Check the wiring
Ignition power too low| Adjust the ignition power
A02| Flame present signal with burner off| Electrode fault| Check the ionization electrode wiring
Card fault| Check the card
A03| Overtemperature protection activation| Heating sensor damaged| Check the correct positioning and operation of the heating sensor
No water circulation in the system| Check the circulating pump
Air in the system| Vent the system
F04| Card parameter fault| Wrong card parameter setting| Check the card parameter and modify it if necessary
F05| Card parameter fault| Wrong card parameter setting| Check the card parameter and modify it if necessary
Fan fault| Wiring disconnected| Check the wiring
Defective fan| Check the fan
Card fault| Check the card
A06| No flame after the ignition phase| Low pressure in the gas system| Check the gas pressure
Burner minimum pressure setting| Check the pressures
F07| Card parameter fault| Wrong card parameter setting| Check the card parameter and modify it if necessary
A09| Gas valve fault| Wiring disconnected| Check the wiring
Faulty gas valve| Check the gas valve and replace it if necessary
F10| Delivery sensor 1 fault| Sensor damaged| Check the wiring or replace the sensor
Wiring shorted
Wiring disconnected
**F11| ** DHW sensor fault| Sensor damaged| Check the wiring or replace the sensor
Wiring shorted
Wiring disconnected
F14| Delivery sensor 2 fault| Sensor damaged| Check the wiring or replace the sensor
Wiring shorted
Wiring disconnected
A16| Gas valve fault| Wiring disconnected| Check the wiring
Faulty gas valve| Check the gas valve and replace it if necessary
F20| Combustion control fault| Fan fault| Check the fan and fan wiring
Faulty baffle| Check the baffle and replace it if necessary
Flue not correctly sized or obstructed| Check the flue
A21| Poor combustion fault| Fault F20 generated 6 times in the last 10 minutes| See fault F20
A23| Card parameter fault| Wrong card parameter setting| Check the card parameter and modify it if necessary
A24| Card parameter fault| Wrong card parameter setting| Check the card parameter and modify it if necessary
F34| Supply voltage under 180V.| Electric mains trouble| Check the electrical system
F35| Faulty mains frequency| Electric mains trouble| Check the electrical system
F37| Incorrect system water pressure| Pressure too low| Fill the system
Water pressure switch damaged or not connected| Check the sensor

Code fault

| Fault| Possible cause|

Cure

---|---|---|---
F39| External probe fault| Probe damaged or wiring shorted| Check the wiring or replace the sensor
Probe disconnected after activating the sliding temperature| ****

Reconnect the external sensor or disable the sliding temperature

A41| Sensor positioning| Delivery sensor or DHW sensor detached from the pipe| ****

Check the correct positioning and operation of the sensors

Not increase the flow temperature| Failed complete burner ignition
F42| Heating sensor fault| Sensor damaged| Replace the sensor

F43

5. TECHNICAL DATA AND CHARACTERISTICS
5.1 Dimensions and connections

Gas inlet – Ø 3/4”
DHW outlet – Ø 1/2”
Coldwater inlet – Ø 1/2”
System delivery – Ø 3/4”
System return – Ø 3/4”

5.2 General view and main components

| |
---|---|---

Table. 10- Legend, fig. 27, fig. 28, fig. 29, and fig. 30

5 Sealed chamber
8 DHW outlet – Ø 1/2”
9 DHW inlet – Ø 1/2”
10 System delivery – Ø 3/4”
11 System return – Ø 3/4”
14 Safety valve
16 Fan
19 Combustion chamber
22 Burner
27 Copper exchanger for heating and DHW
28 Fume manifold
29 Fume outlet collar
32 Heating circulating pump
36 Automatic air vent| 37 Coldwater inlet filter
42 DHW temperature sensor
44 Gas valve
56 Expansion vessel
74 System filling faucet
81 Ignition and detection electrode
95 Diverter valve
114 Water pressure switch
136 Flowmeter
137 Pressure sensor
187 Fume baffle
194 DHW exchanger
241 Automatic bypass
278 Double sensor (Safety + heating)
---|---

5.4 Technical data table

Data| Unit| DIVAtech D F24| DIVAtech D F32| DIVAtech D F37|
---|---|---|---|---|---
Max. heating capacity| kW| 25.8| 34.4| 39.7| (Q)
Min. heating capacity| kW| 8.3| 11.5| 14.0| (Q)
Max. Heat Output in heating| kW| 24.0| 32.0| 37.0| (P)
Min. Heat Output in heating| kW| 7.2| 9.9| 12.9| (P)
Max. Heat Output in DHW| kW| 24.0| 32.0| 37.0|
Min. Heat Output in DHW| kW| 7.2| 9.9| 12.9|
Efficiency Pmax (80-60°C)| %| 93.0| 93.1| 93.2|
Efficiency 30%| %| 90.5| 91.0| 91.0|
Efficiency class Directive 92/42 EEC| –| ****|
NOx emissions class| –| 3 (<150 mg/kWh)| (NOx)
Burner nozzles G20| no. x Ø| 11 x 1.35| 15 x 1.35| 17 x 1.35|
Gas supply pressure G20| mbar| 20.0| 20.0| 20.0|
Max. gas pressure at the burner (G20)| mbar| 12.0| 12.0| 12.0|
Min. gas pressure at the burner (G20)| mbar| 1.5| 1.5| 1.5|
Max. gas flow G20| m3/h| 2.73| 3.64| 4.20|
Min. gas flow G20| m3/h| 0.88| 1.22| 1.48|
Burner nozzles G31| no. x Ø| 11 x 0.79| 15 x 0.79| 17 x 0.79|
Gas supply pressure G31| mbar| 37| 37| 37|
Max. gas pressure at the burner (G31)| mbar| 35.0| 35.0| 35.0|
Min. gas pressure at the burner (G31)| mbar| 5.0| 5.0| 5.0|
Max. gas flow G31| kg/h| 2.00| 2.69| 3.10|
Min. gas flow G31| kg/h| 0.65| 0.90| 1.10|
Max. working pressure in the heating| bar| 3| 3| 3| (PMS)
Min. working pressure in the heating| bar| 0.8| 0.8| 0.8|
Max. heating temperature| °C| 90| 90| 90| (max)
Heating water content| liters| 1.0| 1.2| 1.5|
Heating expansion vessel capacity| liters| 8| 10| 10|
Heating expansion vessel precharge pressure| bar| 1| 1| 1|
Max. working pressure in DHW| bar| 9| 9| 9| (PMW)
Min. working pressure in DHW| bar| 0.25| 0.25| 0.25|
DHW flow rate Dt 25°C| l/min| 13.7| 18.3| 21.1|
DHW flow rate Dt 30°C| l/min| 11.4| 15.2| 17.6| (D)
Protection rating| IP| X5D| X5D| X5D|
Power supply voltage| V/Hz| 230V/50Hz|
Electrical power input| W| 110| 135| 135|
Electrical power input in DHW| W| 110| 135| 135|
Empty weight| kg| 32| 35| 37|
Type of unit| | C12-C22-C32-C42-C52-C62-C72-C82-B22|

5.5 Diagrams
Pressure – power diagrams DIVAtech D F24
Circulating pump head / pressure losses DIVAtech D F32

5.6 Wiring diagram

Attention: Remove the jumper on the terminal block before connecting the room thermostat or the remote timer control.

16 Fan
32 Heating circulating pump
42 DHW temperature sensor
44 Gas valve
72 Room thermostat (optional)
81 Ignition/detection electrode| 95 Diverter valve
114 Water pressure switch
136 Flowmeter
138 External probe (optional)
139 Remote timer control (optional)
278 Double sensor (Safety + heating)
---|---

FERROLI S.p.A.
Via Rotonda 78/a 37047
San Bonifacio – Verona – ITALY
www.ferroli.com
Made in Italy