Daikin RXS-G2V1B Technical Data Manual Download

Page: 8 / 37

• Outdoor Units • R-410A • RXS-G2V1B

• Split Sky Air • Outdoor Units

Specifications

For combination
indoor units +
outdoor units

EER

Nominal

3.24

2.73

COP

Nominal

3.60

2.93

Energy Label

Cooling

Heating

Annual energy consumption

kWh

525

915

Indoor Units

FBQ35C7VEB

FBQ50C7VEB

Cooling capacity

Standard

3.40

5.00

Heating capacity

Standard

4.00

5.50

Power Input

Cooling

Standard

1.06

1.65

Heating

Standard

1.14

1.61

For combination
indoor units +
outdoor units

EER

Nominal

3.21

3.03

COP

Nominal

3.51

3.42

Energy Label

Cooling

Heating

Annual energy consumption

kWh

530

825

2-2 TECHNICAL SPECIFICATIONS

RXS20G2V1B

RXS25G2V1B

RXS35G2V1B

RXS42G2V1B

RXS50G2V1B

Casing

Colour

Ivory White

Dimensions

Unit

Height

550

735

Width

765

825

Depth

285

300

Packing

Height

612

797

Width

906

960

Depth

364

390

Weight

Unit

Packed Unit

Heat Exchanger

Dimensions

Length

828

805

810

845

Nr of Rows

Fin Pitch

1.4

1.5

1.8

Nr of Stages

Tube type

Hi-Xa(7)

Hi-Xa(8)

Fin

Type

Waffle fin

Treatment

Anti-corrosion treatment (PE)

Fan

Type

Propeller

Air Flow Rate

Cooling (Low)

m³/min

34.0

31.4

30.6

48.9

Cooling (High)

m³/min

36.2

33.5

36.0

37.3

50.9

Heating (Low)

m³/min

24.6

22.6

27.2

43.1

Heating (High)

m³/min

32.6

30.2

31.3

45.0

Cooling (Low)

cfm

1,201

1,109

1,079

1,727

Cooling (High)

cfm

1,278

1,183

1,272

1,317

1,797

Heating (Low)

cfm

869

798

959

1,522

Heating (High)

cfm

1,151

1,066

1,107

1,589

Motor

Model

D50Q-28

D50R-28

KFD-380-50-8C

Motor

Speed (nominal)

Cooling (Low)

rpm

810

790

670

Cooling (High)

rpm

860

920

890

780

Heating (Low)

rpm

660

780

670

Heating (High)

rpm

860

890

720

Fan

Motor

Output

Compressor

Quantity

Motor

Model

1YC23AFXD#C

2YC36BXD#C

Type

Hermetically sealed swing compressor

Motor Output

600

1,100

Operation Range

Cooling

Min

°CDB

-10

Max

°CDB

Heating

Min

°CWB

-15

Max

°CWB

2-1 NOMINAL CAPACITY AND NOMINAL INPUT

RXS20G2V1B

RXS25G2V1B

RXS35G2V1B

RXS42G2V1B

RXS50G2V1B

Summary of Contents for RXS-G2V1B

Page 1: ...technical data RXS G2V1B Outdoor units air conditioning systems Split Sky Air EEDEN09 100 ...

Page 2: ...RXS G2V1B Outdoor units EEDEN08 100 technical data air conditioning systems Split Sky Air ...

Page 3: ...al Input 3 Technical Specifications 6 Electrical Specifications 7 3 Electrical data 8 4 Capacity tables 13 Cooling Heating capacity tables 13 5 Dimensional drawing centre of gravity 25 Dimensional drawing 25 Centre of gravity 26 6 Piping diagram 27 7 Wiring diagram 29 Wiring diagram 29 8 Sound data 31 Sound pressure spectrum 31 9 Operation range 33 ...

Page 4: ... l i t S k y R X S G 2 V 1 B R 4 1 0 A Outdoor units for pair application Daikin outdoor units are neat and sturdy and can be mounted easily on a roof or terrace or simply placed against an outside wall Outdoor units are fitted with a swing compressor renowned for its low noise and high energy efficiency ...

Page 5: ...0 4 040 4 470 5 160 5 590 Power Input Cooling Minimum kW 0 32 0 32 0 35 0 44 0 44 Standard kW 0 47 0 55 0 87 1 22 1 52 Maximum kW 0 91 0 81 1 19 2 23 1 81 Heating Minimum kW 0 31 0 31 0 34 0 40 0 40 Standard kW 0 63 0 75 0 96 1 47 1 57 Maximum kW 1 36 1 29 1 46 1 98 2 00 For combination indoor units outdoor units EER Nominal 4 26 4 55 4 02 3 44 3 29 COP Nominal 4 29 4 53 4 17 3 67 3 69 Energy Labe...

Page 6: ... 970 Power Input Cooling Minimum kW 0 30 0 30 0 50 Standard kW 0 57 1 02 1 55 Maximum kW 0 92 1 25 2 00 Heating Minimum kW 0 29 0 31 0 50 Standard kW 0 79 1 22 1 60 Maximum kW 1 39 1 88 2 60 For combination indoor units outdoor units EER Nominal 4 39 3 43 3 23 COP Nominal 4 30 3 69 3 63 Energy Label Cooling A A A Heating A A A Annual energy consumption kWh 285 510 775 Indoor Units FLXS25BAVMB FLXS...

Page 7: ...consumption kWh 365 550 900 Indoor Units FCQ35C7VEB FCQ50C7VEB Cooling capacity Standard kW 3 40 5 00 Heating capacity Standard kW 4 20 6 00 Power Input Cooling Standard kW 0 95 1 41 Heating Standard kW 1 23 1 62 For combination indoor units outdoor units EER Nominal 3 58 3 55 COP Nominal 3 41 3 70 Energy Label Cooling A A Heating B A Annual energy consumption kWh 475 705 Indoor Units FHQ35BVV1B F...

Page 8: ...f Rows 1 2 2 2 2 Fin Pitch mm 1 4 1 4 1 4 1 5 1 8 Nr of Stages 24 24 24 24 32 Tube type Hi Xa 7 Hi Xa 7 Hi Xa 7 Hi Xa 8 Hi Xa 8 Fin Type Waffle fin Treatment Anti corrosion treatment PE Fan Type Propeller Air Flow Rate Cooling Low m min 34 0 31 4 31 4 30 6 48 9 Cooling High m min 36 2 33 5 36 0 37 3 50 9 Heating Low m min 24 6 22 6 22 6 27 2 43 1 Heating High m min 32 6 30 2 30 2 31 3 45 0 Cooling...

Page 9: ...essories Item Installation manual Quantity 1 1 1 1 1 Item Drain plug Quantity 1 Notes Nominal cooling capacities are based on indoor temperature 27 CDB 19 0 CWB outdoor temperature 35 CDB 24 CWB refr pip length 5m Nominal heating capacities are based on indoor temperature 20 CDB outdoor temperature 7 CDB 6 CWB refr pip length 5m 2 3 ELECTRICAL SPECIFICATIONS RXS20G2V1B RXS25G2V1B RXS35G2V1B RXS42G...

Page 10: ...RLA Rated Load Amps A OFM Outdoor Fan Motor IFM Indoor Fan Motor FLA Full Load Amps A W Fan Motor Rated Output W RHz Rated Operated Frequency Hz 3D055008B Representative Unit Combination Power Supply Comp OFM IFM Indoor Unit Outdoor Unit Hz Volts Voltage Range MCA MFA RHz RLA W FLA W FLA FTXS25G2V1B RXS25G2V1B 50 230 Max 50Hz 264V Min 50Hz 198V 9 75 10 34 2 7 50 0 23 23 0 15 2 5 SIMBOLS NOTES MCA ...

Page 11: ...based on the larger value of MCA 4 Instead of fuse use circuit breaker 5 For more details concerning conditional connections see http extranet daikineurope com select E Data Books Finally click on the document title of your choice 3D055009B Representative Unit Combination Power Supply Comp OFM IFM Indoor Unit Outdoor Unit Hz Volts Voltage Range MCA MFA RHz RLA W FLA W FLA FTXS35G2V1B RXS35G2V1B 50...

Page 12: ... Data Books Finally click on the document title of your choice SYMBOLS MCA Min Circuit Amps A MFA Max Fuse Amps A see note 4 A RHZ Rated Operating Frequency Hz RLA Rated Load Amps A OFM Outdoor Fan Motor A IFM Indoor Fan Motor FLA Full Load Amps A w Fan Motor Rated Outdput W Units Power supply Compressor OFM IFM Indoor units Outdoor units Hz Voltage range MCA MFA RHz RLA W FLA W FLA FBQ35C7VEB RXS...

Page 13: ... based on the larger value of MCA 4 Instead of fuse use circuit breaker 5 For more details concerning conditional connections see http extranet daikineurope com select E Data Books Finally click on the document title of your choice 3D059709 Representative Unit Combination Power Supply Comp OFM IFM Indoor Unit Outdoor Unit Hz Volts Voltage Range MCA MFA RHz RLA W FLA W FLA FTXS42G2V1B RKS42G2V1B 50...

Page 14: ...198V 19 75 20 70 6 6 53 0 27 23 0 15 50 230 6 2 SIMBOLS NOTES MCA Min circuit amps A 1 RLA is based on the following conditions Indoor temp 27C DB 19 CWB Outdoor Temp 35 CDB 2 Maximum allowable voltage variation between phases is 2 3 Select wire size based on the lager value of MCA 4 Instead of fuse use circuit breaker MFA Max Fuse Amps A RLA Rated Load Amps A OFM Outdoor Fan Motor IFM Indoor Fan ...

Page 15: ... 0 6 10 C TC PI TC PI TC PI TC PI TC PI 15 0 1 82 0 53 2 12 0 56 2 43 0 58 2 79 0 62 3 04 0 64 20 0 1 72 0 55 2 03 0 57 2 33 0 60 2 70 0 63 2 94 0 65 22 0 1 69 0 55 1 99 0 58 2 30 0 60 2 66 0 64 2 91 0 66 24 0 1 65 0 56 1 95 0 58 2 26 0 61 2 63 0 64 2 87 0 66 25 0 1 63 0 56 1 94 0 59 2 24 0 61 2 61 0 64 2 85 0 66 27 0 1 59 0 57 1 90 0 59 2 20 0 62 2 57 0 65 2 81 0 67 SYMBOLS NOTES AFR Air flow rat...

Page 16: ... 0 6 10 C TC PI TC PI TC PI TC PI TC PI 15 0 2 29 0 63 2 67 0 67 3 06 0 70 3 52 0 73 3 82 0 76 20 0 2 17 0 65 2 56 0 68 2 94 0 71 3 40 0 75 3 71 0 77 22 0 2 12 0 66 2 51 0 69 2 89 0 72 3 35 0 76 3 66 0 78 24 0 2 08 0 66 2 46 0 70 2 85 0 73 3 31 0 76 3 61 0 79 25 0 2 05 0 67 2 44 0 70 2 82 0 73 3 28 0 77 3 59 0 79 27 0 2 01 0 67 2 39 0 71 2 77 0 74 3 24 0 77 3 54 0 80 SYMBOLS NOTES AFR Air flow rat...

Page 17: ...C PI TC SHC PI Heating 50Hz 220 240V AFR 9 Indoor Outdoor temperature CWB EDB 10 5 0 6 10 C TC PI TC PI TC PI TC PI TC PI 3D055487 SYMBOLS AFR Air flow rate m3 min BF Bypass factor EWB Entering wet bulb temp C EDB Entering dry bulb temp C TC Total capacity kW SHC Sensible heating capacity kW PI Power input kW NOTES 1 Capacities are based on the following conditions 1 Corresponding refrigerant pipi...

Page 18: ...0 6 10 C TC PI TC PI TC PI TC PI TC PI 15 0 2 69 0 81 3 14 0 85 3 60 0 89 4 14 0 94 4 50 0 97 20 0 2 55 0 83 3 01 0 87 3 46 0 91 4 00 0 96 4 36 0 99 22 0 2 50 0 84 2 95 0 88 3 40 0 92 3 94 0 97 4 31 1 00 24 0 2 44 0 85 2 90 0 89 3 35 0 93 3 89 0 98 4 25 1 01 25 0 2 42 0 86 2 87 0 89 3 32 0 93 3 86 0 98 4 22 1 01 27 0 2 36 0 86 2 81 0 90 3 26 0 94 3 81 0 99 4 17 1 02 SYMBOLS NOTES AFR Air flow rate...

Page 19: ...C PI TC SHC PI Heating 50Hz 220 240V AFR 10 Indoor Outdoor temperature CWB EDB 10 5 0 6 10 C TC PI TC PI TC PI TC PI TC PI 3D055489 SYMBOLS AFR Air flow rate m3 min BF Bypass factor EWB Entering wet bulb temp C EDB Entering dry bulb temp C TC Total capacity kW SHC Sensible heating capacity kW PI Power input kW NOTES 1 Capacities are based on the following conditions 1 Corresponding refrigerant pip...

Page 20: ...SHC PI TC SHC PI Heating 50Hz 220 240V AFR 12 5 Indoor Outdoor temperature CWB EDB 10 5 0 6 10 C TC PI TC PI TC PI TC PI TC PI 3D057246 SYMBOLS AFR Air flow rate m3 min BF Bypass factor EWB Entering wet bulb temp C EDB Entering dry bulb temp C TC Total capacity kW SHC Sensible heating capacity kW PI Power input kW NOTES 1 Capacities are based on the following conditions 1 Corresponding refrigerant...

Page 21: ...8 0 91 3 79 3 33 0 98 3 73 3 31 1 02 3 63 3 28 1 06 3 48 3 22 1 14 24 0 32 4 27 3 37 0 83 4 11 3 32 0 91 3 95 3 27 0 99 3 89 3 25 1 02 3 79 3 22 1 07 3 63 3 18 1 15 Indoor Outdoor temperature CWB EDB 10 5 0 6 10 C TC PI TC PI TC PI TC PI TC PI 15 0 2 69 0 96 3 14 1 01 3 60 1 05 4 14 1 11 4 50 1 15 20 0 2 55 0 99 3 01 1 03 3 46 1 08 4 00 1 14 4 36 1 17 22 0 2 50 1 00 2 95 1 04 3 40 1 09 3 94 1 15 4...

Page 22: ... 00 1 42 5 58 3 92 1 54 5 49 3 88 1 59 5 35 3 83 1 66 5 11 3 75 1 78 24 0 32 6 27 3 98 1 30 6 04 3 90 1 42 5 81 3 83 1 55 5 72 3 80 1 60 5 58 3 75 1 67 5 34 3 68 1 79 Indoor Outdoor temperature CWB EDB 10 5 0 6 10 C TC PI TC PI TC PI TC PI TC PI 15 0 3 70 1 36 4 32 1 43 4 94 1 50 5 69 1 58 6 19 1 63 20 0 3 51 1 40 4 13 1 47 4 75 1 53 5 50 1 61 6 00 1 67 22 0 3 44 1 41 4 06 1 48 4 68 1 55 5 42 1 63...

Page 23: ... 6 10 C TC PI TC PI TC PI TC PI TC PI 15 0 3 64 1 24 4 24 1 30 4 85 1 36 5 59 1 44 6 07 1 49 20 0 3 45 1 28 4 06 1 34 4 67 1 40 5 40 1 47 5 89 1 52 22 0 3 37 1 29 3 98 1 35 4 59 1 41 5 33 1 48 5 81 1 53 24 0 3 30 1 30 3 91 1 36 4 52 1 42 5 25 1 50 5 74 1 54 25 0 3 26 1 31 3 87 1 37 4 48 1 43 5 21 1 50 5 70 1 55 27 0 3 19 1 32 3 80 1 38 4 41 1 44 5 14 1 52 5 63 1 56 SYMBOLS NOTES AFR Air flow rate ...

Page 24: ... 0 6 10 C TC PI TC PI TC PI TC PI TC PI 15 0 3 90 1 33 4 56 1 39 5 21 1 46 6 00 1 53 6 52 1 59 20 0 3 70 1 36 4 36 1 43 5 01 1 49 5 80 1 57 6 32 1 62 22 0 3 62 1 38 4 28 1 44 4 93 1 51 5 72 1 58 6 24 1 64 24 0 3 54 1 39 4 20 1 46 4 85 1 52 5 64 1 60 6 16 1 65 25 0 3 50 1 40 4 16 1 46 4 81 1 53 5 60 1 61 6 12 1 66 27 0 3 42 1 41 4 08 1 48 4 73 1 54 5 52 1 62 6 03 1 67 SYMBOLS NOTES AFR Air flow rat...

Page 25: ...lb temp C EDB Entering dry bulb temp C TC Total capacity kW SHC Sensible heating capacity kW PI Power input kW NOTES 1 Ratings shown are net capacities which include a deduction for indoor fan motor heat 2 shows nominal rated capacities and power input 3 TC PI and SHC must be calculated by interpolation using the figures in the above tables Figures out of the tables should not be used for calculat...

Page 26: ...SHC PI TC SHC PI Heating 50Hz 220 240V AFR 12 5 Indoor Outdoor temperature CWB EDB 10 5 0 6 10 C TC PI TC PI TC PI TC PI TC PI 3D057248 SYMBOLS AFR Air flow rate m3 min BF Bypass factor EWB Entering wet bulb temp C EDB Entering dry bulb temp C TC Total capacity kW SHC Sensible heating capacity kW PI Power input kW NOTES 1 Capacities are based on the following conditions 1 Corresponding refrigerant...

Page 27: ...Of Removing Stop Valve Cover Gas Stop Valve Ø 9 5 CuT Outdoor Air Thermistor Wall Height On Air Outlet Side Less Than 1200 MINIMUM SPACE FOR AIR PASSAGE RXS50G 4 Holes for anchor bolts M8 or M10 Drain Oulet I D Ø 15 9 Hose For Connection Brand Name Label Name Plate Wiring Inlet Service port Terminal Strip With Earth Terminal In Case Of Removing Stop Valve Cover Gas Stop Valve Ø 12 7 CuT Outdoor Ai...

Page 28: ... Outdoor Units R 410A RXS G2V1B Split Sky Air Outdoor Units 26 5 Dimensional drawing centre of gravity 5 2 Centre of gravity 3 24 5 RXS42G 4D059009B RXS50G The position of foundation bolt 4D051638L ...

Page 29: ...6 4 CuT 6 4 CuT 7 0CuT Heat exchanger Thermistor 9 5 CuT 9 5 CuT 7 9 CuT 7 5 CuT Discharge pipe Thermistor Accumulator ø 4 0 x ID 2 OCuT RXS25 35G 6 4 CuT 6 4 CuT 9 5 CuT 9 5 CuT 9 5 CuT Propeller Fan Muffler Four way valve On Heating Muffler Gas Stop Valve Field Piping Field Piping Cooling Heating Muffler With Filter Outdoor Air Temperate Thermistor Heat exchanger Outdoor Unit Compressor Motor Op...

Page 30: ... CuT 12 5 CuT Muffler With Filter 9 5 CuT ø 4 0 x ID 2 OCuT 7 5 CuT 7 5 CuT 3D059590A RXS50G 7 9 CuT 7 9 CuT 7 9 CuT 7 9 CuT 7 9 CuT 7 9 CuT 7 9 CuT 7 9 CuT 7 9 CuT 7 9 CuT 4 0 CuT 4 0 CuT 6 4 CuT 6 4 CuT 6 4 CuT 12 7 CuT 6 4 CuT 6 4 CuT 6 4 CuT 12 7 CuT 9 5 CuT 12 7 CuT 12 7 CuT 9 5 CuT 7 9 CuT 7 9 CuT 12 7 CuT Heat Exchanger Thermistor Propeller Fan Muffler Muffler Four way valve On Heating Muff...

Page 31: ...ser Field wiring Indoor In case of cooling only type WIRING DIAGRAM In case of heat pump type RXS42G 3D059601 NOTES 1 Refer to purchasing specification AS303002 unless otherwise specified 2 This drawing was drawn on cad system 3 the electric wiring diagram label is 3P210678 1 C74 C75 C94 M1F Fan motor V1 V3 V4 Varistor BLK Black C95 Capacitor MRCW MRM10 X1M Therminal Strip BLU Blue DB1 DB2 DB3 Dio...

Page 32: ...nal Strip MRC W Magnetic Relay N Neutral M1F Fan Motor Y1E Electrionic Expansion Valve Coil R1T R3T Thermistor SW1 Forced Operation On Off SW SW1 L1R Reactor V2 V3 V5 V6 V 11 Varistor S2 S102 Connector SW4 Local Setting SW SW4 Q1L Overload Protector SA2 Surge Arrester LEDA Pilot Lamp PM1 Reactor FU1 FU2 FU3 Fuse PCB1 2 Printed Circuit Board AC1 AC2 Y1R Power Module U V W X11A X12A SHEET METAL E1 E...

Page 33: ...s Octave band sound pressure level dB 0dB 0 0002μbar Approximate threshold hearing for continuous noise RXS20 25G HEATING Octave band center frequency Hz 1m 3D059593A NOTES 1 Operating conditons 50 Hz 220 240V dB Overall dB Cooling 2 Measure in anechoic room 3 Location of microphone 4 Operation noise differs with operation and ambient conditions Octave band sound pressure level dB 0dB 0 0002μbar A...

Page 34: ...ditions Octave band sound pressure level dB 0dB 0 0002μbar Approximate threshold hearing for continuous noise RXS42G HEATING Octave band center frequency Hz 1m 3D059740A NOTES 1 Operating conditons 50 Hz 220 240V dB Overall dB Cooling 2 Measure in anechoic room 3 Location of microphone 4 Operation noise differs with operation and ambient conditions Octave band sound pressure level dB 0dB 0 0002μba...

Page 35: ...igh COOLING HEATING Indoor temp CWB Indoor temp CWB Outdoor temp CWB Outdoor temp CWB Continuous operation Continuous operation Pull down period RXS50G 3D028318M NOTES 1 The graphs are based on the following conditions Equivalent piping length 7 5m Level difference 0m Air Flow Rate High Cooling Heating Indoor temp CWB Indoor temp CWB Outdoor temp CWB Outdoor temp CWB Continuous operation Continuou...

Page 36: ......

Page 37: ...o change without prior notice Daikin Europe N V explicitly rejects any liability for any direct or indirect damage in the broadest sense arising from or related to the use and or interpretation of this publication All content is copyrighted by Daikin Europe N V Naamloze Vennootschap Zandvoordestraat 300 B 8400 Oostende Belgium www daikin eu BTW BE 0412 120 336 RPR Oostende Daikin s unique position...

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