NIBE™ F2016 - nibe.co.uk · PDF filestandard IEC 81346-1 and 81346-2. 10 Chapter 3 | The...

Installer manual

LEK

NIBE™ F2016Air/water heat pump

IHB GB 1244-2031877

Table of Contents1 Important information 2

Safety information 2

2 Delivery and handling 5Transport and storage 5

Assembly 5

Supplied components 8

Removing the covers 8

3 The heat pump design 9General 9

Electrical cabinets 11

4 Pipe connections 12General 12

Pipe coupling heating medium circuit 12

Pressure drop, heating medium side 12

Docking alternatives 13

5 Electrical connections 19General 19

Connections 20

Optional connections 22

Connecting accessories 23

6 Commissioning and adjusting 24Preparations 24

Filling and venting the heating medium sys-tem 24

Balance temperature 24

Stop temperature 24

Soft-starter 24

Compressor heater 24

Collar heater 24

Start-up and inspection 25

Readjusting, heating medium side 25

Adjustment, charge flow 26

7 Control - Introduction 27General 27

Navigation 27

Display explanation 28

Control conditions 29

8 Control - Channels 31Status channels 31

Temperature channels 31

Setting channels 31

9 Disturbances in comfort 33Troubleshooting 33

10 Accessories 37

11 Technical data 38Dimensions and setting-out coordinates 38

Sound pressure levels 39

Technical specifications 40

Electrical circuit diagram 42

Item register 47

1Table of Contents |NIBE™ F2016

Safety informationThis manual describes installation and service proceduresfor implementation by specialists.

This appliance is not intended for use by persons (includ-ing children) with reduced physical, sensory or mentalcapabilities, or lack of experience and knowledge, unlessthey have been given supervision or instruction concern-ing use of the appliance by a person responsible for theirsafety.

Children should be supervised to ensure that they do notplay with the appliance.

Rights to make any design or technical modifications arereserved.

©NIBE 2012.

Symbols

NOTE

This symbol indicates danger to machine orperson.

Caution

This symbol indicates important informationabout what you should observe when maintain-ing your installation.

TIP

This symbol indicates tips on how to facilitateusing the product.

Marking

F2016 is CE marked and fulfils IP24.

The CE marking means that NIBE ensures that the productmeets all regulations that are placed on it based on relev-ant EU directives. The CE mark is obligatory for mostproducts sold in the EU, regardless where they are made.

IP24 means that the product is secure against penetrationby objects with a diameter larger than or equivalent to12.5 mm and that the product is protected against dropsfrom all directions.

Serial number

The serial number can be found on the product's foot.

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Caution

Always give the product's serial number whenreporting a fault.

Country specific information

Installer manual

This installer manual must be left with the customer.

NIBE™ F2016Chapter 1 | Important information2

1 Important information

Inspection of the installation

Current regulations require the heating installation to be inspected before it is commissioned. The inspection must becarried out by a suitably qualified person. Fill in the page for information about installation data in the User manual.

DateSignatureNotesDescription✔

Heating medium (page 12)

System flushed

System vented

Particle filter

Shut-off and drain valve

Charge flow set

Electricity (page 19)

Fuses property

Safety breaker

Earth circuit-breaker

Heating cable type/effect

Fuse size, heating cable (F3)

Communication cable connected

Miscellaneous

Condensation water pipe

Insulation condensation water pipe, thick-ness (if KVR 10 is not used)

3Chapter 1 | Important informationNIBE™ F2016

Contact informationKNV 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 AG, Winterthurerstrasse 710, CH-8247 FlurlingenCH

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.fiAIT France, 10 rue des Moines, 67000 HaguenauFR

Tel : 03 88 06 24 10 Fax : 03 88 06 90 15 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 2, NL-4797 ZG WILLEMSTAD (NB)NL

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 02320 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 NibeSweden or check www.nibe.eu for more information.

NIBE™ F2016Chapter 1 | Important information4

Transport and storageF2016 must be transported and stored vertically.

AssemblyPlace F2016 outdoors on a solid level base that cantake the weight, preferably a concrete foundation. Ifconcrete slabs are used they must rest on asphalt orshingle.

The concrete foundation or slabs must be positionedso that the lower edge of the evaporator is at the levelof the average local snow depth, although a minimumof 300 mm.

The F2016 should not be positioned next to sensitivewalls, for example, next to a bedroom.

Also ensure that the placement does not inconveni-ence the neighbours.

F2016 must not be placed so that recirculation of theoutdoor air can occur. This causes lower output andimpaired efficiency.

The evaporator should be sheltered from direct wind.Place F2016 protected from wind against the evapor-ator.

Large amounts of condensation water as well as meltwater from defrosting can be produced. Condensationwater must be led off to a drain or similar (see page6).

Care must be exercised so that the heat pump is notscratched during installation.

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Do not place F2016 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, pipesand wiring.

5Chapter 2 | Delivery and handlingNIBE™ F2016

2 Delivery and handling

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 condensation water run off is notpositioned so that it may cause damage to thehouse.

NOTE

Pipe with heating cable for draining the condens-ation water trough are not included.

NOTE

To ensure this function the accessory KVR 10should be used.

NOTE

The electrical installation and wiring must becarried out under the supervision of an author-ised electrician.

Caution

If none of the recommended alternatives is usedgood lead off of condensation water must beassured.

The condensation water (up to 50 litres/day) collectedin the trough should be routed by pipe to an appro-priate drain, it is recommended that the shortestoutdoor 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 F2016.

The outlet of the condensation water pipe must beat a depth that is frost free or alternatively indoors(with reservation for local ordinances and regulations).

Use a water trap for installations where air circulationmay occur in the condensation water pipe.

The insulation must be tight against the bottom ofthe condensation water trough.

Recommended alternatives

Stone caisson

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Frostfritt

djup

If the house has a cellar the caisson must be positionedso that it does not affect the house. Otherwise the caissoncan be positioned directly under the heat pump.

The outlet of the condensation water pipe must be atfrost free depth.

Drain indoors

The condensation water can be routed to a drain indoors(with reservations for local rules and regulations).


The condensation water pipe must have a water trap toprevent air circulation in the pipe.

NIBE™ F2016Chapter 2 | Delivery and handling6

Gutter drainage

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Frostfritt

djup

The outlet of the condensation water pipe must be atfrost free depth.


The condensation water pipe must have a water trap toprevent air circulation in the pipe.

Installation area

The distance between F2016 and the house wall mustbe at least 350 mm. Clearance in front of F2016 shouldbe at least one metre.

Fritt utrymme framför

Fritt utrymme min. 400 mm


350

mm

utrymmeom

3000

mm

7Chapter 2 | Delivery and handlingNIBE™ F2016

Supplied components

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Particle filterR252 flexible hoses (R25) with4 seals

Removing the covers

NIBE™ F2016Chapter 2 | Delivery and handling8

General

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9Chapter 3 | The heat pump designNIBE™ F2016

3 The heat pump design

Pipe connectionsConnection, heating medium out of F2016,G1 (Ø28 mm)

XL 1

Connection, heating medium in to F2016,G1 (Ø28 mm)

XL 2

Service connection, high pressureXL 20Service connection, low pressureXL 21Connection, drip tray drain (Ø40 mm)XL 40

Sensors etc.High pressure pressostatBP 1Low pressure pressostatBP 2Temperature sensor, returnBT 3Temperature sensor, condenser supply lineBT 12Temperature sensor, hot gasBT 14Temperature sensor, fluid pipeBT 15Temperature sensor, evaporatorBT 16Temperature sensor, suction gasBT 17Temperature sensor, ambientBT 28

Electrical componentsCompressor heaterEB 10Condensation water trough heaterEB 11Collar heaterEB 13FanGQ 1

Cooling componentsEvaporatorEP 1CondenserEP 2CompressorGQ 10Drying filterHS 1Expansion valveQN 14-way valveQN 2Non-return valveRM 1

MiscellaneousType platePF 1Serial numberPF 3Cable gland, incoming supplyUB 1Cable gland, sensorUB 3Condensation water troughWM 5Connections sensorsXJ 5

Designations in component locations according tostandard IEC 81346-1 and 81346-2.

NIBE™ F2016Chapter 3 | The heat pump design10

Electrical cabinets

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Electrical componentsRelay card with power supply unitAA 6Soft-starterQA30Control card with displayAA 21

Plus buttonS 1Minus buttonS 2Enter buttonS 3Reset buttonS 4Display contrastSF 3

CapacitorCA 1Operating condenser, fanCA 3Fuse for external heating cable (250 mA), max45 W.

F 3

Automatic protection (10 A/30 mA)FB 1Motor fuseFC 1Terminal block, incoming supplyX 1Terminal block, charge pump, external heatingcable

X 3

Terminal block, thermostat, communication,blocking compressor

X 5

Terminal block, additional heat, downtime, com-mon alarm

X 6

Terminal block, 4-way valveX 7

MiscellaneousCable gland, incoming supplyUB 2

Connections sensorsXJ 5

Designations in component locations according tostandard IEC 81346-1 and 81346-2.

11Chapter 3 | The heat pump designNIBE™ F2016

GeneralPipe installation must be carried out in accordance withcurrent norms and directives.

F2016 can only operate up to a return temperature ofabout 55 °C and an outgoing temperature of about 62 °Cfrom the heat pump.

F2016 is not equipped with external shut off valves onthe water side; these must be installed to facilitate anyfuture servicing. The return temperature is limited by thereturn line sensor.

Water volumes

When docking with F2016 a minimum available systemvolume of at least 20 litres per kW output on the heatpump is recommended.

NOTE

The pipe work must be flushed before the heatpump is connected, so that any contaminantsdo not damage the components.

Pipe coupling heating mediumcircuit

F2016 can be connected directly to the heating systemsee the section "Docking" or according to one of thesystem solutions that can be downloaded from thewebsite www.nibe.eu.

The heat pump must be vented by the upper connec-tion (XL1, HM-out) using the venting nipple on theenclosed flexible hose.

Install the supplied particle filter (HQ1) before the in-let, i.e. the lower connection (XL2, HM-in) on F2016.

All outdoor pipes must be thermally insulated with atleast 19mm thick pipe insulation.

Install shutoff (QM40) and drain (QM1) valves so thatF2016 can be emptied in the event of prolongedpower failures.

The supplied flexible hoses act as vibration dampers.The flexible hoses are fitted so a slight bend is created,thus acting as vibration damping.

Charge pump

NOTE

The charge pump must be operational, even ifF2016 is not running, to prevent damage dueto freezing.

The charge pump can also be controlled directly fromF2016, terminal (X3), which takes the outdoor temperat-

ure into consideration. Alternatively, the heat pump isconnected to an intermediate circuit with a heat ex-changer, pump and water with anti-freeze (does not applyto docking with VVM300).

Pressure drop, heating mediumsideF2016 -6, 8, 11

0

1

2

3

4

5

6

7

8

9

0 0,10 0,20 0,30 0,40 0,50 0,60 0,70

kPaTryckfall

6 kW 8, 11 kW

Flöde

l/s

L

NIBE™ F2016Chapter 4 | Pipe connections12

4 Pipe connections

Docking alternativesF2016 can be installed in several different ways. The re-quisite safety equipment must be installed in accordancewith current regulations for all docked options.

See www.nibe.eu for more docking options.

When docking with F2016 a minimum available systemvolume of at least 20 litres per kW output on the heatpump is recommended.

Explanation

Control unit (Indoor module)(SMO 05, SMO10, Control centre)

AA25

Display unitAA4Outside sensorBT1Temperature sensor, heating medium, flowBT2Supply line sensor, externalBT25Room sensorBT50Pool kitCL11Temperature sensor, poolBT51Exchanger, poolEP5Pool, pumpGP9Particle filterHQ3Three way valve, poolQN19Trim valveRN10Indoor module (VVM 300)EB15Outside sensorBT1Temperature sensor, hot water, chargingBT6Immersion heaterEB20Safety valve, heat pumpFL10Auxiliary relayKA2Heat pump (F2016)EB100Room thermostat (RT 10)BT31Thermostat, chargingBT34Safety valve, heat pumpFL10Charge pumpGP12Particle filterHQ1Drain valve, heating mediumQM1Shut-off valveQM40Trim valveRN10Non-return valveRM1Heat pump (F2016)EB101Safety valve, heat pumpFL10Charge pumpGP12Particle filterHQ1Drain valve, heating mediumQM1Shut-off valveQM40Shut-off valveQM41Non-return valveRM1Trim valveRN10Heat pump (F2016)EB102Safety valve, heat pumpFL10Charge pumpGP12

Particle filterHQ1Drain valve, heating mediumQM1Shut-off valveQM40Non-return valveRM1Trim valveRN10Oil, gas, pellets or wood boilerEM1Temperature sensor, boilerBT52Expansion vessel, closed, heating mediumCM1Safety valve, heating mediumFL2Auxiliary relayKA1Climate system 2EP21Temperature sensor, heating medium, flowBT2Temperature sensors, heating medium returnBT3Circulation pump, heating mediumGP10Shunt valveQN25

Miscel-laneous

Auxiliary relay/ContactorAA25-KA10

Auxiliary relay/ContactorAA25-KA11

Outside sensorBT1Room thermostat (RT 10)BT31Expansion vessel closed, heating mediumCM1Buffer vessel (UKV)CP1Accumulator tank with hot water heating(VPA/VPAS/VPB)

CP10

Immersion heaterCP10-EB20Buffer vessel (UKV)CP11Electric heater / Electric boilerEB1Safety valve, heating mediumFL2Safety valve, heat pumpFL11Circulation pump, heating mediumGP10Auxiliary relayKA3Shut-off valve, heating medium, supplyQM31Shut off valve, heating medium, returnQM32Reversing valve, hot water/heating mediumQN10Overflow valveQN26Trim valveRN10Trim valveRN11

13Chapter 4 | Pipe connectionsNIBE™ F2016

F2016 docked with VVM 300 (floating condensing)

-EB101

-EB101

-EB15

-EB15-BT1

-FL10

-QM1

-HQ1 -QM40

-QM41

NOTE

When cable routing, sensor cables and commu-nication cables must be separated (min 20 cm)from high voltage cables to prevent interference.

NOTE

Check that you have a VVM 300 with version1.30 or newer. If you have an earlier model ofVVM 300 the control card must be replaced inthe indoor module. The modular cable is thenconnected directly to the outdoor module con-trol card.

F2016 (slave) can be connected to VVM 300 (master).F2016 is then controlled by VVM 300 and works withfloating condensing to the heating system and prioritiseshot water charging in VVM 300.

If F2016 cannot meet the heating requirement, additionalheat is shunted in from VVM 300. If the ambient temper-ature drops below the set stop temperature, VVM 300engages and takes over heating.


F2016 docked to the electric/oil-fired/pellet boiler together with SMO 05 and water heater(floating condensing)

-EB101

-EB101

-CM1

-FL2

-FL10

-CP11

-AA25-KA10

-AA25-KA11

-CP10-EB20

-AA25-BT25

-QM40

-GP12-QM1 -HQ1

-QN10

-RM1

-AA25-BT1 -AA25-BT50

-QM32

-QM31

-AA25 -AA25-AA4

-EB1

-RN11

-AA25-BT6

-CP10

-GP10

-FL11

-RN10

-AA25-BT7

-QN26

SMO 05 (master) is a simple control module that togetherwith F2016 (slave), a hot water heater and an extra heatsource create a complete installation.

F2016 works with floating condensing against the heatingsystem and prioritises hot water charging via the threeway valve.

NOTE



F2016 docked to the electric/oil-fired/pellet boiler together with SMO 10 and water heater(floating condensing)

SMO 10

Oljepanna alternativt elpanna med shunt

POOL

-EB102

-EB101

-CM1

-FL2

-AA25-QN11

-KA3

-AA25-BT2

-AA25

-KA1

-CL11

-HQ3 -GP9

-EP5

-QM40

-GP12 -HQ1

-RN10

-EB15

-AA25-QN10

-RM1

-QM1

-GP12 -RN10

-HQ1

-KA2

-EB20

-QM40

-AA25-BT6

-AA25-BT1

-QM1

-RM1

-RN10

-QN19

-BT51

-EM1-CP1 -AA25

-GP10

-GP10

-BT2

-BT3

-AA25-BT3

-QN25-EP21

-RN10

-RM1

-BT52

-EM1

-EB15

-FL10

-FL10

-FL10

-EB102

-EB101

-CL11

SMO 10 (master) controls one or up to nine F2016(slaves), additional heater, circulation pumps, shunts, etc.F2016 works with floating condensing against the heatingsystem and prioritises hot water charging via the threeway valve.

If F2016 cannot meet the heating requirement, the addi-tional heat is started and is shunted in.

When additional heat is engaged, hot water is heatedusing the immersion heater in the hot water heater.

NOTE



F2016 docked to an electric/oil boiler (floating condensing)

P

-EB100

-RN10

-EB1-QM40

-EB1-QN25

-EB1-CM1

-EB100

-GP12

-EB100-BT31

-EB100-AA25

-EB1-FL2

-EB1-QM60

-EB1

-EB1-BP5

-EB1-RM1

-EB 1-GP10

-QM40

-QM1

-HQ1

-FL10

Extern altbefintlig rutrustning

F2016 is controlled by a room thermostat and works withfloating condensing on the return from the heating sys-tem.

If F2016 cannot meet the heating requirement the addi-tional heat is shunted in using the existing controlequipment.

Additional heat can be blocked above the set balancetemperature by means of the automatic control systemin F2016. In other cases the heat pump does not collab-orate with the electric/oil fired boiler in the optimum way.

Hot water production only takes place using the existingelectric/oil boiler.

This option requires accessory RT 10.


F2016 docked with wood fired boiler and hot water heater (fixed condensing)

-EB100

-QM40

-RN10-HQ1

-FL10

-QM1

-EB100-BT34

-RM1

-GP12

-BT1

-AA25

Extern alt.befintlig regler-utrustning.

-EB15

-EM1-EB100

F2016 charges the water heater/accumulator tank (EB15).When the firewood boiler is in use, the heat pump andimmersion heater are disconnected when the temperaturerises on the thermostat (BT34) and start again when thetemperature drops. Too high temperature in the tank cangenerate alarm in the outdoor module and should berestricted to 60 °C.

Self-circulation through the heat pump is prevented bythe check valve (RM1).


GeneralA heat pump must not be connected without thepermission of the electricity supplier and must beconnected under the supervision of a qualified electri-cian.

If a miniature circuit breaker is used this should havemotor characteristic "C" (compressor operation). ForMCB size see "Technical Specifications".

F2016 does not include an omnipolar circuit breakeron the incoming power supply. The heat pump’ssupply cable must be connected to a circuit-breakerwith at least a 3 mm breaking gap. When the buildingis equipped with an earth-fault breaker the heat pumpshould be equipped with a separate one. Incomingsupply must be 230 V 1AC 50Hz via distributionboards with fuses.

If an insulation test is to be carried out in the building,disconnect the heat pump.

Connect control signal cable for thermostat to termin-al (X5). Cable type: unscreened LiYY, screened LiYCY.Cable area, at least 0.22with cable lengths less than50m.

Alternatively the relevant screened signal cable isconnected from terminal block (X5) toSMO 05/SMO 10/NIBE indoor module.

The routing of cables for heavy current should bemade out through the cable glands on the heatpump's left-hand side, seen from the front (UB1) andsignal cables from the rear (UB3).

Charge pump for F2016 can be connected to separatesupply or to terminal block (X3).NOTE! If F2016 is not powered and the charge pumpis connected to the terminal block (X3) there is a riskof freezing

A common alarm can be connected to terminal (X6).

NOTE

Electrical installation and service must be carriedout under the supervision of a qualified electri-cian. Electrical installation and wiring must becarried out in accordance with the stipulationsin force.

NOTE

The external control must be taken into consid-eration when connecting.

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1 mm

5,5 mm

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19Chapter 5 | Electrical connectionsNIBE™ F2016

5 Electrical connections

Connections NOTE

To prevent interference, unscreened communic-ation and/or sensor to external connectionscables must not be laid closer than 20 cm tohigh voltage cables when cable routing.

Power connection

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Incoming supply cable is supplied and factory connectedto the terminal block -X1. Approx. 1.8 m cable is access-ible outside the heat pump.

NIBE™ F2016Chapter 5 | Electrical connections20

Charge pump

To let F2016 control the charge pump (GP12), connectit to the terminal block X3:4(N), 5(L) and 7(PE).. Pumpactivity is dependent on the status of F2016, heating/hotwater requirement and the ambient temperature. Pumpexercising is handled by F2016.

With potential free connection of the circulation pumpyou replace the bracket with separate voltage supply forX3:6(L).

Anti-freeze function

At temperatures below +2 °C, the charge pump runsperiodically, and at temperatures below -20 °C it runscontinually. This function applies on the condition thatF2016 is powered.

35

30

25

20

15

10

5

5 4 3 2 1 0 -1 -2 -3 -4 -5 -6 -7 -8 -9 -10 -11 -12 -13 -14 -15 -16 -17 -18 -19 -20 -21 -22 -23 -24 -250

NOTE

There is a risk of freezing when the charge pumpis connected to the terminal block - X3 andF2016 is not powered.

56

74

23

1

NL

PE

External heating cable (KVR 10)

F2016 is equipped with a terminal block for an externalheating cable (EB14, not supplied). The connection isfused with 250 mA (F3, 15 W/m). If another cable is tobe used the fuse must be replaced by one of a suitablesize (see table).

NIBE Part no.Fuse (F3)Totaloutput

(W)

Length(m)

718085T100mA/250V151518900*T250mA/250V453718086T500mA/250V906

* Factory installed.

External heating cable (EB14) is connected to terminalblock X3:1 and 4 as illustrated:

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23

1

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 image displays the recommended cablerouting from the electrical cabinet to the condensationwater trough in F2016. The transfer from electrical cableto heating cable must occur after the lead-in to the con-densation water trough. The distance between the elec-trical cabinet and the lead-in to the condensation watertrough is approx.1930 mm.

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Ambient temperature sensor

An ambient temperature sensor (BT28) is located on theunderside of F2016.

Optional connections

NOTE

The following pages about thermostats, addition-al heat, common alarms and downtime, do notapply when F2016 is controlled bySMO 05/SMO 10 or NIBE indoor module.

Thermostat control

You can use a basic thermostat or a closing potential-freecontact to switch the compressor on and off. This ther-mostat should be of the breaking type (NC) when the settemperature has been reached. The contactor should bepotential free.

Connect the thermostat to terminal block X5:2 and 5 asillustrated below.

56

42

31

Additional heat / Downtime

F2016 is equipped with a potential free contactor inten-ded for additional heat. Max 250V 2A.

The setting of the ambient temperature (balance temper-ature) when the additional relay is activated is made onchannel A5, see the section "Control - Channel descrip-tion".

External additional heat is connected via the additionalrelay terminal block X6:1 to 3.

Conditions for connecting additional heat:

The ambient temperature should be lower than theset balance temperature (channel A5).

The compressor must have been operating for theminimum period that can be set in channel A6. De-frosting is included in this time.

If the ambient temperature drops down to a level belowthe set value, stop temperature (downtime), in channelA7 compressor operations are blocked and all heatingmust take place using the external additional heat via thedowntime relay, terminal block X6:4 (6). This function isalso activated when F2016 is deenergized.

If the ambient temperature exceeds 35 °C compressoroperation is blocked and the downtime relay is activated.

The connection to the additional relay is made as illus-trated below.

NIBE™ F2016Chapter 5 | Electrical connections22

56

42

31

Tillsatsvärme

Stillestånd

NO

NC

COM

NO

NC

COM

Max load across the relay contactors is 250V 2A.

During operations without the need of the additionalheat or downtime the relay contactors are closed betweenNO and COM.

Additional heat and downtime are acquired between NCand COM.

The contactors are drawn in the deenergized state.

Additional and downtime relays are activated duringnormal operating conditions for F2016. Both relays aredeactivated in the event of operating disruptions.

Example of addition connection

Basic electrical circuit diagram for connection of auxiliaryrelays for additional heat and downtime.

NO O/CNC

Hjälpkontaktor

12 – 230V

Communication

F2016 can communicate with NIBE indoor modules, byconnecting the indoor module to the terminal block X5:3,X5:4, X5:5 as illustrated:

56

42

31

GND

B-

A+

F2026 Innemodul

-X5

For connection of indoor module, see relevant manualon www.nibe.eu.

External indication of main alarm

F2016 is equipped with a contact for external indicationof common alarms. The function becomes active with alltypes of existing alarms. Max load on the relay contactis250V 2A.

The connection for external indication of common alarmsis made to terminal block X6:7 to 9 as illustrated below:

67

89

SummalarmCOM

NO

NC

Connecting accessoriesInstructions for connecting accessories are in the installa-tion instructions provided for the respective accessory.See page 37 for the list of the accessories that can beused with F2016.


PreparationsBefore commissioning, check that the heating circuitis filled and well vented.

Check the pipe system for leaks.

Filling and venting the heatingmedium system1. The heating medium system is filled with water to

the required pressure.

2. Vent the system using the venting nipple on the en-closed flexible hose and possibly the circulationpump.

Balance temperatureThe balance temperature is the outdoor temperaturewhen the heat pump’s stated output is equal to thebuilding’s output requirement. This means that the heatpump covers the whole building’s output requirementdown to this temperature.

Set the balance temperature, additional heat, in channelA5.

Stop temperatureWhen the stop temperature (channel A7) is set between0 and -15 C the flow temperature is limited linearly from0 C / 58 °C to -15 °C / 45 °C (see diagram on page 41).

If the ambient temperature is below the set value for stoptemperature heating must occur using the additionalheat.

Soft-starterF2016 is equipped with soft-start (AA10) that limits theinrush current for the compressor.

Compressor heaterF2016 is equipped with a compressor heater that heatsthe compressor before start-up and when the compressoris cold.

NOTE

The compressor heater must have been connec-ted for 6 – 8 hours before the first start, see thesection "Start-up and inspection".

Collar heaterF2016 is equipped with a collar heater that heats the fancollar when necessary (not activated on delivery).

NOTE

The collar heater is only required in certain caseswhere the ambient temperature is too low fora long period.

NIBE™ F2016Chapter 6 | Commissioning and adjusting24

6 Commissioning and adjusting

Start-up and inspection1. Communication cable or thermostat, terminal block

(X5) must not be connected.

2. Turn the isolator switch on.

3. Ensure that the F2016 is connected to the powersource.

4. Check that the automatic protection (FB1) is on.

5. Check that the motor circuit-breaker (FC1) is on.

6. The compressor heater (EB10) must have been oper-ational for at least 6 – 8 hours before the compressorstart can be initiated. This is done by switching onthe control voltage and disconnecting the communic-ations cable or thermostat.

7. The display on the control card (AA21) shows C0/CCF0 H1/H3 depending on the ambient temperature.During this period the compressor is heated to in-crease the service life.

8. The communication cable or external thermostat isconnected after 6 – 8 hours. See section Thermostatcontrol” electrical connection chapter.

9. Restart any NIBE SMO 05/SMO 10 or NIBE indoormodule. See information in relevant manual onwww.nibe.eu

10. Once the connection is made, the compressor startsafter approx. 20 minutes if needed.

11. Adjust the charge flow according to the diagram,see the section "Adjustment, charge flow"

12. Adjust the menu settings if necessary.

13. Fill in the commissioning report in the user manual.

14. Remove the protective film from the cover on F2016.

NOTE

The external control must be taken into consid-eration when connecting.

LEK

Readjusting, heating mediumsideAir is initially released from the hot water and ventingmay be necessary. If bubbling sounds can be heard fromthe heat pump, the circulation pump and radiators theentire system will require further venting. When the sys-tem is stable (correct pressure and all air eliminated) theautomatic heating control system can be set as required.

25Chapter 6 | Commissioning and adjustingNIBE™ F2016

Adjustment, charge flowAdjusting the temperature difference (ΔT) between theflow temperature and the return temperature is best doneduring hot water charging or at high load.

This is most easily done using the temperatures measuredin channel T2 (supply temperature) minus channel T3

(return temperature). This temperature difference (ΔT) isadjusted using the circulation pump and control valve.Adjustment is performed with stable operation about 5minutes after start, or about 5 minutes after defrostingat cold ambient temperatures.

The temperature difference must be within the grey areain accordance with the diagram below (+1- 2 K). If the

ambient temperature is above 28 °C the charge flowshould be in the lower region.

The diagrams show the heat pump with a high fan speed,

at low fan speeds ΔT will be 0.5 to 1 degrees lower (doesnot apply to F2016-6 kW, which only has one fan speed).

1 flow temperature. 35 °C



Quoted outputs refer to compressor, fan and control atnominal heating medium flow. During operation thatrequires defrosting the relationship between input andoutput is reduced by about 10%.

F2016F2016-6Charge flow

2

3

4

5

6

7

8

9

10

11

12

-15 -10 -5 0 5 10 15 20 25 30

1

2

3

1

2

3

Injustering av laddflöde för EVP 270

30 35

16,0

17,0

18,0

-20 -15 -10 -5 0 5 10 15 20 25

2,0

3,0

4,0

5,0

6,0

7,0

8,0

9,0

10,0

11,0

12,0

13,0

14,0

15,0

Δ T (°C)

(°C)

max

nom

min

Adjustment of charge flow

Outdoor temperature

max

nom

min.

F2016-11F2016-8

2

4

6

8

10

12

14

-15 -10 -5 0 5 10 15 20 25 30

1

2

3

3

2

1

2

4

6

8

10

12

14

-15 -10 -5 0 5 10 15 20 25 30

1

2

3

3

2

1

NIBE™ F2016Chapter 6 | Commissioning and adjusting26

GeneralF2016 is equipped with an internal electronic control thathandles those functions that are necessary for operationof the heat pump, for example defrosting, stop atmax/min temperature, connection of the compressorheater as well as enabling the heater for the condensationwatering trough and monitoring of pressure switches.

The temperatures, number of starts and the operatingtime can also be read.

The integrated controller is set during installation andcan be used during a service.

Under normal operating conditions the home owner doesnot need to have access to the controller.

F2016 has an integrated return line sensor that limits thereturn temperature.

F2016 can also be switched on/off via signals from othercontrol equipment or a thermostat. If F2016 is controlledfrom the indoor module, VVM eller SMO (accessory), thecontrol is described in the instructions supplied.

F2016 communicates with the indoor module whichmeans that settings and measurement values from F2016can be adjusted and read off in the indoor module.

Navigation

34

Plus buttonThe plus button (S1) is used to browse throughthe channel system (forwards) or raise the valueof the selected parameter.

See the section “Control” – “Channel descrip-tion”

Minus buttonThe minus button (S2) is used to browsethrough the channel system (backwards) orlower the value of the selected parameter.


Enter buttonThe Enter button (S3) is used to activate andconfirm value changes.


To modify a value, first press the Enter button to activatemodification mode, the value flashes. Adjust the valueas required using the Plus button or Minus button.Holding the Plus button or Minus button in for about 3seconds speeds up the change in value. Then confirmusing the Enter button. The value will stop flashing.

The instructions are divided into three parts: status, tem-peratures and adjustable values.

Quick movement between the different types is carriedout by pressing the enter button when STATUS, TEMP.or ADJUST. are displayed.

27Chapter 7 | Control - IntroductionNIBE™ F2016

7 Control - Introduction

Display explanation

C0 F0 H0

S1 01

Compressor: C

Shows the present compressor status.

Compressor off, circulation pump offC0

Flashes when the compressor wants to start but isprevented by the time conditions or high returntemperature.

C

Compressor on, circulation pump onC1

Compressor off, circulation pump onCC

Defrosting in progressCD

Fan: F

The fan has two speeds, high or low (does not apply toF2016-6 kW that only have one fan speed). The fan iscontrolled by the ambient temperature. The lower speedis used when the ambient temperature is too high tolimit the output. The fan does not run during defrosting.At an ambient temperature lower than the temperaturein the table below the fan speed is changed to high.

Ambient temperature (°C)Type

158 kW

1511 kW

Fan offF0

Fan on, low speedF1

Fan on, high speedF2

Heater: H

The compressor heater is always active when the com-pressor is switched off.

The condensation water trough heater is connected dur-ing defrosting when the ambient temperature falls belowor is equal to 2.5 °C.

If the collar heater is permitted (channel A14), it activatesevery third defrosting, when the ambient temperaturelies below 2 °C.

Compressor heater offH0

Condensation water trough heater off

Collar heater off

Compressor heater onH1

Condensation water trough heater onH2


Condensation water trough heater on

Collar heater onH4


Collar heater on

Condensation water trough heater onH6

Collar heater on


Condensation water trough heater on

Collar heater on

Channel: S1

Shows the current channel. Change channels using thePlus button or the Minus button.

Value: 01

Shows the current value. Increase/decrease value usingthe plus button respective minus button.

NIBE™ F2016Chapter 7 | Control - Introduction28

Control conditionsControl conditions, cold outdoor air

When the ambient air temperature (channel T1) dropsbelow the set temperature in channel A7 the heatpump stops and indicates 03 in channel S1. Both theadditional relay and the downtime relay are then ac-tivated at the same time.

If the ambient temperature sensor registers a temper-ature that is at least 2.1 °C higher than the set tem-perature in channel A7, a time counter starts.

When the time counter has reached 45 minutes, boththe additional relay and downtime relay deactivate toobtain a more comfortable temperature for the com-pressor to start at.

When a further 15 minutes have passed, the com-pressor is permitted to start and the additional relayactivates a few seconds later. However, the downtimerelay is deactivated.

If the ambient temperature at any point during thetotal 60 minutes falls below channel A7 + 2.1 °C thecounter is reset. It does not start counting again unlessthe temperature is sufficiently high once again.

B = Set temperature for cold outdoor air (channel A7).

A = Set temperature for cold outdoor air + 2.1 °C.

1. The ambient temperature (channel T1) drops belowthe set temperature in channel A7 (B). The heat pumpstops and both the relays are activated.

2. The ambient temperature is 2.1 °C) above the settemperature in channel A7 (A). A time counter startsfrom 0.

3. The ambient temperature falls below A. The timer isreset and stopped.

4. The ambient temperature returns to above A. Thetime counter starts again (from 0).

5. The time counter has counted to 45 minutes. Bothrelays are deactivated.

6. The time counter has counted to 60 minutes. Thecompressor is permitted to start again.

NOTE

It is heat pump’s ambient temperature sensorthat applies.

If VVM 300/SMO 10 is connected it is not thevalue in menu 4.0 but the value of the ambienttemperature in menu 5.9 which is used.

utelufttemp.

A

B

1 2 3 4 5 6

Utelufttemperatur

29Chapter 7 | Control - IntroductionNIBE™ F2016

Control conditions defrosting

A time counter counts up every minute if the com-pressor is running and the temperature of the evapor-ator sensor (channel T7) falls below the setting inchannel A9

If the time counter has reached the setting in channelA8, defrosting starts.

If the collar heater is activated in channel A14, theambient temperature is less than or equivalent to 2 °Cand the compressor is running the collar heater startsat every third defrosting. The collar heater preventsthe build up of ice on the fan collar.

If "defrosting fan" is activated in channel A15, de-pending on the evaporator temperature and if thecollar heater is not operating defrosting fan starts atdefrosting. Defrosting fan prevents ice build up onthe fan blades and the front fan grille.

Defrosting occurs as follows:

1. The four way valve shifts to defrosting

2. The fan stops and the compressor continues to run.

3. When defrosting is complete the four way valve shiftsback to heating mode and after 30 seconds the fanstarts.

4. The ambient temperature sensor is locked and thehigh return temperature alarm is blocked for twominutes after defrosting.

There are five possible reasons for defrosting tofinish:1. The temperature of the evaporator sensor has

reached the set temperature in channel A10 (normalstop).

2. Defrosting has run longer than set in channel A11.Can be due to insufficient energy in the heat sourceand/or that the sensor on the evaporator is poorlypositioned and gives too low a temperature (in theevent of cold outdoor air).

3. The temperature on the return sensor falls below 10°C.

4. The high-pressure switch deploys during defrosting.This is indicated as alarm 10 in channel S1 and thecompressor is stopped. After two minutes the com-pressor starts again (if the pressure has fallen), other-wise there is a constant high pressure alarm (alarm06).

5. The temperature on the flow temperature sensorfalls below 4 °C.

NIBE™ F2016Chapter 7 | Control - Introduction30

Status channels

Status

These channels show the status and statistics.

ChannelShows the operating status of F2016.S1Value

Normal operation.01Defrosting is run.02Cold outdoor air temperature.03High return temperature.04Low pressure switch (BP2) has tripped.05High pressure switch (BP1) has tripped.06Motor cut-out (FC1) has deployed.07Sensor alarm. One of the temperature sensors isdefective.

08

Communication error (only when SMO 05/SMO10/NIBE innemodul is connected).

09

High pressure switch (BP1) has tripped duringdefrosting (resets automatically)

10

Not used.11Flow and return line sensors fitted incorrectly.12Hot outdoor air. Appears when the ambienttemperature exceeds 35 °C.

13

High flow temperature.14Defrosting interrupted. Appears if defrosting isunsuccessful 3 times in a row.

15

Short operations times. Appears if operation timehas been shorter than 2 minutes 3 times in a row.

16

Hot gas alarm. Appears when the hot gas exceeds135 °C. The alarm resets automatically when thetemperature falls below 60 °C. If the alarm is ac-tivated 3 times within 240 minutes it becomescontinuous.

17

Value

Shows the compressor status.Compressor off.00Compressor on.01Compressor blocked due to an alarmXXCompressor start in nn minutes.nn

S2

Shows the number of compressor starts, accumulatively.S3Shows the compressor's operating time in hours, accu-mulatively.

S4

Shows the operating hours for connected additionalheat, accumulatively.

S5

Shows whether any additions are activatedS6

Active input indicated by 1.

Deactivated input indicated by 0.

Alarm input status (HP, LP and FC1), 1 indicates the in-put is OK.

S7

S7 1 / 1 / 1Software version number.S10

Temperature channels

Temp.

These channels show the current temperatures.

ChannelMeasured temperature on the ambient temperaturesensor (BT28).

T1

Measured temperature on the flow temperature sensor(BT12).

T2

Measured temperature on the return line sensor (BT3).T3Measured temperature on the suction gas sensor (BT17).T4Measured temperature on the hot gas sensor (BT14).T5Measured temperature on the liquid line sensor (BT15).T6Measured temperature on the evaporator sensor (BT16).T7

Setting channels

Adjust.

All setting are made on these channels.

ChannelAddress for communication with SMO 05/SMO 10/NIBEindoor module (master).

A1

When connecting to SMO 05/NIBE indoor module thischannel should be on 1.

When connecting to SMO 10 this must be selected sothat each F2016 (slave) in the system receives a uniqueaddress (1 – 9) for communication with SMO 10.

For example 3 x F2016 in the same system are allocatedthe addresses 1, 2 and 3. The F2016 that produces hotwater should be set to 1.Connection difference return temperature. After thecompressor is stopped for a high return temperature,the return temperature must drop by the set value inorder to permit the compressor to start. The value isadjustable between 0 and 10 °C. Factory setting is 4 °C.

A3

With SMO/NIBE indoor module connected this menucannot be changed, it is locked at 2 °C.Minimum time period in minutes between compressorstarts. The value is adjustable between 20 and 60minutes. Factory setting 20 minutes.

A4

31Chapter 8 | Control - ChannelsNIBE™ F2016

8 Control - Channels

Balance temperature, the set ambient temperaturewhen the additional relay can be activated from channelA6 without affecting compressor operations. Additionalheat relay is activated first after the set time on channelA6. The value is adjustable between -15 and +10 °C.Factory setting is 0 °C.

A5

Continuous operating time with the compressor beforeadditional heat is permitted. The value is adjustablebetween 1 and 120 minutes. Factory setting 120minutes.

A6

Stop temperature, the set ambient temperature valuewhen the downtime relay is activated, F2016 stops.When the stop temperature is set between 0 and -15 °Cthe flow temperature is limited linearly to 0 °C / 58 °Cto -15 °C / 45 °C (see diagram on page 41). Factorysetting is -15 °C.

A7

Minimum running time, heat production before newdefrosting is permitted. The value is adjustable between10 and 90 minutes. Factory setting according to thetable below.

A8

MinutesType

606 kW508 kW4511 kW

Start temperature for permitted defrosting (evaporatorsensor). The value is adjustable between 1 and 5 °C.Factory setting 1 °C.

A9

Stop temperature for defrosting (evaporator sensor).The value is adjustable between 10 and 40 °C. Factorysetting 10 °C.

A10

Longest permitted defrosting time. The value is ad-justable between 5 and 12 minutes. Factory setting 7minutes.

A11

NOTEIn the event of any defrosting problems, thevalue in channel A11 can be increased to re-lieve the problem.

Manual activation of defrosting procedure. Change thevalue 0 to 1 and confirm using the Enter button.

A12

Restore factory default settings. Change the value 0 to1 and confirm using the Enter button.

A13

Activating the collar heater function. Change the value0 till 1 and confirm using the Enter button.

A14

Activating the "defrosting fan" function. Change thevalue 0 till 1 and confirm using the Enter button.

A15

NIBE™ F2016Chapter 8 | Control - Channels32

Troubleshooting

NOTE

Work behind covers secured by screws may onlybe carried out by, or under the supervision of,a qualified installation engineer.

NOTE

As F2016 can be connected to a large numberof external units, these should also be checked.

NOTE

In the event of action to rectify malfunctionsthat require work within screwed hatches theincoming electricity must isolated at the safetyswitch.

NOTE

In the event of any defrosting problems, thevalue in channel A11 can be increased to relievethe problem.

NOTE

Alarms are reset on indoor module.

The following tips can be used to rectify comfort disrup-tion:

Basic actions

Start by checking the following possible fault sources:

That the heat pump is running or that the supply cableto F2016 is connected.

Group and main fuses of the accommodation.

The property's earth circuit breaker.

The heat pump's motor circuit breaker (FC1).

The heat pump's automatic protection (FB1).

Low hot water temperature or a lack of hotwater

This 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 NIBE indoor module.

See the manual for the indoor module.

Low room temperatureClosed thermostats in several rooms.

Set the thermostats to max in as many rooms aspossible.

External switch for changing the room heating activ-ated.

Check any external switches.



High room temperatureExternal switch for changing the room heating activ-ated.

Check any external switches.



F2016 is not operationalExternal control equipment has not given the startsignal.

Check the settings on the control equipment.

Fuses have tripped.

Replace the fuse or reset the MCB.

Cold outdoor air. Indicated as 03 in channel S1.

Wait until the ambient temperature is 2 °C higherthan the heat pump’s set stop value.

Tripped high pressure pressostat. Indicated as 06 inchannel S1.

Check that the system has been vented correctly.Check the fuses. Check that the particle filter isnot blocked. Check that the circulation pump isrotating.

Tripped low pressure pressostat. Indicated as 05 inchannel S1.

Ensure that the air flow is not blocked.

Ambient temperature is hotter than 35 °C. Indicatedas 13 in channel S1.

Wait until the ambient temperature is colder than33 °C.

Time conditions do not permit start.

Wait until the set conditions have run out. (If Cflashes in the display the start conditions havebeen given.)

The motor cut-out (MS) (FC1) has deployed (MSalarm). Indicated as 07 in channel S1.

Check the fuses.

Flow and return line sensors fitted incorrectly. Indic-ated as 12 in channel S1.

Check the pipe installation.

The heat pump will not defrost.

Check the temperature on the return line sensor(channel T3). If it is below 10 °C the heat pump

33Chapter 9 | Disturbances in comfortNIBE™ F2016

9 Disturbances in comfort

will not defrost. Check the temperature on theevaporator sensor (channel T7). If it is higher thanthe set Start temperature, defrosting (channel A9)during compressor operation the heat pump willnot defrost.

Check the temperature on the return line sensor(BT3). If it is below 10 °C the heat pump will notdefrost.

High flow temperature (T2). Indicated as 14 in channelS1.

Check the charge flow and the particle filter whichmay be partially clogged.

High return temperature (T3). Indicated as 04 inchannel S1.

Check the charge flow and the note the com-pressor’s limitations at low ambient temperatures.

Unsuccessful defrosting. Indicated as 15 in channelS1.

Check the charge flow.

Short operations times Indicated as 16 in channel S1.

Check the connection difference for the thermo-stat. Check the start temperature hot water in anyNIBE indoor module. Check the charge flow andthe particle filter which may be partially clogged.

Hot gas temperature exceeds 135 °C. Indicated as 17in channel S1.

Contact refrigeration technician.

Ice build up in the fan collar

NOTE

Only applies in certain areas.

Collar heater (channel A14) not activated.

Activate the collar heater in channel A14.

Ice build up on the fan blades and front grille

NOTE

Only applies in certain areas.

"Defrosting fan" (channel A15) not activated.

Activate "defrosting fan" in channel A15.

Sensor placement

LP HP

34

34

High pressure pressostatBP1Low pressure pressostatBP2Temperature sensor, heating medium return lineBT3Temperature sensor, condenser supply lineBT12Temperature sensor, hot gasBT14Temperature sensor, fluid pipeBT15Temperature sensor, evaporatorBT16Temperature sensor, suction gasBT17Ambient temperature sensorBT28

NIBE™ F2016Chapter 9 | Disturbances in comfort34

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

Data for hot gas sensor (BT14)

Voltage (V)Resistance(kOhm)

Temperature(°C)

4.81118.7404.7796.13454.7278.30504.6664.11554.5952.76604.5143.64654.4336.26704.3330.27754.2225.38804.1021.37853.9718.07903.8315.33953.6813.061003.5211.171053.369.591103.198.261153.017.131202.846.181252.675.371302.504.691352.334.10140

35Chapter 9 | Disturbances in comfortNIBE™ F2016

Data for evaporator sensor (BT16), ambient tem-perature sensor (BT28) and suction gas sensor(BT17)

Voltage (VDC)Resistance(kOhm)

Temperature(°C)

4.7177.58-504.6257.69-454.5143.34-404.3732.87-354.2125.17-304.0319.43-253.8215.13-203.5811.88-153.339.392-103.077.481-52.806.00002.544.84452.283.935102.033.217151.802.644201.592.186251.391.817301.221.518351.071.274400.931.075450.810.911500.710.775550.620.662600.540.568650.470.490700.410.4233750.360.367800.320.320850.280.280900.250.245950.220.216100

NIBE™ F2016Chapter 9 | Disturbances in comfort36

LE

K

LEK

+20-2

A B A B A BI II III I II I II

VVM 300

SMO 10VPAVVM 300

Control boxDouble-jacketed hot water cylinderIndoor module

Part no. 089 638VPA 300/200 Part No. 088 710Part no. 069 010

VPA 450/300 Part No. 088 660

AJ

LEK

10

15 20

2530

°C

LEK

VT 10RT 10HR 10

Heating thermostatRoom thermostatAuxiliary relay

Part no. 418 801Part no. 418 366Part no. 089 423

LEK

KVR 10VST 11VST 05

Condensation water pipe, differentlengths.

Hot water control

Shuttle valve, Cu-pipe Ø28

Hot water control

Reversing valve, Ø 22 mm, Compressionring KVR 10-10, 1 m

Part no 067 171Max recommended charge power, 15

kWMax recommended charge power, 11kW KVR 10-30, 2.5 m

Part no 067 172Part no. 089 152

Part no. 089 982KVR 10-60, 5 mPart no 067 173

LEK

LEK

SMO 05

Control box

Part no. 067 100

37Chapter 10 | AccessoriesNIBE™ F2016

10 Accessories

Dimensions and setting-out coordinates

465

370

440

1045

315

125

365

70 10751175

1200

30-

50

200

130

130

520

XL1

XL2

75

350

Ø 40

Fritt utrymme framför



350

mm

utrymmeom

3000

mm

NIBE™ F2016Chapter 11 | Technical data38

11 Technical data

Sound pressure levelsF2016 is usually placed next to a house wall, which givesa directed sound distribution that should be considered.Accordingly, you should always attempt when positioningto choose the side that faces the least sound sensitiveneighbouring area.

The sound pressure levels are further affected by walls,bricks, differences in ground level, etc and should there-fore only be seen as guide values.

F2016 works with low fan speed or high fan speed de-pending on the ambient temperature (does not apply toF2016 - 6 kW which only has one fan speed).

6 m

10 m

2 m

R

LEK

F2016-11F2016-8F2016-6

57/6257/6257LW(A)Sound power level

46/5146/5146dB(A)Sound pressure level at 2 m. Fan low/high

39Chapter 11 | Technical dataNIBE™ F2016

Technical specifications11861x230V

Output data at nominal flows 1)

12.58/3.93/3.208.99/2.61/3.457.03/2.02/3.48kW/kW/-15/55 Delivered / Supplied power / COP11.06/2.64/4.198.24/1.85/4.456.25/1.41/4.43kW/kW/-7/35 Delivered / Supplied power / COP10.64/3.89/2.747.46/2.60/2.875.74/1.97/2.91kW/kW/-7/55 Delivered / Supplied power / COP9.43/2.59/3.647.06/1.82/3.875.37/1.39/3.86kW/kW/-2/35 Delivered / Supplied power / COP9.21/3.11/2.966.80/2.15/3.165.11/1.63/3.13kW/kW/-2/45 Delivered / Supplied power / COP9.17/3.76/2.446.46/2.57/2.514.78/1.93/2.48kW/kW/-2/55 Delivered / Supplied power / COP7.13/2.47/2.885.16/1.75/2.943.88/1.34/2.90kW/kW/--7/35 Delivered / Supplied power / COP7.13/2.93/2.434.98/2.09/2.383.71/1.57/2.36kW/kW/--7/45 Delivered / Supplied power / COP6.97/3.53/1.964.88/2.49/1.963.53/1.84/1.92kW/kW/--7/55 Delivered / Supplied power / COP5.19/2.31/2.243.71/1.68/2.212.76/1.28/2.16kW/kW/--15/35 Delivered / Supplied power / COP5.31/2.80/1.893.69/2.00/1.842.61/1.50/1.74kW/kW/--15/45 Delivered / Supplied power / COP

Output data according to EN 1451110.02/2.57/3.907.62/1.79/4.265.91/1.40/4.21kW/kW/-7/35 Delivered / Supplied power / COPEN14511

9.95/3.08/3.237.30/2.13/3.425.72/1.67/3.42kW/kW/-7/45 Delivered / Supplied power / COPEN14511

Electrical data230V AC 50 HzRated voltage

18.815.511ArmsMax operating current, heat pump

18.21510.5ArmsMax operating current, compressor

454133ArmsStarting current

0.3710.3420.425OhmMax permitted impedance at connection point 2)

90/13090/13070WNominal output fan (low/high)202016ArmsFuse

Refrigerant circuitR407CType of refrigerantScrollType of compressor

2.12.11.9kgVolume2.9 (29 bar)MPaCut-out value pressostat HP-0.7 (-7 bar)MPaDifference pressostat HP

0.03 (0.3 bar)MPaCut-out value pressostat LP0.07 (0.7 bar)MPaDifference pressostat LP

Brine1700/ 20001700/ 20001500m3/hAirflow

-15/35°CMax/Min air temphot gas defrostingDefrosting system

Heating medium0.05/0.3 (0.5/3 bar)MPaMin/Max system pressure heating medium

0.250.200.16l/sNominal flow2.21.51.3kPaInternal pressure drop at nominal flow

58/20°CMax/Min heating medium temp continuous operationG1 (?28 mm)mmConnection heating medium ext thread

Dimensions and weight1200mmWidth


11861x230V

520mmDepth1095mmHeight with stand

162150147kgWeight (excl. packaging)

MiscellaneousIP 24Enclosure class

dark greyColour064 083064 082064 081Part No.

1)Quoted outputs refer to compressor, fan and control at nominalheating medium flow. During operation that requires defrostingthe relationship between input and output is reduced by about10%.2)Max. permitted impedance in the mains connected point in accord-ance with EN 61000-3-11. Start currents can cause short voltage

dips that could affect other equipment in unfavourable conditions.If the impedance in the mains connection point is higher than thatstated it is possible that interference will occur. If the impedance inthe mains connection point is higher than that stated check withthe power supplier before purchasing the equipment.

Working area

15

20

25

30

35

40

45

50

55

60

65

-20 -15 -10 -5 0 5 10 15 20 25 30 35 40

During shorter time it is allowed to have lower working temperatures on the water side, e.g. during start up.


Electrical circuit diagram


Item registerAAccessories, 37Additional heat / Downtime, 22Adjustment, charge flow, 26Ambient temperature sensor, 22Anti-freeze function, 21Assembly, 5

BBalance temperature, 24

CCharge pump, 12, 21

Anti-freeze function, 21Commissioning and adjusting, 24

Adjustment, charge flow, 26Balance temperature, 24Compressor heater, 24Filling and venting the heating medium system, 24Preparations, 24Readjusting, heating medium side, 25Soft-start relay, 24Start-up and inspection, 25Stop temperature, 24

Communication, 23Compressor heater, 24Connecting accessories, 23Connections, 20Contact information, 4Control, 27, 31

Control - Channels, 31Control - Introduction, 27

Control - Channels, 31Setting channels, 31Status channels, 31Temperature channels, 31

Control conditions, 29Control conditions, cold outdoor air, 29Control conditions defrosting, 30Control - Introduction, 27

Control conditions, 29Control conditions, cold outdoor air, 29Control conditions defrosting, 30Display explanation, 28General, 27Navigation, 27

DDelivery and handling, 5

Assembly, 5Installation area, 7Removing the covers, 8Supplied components, 8Transport and storage, 5

Dimensions and setting-out coordinates, 38Display explanation, 28Disturbances in comfort, 33

Troubleshooting, 33Docking alternatives, 13

F2016 docked to an electric/oil boiler (floating condensing), 17F2016 docked to the electric/oil-fired/pellet boiler together withSMO 05 and water heater (floating condensing), 15F2016 docked to the oil-fired/pellet boiler together with SMO10 and water heater (floating condensing), 16F2016 docked with VVM 300 (floating condensing), 14F2016 docked with wood fired boiler and hot water heater (fixedcondensation), 18

EElectrical cabinet, 11Electrical circuit diagram, 42Electrical connections, 19

Ambient temperature sensor, 22Charge pump, 21Connecting accessories, 23Connections, 20General, 19Optional connections, 22Power connection, 20

Enter button, 27Explanation, 13External indication of common alarms, 23

FF2016 docked to an electric/oil boiler (floating condensing), 17F2016 docked to the electric/oil-fired/pellet boiler together withSMO 05 and water heater (floating condensing), 15F2016 docked to the oil-fired/pellet boiler together with SMO 10and water heater (floating condensing), 16F2016 docked with VVM 300 (floating condensing), 14F2016 docked with wood fired boiler and hot water heater (fixedcondensation), 18Filling and venting the heating medium system, 24

IImportant information, 2

Safety information, 2Inspection of the installation, 3Installation area, 7

MMarking, 2Minus button, 27

NNavigation, 27

Enter button, 27Minus button, 27Plus button, 27

OOptional connections, 22

Additional heat / Downtime, 22Communication, 23External indication of common alarms, 23Thermostat control, 22

PPipe connections, 12

Charge pump, 12Docking alternatives, 13General, 12Pipe coupling heating medium circuit, 12Pressure drop, heating medium side, 12Water volumes, 12

Pipe coupling heating medium circuit, 12Plus button, 27Power connection, 20Preparations, 24Pressure drop, heating medium side, 12

RReadjusting, heating medium side, 25Removing the covers, 8

SSafety information, 2

Contact information, 4

47Chapter 12 | Item registerNIBE™ F2016

12 Item register

Inspection of the installation, 3Marking, 2Serial number, 2Symbols, 2

Sensor placement, 34Serial number, 2Setting channels, 31Soft-start relay, 24Sound pressure levels, 39Start-up and inspection, 25Status channels, 31Stop temperature, 24Supplied components, 8Symbols, 2

TTechnical data, 38

Dimensions and setting-out coordinates, 38Electrical circuit diagram, 42Sound pressure levels, 39Technical Data, 40

Technical Data, 40Temperature channels, 31The heat pump design, 9

Component list electrical cabinet, 11Component location electrical cabinet, 11Component locations, 9List of components, 9–10

Thermostat control, 22Transport and storage, 5Troubleshooting, 33

Sensor placement, 34

NIBE™ F2016Chapter 12 | Item register48

NIBE AB Sweden Hannabadsvägen 5Box 14 SE-285 21 [email protected]

031877

NIBE™ F2016 - nibe.co.uk · PDF filestandard IEC 81346-1 and 81346-2. 10 Chapter 3 | The...

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