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ED 45 - 439

Packaged Air Conditioners Floor Standing Type FV(P)G-A Series — Cooling Only (50Hz) —


ED45-439

Packaged Air Conditioners Floor Standing Type FV(P)G-A Series – Cooling Only (50Hz) – Model Series Direct Air Blow Type Duct Connection Type

FVG05AV2 FVG08AV2 FVG10AV2 FVPG10AY1 FVPG15AY1 FVPG20AY1

RG125AUY1 RUG08AUY1 RUG10AUY1 RUG10AUY1 RUG08AUY1×2 RUG10AUY1×2

1. Power Supply and Nomenclature............................................................1 1.1 Power Supply ...........................................................................................1 1.2 Nomenclature ...........................................................................................1

2. External Appearance...............................................................................2 3. Specifications ..........................................................................................3 4. Dimensions .............................................................................................5 4.1 Indoor Unit................................................................................................5 4.2 Outdoor Unit .............................................................................................8

5. Piping Diagrams....................................................................................10 5.1 For Each Unit .........................................................................................10 5.2 Unit Combination....................................................................................12

6. Wiring Diagrams....................................................................................13 6.1 Indoor Unit..............................................................................................13 6.2 Outdoor Unit ...........................................................................................15

7. Electric Characteristics..........................................................................16 7.1 Indoor Unit..............................................................................................16 7.2 Outdoor Unit ...........................................................................................16

8. Capacity Tables (Cooling Capacity)......................................................17 9. Operation Limit......................................................................................20 10.Fan Performance ..................................................................................21 11.Sound Level ..........................................................................................22 11.1 Overall ....................................................................................................22

12.Installation .............................................................................................23 12.1 Indoor Unit·····FVG05AV2, FVG08AV2, FVG10AV2 FVPG10AY1, FVPG15AY1, FVPG20AY1......................23 12.2 Outdoor Unit·····RG125AUY1 .................................................................29 12.3 Outdoor Unit·····RUG08AUY1, RUG10AUY1 .........................................43 Table of Contents

i


ED45-439

Power Supply and Nomenclature

1. Power Supply and Nomenclature 1.1

Power Supply Indoor Unit Direct Air Blow Type

1.2

Outdoor Unit

Power Supply

Duct Connection Type

FVG05AV2

RG125AUY1

FVG08AV2

RUG08AUY1

FVG10AV2

FVPG10AY1

RUG10AUY1

FVPG15AY1

RUG08AUY1×2

FVPG20AY1

RUG10AUY1×2

3φ, 380-415V, 50Hz

Nomenclature Indoor Unit

F V (P) G

1 0

A

Y 1 Power Supply Symbol V2 : 1φ, 220~240V, 50Hz Y1 : 3φ, 380~415V, 50Hz Major design category

Rated cooling capacity (Horse power) Floor standing indoor unit FVG : Direct Air Blow Type FVPG : Duct Connection Type Outdoor Unit

R (U) G

1 0

A U

Y 1 Power Supply Symbol Major design category

Rated cooling capacity (Horse power) 125 : (kW×10) Outdoor unit

FV(P)G-A Series (50Hz)

1


External Appearance

ED45-439

2. External Appearance Indoor Unit

FVG05A

FVG08A

FVG10A

FVPG10A

FVPG15A

FVPG20A

Outdoor Unit

RG125AU

2

RUG08AU

RUG10AU

FV(P)G-A Series (50Hz)


ED45-439

Specifications

3. Specifications Direct Air Blow Type Model

Indoor Unit

FVG05AV2

FVG08AV2

FVG10AV2

Outdoor Unit

RG125AUY1

RUG08AUY1

RUG10AUY1

14.3 / 14.1 48,800 / 48,000 12,300 / 12,100

380~415V, 50Hz, 3 Phase, 4 Wires 24.2 / 23.9 82,600 / 81,500 20,800 / 20,600

30.4 / 29.9 104,000 / 102,000 26,100 / 25,700

FVG05AV2

FVG08AV2

FVG10AV2

Power Supply ∗1

Cooling Capacity (1)/(2)

kW Btu/h kcal/h

Indoor Unit Casing Color Air Flow Rate (H) Fan Drive Sound Level (H/L) Dimensions Machine Weight Operation Range

∗2 H×W×D

m³/min cfm

42 1,485

dBA mm kg °CWB

59 / 50 1,870×750×510 90

Outdoor Unit

Refrigerant Oil

Type Motor Output Model Charge

Refrigerant Charge (R22) ∗2 H×W×D

Sound Level Dimensions Machine Weight Operation Range Refrigerant Piping

Indoor Unit Outdoor Unit

Liquid Gas Liquid Gas

Indoor Unit Outdoor Unit Max. Interunit Piping Length Max. Installation Level Difference Heat Insulation Drain Connections

Note:

FV(P)G-A Series (50Hz)

61 / 52 1,870×1,170×510 143

RUG08AUY1

RUG10AUY1

3.75

9 4.0 6.1 (Charged for 5m)

L

1.5

Ivory White Hermetically Sealed Scroll Type 7.5 SUNISO4GSDID-K 4.0

kg

2.8 (Charged for 5m)

5 (Charged for 5m)

kW

80 2,824

RG125AUY1

Casing Color Compressor

Ivory White 63 2,225 Direct Drive 3 Speed 60 / 51 1,870×950×510 107 14 to 25

dBA

57

60

61

mm kg °CDB mm mm mm mm mm mm m m

1,215×880×370 110

1,220×1,280×690 177 21 to 52 φ 12.7 (Brazing) φ 25.4 (Brazing) φ 12.7 (Flare) φ 25.4 (Brazing) FPS1B — 50 (Equivalent Length 70m) 30 Both Liquid and Gas Pipes

1,440×1,280×690 190

φ 9.52 (Brazing) φ 19.1 (Brazing) φ 9.52 (Flare) φ 19.1 (Flare) —

1. ∗1 Nominal cooling capacities are based on the following conditions: (1) Return air temp., 27°CDB, 19.5°CWB; outdoor temp. 35°CDB. Equiv. refrigeration piping, 5m (horizontal). (2) Return air temp., 27°CDB, 19.0°CWB; outdoor temp. 35°CDB. Equiv. refrigeration piping, 5m (horizontal). 2. ∗2 Anechoic chamber conversion value, measured according to JIS parameters and criteria. During operation these values are somewhat higher owing to ambient conditions.

φ 15.9 (Brazing) φ 31.8 (Brazing) φ 15.9 (Flare) φ 31.8 (Brazing) —

Conversion Formulae kcal/h=kW×860 Btu/h=kW×3414 cfm=m³/min×35.3

3


Specifications

ED45-439

Duct Connection Type Model

Indoor Unit

FVPG10AY1

FVPG15AY1

FVPG20AY1

Outdoor Unit

RUG10AUY1

RUG08AUY1×2

RUG10AUY1×2

30.4 / 29.9 104,000 / 102,000 26,100 / 25,700

380~415V, 50Hz, 3 Phase, 4 Wires 47.6 / 46.9 162,500 / 160,000 40,900 / 40,300

59.5 / 58.6 203,100 / 200,000 51,200 / 50,400

FVPG10AY1

FVPG15AY1

FVPG20AY1

Power Supply ∗1

Cooling Capacity (1)/(2)

kW Btu/h kcal/h

Indoor Unit Casing Color Air Flow Rate (H) Fan

Drive Ext. Static Pressure ∗2 H×W×D

Sound Level Dimensions Machine Weight Operation Range

m³/min cfm

80 2,824

Pa(mmH2O) dBA mm kg °CWB

61 1,740×1,170×510 150

Outdoor Unit

Refrigerant Oil

Type Motor Output Model Charge

Refrigerant Charge (R22) ∗2 H×W×D

Sound Level Dimensions Machine Weight Operation Range Refrigerant Piping

Indoor Unit Outdoor Unit

Liquid Gas Liquid Gas

Indoor Unit Drain Connections Outdoor Unit Max. Interunit Piping Length Max. Installation Level Difference Heat Insulation

Note:

4

63 1,870×1,470×720 240

RUG08AUY1×2

RUG10AUY1×2

9

9.0×2 4.0×2 6.1×2 (Charged for 5m)

L

4.0

Ivory White Hermetically Sealed Scroll Type 7.5×2 SUNISO4GSDID-K 4.0×2

kg

6.1 (Charged for 5m)

5.0×2 (Charged for 5m)

kW

172 6,075

RUG10AUY1

Casing Color Compressor

Ivory White 120 4,240 Belt Drive 150 (15) 62 1,870×1,170×720 180 14 to 25

dBA

61

60 ∗3

61 ∗3

mm kg °CDB mm mm mm mm mm mm m m

1,440×1,280×690 190

(1,220×1,280×690)×2 177×2 21 to 52 φ 12.7 (Brazing)×2 φ 25.4 (Brazing)×2 φ 12.7 (Flare)×2 φ 25.4 (Brazing)×2 FPS1B — 50 (Equivalent Length 70m) 30 Both Liquid and Gas Pipes

(1,440×1,280×690)×2 190×2

φ 15.9 (Brazing) φ 31.8 (Brazing) φ 15.9 (Flare) φ 31.8 (Brazing) —

1. ∗1 Nominal cooling capacities are based on the following conditions: (1) Return air temp., 27°CDB, 19.5°CWB; outdoor temp. 35°CDB. Equiv. refrigeration piping, 5m (horizontal). (2) Return air temp., 27°CDB, 19.0°CWB; outdoor temp. 35°CDB. Equiv. refrigeration piping, 5m (horizontal) 2. ∗2 Anechoic chamber conversion value, measured according to JIS parameters and criteria. During operation these values are somewhat higher owing to ambient conditions. 3. ∗3 Specification for outdoor unit is for a single unit only.

φ 15.9 (Brazing)×2 φ 31.8 (Brazing)×2 φ 15.9 (Flare)×2 φ 31.8 (Brazing)×2 —

Conversion Formulae kcal/h=kW×860 Btu/h=kW×3414 cfm=m³/min×35.3

FV(P)G-A Series (50Hz)


ED45-439

Dimensions

4. Dimensions 4.1

Indoor Unit

Direct Air Blow Type FVG05A 750

LIQUID PIPE CONN. φ9.5 C1220T BRAZING GAS PIPE CONN. φ19.1 C1220T BRAZING DRAIN OUTLET FPS IB FEMALE SCREW POWER SUPPLY & CONTROL WIRE INTAKE DIGITAL REMOTE CONTROLLER

510

1 2 3 4 5

750

330

510

740

1870

1870

35

370

5

150

1

50

100 100

2 4

70

250

325

3

720

474

SDR3150095

FVG08A 950

LIQUID PIPE CONN. φ12.7 C1220T BRAZING GAS PIPE CONN. φ25.4 C1220T BRAZING DRAIN OUTLET FPS IB FEMALE SCREW POWER SUPPLY & CONTROL WIRE INTAKE DIGITAL REMOTE CONTROLLER

510

1 2 3 4 5

950

370

330

510

740

1870

1870

35

5

150

1

50

3

70

250

325

4

100 100

2

FV(P)G-A Series (50Hz)

920

474

SDR3150096

5


Dimensions

ED45-439

FVG10A 1170

LIQUID PIPE CONN. φ15.9 C1220T BRAZING GAS PIPE CONN. φ31.8 C1220T BRAZING DRAIN OUTLET FPS IB FEMALE SCREW POWER SUPPLY & CONTROL WIRE INTAKE DIGITAL REMOTE CONTROLLER

510

1 2 3 4 5

1170

370

330

510

740

1870

1870

35

5

150

50

1 100 100

2 4

70

250

325

3

1140

SDR3150097

Duct Connection Type FVPG10A 1 2 3 4 5

1170 334

140

334

146

LIQUID PIPE CONN. φ15.9 C1220T BRAZING GAS PIPE CONN. φ31.8 C1220T BRAZING DRAIN OUTLET FPS IB FEMALE SCREW POWER SUPPLY & CONTROL WIRE INTAKE DIGITAL REMOTE CONTROLLER

510

510

394

292

177

31

40

216

510

1170

177

571

28

390

5

250

250

50

290

40

177

724

1740

1670

290

1

325

50

70

150

250

100 100

2 4

1140

6

474

3

SDR3150098

FV(P)G-A Series (50Hz)


ED45-439

Dimensions

FVPG15A 1170 398

1 2 3 4 5

295

LIQUID PIPE CONN. φ12.7 C1220T BRAZING GAS PIPE CONN. φ25.4 C1220T BRAZING DRAIN OUTLET FPS IB FEMALE SCREW POWER SUPPLY DIGITAL REMOTE CONTROLLER

720

602

344

52

477

1210

720

1170

510

10

205

915

1870

1800

50

5

1

100

2

325

178 100 100

150

50

70

4

1144

3

682

SDR3150099

FVPG20A 1470 474

438

1 2 3 4 5

LIQUID PIPE CONN. φ15.9 C1220T BRAZING GAS PIPE CONN. φ31.8 C1220T BRAZING DRAIN OUTLET FPS IB FEMALE SCREW POWER SUPPLY DIGITAL REMOTE CONTROLLER

720

602

407

52

558

1510

720

1470

510

10

237

915

1870

1800

50

5

1

100

325

1444

FV(P)G-A Series (50Hz)

70

70

50

4

178 100 100

2 150

682

3

SDR3150100

7


Dimensions

4.2

ED45-439

Outdoor Unit

RG125AU 84

HOLE FOR ANCHOR BOLT 4-M12

30

38

GAS PIPE CONN. φ19.1 FLARE LIQUID PIPE CONN. φ9.5 FLARE SERVICE PORT (IN THE UNIT) GROUNDING TERMINAL. M5(IN SWITCH BOX) REFRIGERANT PIPING INTAKE POWER SUPPLY WIRING INTAKE. ø 34 KNOCK HOLE CONTROL WIRING INTAKE. ø 34 KNOCK HOLE DRAIN OUTLET. ø 26

30

35

395

370

1 2 3 4 5 6 7 8

146

584

150

880

30

4 3 2 1215

1

7

NAME PLATE

84

568

90

6 49 95

49 95

24

60

538

5

14

14

11

275

61

40

11

102

67 115

137

KNOCK HOLE FOR LOWER PIPING

8

391

SDR3150101

RUG08AU

726

4-φ15 FOR ANCHOR BOLTS

700

1000 (PITCH OF ANCHOR BOLTS)

1 2 3 4 5 6

LIQUID PIPE CONN. WITH STOP VALVE φ12.7 C1220T FLARE GAS PIPE CONN.WITH STOP VALVE φ25.4 C1220T BRAZING EARTH TERMINAL M5 IN THE EL. BOX ASS'Y WIRING INTAKE (SIDE) φ62 REFRIGERANT PIPING CONN. (SIDE) KNOCK OUT HOLE REFRIGERANT PIPING CONN. (BOTTOM) KNOCK OUT HOLE

1290

5

220 165

165

52 177 156

2

76

80

70

1

90

1220

4

70

1220

3 4

202 32

20

NAME PLATE 1280

690

80

80 750

97

6 110 54

32

SDR3150102

8

FV(P)G-A Series (50Hz)


ED45-439

Dimensions

RUG10AU

700

4-φ15 FOR ANCHOR BOLTS

726

1000 (PITCH OF ANCHOR BOLTS)

1 2 3 4 5 6

LIQUID PIPE CONN. WITH STOP VALVE φ15.9 C1220T FLARE GAS PIPE CONN.WITH STOP VALVE φ31.8 C1220T BRAZING EARTH TERMINAL M5 IN THE EL. BOX ASS'Y WIRING INTAKE (SIDE) φ62 REFRIGERANT PIPING CONN. (SIDE) KNOCK OUT HOLE REFRIGERANT PIPING CONN. (BOTTOM) KNOCK OUT HOLE

1290

1

5

2

80

76

220 20

165

165

NAME PLATE 202

80

80

1280

6

750 32

97

110

54

690

70

4

52

32

1440

4

177 156

70

90

1440

3

SDR3150103

FV(P)G-A Series (50Hz)

9


Piping Diagrams

ED45-439

5. Piping Diagrams 5.1

For Each Unit

5.1.1

Indoor Unit

FVG05AV2 FVG08AV2 FVG10AV2 FVPG10AY1

SDR3160059

FVPG15AY1 FVPG20AY1

SDR3160060

10

FV(P)G-A Series (50Hz)


ED45-439

5.1.2

Piping Diagrams

Outdoor Unit

RG125AUY1

SDR3160061

RUG08AUY1 RUG10AUY1

SDR3160062

FV(P)G-A Series (50Hz)

11


Piping Diagrams

5.2

ED45-439

Unit Combination

FVG05AV2, RG125AUY1

Refrigerant piping (Liquid, Gas)

Refrigerant Piping RG125AUY1 IndoorLiquid φ9.52 Outdoor Gas φ19.1

FVG08AV2, RUG08AUY1 FVG10AV2, RUG10AUY1

Refrigerant piping (Liquid, Gas)

Refrigerant Piping RUG08AUY1 RUG10AUY1 Liquid φ15.9 φ12.7 IndoorGas φ31.8 φ25.4 Outdoor

FVPG10AY1, RUG10AUY1

Refrigerant piping (Liquid, Gas)

Refrigerant Piping RUG10AUY1 Liquid φ15.9 IndoorGas φ31.8 Outdoor

FVPG15AY1, RUG08AUY1×2 FVPG20AY1, RUG10AUY1×2

Refrigerant piping (Liquid, Gas)

Refrigerant Piping RUG08AUY1 RUG10AUY1 Liquid φ15.9 φ12.7 IndoorGas φ31.8 φ25.4 Outdoor

Refrigerant piping (Liquid, Gas)

12

FV(P)G-A Series (50Hz)


ED45-439

Wiring Diagrams

6. Wiring Diagrams 6.1

Indoor Unit

FVG05AV2 FVG08AV2

SDR3010185

FVG10AV2

SDR3010186

FV(P)G-A Series (50Hz)

13


Wiring Diagrams

ED45-439

FVPG10AY1

SDR3010187

FVPG15AY1 FVPG20AY1

SDR3010170A

14

FV(P)G-A Series (50Hz)


ED45-439

6.2

Wiring Diagrams

Outdoor Unit

RG125AUY1

SDR3010189

RUG08AUY1 RUG10AUY1

SDR3010190

FV(P)G-A Series (50Hz)

15


Electric Characteristics

ED45-439

7. Electric Characteristics 7.1

Indoor Unit Unit

Power supply

EFM

Model Type

Volts-Ph-Hz

Voltage range

FVG05A FVG08A V2 FVG10A FVPG10A FVPG15A FVPG20A

Y1

220-1-50 230-1-50 240-1-50

Max. 264V Min. 198V

380-3-50 400-3-50 415-3-50

Max. 456V Min. 342V

Symbols : MCA : Min. Ckt (Circuit) Amps (A) TOCA : Total Overcurrent Amps (A) MFA : Max. Fuse Amps (A) (See note 4) EFM : Evaporator Fan Motor FLA : Full Load Amps (A) kW : Fan Motor Rated Output (kW)

7.2

MCA

TOCA

MFA

kW

FLA

0.375

4.5

0.55

6.2 9

0.375 + 0.375

4.4

3.6

15

1.5

3.5

6.1

5.0

15

2.2

4.9

10.0

8.0

30

3.7

8.0

Note : 1. TOCA means the total value of each OC set. 2. Voltage range Units are suitable for use on electrical systems where voltage supplied to unit terminals is not below or above listed range limits. 3. Maximum allowable voltage unbalance between phases is 2%. 4. MCA / MFA (FD) MCA = 1.25 × FLA MFA 4 × FLA (Min. 15A) (Next lower standard fuse rating) 5. Select wire size based on the larger value of MCA. 6. Instead of fuse, use Circuit Breaker.

Outdoor Unit Unit

Power supply

Model Volts-Ph-Hz RG125AUY1

Voltage range

380-3-50 400-3-50 415-3-50

RUG08AUY1 380/220-3-50 400/230-3-50 415/240-3-50

Max. 456V Min. 342V

RUG10AUY1

Symbols : MCA : Min. Ckt (Circuit) Amps (A) TOCA : Total Overcurrent Amps (A) MFA : Max. Fuse Amps (A) (See note 5) LRA : Locked Rotor Amps (A) RLA : Rated Load Amps (A) CFM : Condenser Fan Motor : Full Load Amps (A) FLA : Fan Motor Rated Output (kW) kW

16

Comp. (each)

CFM (each)

Starting Method

Direct

MCA

TOCA

MFA

LRA

RLA

kW

FLA

10.4

9.5

15

62

7.2

0.075 + 0.06

0.7 + 0.7

18.6

20.5

30

112 117 122

12.4 12.2 12.9

0.19 + 0.23

1.2 + 1.3

24.4

26.5

40

148 155 161

16.5 15.8 17.5

0.19 + 0.23

1.2 + 1.3

Note : 1. RLA is based on the following conditions. Indoor temp. 27°CDB / 19.5°CWB Outdoor temp. 35°CDB 2. TOCA means the total value of each OC set. 3. Voltage range Units are suitable for use on electrical systems where voltage supplied to unit terminals is not below or above listed range limits. 4. Maximum allowable voltage unbalance between phases is 2%. 5. MCA / MFA MCA = 1.25 × RLA + ea. FLA MFA 2.25 × RLA + ea. FLA (Next lower standard fuse rating : Min. 15A) 6. Select wire size based on the larger value of MCA or TOCA. 7. Instead of fuse, use Circuit Breaker.

FV(P)G-A Series (50Hz)


ED45-439

Capacity Tables (Cooling Capacity)

8. Capacity Tables (Cooling Capacity) FVG05AV2+RG125AUY1 Indoor AFR 21 EDB EWB (BF) (˚C) (˚C) TC SHC 14.0 16.0 42 18.0 19.0 (0.15) 19.5 22.0 24.0

20 22 25 27 27 30 32

13.4 14.3 15.3 15.9 16.2 17.5 18.7

9.5 9.8 10.1 10.4 10.6 10.8 11.0

Outdoor temperature (˚CDB) 25 PI 3.21 3.32 3.44 3.50 3.53 3.70 3.85

TC SHC 13.0 13.9 14.9 15.4 15.6 16.9 18.0

Symbols : AFR : Air flow rate BF : Bypass factor EWB : Entering wet bulb temp. EDB : Entering dry bulb temp. TC : Total cooling capacity SHC : Sensible heat capacity PI : Power input (Comp. + Outdoor fan motor)

9.3 9.6 9.9 10.0 10.4 10.6 10.8

30 PI 3.43 3.55 3.68 3.74 3.78 3.96 4.13

(m3/min.) (˚CWB) (˚CDB) (kW) (kW) (kW)

TC SHC 12.4 13.4 14.2 14.8 15.0 16.3 17.4

8.9 9.3 9.6 9.8 10.0 10.2 10.6

35 PI 3.67 3.80 3.94 4.02 4.05 4.26 4.43

TC SHC 11.9 12.7 13.7 14.1 14.3 15.5 16.6

8.7 8.9 9.4 9.5 9.8 9.8 10.2

40 PI 3.86 3.99 4.16 4.24 4.27 4.50 4.70

TC SHC 11.3 12.2 13.0 13.5 13.7 14.9 15.9

8.4 8.7 9.1 9.2 9.5 9.6 10.0

45 PI 3.99 4.15 4.32 4.42 4.45 4.70 4.90

TC SHC 10.8 11.5 12.4 12.8 13.0 14.1 15.1

8.1 8.4 8.7 8.9 9.2 9.4 9.7

50 PI 4.08 4.26 4.44 4.54 4.59 4.84 5.05

TC SHC 10.1 10.9 11.6 12.1 12.3 13.4 14.3

7.8 8.1 8.4 8.6 8.8 9.1 9.3

52 PI 4.12 4.31 4.51 4.61 4.67 4.94 5.11

TC SHC 9.9 10.7 11.4 11.9 12.1 13.0 0.0

7.7 8.0 8.3 8.5 8.7 8.9 0.0

PI 4.12 4.32 4.52 4.63 4.69 4.97 0.0

Notes : 1. Figures in show nominal capacities. 2. The above capacities are gross capacities which do not include a deduction for indoor fan motor heat. 3. SHC is based on each EWB and EDB. SHC* = SHC correction for other dry bulb. (DB*) = 0.02 × AFR × (1 - BF) × (DB* - EDB) Add SHC* to SHC. 4. Direct interpolation is permissible. Do not extrapolate. 5. Capacities are based on the following conditions. Corresponding refrigerant piping length :5m Level difference :0m

FVG08AV2+RUG08AUY1 Indoor AFR 21 EDB EWB (BF) (˚C) (˚C) TC SHC 14.0 16.0 63 18.0 19.0 (0.15) 19.5 22.0 24.0

20 22 25 27 27 30 32

22.5 23.9 25.4 26.2 26.5 28.5 30.1

17.3 17.3 18.4 18.7 18.7 19.1 19.1

Outdoor temperature (˚CDB) 25 PI 5.47 5.57 5.70 5.76 5.77 5.97 6.07

TC SHC 22.0 23.3 24.8 25.5 25.8 27.8 29.4

Symbols : AFR : Air flow rate BF : Bypass factor EWB : Entering wet bulb temp. EDB : Entering dry bulb temp. TC : Total cooling capacity SHC : Sensible heat capacity PI : Power input (Comp. + Outdoor fan motor)

17.0 17.0 17.9 18.4 18.4 18.7 18.7

30 PI 5.86 5.96 6.07 6.16 6.17 6.36 6.46

(m3/min.) (˚CWB) (˚CDB) (kW) (kW) (kW)

TC SHC 21.3 22.6 24.0 24.7 25.0 27.0 28.5

16.6 16.6 17.6 18.0 18.0 18.4 18.4

35 PI 6.46 6.56 6.66 6.76 6.76 6.96 7.06

TC SHC 20.5 21.8 23.2 23.9 24.2 26.1 27.6

16.2 16.2 17.1 17.6 17.6 17.9 18.0

40 PI 7.06 7.15 7.36 7.37 7.45 7.56 7.76

TC SHC 19.7 20.9 22.2 22.9 23.3 25.1 26.5

15.2 15.4 16.3 16.8 16.8 17.1 17.1

45 PI 7.75 7.84 8.05 8.05 8.15 8.25 8.45

TC SHC 18.9 20.0 21.4 22.0 22.3 24.1 25.5

15.2 15.4 16.3 16.8 16.8 17.1 17.1

50 PI 8.54 8.64 8.74 8.84 8.85 9.10 9.24

TC SHC 17.9 19.1 20.4 21.1 21.4 23.0 0.0

14.7 14.8 14.8 15.8 16.3 16.6 0.0

52 PI 9.33 9.43 9.64 9.74 9.74 9.94 0.0

TC SHC 17.6 18.7 20.0 20.6 20.9 22.6 0.0

14.6 14.6 15.6 16.1 16.1 16.5 0.0

PI 9.63 9.83 9.94 10.03 10.03 10.24 0.0

Notes : 1. Figures in show nominal capacities. 2. The above capacities are gross capacities which do not include a deduction for indoor fan motor heat. 3. SHC is based on each EWB and EDB. SHC* = SHC correction for other dry bulb. (DB*) = 0.02 × AFR × (1 - BF) × (DB* - EDB) Add SHC* to SHC. 4. Direct interpolation is permissible. Do not extrapolate. 5. Capacities are based on the following conditions. Corresponding refrigerant piping length :5m Level difference :0m

FVG10AV2+RUG10AUY1 Indoor AFR 21 (BF) EWB EDB (˚C) (˚C) TC SHC 14.0 16.0 80 18.0 19.0 (0.14) 19.5 22.0 24.0

20 22 25 27 27 30 32

28.3 29.9 31.7 32.7 33.1 35.6 37.6

21.8 21.8 22.9 23.4 23.4 23.8 23.8

Outdoor temperature (˚CDB) 25 PI 7.47 7.57 7.77 7.86 7.87 8.03 8.23

TC SHC 27.6 29.2 31.0 32.0 32.3 34.8 36.7

Symbols : AFR : Air flow rate BF : Bypass factor EWB : Entering wet bulb temp. EDB : Entering dry bulb temp. TC : Total cooling capacity SHC : Sensible heat capacity PI : Power input (Comp. + Outdoor fan motor)

FV(P)G-A Series (50Hz)

21.4 21.4 22.5 23.1 23.1 23.5 23.5

30 PI 7.98 8.19 8.28 8.38 8.38 8.68 8.78

(m3/min.) (˚CWB) (˚CDB) (kW) (kW) (kW)

TC SHC 26.7 28.4 30.0 30.9 31.4 33.7 35.6

20.8 21.0 22.0 22.6 22.6 23.1 23.1

35 PI 8.81 8.91 9.11 9.20 9.20 9.40 9.61

TC SHC 25.8 27.4 29.1 29.9 30.4 32.6 34.4

20.4 20.4 21.5 22.1 22.1 22.5 22.5

40 PI 9.64 9.74 9.93 10.02 10.13 10.33 10.53

TC SHC 24.9 26.4 28.0 28.8 19.2 31.4 33.3

19.8 19.9 21.1 21.5 21.5 22.0 22.0

45 PI 10.56 10.77 10.96 11.05 11.06 11.25 11.46

TC SHC 23.8 25.2 26.9 27.7 28.1 30.2 32.0

19.2 19.3 20.5 21.1 21.1 21.4 21.4

50 PI 11.60 11.80 11.99 12.08 12.08 12.33 12.53

TC SHC 22.7 24.1 25.7 26.5 26.9 29.0 0.0

18.6 18.6 19.9 20.5 20.5 21.0 0.0

52 PI 12.74 12.95 13.13 13.22 13.22 13.52 0.0

TC SHC 22.2 23.6 25.2 26.0 26.4 28.4 0.0

18.4 18.4 19.7 20.3 20.3 20.7 0.0

PI 13.26 13.46 13.64 13.73 13.74 14.03 0.0

Notes : 1. Figures in show nominal capacities. 2. The above capacities are gross capacities which do not include a deduction for indoor fan motor heat. 3. SHC is based on each EWB and EDB. SHC* = SHC correction for other dry bulb. (DB*) = 0.02 × AFR × (1 - BF) × (DB* - EDB) Add SHC* to SHC. 4. Direct interpolation is permissible. Do not extrapolate. 5. Capacities are based on the following conditions. Corresponding refrigerant piping length :5m Level difference :0m

17


Capacity Tables (Cooling Capacity)

ED45-439

FVPG10AY1+RUG10AUY1 Indoor AFR 21 EDB EWB (BF) (˚C) (˚C) TC SHC

Outdoor temperature (˚CDB) 25 PI

30

TC SHC

PI

TC SHC

35 PI

TC SHC

40 PI

TC SHC

45 PI

TC SHC

50 PI

TC SHC

52 PI

TC SHC

PI

14.0 16.0 68 18.0 19.0 (0.13) 19.5 22.0 24.0

20 22 25 27 27 30 32

27.7 29.3 31.2 32.1 32.6 35.0 37.0

21.00 21.00 22.00 22.50 22.50 23.00 23.00

7.37 7.58 7.63 7.73 7.73 7.93 8.14

27.1 28.7 30.5 31.4 31.7 34.2 36.2

20.6 20.6 21.8 22.1 22.2 22.5 22.5

7.99 8.09 8.29 8.25 8.38 8.55 8.75

26.3 27.8 29.5 30.5 30.8 33.1 35.1

20.2 20.2 21.2 21.8 21.8 22.0 22.0

8.71 8.92 9.01 9.10 9.11 9.37 9.47

25.4 26.9 28.5 29.4 29.9 32.1 34.0

19.7 19.7 20.7 21.3 21.3 21.6 21.6

9.54 9.74 9.94 10.03 10.03 10.18 10.39

24.4 25.9 27.6 28.4 28.7 30.9 32.7

19.1 19.2 20.3 20.7 20.7 21.0 21.0

10.57 10.67 10.86 10.96 10.96 11.21 11.41

23.4 24.9 26.4 27.2 27.7 29.8 31.4

18.5 18.6 19.7 20.3 20.3 20.5 20.5

11.61 11.71 11.90 11.99 12.09 12.23 12.44

22.3 23.7 25.2 26.2 26.5 28.5 0.0

17.9 17.9 19.1 19.7 19.7 20.1 0.0

12.75 12.85 13.04 13.13 13.23 13.36 0.0

21.9 23.3 24.8 25.6 25.9 28.0 0.0

17.6 17.7 18.9 19.5 19.5 19.8 0.0

13.17 13.37 13.55 13.65 13.75 13.88 0.0

14.0 16.0 80 18.0 19.0 (0.14) 19.5 22.0 24.0

20 22 25 27 27 30 32

28.3 29.9 31.7 32.7 33.1 35.6 37.6

21.80 21.80 22.90 23.40 23.40 23.80 23.80

7.47 7.54 7.77 7.86 7.87 8.03 8.23

27.6 29.2 31.0 32.0 32.3 34.8 36.7

21.4 21.4 22.5 23.1 23.1 23.5 23.5

7.98 8.19 8.28 8.38 8.38 8.68 8.78

26.7 28.4 30.0 30.9 31.4 33.7 35.6

20.8 21.0 22.0 22.6 22.6 23.1 23.1

8.81 8.91 9.11 9.20 9.20 9.40 9.61

25.8 27.4 29.1 29.9 30.4 32.6 34.4

20.4 20.4 21.5 22.1 22.1 22.5 22.5

9.64 9.74 9.93 10.02 10.13 10.33 10.53

24.9 26.4 28.0 28.8 29.2 31.4 33.3

19.8 19.9 21.1 21.5 21.5 22.0 22.0

10.56 10.77 10.96 11.05 11.06 11.25 11.46

23.8 25.2 26.9 27.7 28.1 30.2 32.0

19.2 19.3 20.5 21.1 21.1 21.4 21.4

11.60 11.80 11.99 12.08 12.08 12.33 12.53

22.7 24.1 25.7 26.5 26.9 29.0 0.0

18.6 18.6 19.9 20.5 20.5 21.0 0.0

12.74 12.95 13.13 13.22 13.22 13.52 0.0

22.2 23.6 25.2 26.0 26.4 28.4 0.0

18.4 18.4 19.7 20.3 20.3 20.7 0.0

13.26 13.46 13.64 13.73 13.74 14.03 0.0

14.0 16.0 96 18.0 (0.16) 19.0 19.5 22.0 24.0

20 22 25 27 27 30 32

29.1 30.8 32.7 33.6 34.1 36.6 38.6

23.10 23.20 24.30 25.00 25.50 25.50 25.60

7.56 7.66 7.86 7.86 8.11 8.16 8.39

28.4 30.1 31.9 32.9 33.3 35.7 37.7

22.7 22.7 24.0 24.7 24.7 25.1 25.2

8.07 8.18 8.37 8.47 8.47 8.63 8.87

27.6 29.1 30.9 31.7 32.2 34.5 36.6

22.1 22.1 23.5 24.1 24.1 24.7 24.7

8.79 9.00 9.19 9.19 9.29 9.49 9.69

26.5 28.1 29.9 30.7 31.2 33.4 35.4

21.7 21.7 22.9 23.5 23.5 24.1 24.1

9.72 9.82 10.01 10.11 10.12 10.41 10.62

25.6 27.1 28.7 29.7 30.0 32.2 34.1

21.1 21.1 22.4 23.1 23.1 23.5 23.5

10.65 10.85 10.94 11.03 11.14 11.34 11.54

24.4 25.9 27.6 28.4 28.8 30.9 32.7

20.5 20.6 21.9 22.5 22.5 23.1 23.1

11.68 11.88 12.07 12.17 12.17 12.46 12.67

23.3 24.8 26.4 27.2 27.6 29.7 0.0

19.8 19.9 21.3 21.9 21.9 22.5 0.0

12.82 13.02 13.21 13.30 13.61 13.70 0.0

22.8 24.2 25.8 26.6 27.0 29.1 0.0

19.7 19.7 21.0 21.7 21.7 22.2 0.0

13.4 13.51 13.62 13.71 13.81 14.11 0.0

Symbols : AFR : Air flow rate BF : Bypass factor EWB : Entering wet bulb temp. EDB : Entering dry bulb temp. TC : Total cooling capacity SHC : Sensible heat capacity PI : Power input (Comp. + Outdoor fan motor)

(m3/min.) (˚CWB) (˚CDB) (kW) (kW) (kW)

Notes : 1. Figures in show nominal capacities. 2. The above capacities are gross capacities which do not include a deduction for indoor fan motor heat. 3. SHC is based on each EWB and EDB. SHC* = SHC correction for other dry bulb. (DB*) = 0.02 × AFR × (1 - BF) × (DB* - EDB) Add SHC* to SHC. 4. Direct interpolation is permissible. Do not extrapolate. 5. Capacities are based on the following conditions. Corresponding refrigerant piping length :5m Level difference :0m

FVPG15AY1+ (RUG08AUY1) ×2 Indoor AFR 21 (BF) EWB EDB (˚C) (˚C) TC SHC

Outdoor temperature (˚CDB) 25 PI

30

TC SHC

PI

TC SHC

35 PI

TC SHC

40 PI

TC SHC

45 PI

TC SHC

50 PI

TC SHC

52 PI

TC SHC

PI

14.0 16.0 102 18.0 19.0 (0.06) 19.5 22.0 24.0

20 22 25 27 27 30 32

43.2 46.0 48.8 50.4 51.1 55.0 58.5

32.7 32.7 34.5 35.5 35.6 36.3 36.3

10.73 10.93 11.14 11.34 11.37 11.57 11.96

42.3 44.8 47.8 49.2 49.9 53.9 57.1

32.3 32.2 34.1 34.8 34.9 35.6 35.6

11.51 11.70 11.92 12.12 12.15 12.35 12.74

40.9 43.4 46.2 47.6 48.3 52.3 55.3

31.5 31.5 33.2 34.1 34.1 34.6 34.6

12.48 12.67 13.08 13.09 13.28 13.52 13.91

39.5 42.0 44.6 46.2 46.7 50.4 53.4

30.6 30.6 32.5 33.2 33.2 34.0 34.0

13.83 14.03 14.24 14.45 14.45 14.89 15.08

37.8 40.4 43.0 44.3 45.0 48.5 51.6

29.7 29.9 31.5 32.5 32.6 33.0 33.0

15.19 15.38 15.60 15.81 15.85 16.25 16.24

36.2 38.5 41.1 42.5 43.2 46.7 49.5

28.7 28.7 30.8 31.5 31.5 32.3 32.3

16.53 16.92 17.15 17.35 17.35 17.81 18.20

34.3 36.7 39.2 40.6 41.3 44.6 0.0

27.7 27.8 29.7 30.6 30.6 31.3 0.0

18.20 18.46 18.69 18.90 19.10 19.30 0.0

33.7 36.0 38.5 39.7 40.4 43.7 0.0

27.2 27.3 29.2 30.4 30.4 31.1 0.0

18.77 19.04 19.46 19.68 19.68 20.08 0.0

14.0 16.0 120 18.0 19.0 (0.08) 19.5 22.0 24.0

20 22 25 27 27 30 32

44.1 46.9 49.9 51.6 52.3 56.2 59.5

34.1 34.1 35.9 36.9 36.9 37.7 37.7

10.74 10.94 11.15 11.35 11.35 11.78 11.97

43.2 45.7 48.8 50.2 50.9 54.8 58.1

33.4 33.4 35.2 36.2 36.2 37.0 37.0

16.52 11.71 11.92 12.13 12.13 12.56 12.75

41.8 44.3 47.1 48.5 49.2 53.2 56.2

32.7 32.7 34.5 35.5 35.5 36.3 36.3

12.68 12.88 13.09 13.30 13.30 13.73 13.93

40.2 42.7 45.5 46.9 47.6 51.3 54.3

31.8 31.8 33.6 34.5 34.5 35.5 35.5

13.85 14.04 14.45 14.46 14.66 14.90 15.29

38.5 41.1 43.7 45.0 45.7 49.5 52.3

29.9 30.1 32.0 32.9 32.9 33.7 33.7

15.19 15.39 15.80 15.81 16.01 16.26 16.65

36.9 39.2 42.0 43.2 43.9 47.4 50.2

29.8 30.1 32.0 32.9 32.9 33.6 33.7

16.69 16.94 17.17 17.37 17.37 17.77 18.22

35.0 37.4 39.9 41.3 42.0 45.3 0.0

28.6 29.0 31.1 32.0 32.0 32.7 0.0

18.22 18.48 18.91 19.12 19.12 19.52 0.0

34.3 36.7 39.2 40.4 41.1 44.3 0.0

28.4 28.5 30.6 31.5 31.5 32.5 0.0

18.80 19.25 19.49 19.69 19.69 20.01 0.0

14.0 16.0 144 18.0 (0.10) 19.0 19.5 22.0 24.0

20 22 25 27 27 30 32

45.5 48.3 51.3 53.0 53.7 57.8 61.3

36.2 36.2 38.3 39.4 39.4 40.2 40.2

10.95 11.15 11.36 11.36 11.56 11.79 12.18

44.3 47.1 50.2 51.8 52.5 56.4 59.7

35.4 35.5 37.8 38.7 38.7 39.7 39.8

11.70 11.93 12.14 12.34 12.34 12.74 12.97

43.0 45.5 48.5 49.9 50.6 54.6 57.8

34.7 34.8 36.9 37.8 37.8 38.7 38.8

12.67 12.90 13.31 13.31 13.59 13.71 14.14

41.3 43.9 46.7 48.3 48.8 52.5 55.7

33.8 33.9 35.9 36.9 36.9 37.8 37.9

14.02 14.26 14.47 14.68 14.68 15.08 15.31

39.7 42.3 45.0 46.4 46.9 50.6 53.7

32.8 32.9 35.0 36.2 36.2 36.9 37.0

15.37 15.62 15.83 16.04 16.04 16.44 16.88

37.8 40.4 43.0 44.3 45.0 48.5 51.6

31.9 32.0 34.3 35.2 35.2 36.2 36.2

16.70 17.17 17.39 17.60 17.60 18.00 18.39

36.0 38.3 41.1 42.5 43.0 46.4 0.0

30.7 31.0 33.3 34.2 34.3 35.2 0.0

18.45 18.65 18.88 19.04 19.54 19.75 0.0

35.3 37.6 40.2 41.6 42.3 45.5 0.0

30.3 30.5 32.8 33.8 33.8 39.8 0.0

19.03 19.23 19.23 19.66 19.87 20.33 0.0

Symbols : AFR : Air flow rate BF : Bypass factor EWB : Entering wet bulb temp. EDB : Entering dry bulb temp. TC : Total cooling capacity SHC : Sensible heat capacity PI : Power input (Comp. + Outdoor fan motor)

18

(m3/min.) (˚CWB) (˚CDB) (kW) (kW) (kW)

Notes : 1. Figures in show nominal capacities. 2. The above capacities are gross capacities which do not include a deduction for indoor fan motor heat. 3. SHC is based on each EWB and EDB. SHC* = SHC correction for other dry bulb. (DB*) = 0.02 × AFR × (1 - BF) × (DB* - EDB) Add SHC* to SHC. 4. Direct interpolation is permissible. Do not extrapolate. 5. Capacities are based on the following conditions. Corresponding refrigerant piping length :5m Level difference :0m

FV(P)G-A Series (50Hz)


ED45-439

Capacity Tables (Cooling Capacity)

FVPG20AY1+ (RUG10AUY1) ×2 Indoor AFR 21 EDB EWB (BF) (˚C) (˚C) TC SHC

Outdoor temperature (˚CDB) 25 PI

30

TC SHC

PI

TC SHC

35 PI

TC SHC

40 PI

TC SHC

45 PI

TC SHC

50 PI

TC SHC

52 PI

TC SHC

PI

14.0 16.0 146 18.0 19.0 (0.07) 19.5 22.0 24.0

20 22 25 27 27 30 32

54.2 57.4 61.1 63.0 63.9 68.8 72.8

41.0 41.0 43.4 44.3 44.3 45.2 45.2

14.43 14.83 15.03 15.23 15.23 15.63 16.03

53.0 56.2 59.7 61.6 62.3 67.1 71.0

40.3 40.3 42.7 43.6 43.6 44.2 44.2

15.63 15.83 16.23 16.23 16.43 16.80 17.20

51.4 54.4 57.9 59.7 60.4 65.1 69.0

39.4 39.4 41.5 42.7 42.7 43.4 43.4

17.04 17.44 17.64 17.84 17.84 18.44 18.64

49.5 52.5 55.8 57.6 58.6 63.0 66.7

38.5 38.5 40.6 41.7 41.7 42.4 42.4

18.64 19.04 19.44 19.64 19.64 20.04 20.44

47.6 50.7 53.9 55.5 56.2 60.7 64.2

37.3 37.5 39.6 40.6 40.6 41.3 41.3

20.65 20.85 21.25 21.45 21.45 22.05 22.45

45.5 48.6 51.6 53.2 54.2 58.3 61.6

36.1 36.4 38.5 39.6 39.6 40.3 40.3

22.66 22.86 23.26 23.45 23.65 24.05 24.46

43.5 46.2 49.3 51.1 51.8 55.8 0.0

35.0 35.0 37.3 38.5 38.5 39.4 0.0

24.87 25.07 25.46 25.66 25.86 26.26 0.0

42.5 45.3 48.3 50.0 50.7 54.9 0.0

34.3 34.5 36.8 38.0 38.0 38.9 0.0

25.67 26.07 26.47 26.67 26.87 27.27 0.0

14.0 16.0 172 18.0 19.0 (0.09) 19.5 22.0 24.0

20 22 25 27 27 30 32

55.3 58.6 62.3 64.2 65.1 70.0 73.9

42.7 42.7 45.0 45.9 45.9 46.8 46.8

14.63 14.83 15.23 15.43 15.43 15.83 16.23

53.9 57.2 60.9 62.8 63.5 68.3 72.3

42.0 42.0 44.1 45.2 45.2 46.1 46.1

15.63 16.00 16.23 16.43 16.43 17.03 17.23

52.3 55.5 58.8 60.7 61.6 66.2 70.0

40.8 41.0 43.1 44.3 44.3 45.2 45.2

17.24 17.44 17.84 18.04 18.04 18.44 18.44

50.4 53.7 56.9 58.6 59.5 63.9 67.6

39.9 39.9 42.2 43.4 43.4 44.1 44.1

18.84 19.04 19.44 19.64 19.84 20.24 20.64

48.6 51.6 54.9 56.5 57.2 61.6 65.3

38.7 38.9 41.3 42.2 42.2 43.1 43.1

20.65 21.05 21.45 21.65 21.65 22.05 22.45

46.5 49.3 52.5 54.2 55.1 59.3 62.8

37.5 37.8 40.1 41.3 41.3 42.2 42.2

22.66 23.06 23.45 23.65 23.65 24.25 24.65

44.2 46.9 50.2 51.8 52.5 56.7 0.0

36.4 36.4 38.9 40.1 40.1 41.0 0.0

24.86 25.26 25.66 25.86 25.86 26.46 0.0

43.2 46.0 49.3 50.9 51.6 55.5 0.0

35.9 35.9 38.5 39.6 39.6 40.6 0.0

25.87 26.27 26.66 26.86 26.86 27.46 0.0

14.0 16.0 210 18.0 (0.11) 19.0 19.5 22.0 24.0

20 22 25 27 27 30 32

56.9 60.4 64.2 66.0 66.9 72.1 76.0

45.2 45.4 47.8 49.2 49.2 50.1 50.1

14.83 15.03 15.43 15.43 15.63 16.03 16.43

55.5 59.0 62.5 64.6 65.3 70.2 74.2

44.5 44.5 47.1 48.5 48.5 49.4 49.4

15.83 16.03 16.43 16.63 16.63 17.03 17.43

53.9 56.9 60.7 62.3 63.2 67.9 72.1

43.4 43.4 46.1 47.3 47.3 48.5 48.5

17.23 17.64 18.03 18.03 18.23 18.63 19.03

51.8 55.1 58.6 60.2 61.1 65.5 69.5

42.4 42.4 45.0 46.1 46.1 47.3 47.3

19.04 19.24 19.64 19.84 19.84 20.44 20.84

50.0 53.0 56.2 58.1 58.8 63.2 66.9

41.3 41.3 43.8 45.2 45.2 46.1 46.1

20.85 21.25 21.44 21.64 21.84 22.24 22.64

47.6 50.7 53.9 55.5 56.5 60.7 64.2

40.1 40.3 42.9 44.1 44.1 45.2 45.2

22.85 23.25 23.65 23.85 23.85 24.45 24.85

45.3 48.3 51.6 53.2 53.9 58.1 0.0

38.7 38.9 41.4 42.9 42.9 44.1 0.0

25.06 25.46 25.67 26.06 26.66 26.86 0.0

44.4 47.2 50.4 52.1 52.8 56.9 0.0

38.2 38.2 41.0 42.4 42.4 43.6 0.0

26.06 26.26 26.66 26.86 27.06 27.66 0.0

Symbols : AFR : Air flow rate BF : Bypass factor EWB : Entering wet bulb temp. EDB : Entering dry bulb temp. TC : Total cooling capacity SHC : Sensible heat capacity PI : Power input (Comp. + Outdoor fan motor)

(m3/min.) (˚CWB) (˚CDB) (kW) (kW) (kW)

Notes : 1. Figures in show nominal capacities. 2. The above capacities are gross capacities which do not include a deduction for indoor fan motor heat. 3. SHC is based on each EWB and EDB. SHC* = SHC correction for other dry bulb. (DB*) = 0.02 × AFR × (1 - BF) × (DB* - EDB) Add SHC* to SHC. 4. Direct interpolation is permissible. Do not extrapolate. 5. Capacities are based on the following conditions. Corresponding refrigerant piping length :5m Level difference :0m

Capacity Correction Ratio

FV(P)G-A Series (50Hz)

19


Operation Limit

ED45-439

9. Operation Limit

20

FV(P)G-A Series (50Hz)


ED45-439

Fan Performance

10. Fan Performance Fan speed Model Air flow (Power absorb) 3 Indoor unit (m /min ) Motor output RPM FVG05AV2 42 kW RPM 63 FVG08AV2 kW RPM 80 FVG10AV2 kW RPM ( kW ) 68 kW RPM ( kW ) 80 FVPG10AY1 kW RPM ( kW ) 96 kW RPM ( kW ) 102 kW RPM ( kW ) FVPG15AY1 120 kW RPM ( kW ) 144 kW RPM ( kW ) 146 kW RPM ( kW ) FVPG20AY1 172 kW RPM ( kW ) 210 kW ESP : External static pressure

FV(P)G-A Series (50Hz)

ESP( mmH2O / Pa ) 0 / 0 5/50 10/100 15/150 20/200 25/250 30/300 35/350 40/400 45/450 50/500

Standard point ( Factory setting ) Air flow = 42 m3/ min, ESP = 0 / 0 ( mmH2O / Pa ) Fan speed = 1000 / 950 / 850 RPM Air flow = 63 m3/ min, ESP = 0 / 0 ( mmH2O / Pa ) Fan speed = 1300 / 1250 / 1150 RPM Air flow = 80 m3/ min, ESP = 0 / 0 ( mmH2O / Pa ) Fan speed = ( 1000 / 950 / 850 ) x 2 RPM

600 0.24 0.75 613 0.32 0.75 642 0.45 0.75 645 0.74 1.5 713 1.11 1.5 813 1.8 3.7 632 1.26 2.2 724 1.99 3.7 857 3.49 5.5

727 0.33 0.75 733 0.41 0.75 748 0.56 0.75 706 0.84 1.5 763 1.22 2.2 853 1.92 3.7 657 1.31 2.2 746 2.06 3.7 881 3.61 5.5

856 0.45 0.75 838 0.53 0.75 848 0.68 1.5 770 0.94 1.5 814 1.33 2.2 894 2.03 3.7 682 1.36 2.2 768 2.13 3.7 899 3.7 5.5

986 0.59 1.5 946 0.64 1.5 940 0.81 1.5 837 1.06 1.5 867 1.44 2.2 937 2.16 3.7 724 1.48 2.2 789 2.19 3.7 917 3.78 5.5

1101 0.74 1.5 1058 0.81 1.5 1028 0.94 1.5 903 1.19 1.5 923 1.57 2.2 980 2.3 3.7 781 1.65 2.2 809 2.24 3.7 934 3.86 5.5

1202 0.9 1.5 1169 0.98 1.5 1116 1.06 1.5 965 1.31 2.2 981 1.72 2.2 1023 2.43 3.7 836 1.82 3.7 849 2.41 3.7 952 3.94 5.5

1290 1.06 1.5 1268 1.15 1.5 1211 1.27 2.2 1024 1.44 2.2 1037 1.86 3.7

1365 1.2 2.2 1356 1.34 2.2 1303 1.47 2.2 1080 1.57 2.2 1091 2 3.7

1436 1.34 2.2 1439 1.53 2.2 1395 1.67 2.2 1132 1.71 2.2 1143 2.16 3.7

1182 1.82 3.7 1194 2.31 3.7

1242 1.99 3.7 1242 2.45 3.7

887 1.99 3.7 896 2.61 5.5 969 4.02 5.5

935 2.14 3.7 944 2.8 5.5 986 4.08 5.5

982 2.33 3.7 991 3.01 5.5 1015 4.25 5.5

1029 2.49 5.5 1035 3.2 5.5 1050 4.46 5.5

1073 2.7 5.5 1075 3.4 5.5

Air flow = 80 m3/ min ESP = 15 / 150 ( mmH2O / Pa ) Fan speed = 946 RPM Motor output = 1.5 kW Fan pulley = PD 160 - 1A - 25 Motor pulley = PD 100 - 1A - 24 V-Belt = A - 44

Air flow = 120 m3/ min ESP = 15 / 150 ( mmH2O / Pa ) Fan speed = 867 RPM Motor output = 2.2 kW Fan pulley = PD 180 - 1A - 25 Motor pulley = PD 112 - 1A - 28 V-Belt = A - 35

Air flow = 172 m3/ min ESP = 15 / 150 ( mmH2O / Pa ) Fan speed = 789 RPM Motor output = 3.7 kW Fan pulley = PD 250 - 1B - 25 Motor pulley = PD 132 - 1B - 28 V-Belt = B - 41

21


Sound Level

ED45-439

11. Sound Level 11.1

Overall

11.1.1 Indoor Unit Direct Air Blow Type Model

FVG05AV2

FVG08AV2

FVG10AV2

Fan Speed

dBA

H

59

M

54

L

50

H

60

M

56

L

51

H

61

M

57

L

52

Measuring Location

Duct Connection Type Model

dBA

FVPG10AY1

61

FVPG15AY1

62

FVPG20AY1

63

Model

dBA

RG125AUY1

57

RUG08AUY1

60

RUG10AUY1

61

Measuring Location

11.1.2 Outdoor Unit Measuring Location

Note : Operation noise differes with operation and ambient conditions.

22

FV(P)G-A Series (50Hz)


ED45-439

Installation

12. Installation 12.1

Indoor Unit·····FVG05AV2, FVG08AV2, FVG10AV2 FVPG10AY1, FVPG15AY1, FVPG20AY1 1. BEFORE INSTALLATION <Do not throw away any of the parts or contents packaged with this unit until installation is completed.> „ Plan a convenient path for transporting the unit prior to unpacking or installing it. „ Unpack the unit at the site of installation. In the event that the unit is unpacked away from the installation site, use a tarp, sheet or some other device when lifting or transporting it to avoid scratches or other damage. 2. SELECTING AN INSTALLATION SITE The installation site should be chosen considering the specifications of Figs. 1 and 2, along with the individual preferences of the user. „ Optimum air distribution is ensured. „ The air passage is not blocked. „ Condensate can drain properly. „ Sufficient clearance for maintenance and servicing is ensured. „ Piping between the indoor and outdoor units is within the allowable limits. (Refer to the installation manual for the outdoor unit.) „ The indoor unit, outdoor unit, power supply wiring and transmission wiring is at least 1 meter away from televisions and radios. This prevents image interference and noise in electrical appliances. (Noise may be generated depending on the conditions under which the electric wave is generated, even if a one-meter allowance is maintained.) Required space for installation Fig. 1

FVG-AV2

FVPG-AY1

FV(P)G-A Series (50Hz)

23


Installation

ED45-439

3. „ „ „ „

PREPARATIONS BEFORE INSTALLATION Preparation floor strong enough for weight of M/C Lay out point for put insert nut at the floor on Table 1-1, Table 1-2. Checked M/C level not incline by water level (Fig. 2-1, Fig. 2-2) Setting M/C to the position as table and tightening with bolt of insert nut.

Table 1-1 Model

A

FVG05AV2

780

FVG08AV2

960

FVG10AV2

1180

Fig. 2-1

Table 1-2 Model

A

B

FVPG10AY1

1210

394

FVPG15AY1

1210

602

FVPG20AY1

1510

602

Fig. 2-2

4. REFRIGERANT PIPING WORK WARNING Do not mix gas other than the specified refrigerant into the refrigerant cycle. Ventilate the area should any refrigerant leak during installation. „ Cut the end of the plug before heating the pipe to remove the plug Fig.3 „ Piping should be brazed onto the indoor unit. Check the size of the refrigerant piping with Table 2, and Fig. 4 „ Use seamless copper piping only. „ After brazing the pipes use the insulation to secure the pipe inside of the unit (Fig. 5-1, Fig. 5-2). Install the insulation as close to the body as possible to absorb leaking condensation. Table 2 Refrigerant Piping Size

24

Gas Pipe

Liquid Pipe

FVG05AV2

19.1×1.0t, L=10

9.5×0.8t, L=7

FVG08AV2

25.4×1.2t, L=12

12.7×0.9t, L=8 15.9×0.9t, L=8

FVG10AV2

31.8×1.2t, L=12

FVPG10AY1

31.8×1.2t, L=12

15.9×0.9t, L=8

FVPG15AY1

25.4×1.15t, L=12

12.7×0.9t, L=8

FVPG20AY1

31.8×1.2t, L=12

15.9×0.9t, L=8

FV(P)G-A Series (50Hz)


ED45-439

Installation

Fig. 3

Fig. 4

Fig. 5-1

Fig. 5-2

5. DRAIN PIPING WORK WARNING The drain pipe must be installed to avoid water damage caused by leaks and condensation. „ Assemble the unit as shown in Fig. 6-1, Fig. 6-2. „ The drain pipe outlet can be installed on either the left or right side. The drain plug can be removed and placed on either the left or right side as well. „ For best results, try to keep the piping as short as possible. Slant the piping at an angle to improve airflow (the drain pipe provided with the indoor unit is PT 1 internal thread). „ Securely insulate the drain pipe. „ It is necessary to provide a drain trap in the drain outlet to relieve negative pressure that exists withing the unit compared to the outside atmospheric pressure when the unit is operating. „ Keep pipes as straight as possible for easy cleaning and to prevent the accumulation of dirt and debris. „ After closing the drain pipe on the opposite side of the unit, completely wrap the drain pipes with insulation (Fig. 6-1, Fig. 6-2). „ Pour water in the drain pan to test for smooth drainage.

FV(P)G-A Series (50Hz)

25


Installation

ED45-439

Fig. 6-1

6. „ „ „ „ „ „ „

Fig. 6-2

ELECTRIC WIRING All commercially available supplies, materials and electrical parts must conform to local codes. Use copper wire only. For electric wiring work, refer to the "WIRING DIAGRAM" Fig. 7-1, Fig. 7-2. For remote controller wiring, refer to the remote controller’s installation manual. All wiring must be performed by an authorized electrician. A circuit breaker capable of controlling the power supply to the entire system must be installed. Refer to the installation manual attached to the outdoor unit for the size of the power supply electrical wire to be used to connect with the outdoor unit, the capacity of the circuit breaker/switch, and wiring instructions.

FVG-AV2 Fig. 7-1

26

FV(P)G-A Series (50Hz)


ED45-439

Installation

FVPG10AY1

FVPG15, 20AY1 Fig. 7-2

WARNING Observe the notes mentioned below while connecting wire to the power supply terminal board. Â&#x201E; Do not connect wires of different size to the same power supply terminal. (Looseness in the connection may cause overheating.). Â&#x201E; When connecting wires of the same gauge, connect them according to the figure below. Connect wires of the same size on Do not connect wires of the same Do not connect wires of different both sides. sizes size to only one side.

CAUTION Busier to use 3 minute delay timer when starting the compressor may not start. WARNING Do not install the switch box on the air outlet side of coil or under any of the surrounding piping to avoid electric fire or shock caused by leaking condensation. Fig. 8-1, Fig. 8-2.

FV(P)G-A Series (50Hz)

27


Installation

ED45-439

FVG-AV2 Fig. 8-1

FVPG10AY1

FVPG15, 20AY1 Fig. 8-2

28

FV(P)G-A Series (50Hz)


ED45-439

12.2

Installation

Outdoor Unit·····RG125AUY1

FV(P)G-A Series (50Hz)

29


Installation

30

ED45-439

FV(P)G-A Series (50Hz)


ED45-439

FV(P)G-A Series (50Hz)

Installation

31


Installation

32

ED45-439

FV(P)G-A Series (50Hz)


ED45-439

FV(P)G-A Series (50Hz)

Installation

33


Installation

34

ED45-439

FV(P)G-A Series (50Hz)


ED45-439

FV(P)G-A Series (50Hz)

Installation

35


Installation

36

ED45-439

FV(P)G-A Series (50Hz)


ED45-439

FV(P)G-A Series (50Hz)

Installation

37


Installation

38

ED45-439

FV(P)G-A Series (50Hz)


ED45-439

FV(P)G-A Series (50Hz)

Installation

39


Installation

40

ED45-439

FV(P)G-A Series (50Hz)


ED45-439

FV(P)G-A Series (50Hz)

Installation

41


Installation

ED45-439

SDR3040989

42

FV(P)G-A Series (50Hz)


ED45-439

12.3

Installation

Outdoor Unit·····RUG08AUY1, RUG10AUY1

FV(P)G-A Series (50Hz)

43


Installation

44

ED45-439

FV(P)G-A Series (50Hz)


ED45-439

FV(P)G-A Series (50Hz)

Installation

45


Installation

46

ED45-439

FV(P)G-A Series (50Hz)


ED45-439

FV(P)G-A Series (50Hz)

Installation

47


Installation

48

ED45-439

FV(P)G-A Series (50Hz)


ED45-439

Installation

SDR3041000

FV(P)G-A Series (50Hz)

49


Cautions on product corrosion 1. Air conditioners should not be installed in areas where corrosive gases, such as acid gas or alkaline gas, are produced. 2. If the outdoor unit is to be installed close to the sea shore, direct exposure to the sea breeze should be avoided and choose an outdoor unit with anti-corrosion treatment.

The air conditioners manufactured by Daikin Airconditioning (Thailand) LTD. have received ISO 9000 series certification for quality assurance. Certificate Number.

The airconditioning factories of Daikin Airconditioning (Thailand) LTD. have received environmental management system standard ISO 14001 certification. Certificate Number.

(ISO9001) JQA-QM8166

(ISO14001) JQA-EM3701

Dealer 700/444 Moo. 7 Amata Nakorn Industrial Estate Bangna-Trad Road, km. 57, Tambol Donhualor, Amphur Muangchonburi, Chonburi 20000 Thailand Tel: (038)717-066-70 Fax: (038)454-184

Head Office: Umeda Center Bldg., 4-12, Nakazaki-Nishi 2-chome, Kita-ku, Osaka, 530-8323 Japan Tokyo Office: JR Shinagawa East Bldg., 18-1, Konan 2-chome, Minato-ku, Tokyo, 108-0075 Japan

http://www.daikin.com/global/ c All rights reserved

The specifications, designs, and information in this brochure are subject to change without notice.

This book is made of recycled paper.

ED 45-439 Printed in Japan 09/2004 FS


Daikin engineering data packaged air conditioners floor standing type fvg,fvpg