installer manual
TRANSCRIPT
Installer manualLEK
LEK
LEK
NIBE™ F20408, 12, 16 kW
Air/water heat pump
IHB GB 1540-5 231844
Table of Contents
21 Important information2Safety information
62 Delivery and handling6Transport and storage
6Assembly
8Supplied components
9Removing the covers
9Removing the front panel
10Removing the side panel
113 The heat pump design11General
16Electrical connection
194 Pipe connections19General
19Pipe coupling heating medium circuit
21Docking alternatives
225 Electrical connections22General
24Connections
306 Commissioning and adjusting30Preparations
30Filling and venting the heating medium sys-tem
30Compressor heater
31Start-up and inspection
32Readjusting, heating medium side
33Adjustment, charge flow
347 Control
358 Disturbances in comfort35Troubleshooting
399 Alarm list
4210 Accessories
4411 Technical data44Dimensions and setting-out coordinates
46Sound pressure levels
47Technical specifications
54Energy labelling
58Electrical circuit diagram
64Index
1Table of Contents |NIBE™ F2040
Safety informationThis manual describes installation and service proced-ures for implementation by specialists.
This appliance can be used by childrenaged from 8 years and above and per-sons with reduced physical, sensory ormental capabilities or lackof experienceandknowledge if theyhavebeengivensupervision or instruction concerninguse of the appliance in a safe way andunderstand the hazards involved. Chil-dren shall not play with the appliance.Cleaning and user maintenance shallnot bemadeby childrenwithout super-vision.
Rights to make any design or technicalmodifications are reserved.
©NIBE 2015.
Symbols
NOTE
This symbol indicates danger to machine orperson.
Caution
This symbol indicates important informationabout what you should observe when main-taining your installation.
TIP
This symbol indicates tips on how to facilitateusing the product.
MarkingThe CE marking means that NIBE ensures that theproduct meets all regulations that are placed on itbased on relevant EUdirectives. The CEmark is obligat-ory for most products sold in the EU, regardless wherethey are made.
Serial numberThe serial number for F2040 can be found on the sideof the foot.
F2040-8
LEK
DATA
Serial number
F2040-12
LEK
DATA
Serial number
NIBE™ F2040Chapter 1 | Important information2
1 Important information
F2040-16
LEK
DATA
Serial number
Caution
Alwaysgive theproduct's serial numberwhenreporting a fault.
Country specific information
Installer manualThis installer manual must be left with the customer.
3Chapter 1 | Important informationNIBE™ F2040
Inspection of the installationCurrent regulations require the heating installation to be inspected before it is commissioned. The inspection mustbe carried out by a suitably qualified person. Fill in the page for information about installation data in the Usermanual.
DateSignatureNotesDescription
System flushed
System vented
Particle filter
Shut-off and drain valve
Charge flow set
Fuses property
Safety breaker
Communication cable connected
F2040 addressed (only when cascadeconnection)
Miscellaneous
NIBE™ F2040Chapter 1 | Important information4
Contact information
KNV Energietechnik GmbH, Gahberggasse 11, 4861 SchörflingAT
Tel: +43 (0)7662 8963-0 Fax: +43 (0)7662 8963-44 E-mail: [email protected] www.knv.atNIBE Wärmetechnik c/o ait Schweiz AG, Industriepark, CH-6246 AltishofenCH
Tel: (52) 647 00 30 Fax: (52) 647 00 31 E-mail: [email protected] www.nibe.chDruzstevni zavody Drazice s.r.o, Drazice 69, CZ - 294 71 Benatky nad JizerouCZ
Tel: +420 326 373 801 Fax: +420 326 373 803 E-mail: [email protected] www.nibe.czNIBE Systemtechnik GmbH, Am Reiherpfahl 3, 29223 CelleDE
Tel: 05141/7546-0 Fax: 05141/7546-99 E-mail: [email protected] www.nibe.deVølund Varmeteknik A/S, Member of the Nibe Group, Brogårdsvej 7, 6920 VidebækDK
Tel: 97 17 20 33 Fax: 97 17 29 33 E-mail: [email protected] www.volundvt.dkNIBE Energy Systems OY, Juurakkotie 3, 01510 VantaaFI
Puh: 09-274 697 0 Fax: 09-274 697 40 E-mail: [email protected] www.nibe.fiNIBE Energy Systems France Sarl, Zone industrielle RD 28, Rue du Pou du Ciel, 01600 ReyrieuxFR
Tel : 04 74 00 92 92 Fax : 04 74 00 42 00 E-mail: [email protected] www.nibe.frNIBE Energy Systems Ltd, 3C Broom Business Park, Bridge Way, Chesterfield S41 9QGGB
Tel: 0845 095 1200 Fax: 0845 095 1201 E-mail: [email protected] www.nibe.co.ukNIBE Energietechniek B.V., Postbus 634, NL 4900 AP OosterhoutNL
Tel: 0168 477722 Fax: 0168 476998 E-mail: [email protected] www.nibenl.nlABK AS, Brobekkveien 80, 0582 Oslo, Postadresse: Postboks 64 Vollebekk, 0516 OsloNO
Tel. sentralbord: +47 23 17 05 20 E-mail: [email protected] www.nibeenergysystems.noNIBE-BIAWAR Sp. z o. o. Aleja Jana Pawła II 57, 15-703 BIAŁYSTOKPL
Tel: 085 662 84 90 Fax: 085 662 84 14 E-mail: [email protected] www.biawar.com.pl© "EVAN" 17, per. Boynovskiy, Nizhny NovgorodRU
Tel./fax +7 831 419 57 06 E-mail: [email protected] www.nibe-evan.ruNIBE AB Sweden, Box 14, Hannabadsvägen 5, SE-285 21 MarkarydSE
Tel: +46-(0)433-73 000 Fax: +46-(0)433-73 190 E-mail: [email protected] www.nibe.se
For countries not mention in this list, please contact Nibe Sweden or check www.nibe.eu for more information.
5Chapter 1 | Important informationNIBE™ F2040
Transport and storageF2040 must be transported and stored vertically.
Assembly Place F2040 outdoors on a solid level base that cantake the weight, preferably a concrete foundation.If concrete slabs are used they must rest on asphaltor shingle.
The concrete foundationor slabsmust bepositionedso that the lower edge of the evaporator is at thelevel of the average local snow depth, although aminimum of 300 mm.
The F2040 should not bepositionednext to sensitivewalls, for example, next to a bedroom.
Also ensure that the placement does not inconveni-ence the neighbours.
F2040must not beplaced so that recirculation of theoutdoor air can occur. This causes lower output andimpaired efficiency.
Theevaporator shouldbe sheltered fromdirectwind,which negatively affects the defrosting function.Place F2040 protected from wind against the evap-orator.
Large amounts of condensationwater aswell asmeltwater from defrosting can be produced. Condensa-tion water must be led off to a drain or similar (seepage 7).
Care must be exercised so that the heat pump is notscratched during installation.
LEKLEK
LEK
Cirka 1 m
LEKLEK
LEK
Cirka 1 m
min 300 mmMin. 300 mm
Do not place F2040 directly on the lawn or other nonsolid surface.
If there is a risk of snow slip from roof, a protective roofor cover must be erected to protect the heat pump,pipes and wiring.
NIBE™ F2040Chapter 2 | Delivery and handling6
2 Delivery and handling
Condensation run off
Condensation water trough
The condensation water trough is used to collect andlead away condensation water from the heat pump.
NOTE
It is important to the heat pump function thatcondensation water is led away and that thedrain for the condensationwater run off is notpositioned so that it can cause damage to thehouse.
NOTE
Pipe with heating cable for draining the con-densation water trough are not included.
NOTE
To ensure this function the accessory KVR 10should be used.
NOTE
The electrical installation and wiring must becarriedout under the supervisionof anauthor-ised electrician.
NOTE
Self regulating heating cables must not beconnected.
Caution
If none of the recommended alternatives isused good lead off of condensation watermust be assured.
The condensation water (up to 50 litres/day) collec-ted in the trough should be routed by pipe to anappropriate drain, it is recommended that theshortest outdoor stretch possible is used.
The section of the pipe that can be affected by frostmust be heated by the heating cable to preventfreezing.
Route the pipe downward from F2040. The outlet of the condensation water pipe must beat a depth that is frost free or alternatively indoors(with reservation for local ordinances and regula-tions).
Use awater trap for installationswhere air circulationmay occur in the condensation water pipe.
The insulation must be tight against the bottom ofthe condensation water trough.
Drain pan heater, control
Thedrain panheater is suppliedwith powerwhenoneof the following conditions is met:1. Operatingmode "Heating" or "Hot water" is activ-
ated.
2. The compressor has been in operation for at least30 minutes after last start.
3. The ambient temperature is lower than 1 C.
Recommended alternatives
Stone caisson
LEK
Frostfritt djupFrost proof depth
If the house has a cellar the stone caisson must be po-sitioned so that condensation water does not affectthe house. Otherwise the stone caisson can be posi-tioned directly under the heat pump.
The outlet of the condensation water pipe must be atfrost free depth.
Drain indoors
Water seal
The condensation water is lead to an indoor drain(subject to local rules and regulations).
Route the pipe downward from F2040.
7Chapter 2 | Delivery and handlingNIBE™ F2040
The condensation water pipe must have a water sealto prevent air circulation in the pipe.
Gutter drainage
Frostfritt
djup
LEK
Frost proof depth
Water seal
The outlet of the condensation water pipe must be atfrost free depth.
Route the pipe downward from F2040.
The condensation water pipe must have a water sealto prevent air circulation in the pipe.
Installation areaThe distance between F2040 and the house wall mustbe at least 150mm. Clearance in front of F2040 shouldbe at least one metre.
50
255
Ställb
ar 4
0-5
0 9
55
243
512
110
395
265
50
452 1075
1145
108
Ø40*
14
85
3000 m
m
400 mm
Minimalt
fritt utrymme
Minimalt
fritt utrymme
Fritt utrymme
framför
150 m
m Fritt
utrymme
bakom
600mm
Minimumfree space
Minimumfree space
Freespacebehind
400 mm 600 mm
150 mm
3000 mm
Free spacein front
Supplied components
LEK
Particle filter R25 (HQ1).2 flexible hoses (R25) with4 seals
NIBE™ F2040Chapter 2 | Delivery and handling8
Removing the coversF2040-8
LEK
F2040-12
LEK
F2040-16
LEK
Removing the front panelF2040-8
LEK
9Chapter 2 | Delivery and handlingNIBE™ F2040
F2040-12
LEK
F2040-16
LEK
Removing the side panelF2040-12
LEK
F2040-16
LEK
DATA
NIBE™ F2040Chapter 2 | Delivery and handling10
GeneralF2040-8
LEK
GQ1
DH
UB3
EP1
EB11
CM
20S
63H1
LPT
SM2
SM1
FM01
PWB2 PWB3 PWB1
BT12
BT15
BP4
QN2
BT3
PF3
HS1
EP2
GQ10 QN1
BP2
QM35
QM36
BP1
QN3
CH
EB10
AA23
X1
F TBBT14 Tho-D
Tho-SBT17
LEK
DATA
XL2
UB1
UB2
W1
XL1
UB3
LEK
DATA
PF1PF3
Tho-ABT28
Tho-R1 Tho-R2BT16
11Chapter 3 | The heat pump designNIBE™ F2040
3 The heat pump design
F2040-12
LEK
QN1
GQ1
GQ10 QM35
QN3
QM36
TB
BP1
QN2
PWB1
PWB2
PWB3
DH
UB3
BT3
BP4
PF3
BT15
EP1
EP2HS1BP2
BT12
X1
EB11
CM
20S
63H1
LPT SM2
SM1
FM01
CH
EB10
AA23
Tho-DBT14
BT17 Tho-S
LEK
DATA
XL2
UB1
UB2
W1
XL1
UB3
LEK
DATA
Tho-ABT28
PF1PF3 Tho-R1BT16
Tho-R2
NIBE™ F2040Chapter 3 | The heat pump design12
F2040-16
LEK
GQ1
DH
X1
CM
63H1
CH
SM2
SM1
FM01
PWB2 PWB3 PWB1
QN2 20S
BT12
TB
BP1
PF3
QN3
BP4
BT3
BT15
UB3
GQ10 HS1
QN1
EP2
QM36
QM35
EB11
GQ2 FM02
EP1
F
LPT
BP2
AA23
Tho-D
BT14 EB10
Tho-SBT17
13Chapter 3 | The heat pump designNIBE™ F2040
LEK
DATA
XL2
UB1
UB2
XL1
UB3
W1
LEK
DATA
PF3 PF1
BT28Tho-A
Tho-R1 Tho-R2BT16
NIBE™ F2040Chapter 3 | The heat pump design14
Component list F2040-8 , -12 , -16
Pipe connectionsService valve, liquid sideQM35Service valve, gas sideQM36Connection, heatingmedium out ofF2040,G1" (Ø28 mm)
XL1
Connection, heating medium in to F2040,G1" (Ø28 mm)
XL2
Sensors etc.High pressure pressostatBP1 (63H1)Temperature sensor, heatingmediumreturnline
BT3
Temperature sensor, condenser supply lineBT12Temperature sensor, hot gasBT14 (Tho-
D)Temperature sensor, fluid pipeBT15Temperature sensor 1, evaporatorBT16 (Tho-
R1)Temperature sensor, suction gasBT17 (Tho-
S)Temperature sensor, ambientBT28 (Tho-
A)Low pressure transmitterBP2 (LPT)High pressure sensorBP4Temperature sensor 2, evaporatorTho-R2
Electrical componentsCommunication boardAA23Fuse for external heating cable (250 mA),max 45W.
AA23-F3
DIP switch, addressing of outdoor unitAA23-S3Terminal block, KVRAA23-X1Terminal block, communication from indoormodule
AA23-X4
Communication with TBAA23-X100
Compressor heaterEB10 (CH)Drip tray heaterEB11 (DH)Main fuse compressor unitFFanGQ1
(FM01)FanGQ2
(FM02)Control boardPWB1Inverter boardPWB2Filter boardPWB3Terminal block, incoming supply and com-munication with board AA23
TB
Cooling components4-way valveQN2 (20S)CompressorGQ10 (CM)
Expansion valve, coolingQN3 (SM1)Expansion valve, heatingQN1 (SM2)Evaporator (air coil, copper pipe with alu-minium flange)
EP1
Condenser (ACH30, copper/stainless steel)EP2Drying filterHS1
MiscellaneousType platePF1Serial numberPF3Cable gland, incoming supplyUB1Cable grommet, communicationUB2Cable grommet, heating cable (EB14)UB3Cable, incoming supplyW1
Designations in component locations according tostandard IEC 81346-1 and 81346-2. Designationswithin brackets according to the supplier's standard.
15Chapter 3 | The heat pump designNIBE™ F2040
Electrical connectionElectrical components
Communication boardAA23Fuse for external heating cable (250 mA),max 45W.
AA23-F3
DIP switch, addressing of outdoor unitAA23-S3Terminal block, KVRAA23-X1Terminal block, communication from indoormodule
AA23-X4
Communication with TBAA23-X100
Compressor heaterEB10 (CH)Drip tray heaterEB11 (DH)Main fuse compressor unitFFanGQ1
(FM01)FanGQ2
(FM02)Control boardPWB1Inverter boardPWB2Filter boardPWB3Terminal block, incoming supply and com-munication with board AA23
TB
Designations in component locations according tostandard IEC 81346-1 and 81346-2. Designationswithin brackets according to the supplier's standard.
F2040-8
LEK
AA23
AA23-F3
AA23-X4
AA23-X1
AA23-S3
AA23-X100
LEK
PWB2PWB1
PWB3
TB
NIBE™ F2040Chapter 3 | The heat pump design16
F2040-12
Främre el
Bakre el
LEK
LEK
EB11
PWB3 PWB1
EB10
AA23
FM01TB
F
AA23-F3
AA23-X4
AA23-X1
DH
CH
GQ1
AA23-S3
AA23-X100
Främre el
Bakre el
LEK
LEK
PWB2
Capacitor
Reactor
AF moduleDiode module
17Chapter 3 | The heat pump designNIBE™ F2040
F2040-16
Främre el
Bakre el
LEK
LEK
PWB3 PWB1
EB10
FM01
AA23-X4
DH
CH
GQ1
TB
AA23-X1 AA23-F3
EB11
F
AA23 AA23-S3
FM02GQ2
AA23-X100
Främre el
Bakre elLEK
LEK
PWB2
PWB2
Capacitor
Reactor
AF moduleDiode module
NIBE™ F2040Chapter 3 | The heat pump design18
GeneralPipe installationmust be carriedout in accordancewithcurrent norms and directives.
F2040 can only operate up to a return temperature ofabout 55 °C and an outgoing temperature of about58 °C from the heat pump.
F2040 is not equippedwith external shut off valves onthewater side; thesemust be installed to facilitate anyfuture servicing. The return temperature is limited bythe return line sensor.
Water volumesWhen docking with F2040 free flow in the climatesystem is recommended for correct heat transfer. Thiscan be achieved by use of a bypass valve. If free flowcannot be ensured, it is recommended that a buffertank (NIBE UKV) is installed.
Following water volumes are recommended
-16-12-8F2040
150 l80 l50 lMinimum volume, climate sys-tem during heating/cooling
150 l100 l80 lMinimum volume, climate sys-tem during under floor cooling
NOTE
Thepipeworkmust be flushedbefore theheatpump is connected, so that any contaminantsdo not damage the components.
Pipe couplingheatingmediumcircuit F2040 can be connected directly to the heating sys-tem see the section "Docking" or according to oneof the systemsolutions that canbedownloaded fromthe website www.nibe.eu.
Theheat pumpmust be ventedby theupper connec-tion (QM20)using the ventingnippleon theenclosedflexible hose.
Install the supplied particle filter (HQ1) before theinlet, i.e. the connection (XL2, HM-in) on F2040.
All outdoor pipes must be thermally insulated withat least 19mm thick pipe insulation.
Install shutoff valves (QM31 and QM32) and drainvalves (QM1) so that F2040 can be emptied in theevent of prolonged power failures. Shutoff - (QM31and QM32) and drain valve (QM31) are not part ofthe delivery
F2040-8/F2040-12
F2040-16
F2040
Tryckfall (kPa)
Flöde l/s
0
5
10
15
20
25
30
0,0 0,1 0,2 0,3 0,4 0,5 0,6 0,7 0,8
Flow l/s
Pressure drop (kPa) 8 kW, 12 kW
16 kW
-EB101
-FL10
XL1
XL2
-RN10 -QM40
-HQ1 -QM41
-QM1
Heat pumpEB101Safety valveFL10Particle filterHQ1Trim valveRN10Tapping valveQM1Shut-off valveQM40Shut-off valveQM41
19Chapter 4 | Pipe connectionsNIBE™ F2040
4 Pipe connections
F2040-8
LEK
Heat insulation
F2040-12
LE
K
DATA
LEK
Heat insulation
F2040-16
LEK
DATA
NIBE™ F2040Chapter 4 | Pipe connections20
LEK
Heat insulation
Docking alternativesF2040 can be installed in several different ways. Therequisite safety equipmentmust be installed in accord-ance with current regulations for all docked options.
See www.nibe.eu for more docking options.
Connecting accessoriesInstructions for connectingaccessories are in the install-ation instructions provided for the respective accessory.See page 42 for the list of the accessories that can beused with F2040.
21Chapter 4 | Pipe connectionsNIBE™ F2040
General A heat pump must not be connected without thepermission of the electricity supplier and must beconnected under the supervision of a qualified elec-trician.
If a miniature circuit breaker is used this should havemotor characteristic "C" (compressor operation). ForMCB size see "Technical Specifications".
F2040 does not include a circuit breaker on the in-coming power supply. The heat pump’s supply cable(W1) must be connected to a circuit-breaker with atleast a 3 mm breaking gap. When the building isequippedwith an earth-fault breaker the heat pumpshould be equipped with a separate one. Incomingsupply must be 230 V 50Hz via distribution boardswith fuses.
If an insulation test is to be carriedout in thebuilding,disconnect the heat pump.
Communication cable (W2) is inserted from the rearside through UB2.
Connect communication cable (W2) from terminalblock (AA23-X4) to the indoor section.
NOTE
Electrical installation and service must be car-ried out under the supervision of a qualifiedelectrician. Electrical installation and wiringmust be carried out in accordance with thestipulations in force.
NOTE
The external control must be taken into con-sideration when connecting.
NOTE
If the supply cable is damaged, only NIBE, itsservice representative or similar authorisedperson may replace it to prevent any dangerand damage.
F2040-8
LEK
AA23
AA23-F3
AA23-X4
AA23-X1
AA23-S3
AA23-X100
LEK
PWB2PWB1
PWB3
TB
NIBE™ F2040Chapter 5 | Electrical connections22
5 Electrical connections
F2040-12
Främre el
Bakre el
LEK
LEK
DH
PWB3
CH
AA23
FM01TBF AA23-F3AA23-X1
PWB1
AA23-X4
AA23-S3
Främre el
Bakre el
LEK
LEK
PWB2
F2040-16Främre el
Bakre el
LEK
LEK
DH
PWB3
CH
AA23
FM01
TBF
AA23-F3AA23-X1
PWB1
AA23-X4
AA23-S3
Främre el
Bakre el
LEK
LEK
PWB2
23Chapter 5 | Electrical connectionsNIBE™ F2040
Connections NOTE
To prevent interference, unscreened commu-nicationand/or sensor to external connectionscables must not be laid closer than 20 cm tohigh voltage cables when cable routing.
Power connection
F2040-8
LEK
DATA
LEK
Incoming supply
Power connection
W1
XL2
UB1
UB2
W1
XL1
UB3
NIBE™ F2040Chapter 5 | Electrical connections24
F2040-12
LEK
DATA
LEK
Incoming supply
W1
W1
UB2
UB1
XL1
XL2
UB3
Power connection
25Chapter 5 | Electrical connectionsNIBE™ F2040
F2040-16
LEK
DATA
LEK
Incoming supply
Power connection
W1
XL2
UB1
UB2
XL1
UB3
W1
Incoming supply cable (W1) is supplied and factoryconnected to terminal block X1. Approx. 1.8 m cableis accessible outside the heat pump.
Connect communication cable (W2) (provided by in-staller) to terminal blockAA23-X4 and securewith twocable ties, see image.
For connection of accessory KVR 10, heating cable(EB14) is connected via cable grommetUB3, see Extern-al heating cable KVR 10 (Accessory) on page 28.
List of componentsCable grommet, cascade connectionUB1Cable grommet, communicationUB2Cable grommet, heating cable (EB14)UB3Cable, incoming supplyW1
NIBE™ F2040Chapter 5 | Electrical connections26
F2040-8
LEK
Cables for communication (W2)are routed through ferritebeads/EMI filters.
LEK
F2040-12
LEK
Secure the communicationcable (W2) here using twocable ties.
Främre el
Bakre el
LEK
LEK
F2040-16
LEK
Främre el
Bakre el
LEK
LEK
Secure the communicationcable (W2) here using twocable ties.
27Chapter 5 | Electrical connectionsNIBE™ F2040
External heating cable KVR 10 (Accessory)F2040 is equipped with a plinth for external heatingcable EB14 not supplied). The connection is fusedwith250 mA (F3 on the communication board AA23). Ifanother cable is to be used, the fuse must be replacedwith a suitable one (see table).
NOTE
Self regulating heating cables must not beconnected.
NIBE Part no.
Fuse
Fuse (F3)Total
power(W)
Length(m)
718085T100mA/250V151518900*T250mA/250V453718086T500mA/250V906
* Fitted at the factory.
Connect external heating cable (EB14) to terminal blockX1:4–6 according to following image:
56
42
31
External F2040
X1
EB14
External heat cable
AA23
F3
NOTE
The pipe must be able to withstand the heatfrom the heating cable.
To ensure this function the accessory KVR 10should be used.
Cable routing
The following images show recommended cable rout-ing fromthedistributionbox to the condensationwaterpipe. Route the heating cable (EB14) through thegrommet underneath and secure with two cable tiesat the electrical connection. Transfer betweenelectricalcable and heating cable must occur after the lead-into the condensation water pipe.
F2040-8
LEK
Heating cable (EB14)
Secure the heatingcable (EB14) hereusing two cable ties.
NIBE™ F2040Chapter 5 | Electrical connections28
F2040-12
LEK
Heating cable (EB14)
Secure the heatingcable (EB14) hereusing two cable ties.
F2040-16
LEK
Heating cable (EB14)
Secure the heating cable(EB14) here using two cableties.
Ambient temperature sensorAn ambient temperature sensor (Tho-A) is located onthe rear of F2040.
CommunicationF2040 can communicate with NIBE indoor modules,by connecting the indoormodule to the terminal blockX4:1–3 according to the following image:
Innemodul
X4
F2040
GNDGND
B-B-
A+15
14
13
A+
GND
B-
A+AA3
1
2
3
4
5
6
ExternalF2040
X4
AA3
For connection of indoormodule, see relevantmanualon www.nibe.eu.
Addressing via cascade connectionThe communication address is selected for F2040 tothe control module on the communication board(AA23-S3). Default has F2040 address 1. In a cascadeconnection all F2040must have a unique address. Theaddress is coded in binary.
S3:3S3:2S3:1Address
OFFOFFOFF1
OFFOFFOn2
OFFOnOFF3
OFFOnOn4
OnOFFOFF5
OnOFFOn6
OnOnOFF7
OnOnOn8
29Chapter 5 | Electrical connectionsNIBE™ F2040
Preparations Before commissioning, check that the charge circuitand climate system are filled and well vented.
Check the pipe system for leaks.
Filling andventing theheatingmedium system1. The heatingmedium system is filled with water to
the required pressure.2. Vent the system using the venting nipple (QM20)
on the enclosed flexible hose and possibly the cir-culation pump.
LEK
QM20
Compressor heaterF2040 is equippedwith a compressor heater that heatsthe compressor before start-up and when the com-pressor is cold.
NOTE
The compressor heater must have been con-nected for 6 – 8 hours before the first start, seethe section “Start-up and inspection” in theinstaller manual for the indoor section
NIBE™ F2040Chapter 6 | Commissioning and adjusting30
6 Commissioning and adjusting
Start-up and inspection1. The compressor heater (CH)must have been oper-
ational for at least 6 - 8 hours before the com-pressor start can be initiated. This is done byswitchingon the control voltageanddisconnectingthe communication cable.
2. F2040 must be addressed if it is to have anotheraddress than1. See chapterAddressing via cascadeconnection, on page 29.
3. The communication cable on the terminal blockAA23-X4 must not be connected.
4. Turn the isolator switch on.5. Ensure that the F2040 is connected to the power
source.6. After 6 – 8 hours the communication cable (W2) is
connected to terminal block AA23-X4.7. Restart the indoormodule. Follow the instructions
for "Start-up and inspection" in the installationmanual for the indoor module.
The heat pump starts 30 minutes after the outdoorunit is powered and the communication cable (W2) isconnected, if necessary.
If scheduledsilent operation is required, it must bescheduled in the inner section or control module.
Caution
Silentmode should only be scheduled period-ically because the maximum output is limitedto approx. the nominal values.
Caution
Do not start any electrical work until at leasttwo minutes after cutting the power.
F2040-8
LEK
AA23
AA23-X4
AA23-S3
31Chapter 6 | Commissioning and adjustingNIBE™ F2040
F2040-12
Främre el
Bakre el
LEK
LEK
AA23
AA23-X4
AA23-S3
F2040-16
Främre el
Bakre el
LEK
LEK
AA23
AA23-X4
AA23-S3
Readjusting, heating mediumsideAir is initially released from the hot water and ventingmay be necessary. If bubbling sounds can be heardfrom the heat pump, the circulation pump and radiat-ors the entire systemwill require further venting.Whenthe system is stable (correct pressure and all air elimin-ated) the automatic heating control system can be setas required.
NIBE™ F2040Chapter 6 | Commissioning and adjusting32
Adjustment, charge flowInstructions for adjusting hotwater charging are in theinstallation manual for the respective indoor section.See page 42 for the list of the indoor sections and ac-cessories that can be used with F2040.
33Chapter 6 | Commissioning and adjustingNIBE™ F2040
Menu 5.11.1.1 – Heat pump EB101These settings are made on the display in the indoormodule.
Cooling permitted
Here you can set whether the cooling function is to beactivated for the heat pump.
Silent mode permitted
Set whether silentmode is to be activated for the heatpump here.
Current limit
Setwhether the current limiting function is to be activ-ated for the heat pump here. During active functionyou can limit the value of the maximum current.
Setting range: 6 – 32 A
Factory setting: 32 A
Stop temperature compressor
Here you can limit the value for set outdoor temperat-ure down to the value the heat pump is to work.
Setting range -20 – -2 °C
Factory setting -20 °C
blockFreq 1
Select a frequency range within which the heat pumpmay work here.
blockFreq 2
Select a frequency range within which the heat pumpmay work here.
NIBE™ F2040Chapter 7 | Control34
7 Control
TroubleshootingNOTE
Work behind covers secured by screws mayonly be carriedout by, or under the supervisionof, a qualified installation engineer.
NOTE
As F2040 can be connected to a large numberof external units, these should alsobe checked.
NOTE
In the event of action to rectify malfunctionsthat require work within screwed hatches theincoming electricitymust isolated at the safetyswitch.
NOTE
The alarm is acknowledged on the indoormodule or by the voltage to the heat pumpbeing interrupted and then restarted.
The following tips can be used to rectify comfort dis-ruption:
Basic actionsStart by checking the following possible fault sources: That the heat pump is running or that the supplycable to F2040 is connected.
Group and main fuses of the accommodation. The property's earth circuit breaker. The heat pump's motor circuit breaker (F).
Low hot water temperature or a lack of hotwaterThis part of the fault-tracing chapter only applies if theheat pump is docked to the hot water heater. Large hot water consumption. Wait until the hot water has heated up.
Incorrect settings in the indoor module. See the manual for the indoor module.
Low room temperature Closed thermostats in several rooms. Set the thermostats to max in as many rooms aspossible.
External switch for changing the roomheating activ-ated. Check any external switches.
Incorrect settings in indoor module. See the manual for the indoor module.
High room temperature External switch for changing the roomheating activ-ated. Check any external switches.
Incorrect settings in indoor module. See the manual for the indoor module.
F2040 not in operationF2040 communicates all alarms to the indoormodule. Ensure that the F2040 is connected to the powersource.
Check the indoormodule. See section "Disturbancesin comfort" in the installationmanual for the indoormodule.
F2040 does not communicate Check that the addressing of F2040 is correct. Check that the communication cable has been con-nected.
35Chapter 8 | Disturbances in comfortNIBE™ F2040
8 Disturbances in comfort
Sensor placement Connection to card (PWB1)
F2040-8
LEK
EB11EB10 GQ1
PWB1
BP1 QN2 QN3 QN1 BP2SM1 SM2 LPTFM01DH20SCH63H1
F2040-12 /F2040-16
BP1
Tho-R2 BT16 BT14 BT17 BT28
63H1
Tho-R1 Tho-D Tho-S Tho-A LPTBP2
DHEB11
20SQN2
CHEB10
FM01GQ1
CTBE1
SM2QN1
SM1QN3
Sensors etc.Current sensorBE1 (CT)High pressure pressostatBP1 (63H1)Low pressure transmitterBP2 (LPT)Pressure sensor, condenserBP4Temperature sensor, heating mediumreturn line
BT3
Temperature sensor, condenser supplyline
BT12
Temperature sensor, hot gasBT14 (Tho-D)Temperature sensor, fluid pipeBT15Temperature sensor, heat exchanger, 1BT16 (Tho-R1)Temperature sensor, suction gasBT17 (Tho-S)Temperature sensor, ambientBT28 (Tho-A)Compressor heaterEB10 (CH)Drip tray heaterEB11 (DH)CondenserEP2FanGQ1 (FM01)CompressorGQ10 (CM)Drying filterHS1Expansion valve, heatingQN1 (SM2)4-way valveQN2 (20S)Expansion valve, coolingQN3 (SM1)Temperature sensor, heat exchanger, 2Tho-R2
NIBE™ F2040Chapter 8 | Disturbances in comfort36
Connection to card (AA23)
BP4 BT15 BT12 BT3
AA23-S3
Sensor placement in F2040
Defrost/Cooling
Defrost/Cooling
kW
kW
kW
Defrost/Cooling
Defrost/Cooling
kW
kW
kW
37Chapter 8 | Disturbances in comfortNIBE™ F2040
Data for temperature sensor in F2040
Tho-D
0
20
40
60
80
100
120
140
160
180
200
0 20 40 60 80 100 120 140 160 (ºC)
(kΩ)
Tho-S, Tho-R1, Tho-R2
5
10
15
0 20 40 60 80 100 (ºC)
(kΩ)
Tho-A
0
5
10
15
20
25
30
35
0 10 20 30 40 50 (ºC)
(kΩ)
Data for return line temperature sensor (BT3),condensor supply (BT12) and fluid pipe (BT15)
Voltage (VDC)Resistance(kOhm)
Temperature(°C)
3.256351.0-403.240251.6-353.218182.5-303.189133.8-253.15099.22-203.10574.32-153.04756.20-102.97642.89-52.88933.0202.78925.6152.67320.02102.54115.77152.39912.51202.24510.00252.0838.045301.9166.514351.7525.306401.5874.348451.4263.583501.2782.968551.1362.467601.0072.068650.8911.739700.7851.469750.6911.246800.6071.061850.5330.908900.4690.779950.4140.672100
NIBE™ F2040Chapter 8 | Disturbances in comfort38
May be due toDescriptionAlarm text on the dis-play
Alarm
Open circuit or short circuit on sensorinput
Sensor does not work (see section"Disturbances in comfort")
Defective control boardAA23 in F2040
Sensor fault, Sensor incoming water inF2040 (BT3).
Sensor fault BT33
Open circuit or short circuit on sensorinput
Sensor does not work (see section"Disturbances in comfort")
Defective control boardAA23 in F2040
Sensor fault, Sensor outgoing water inF2040 (BT12).
Sensor fault BT1212
Open circuit or short circuit on sensorinput
Sensor does not work (see section"Disturbances in comfort")
Defective control boardAA23 in F2040
Sensor fault, Sensor fluid pipe in F2040(BT15).
Sensor fault BT1515
Low flow during heating operation Too high set temperatures
Too high temperature out from the con-denser. Self-resetting.
High condenser out162
Temperature generated by anotherheat source
Too high temperature into the condens-er. Self-resetting.
High condenser in163
Set when the heat pump runs the de-frosting procedure
Not an alarm, but an operating status.Defrosting in progress183
Insufficient air circulation or blockedheat exchanger
Open circuit or short circuit on inputfor high pressure switch (63H1)
Defective high pressure switch Expansion valve not correctly connec-ted
Service valve closed Defective control board in F2040 Low or no flow during heating opera-tion
Defective circulation pump Defective fuse, F(4A)
The high pressure switch (63H1) de-ployed 5 times within 60 minutes or for60 minutes continuously.
HP alarm220
Open circuit or short circuit on inputfor low pressure sensor
Defective low pressure sensor Defective control board in AMS 10 Open circuit or short circuit on inputfor suction gas sensor (Tho-S)
Defective suction gas sensor (Tho-S)
Too lowvalue on the lowpressure sensor3 times within 60 minutes.
LP alarm221
Any circuit breakers for AMS 10 off Incorrect cable routing
Communication between the controlboard and the communication board isinterrupted. Theremust be 22 volt directcurrent (DC) at the switch CNW2 on thecontrol board (PWB1).
OU Com. error223
39Chapter 9 | Alarm listNIBE™ F2040
9 Alarm list
May be due toDescriptionAlarm text on the dis-play
Alarm
The fan cannot rotate freely Defective control board in F2040 Defective fan motor Control board in F2040 dirty Fuse (F2) blown
Deviations in the fan speed in F2040.Fan alarm224
Sensor does not work (see section"Ambient temperature sensor")
Insufficient air circulation or heat ex-changer
Blocked If the fault persists during cooling,there may be an insufficient amountof refrigerant.
Defective control board in F2040
Temperature deviation on the hot gassensor (Tho-D) twice within 60 minutesor for 60 minutes continuously.
Continuously high hotgas
230
F2040 not powered Fault in the communication cable.
Communication fault with accessoryboard
Communication error254
Sensor does not work (see section"Disturbances in comfort")
Insufficient air circulation or blockedheat exchanger
Defective control board in F2040 Too much refrigerant
Temperature deviation on the heat ex-changer sensor (Tho-R1/R2) five timeswithin 60 minutes or for 60 minutescontinuously.
High temperature inheatexchanger
261
Can occur when 15V power supply tothe inverter PCB is unstable.
When IPM (Intelligent power module)displays FO-signal (Fault Output) fivetimes during a 60-minute period.
Power transistor too hot262
Incoming power supply interference Service valve closed Insufficient amount of refrigerant Compressor fault Defective circuit board for inverter inF2040
Voltage from the inverter outside theparameters four timeswithin 30minutes.
Inverter error263
Open circuit in connection betweenboards
Defective circuit board for inverter inF2040
Defective control board in F2040
Communication between circuit boardfor inverter and control board broken.
Inverter error264
Defective fan motor Defective circuit board for inverter inAMS 10
Continuousdeviationonpower transistorfor 15 minutes.
Inverter error265
Service valve closed Loose connection sensor (BT15, BT3) Defective sensor (BT15, BT3) Too little refrigerant
Insufficient refrigerant is detected uponstart-up in cooling mode.
Insufficient refrigerant266
Defective circuit board for inverter inF2040
Defective control board in F2040 Compressor fault
Failed start for compressorInverter error267
NIBE™ F2040Chapter 9 | Alarm list40
May be due toDescriptionAlarm text on the dis-play
Alarm
Sudden power failureOvercurrent, Inverter A/F moduleInverter error268
Cold weather conditions Sensor fault
Temperature of BT28 below the valuethat permits operation
Cold outdoor air271
Warm weather conditions Sensor fault
Temperature of BT28 above the valuethat permits operation
Hot outdoor air272
Open circuit or short circuit on sensorinput
Sensor does not work (see section"Disturbances in comfort")
Defective control board in F2040
Sensor fault, heat exchanger inF2040(Tho-R).
Sensor fault Tho-R277
Open circuit or short circuit on sensorinput
Sensor does not work (see section"Disturbances in comfort")
Defective control board in F2040
Sensor fault, outdoor temperature sensorin F2040 (Tho-A).
Sensor fault Tho-A278
Open circuit or short circuit on sensorinput
Sensor does not work (see section"Disturbances in comfort")
Defective control board in F2040
Sensor fault, hot gas in F2040 (Tho-D).Sensor fault Tho-D279
Open circuit or short circuit on sensorinput
Sensor does not work (see section"Disturbances in comfort")
Defective control board in F2040
Sensor fault, suction gas in F2040 (Tho-S).
Sensor fault Tho-S280
Open circuit or short circuit on sensorinput
Sensor does not work (see section"Disturbances in comfort")
Defective control board in F2040 Fault in the refrigerant circuit
Sensor fault, low pressure transmitter inF2040.
Sensor fault LPT281
Outdoor module and indoor moduleare not compatible.
Heat pump and indoor module do notwork properly together due to technicalparameters.
Non-compatibleoutdoorair heat pump
294
Open circuit or short circuit on sensor in-put
Sensor fault, Sensor high pressure heat-ing/low pressure cooling in F2040 (BP4).
Sensor fault BP4404
Sensor does not work (see section "Dis-turbances in comfort")
Defective control board AA23 in F2040
41Chapter 9 | Alarm listNIBE™ F2040
Condensation water pipeCondensation water pipe, different lengths.
Earth circuit breaker 1-phase.
KVR 10-10 F2040
1 metres
Part no. 067 233
KVR 10-30 F2040
2.5 metres
Part no. 067 235
KVR 10-60 F2040
5 metres
Part no. 067 237
Ground stand
Ground stand F2040-8
Part no. 015 295
Ground stand F2040-12 /-16
Part no. 015 268
Indoor module
VVM 310
Part no. 069 430VVM 310
With integrated EMK 310
Part no. 069 084
VVM320
Copper, 3 x 400 V
Part no. 069 108Stainless Steel, 3 x 400 V
Part no. 069 109Enamel, 3 x 400 V
With integrated EMK 300
Part no. 069 110Stainless Steel, 3 x 230 V
Part no. 069 113Stainless Steel, 1 x 230 V
Part no. 069 111Stainless Steel, 1 x 230 V
With T&P valve
Part no. 069 112
VVM 500
Part no. 069 400
SMO 20
Control module
Part no. 067 224
SMO 40
Control module
Part no. 067 225
Wall mounting
Wall mounting F2040-8
Part no. 067 210
Wall mounting F2040-12
Part no. 067 210
Water heater/Accumulator tank
VPA 300/200
Water heater with double-jacketed vessel.Part no. 088 710CopperPart no. 088 700Enamel
VPA 450/300
Water heater with double-jacketed vessel.Part no. 088 660CopperPart no. 088 670Enamel
VPB 200
Water heater with charge coil.Part no. 088 515CopperPart no. 088 517EnamelPart no. 088 518Stainless
steel
VPB 300
Hot water heater with charge coilPart no. 083 009CopperPart no. 083 011EnamelPart no. 083 010Stainless
steel
VPB 500
Copper lined water heater with charge coil
Part no. 083 220
VPB 750-2
Copper lined water heater with charge coil
Part no. 083 231
VPB 1000
Copper lined water heater with charge coil
Part no. 083 240
NIBE™ F2040Chapter 10 | Accessories42
10 Accessories
VPAS 300/450
Water heater with double-jacketed vessel and solarcoil.
Part no. 087 720CopperPart no. 087 710Enamel
43Chapter 10 | AccessoriesNIBE™ F2040
Dimensions and setting-out coordinatesF2040-8
50
Ställb
ar 4
0-5
0 8
55
400
670
100
365
225
422 965
1035
95
15
90
Ø40*
F2040
Adjustable 40-50
* Accessory KVR 10 is required.
F2040-12
50
255
Ställb
ar 4
0-5
0 9
55
243
512
110
395
265
50
452 1075
1145
108
Ø40*
14
85
150 m
m
Fritt utrymme bakom
Min. avstånd
vid användning
av flera F2040
600 mm
3000 m
m
400 mm 600mm
Minimalt
fritt utrymme
Minimalt
fritt utrymme
Fritt utrymme
framför
Adjustable 40-50
* Accessory KVR 10 is required.
NIBE™ F2040Chapter 11 | Technical data44
11 Technical data
F2040-16
50
180
Ställb
ar 4
0-5
0 1
410
243
512
110
395
265
80
452 1075
1145
108
Ø40*
14
85
Adjustable 40-50
* Accessory KVR 10 is required.
50
255
Ställb
ar 4
0-5
0 9
55
243
512
110
395
265
50
452 1075
1145
108
Ø40*
14
85
150 m
m
Fritt utrymme bakom
Min. avstånd
vid användning
av flera F2040
600 mm
3000 m
m
400 mm 600mm
Minimalt
fritt utrymme
Minimalt
fritt utrymme
Fritt utrymme
framför
Free space behind
Free space infront
Minimum freespace
Minimum freespace
Min. distance when usingseveral F2040
45Chapter 11 | Technical dataNIBE™ F2040
Sound pressure levelsF2040 is usually placed next to a house wall, whichgives a directed sound distribution that should beconsidered. Accordingly, you should always attemptwhenpositioning to choose the side that faces the leastsound sensitive neighbouring area.
The soundpressure levels are further affectedbywalls,bricks, differences in ground level, etc and shouldtherefore only be seen as guide values.
F2040adjusts the fan speeddependingon theambienttemperature and evaporation temperature.
2 m
6 m
10 m
2 m
LEK
F2040-16F2040-12F2040-8Air-water heat pump
615754LW(A)Sound power level* According to EN12102 at 7/45 (nominal)
474340dB(A)Sound pressure level at 2 m free standing.*
37.533.530.5dB(A)Sound pressure level at 6 m free standing.*
332926dB(A)Sound pressure level at 10 m free standing.*
* Free space.
NIBE™ F2040Chapter 11 | Technical data46
Technical specificationsF2040-16F2040-12F2040-8Air-water heat pump
NominalNominalNominalOutd. temp: /Supply temp.
Heating
7.03/1.45/4.855.21/1.09/4.783.86/0.83/4.657/35 °C (floor)Output data according to EN14511 ΔT5K9.33/2.38/3.926.91/1.79/3.865.11/1.36/3.762/35 °C (floor)
Specified/supplied power/COP (kW/kW/-)12.12/4.33/2.808.98/3.26/2.756.64/2.48/2.68-7/35 °C (floor)8.67/3.62/2.406.42/2.72/2.364.75/2.07/2.292/55 °C6.75/1.74/3.885.00/1.31/3.823.70/1.00/3.707/45 °C9.18/2.98/3.086.80/2.24/3.045.03/1.70/2.962/45 °C12.01/5.36/2.248.90/4.03/2.216.58/3.06/2.15-7/45 °C9.36/5.31/1.766.94/3.99/1.745.13/3.03/1.69-15/45 °C6.38/2.04/3.134.73/1.54/3.073.50/1.17/2.997/55 °C9.66/4.69/2.067.15/3.53/2.035.29/2.68/1.97-7/55 °C
MaxMaxMaxOutd. temp: /Supply temp.
Cooling
13.30/3.99/3.339.87/3.16/3.137.52/2.37/3.1727/7 °COutput data according to EN14511 ΔT5K17.70/4.52/3.9111.70/3.32/3.5211.20/3.20/3.5027/18 °C
Specified/supplied power/EER13.04/4.53/2.889.45/3.41/2.777.10/2.65/2.6835/7 °C15.70/5.04/3.1211.20/3.58/3.129.19/2.98/3.0835/18 °C
Electrical data230V 50 Hz, 230V 2AC 50HzRated voltage
252316ArmsMax operating current, heat pump
242215ArmsMax operating current, compressor
555ArmsStarting current
2 x 868686WNominal output, fan252516ArmsFuse1)
Refrigerant circuitR410AType of refrigerant
Twin RotaryType of compressorM-MA68Compressor oil
4.02.92.55kgVolume4.15 (41.5 bar)MPaCut-out value pressostat HP0.079 (0.79 bar)MPaCut-out value pressostat LP
Brine600043803000m3/hAirflow
-20/43°CMax/Min air tempreverse cycleDefrosting system
Heating medium0.05/0.25 (0.5/2.5bar)MPaMin/Max system pressure heating medium
1508050lMin volume, climate system, heating/cooling15010080lMin volume, climate system, under floor cooling0.790.570.38l/sMax flow, climate system0.390.290.19l/sMin flow, climate system, at 100% circulation
pump speed (defrosting flow)0.250.150.12l/sMin flow, heating
47Chapter 11 | Technical dataNIBE™ F2040
F2040-16F2040-12F2040-8Air-water heat pump
0.320.200.15l/sMin flow, cooling58/25°CMax/Min heating medium temp continuous
operationG1"Connection heating medium ext thread
Dimensions and weight114511451035mmWidth452452422mmDepth
1450 (+50/-0)995 (+50/-0)895 (+50/-0)mmHeight with stand13510590kgWeight (excl. packaging)
MiscellaneousIP 24Enclosure class
dark greyColour064 108064 092064 109Part No.
1)Specified output is limited with lower fusing.
NIBE™ F2040Chapter 11 | Technical data48
Working range, compressor operation - heating
F2040-8 , -12 , -16
65
58
55
40
60
50
45
35
25
30
20
154340302520100-10-20-30 50
Utomhustemperatur (°C)
35
30
15
25
20
12
7
10
5
04540 43353025201510 50
Vattentemperatur
(°C)
Vattentemperatur
(°C)
Utomhustemperatur (°C)
Water temperature
°C
°C
Outdoor air temperature
Framledning
Returledning
Framledning
Returledning
Supply temperatureReturn temp
During shorter time it is allowed to have lower working temperatures on the water side, e.g. during start up.
Working range, compressor operation - cooling
F2040-8 , -12 , -16
65
58
55
40
60
50
45
35
25
30
20
154340302520100-10-20-30 50
Utomhustemperatur (°C)
35
30
15
25
20
12
7
10
5
04540 43353025201510 50
Vattentemperatur
(°C)
Vattentemperatur
(°C)
Utomhustemperatur (°C)
Water temperature
°C
°C
Outdoor air temperature
Framledning
Returledning
Framledning
Returledning
Supply temperatureReturn temp
49Chapter 11 | Technical dataNIBE™ F2040
Output and COP at different supply temperatures
F2040-8
0,00
2,00
4,00
6,00
8,00
10,00
12,00
(kW
)
T out
Max avgiven e!ekt F2040-8
35
45
55
0,00
1,00
2,00
3,00
4,00
5,00
CO
P
COP F2040-8
35
45
55
15105-5-10-15-20-25 0
T out
15105-5-10-15-20-25 0
COP F2040-8
Max specified output F2040-8
Outdoor temperature
Outdoor temperature
kW
COP
NIBE™ F2040Chapter 11 | Technical data50
F2040-12
0,00
2,00
4,00
6,00
8,00
10,00
12,00
14,00
16,00
(kW
)
Max avgiven eekt F2040-12
35
45
55
0,00
1,00
2,00
3,00
4,00
5,00
6,00
CO
P
COP F2040-12
35
45
55
T out
15105-5-10-15-20-25 0
T out
15105-5-10-15-20-25 0
Outdoor temperature
Outdoor temperature
Max specified output F2040-12
COP F2040-12
kW
COP
51Chapter 11 | Technical dataNIBE™ F2040
F2040-16
0,00
5,00
10,00
15,00
20,00
25,00
(kW
)
Max avgiven e!ekt F2040-16
35
45
55
0,00
1,00
2,00
3,00
4,00
5,00
6,00
CO
P
COP F2040-16
35
45
55
T out
15105-5-10-15-20-25 0
T out
15105-5-10-15-20-25 0
Outdoor temperature
Outdoor temperature
Max specified output F2040-16
COP F2040-16
kW
COP
NIBE™ F2040Chapter 11 | Technical data52
Output with lower fuse rating than recommended
F2040-12 /16
Avgiven eekt F2040-12 vid avsäkring 16A
Avgiven eekt F2040-12 vid avsäkring 20A
Avgiven eekt F2040-16 vid avsäkring 20A
0,00
8,00
6,00
4,00
2,00
10,00
12,00
14,00
16,00
(kW
)
35
45
55
35
45
55
35
45
55
T ute
15105-5-10-15-20-25 0
T ute
15105-5-10-15-20-25 0
T ute
15105-5-10-15-20-25 0
(kW
)
0,00
8,00
6,00
4,00
2,00
10,00
12,00
14,00
16,00
0,00
5,00
10,00
15,00
20,00
25,00
(kW
)
fusing 16A
fusing 20A
fusing 20A
Specified output F2040-12
Specified output F2040-12
Specified output F2040-16
Outdoor temperature
kW
Outdoor temperature
kW
Outdoor temperature
kW
53Chapter 11 | Technical dataNIBE™ F2040
Energy labelling
Information sheet
NIBESupplier
F2040-16F2040-12F2040-8Model
VVM 310VVM 320VVM 320Model hot water heater
35 / 5535 / 5535 / 55°CTemperature application
XLXLXLDeclared load profile for water heating
A++ / A++A++ / A++A++ / A++Seasonal spaceheatingenergyefficiency class, averageclimate
AAAWater heating energy efficiency class, average climate
14.5 / 14.011.5 / 10.08.2 / 7.0kWRated heat output (Pdesignh), average climate6,702 / 8,4315,382 / 6,1363,882 / 4,447kWhAnnual energy consumption space heating, average
climate1,7021,7021,689kWhAnnual energy consumption water heating, average
climate176 / 134174 / 132172 / 127%Seasonal space heating energy efficiency, average cli-
mate989899%Water heating energy efficiency, average climate353535dBSound power level LWA indoors
15.0 / 16.011.5 / 13.09.0 / 10.0kWRated heat output (Pdesignh), cold climate15.0 / 15.012.0 / 12.08.0 / 8.0kWRated heat output (Pdesignh), warm climate
10,040 / 13,6297,798 / 11,1976,264 / 8,844kWhAnnual energy consumption space heating, cold cli-mate
1,9041,9041,886kWhAnnual energy consumption water heating, cold cli-mate
3,370 / 4,1832,759 / 3,4191,879 / 2,333kWhAnnual energy consumption space heating, warm cli-mate
1,5511,5511,540kWhAnnual energy consumption water heating, warmclimate
144 / 113142 / 111139 / 108%Seasonal space heating energy efficiency, cold climate888889%Water heating energy efficiency, cold climate
235 / 189229 / 185225 / 180%Seasonal space heating energy efficiency, warm cli-mate
108108109%Water heating energy efficiency, warm climate615754dBSound power level LWA outdoors
Data for energy efficiency of the package
F2040-16F2040-12F2040-8Model
VVM 310VVM 320VVM 320Model hot water heater
35 / 5535 / 5535 / 55°CTemperature application
VIController, class4.0%Controller, contribution to efficiency
180 / 138178 / 136176 / 131%Seasonal space heating energy efficiency of the pack-age, average climate
A+++ / A++A+++ / A++A+++ / A++Seasonal space heating energy efficiency class of thepackage, average climate
148 / 117146 / 115143 / 112%Seasonal space heating energy efficiency of the pack-age, cold climate
239 / 193233 / 189229 / 184%Seasonal space heating energy efficiency of the pack-age, warm climate
The reported efficiency of the package also takes the controller into account. If an external supplementary boiler or solar heating is addedto the package, the overall efficiency of the package should be recalculated.
NIBE™ F2040Chapter 11 | Technical data54
Technical documentation
F2040-8Model
VVM 320Model hot water heater
Air-water
Exhaust-water
Brine-water
Water-water
Type of heat pump
Yes NoLow-temperature heat pump
Yes NoIntegrated immersion heater for additional heat
Yes NoHeat pump combination heater
Average Cold WarmClimate
Average (55 °C) Low (35 °C)Temperature application
EN14825 / EN16147Applied standards%127ƞsSeasonal space heating energy efficiencykW7.0PratedRated heat output
Declared coefficient of performance for space heating at part load and atoutdoor temperature Tj
Declared capacity for space heating at part load and at outdoor temperatureTj
kW1.94COPdTj = -7 °CkW6.3PdhTj = -7 °CkW3.11COPdTj = +2 °CkW3.9PdhTj = +2 °CkW4.42COPdTj = +7 °CkW2.6PdhTj = +7 °CkW5.93COPdTj = +12 °CkW3.7PdhTj = +12 °CkW1.83COPdTj = bivkW6.6PdhTj = bivkW1.86COPdTj = TOLkW5.9PdhTj = TOLkWCOPdTj = -15 °C (if TOL < -20 °C)kWPdhTj = -15 °C (if TOL < -20 °C)
°C-10TOLMin. outdoor air temperature°C-8.6TbivBivalent temperature
-COPcycCycling interval efficiencykWPcychCycling interval capacity°C58.0WTOLMax supply temperature-0.97CdhDegradation coefficient
Additional heatPower consumption in modes other than active mode
kW1.1PsupRated heat outputkW0.002POFFOff mode
kW0.010PTOThermostat-off mode
ElectricType of energy inputkW0.015PSBStandby mode
kW0.030PCKCrankcase heater mode
Other items
m3/h3,000Rated airflow (air-water)VariableCapacity control
m3/h0.60Nominal heating medium flowdB35 / 54LWASound power level, indoors/outdoors
m3/hBrine flow brine-water or water-water heatpumps
kWh4,447QHEAnnual energy consumption
For heat pump combination heater
%99ƞwhWater heating energy efficiencyXLDeclared load profile for water heating
kWhQfuelDaily fuel consumptionkWh7.69QelecDaily energy consumption
GJAFCAnnual fuel consumptionkWh1,689AECAnnual energy consumption
55Chapter 11 | Technical dataNIBE™ F2040
F2040-12Model
VVM 320Model hot water heater
Air-water
Exhaust-water
Brine-water
Water-water
Type of heat pump
Yes NoLow-temperature heat pump
Yes NoIntegrated immersion heater for additional heat
Yes NoHeat pump combination heater
Average Cold WarmClimate
Average (55 °C) Low (35 °C)Temperature application
EN14825 / EN16147Applied standards%132ƞsSeasonal space heating energy efficiencykW10.0PratedRated heat output
Declared coefficient of performance for space heating at part load and atoutdoor temperature Tj
Declared capacity for space heating at part load and at outdoor temperatureTj
kW1.99COPdTj = -7 °CkW8.9PdhTj = -7 °CkW3.22COPdTj = +2 °CkW5.5PdhTj = +2 °CkW4.61COPdTj = +7 °CkW3.5PdhTj = +7 °CkW6.25COPdTj = +12 °CkW5.0PdhTj = +12 °CkW1.90COPdTj = bivkW9.2PdhTj = bivkW1.92COPdTj = TOLkW8.1PdhTj = TOLkWCOPdTj = -15 °C (if TOL < -20 °C)kWPdhTj = -15 °C (if TOL < -20 °C)
°C-10TOLMin. outdoor air temperature°C-7.9TbivBivalent temperature
-COPcycCycling interval efficiencykWPcychCycling interval capacity°C58.0WTOLMax supply temperature-0.98CdhDegradation coefficient
Additional heatPower consumption in modes other than active mode
kW1.9PsupRated heat outputkW0.002POFFOff mode
kW0.014PTOThermostat-off mode
ElectricType of energy inputkW0.015PSBStandby mode
kW0.035PCKCrankcase heater mode
Other items
m3/h4,380Rated airflow (air-water)VariableCapacity control
m3/h0.86Nominal heating medium flowdB35 / 57LWASound power level, indoors/outdoors
m3/hBrine flow brine-water or water-water heatpumps
kWh6,136QHEAnnual energy consumption
For heat pump combination heater
%98ƞwhWater heating energy efficiencyXLDeclared load profile for water heating
kWhQfuelDaily fuel consumptionkWh7.75QelecDaily energy consumption
GJAFCAnnual fuel consumptionkWh1,702AECAnnual energy consumption
NIBE™ F2040Chapter 11 | Technical data56
F2040-16Model
VVM 310Model hot water heater
Air-water
Exhaust-water
Brine-water
Water-water
Type of heat pump
Yes NoLow-temperature heat pump
Yes NoIntegrated immersion heater for additional heat
Yes NoHeat pump combination heater
Average Cold WarmClimate
Average (55 °C) Low (35 °C)Temperature application
EN14825 / EN16147Applied standards%134ƞsSeasonal space heating energy efficiencykW14.0PratedRated heat output
Declared coefficient of performance for space heating at part load and atoutdoor temperature Tj
Declared capacity for space heating at part load and at outdoor temperatureTj
kW2.01COPdTj = -7 °CkW12.5PdhTj = -7 °CkW3.29COPdTj = +2 °CkW7.6PdhTj = +2 °CkW4.68COPdTj = +7 °CkW4.9PdhTj = +7 °CkW6.51COPdTj = +12 °CkW6.8PdhTj = +12 °CkW1.95COPdTj = bivkW12.7PdhTj = bivkW1.95COPdTj = TOLkW11.0PdhTj = TOLkWCOPdTj = -15 °C (if TOL < -20 °C)kWPdhTj = -15 °C (if TOL < -20 °C)
°C-10TOLMin. outdoor air temperature°C-7.6TbivBivalent temperature
-COPcycCycling interval efficiencykWPcychCycling interval capacity°C58.0WTOLMax supply temperature-0.98CdhDegradation coefficient
Additional heatPower consumption in modes other than active mode
kW3.0PsupRated heat outputkW0.002POFFOff mode
kW0.016PTOThermostat-off mode
ElectricType of energy inputkW0.015PSBStandby mode
kW0.035PCKCrankcase heater mode
Other items
m3/h6,000Rated airflow (air-water)VariableCapacity control
m3/h1.21Nominal heating medium flowdB35 / 61LWASound power level, indoors/outdoors
m3/hBrine flow brine-water or water-water heatpumps
kWh8,431QHEAnnual energy consumption
For heat pump combination heater
%98ƞwhWater heating energy efficiencyXLDeclared load profile for water heating
kWhQfuelDaily fuel consumptionkWh7.75QelecDaily energy consumption
GJAFCAnnual fuel consumptionkWh1,702AECAnnual energy consumption
57Chapter 11 | Technical dataNIBE™ F2040
Electrical circuit diagramF2040-8
NIBE™ F2040Chapter 11 | Technical data58
INV
PW
B2
OR
GR
1
F
P
BK
BK
(4A
)2 3
Th
oP
BP1
63
H1
BT1
4
Th
oD
BT1
6
Th
oR
1
BT1
7
Th
oS
BT2
8
Th
oA
BP2
LPT
20
S
QN
2EB
10
CH
EB
11
DH
2 11 2 3 4 5 6
AA
23
- X
1
AA
23
- X
10
0
Ma
tnin
g 2
30
V 5
0 H
z
59Chapter 11 | Technical dataNIBE™ F2040
F2040-12
NIBE™ F2040Chapter 11 | Technical data60
L1R
DF
(30
A)
F (8
A)
WH R
D WH
21
RD
WH
RD
BL
RD
WH
BL
RD
WH
L1o
No
TB
TB N
P1
N1
RD
RD
WH
BL
BL
BK
RD
BL
P2
N2
UV
W
UV
W
PN
2
DM
NOISE
FILT
ER P
WB3
PW
B2
IN
VER
TER
12
34
SW
3LE
D1
SW
1LE
D2
BL
CT
CN
W(B
K)
CN
W2
(OR
)C
NEEV
1(W
H)
6
CN
I2(W
H)
CN
I4(W
H)
CN
I1(W
H)
CN
I3(W
H)
CN
A2
(WH
)
CN
AC
T1
(WH
)
IPM
CN
A1
(WH
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BL
RD BL
RD BL
PW
B1
BL
4
OR
3
Y
2
WH
1
RD
CN
EEV
2(R
D)
CN
PS
(RD
)C
NB
(RD
)
6
BL
4
OR
3
Y
2
WH
1
WHRD
BK
CN
IP(Y
)
Th
oPBK
BK
OR CN
FAN
1(W
H)BL
7
BR
6
WH
54
RD 1
CN
H(B
R)
BP1
63
H1
Tw
o f
an
un
it o
nly
Tw
o f
an
un
it o
nly
BK
BK
CN
S(R
D)
CN
R(W
H)
CN
F(B
K)
BL
BL
EB
10
CH
BR
BR
BT1
4Th
oDBK
BK
BT1
6Th
oR
1BK
BK
CN
TH
(WH
) BT1
7Th
oSRD
RD
BT2
8Th
oAY
Y
52X
152X
3
EB
11
DH
BK
BK
++
−
+−
A/F
MO
DU
LEP N2
L1
L
L2
1 2 3
SM
1SM
2
MS
3~
MM
CM
FM0
1
20
SQ
N2
CN
N1
(Y)
BL
BL
SV
1B
P2
LPT
°t
°t°t
°t°t
°t
Th
oR
2
BK
BK
OR CN
FAN
2(W
H)BL
7
BR
6
WH
54
RD 1
M
FM0
2
M
GN
E
GN
E
52X
252X
4
F (4
A)
Tw
o f
an
mo
tor
un
it o
nly
GN
Y/G
N
2 11 2 3 4 5 6
Matn
ing
230V
50 H
z
AA
23
- X
1
AA
23
- X
10
0
61Chapter 11 | Technical dataNIBE™ F2040
F2040-16
NIBE™ F2040Chapter 11 | Technical data62
L1R
DF
(30
A)
F (8
A)
WH R
D WH
21
RD
WH
RD
BL
RD
WH
BL
RD
WH
L1o
No
TB
TB N
P1
N1
RD
RD
WH
BL
BL
BK
RD
BL
P2
N2
UV
W
UV
W
PN
2
DM
NOISE
FILT
ER P
WB3
PW
B2 IN
VERTER
12
34
SW
3LE
D1
SW
1LE
D2
BL
CT
CN
W(B
K)
CN
W2
(OR
)C
NEEV
1(W
H)
6
CN
I2(W
H)
CN
I4(W
H)
CN
I1(W
H)
CN
I3(W
H)
CN
A2
(WH
)
CN
AC
T1
(WH
)
IPM
CN
A1
(WH
)
BL
RD BL
RD BL
PW
B1
BL
4
OR
3
Y
2
WH
1
RD
CN
EEV
2(R
D)
CN
PS
(RD
)C
NB
(RD
)
6
BL
4
OR
3
Y
2
WH
1
WHRD
BK
CN
IP(Y
)
Th
oPBK
BK
OR CN
FAN
1(W
H)BL
7
BR
6
WH
54
RD 1
CN
H(B
R)
BP1
63H
1
Tw
o f
an
unit o
nly
BK
BK
CN
S(R
D)
CN
R(W
H)
CN
F(B
K)
BL
BL
EB
10
CH
BR
BR
BT14
Th
oDBK
BK
BT16
Th
oR
1BK
BK
CN
TH
(WH
) BT17
Th
oSRD
RD
BT28
Th
oAY
Y
52X
52X
3
EB
11
DH
BK
BK
++
−
+−
A/F
MO
DU
LEP N2
L1
L
L2
1 2 3
SM
1SM
2
MS
3~
MM
CM
FM01
20
SQ
N2
CN
N1
(Y)
BL
BL
SV
1BP2 L
PT
°t
°t°t
°t°t
°t
Th
oR
2
BK
BK
OR CN
FAN
2(W
H)BL
7
BR
6
WH
54
RD 1
M
FM02
M
GN
E
GN
E
52X
252X
4
F (4
A)
GN
Y/G
N
Matn
ing
23
0V
50 H
z
2 11 2 3 4 5 6
AA
23 -
X1
AA
23 -
X100
63Chapter 11 | Technical dataNIBE™ F2040
Item register
AAccessories, 42Addressing via multi-heat pump operation, 29Adjustment, charge flow, 33Alarm list, 39Ambient temperature sensor, 29Assembly, 6
CCommissioning and adjusting, 30
Adjustment, charge flow, 33Compressor heater, 30Filling and venting the heating medium system, 30Preparations, 30Readjusting, heating medium side, 32Start-up and inspection, 31
Communication, 29Compressor heater, 30Connecting accessories, 21Connections, 24Contact information, 5
DDelivery and handling, 6
Assembly, 6Installation area, 8Removing the covers, 9Removing the front panel, 9Removing the side panel, 10Supplied components, 8Transport and storage, 6
Dimensions and setting-out coordinates, 44Disturbances in comfort, 35
Troubleshooting, 35Docking alternatives, 21
EElectrical circuit diagram, 58Electrical connection, 16Electrical connections, 22
Addressing via multi-heat pump operation, 29Ambient temperature sensor, 29Communication, 29Connecting accessories, 21Connections, 24External heating cable (KVR 10), 28General, 22Power connection to rear side (standard) or underneath (al-ternative), 24
Energy labelling, 54Data for energy efficiency of the package, 54Information sheet, 54Technical documentation, 55
External heating cable (KVR 10), 28
FFilling and venting the heating medium system, 30
IImportant information, 2
Safety information, 2Inspection of the installation, 4Installation area, 8
MMarking, 2
PPipe connections, 19
Docking alternatives, 21
General, 19Pipe coupling heating medium circuit, 19Water volumes, 19
Pipe coupling heating medium circuit, 19Power connection to rear side (standard) or underneath (altern-ative), 24Preparations, 30
RReadjusting, heating medium side, 32Removing the covers, 9Removing the front panel, 9Removing the side panel, 10
SSafety information, 2
Contact information, 5Inspection of the installation, 4Marking, 2Serial number, 2Symbols, 2
Sensor placement, 36Serial number, 2Sound pressure levels, 46Start-up and inspection, 31Supplied components, 8Symbols, 2
TTechnical data, 44
Dimensions and setting-out coordinates, 44Electrical circuit diagram, 58Sound pressure levels, 46Technical Data, 47
Technical Data, 47The heat pump design, 11
Component locations, 11Electrical components, 16Electrical connection, 16List of components, 11
Transport and storage, 6Troubleshooting, 35
Sensor placement, 36
NIBE™ F2040Chapter 12 | Item register64
12 Item register
SE
ÅtervinningLämna avfallshanteringen av emballaget till den installatör som installerade produkten eller till särskildaavfallsstationer.
När produkten är uttjänt får den inte slängas bland vanligt hushållsavfall. Den ska lämnas in till särskildaavfallsstationer eller till återförsäljare som tillhandahåller denna typ av service.
Felaktig avfallshantering av produkten från användarens sida gör att administrativa påföljder tillämpasi enlighet med gällande lagstiftning.
GB
RecoveryLeave the disposal of the packaging to the installerwho installed the product or to specialwaste stations.
Do not dispose of used products with normal householdwaste. It must be disposed of at a special wastestation or dealer who provides this type of service.
Improper disposal of theproduct by theuser results in administrative penalties in accordancewith currentlegislation.
DE
RecyclingÜbergeben Sie den Verpackungsabfall dem Installateur, der das Produkt installiert hat, oder bringen Sieihn zu den entsprechenden Abfallstationen.
Wenn das Produkt das Ende seiner Lebensdauer erreicht hat, darf es nicht über den normalen Hausmüllentsorgtwerden. Stattdessenmussesbei speziellenEntsorgungseinrichtungenoderHändlernabgegebenwerden, die diese Dienstleistung anbieten.
Eine unsachgemäße Entsorgung des Produkts durch den Benutzer zieht Verwaltungsstrafen gemäßgeltendem Recht nach sich.
WS name: -GemensamtWS version: a74 (working edition)Publish date: 2015-08-31 09:21
NIBE AB Sweden
Hannabadsvägen 5Box 14 SE-285 21 [email protected]
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