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Argo ACS100, Service Manual

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Argo ACS100 Service Manual Download Page 57

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54

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1-2.  Major Component Specif cations
(A) Indoor Units

Concealed-Duct Type 

ADS125PH

MODEL No.

                                            ADS125PH

Source

220 - 230 - 240 V, 1 phase, 50/60 Hz

Controller P.C.B. Ass'y

CR-UXRP71B-B or CB-UXRP71B-B (Microprocessor)

Fan (Number...diameter, depth)

Centrifugal (3...ø190, L200)

Fan motor

Model...Nominal output

W

KFC4X-141A5P...160W

KFC4X-141D5P-S...160W

Source

220 - 230 - 240 V, 1 phase, 50/60 Hz

No. of pole...rpm (230V, High)

rpm

4P...1,207

Coil resistance
(Ambient temperature 20°C)

BRN–WHT : 25.79               ORG–YEL : 5.792

WHT–VLT : 5.086                 YEL–BLK : 6.746
VLT–ORG : 8.626                BLK–PNK : 6.361

Safety device

Operation temperature

Open °C

130 ± 5

Operation temperature

Close °C

(115 ± 5)

Run capacitor

VAC, µF

450 VAC, 8.0 µF

Electronic expansion valve

Coil

Coil resistance (at 20°C)

Valve body

Heat Exchanger

Coil

Aluminium plate fin / Copper tube

Rows...fin pitch

mm

3...2.0

Face area

m

2

0.308

Panel

Model No.

Dew proof heater

Auto louver motor

Coil resistance (at 20°C)

Drain Pump

ADP-1413

PLD-12230STHU-1

Rated

VAC, W

AC 230V, 50Hz, 12W

Total head & capacity

500mm, 400cc/min

1200mm, 400cc/min

SM830159-06̲Elite̲PAC-i.indb   297

SM830159-06̲Elite̲PAC-i.indb   297

2012/04/27   15:22:21

2012/04/27   15:22:21

Summary of Contents for ACS100

Page 1: ... AES125PIH3E ASS100 ASS125 AWS Wall Mounted AWS36 AWS45 AWS56 AWS71 ACS Ceiling Mounted ACS36 ACS45 ACS56 ACS71 ACS100 ACS125 ADS36 ADS45 ADS56 ADS71 ADS100 ADS125 Concealed Duct ADS AES100PIH3E AES125PIH3E SPW C606VEH8 HN SPW C486VEHN SPW C606VEHN 36 48 Heat Pump Unit Single phase SPW ASAEAESS 25 Wall Mounted Ceiling Mounted Concealed Duct AES71PIH3E 4 Way Air Discharge Semi Concealed ...

Page 2: ...IAN SHOULD ATTEMPT TO WIRE THIS SYSTEM Do not supply power to the unit until all wiring and tubing are completed or reconnected and checked Highly dangerous electrical voltages are used in this system Carefully refer to the wiring diagram and these instructions when wiring Improper connections and inadequate grounding can cause accidental injury or death Ground the unit following local electrical ...

Page 3: ...ditioner system is able to replenish a large amount of refrigerant compared to conventional individual air conditioners If a single unit of the multi air conditioner system is to be installed in a small room select a suitable model and installation procedure so that if the refrigerant accidentally leaks out its density does not reach the limit and in the event of an emergency measures can be made ...

Page 4: ...Type 1 60 Concealed Duct Type 1 61 Outdoor Units 1 62 1 4 Dimensional Data 1 65 A Indoor Units 1 65 4 Way Air Discharge Semi Concealed Type 1 65 Wall Mounted Type 1 67 1 68 Ceiling Mounted Type Concealed Duct Type 1 69 B Outdoor Units 1 72 1 6 Operating Range 1 75 1 10 Airflow Distance Chart 1 87 1 9 Indoor Fan Performance 1 85 1 8 Noise Criterion Curves 1 78 1 7 Capacity Correction Graph Accordin...

Page 5: ...lor Approximate value Indoor Munsell 2 5GY 9 0 0 5 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 50 164 Limit of tubing length at shipment m ft 3 30 10 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tube ...

Page 6: ...Color Approximate value Indoor Munsell 2 5GY 9 0 0 5 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tub...

Page 7: ... value Indoor Munsell 2 5GY 9 0 0 5 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tube mm in 6 35 1 4 ...

Page 8: ... Color Approximate value Indoor Munsell 2 5GY 9 0 0 5 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tu...

Page 9: ...Color Approximate value Indoor Munsell 2 5GY 9 0 0 5 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tub...

Page 10: ... 9 0 0 5 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 50 164 Limit of tubing length at shipment m ft 3 30 10 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tube mm in 9 52 3 8 9 52 3 8 Gas tube mm in 15 ...

Page 11: ...olor Approximate value Indoor Munsell 2 5GY 9 0 0 5 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tube...

Page 12: ...5GY 9 0 0 5 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tube mm in 9 52 3 8 9 52 3 8 Gas tube mm in ...

Page 13: ...5GY 9 0 0 5 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tube mm in 9 52 3 8 9 52 3 8 Gas tube mm in ...

Page 14: ... 0 49 0 Color Approximate value Indoor Munsell 3 0Y 8 6 0 8 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 50 164 Limit of tubing length at shipment m ft 3 30 10 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liq...

Page 15: ...52 0 53 0 Color Approximate value Indoor Munsell 3 0Y 8 6 0 8 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter L...

Page 16: ... A 53 0 54 0 Color Approximate value Indoor Munsell 3 0Y 8 6 0 8 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diamete...

Page 17: ...53 0 54 0 Color Approximate value Indoor Munsell 3 0Y 8 6 0 8 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter L...

Page 18: ... 0 53 0 Color Approximate value Indoor Munsell 3 0Y 8 6 0 8 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liq...

Page 19: ...Indoor Munsell 3 0Y 8 6 0 8 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 50 164 Limit of tubing length at shipment m ft 3 30 10 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tube mm in 9 52 3 8 9 52 3 8...

Page 20: ... 54 0 Color Approximate value Indoor Munsell 3 0Y 8 6 0 8 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liqui...

Page 21: ...r Hi dB A 47 0 49 0 Color Approximate value Indoor Munsell 10Y 9 3 0 4 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 50 164 Limit of tubing length at shipment m ft 3 30 10 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer d...

Page 22: ...or Hi dB A 52 0 53 0 Color Approximate value Indoor Munsell 10Y 9 3 0 4 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer ...

Page 23: ...tdoor Hi dB A 53 0 54 0 Color Approximate value Indoor Munsell 10Y 9 3 0 4 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube out...

Page 24: ...Approximate value Indoor Munsell 10Y 9 3 0 4 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tube mm in ...

Page 25: ...or Hi dB A 52 0 53 0 Color Approximate value Indoor Munsell 10Y 9 3 0 4 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer ...

Page 26: ...unsell 10Y 9 3 0 4 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 50 164 Limit of tubing length at shipment m ft 3 30 10 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tube mm in 9 52 3 8 9 52 3 8 Gas tube...

Page 27: ...proximate value Indoor Munsell 10Y 9 3 0 4 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tube mm in 9 ...

Page 28: ...e Indoor Munsell 10Y 9 3 0 4 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tube mm in 9 52 3 8 9 52 3 ...

Page 29: ...e Indoor Munsell 10Y 9 3 0 4 Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrigerant tube outer diameter Liquid tube mm in 9 52 3 8 9 52 3 ...

Page 30: ...i Me Lo dB A 29 26 22 32 29 26 using the booster cable Outdoor Hi dB A 47 0 49 0 Color Approximate value Indoor Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 50 164 Limit of tubing length at shipment m ft 3 30 10 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than i...

Page 31: ...r Hi Me Lo dB A 29 26 22 32 29 26 using the booster cable Outdoor Hi dB A 52 0 53 0 Color Approximate value Indoor Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower tha...

Page 32: ...oor Hi Me Lo dB A 29 26 22 32 29 26 using the booster cable Outdoor Hi dB A 53 0 54 0 Color Approximate value Indoor Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower t...

Page 33: ... Hi Me Lo dB A 30 28 25 33 30 28 using the booster cable Outdoor Hi dB A 53 0 54 0 Color Approximate value Indoor Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than...

Page 34: ... Hi Me Lo dB A 30 28 25 33 30 28 using the booster cable Outdoor Hi dB A 52 0 53 0 Color Approximate value Indoor Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than...

Page 35: ... 34 30 using the booster cable Outdoor Hi dB A 47 0 49 0 Color Approximate value Indoor Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 50 164 Limit of tubing length at shipment m ft 3 30 10 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refrige...

Page 36: ... Me Lo dB A 34 30 27 38 34 30 using the booster cable Outdoor Hi dB A 53 0 54 0 Color Approximate value Indoor Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than in...

Page 37: ... 42 38 33 using the booster cable Outdoor Hi dB A 52 0 53 0 Color Approximate value Indoor Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refr...

Page 38: ... 44 40 37 using the booster cable Outdoor Hi dB A 53 0 54 0 Color Approximate value Indoor Outdoor Munsell 1Y 8 5 0 5 REFRIGERANT TUBING Indoor unit Outdoor unit Limit of tubing length m ft 70 230 Limit of tubing length at shipment m ft 5 30 16 98 Limit of elevation difference between the two units m ft Outdoor unit is higher than indoor unit 30 98 Outdoor unit is lower than indoor unit 15 49 Refr...

Page 39: ...pm 230V High rpm 8P 380 Coil resistance Ambient temperature 20 C Ω RED WHT 87 0 WHT BLK 87 0 BLK RED 87 0 Run capacitor VAC µF Safety device overcurrent rotating signal detection fuse Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 2 1 25 Face area m2 0 36 Panel Indoor unit Model No PNR XD484GHAB optional De...

Page 40: ...High rpm 8P 390 Coil resistance Ambient temperature 20 C Ω RED WHT 87 0 WHT BLK 87 0 BLK RED 87 0 Run capacitor VAC µF Safety device overcurrent rotating signal detection fuse Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 2 1 25 Face area m2 0 36 Panel Indoor unit Model No PNR XD484GHAB optional Dew proof ...

Page 41: ...igh rpm 8P 440 Coil resistance Ambient temperature 20 C Ω RED WHT 87 0 WHT BLK 87 0 BLK RED 87 0 Run capacitor VAC µF Safety device overcurrent rotating signal detection fuse Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 2 1 25 Face area m2 0 405 Panel Indoor unit Model No PNR XD484GHAB optional Dew proof ...

Page 42: ...High rpm 8P 540 Coil resistance Ambient temperature 20 C Ω RED WHT 43 0 WHT BLK 43 0 BLK RED 43 0 Run capacitor VAC µF Safety device overcurrent rotating signal detection fuse Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 2 1 25 Face area m2 0 584 Panel Indoor unit Model No PNR XD484GHAB optional Dew proof...

Page 43: ...High rpm 8P 620 Coil resistance Ambient temperature 20 C Ω RED WHT 43 0 WHT BLK 43 0 BLK RED 43 0 Run capacitor VAC µF Safety device overcurrent rotating signal detection fuse Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 2 1 25 Face area m2 0 584 Panel Indoor unit Model No PNR XD484GHAB optional Dew proof...

Page 44: ...1 205 Coil resistance Ambient temperature 20 C Ω BRN WHT 490 5 ORG YEL 39 18 WHT VLT 78 43 YEL PNK 213 5 VLT ORG 62 63 Safety device Operation temperature 17AM033E5 4 Open C 130 5 Close C 83 15 Operation temperature 9700k211 215 Open C 130 8 Close C 79 15 Run capacitor VAC µF 440 VAC 1 0 µF Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin...

Page 45: ...il resistance Ambient temperature 20 C Ω BRN WHT 490 5 ORG YEL 39 18 WHT VLT 78 43 YEL PNK 213 5 VLT ORG 62 63 Safety device Operation temperature 17AM033E5 4 Open C 130 5 Close C 83 15 Operation temperature 9700k211 215 Open C 130 8 Close C 79 15 Run capacitor VAC µF 440 VAC 1 2 µF Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper ...

Page 46: ...7 Coil resistance Ambient temperature 20 C Ω BRN WHT 307 5 ORG YEL 23 4 WHT VLT 54 6 YEL PNK 97 8 VLT ORG 34 5 Safety device Operation temperature 17AM033E5 4 Open C 130 5 Close C 83 15 Operation temperature 9700k211 215 Open C 130 8 Close C 79 15 Run capacitor VAC µF 440 VAC 1 8 µF Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper ...

Page 47: ...W Source 280 340V DC 3 phase No of pole rpm 230V High rpm 8P 920 Coil resistance Ambient temperature 20 C Ω RED WHT 53 0 WHT BLK 53 0 BLK RED 53 0 Run capacitor VAC µF Safety device overcurrent rotating signal detection fuse Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 3 1 4 Face area m2 0 154 Panel Model...

Page 48: ... 280 340V DC 3 phase No of pole rpm 230V High rpm 8P 960 Coil resistance Ambient temperature 20 C Ω RED WHT 53 0 WHT BLK 53 0 BLK RED 53 0 Run capacitor VAC µF Safety device overcurrent rotating signal detection fuse Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 3 1 4 Face area m2 0 154 Panel Model No Dew ...

Page 49: ... 280 340V DC 3 phase No of pole rpm 230V High rpm 8P 980 Coil resistance Ambient temperature 20 C Ω RED WHT 53 0 WHT BLK 53 0 BLK RED 53 0 Run capacitor VAC µF Safety device overcurrent rotating signal detection fuse Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 3 1 4 Face area m2 0 222 Panel Model No Dew ...

Page 50: ...e 280 340V DC 3 phase No of pole rpm 230V High rpm 8P 1040 Coil resistance Ambient temperature 20 C Ω RED WHT 37 0 WHT BLK 37 0 BLK RED 37 0 Run capacitor VAC µF Safety device overcurrent rotating signal detection fuse Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 3 1 4 Face area m2 0 326 Panel Model No De...

Page 51: ...e 280 340V DC 3 phase No of pole rpm 230V High rpm 8P 1100 Coil resistance Ambient temperature 20 C Ω RED WHT 37 0 WHT BLK 37 0 BLK RED 37 0 Run capacitor VAC µF Safety device overcurrent rotating signal detection fuse Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 3 1 4 Face area m2 0 326 Panel Model No De...

Page 52: ...nce Ambient temperature 20 C Ω BRN WHT 76 88 ORG YEL 14 42 WHT VLT 12 66 YEL BLK 26 76 VLT ORG 21 01 BLK PNK 25 17 Safety device Operation temperature Open C 130 5 Operation temperature Close C 115 5 Run capacitor VAC µF 450 VAC 1 5 µF Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 2 1 5 Face area m2 0 113 ...

Page 53: ...ance Ambient temperature 20 C Ω BRN WHT 76 88 ORG YEL 14 42 WHT VLT 12 66 YEL BLK 26 76 VLT ORG 21 01 BLK PNK 25 17 Safety device Operation temperature Open C 130 5 Operation temperature Close C 115 5 Run capacitor VAC µF 450 VAC 2 0 µF Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 3 1 5 Face area m2 0 113...

Page 54: ...ance Ambient temperature 20 C Ω BRN WHT 76 88 ORG YEL 14 42 WHT VLT 12 66 YEL BLK 26 76 VLT ORG 21 01 BLK PNK 25 17 Safety device Operation temperature Open C 130 5 Operation temperature Close C 115 5 Run capacitor VAC µF 450 VAC 2 0 µF Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 3 1 5 Face area m2 0 113...

Page 55: ...il resistance Ambient temperature 20 C Ω BRN WHT 74 72 ORG YEL 9 588 WHT VLT 19 14 YEL BLK 10 52 VLT ORG 10 52 BLK PNK 21 72 Safety device Operation temperature Open C 130 5 Operation temperature Close C 115 5 Run capacitor VAC µF 450 VAC 5 0 µF Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 3 1 5 Face area...

Page 56: ... Coil resistance Ambient temperature 20 C Ω BRN WHT 25 79 ORG YEL 5 792 WHT VLT 5 086 YEL BLK 6 746 VLT ORG 8 626 BLK PNK 6 361 Safety device Operation temperature Open C 130 5 Operation temperature Close C 115 5 Run capacitor VAC µF 450 VAC 6 0 µF Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 3 2 0 Face a...

Page 57: ... Coil resistance Ambient temperature 20 C Ω BRN WHT 25 79 ORG YEL 5 792 WHT VLT 5 086 YEL BLK 6 746 VLT ORG 8 626 BLK PNK 6 361 Safety device Operation temperature Open C 130 5 Operation temperature Close C 115 5 Run capacitor VAC µF 450 VAC 8 0 µF Electronic expansion valve Coil Coil resistance at 20 C Ω Valve body Heat Exchanger Coil Aluminium plate fin Copper tube Rows fin pitch mm 3 2 0 Face a...

Page 58: ... C S 2 459 Safety control Overload relay models Discharge temperature control Operation temperature Open C Close C Crank case heater Refrigerant amount at shipment kg R410A 2 3 High pressure switch Set pressure OFF kg cm2 ON kg cm2 Fan Number diameter mm 1 ø460 Air circulation m3 h 3 300 Fan speeds Max 830 rpm Inverter drive control Fan motor Model No DAJ12 95A61A Source 280VDC 3 phase No of pole ...

Page 59: ... C S 0 552 Safety control Overload relay models Discharge temperature control Operation temperature Open C Close C Crank case heater Refrigerant amount at shipment kg R410A 3 4 High pressure switch Set pressure OFF kg cm2 ON kg cm2 Fan Number diameter mm 2 ø490 Air circulation m3 h 6 600 Fan speeds Max 800 rpm Inverter drive control Fan motor Model No SIC 71FW D890 1 2 Source 280VDC 3 phase No of ...

Page 60: ... C S 0 552 Safety control Overload relay models Discharge temperature control Operation temperature Open C Close C Crank case heater Refrigerant amount at shipment kg R410A 3 4 High pressure switch Set pressure OFF kg cm2 ON kg cm2 Fan Number diameter mm 2 ø490 Air circulation m3 h 6 600 Fan speeds Max 800 rpm Inverter drive control Fan motor Model No SIC 71FW D890 1 2 Source 280VDC 3 phase No of ...

Page 61: ...B2M 41E S3 PB3M 41E AS1 Resistance kΩ 10 C 23 7 5 20 C 6 5 5 5 C 18 8 5 30 C 4 4 5 0 C 15 0 5 40 C 3 1 5 5 C 12 1 5 45 C 2 6 5 10 C 9 7 5 50 C 2 1 5 Thermistor Coil sensor KTEC 35 S98 Resistance kΩ 0 C 16 5 5 40 C 2 7 5 5 C 12 8 5 45 C 2 2 5 10 C 10 0 5 50 C 1 8 5 20 C 6 3 5 55 C 1 5 5 30 C 4 0 5 Electronic expansion valve Valve body Coil Drain pump ADP 1414 Rated AC230V 12W Float switch FS 0218 1...

Page 62: ... cut off temperature C 150 C Thermistor Coil sensor TH PBC 41E AS7 1 PBC 41E AS7 3 Resistance kΩ 10 C 23 7 5 20 C 6 5 5 5 C 18 8 5 30 C 4 4 5 0 C 15 0 5 40 C 3 1 5 5 C 12 1 5 45 C 2 6 5 10 C 9 7 5 50 C 2 1 5 Thermistor Coil sensor KTEC 35 S Resistance kΩ 0 C 16 5 5 40 C 2 7 5 5 C 12 8 5 45 C 2 2 5 10 C 10 0 5 50 C 1 8 5 20 C 6 3 5 55 C 1 5 5 30 C 4 0 5 Electronic expansion valve Valve body Coil Dr...

Page 63: ...or Coil sensor TH PBC 41E AS4 PBC 41E AS8 5 Resistance kΩ 10 C 23 7 5 20 C 6 5 5 5 C 18 8 5 30 C 4 4 5 0 C 15 0 5 40 C 3 1 5 5 C 12 1 5 45 C 2 6 5 10 C 9 7 5 50 C 2 1 5 Thermistor Coil sensor KTEC 35 S98 Resistance kΩ 0 C 16 5 5 40 C 2 7 5 5 C 12 8 5 45 C 2 2 5 10 C 10 0 5 50 C 1 8 5 20 C 6 3 5 55 C 1 5 5 30 C 4 0 5 Electronic expansion valve Valve body Coil Drain pump Rated Float switch Rated Con...

Page 64: ...2M 41E S6 1 PB2M 41E S3 2 Resistance kΩ 10 C 23 7 5 20 C 6 5 5 5 C 18 8 5 30 C 4 4 5 0 C 15 0 5 40 C 3 1 5 5 C 12 1 5 45 C 2 6 5 10 C 9 7 5 50 C 2 1 5 Thermistor Coil sensor KTEC 35 S85 KTEC 35 S99 1 Resistance kΩ 0 C 16 5 5 40 C 2 7 5 5 C 12 8 5 45 C 2 2 5 10 C 10 0 5 50 C 1 8 5 20 C 6 3 5 55 C 1 5 5 30 C 4 0 5 Electronic expansion valve Valve body Coil Drain pump ADP 1413 PLD 12230STHU 1 ZPLD 12...

Page 65: ... 4 4 5 0 C 15 0 5 40 C 3 1 5 5 C 12 1 5 45 C 2 6 5 10 C 9 7 5 50 C 2 1 5 Thermistor Discharge gas sensor TH5 DTN C583G3U TKS236B Resistance kΩ 60 C 13 8 5 90 C 5 1 5 70 C 9 7 5 100 C 3 8 5 75 C 8 2 5 110 C 2 8 5 80 C 7 0 5 120 C 2 2 5 85 C 5 9 5 130 C 1 7 5 Relay Comp Magnetic Contactor Coil rated VAC Contact rating VAC A Coil resistance at 20 C Ω Sol Control Valve Sol control valve UKV 18D13 Magn...

Page 66: ...C 4 4 5 0 C 15 0 5 40 C 3 1 5 5 C 12 1 5 45 C 2 6 5 10 C 9 7 5 50 C 2 1 5 Thermistor Discharge gas sensor TH4 CM 12 Resistance kΩ 60 C 12 4 5 90 C 4 6 5 70 C 8 7 5 100 C 3 4 5 75 C 7 4 5 110 C 2 5 5 80 C 6 3 5 120 C 1 9 5 85 C 5 3 5 130 C 1 5 5 Relay Comp Magnetic Contactor Coil rated VAC Contact rating VAC A Coil resistance at 20 C Ω Sol Control Valve Sol control valve UKV 25D14 Magnetic coil UKV...

Page 67: ...C 4 4 5 0 C 15 0 5 40 C 3 1 5 5 C 12 1 5 45 C 2 6 5 10 C 9 7 5 50 C 2 1 5 Thermistor Discharge gas sensor TH5 CM 12 Resistance kΩ 60 C 12 4 5 90 C 4 6 5 70 C 8 7 5 100 C 3 4 5 75 C 7 4 5 110 C 2 5 5 80 C 6 3 5 120 C 1 9 5 85 C 5 3 5 130 C 1 5 5 Relay Comp Magnetic Contactor Coil rated VAC Contact rating VAC A Coil resistance at 20 C Ω Sol Control Valve Sol control valve UKV 25D14 Magnetic coil UKV...

Page 68: ...t as shown in the f gure at right If the suspension bolt is too long it will contact the ceiling panel and the unit cannot be installed Less than 35 Air intake Discharge outlet Refrigerant tubing liquid tube 12 18 type ø6 35 f ared 25 type ø9 52 f ared Refrigerant tubing gas tube 12 18 type ø12 7 f ared 25 type ø15 88 f ared Drain tube connection port VP25 outer dia ø32 Power supply port Discharge...

Page 69: ... lower surface of the main unit as shown in the f gure at right If the suspension bolt is too long it will contact the ceiling panel and the unit cannot be installed Air intake Discharge outlet Refrigerant tubing liquid tube ø9 52 f ared Refrigerant tubing gas tube ø15 88 f ared Drain tube connection port VP25 outer dia ø32 Power supply port Discharge duct connection port ø150 Vaporization type hu...

Page 70: ... 56 Types 71 Type Gas tube ø12 7 length Approx 400 mm Liquid tube ø6 35 length Approx 470 mm Drain and wiring port ø9 52 Drain hose VP13 length Approx 450 mm Drain hose VP13 length Approx 450 mm Gas tube ø15 88 length Approx 500 mm Drain and wiring port ø9 52 Liquid tube ø9 52 length Approx 570 mm ...

Page 71: ...Length Type A B C 36 45 56 855 910 210 71 1125 1180 210 100 125 1540 1595 210 Suspension bolt pitch Ceiling side Air intake Air outlet Suspension bolt pitch Gas tubing Left side Rear Figure shows view from front Right side Liquid tubing Gas tubing Closed with rubber stopper at time of shipment Left drain position Right drain position Liquid tubing ...

Page 72: ...liquid line ø6 35 liquid tube Refrigerant gas line ø12 7 Upper drain port O D 32 mm Bottom drain port O D 32 mm Suspension lug Power supply outlet 2 ø30 Fresh air intake port ø150 Flange for the f exible air outlet duct ø200 Tube cover Electrical component box Flange for the air intake duct Option or f eld supply Inspection access 450 450 Field supply Hole 780 Suspension bolt pitch Suspension bolt...

Page 73: ... tube Use the tube connector Refrigerant gas line ø15 88 gas tube Upper drain port O D 32 mm Bottom drain port O D 32 mm Suspension lug Power supply outlet 2 ø30 Fresh air intake port ø150 Flange for the f exible air outlet duct ø200 Tube cover Electrical component box Flange for the air intake duct Option or f eld supply Inspection access 450 450 Field supply Hole 1080 Suspension bolt pitch Suspe...

Page 74: ...t liquid line ø9 52 liquid tube Refrigerant gas line ø15 88 Upper drain port O D 32 mm Bottom drain port O D 32 mm Suspension lug Power supply outlet 2 ø30 Fresh air intake port ø150 Flange for the f exible air outlet duct ø200 Tube cover Electrical component box Flange for the air intake duct Option or f eld supply Inspection access 450 450 Field supply Hole 1560 Suspension bolt pitch Suspension ...

Page 75: ...10 380 405 660 27 1 2 3 4 5 Unit mm Hole for anchor bolt 4 R6 5 Anchor bolt M10 Refrigerant tube joint liquid line tube Flare connection 3 8 in ø9 52 mm Refrigerant tube joint gas line tube Flare connection 5 8 in ø15 88 mm Refrigerant tube inlet knock out hole Power supply inlet knock out hole ø38 ø29 ø19 ø16 mm ...

Page 76: ...E AES125PIH3E Air discharge Air intake Unit mm Z VIEW Z VIEW Air discharge Air intake 2 x ø32 holes holes for drain Of the 4 ø32 holes use 1 of the 2 holes specif ed for drain use to install the port Use rubber plugs to seal the remaining 3 holes Mounting hole 4 R6 5 anchor bolt M10 Refrigerant tubing liquid tube f ared connection ø9 52 Refrigerant tubing gas tube f ared connection ø15 88 Refriger...

Page 77: ...ndoor Unit Compressor Heat exchanger Accumulator Gas line service valve Muff er 4 way valve Electronic ref control valve Liquid line service valve Cooling cycle Heating cycle Strainer Heat exchanger Strainer Distributor Distributor Freeze prevention coil Attached to the heat exchanger ...

Page 78: ...ng Maximum 32 C DB 23 C WB 43 C DB Minimum 18 C DB 14 C WB 15 C DB Heating Maximum 30 C DB WB 15 C WB Minimum 20 C WB Compressor Muff er Heat exchanger Accumulator Gas line service valve 4 way valve Electronic ref control valve Liquid line service valve Strainer Heat exchanger Strainer Distributor Freeze prevention coil Attached to the heat exchanger Distributor Cooling cycle Heating cycle ...

Page 79: ...p C WB Outdoor air intake temp C DB Capacity kW 0 0 2 4 6 8 10 12 Capacity kW Cooling capacity ratio maximum capacity Heating capacity ratio maximum capacity 140 40 60 80 100 120 140 120 100 80 60 Input coefficient Capacity coefficient 0 20 40 60 80 100 120 140 160 180 Input coefficient 0 2 4 6 8 10 160 180 Input coefficient 0 20 40 60 80 100 120 140 131 138 Indoor air intake temp C DB Indoor air ...

Page 80: ...H3E AES125PIH3E For 50 Hz and 60 Hz SPW C366VEHN C486VEHN C606VEHN For 50 Hz and 60 Hz AES100PIH3E AES125PIH3E Cooling capacity ratio maximum capacity Heating capacity ratio maximum capacity Input coefficient Capacity coefficient Outdoor air intake temp C DB 0 2 4 6 8 10 12 2 4 6 8 10 12 14 16 Outdoor air intake temp C DB Input coefficient Capacity coefficient Outdoor air intake temp C WB Cooling ...

Page 81: ...inuous noise Overall Frequency at center of sound pressure band Hz Both 50Hz 60Hz Strong Weak Approximate minimum audible limit for continuous noise Approximate minimum audible limit for continuous noise Approximate minimum audible limit for continuous noise MODEL SOUND LEVEL CONDITION MODEL SOUND LEVEL CONDITION MODEL SOUND LEVEL CONDITION Overall Frequency at center of sound pressure band Hz Sou...

Page 82: ...imate minimum audible limit for continuous noise Overall Frequency at center of sound pressure band Hz Both 50Hz 60Hz Strong Weak MODEL SOUND LEVEL CONDITION AWS56 STRONG 38 dB A MEDIUM 34 dB A WEAK 30 dB A 1 m in front at height of 1 m Sound pressure level dB 0dB 0 0002µbar Overall Frequency at center of sound pressure band Hz MODEL SOUND LEVEL CONDITION AWS71 STRONG 41 dB A MEDIUM 37 dB A WEAK 3...

Page 83: ...it for continuous noise Overall Frequency at center of sound pressure band Hz MODEL SOUND LEVEL CONDITION ACS100 STRONG 41 dB A WEAK 35 dB A 1 m from front of outlet at height of 1 m Sound pressure le vel dB 0dB 0 0002µbar Approximate minimum audible limit for continuous noise Overall Frequency at center of sound pressure band Hz MODEL SOUND LEVEL CONDITION ACS125 STRONG 43 dB A WEAK 37 dB A 1 m f...

Page 84: ...XIMATE THRESHOLD OF HEATING FOR CONTINU OUS NOISE Frequency at center of sound pressure band Hz MODEL SOUND LEVEL CONDITION SOURCE ADS45 56 SPW UR184SH56B SPW U165 185H N SPW U185SH T STRONG 30 dB A NC 23 WEAK 25 dB A NC 17 Under the unit 1 5 m 220 230 240 V Single Phase 50 Hz Sound pressure level dB 0dB 0 0002µbar Frequency at center of sound pressure band Hz MODEL SOUND LEVEL CONDITION SOURCE AD...

Page 85: ...results were obtained from an anechoic room 3 The layout of the testing condition is shown at right REMARKS NOTE To evaluate the noise level the maximum value of the measured sound pressure level is used Read the value at each frequency level on horizontal axis center of the sound pressure band from 63 Hz to 8000 Hz and select the corresponding maximum value indicated on the vertical axis MODEL SO...

Page 86: ...ontinuous noise Octave Band Le vel dB 0dB 0 0002 µbar Frequency at center of sound pressure band Hz Overall Cooling Heating AES71PIH3E 64 1dB A Cooling MODEL SOUND PO WER LEVEL SOUND PO WER LEVEL dB OCTAVE BAND CENTER FREQUENCY Hz dB A 4000 63 125 250 8000 2000 1000 500 40 50 60 70 30 20 10 NC 20 NC 30 NC 40 NC 50 NC 60 NC 70 60 70 80 90 50 40 30 20 10 4000 63 125 250 8000 2000 1000 500 NC 60 NC 5...

Page 87: ...NTER FRE E QUENCY Hz Octave Band L e vel dB 0dB 0 0002 µbar Cooling Heating SOUND P O WER LEVEL dB AES125PIH3E 72 dB A Cooling MODEL SOUND POWER LEVEL OC T AVE BAND CENTER FREQUENCY Hz MODEL SOUND LEVEL CONDITION AES125PIH3E COOLING 53 dB A HEATING 54 dB A 1 m in front at height of 1 5 m Approximate minimum audible limit for continuous noise Frequency at center of sound pressure band Hz Octave Ban...

Page 88: ... axis represents the airf ow m3 minute The characteristic curves for HT H M and L fan speed control are shown The nameplate values are shown based on the H airf ow For the 25 type the airf ow is 18 m3 minute while the external static pressure is 49 Pa at H position If external static pressure is too great due to long extension of ducts for example the airf ow volume may drop too low at each air ou...

Page 89: ... For Wired Remote Control Press and hold the and buttons simultaneously for 4 seconds or longer unit No or in the case of group control item code and settings data are displayed blink ing on the remote controller LCD display At this time the indoor unit fan or all indoor unit fans in the case of group control begins operating Press the temperature setting buttons to select the item code Press the ...

Page 90: ...4 5 1 2 3 0 1 2 3 0 5 4 3 2 1 0 1 2 3 4 5 1 2 3 0 1 2 3 1 5m s 1 0m s 0 5m s 0 3m s 33 27 24 30 0 5 4 3 2 1 0 1 2 3 4 5 1 2 3 0 1 2 3 0 5 4 3 2 1 0 1 2 3 4 5 1 2 3 0 1 2 3 1 5m s 1 0m s 0 5m s 0 3m s 20 24 26 22 ASS36 45 56 Heating Distribution of wind velocity Strong wind Discharge angle approx 65 Room temperature apprx 20 C Vertical air f low distance m Horizontal air flow distance m Heating Dis...

Page 91: ...elocity Cooling Distribution of temperature Strong wind Discharge angle approx 65 Room temperature approx 20 C Vertical air f ow distance m Horizontal air flow distance m Strong wind Discharge angle approx 65 Room temperature approx 20 C Vertical air f ow distance m Horizontal air flow distance m Strong wind Discharge angle approx 30 Room temperature approx 27 C Vertical air f ow distance m Horizo...

Page 92: ...elocity Cooling Distribution of temperature Strong wind Discharge angle approx 65 Room temperature approx 20 C Vertical air f ow distance m Horizontal air flow distance m Strong wind Discharge angle approx 65 Room temperature approx 20 C Vertical air f ow distance m Horizontal air flow distance m Strong wind Discharge angle approx 30 Room temperature approx 27 C Vertical air f ow distance m Horizo...

Page 93: ...elocity Cooling Distribution of temperature Strong wind Discharge angle approx 65 Room temperature approx 20 C Vertical air f ow distance m Horizontal air flow distance m Strong wind Discharge angle approx 65 Room temperature approx 20 C Vertical air f ow distance m Horizontal air flow distance m Strong wind Discharge angle approx 30 Room temperature approx 27 C Vertical air f ow distance m Horizo...

Page 94: ... m Horizontal air flow distance m Horizontal air flow distance m Horizontal air flow distance m AWS36 45 Strong wind Discharge angle app 60 Rm temp app 20 C Strong wind Discharge angle app 60 Rm temp app 20 C Strong wind Discharge angle app 30 Rm temp app 27 C Strong wind Discharge angle app 30 Rm temp app 27 C Heating Distribution of wind velocity Heating Distribution of temperature Cooling Distr...

Page 95: ...tion of wind velocity Cooling Distribution of temperature Vertical air f low distance m Vertical air f low distance m Vertical air f low distance m Vertical air f low distance m Horizontal air f ow distance m Horizontal air f ow distance m Horizontal air flow distance m Horizontal air flow distance m Strong wind Discharge angle app 60 Rm temp app 20 C Strong wind Discharge angle app 60 Rm temp app...

Page 96: ...d velocity Cooling Distribution of temperature Strong wind Discharge angle approx 54 Room temperature approx 20 C Vertical air f low distance m Horizontal air flow distance m Strong wind Discharge angle approx 54 Room temperature approx 20 C Vertical air flow distance m Horizontal air flow distance m Strong wind Discharge angle approx 7 Room temperature approx 27 C Vertical air f low distance m Ho...

Page 97: ...Cooling Distribution of temperature Strong wind Discharge angle approx 54 Room temperature approx 20 C Vertical air flow distance m Horizontal air flow distance m Strong wind Discharge angle approx 54 Room temperature approx 20 C Vertical air f low distance m Horizontal air flow distance m Strong wind Discharge angle approx 7 Room temperature approx 27 C Vertical air f low distance m Horizontal ai...

Page 98: ...ooling Distribution of temperature Strong wind Discharge angle approx 54 Room temperature approx 20 C Vertical air flow distance m Horizontal air flow distance m Strong wind Discharge angle approx 54 Room temperature approx 20 C Vertical air flow distance m Horizontal air flow distance m Strong wind Discharge angle approx 7 Room temperature approx 27 C Vertical air flow distance m Horizontal air f...

Page 99: ...hen the external temperature is low This problem is to be solved by either feeding external air into the room after it has been processed or reducing the amount of external air that is fed in 3 When used in combination with humidifiers External air must always be processed when the external air temperature reaches freezing point to prevent the risk of the humidif er freezing 4 Arranging Ducts and ...

Page 100: ...oise when only external air is fed being louder than the noise emitted from the ndoor unit so only use values that are within the range of the above values External Air Intake Volume and Resistance within the Unit With the External Air Intake Flange Attached Resistance within the Unit Pa External Air Intake Volume m3 h Noise with only External Air Intake dB A Operation Noise External Air Intake On...

Page 101: ...agram for AES71PIH3E Unit mm 340 64 554 13 170 660 110 13 13 380 405 15 20 20 10 250 549 103 132 940 780 18 Air discharge Air Intake Air Intake Air discharge Air discharge Air Intake 1 2 20 20 20 20 554 250 570 596 27 131 132 250 250 554 24 13 549 2 6 ø6 3 ø4 1 2 Reference diagram for air discharge support f eld supply STR DRV80U Unit mm Air discharge chamber Air discharge chamber base hole hole R...

Page 102: ...S125PIH3E Air discharge Air Intake Reverse side Air Intake Air Intake Air discharge Reverse side hole Installation anchoring holes 4 R6 5 Anchor bolt M10 Reference diagram for air discharge support f eld supply STK FV140B Air discharge support STK FV140B Downward Left side installation f xture STK UFV80E T1 0 Downward Right side installation f xture STK UFV80E T1 0 Downward Center side installatio...

Page 103: ...8 8 7 34 5 8 25 15 11 33 23 21 32 3 Reference diagram for downward left side installation f xture f eld supply STK UFV80E Reference diagram for downward right side installation f xture f eld supply STK UFV80E Unit mm 2 ø3 3 protrusion hole reverse side h o l e Unit mm 2 ø3 3 protrusion hole reverse side hole h o l e Cyclic bending hole ...

Page 104: ...2 R 2 5 70 212 100 100 50 25 50 25 R 2 5 R 25 R 25 560 495 100 100 75 75 135 125 300 4 Reference diagram for downward center side installation f xture f eld supply STK UFV80E Unit mm 3 ø3 3 protrusion hole reverse side h o l e Same on reverse side Cyclic bending ...

Page 105: ...5 10 5 5 135 5 20 10 50 43 Reference diagram for upward left side installation f xture f eld supply STK UFV160E Unit mm ø3 3 protrusion hole reverse side h o l e Unit mm h o l e ø3 3 protrusion hole reverse side Reference diagram for upward right side installation f xture f eld supply STK UFV160E ...

Page 106: ...3 34 53 25 10 23 33 31 20 556 15 500 11 Reference diagram for upward left side installation f xture f eld supply STK UFV160E Reference diagram for upward right side installation f xture f eld supply STK UFV160E Unit mm Unit mm Cyclic bending h o l e 2 ø3 3 protrusion hole reverse side 2 ø3 3 protrusion hole reverse side h o l e ...

Page 107: ...must remain open The obstacles must be no taller than the height of the outdoor unit Installation in front rear rows Installation with intakes facing intakes or outlets facing outlets The front and both sides must remain open The amount of space required for removing the screws on the rear of the unit If in case the suff cient space for maintenance is ensured on the rear of the outdoor unit instal...

Page 108: ... 4 ø6 0 Dimensions of Wind proof Duct continued Reference diagram for AES100PIH3E AES125PIH3E Reference diagram for wind proof duct f eld supply STK DGV160E Air Intake Air discharge hole Equivalent to the reverse side Unit mm Unit mm Air discharge Air discharge Air discharge Air discharge Air discharge Air discharge Air discharge Mounting hole 2 13 x 18 hole ...

Page 109: ...r rear must be no taller than the height of the outdoor unit 2 Multiple unit installation Installation in lateral rows The front and top must remain open The obstacles must be no taller than the height of the outdoor unit Installation in front rear rows Installation with intakes facing intakes or outlets facing outlets The front and both sides must remain open The amount of space required for remo...

Page 110: ...ference diagram for snow proof duct f eld supply STK BDRE80A Unit mm Unit top snow proof vent Unit left side Unit right side Unit reverse side Unit reverse side Unit sides reinforcement brackets for snow proof vent Fastened by screws at 13 locations Fastened by screws at 3 locations also on reverse side Fastened by screw at 1 location also on reverse side Unit anchor hole 6 ø7 hole Air Intake Air ...

Page 111: ...Intake Air discharge Reference diagram for snow proof duct f eld supply STK BDV160E Unit mm 7 X 9 5 long hole with f xed 2 ø7hole Unit f xing hole f xed with reverse celing Air discharge Mounting hole 2 13 x 18 hole 2 ø7hole Unit f xing hole f xed with bottom plate Unit top snow proof duct Unit left side Unit right side Unit front side Unit reverse side Unit reverse side Unit reverse sides reinfor...

Page 112: ... Top is blocked by an obstacle Outdoor unit A B C D E F G AES71PIH3E 150 150 300 200 300 150 200 Outdoor unit H I J AES71PIH3E 500 300 1000 Outdoor unit M N AES71PIH3E 1000 1000 Outdoor unit K L AES71PIH3E 500 150 In cases 2 and 3 the height of the obstacle must be no taller than the height of the outdoor unit Notes Unit mm Min B Min C Min A Min D Min E Min G Min K Min L Min H Min I Min I Min J Mi...

Page 113: ...sides Installation in front rear rows The top and both sides must remain open Either the obstacle to the front or the obstacle to the rear must be no taller than the height of the outdoor unit Min 1000 Min P or more Min O or more Min 300 Min 300 Min 1000 Min 300 Dimension Q If a snow protection duct is attached after the unit is installed verify that dimension Q is 500 mm or more Outdoor unit O P ...

Page 114: ...es 2 and 3 the height of the obstacle must be no taller than the height of the outdoor unit 2 The amount of space required for removing the screw on the rear of the unit If in case the suff cient space for maintenance is ensured on the rear of the outdoor unit installation is possible with the space of both sides of not less than 150mm where marked with mark Notes Min B or more Min C or more Min A...

Page 115: ... must remain open Either the obstacle to the front or the obstacle to the rear must be no taller than the height of the outdoor unit Min 300 or more Min 1500 or more Min P or more Min O or more Min 250 or more Min 1000 or more Min 300 or more Dimension Q If a snow protection duct is attached after the unit is installed verify that dimension Q is 500 mm or more Outdoor unit O P AES100PIH3E AES125PI...

Page 116: ...case leave clearance below the unit for the drain pipe and to prevent freezing of drainage water in cold weather regions Refer to Fig 1 14 1 2 3 4 for the anchor bolt dimensions Be sure to anchor the feet with anchor bolts M10 In addition use anchoring washers on the top side Use large square 32 32 SUS washers with JIS nominal diameter of 10 Field supply Fig 1 14 2 Fig 1 14 1 Fig 1 14 4 4 ø12 Anch...

Page 117: ...panel To remove the inspection panel remove the 3 screws then slide the panel downward and pull it toward you 1 If the routing direction is through the front rear or right use a nipper or similar tool to cut out the knockout holes for the inter unit control wiring outlet power wiring outlet and tubing outlet from the appropriate covers A and B 2 If the routing direction is down use a nipper or sim...

Page 118: ... the inter unit control wiring should be wired apart from the inter unit power wiring Use shielded wires for inter unit control wiring between units and ground the shield on both sides 9 If the power supply cord of this appliance is damaged it must be replaced by a repair shop appointed by the manufacture because special purpose tools are required Recommended Wire Length and Wire Diameter for Powe...

Page 119: ... unit control line 5P terminal board Power supply unit control line AWS Type Fig 5 2 1 L 2 N U1 U2 R1 R2 1 2 U1 U2 R1 R2 1 L 2 N U1 U2 R1 R2 5 N 2 4 L 1 3 L N U1 U2 Wiring System Diagrams For single phase outdoor unit 1 Refer to the section Recommended Wire Length and Wire Diameter for Power Supply System for the explanation of A B C D and E in the above diagram 2 The basic connection diagram of t...

Page 120: ...ntrol line unit control line 5P terminal board Power supply unit control line AWS Type Wiring System Diagrams For 3 phase outdoor unit Fig 5 4 1 L 2 N U1 U2 R1 R2 1 2 U1 U2 R1 R2 1 L 2 N U1 U2 R1 R2 5 N 2 4 L 1 3 L N U1 U2 1 Refer to the section Recommended Wire Length and Wire Diameter for Power Supply System for the explanation of A B C D and E in the above diagram 2 The basic connection diagram...

Page 121: ...er of branch points should be 16 or fewer Branches less than 1 m are not included in the total branch number CAUTION Outdoor unit Outdoor unit Outdoor unit Prohibited Prohibited Indoor unit Indoor unit Indoor unit Indoor unit Indoor unit Outdoor unit Outdoor unit Outdoor unit Indoor unit Indoor unit Indoor unit Indoor unit Indoor unit Prohibited Prohibited NO Outdoor unit Indoor unit Indoor unit I...

Page 122: ... Cut the wire end with cutting pliers then strip the insulation to expose the stranded wiring about 10 mm and tightly twist the wire ends 2 Using a Phillips head screwdriver remove the ter minal screw s on the terminal plate 3 Using a ring connector fastener or pliers securely clamp each stripped wire end with a ring pressure terminal 4 Put the removed terminal screw through the ring pressure term...

Page 123: ...or Test Run 2 10 2 13 Test Run 2 11 2 14 Precautions 2 11 2 15 Table of Self Diagnostic Functions and Corrections AWS Type 2 12 2 16 System Control 2 13 ASS ACS ADS Types for Link Wiring 2 17 Caution 2 16 2 18 Test Run Procedure 2 17 2 19 Items to Check Before the Test Run 2 17 2 20 Test Run Using the Remote Controller 2 17 2 21 Table of Self Diagnostic Functions and Corrections ASS ACS ADS Types ...

Page 124: ...d in a single type refrigerant system where 1 outdoor unit is connected to 1 indoor unit and also in a system where 1 outdoor unit is connected to multiple indoor units maximum 4 If multiple indoor units are used also refer to 2 8 System Control The indoor and outdoor unit control PCB utilizes a semiconductor memory element EEPROM The settings required for operation were made at the time of shipme...

Page 125: ... a minimum of 10 minutes in order to check for open phase When performing a test run using a wired remote controller operation is possible without attaching the cassette type ceiling panel P09 will not be displayed 2 6 Precautions e h t n e h w t n e s e r p e b r e m o t s u c e h t t a h t t s e u q e R test run is performed At this time explain the operation manual and have the customer perform...

Page 126: ...m Control and make the correct settings E15 displayed Indoor unit capacity is too low Same at left Same at left Same at left Check that the total capacities of the indoor and outdoor units are appropriate E16 displayed Indoor unit capacity is too high E20 displayed No serial signal is being received at all from the indoor units Check that the indoor unit power is ON and that the inter unit control...

Page 127: ...ssible to connect individual remote controllers for independent operation Be careful to avoid miswiring when connecting the wires Miswiring will damage the units for 3 phase outdoor unit 1 2 1 2 U2 U1 L N U1 U2 1 2 L N 1 2 U2 U1 L N 1 2 N L3 L2 L1 WHT BLK Fig 2 5 2 System address rotary switch Set to 0 at the time of shipment For a simultaneous operation multi system a maximum of 4 indoor units ca...

Page 128: ...n the outdoor unit control PCB for 3 phase outdoor unit 1 Wall mounted units do not include a terminal plate for connecting a remote controller 2 For group control of wall mounted units connect the remote controller communication wiring to the remote controller connector 2P on the main unit as shown in the diagram Fig 2 6 2 Leakage breaker Ground Outdoor unit System address rotary switch Change th...

Page 129: ...stem address rotary switch System address DIP switch ON System address No System address 10s digit 2P DIP s witc h System address 1s place Rotary switc h 0 Automatic address Setting at shipment 0 1 If outdoor unit is No 1 2 If outdoor unit is No 2 11 If outdoor unit is No 11 21 If outdoor unit is No 21 30 If outdoor unit is No 30 Both OFF Both OFF Both OFF 10s digit ON 20s digit ON 10s digit and 2...

Page 130: ...stem returns to normal stopped status Again press the remote controller timer time button and the button simultaneously Then in the same way as above use the button to display R C 2 select the next system and perform automatic address setting 2 8 5 Indicating marking the indoor and outdoor unit combination number Indicate mark the number after automatic address setting is completed 1 So that the c...

Page 131: ...door unit 2 Ground Ground Remote controller setting mode To set the remote controller main sub setting or change the sensor follow the steps below 1 Press both and buttons on the remote controller for more than 4 seconds together 2 Select CODE No with buttons 3 Change DATA with TIMER buttons 4 Press Finally press DATA is memorized in the RCU DATA setting will not be changed even when the power is ...

Page 132: ...e indoor unit and wireless remote controller One or the other of the temperature sensors is used for operation If body sensor appears on the LCD display of the wireless remote controller then the indoor unit body sensor is used for operation To switch to the remote controller sensor open the remote controller cover and press the SENSOR button once The body sensor display disappears and the remote ...

Page 133: ...ion Indoor control unit switch Indicator lamps NOTE This mode places a large load on the devices Use it only for performing test runs A test run is not possible if the power is turned ON with the switch in the TEST position After the power has been turned ON change the switch once to ON or OFF then switch it back to the TEST position 2 14 Precautions Request that the customer be present when the t...

Page 134: ... total capacities of the indoor and outdoor units are appropriate E16 displayed Indoor unit capacity is too high Same at left Reverse 2 phases of the outdoor unit 3 phase power and connect them correctly P05 displayed Operation lamp and Standby lamp are blinking alternately Reversed phase in the outdoor unit single phase or open phase in the outdoor unit 3 phase power Same at left Connect the unit...

Page 135: ...nd 2 on the outdoor unit control PCB blink alternately These LED turn OFF when automatic address setting is completed 2 2 13 Wiring procedure 1 Set the No 1 wall mounted indoor unit so that it can be operated by the wireless remote controller This is set at the time of shipment On the indoor unit control PCBs set the No 2 and following wall mounted units to the sub remote controller Refer to 2 16 ...

Page 136: ...ess black rotary switch on the outdoor unit control PCB Wiring procedure 1 Set the No 1 wall mounted indoor unit so that it can be operated by the wireless remote controller This is set at the time of shipment On the indoor unit control PCBs set the No 2 and following wall mounted units to the sub remote controller Refer to 2 16 5 2 Connect the communication wiring to 1 and 2 on the remote control...

Page 137: ...unit power for refrigerant system 1 Press and hold the automatic address setting button black for 1 second or longer at the outdoor unit where the power was turned ON Communication for automatic address setting begins LED 1 and 2 on the outdoor unit control PCB blink alternately and turn OFF when address setting is completed Approximately 4 5 minutes are required 2 Next turn ON the power only at t...

Page 138: ...aristor black Be sure to turn the power OFF before performing this work 2 16 6 Indoor unit ad dress setting If multiple single type units are installed in the same room the addresses can be set to prevent signal interference By coordinating the nvumbers of the indoor unit wireless PCB and remote controller addresses up to 6 indoor units can be controlled independently by their respective remote co...

Page 139: ...s for a minimum of 10 minutes in order to check for open phase When performing a test run using a wired remote controller operation is possible without attaching the cassette type ceiling panel P09 will not be displayed Fig 2 16 Recheck the items to check before the test run See 2 19 Check the combination wiring of indoor and outdoor units See 2 22 1 YES NO Turn ON the indoor and outdoor power Tur...

Page 140: ...r and connect them correctly Fill up the gas appropriately P09 displayed Timer lamp and Standby lamp are blinking alternately Ceiling panel connector at one of the indoor units in the group is not connected correctly Connect the indoor unit ceiling panel connector correctly P12 displayed DC fan trouble at one of the indoor units in the group Check whether the fan holder is loose Check the wiring b...

Page 141: ...ode 2 Press the automatic address setting button black at the outdoor unit where automatic address setting will be performed 3 LED 1 and 2 blink alternately The compressors begin running in Cooling or Heating mode Communication for automatic address setting begins using the temperature changes at the indoor units All indoor units are in operating status Address setting is completed when the compre...

Page 142: ...d 2 22 2 Setting outdoor unit system ad dresses For the basic wiring diag ram Set the system addresses 1 2 3 System address No System ad dress 10s digit 2P DIP s witc h System address 1s place Rotar y s witc h 0 Automatic address Setting at shipment 0 1 If outdoor unit is No 1 2 If outdoor unit is No 2 11 If outdoor unit is No 11 21 If outdoor unit is No 21 30 If outdoor unit is No 30 Both OFF Bot...

Page 143: ...or unit nameplates This number will be required for subsequent maintenance Refer to 2 26 3 4 Request that the customer be present when the test run is performed m r o f r e p r e m o t s u c e h t e v a h d n a l a u n a m n o i t a r e p o e h t n i a l p x e e m i t s i h t t A the actual steps Be sure to pass the manuals and warranty certificate to the customer Check that the 220 240V AC wiring...

Page 144: ...Set the outdoor unit system address See 2 26 1 2 How to Set Automatic Address Set the automatic address setting from outdoor unit See 2 25 See 2 26 3 See 2 26 3 4 Is system single type 1 indoor unit is connected to 1 outdoor unit Are multiple outdoor units used Turn ON the indoor and outdoor power Automatic Address setting Indicate mark the combination number Turn the power back ON to the indoor u...

Page 145: ...iring is cut or is not connected correctly Refer to 2 26 1 Basic wiring diagram and make the correct setting E15 displayed Indoor unit capacity is too low Check that the total capacities of the indoor and outdoor units are appropriate E16 displayed Indoor unit capacity is too high P05 displayed Timer lamp and Standby lamp are blinking alternately Reversed phase or open phase in the 3 phase power a...

Page 146: ...efer to 2 16 System Control basic wiring diagrams and wiring procedures when wiring System address 1 System address 2 System address 3 Change setting to 1 Change setting to 2 Change setting to 3 Change the terminal plug black short circuit socket 2P DIP switch black is attached due to a type of model Change the terminal plug black short circuit socket 2P DIP switch black is attached due to a type ...

Page 147: ...equired 2 Next turn ON the power only at the indoor and outdoor units in a different system Press the automatic address setting button black on the outdoor unit LED 1 and 2 on the outdoor unit control PCB blink alternately and turn OFF when address setting is completed Repeat the same procedure for each system and complete automatic address setting 3 Operation using the remote controller is now po...

Page 148: ...lect CODE No with buttons 3 Change DATA with TIMER buttons 4 Press Finally press DATA is memorized in the RCU DATA setting will not be changed even when the power is turned off Make sure to set Normal for RCU CK Case 2 If the power cannot be turned ON separately for the indoor and outdoor units in each system The compressors must be run in order to automatically set the indoor unit addresses There...

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