Danfoss Light Commercial Instructions

Danfoss Light Commercial

Installation and servicing of the condensing units by qualified personnel only. Follow these instructions and sound refrigeration engineering practice relating to installation, commissioning, maintenance and service.
The condensing unit must only be used for its designed purpose(s) and within its scope of application and according to instruction.
Under all circumstances, the EN378 (or other applicable local safety regulation) requirements must be fulfilled.
The condensing unit must be handled with caution in the vertical position (maximum offset from the vertical : 15°)
Condensing units can be used with refrigerant letter N = R290, necessary care to be taken during installation and servicing.
In case of R290 refrigerants, all components on the refrigeration circuit must be R290 certified. Example: Evaporator.

Relevant Standards and Directive (CE and non CE)
EN 378 -2: Refrigerating Systems And Heat Pumps-Safety And Environmental Requirements.
EN 60335-1: Household And Similar Electrical Appliances – Safety –Part 1: General Requirements
Low Voltage Directive n° 2014 / 35 / UE
Machinary Directive n° 2006 / 42 / CE
EC Pressure directive (PED) no. 2014/68/EU
RoHS Directive 2011-65-EU
WEEE Directive 2012-19-EU
(Other local applicable standards)

Introduction

These instructions pertain to Optyma™
Light Commercial range and R290 OP- LCHC,LCQC,MCGC,MCHC,MCHB,LCNC,MCNC,OPSC,SC,PL,BD,TL,FR,NL,FF,NF,DL used for refrigeration systems

Handling and Storage

• It is recommended not to open the packaging before the unit is at the final place for installation.
• Store and transport the unit in an upright position.
• Store the unit between -35°C and 50°C.
• Don’t expose the packaging to rain or corrosive atmosphere.
• Unit store and transport must be in comply with indication on their carton box.

Installation

| Do not braze as long as the
---|---
condensing unit is under pressure.
It’s not allowed to operate the unit in
flammable atmosphere.
Use a drier with molecular sieves
suitable for R290 (for versions N0,
A09, A11).
Use only dry and clean components
and avoid moisture entering the
system.
Do not lift or move the condensing
unit by using copper tubes. Use Rail
or base provided

Ensure there is sufficient distance between the condenser coil and surrounding to ensure good air circulation.
Condensing unit must be installed away from moving components, potential source of ignition and high temperature.
The unit ambient temperature shall not exceed 50°C during off cycle.
Ensure that the power supply corresponds to the unit characteristics (See nameplate in unit).
Use clean and dehydrated refrigeration-grade copper tubes and silver alloy brazing material.

The suction piping connected to the compressor must be flexible in 3 dimensions to dampen vibrations. Furthermore, piping has to be done in such a way that oil return for the compressor is ensured and the risk of liquid slug over in compressor is eliminated.
Installer must carry out risk assessment for flammable refrigerant (R290) applications by referring EN 378 and equivalent European standards.
Installation, maintenance and commissioning must be carried out by qualified specialists only!
All connections, for example solderings and flare joints, are to be made professionally.
Protect the surroundings against the admittance of unauthorized persons. Pay attention to sufficient ventilation.
Remove transport safety devices, if any.
Mount the condensing unit horizontally. Use the correct tube diameters.
Prevent any vibrations. Avoid smoking and open fire.
Refrigerant is to be removed and disposed of professionally.
Assembly of the condensing units
Prepare the tube connections from the evaporator.
It is recommended to use a drier with 3Å molecular sieves, e.g. Danfoss type DML.
Use only dry components and avoid moisture entering the system.
The system components must not contain any chlorine, mineral oil, or other oily substances.
Maximum test pressure must not exceed 32 bar.

Refrigerant charging

Refrigerant charging (N0, N1, N2, T0, T1, T2,A00, A01 and A04)
Annex C Fig.2 The process descriptions below are based on the equipment shown.

1. Suction stop valve
2. Discharge stop valve
3. Connection to suction side
4. Shut-off valve to vacuum pump
5.  Shut-off valve to charging cylinder
6. Connection to discharge side
7. Shut-off valve to discharge side
8. Shut-off valve to suction side
9. Connection to vacuum pump
10. Connection to charging cylinder
    When a vacuum of 0.5 mbar or lower has been reached, shut off the connection to the vacuum pump by closing all manifold valves.

Repeat the evacuating process once or twice if necessary and then close all manifold valves.
Close the service connector of the suction stop valve (1) by turning the spindle „anticlockwise“ to the rear stop.
Refrigerant charging must take place from equipment not contaminated with refrigerants containing chlorine.
For units with stop valves the rule is that refrigerant should always be charged in liquid form through the discharge stop valve of the unit in order to avoid liquid hammer when the unit is started. If this rule cannot be observed the compressor is not to be started until the pressure and the temperature of the refrigerating system have been equalized.
Open valves (5) and (7) of the valve manifold while keeping the other valves closed.
When all liquid has been transferred to the discharge side of the unit close the service connector of the discharge valve (2) by turning the spindle anticlockwise to the rear stop.
Remove all hose connections.
Fit the union nuts with blind caps on pressure gauge connectors (1) and (2).
Fit and tighten up caps on the valve spindles.

Evacuation

Evacuation (N2, T2, A01 and A04)
Annex C Fig. 2. The process descriptions below are based on the equipment shown.

1. Suction stop valve
2. Discharge stop valve
3. Connection to suction side
4. Shut-off valve to vacuum pump
5. Shut-off valve to charging cylinder
6. Connection to discharge side
7. Shut-off valve to discharge side
8. Shut-off valve to suction side
9. Connection to vacuum pump
10. Connection to charging cylinder

Connect the discharge line to the suction stop valve (1) of the unit.
Connect the suction line, via the filter drier, to the discharge stop valve (2).

• Make the connection (3) between the manifold and the service connector of the suction stop valve (1).
• Make the connection (6) between the manifold and the service connector of the discharge stop valve (2).
• Make the connection (9) between the vacuum pump and the manifold (4).
• Make the connection (10) between the charging cylinder and the manifold (5).
• Remove the protective caps from the spindles of both stop valves (1) and (2).
• Open valves (4), (7) and (8). Open stop valves (1) and (2) to mid position. Start the vacuum pump.
• Vacuum pumps, which are normally used for refrigerants containing chlorine, cannot be used with R134a, R404A/R507 and R452A.
• Only a vacuum pump with special Polyolester oil may be used for systems with refrigerant containing FCKW, HFCKW and HFKW.
• (Contact the pump supplier.)

Evacuation (T0, A00)
Evacuation takes place through the compressor then process connector after complete connection in the refrigerating circuit.
Plan sufficient time for the evacuation as it takes place from the low pressure side only, unless additional measures were taken to speed up the evacuation.
Vacuum pumps normally used for refrigerants containing chlorine must not be used with
R134a and R404A/R507. Only a vacuum pump with special Polyolester oil may be used for systems with refrigerant containing FCKW,
HFCKW and HFKW. (Contact the pump supplier.)

Electrical connections

• Prepare the electrical connections while evacuation is taking place. Do not start the compressor until the vacuum has been broken. Remove the cover over the terminal board. Connect the leads.
• It is impossible to start the unit without a thermostat (1H see Annex C , fig. 2) being connected or a lead between 1 or 2, respectively, and L has been established (Annex C Fig. 3-16).
  Annex C Fig. 3. Wiring diagram for the compressor platform: P, T, N, F, S.
  Annex C Fig. 4. Wiring diagram for the compressor platform: SC with CSR (starting and operating capacitor).
  Annex C Fig. 5. Wiring diagram for the compressor platform: TL, FR and SC condensing units with pressure control.
  Annex C Fig. 6. Wiring diagram for the compressor platform: SC condensing units with combined high and low pressure control andCSR (starting and operating capacitor).
  Annex C Fig. 7. Wiring diagram for the compressor platform: MP & ML condensing units.
  Annex C Fig. 8. Wiring diagram for Twin compressor, see SC.
  Annex C Fig. 9. Wiring diagram for Twin compressor, with 50% of fan speed.

Annex C Fig. 10-16. Wiring diagram for R290 models.

• 1A. Main winding
• 1B. Start winding
• 1C. Start relay
• 1D. Winding protector
• 1E. Start capacitor
• 1F. Bleeder resistance
• 1G. Run capacitor
• 1H. Thermostat
• 1J. Fan
• 1K. Pressure control
  Fit the terminal board cover.
  Keep away flammables from the electrical equipment.

Declaration of conformity

• All our condensing units are complied with low voltage directive 2014/35/EU and must be incorporated during installation.

• Low Voltage Directive 2014/35/EU
  EN 60335-1:2012 + A11:2014- Household and similar electrical appliances- Safety-Part 1: General requirements-for all above mentioned condensing units with compressor platforms FR, GS, L, P, NF, NL, PL, SC and TL.

• Eco-design DIRECTIVE 2009/125/
  EC, establishing a framework for the setting of Eco-design requirements for energy-related products.

• REGULATION (EU)
  2015/1095, implementing Eco-design Directive 2009/125/EC with regard to
  Eco-design requirements for professional refrigerated storage cabinets, blast cabinets, condensing units and process Chiller.

• Condensing unit measurements are made according to standard “EN 13771-2:2007”

  • Compressor and condensing units for refrigeration-performance testing and test methods- part 2: Condensing units

• The following approvals must be obtained through authorised institutes like Nemko, Demko, BEAB, LCJE, etc. Among others EN 60 335- 2-24, IEC 335-2-89, IEC 79-15.

Safety

Important service and safety tips
The drier must always be replaced when a system has been opened.
Blow through the system with dry nitrogen before soldering.
When a defective system is emptied the refrigerant must be collected without mixing with other refrigerants, and the refrigerant must not leak into the environment.
(See also “Installation“).
The condenser and the complete condensing unit must be cleaned regularly.
Specified maintenance and cleaning intervals must be observed.
Working on components that are under pressure is dangerous.
Beware of hot and extremely cold components. Beware of moving components (e.g. fan).
Pay attention to sufficient ventilation.
Check the perfect operation of the fan.
The application limits stated by the manufacturer must be observed.
If pressure controls are specified, they must be installed professionally.
The operating condition must be monitored in order to ensure perfect operation.

Check whether the shut-off valves (suction and discharge side) are completely opened. Ensure that EN 378 is observed.
If forced ventilation is necessary, this is to be clearly shown (i.e. by a label).
Do not install in aggressive, moist or dusty environment.
Do not install or start in rooms containing flammable gases or in installations operating with such.
Pressure Equipment Directive 2014/68/EU EN 378-2:2016
Condensing units are no „units“ in accordance with the PED.
The unit/installation into which the condensing unit is mounted/integrated, must be in accordance with the PED.

Maximum refrigerant charges

It is recommended that only the right quantity of refrigerants necessary for correct function of the refrigeration system be added.
For refrigeration systems with capillary tube the charge must be adapted to suit each system type.
The operating charge must never exceed the capacity of condenser and receiver.
Always avoid excess refrigerant charge!Crankcase heater
If the maximum amounts of refrigerant cannot be observed in T0, T2, A01, A02, A04 or T0 condensing units respectively, a crankcase heater or a pump-down transmission must be used. The crankcase heater must be fitted directly over the weld.
The crankcase heater will heat the compressor oil during standstill periods. When the refrigeration system has been at a stand-still for longer periods the crankcase heater must be cut in 2-3 hours before starting. The following crankcase heaters are recommended
TL and FR: 35 W (code no. 192H2095) SC: 55W (code no. 192H2096)

Cold start

After installing the unit the compressor must be allow-ed to assume a temperature higher than 10°C before it is started for the first time. This will prevent possible start problems caused by too high oil viscosity.
At lower temperatures some tripping of the winding protector may be expected until the viscosity of the oil becomes reduced.
See also crankcase heater.
Never start during vacuum!

Winding protector

The compressors have a built-in winding protector. If the protector cuts out while the compressor is cold it may take approx. 5 minutes for the protector to reset.
If the winding protector cuts out while the compressor is hot (compressor housing above 80°C) up to 45 minutes may pass before the protector resets.

Checking the winding protector
In the event of a compressor failure a check must be made by resistance measurement direct on the current lead-in to find out whether the fault is due to motor damage or simply a winding protector trip.
Annex C Fig. 3. Location of the winding protector in the electrical circuit.

1A. Main winding
1B. Start winding
1D. Winding protector
If resistance measuring shows that there is a
connection through the motor windings from points K and S of the current lead- in, but a broken circuit between points K and F or between S and F, this indicates that the winding protector has cut out. Therefore, wait for the protector to reset.

ACB Pressostat setting (mini HP/LP)

Application| Refrigerant| High Pressure Setting (bar)| Low pressure Setting (bar)
---|---|---|---
ON| OFF| ON| OFF
LBP| R290| 16| 20| 0.3| -0.4
MBP| R290| 10| 25| 1.7| 0.7
LBP| R404A| 20| 25| –| –
MBP| R134a| 13| 18| 1.5| 0.1

Dual Pressure Switch Setting

Refrigerants| High pressure settings (bar (g))| Low pressure settings (bar (g))
---|---|---
ON| OFF| ON| OFF
R404A/R507/R452A| 23| 27| 2| 1
R134a/R513A| 13| 17| 2| 1

Annex – A, Technical data

Label information

A: Condensing unit code number
B: Production serial number
C: Refrigerant
D: Model designation
E: Power supply for compressor & fan motor

Designation – Catalogue

OP = Optyma

1| Application:

M = Medium Back Pressure ; L = Low Back Pressure

---|---
2| Compressor Platform:

C : Air cooled condensing unit with single fan

3

| Refrigerant:

G : R134a, R513A; H: R404A/R507;

Q : R452A, R404A/R507;

N : R290

4| Condenser design:

C : Fin & Tube condenser, ambient temperature up to 43°C

5| Compressor displacement: Example 048 = 48 cm3

6

| Reciprocating compressor platform:

FR = FR, NF = NF, SC = SC, GS = GS, NX = NX, NB = NBC, NS = NS, NU = NUY, NP = NPT, MP = MPT, MY = MLY, MX = MX, TL = TL, NL = NL

7

| Version:

A00, A01, A04, A09, A10, A11. See table Feature overview, for fea- tures within each version.

8

| Electrical code:

G: Compressor 230V/1P/50Hz, fan 230V/1P/50Hz E: Compressor 400V/3P/50Hz, fan 230V/1P/50Hz

| Light Commercial| Light Commercial R290
---|---|---
A00| A01| A04| A09| A10| A11
Ambient temperature| Up to 43°C| Up to 43°C
Hermetic reciprocating compressor platform| MPT, MLY, NL, SC, GS, FR, TL, NF| NUY, NBC, NPT, NS, NX
Unit base| Rails or base plate
Condenser type| Fin & Tube (painted)
Fan| AC/ EC| AC/ EC| AC/ EC| EC| EC| EC
Bracket & tube for pressostat mounting| –| yes| yes| yes| –| –
Dual pressure switch – KP 17 WB| –| –| yes| –| –| –
Schrader valve| –| –| –| yes| yes| yes
Wired electrical box| yes| yes| yes| yes| yes| yes
Mini HP/LP pressostat| –| –| –| –| yes| –
Power cord| –| –| yes| –| yes| –
Receiver| –| yes| yes| –| Combo drier

+ receiver

| –

Designation – Non catalogue

__

__

__

__

__

__

3

| Application and Refrigerant:

CM = LBP;                                   R22

CL = LBP;                                    R404A/R507

CN = LBP/MBP;                            R290

CP = LBP;                                    R404A/R507, R452A

DM = HBP;                                R22

DL = HBP;                                  R404A/R507

F = LBP/(MBP);                          R134a

FT = LBP tropical;                      R134a

G = LBP/MBP/HBP;                       R134a & R513A

GH = Heat pump optimized;         R134a

MF = MBP;                                 R134a

ML = MBP;                                 R404A/507

__

4

| Start characteristics: X = HST

K = LST

__

__

__

5

| Version:

N0 – For capillary tube – without stop valves, without receiver N1 – For capillary tube – with 1x stop valve, without receiver N2 – For capillary tube – with 2x stop valve, without receiver T0 – For expansion valve – with receiver without 2x stop valves T1 – For expansion valve – with receiver with 1x stop valves

T2 – For expansion valve – with receiver with 2x stop valves

| Light Commercial
---|---
N0| N1| N2| T0| T1| T2
Ambient temperature| Up to 43°C
Hermetic reciprocating compressor| NL, SC, GS, FR, TL, NF, DL
Unit base| Rails or base plate
Condenser type| Fin & Tube (painted)
Schrader valve| –| –| –| yes| yes| yes
Wired electrical box| yes| yes| yes| yes| yes| yes
Service valve| –| yes| yes| –| yes| yes
Receiver| –| –| –| yes| yes| yes

Catalogue Models

Light Commercial – Technical data

Application| Version| ****

Description

| ****

Compressor

| ****

Electrical code

| Refrigerant| Condenser coil| Fan| ****

Receiver Volume (L)

| ****

Suction Line

| ****

Liquid line

---|---|---|---|---|---|---|---|---|---|---
A00| A01| A04| Designation| Internal Volume (L)| Number| Blade (mm)
LBP| 114X1208| 114X1209| 114X1211| OP-LCHC004TL| TL4CL| G| H| BG2| 0.25| 1| 200| 0.8| 1/4″| 1/4″
LBP| | 114X1221| | OP-LCQC004ML| MLY45LAb| G| Q| BG2| 0.25| 1| 200| 0.8| 3/8″| 1/4″
LBP| 114X1216| 114X1217| 114X1219| OP-LCHC006FR| FR6CL| G| H| BG2| 0.25| 1| 200| 0.8| 3/8″| 1/4″
LBP| | 114X1337| | OP-LCQC006ML| MLY60LAb| G| Q| BG3| 0.31| 1| 230| 1.1| 3/8″| 1/4″
LBP| 114X1328| 114X1329| 114X1331| OP-LCHC007NL| NL7CLX| G| H| BG3| 0.31| 1| 230| 1.1| 3/8″| 1/4″
LBP| 114X1324| 114X1325| 114X1327| OP-LCHC008FR| FR8.5CL| G| H| BG3| 0.31| 1| 230| 1.1| 3/8″| 1/4″
LBP| 114X1304| 114X1301| 114X1302| OP-LCHC008NL| NL8.4CLX| G| H| BG3| 0.31| 1| 230| 1.1| 3/8″| 1/4″
LBP| | 114X1341| | OP-LCQC008ML| MLY80LAb| G| Q| BG3| 0.31| 1| 230| 1.1| 3/8″| 1/4″
LBP| 114X1440| 114X1441| 114X1443| OP-LCHC012SC| SC12CL| G| H| BG4/5| 0.4| 1| 254| 1.1| 3/8″| 1/4″
LBP| 114X1444| | | OP-LCHC012SC| SC12CLX.2| G| H| BG4/5| 0.4| 1| 254| 1.1| 3/8″| 1/4″
LBP| | 114X1449| | OP-LCQC012ML| MLY12LAb| G| Q| BG4/5| 0.4| 1| 254| 1.1| 3/8″| 1/4″
LBP| | 114X1569| | OP-LCQC012MP| MPT12LA| G| Q| BG4/5| 0.4| 1| 254| 1.1| 3/8″| 1/4″
LBP| | 114X1573| | OP-LCQC014MP| MPT14LA| G| Q| BG4/5| 0.4| 1| 254| 1.1| 1/2″| 1/4″
LBP| 114X1548| 114X1549| 114X1551| OP-LCHC015SC| SC15CLX| G| H| BG4/5| 0.4| 1| 254| 1.1| 3/8″| 1/4″
LBP| 114X1556| 114X1557| 114X1559| OP-LCHC018SC| SC18CL| G| H| BG4/5| 0.4| 1| 254| 1.1| 1/2″| 1/4″
LBP| 114X1600| 114X1601| 114X1602| OP-LCHC021SC| SC21CL| G| H| BG6| 0.63| 1| 300| 1.1| 1/2″| 1/4″
LBP| | 114X1673| | OP-LCHC026GS| GS26CLX| G| H| BG6| 0.63| 1| 300| 2.4| 1/2″| 3/8″
LBP| | 114X1781| 114X1783| OP-LCHC034GS| GS34CLX| G| H| BG7| 0.84| 1| 300| 2.4| 1/2″| 3/8″
MBP| 114X0104| 114X0105| 114X0107| OP-MCGC003TL| TL3GX| G| G| BG1| 0.13| 1| 172| 0.8| 1/4″| 1/4″
MBP| 114X0108| 114X0109| 114X0111| OP-MCGC004TL| TL4GX| G| G| BG1| 0.13| 1| 172| 0.8| 1/4″| 1/4″
MBP| 114X0301| 114X0302| 114X0303| OP-MCHC004TL| TL4DL| G| H| BG3| 0.31| 1| 230| 1.1| 3/8”| 1/4”
MBP| 114X0112| 114X0113| 114X0115| OP-MCGC005TL| TL5GX| G| G| BG1| 0.13| 1| 172| 0.8| 1/4″| 1/4″
MBP| 114X0200| 114X0201| 114X0203| OP-MCGC006FR| FR6GX| G| G| BG2| 0.25| 1| 200| 0.8| 3/8″| 1/4″
MBP| 114X2316| 114X2317| 114X2319| OP-MCHC006FR| FR6DLX| G| H| BG3| 0.31| 1| 230| 1.1| 3/8″| 1/4″
MBP| 114X0228| | | OP-MCGC006NL| NL6.1MF| G| G| BG2| 0.25| 1| 200| 0.8| 3/8″| 1/4″
MBP| 114X0216| 114X0217| 114X0219| OP-MCGC007FR| FR7.5GX| G| G| BG2| 0.25| 1| 200| 0.8| 3/8″| 1/4″
MBP| 114X0244| | | OP-MCGC007NL| NL7.3MF| G| G| BG2| 0.25| 1| 200| 0.8| 3/8″| 1/4″
MBP| 114X2424| 114X2425| 114X2427| OP-MCHB007NF| NF7MLX| G| H| BG4/5| 0.4| 1| 254| 1.1| 3/8″| 1/4″
MBP| 114X0224| 114X0225| 114X0227| OP-MCGC008FR| FR8.5GX| G| G| BG2| 0.25| 1| 200| 0.8| 3/8″| 1/4″
MBP| 114X0204| 114X0205| | OP-MCGC008NL| NL8.4MF| G| G| BG2| 0.25| 1| 200| 0.8| 3/8″| 1/4″
MBP| 114X0352| | | OP-MCGC008NL| NL8.4MF| G| G| BG3| 0.31| 1| 230| –| 3/8″| 1/4″
MBP| | | 114X0223| OP-MCGC010SC| SC10GX| G| G| BG2| 0.25| 1| 200| 0.8| 3/8”| 1/4”
MBP| 114X0403| 114X0404| 114X0405| OP-MCHC010SC| SC10MLX| G| H| BG4/5| 0.4| 1| 254| 1.1| 3/8”| 1/4”
MBP| 114X0336| 114X0337| 114X0339| OP-MCGC011FR| FR11GX| G| G| BG3| 0.31| 1| 230| 1.1| 3/8″| 1/4″
MBP| 114X0340| 114X0341| 114X0343| OP-MCGC012SC| SC12GX| G| G| BG3| 0.31| 1| 230| 1.1| 3/8″| 1/4″
MBP| 114X0406| 114X0407| 114X0408| OP-MCHC013SC| SC12MLX| G| H| BG4/5| 0.4| 1| 254| 1.1| 3/8”| 1/4”
MBP| 114X0448| 114X0449| 114X0451| OP-MCGC015SC| SC15GX| G| G| BG4/5| 0.4| 1| 254| 1.1| 3/8″| 1/4″
MBP| | 114X2649| 114X2651| OP-MCHC015SC| SC15MLX| G| H| BG6| 1.1| 1| 300| 1.1| 1/2″| 1/4″
MBP| 114X0556| 114X0557| 114X0559| OP-MCGC018SC| SC18G| G| G| BG4/5| 0.4| 1| 254| 1.1| 3/8″| 1/4″
MBP| | 114X0702| 114X0703| OP-MCHC018SC| SC18MLX| G| H| BG7| 0.84| 1| 300| 1.1| 1/2″| 1/4″
MBP| 114X0568| | | OP-MCGC021SC| SC21MF| G| G| BG4/5| 0.4| 1| 254| 1.1| 3/8″| 1/4″
MBP| 114X0564| 114X0565| 114X0567| OP-MCGC021SC| SC21GX| G| G| BG4/5| 0.4| 1| 254| 1.1| 3/8″| 1/4″
MBP| | 114X2765| 114X2767| OP-MCHC021GS| GS21MLX| G| H| BG7| 0.84| 1| 300| 1.6| 5/8″| 3/8″
MBP| | 114X0773| | OP-MCGC026GS| GS26MFX| G| G| BG7| 0.84| 1| 300| 2.4| 3/8″| 1/4″
MBP| | 114X0781| | OP-MCGC034GS| GS34MFX| G| G| BG7| 0.84| 1| 300| 2.4| 1/2″| 3/8″

R290 – Technical data

Application| version| ****

Description

| ****

Compressor

| ****

Electrical code

| Refrigerant| Condenser coil| Fan| ****

Receiver Volume (L)

| ****

Suction Line (mm)

| ****

Liquid line (mm)

---|---|---|---|---|---|---|---|---|---|---
A09| A10| A11| Designa- tion| Internal Volume (L)| Number| Blade (mm)
LBP| 114F0202| 114F0203| 114F0201| OP-LCNC004NU| NUY45LAb| G| N| BG2| 0.25| 1| 200| 0.114| 6| 6
LBP| 114F0205| 114F0206| 114F0204| OP-LCNC006NU| NUT60CAe| G| N| BG2| 0.25| 1| 200| 0.114| 6| 6
LBP| 114F0308| 114F0309| 114F0307| OP-LCNC008NU| NUY80LAb| G| N| BG3| 0.31| 1| 230| 0.114| 6| 6
LBP| 114F0411| 114F0412| 114F0410| OP-LCNC011NY| NPY12LAb| G| N| BG4/5| 0.4| 1| 254| 0.165| 8| 6
LBP| 114F0414| 114F0415| 114F0413| OP-LCNC016NP| NPT16LA| G| N| BG4/5| 0.4| 1| 254| 0.165| 8| 6
LBP| 114F0417| 114F0418| 114F0416| OP-LCNC023NX| NX23FBa| G| N| BG4/5| 0.4| 1| 254| 0.165| 10| 6
LBP| 114F0620| 114F0621| 114F0619| OP-LCNC034NS| NS34FB| G| N| BG6| 0.63| 1| 300| 0.32| 12| 6
MBP| 114F1202| 114F1203| 114F1201| OP-MCNC003NB| NBC30RA| G| N| BG2| 0.25| 1| 200| 0.114| 6| 6
MBP| 114F1205| 114F1206| 114F1204| OP-MCNC004NU| NUY45RAb| G| N| BG2| 0.25| 1| 200| 0.114| 6| 6
MBP| 114F1308| 114F1309| 114F1307| OP-MCNC006NU| NUY60RAb| G| N| BG3| 0.31| 1| 230| 0.114| 6| 6
MBP| 114F1411| 114F1412| 114F1410| OP-MCNC008NU| NUY80RAb| G| N| BG4/5| 0.4| 1| 254| 0.165| 6| 6
MBP| 114F1414| 114F1415| 114F1413| OP-MCNC009NU| NUY90RAb| G| N| BG4/5| 0.4| 1| 254| 0.165| 6| 6
MBP| 114F1417| 114F1418| 114F1416| OP-MCNC011NY| NLY12RAb| G| N| BG4/5| 0.4| 1| 254| 0.165| 8| 6
MBP| 114F1420| 114F1421| 114F1419| OP-MCNC014NP| NPT14RA| G| N| BG4/5| 0.4| 1| 254| 0.165| 8| 6
MBP| 114F1623| 114F1624| 114F1622| OP-MCNC016NP| NPT16RA| G| N| BG6| 0.63| 1| 300| 0.32| 8| 6
MBP| 114F1626| 114F1627| 114F1625| OP-MCNC018NX| NX18TBa| G| N| BG6| 0.63| 1| 300| 0.32| 10| 6
MBP| 114F1629| 114F1630| 114F1628| OP-MCNC020NX| NX21TBa| G| N| BG6| 0.63| 1| 300| 0.32| 10| 6

Non catalogue – Technical data

Application

| version| ****

Compressor

| ****

Refrigerant

| ****

Condenser

| Fan| ****

Receiver Volume (L)

---|---|---|---|---|---|---
T0| T1| T2| N0| N2| Number| Diameter (mm)
LBP| –| –| –| –| 114G1600| TL3F| F| BG2| 1| 200| 0.8
LBP| –| –| 114E2471| 114H1506| –| TL4CL| CL| BG1| 1| 170| 0.8
LBP| –| –| –| 114E2123

114E2227

| 114G1602| TLS5F| F| BG1| 1| 170| 0.8
LBP| –| –| 114H2726| 114E2454

114E2503

| –| FR6CL| CL| BG2| 1| 200| 0.8
LBP| –| –| –| 114G1512| 114G1612| NL9F| F| BG2| 1| 200| 0.8
LBP| –| –| –| | 114G2613| NL11F| F| BG2| 1| 200| 0.8
LBP| –| –| –| 114E2603| –| NL8.4MF| MF| BG2| 1| 200| 0.8
LBP| –| –| –| 114E2577

114H3546

| –| NL8.4CLX| CL| BG3| 1| 230| 1.1
LBP| 114E2593| 114E2517| 114H3728| –| –| FR8.5CL| CL| BG3| 1| 230| 1.1

LBP

| ****

–

| ****

114E2156

| ****

114H3730

| 114E2198

114E2452

114E2534

| ****

–

| ****

SC10CL

| ****

CL

| ****

BG3

| ****

1

| ****

230

| ****

1.1

LBP| –| –| | | 114G1611| NL7F| F| BG4/5| 1| 254| 1.1
LBP| –| –| 114H4731| | | SC12CL| CL| BG4/5| 1| 254| 1.1
LBP| 114E2536| –| 114H5732| | 114E2361| SC15CL| CL| BG4/5| 1| 254| 1.1
LBP| 114E4007| –| 114H5733| 114H5533

114E2172

| –| SC18CL| CL| BG4/5| 1| 254| 1.1

LBP

| 114E2353

114E2555

114E4003

| ****

–

| ****

–

| ****

–

| ****

–

| ****

SC21CL

| ****

CL

| ****

BG4/5

| ****

1

| ****

254

| ****

1.1

LBP| –| –| 114H6735

114H6335

| –| –| SC10/10CL| CL| BG6| 1| 300| 2.4

LBP

| ****

–

| ****

–

| 114H7736

114H7336

114F5052

| ****

–

| ****

–

| ****

SC12/12CL

| ****

CP

| ****

BG7

| ****

1

| ****

300

| ****

2.4

LBP

| ****

–

| ****

–

| 114H7337

114F5053

114H7737

| ****

–

| ****

–

| ****

SC15/15CL

| ****

CL

| ****

BG7

| ****

1

| ****

300

| ****

2.4

LBP| 114E2546| –| 114H7338

114H7738

| –| –| SC18/18CL| CP| BG7| 1| 300| 2.4
LBP| –| –| 114H7339

114H7739

| –| –| SC21/21CL| CP| BG7| 1| 300| 2.4
MBP| –| –| –| 114G0503| –| PL35G| G| BG0| 1| 172| –
MBP| –| –| –| 114E2203

114G0502

| –| PL50F| F| BG0| 1| 172| –
MBP| 114B0017| –| –| –| –| BD250GH| G| BG0.5| 1| 172| –
MBP| –| –| 114G1706| 114G1506| 114G1606| TL4G| G| BG1| 1| 170| 0.8
MBP| 114E2548| –| 114G1708| 114E2492

114E2541

| –| TL5G| G| BG1| 1| 170| 0.8
MBP| –| –| –| 114B0006

114G1901

| –| TL4GH| G| BG1| 1| 170| 0.8
MBP| –| –| –| 114G2515| 114G2615| FR6G| G| BG2| 1| 200| 0.8
MBP| –| –| –| 114G2518| –| FR7.5G| G| BG2| 1| 200| 0.8

MBP

| ****

114E2346

| ****

–

| ****

114G2716

| 114E2201

114E2332

114G2516

| ****

114G2616

| ****

FR8.5G

| ****

G

| ****

BG2

| ****

1

| ****

200

| ****

0.8

MBP

| 114E2410

114E2519

114E2522

| ****

–

| ****

–

| ****

114E2362

| ****

–

| ****

FR8.5G

| ****

G

| ****

BG2

| ****

1

| ****

200

| ****

0.8

Application

| version| ****

Compressor

| ****

Refrigerant

| ****

Condenser

| Fan| ****

Receiver Volume (L)

---|---|---|---|---|---|---
T0| T1| T2| N0| N2| Number| Diameter (mm)
MBP| | –| 114G2719| –| –| FR10G| G| BG2| 1| 200| 0.8

MBP

| 114E2347

114E2411

114E2520

114E2544

| ****

–

| ****

–

| ****

114E2333

114E2523

| ****

–

| ****

SC10G

| ****

G

| ****

BG2

| ****

1

| ****

200

| ****

0.8

MBP| –| –| 114E2527

114H3727

| –| –| FR6DL| DL| BG3| 1| 230| 1.1
MBP| –| –| 114G3717| 114G3517| 114G3617| FR11G| G| BG3| 1| 230| 1.1
MBP| –| –| –| 114G3536| –| NL10MF| MF| BG3| 1| 230| 1.1

MBP

| 114E2351

114E2390

114E2549

114E2545

114E2457

114E2521

| ****

–

| ****

114G3726

| ****

114E2434

114G3526

114G9350

114G4565

| ****

114G3626

| ****

SC12G

| ****

G

| ****

BG3

| ****

1

| ****

230

| ****

1.1

MBP| –| –| 114E2528

114H5743

| –| –| SC10DL| DL| BG4/5| 1| 254| 1.1
MBP| –| –| 114H5744| –| –| SC12DL| DL| BG4/5| 1| 254| 1.1

MBP

| 114E2352

114E2391

114E2550

| ****

–

| ****

114G4727

| 114E2435

114G4527

| ****

114G4627

| ****

SC15G

| ****

G

| ****

BG4/5

| ****

1

| ****

254

| ****

1.1

MBP

| 114E2442

114E2567

114E4023

| ****

–

| ****

114G5728

| 114E2357

114E2418

114G5528

| ****

–

| ****

SC18G

| ****

G

| ****

BG4/5

| ****

1

| ****

254

| ****

1.1

MBP| 114E2459

114E2551

| –| 114G5730| 114E2419

114G5530

| –| SC21G| G| BG4/5| 1| 254| 1.1
MBP| 114E2540| –| 114E2529

114H6745

| –| –| SC15DL| DL| BG6| 1| 300| 2.4
MBP| –| –| 114E2586| –| –| SC15MLX| ML| BG6| 1| 300| 2.4
MBP| –| –| 114E2587| –| –| SC18MLX| ML| BG7| 1| 300| 2.4
MBP| –| –| 114G6380

114G6780

| –| –| SC12/12G| G| BG6| 1| 300| 2.4
MBP| –| –| 114H7347

114H7747

| –| –| SC10/10DL| DL| BG7| 1| 300| 2.4
MBP| –| –| 114H7348

114H7748

| –| –| SC12/12DL| DL| BG7| 1| 300| 2.4
MBP| –| –| 114G7381

114G7781

| –| –| SC15/15G| G| BG7| 1| 300| 2.4
MBP| –| –| 114H7349

114H7749

| –| –| SC15/15DL| DL| BG7| 1| 300| 2.4
MBP| 114E2128| –| 114G7382

114G7782

| –| –| SC18/18G| G| BG7| 1| 300| 2.4
MBP| 114E2149| –| 114G7383

114G7783

| –| –| SC21/21G| G| BG7| 1| 300| 2.4
LBP/MBP| –| –| –| 114F1504| –| TL5CN| CN| BG1| 1| 170| –
LBP/MBP| –| –| –| 114F1508| –| TL4CN| CN| BG1| 1| 170| –
LBP/MBP| –| –| –| 114F2505| –| NL7CN| CN| BG2| 1| 200| –
LBP/MBP| –| –| –| 114F3500| –| SC10CN| CN| BG3| 1| 230| –
LBP/MBP| –| –| –| 114F3509| –| NL9CN| CN| BG2| 1| 200| –
LBP/MBP| –| –| –| 114F4501| –| SC12CN| CN| BG4/5| 1| 254| –
LBP/MBP| –| –| –| 114F4502| –| SC15CN| CN| BG4/5| 1| 254| –
LBP/MBP| –| –| –| 114F4503| –| SC18CN| CN| BG4/5| 1| 254| –

Application

| Version| ****

Compressor

| ****

Refrigerant

| ****

Condenser

| Fan| ****

Receiver Volume (L)

---|---|---|---|---|---|---
T0| T1| T2| N0| Number| Diameter (mm)
LBP| | | 114G2573| | NL11F| F| BG2| 1| 200| 0.8
LBP| 114E2403| | | | SC10CLX| CL| BG3| 1| 230| 1.2
LBP| 114H4515| | 114E4018| | SC12CL| CL| BG4/5| 1| 254| 1.1
LBP| | | | 114H5953| SC18CLX| CL| BG4/5| 1| 254| 1.1
LBP| | | 114E2495| | SC15CLX| CL| BG4/5| 1| 254| 1.1
LBP| | | 114E4024| | SC15CLX| CL| BG4/5| 1| 254| 1.1
LBP| | | | 114F5062| SC12/12CL| CL| BG4/5| 1| 254| 1.1
LBP| 114F0207

114F0208

| | | | DLE4.8CN| CN| BG2| 1| 200| 0.8
MBP| 114G1900| 114G1660| | 114G1760

114G1940

| TL4G| G| BG1| 1| 170| 0.8
MBP| | | 114E4020| | FF8.5GX| G| BG3| 1| 230| 1.2
MBP| | | 114E4021| 114G3768| FF10GX| G| BG3| 1| 230| 1.2
MBP| 114E2397| | 114E4022| 114G3942| SC12G| G| BG3| 1| 230| 1.2
MBP| | | 114E4002| | SC15G| G| BG4/5| 1| 254| 1.1
MBP| | | | 114G5946| SC18GH| G| BG4/5| 1| 254| 1.1

Annex – B, KP switch settings

legend

• 1A – Main winding
• 1B – Start winding
• 1C – Start relay
• 1D – Winding protector
• 1E – Start capacitor
• 1F – NTC
• 1G – Run capacitor
• 1H – Thermostat
• 1J – Fan
• 1K – Pressure control
• CP1 – Compressor 1
• CP2 – Compressor 2
• D – Bridge or Time Delay
• P – Pressostat
• T – Bridge or Thermostat

Danfoss A/S
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References

• Engineering Tomorrow | Danfoss

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