ryp-l7/b7 pair application - daikin Θεσσαλονίκης, Μηχανήματα ... ·...
TRANSCRIPT
RYP-L7/B7
Pair Application
technical data
SplitSky Air
air co
nd
ition
ing
system
s
Split - Sky Air
EE
DE0
5-1
/2 •
05/2
005
Prepar
ed in
Belg
ium
by
Goeki
nt
Gra
phic
s
Zandvoordestraat 300
B - 8400 Ostend Belgium
Internet: http://www.daikineurope.com
Specifications are subject to change without prior notice.
ISO14001 assures an effective environmental management system in order to help protecthuman health and the environment from the potentialimpact of our activities, products and services and toassist in maintaining and improving the quality ofthe environment
Daikin Europe N.V. is approved by LRQA for its Quality Management System in accordance with the ISO9001 standard. ISO9001 pertains to quality assurance regarding design, development, manufacturing as well as to services related to the product.
Daikin units comply with the European regulations that guarantee the safety of the product.
Daikin Europe N.V. participates in the Eurovent Certification Programme for Air Conditioners (AC), Liquid Chilling Packages (LCP) and Fan Coil Units (FC); the certified data of certified models are listed in the Eurovent Directory.
TABLE OF CONTENTSRYP-L7/B7
1 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
2 Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Technical specifications
Electrical specifications
3 Capacity tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
4 Dimensional drawings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
5 Operation range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
6 Piping diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
7 Wiring diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
8 Sound level . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37
Sound level data
Sound pressure spectrum
Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41Optional accessories
10 Center of gravity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
11 Safety device settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
12 Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
1• Split - Sky Air • Outdoor Units
1 Features
Outdoor units for pair application
+ Daikin outdoor units are neat and sturdy and can be mountedeasily on a roof or terrace or simply placed against an outsidewall.
+ They are fitted with a scroll compressor, renowned for lownoise and high energy efficiency.
+ The piping connections can be accessed from underneath,front, side or rear.
+ The service valves are hidden inside the casing.+ A special acryl precoated fin for anti-corrosion treatment on the
heat exchanger ensures greater resistance against severeweather conditions.
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
11
2 • Split - Sky Air • Outdoor Units
2 Specifications
TECHNICAL SPECIFICATIONSOUTDOOR UNITS RYP71L7V1/W1 RYP100L7V1/W1 RYP125L7W1 RYP200B7W1 RYP250B7W1DIMENSIONS Unit H mm 770 1,170 1,220 1,440
W mm 900 900 1,290D mm 320 320 700
WEIGHT kg 80/79 102/101 106 196 210MATERIAL Unit Painted galvanised steel plateCOLOUR Unit Ivory whiteSOUND LEVEL Sound pressure (1)
(cooling/heating)high dB(A) 50/52 53/56 53/56 57/57 57/57
Sound power (2)(cooling)
high dB(A) 63 66 67 77/78 77/78
FAN Air flow rate(cooling/heating)
high m3/min 48/43 55/50 89/80 170/- 175/-
Speed steps 3 steps 1 stepQty x model 1xP47L11S 2xP47L11S 1xP55J11FQty x motor output W 1 x 65 1 x 90 85 + 65 1 x (320+190)
HEAT EXCHANGER Type Hi-XSS cooling tube, non sym. waffle fin J8 Hi-XA tube assymetric louvreRows x stages x fin pitch mm 2 x 34 x 2.0 2 x 52 x 2.0 2 x 52 x 2.0 2 x 40 x 2.0 2 x 50 x 2.0Face area m2 0.634 0.983 0.983 1.57 1.97
REFRIGERANT CIRCUIT Refrigerant type R-407CRefrigerant charge kg 2.8 3.7 7.5 9.2Minimum/maximum allowable distancebetween indoor and outdoor
m 5/70 - / 50 (70m equivalent)
Maximum allowable level difference m 30Additional refrigerant charge g/m Please refer to installation 100 g/m for total
piping length > 30 m140 g/m for total
piping length > 30 mRefrigerant control Expansion valve (electronic type) Expansion valve
COMPRESSOR Type Hermetically sealed scroll typeQty x model 1xJT90FA-V1N 1xJT125FA-V1NX 1xJT160FA-YE 1xJT236DA-YE@2 1xJT300DA-YE@2Motor output x no W 2,200 x 1 3,000 x 1 3,750 x 1 5,500 x 1 7,500 x 1Speed rpm - - - 2,900 2,900Oil type DAPHNE FVC68DOil charge volume ! 1,200 1,500 4 4Crankcase heater W - - - 50 72
PIPING CONNECTIONS liquid mm φ9.5 φ12.7 x 0.90 φ15.9 x 0.95gas mm φ15.9 φ19.1 28.6φ x 1.15 28.6φ x 1.15drain mm φ26 x 3 26φ x 6 26φ x 6
INSULATION MATERIAL Heat insulation Both liquid and gas pipesSafety devices High and low pressure switch, thermal protection
for indoor and outdoor fan motor, overcurrentrelay (compressor), fuse
High and low pressure switch, thermal protector for indoor and outdoor fanmotor, overcurrent relay (compressor), reverse phase protector, fuse
3TW25141-1B3TW25181-1B3TW25251-1A3TW25191-1A3TW25201-1A3TW23631-1A3TW23641-1A
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
12
3• Split - Sky Air • Outdoor Units
ELECTRICAL SPECIFICATIONSOUTDOOR UNITS RYP71L7V1/W1 RYP100L7V1/W1 RYP125L7W1 RYP200B7W1 RYP250B7W1CURRENT Nominal running current cooling/heating A Please refer to electrical data 14.4 17.2
Max. running current cooling/heating A Please refer to electrical dataStarting current cooling/heating A Please refer to electrical data
POWER SUPPLY V1/W1 V1/W1 W1 W1 W1NOMINAL DISTRIBUTIONSYSTEM VOLTAGE
Phase 1∼/3N∼ 1∼/3N∼ 3N∼ 3N∼ 3N∼Frequency Hz 50 50 50 50 50Voltage V 230/400 230/400 400 400 400
NOTES1 The sound pressure level is measured in an anechoic room at 1m distance from the unit. It is a relative value, depending on the distance and
acoustic environment. For measuring conditions: please refer to item 8 of this chapter.
2 The sound power level is an absolute value indicating the ’’power’’ which a sound source generates.
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
2 Specifications
12
4 • Split - Sky Air • Outdoor Units
ELECTRICAL DATA
RYP71L7
Unit combination Power supply Compressor OFM IFMIndoor unit Outdoor unit Hz-Volts Voltage range MCA TOCA MFA LRA RLA kW FLA kW FLA
FHYCP71 RYP71L7V1 50-230
Max. 50Hz-264VMin. 50Hz-198V
15.1 23.2 32 72 11.1 0.065 0.6 0.045 0.6
FUYP71 RYP71L7V1 50-230 14.7 23.2 32 72 10.8 0.065 0.6 0.045 0.6
FHYP71 RYP71L7V1 50-230 15.6 23.2 32 72 11.5 0.065 0.6 0.062 0.6
FHYKP71 RYP71L7V1 50-230 14.4 23.1 32 72 10.6 0.065 0.6 0.045 0.5
FAYP71 RYP71L7V1 50/230 14.3 22.9 32 72 10.7 0.065 0.6 0.046 0.3
FHYBP71 RYP71L7V1 50-230 14.8 23.5 32 72 10.6 0.065 0.6 0.125 0.9
FDYMP71 RYP71L7V1 50-230 14.8 23.5 32 72 10.6 0.065 0.6 0.125 0.9
FHYCP71 RYP71L7W1 50-400/230
Max. 50Hz-440/253VMin. 50Hz-360/197V
6.6 11.2 16 37 4.3 0.065 0.6 0.045 0.6
FUYP71 RYP71L7W1 50-400/230 6.5 11.2 16 37 4.2 0.065 0.6 0.045 0.6
FHYP71 RYP71L7W1 50-400/230 6.7 11.2 16 37 4.4 0.065 0.6 0.062 0.6
FHYKP71 RYP71L7W1 50-400/230 6.4 11.1 16 37 4.2 0.065 0.6 0.045 0.5
FAYP71 RYP71L7W1 50-400/230 6.2 10.9 16 37 4.2 0.065 0.6 0.046 0.3
FHYBP71 RYP71L7W1 50-400/230 6.8 11.5 16 37 4.2 0.065 0.6 0.125 0.9
FDYMP71 RYP71L7W1 50-400/230 6.8 11.5 16 37 4.2 0.065 0.6 0.125 0.9
3TW25149-2
SYMBOLSMCA : Min. Circuit AmpsTOCA : Total Over Current AmpsMFA : Max. Fuse Amps (see note 7)LRA : Locked Rotor AmpsRLA : Rated Load AmpsOFM : Outdoor Fan MotorIFM : Indoor Fan MotorFLA : Full Load AmpskW : Rated motor output
NOTES1. RLA is based on the following conditions:
Indoor temp.: 27°CDB/19.5°CWBOutdoor temp. : 35°CDB
2. TOCA means the total value of each OC set3. Voltage range
Units are suitable for use on electrical systems where voltagesupplied to unit terminals is not below or above listedoperation range limits
4. Maximum allowable voltage unbalance between phases is 2%.5. MCA/MFA
MCA = 1.25 x RLA + all FLA, MFA = < 2.25 x RLA + all FLA(next lower standard fuse rating Min. 16A)
6. Select wire size based on the larger value of MCA or TOCA7. Instead of fuse, use circuit breaker8. For more details concerning conditional connections, see
http://www.daikineurope.com/extranet, select ’’DaikinDocumentation’’ and select ’’conditional connection’’, ’’therequested product type’’ and ’’English’’ from the drop downlists, click the search button.Finally, click on the document title of your choice.
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
2 Specifications
12
5• Split - Sky Air • Outdoor Units
ELECTRICAL DATA
RYP100L7
Unit combination Power supply Compressor OFM IFMIndoor unit Outdoor unit Hz-Volts Voltage range MCA TOCA MFA LRA RLA kW FLA kW FLA
FHYCP100 RYP100L7V1 50-230
Max. 50Hz-264VMin. 50Hz-198V
22.7 34.8 40 97 16.7 0.090 0.8 0.090 1.0
FUYP100 RYP100L7V1 50-230 22.3 34.8 40 97 16.4 0.090 0.8 0.090 1.0
FHYP100 RYP100L7V1 50-230 22.5 34.5 40 97 16.8 0.090 0.8 0.130 0.7
FAYP100 RYP100L7V1 50-230 22.1 34.2 40 97 16.7 0.090 0.8 0.049 0.4
FHYBP100 RYP100L7V1 50-230 22.3 34.8 40 97 16.4 0.090 0.8 0.135 1.0
FDYMP100 RYP100L7V1 50-230 22.4 34.8 40 97 16.5 0.090 0.8 0.135 1.0
FHYCP100 RYP100L7W1 50-400/230
Max. 50Hz-440/253VMin. 50Hz-360/197V
9.3 11.8 16 47 6.0 0.090 0.8 0.090 1.0
FUYP100 RYP100L7W1 50-400/230 9.3 11.8 16 47 6.0 0.090 0.8 0.090 1.0
FHYP100 RYP100L7W1 50-400/230 9.3 11.5 16 47 6.2 0.090 0.8 0.130 0.7
FAYP100 RYP100L7W1 50-400/230 8.8 11.2 16 47 6.1 0.090 0.8 0.049 0.4
FHYBP100 RYP100L7W1 50-400/230 9.3 11.8 16 47 6.0 0.090 0.8 0.135 1.0
FDYMP100 RYP100L7W1 50-400/230 9.4 11.8 16 47 6.1 0.090 0.8 0.135 1.0
3TW25159-2
SYMBOLSMCA : Min. Circuit AmpsTOCA : Total Over Current AmpsMFA : Max. Fuse Amps (see note 7)LRA : Locked Rotor AmpsRLA : Rated Load AmpsOFM : Outdoor Fan MotorIFM : Indoor Fan MotorFLA : Full Load AmpskW : Rated motor output
NOTES1. RLA is based on the following conditions:
Indoor temp.: 27°CDB/19.5°CWBOutdoor temp. : 35°CDB
2. TOCA means the total value of each OC set3. Voltage range
Units are suitable for use on electrical systems where voltagesupplied to unit terminals is not below or above listedoperation range limits
4. Maximum allowable voltage unbalance between phases is 2%.5. MCA/MFA
MCA = 1.25 x RLA + all FLA, MFA = < 2.25 x RLA + all FLA(next lower standard fuse rating Min. 16A)
6. Select wire size based on the larger value of MCA or TOCA7. Instead of fuse, use circuit breaker8. For more details concerning conditional connections, see
http://www.daikineurope.com/extranet, select ’’DaikinDocumentation’’ and select ’’conditional connection’’, ’’therequested product type’’ and ’’English’’ from the drop downlists, click the search button.Finally, click on the document title of your choice.
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
2 Specifications
12
6 • Split - Sky Air • Outdoor Units
ELECTRICAL DATA
RYP125L7
Unit combination Power supply Compressor OFM IFMIndoor unit Outdoor unit Hz-Volts Voltage range MCA TOCA MFA LRA RLA kW FLA kW FLA
FHYCP125 RYP125L7W1 50-400/230
Max. 50Hz-440/253VMin. 50Hz-360/197V
12.2 15.3 20 59 7.90.065
+0.085
0.6+0.7
0.09 1.0
FUYP125 RYP125L7W1 50-400/230 11.4 15.3 20 59 7.30.065
+0.085
0.6+0.7
0.09 1.0
FHYP125 RYP125L7W1 50-400/230 12.1 15.0 20 59 8.10.065
+0.085
0.6+0.7
0.13 0.7
FHYBP125 RYP125L7W1 50-400/230 12.0 15.7 20 59 7.40.065
+0.085
0.6+0.7
0.225 1.4
FDYMP125 RYP125L7W1 50-400/230 12.0 15.7 20 59 7.40.065
+0.085
0.6+0.7
0.225 1.4
FDYP125 RYP125L7W1 50-400/230 14.8 18.5 20 59 7.40.065
+0.085
0.6+0.7
0.5 4.2
3TW25209-2
SYMBOLSMCA : Min. Circuit AmpsTOCA : Total Over Current AmpsMFA : Max. Fuse Amps (see note 7)LRA : Locked Rotor AmpsRLA : Rated Load AmpsOFM : Outdoor Fan MotorIFM : Indoor Fan MotorFLA : Full Load AmpskW : Rated motor output
NOTES1. RLA is based on the following conditions:
Indoor temp.: 27°CDB/19.5°CWBOutdoor temp. : 35°CDB
2. TOCA means the total value of each OC set3. Voltage range
Units are suitable for use on electrical systems where voltagesupplied to unit terminals is not below or above listedoperation range limits
4. Maximum allowable voltage unbalance between phases is 2%.5. MCA/MFA
MCA = 1.25 x RLA + all FLA, MFA = < 2.25 x RLA + all FLA(next lower standard fuse rating Min. 16A)
6. Select wire size based on the larger value of MCA or TOCA7. Instead of fuse, use circuit breaker8. For more details concerning conditional connections, see
http://www.daikineurope.com/extranet, select ’’DaikinDocumentation’’ and select ’’conditional connection’’, ’’therequested product type’’ and ’’English’’ from the drop downlists, click the search button.Finally, click on the document title of your choice.
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
2 Specifications
12
7• Split - Sky Air • Outdoor Units
RYP200-250B7
Unit combination Power supply Compressor OFM IFMIndoor unit Outdoor unit Hz-Volts Voltage range MCA MFA LRA RLA kW FLA kW FLA
FDYP200B7V1 RYP200B7W1 50-400 Min. 360VMax. 440V 19.0 25 (Outdoor) + 16 (Indoor) 98 12.9
0.19+
0.23
1.28+
1.43650 6.8
FDYP250B7V1 RYP250B7W1 50-400 Min. 360VMax. 440V 22.9 32 (Outdoor) + 16 (Indoor) 108 16.0
0.19+
0.23
1.28+
1.431,000 7.6
3TW23611-2
ELECTRICAL DATA
SYMBOLSMCA : Min. Circuit AmpsMFA : Max. Fuse AmpsLRA : Locked Rotor AmpsRLA : Rated Load Amps (A)OFM : Outdoor Fan MotorIFM : Indoor Fan MotorFLA : Full Load AmpsKW : Rated motor output (W)
NOTES1. RLA is based on the following conditions:
Indoor temp.: 27°CDB/19.0°CWBOutdoor temp. : 35°CDB
2. Voltage rangeUnits are suitable for use on electrical systems where voltage suppliedto unit terminals is not below or above listed operation range limits
3. Maximum allowable voltage unbalance between phases is 2%.4. MCA/MFA
MCA = 1.25 x RLA + ea FLAMFA = <2.25 x RLA + ea FLA(next lower standard fuse rating min 16A)
5. Select wire size based on the larger value of MCA or TOCA6. Instead of fuse, use circuit breaker7. For more details concerning conditional connections, see
http://www.daikineurope.com/extranet, select ’’Daikin Documentation’’and select ’’conditional connection’’, ’’the requested product type’’ and’’English’’ from the drop down lists, click the search button.Finally, click on the document title of your choice.
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
2 Specifications
12
8 • Split - Sky Air • Outdoor Units
3 Capacity tables
FHYKP71BV1 + RYP71L7V1RYP71L7W1
Cooling capacity V1/T1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CDB)
EWB(°C)
EDB(°C)
20 25 32 35 40 46TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI
71
12.0 18.00 6.2 4.9 1.77 6.1 4.8 2.02 5.7 4.7 2.19 5.5 4.6 2.36 5.3 4.5 2.61 4.9 4.2 2.8714.0 20.00 6.6 4.9 1.86 6.5 4.8 2.11 6.0 4.7 2.28 5.9 4.6 2.36 5.5 4.5 2.61 5.3 4.2 2.8716.0 22.00 7.2 5.0 1.86 7.0 4.9 2.11 6.5 4.8 2.28 6.3 4.7 2.45 6.0 4.6 2.70 5.5 4.3 2.9518.0 25.00 7.7 5.2 1.94 7.5 5.0 2.11 7.2 4.9 2.36 6.8 4.8 2.53 6.4 4.6 2.70 6.0 4.5 3.0419.0 27.00 8.0 5.3 1.94 7.7 5.2 2.11 7.3 5.0 2.36 7.1 4.8 2.53 6.6 4.7 2.78 6.2 4.6 3.0419.5 27.00 8.0 5.3 1.94 7.9 5.2 2.11 7.4 5.0 2.36 7.2 4.8 2.53 6.7 4.7 2.78 6.3 4.6 3.0422.0 30.00 8.7 5.4 2.02 8.5 5.3 2.19 8.0 5.2 2.45 7.9 4.9 2.61 7.4 4.8 2.78 6.8 4.6 3.1224.0 32.00 9.4 5.4 2.02 9.1 5.3 2.19 8.6 5.2 2.53 8.4 5.0 2.61 8.0 4.8 2.87 7.4 4.6 3.20
3TW25142-7A
SYMBOLS
AFR: Air flow rate (m3/min)BF: Bypass factorEWB: Entering wet bulb temp. (°CWB)EDB: Entering dry bulb temp. (°CDB)DB*: Dry bulb temp. (°CDB)TC: Total cooling capacity (kW)SHC: Sensible heating capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC and SHC are shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. SHC is based on each EWB and EDB
SHC* = SHC correction for other dry bulb= 0.29 x 60 x AFR (m3/min) x (1-BF) x (DB*-EDB)/860Add SHC* to SHC if SHC > TC, then TC equal SHC
4. Direct interpolation is permissible. Do not extrapolate.5. Capacities are based on following conditions:
Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
6. Air flow rate and BF are tabulated below.
Model FHYKP
71 AFR 17BF 0.07
7. Add the following corrections to power input of each model.
Model Supply FHYKP
71 V1 0.13W1 0
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
13
9• Split - Sky Air • Outdoor Units
FHYKP71BV1 + RYP71L7V1RYP71L7W1
Heating capacity V1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CDB)EDB(°C)
-10 -5 0 6 10 15TC PI TC PI TC PI TC PI TC PI TC PI
71
16.0 6.3 2.17 6.7 2.25 7.4 2.25 8.1 2.33 8.6 2.33 - -18.0 6.3 2.17 6.7 2.25 7.4 2.33 8.0 2.41 8.6 2.41 - -20.0 6.3 2.33 6.7 2.33 7.3 2.41 8.0 2.49 8.6 2.57 9.3 2.6522.0 6.3 2.33 6.7 2.41 7.3 2.49 8.0 2.57 8.6 2.57 9.1 2.6524.0 6.3 2.41 6.7 2.49 7.3 2.57 7.9 2.65 8.6 2.65 9.1 2.73
3TW25142-13A
SYMBOLS
AFR: Air flow rate (m3/min)BF: Bypass factorEWB: Entering wet bulb temp. (°CWB)EDB: Entering dry bulb temp. (°CDB)DB*: Dry bulb temp. (°CDB)TC: Total cooling capacity (kW)SHC: Sensible heating capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC is shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. Capacities are based on following conditions:
Outdoor air : 85 % RH. however, the condition on nominal capacity is7° CDB/6° CWB (heating)Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
4. Direct interpolation is permissible. Do not extrapolate.5. Air flow rate and BF are tabulated below.
Model FHYKP
71 AFR 17BF 0.07
6. Add the following corrections to power input of each model.
Model Supply FHYKP
71 V1 0.14W1 0
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
10 • Split - Sky Air • Outdoor Units
FAYP71-100BV1 + RYP71-100L7V1RYP71-100L7W1
Cooling capacity V1/T1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CDB)
EWB(°C)
EDB(°C)
20 25 32 35 40 46TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI
71
12.0 18.0 6.2 4.9 1.77 6.1 4.8 2.02 5.7 4.7 2.19 5.5 4.6 2.36 5.3 4.5 2.61 4.9 4.2 2.8714.0 20.0 6.6 4.9 1.86 6.5 4.8 2.11 6.0 4.7 2.28 5.9 4.6 2.36 5.5 4.5 2.61 5.3 4.2 2.8716.0 22.0 7.2 5.0 1.86 7.0 4.9 2.11 6.5 4.8 2.28 6.3 4.7 2.45 6.0 4.6 2.70 5.5 4.3 2.9518.0 25.0 7.7 5.2 1.94 7.5 5.0 2.11 7.2 4.9 2.36 6.8 4.8 2.53 6.4 4.6 2.70 6.0 4.5 3.0419.0 27.0 8.0 5.3 1.94 7.7 5.2 2.11 7.3 5.0 2.36 7.1 4.8 2.53 6.6 4.7 2.78 6.2 4.6 3.0419.5 27.0 8.0 5.3 1.94 7.9 5.2 2.11 7.4 5.0 2.36 7.2 4.8 2.53 6.7 4.7 2.78 6.3 4.6 3.0422.0 30.0 8.7 5.4 2.02 8.5 5.3 2.19 8.0 5.2 2.45 7.9 4.9 2.61 7.4 4.8 2.78 6.8 4.6 3.1224.0 32.0 9.4 5.4 2.02 9.1 5.3 2.19 8.6 5.2 2.53 8.4 5.0 2.61 8.0 4.8 2.87 7.4 4.6 3.20
100
12.0 18.0 8.4 7.2 2.57 8.3 7.1 2.76 8.1 6.9 3.14 7.8 6.8 3.33 7.5 6.4 3.71 6.9 6.2 4.0914.0 20.0 8.9 7.2 2.66 8.8 7.1 2.76 8.7 6.9 3.14 8.4 6.8 3.33 7.8 6.4 3.71 7.5 6.2 4.0916.0 22.0 10.1 7.3 2.66 9.8 7.2 2.85 9.1 7.0 3.23 8.9 6.9 3.42 8.5 6.5 3.81 7.8 6.3 4.1918.0 25.0 10.8 7.6 2.66 10.5 7.5 2.85 9.8 7.1 3.23 9.6 7.0 3.42 9.0 6.8 3.81 8.4 6.4 4.2819.0 27.0 11.1 7.7 2.66 10.8 7.6 2.95 10.1 7.2 3.33 10.0 7.1 3.52 9.4 6.9 3.90 8.7 6.5 4.3819.5 27.0 11.2 7.7 2.66 11.0 7.6 2.95 10.3 7.2 3.33 10.1 7.1 3.52 9.5 6.9 3.90 8.8 6.5 4.3822.0 30.0 12.2 7.8 2.76 11.8 7.7 2.95 11.2 7.3 3.42 11.0 7.2 3.62 10.4 7.1 4.00 9.6 6.8 4.3824.0 32.0 13.0 7.9 2.85 12.7 7.8 3.04 11.9 7.5 3.52 11.6 7.3 3.71 11.1 7.2 4.09 10.3 6.9 4.47
3TW25142-6A
SYMBOLS
AFR: Air flow rate (m3/min)BF: Bypass factorEWB: Entering wet bulb temp. (°CWB)EDB: Entering dry bulb temp. (°CDB)DB*: Dry bulb temp. (°CDB)TC: Total cooling capacity (kW)SHC: Sensible heating capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC and SHC are shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. SHC is based on each EWB and EDB
SHC* = SHC correction for other dry bulb= 0.29 x 60 x AFR (m3/min) x (1-BF) x (DB*-EDB)/860Add SHC* to SHC if SHC > TC, then TC equal SHC
4. Direct interpolation is permissible. Do not extrapolate.5. Capacities are based on following conditions:
Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
6. Air flow rate and BF are tabulated below.
Model FAYP
71 AFR 19BF 0.1
100 AFR 23BF 0.1
7. Add the following corrections to power input of each model.
Model Supply FAYP
71 V1 0.12W1 0
100 V1 0.04W1 0
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
11• Split - Sky Air • Outdoor Units
FAYP71-100BV1 + RYP71-100L7V1RYP71-100L7W1
Heating capacity V1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CWB)EDB(°C)
-10 -5 0 6 10 15TC PI TC PI TC PI TC PI TC PI TC PI
71
16.0 6.3 2.04 6.7 2.11 7.4 2.11 8.1 2.19 8.6 2.19 - -18.0 6.3 2.04 6.7 2.11 7.4 2.19 8.0 2.26 8.6 2.26 - -20.0 6.3 2.19 6.7 2.19 7.3 2.26 8.0 2.34 8.6 2.42 9.3 2.4922.0 6.3 2.19 6.7 2.26 7.3 2.34 8.0 2.42 8.6 2.42 9.1 2.4924.0 6.3 2.26 6.7 2.34 7.3 2.42 7.9 2.49 8.6 2.49 9.1 2.57
100
16.0 8.4 3.08 9.1 3.18 10.0 3.27 11.0 3.37 11.6 3.47 - -18.0 8.3 3.18 9.0 3.27 10.0 3.37 10.9 3.47 11.6 3.56 - -20.0 8.3 3.37 8.9 3.47 9.8 3.56 10.8 3.66 11.5 3.76 12.5 3.8522.0 8.3 3.47 8.9 3.56 9.8 3.66 10.8 3.76 11.5 3.85 12.4 3.9524.0 8.2 3.56 8.9 3.66 9.6 3.76 10.6 3.85 11.3 3.95 12.4 4.05
3TW25142-12A
SYMBOLS
AFR: Air flow rate (m3/min)EDB: Entering dry bulb temp. (°CDB)WB: Wet bulb temperature (°CWB)TC: Total cooling capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC is shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. Capacities are based on following conditions:
Outdoor air : 85 % RH. however, the condition on nominal capacity is7° CDB/6° CWB (heating)Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
4. Direct interpolation is permissible. Do not extrapolate.5. Air flow rate and BF are tabulated below.
Model FAYP
71 AFR 19BF 0.1
100 AFR 23BF 0.1
6. Add the following corrections to power input of each model.
Model Supply FAYP
71 V1 0.14W1 0
100 V1 0.03W1 0
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
12 • Split - Sky Air • Outdoor Units
FHYCP71-125B7V1 + RYP71-100L7V1RYP71-125L7W1
Cooling capacity V1/T1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CDB)
EWB(°C)
EDB(°C)
20 25 32 35 40 46TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI
71
12.0 18.00 6.2 4.8 1.86 6.1 4.7 2.13 5.7 4.6 2.31 5.5 4.5 2.48 5.3 4.4 2.75 4.9 4.1 3.0114.0 20.00 6.6 4.8 1.95 6.5 4.7 2.22 6.0 4.6 2.39 5.9 4.5 2.48 5.5 4.4 2.75 5.3 4.1 3.0116.0 22.00 7.2 4.9 1.95 7.0 4.8 2.22 6.5 4.7 2.39 6.3 4.6 2.57 6.0 4.5 2.84 5.5 4.2 3.1018.0 25.00 7.7 5.1 2.04 7.5 4.9 2.22 7.2 4.8 2.48 6.8 4.7 2.66 6.4 4.5 2.84 6.0 4.4 3.1919.0 27.00 8.0 5.2 2.04 7.7 5.1 2.22 7.3 4.9 2.48 7.1 4.7 2.66 6.6 4.6 2.93 6.2 4.5 3.1919.5 27.00 8.0 5.2 2.04 7.9 5.1 2.22 7.4 4.9 2.48 7.2 4.7 2.66 6.7 4.6 2.93 6.3 4.5 3.1922.0 30.00 8.7 5.3 2.13 8.5 5.2 2.31 8.0 5.1 2.57 7.9 4.8 2.75 7.4 4.7 2.93 6.8 4.5 3.2824.0 32.00 9.4 5.3 2.13 9.1 5.2 2.31 8.6 5.1 2.66 8.4 4.9 2.75 8.0 4.7 3.01 7.4 4.5 3.37
100
12.0 18.00 8.4 7.0 2.60 8.3 6.9 2.79 8.1 6.7 3.18 7.8 6.6 3.37 7.5 6.2 3.75 6.9 6.0 4.1414.0 20.00 8.9 7.0 2.69 8.8 6.9 2.79 8.7 6.7 3.18 8.4 6.6 3.37 7.8 6.2 3.75 7.5 6.0 4.1416.0 22.00 10.1 7.1 2.69 9.8 7.0 2.89 9.1 6.8 3.27 8.9 6.7 3.46 8.5 6.3 3.85 7.8 6.1 4.2318.0 25.00 10.8 7.4 2.69 10.5 7.3 2.89 9.8 6.9 3.27 9.6 6.8 3.46 9.0 6.6 3.85 8.4 6.2 4.3319.0 27.00 11.1 7.5 2.69 10.8 7.4 2.98 10.1 7.0 3.37 10.0 6.9 3.56 9.4 6.7 3.94 8.7 6.3 4.4319.5 27.00 11.2 7.5 2.69 11.0 7.4 2.98 10.3 7.0 3.37 10.1 6.9 3.56 9.5 6.7 3.94 8.8 6.3 4.4322.0 30.00 12.2 7.6 2.79 11.8 7.5 2.98 11.2 7.1 3.46 11.0 7.0 3.66 10.4 6.9 4.04 9.6 6.6 4.4324.0 32.00 13.0 7.7 2.89 12.7 7.6 3.08 11.9 7.3 3.56 11.6 7.1 3.75 11.1 7.0 4.14 10.3 6.7 4.52
125
12.0 18.00 11.1 9.1 3.37 10.8 8.8 3.67 10.0 8.3 3.97 9.7 8.2 4.26 9.2 8.0 4.66 8.6 7.6 5.3514.0 20.00 11.8 9.1 3.47 11.4 8.8 3.67 10.7 8.3 4.06 10.4 8.2 4.36 9.8 8.0 4.76 9.2 7.6 5.3516.0 22.00 12.7 9.2 3.47 12.1 8.9 3.77 11.4 8.4 4.06 11.1 8.3 4.46 10.4 8.1 4.86 9.7 7.7 5.4518.0 25.00 13.3 9.5 3.57 13.0 9.1 3.77 12.1 8.7 4.16 11.8 8.6 4.56 11.2 8.3 4.96 10.4 8.0 5.4519.0 27.00 13.6 9.6 3.67 13.3 9.1 3.87 12.7 8.8 4.26 12.2 8.6 4.56 11.5 8.4 5.06 10.8 8.1 5.5519.5 27.00 13.8 9.6 3.67 13.5 9.1 3.87 12.8 8.8 4.26 12.4 8.7 4.56 11.7 8.4 5.06 11.0 8.1 5.5522.0 30.00 15.1 9.7 3.77 14.6 9.4 3.87 13.7 9.0 4.36 13.4 8.9 4.66 12.9 8.7 5.15 12.0 8.3 5.7524.0 32.00 15.9 9.8 3.77 15.5 9.5 3.97 14.6 9.1 4.46 14.3 9.0 4.76 13.6 8.8 5.25 12.9 8.6 5.85
3TW25142-1A
SYMBOLS
AFR: Air flow rate (m3/min)BF: Bypass factorEWB: Entering wet bulb temp. (°CWB)EDB: Entering dry bulb temp. (°CDB)DB*: Dry bulb temp. (°CDB)TC: Total cooling capacity (kW)SHC: Sensible heating capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC and SHC are shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. SHC is based on each EWB and EDB
SHC* = SHC correction for other dry bulb= 0.29 x 60 x AFR (m3/min) x (1-BF) x (DB*-EDB)/860Add SHC* to SHC if SHC > TC, then TC equal SHC
4. Direct interpolation is permissible. Do not extrapolate.5. Capacities are based on following conditions:
Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
6. Air flow rate and BF are tabulated below.
Model FHYCP
71 AFR 19BF 0.1
100 AFR 28BF 0.16
125 AFR 33BF 0.07
7. Add the following corrections to power input of each model.
Model Supply FHYCP
71 V1 0.06W1 0
100 V1 0.27W1 0
125 W1 0
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
13• Split - Sky Air • Outdoor Units
FHYCP71-125B7V1 + RYP71-100L7V1RYP71-125L7W1
Heating capacity V1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CWB)EDB(°C)
-10 -5 0 6 10 15TC PI TC PI TC PI TC PI TC PI TC PI
71
16.0 6.3 2.44 6.7 2.53 7.4 2.53 8.1 2.62 8.6 2.62 - -18.0 6.3 2.44 6.7 2.53 7.4 2.62 8.0 2.71 8.6 2.71 - -20.0 6.3 2.62 6.7 2.62 7.3 2.71 8.0 2.80 8.6 2.89 9.3 2.9822.0 6.3 2.62 6.7 2.71 7.3 2.80 8.0 2.89 8.6 2.89 9.1 2.9824.0 6.3 2.71 6.7 2.80 7.3 2.89 7.9 2.98 8.6 2.98 9.1 3.07
100
16.0 8.7 3.08 9.5 3.18 10.3 3.27 11.4 3.37 12.1 3.47 - -18.0 8.6 3.18 9.4 3.27 10.3 3.37 11.3 3.47 12.1 3.56 - -20.0 8.6 3.37 9.3 3.47 10.1 3.56 11.2 3.66 11.9 3.76 12.9 3.8522.0 8.6 3.47 9.3 3.56 10.1 3.66 11.2 3.76 11.9 3.85 12.8 3.9524.0 8.5 3.56 9.3 3.66 9.9 3.76 11.0 3.85 11.7 3.95 12.8 4.05
125
16.0 11.5 4.22 12.5 4.43 13.4 4.53 14.7 4.64 15.7 4.85 - -18.0 11.5 4.32 12.5 4.53 13.4 4.64 14.6 4.85 15.6 4.95 - -20.0 11.5 4.53 12.3 4.74 13.4 4.95 14.6 5.06 15.5 5.17 16.7 5.3822.0 11.5 4.64 12.3 4.85 13.4 4.95 14.6 5.17 15.5 5.27 16.7 5.4824.0 11.3 4.74 12.3 4.95 13.3 5.17 14.5 5.27 15.5 5.48 16.4 5.69
3TW25142-9A
SYMBOLS
AFR: Air flow rate (m3/min)EDB: Entering dry bulb temp. (°CDB)WB: Wet bulb temperature (°CWB)TC: Total cooling capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC is shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. Capacities are based on following conditions:
Outdoor air : 85 % RH. however, the condition on nominal capacity is7° CDB/6° CWB (heating)Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
4. Direct interpolation is permissible. Do not extrapolate.5. Air flow rate and BF are tabulated below.
Model FHYCP
71 AFR 19BF 0.10
100 AFR 28BF 0.16
125 AFR 33BF 0.07
6. Add the following corrections to power input of each model.
Model Supply FHYCP
71 V1 0.05W1 0
100 V1 0.09W1 0
125 W1 0
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
14 • Split - Sky Air • Outdoor Units
FHYBP71-125B7V1 + RYP71-100L7V1RYP71-125L7W1
Cooling capacity V1/T1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CDB)
EWB(°C)
EDB(°C)
20 25 32 35 40 46TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI
71
12.0 18.00 6.2 4.8 1.81 6.1 4.7 2.07 5.7 4.6 2.24 5.5 4.5 2.42 5.3 4.4 2.68 4.9 4.1 2.9414.0 20.00 6.6 4.8 1.90 6.5 4.7 2.16 6.0 4.6 2.33 5.9 4.5 2.42 5.5 4.4 2.68 5.3 4.1 2.9416.0 22.00 7.2 4.9 1.90 7.0 4.8 2.16 6.5 4.7 2.33 6.3 4.6 2.50 6.0 4.5 2.76 5.5 4.2 3.0218.0 25.00 7.7 5.1 1.99 7.5 4.9 2.16 7.2 4.8 2.42 6.8 4.7 2.59 6.4 4.5 2.76 6.0 4.4 3.1119.0 27.00 8.0 5.2 1.99 7.7 5.1 2.16 7.3 4.9 2.42 7.1 4.7 2.59 6.6 4.6 2.85 6.2 4.5 3.1119.5 27.00 8.0 5.2 1.99 7.9 5.1 2.16 7.4 4.9 2.42 7.2 4.7 2.59 6.7 4.6 2.85 6.3 4.5 3.1122.0 30.00 8.7 5.3 2.07 8.5 5.2 2.24 8.0 5.1 2.50 7.9 4.8 2.68 7.4 4.7 2.85 6.8 4.5 3.1924.0 32.00 9.4 5.3 2.07 9.1 5.2 2.24 8.6 5.1 2.59 8.4 4.9 2.68 8.0 4.7 2.94 7.4 4.5 3.28
100
12.0 18.00 8.4 7.0 2.60 8.3 6.9 2.79 8.1 6.7 3.18 7.8 6.6 3.37 7.5 6.2 3.75 6.9 6.0 4.1414.0 20.00 8.9 7.0 2.69 8.8 6.9 2.79 8.7 6.7 3.18 8.4 6.6 3.37 7.8 6.2 3.75 7.5 6.0 4.1416.0 22.00 10.1 7.1 2.69 9.8 7.0 2.89 9.1 6.8 3.27 8.9 6.7 3.46 8.5 6.3 3.85 7.8 6.1 4.2318.0 25.00 10.8 7.4 2.69 10.5 7.3 2.89 9.8 6.9 3.27 9.6 6.8 3.46 9.0 6.6 3.85 8.4 6.2 4.3319.0 27.00 11.1 7.5 2.69 10.8 7.4 2.98 10.1 7.0 3.37 10.0 6.9 3.56 9.4 6.7 3.94 8.7 6.3 4.4319.5 27.00 11.2 7.5 2.69 11.0 7.4 2.98 10.3 7.0 3.37 10.1 6.9 3.56 9.5 6.7 3.94 8.8 6.3 4.4322.0 30.00 12.2 7.6 2.79 11.8 7.5 2.98 11.2 7.1 3.46 11.0 7.0 3.66 10.4 6.9 4.04 9.6 6.6 4.4324.0 32.00 13.0 7.7 2.89 12.7 7.6 3.08 11.9 7.3 3.56 11.6 7.1 3.75 11.1 7.0 4.14 10.3 6.7 4.52
125
12.0 18.00 11.1 9.1 3.36 10.8 8.8 3.66 10.0 8.3 3.96 9.7 8.2 4.25 9.2 8.0 4.65 8.6 7.6 5.3414.0 20.00 11.8 9.1 3.46 11.4 8.8 3.66 10.7 8.3 4.06 10.4 8.2 4.35 9.8 8.0 4.75 9.2 7.6 5.3416.0 22.00 12.7 9.2 3.46 12.1 8.9 3.76 11.4 8.4 4.06 11.1 8.3 4.45 10.4 8.1 4.85 9.7 7.7 5.4418.0 25.00 13.3 9.5 3.56 13.0 9.1 3.76 12.1 8.7 4.15 11.8 8.6 4.55 11.2 8.3 4.95 10.4 8.0 5.4419.0 27.00 13.6 9.6 3.66 13.3 9.1 3.86 12.7 8.8 4.25 12.2 8.6 4.55 11.5 8.4 5.04 10.8 8.1 5.5419.5 27.00 13.8 9.6 3.66 13.5 9.1 3.86 12.8 8.8 4.25 12.4 8.7 4.55 11.7 8.4 5.04 11.0 8.1 5.5422.0 30.00 15.1 9.7 3.76 14.6 9.4 3.86 13.7 9.0 4.35 13.4 8.9 4.65 12.9 8.7 5.14 12.0 8.3 5.7424.0 32.00 15.9 9.8 3.76 15.5 9.5 3.96 14.6 9.1 4.45 14.3 9.0 4.75 13.6 8.8 5.24 12.9 8.6 5.84
3TW25142-2A
SYMBOLS
AFR: Air flow rate (m3/min)BF: Bypass factorEWB: Entering wet bulb temp. (°CWB)EDB: Entering dry bulb temp. (°CDB)DB*: Dry bulb temp. (°CDB)TC: Total cooling capacity (kW)SHC: Sensible heating capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC and SHC are shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. SHC is based on each EWB and EDB
SHC* = SHC correction for other dry bulb= 0.29 x 60 x AFR (m3/min) x (1-BF) x (DB*-EDB)/860Add SHC* to SHC if SHC > TC, then TC equal SHC
4. Direct interpolation is permissible. Do not extrapolate.5. Capacities are based on following conditions:
Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
6. Air flow rate and BF are tabulated below.
Model FHYBP
71 AFR 19BF 0.11
100 AFR 27BF 0.2
125 AFR 35BF 0.14
7. Add the following corrections to power input of each model.
Model Supply FHYBP
71 V1 0.06W1 0
100 V1 0.22W1 0
125 W1 0
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
15• Split - Sky Air • Outdoor Units
FHYBP71-125B7V1 + RYP71-100L7V1RYP71-125L7W1
Heating capacity V1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CWB)EDB(°C)
-10 -5 0 6 10 15TC PI TC PI TC PI TC PI TC PI TC PI
71
16.0 6.3 2.17 6.7 2.25 7.4 2.25 8.1 2.33 8.6 2.33 - -18.0 6.3 2.17 6.7 2.25 7.4 2.33 8.0 2.41 8.6 2.41 - -20.0 6.3 2.33 6.7 2.33 7.3 2.41 8.0 2.49 8.6 2.57 9.3 2.6522.0 6.3 2.33 6.7 2.41 7.3 2.49 8.0 2.57 8.6 2.57 9.1 2.6524.0 6.3 2.41 6.7 2.49 7.3 2.57 7.9 2.65 8.6 2.65 9.1 2.73
100
16.0 8.7 3.26 9.5 3.36 10.3 3.46 11.4 3.56 12.1 3.67 - -18.0 8.6 3.36 9.4 3.46 10.3 3.56 11.3 3.67 12.1 3.77 - -20.0 8.6 3.56 9.3 3.67 10.1 3.77 11.2 3.87 11.9 3.97 12.9 4.0722.0 8.6 3.67 9.3 3.77 10.1 3.87 11.2 3.97 11.9 4.07 12.8 4.1824.0 8.5 3.77 9.3 3.87 9.9 3.97 11.0 4.07 11.7 4.18 12.8 4.28
125
16.0 11.4 3.77 12.4 3.96 13.4 4.05 14.6 4.14 15.5 4.33 - -18.0 11.4 3.86 12.4 4.05 13.4 4.14 14.5 4.33 15.5 4.43 - -20.0 11.4 4.05 12.2 4.24 13.3 4.43 14.5 4.52 15.4 4.61 16.6 4.8022.0 11.4 4.14 12.2 4.33 13.3 4.43 14.5 4.61 15.4 4.71 16.6 4.9024.0 11.3 4.24 12.2 4.43 13.2 4.61 14.4 4.71 15.4 4.90 16.3 5.09
3TW25142-10A
SYMBOLS
AFR: Air flow rate (m3/min)EDB: Entering dry bulb temp. (°CDB)WB: Wet bulb temperature (°CWB)TC: Total cooling capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC is shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. Capacities are based on following conditions:
Outdoor air : 85 % RH. however, the condition on nominal capacity is7° CDB/6° CWB (heating)Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
4. Direct interpolation is permissible. Do not extrapolate.5. Air flow rate and BF are tabulated below.
Model FHYBP
71 AFR 19BF 0.11
100 AFR 27BF 0.2
125 AFR 35BF 0.14
6. Add the following corrections to power input of each model.
Model Supply FHYBP
71 V1 0W1 0
100 V1 0.04W1 0
125 W1 0
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
16 • Split - Sky Air • Outdoor Units
FHYP71-125BV1 + RYP71-100L7V1RYP71-125L7W1
Cooling capacity V1/T1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CDB)
EWB(°C)
EDB(°C)
20 25 32 35 40 46TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI
71
12.0 18.00 6.2 4.8 1.86 6.1 4.7 2.12 5.7 4.6 2.30 5.5 4.5 2.47 5.3 4.4 2.74 4.9 4.1 3.0014.0 20.00 6.6 4.8 1.94 6.5 4.7 2.21 6.0 4.6 2.39 5.9 4.5 2.47 5.5 4.4 2.74 5.3 4.1 3.0016.0 22.00 7.2 4.9 1.94 7.0 4.8 2.21 6.5 4.7 2.39 6.3 4.6 2.56 6.0 4.5 2.83 5.5 4.2 3.0918.0 25.00 7.7 5.1 2.03 7.5 4.9 2.21 7.2 4.8 2.47 6.8 4.7 2.65 6.4 4.5 2.83 6.0 4.4 3.1819.0 27.00 8.0 5.2 2.03 7.7 5.1 2.21 7.3 4.9 2.47 7.1 4.7 2.65 6.6 4.6 2.92 6.2 4.5 3.1819.5 27.00 8.0 5.2 2.03 7.9 5.1 2.21 7.4 4.9 2.47 7.2 4.7 2.65 6.7 4.6 2.92 6.3 4.5 3.1822.0 30.00 8.7 5.3 2.12 8.5 5.2 2.30 8.0 5.1 2.56 7.9 4.8 2.74 7.4 4.7 2.92 6.8 4.5 3.2724.0 32.00 9.4 5.3 2.12 9.1 5.2 2.30 8.6 5.1 2.65 8.4 4.9 2.74 8.0 4.7 3.00 7.4 4.5 3.36
100
12.0 18.00 8.4 7.0 2.66 8.3 6.9 2.86 8.1 6.7 3.26 7.8 6.6 3.45 7.5 6.2 3.85 6.9 6.0 4.2414.0 20.00 8.9 7.0 2.76 8.8 6.9 2.86 8.7 6.7 3.26 8.4 6.6 3.45 7.8 6.2 3.85 7.5 6.0 4.2416.0 22.00 10.1 7.1 2.76 9.8 7.0 2.96 9.1 6.8 3.35 8.9 6.7 3.55 8.5 6.3 3.95 7.8 6.1 4.3418.0 25.00 10.8 7.4 2.76 10.5 7.3 2.96 9.8 6.9 3.35 9.6 6.8 3.55 9.0 6.6 3.95 8.4 6.2 4.4419.0 27.00 11.1 7.5 2.76 10.8 7.4 3.06 10.1 7.0 3.45 10.0 6.9 3.65 9.4 6.7 4.04 8.7 6.3 4.5419.5 27.00 11.2 7.5 2.76 11.0 7.4 3.06 10.3 7.0 3.45 10.1 6.9 3.65 9.5 6.7 4.04 8.8 6.3 4.5422.0 30.00 12.2 7.6 2.86 11.8 7.5 3.06 11.2 7.1 3.55 11.0 7.0 3.75 10.4 6.9 4.14 9.6 6.6 4.5424.0 32.00 13.0 7.7 2.96 12.7 7.6 3.16 11.9 7.3 3.65 11.6 7.1 3.85 11.1 7.0 4.24 10.3 6.7 4.64
125
12.0 18.00 11.1 9.1 3.30 10.8 8.8 3.59 10.0 8.3 3.88 9.7 8.2 4.17 9.2 8.0 4.56 8.6 7.6 5.2414.0 20.00 11.8 9.1 3.39 11.4 8.8 3.59 10.7 8.3 3.98 10.4 8.2 4.27 9.8 8.0 4.65 9.2 7.6 5.2416.0 22.00 12.7 9.2 3.39 12.1 8.9 3.68 11.4 8.4 3.98 11.1 8.3 4.36 10.4 8.1 4.75 9.7 7.7 5.3318.0 25.00 13.3 9.5 3.49 13.0 9.1 3.68 12.1 8.7 4.07 11.8 8.6 4.46 11.2 8.3 4.85 10.4 8.0 5.3319.0 27.00 13.6 9.6 3.59 13.3 9.1 3.78 12.7 8.8 4.17 12.2 8.6 4.46 11.5 8.4 4.94 10.8 8.1 5.4319.5 27.00 13.8 9.6 3.59 13.5 9.1 3.78 12.8 8.8 4.17 12.4 8.7 4.46 11.7 8.4 4.94 11.0 8.1 5.4322.0 30.00 15.1 9.7 3.68 14.6 9.4 3.78 13.7 9.0 4.27 13.4 8.9 4.56 12.9 8.7 5.04 12.0 8.3 5.6224.0 32.00 15.9 9.8 3.68 15.5 9.5 3.88 14.6 9.1 4.36 14.3 9.0 4.65 13.6 8.8 5.14 12.9 8.6 5.72
3TW25142-4A
SYMBOLS
AFR: Air flow rate (m3/min)BF: Bypass factorEWB: Entering wet bulb temp. (°CWB)EDB: Entering dry bulb temp. (°CDB)DB*: Dry bulb temp. (°CDB)TC: Total cooling capacity (kW)SHC: Sensible heating capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC and SHC are shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. SHC is based on each EWB and EDB
SHC* = SHC correction for other dry bulb= 0.29 x 60 x AFR (m3/min) x (1-BF) x (DB*-EDB)/860Add SHC* to SHC if SHC > TC, then TC equal SHC
4. Direct interpolation is permissible. Do not extrapolate.5. Capacities are based on following conditions:
Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
6. Air flow rate and BF are tabulated below.
Model FHYP
71 AFR 17BF 0.1
100 AFR 24BF 0.14
125 AFR 30BF 0.13
7. Add the following corrections to power input of each model.
Model PI FHYP
71 V1 0.05W1 0
100 V1 0.03W1 0
125 W1 0
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
17• Split - Sky Air • Outdoor Units
FHYP71-125BV1 + RYP71-100L7V1RYP71-125L7W1
Heating capacity V1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CWB)EDB(°C)
-10 -5 0 6 10 15TC PI TC PI TC PI TC PI TC PI TC PI
71
16.0 6.3 2.44 6.7 2.53 7.4 2.53 8.1 2.62 8.6 2.62 - -18.0 6.3 2.44 6.7 2.53 7.4 2.62 8.0 2.71 8.6 2.71 - -20.0 6.3 2.62 6.7 2.62 7.3 2.71 8.0 2.80 8.6 2.89 9.3 2.9822.0 6.3 2.62 6.7 2.71 7.3 2.80 8.0 2.89 8.6 2.89 9.1 2.9824.0 6.3 2.71 6.7 2.80 7.3 2.89 7.9 2.98 8.6 2.98 9.1 3.07
100
16.0 8.5 3.24 9.3 3.34 10.1 3.44 11.2 3.55 11.9 3.65 - -18.0 8.4 3.34 9.2 3.44 10.1 3.55 11.1 3.65 11.9 3.75 - -20.0 8.4 3.55 9.1 3.65 10.0 3.75 11.0 3.85 11.7 3.95 12.7 4.0522.0 8.4 3.65 9.1 3.75 10.0 3.85 11.0 3.95 11.7 4.05 12.6 4.1524.0 8.3 3.75 9.1 3.85 9.8 3.95 10.8 4.05 11.5 4.15 12.6 4.26
125
16.0 11.1 4.16 12.0 4.37 12.9 4.47 14.1 4.57 15.0 4.78 - -18.0 11.1 4.26 12.0 4.47 12.9 4.57 14.0 4.78 14.9 4.89 - -20.0 11.1 4.47 11.8 4.68 12.8 4.89 14.0 4.99 14.8 5.09 16.0 5.3022.0 11.1 4.57 11.8 4.78 12.8 4.89 14.0 5.09 14.8 5.20 16.0 5.4124.0 10.9 4.68 11.8 4.89 12.7 5.09 13.9 5.20 14.8 5.41 15.8 5.61
3TW25142-8A
SYMBOLS
AFR: Air flow rate (m3/min)EDB: Entering dry bulb temp. (°CDB)WB: Wet bulb temperature (°CWB)TC: Total cooling capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC is shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. Capacities are based on following conditions:
Outdoor air : 85 % RH. however, the condition on nominal capacity is7° CDB/6° CWB (heating)Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
4. Direct interpolation is permissible. Do not extrapolate.5. Air flow rate and BF are tabulated below.
Model FHYP
71 AFR 17BF 0.10
100 AFR 24BF 0.14
125 AFR 30BF 0.13
6. Add the following corrections to power input of each model.
Model Supply FHYP
71 V1 0.05W1 0
100 V1 0.05W1 0
125 W1 0
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
18 • Split - Sky Air • Outdoor Units
FUYP71-125BV1 + RYP71-100L7V1RYP71-125L7W1
Cooling capacity V1/T1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CDB)
EWB(°C)
EDB(°C)
20 25 32 35 40 46TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI
71
12.0 18.00 6.2 4.9 1.86 6.1 4.8 2.12 5.7 4.7 2.30 5.5 4.6 2.47 5.3 4.5 2.74 4.9 4.2 3.0014.0 20.00 6.6 4.9 1.94 6.5 4.8 2.21 6.0 4.7 2.39 5.9 4.6 2.47 5.5 4.5 2.74 5.3 4.2 3.0016.0 22.00 7.2 5.0 1.94 7.0 4.9 2.21 6.5 4.8 2.39 6.3 4.7 2.56 6.0 4.6 2.83 5.5 4.3 3.0918.0 25.00 7.7 5.2 2.03 7.5 5.0 2.21 7.2 4.9 2.47 6.8 4.8 2.65 6.4 4.6 2.83 6.0 4.5 3.1819.0 27.00 8.0 5.3 2.03 7.7 5.2 2.21 7.3 5.0 2.47 7.1 4.8 2.65 6.6 4.7 2.92 6.2 4.6 3.1819.5 27.00 8.0 5.3 2.03 7.9 5.2 2.21 7.4 5.0 2.47 7.2 4.8 2.65 6.7 4.7 2.92 6.3 4.6 3.1822.0 30.00 8.7 5.4 2.12 8.5 5.3 2.30 8.0 5.2 2.56 7.9 4.9 2.74 7.4 4.8 2.92 6.8 4.6 3.2724.0 32.00 9.4 5.4 2.12 9.1 5.3 2.30 8.6 5.2 2.65 8.4 5.0 2.74 8.0 4.8 3.00 7.4 4.6 3.36
100
12.0 18.00 8.4 7.2 2.76 8.3 7.1 2.96 8.1 6.9 3.37 7.8 6.8 3.58 7.5 6.4 3.98 6.9 6.2 4.3914.0 20.00 8.9 7.2 2.86 8.8 7.1 2.96 8.7 6.9 3.37 8.4 6.8 3.58 7.8 6.4 3.98 7.5 6.2 4.3916.0 22.00 10.1 7.3 2.86 9.8 7.2 3.06 9.1 7.0 3.47 8.9 6.9 3.68 8.5 6.5 4.09 7.8 6.3 4.5018.0 25.00 10.8 7.6 2.86 10.5 7.5 3.06 9.8 7.1 3.47 9.6 7.0 3.68 9.0 6.8 4.09 8.4 6.4 4.6019.0 27.00 11.1 7.7 2.86 10.8 7.6 3.17 10.1 7.2 3.58 10.0 7.1 3.78 9.4 6.9 4.19 8.7 6.5 4.7019.5 27.00 11.2 7.7 2.86 11.0 7.6 3.17 10.3 7.2 3.58 10.1 7.1 3.78 9.5 6.9 4.19 8.8 6.5 4.7022.0 30.00 12.2 7.8 2.96 11.8 7.7 3.17 11.2 7.3 3.68 11.0 7.2 3.88 10.4 7.1 4.29 9.6 6.8 4.7024.0 32.00 13.0 7.9 3.06 12.7 7.8 3.27 11.9 7.5 3.78 11.6 7.3 3.98 11.1 7.2 4.39 10.3 6.9 4.80
125
12.0 18.00 11.1 9.5 3.34 10.8 9.2 3.64 10.0 8.7 3.93 9.7 8.6 4.23 9.2 8.4 4.62 8.6 8.0 5.3114.0 20.00 11.8 9.5 3.44 11.4 9.2 3.64 10.7 8.7 4.03 10.4 8.6 4.32 9.8 8.4 4.72 9.2 8.0 5.3116.0 22.00 12.7 9.6 3.44 12.1 9.3 3.73 11.4 8.8 4.03 11.1 8.7 4.42 10.4 8.5 4.81 9.7 8.1 5.4018.0 25.00 13.3 9.9 3.54 13.0 9.5 3.73 12.1 9.1 4.13 11.8 9.0 4.52 11.2 8.7 4.91 10.4 8.4 5.4019.0 27.00 13.6 10.0 3.64 13.3 9.5 3.83 12.7 9.2 4.23 12.2 9.0 4.52 11.5 8.8 5.01 10.8 8.5 5.5019.5 27.00 13.8 10.0 3.64 13.5 9.5 3.83 12.8 9.2 4.23 12.4 9.1 4.52 11.7 8.8 5.01 11.0 8.5 5.5022.0 30.00 15.1 10.1 3.73 14.6 9.8 3.83 13.7 9.4 4.32 13.4 9.3 4.62 12.9 9.1 5.11 12.0 8.7 5.7024.0 32.00 15.9 10.2 3.73 15.5 9.9 3.93 14.6 9.5 4.42 14.3 9.4 4.72 13.6 9.2 5.21 12.9 9.0 5.80
3TW25142-5A
SYMBOLS
AFR: Air flow rate (m3/min)BF: Bypass factorEWB: Entering wet bulb temp. (°CWB)EDB: Entering dry bulb temp. (°CDB)DB*: Dry bulb temp. (°CDB)TC: Total cooling capacity (kW)SHC: Sensible heating capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC and SHC are shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. SHC is based on each EWB and EDB
SHC* = SHC correction for other dry bulb= 0.29 x 60 x AFR (m3/min) x (1-BF) x (DB*-EDB)/860Add SHC* to SHC if SHC > TC, then TC equal SHC
4. Direct interpolation is permissible. Do not extrapolate.5. Capacities are based on following conditions:
Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
6. Air flow rate and BF are tabulated below.
Model FUYP
71 AFR 19BF 0.07
100 AFR 29BF 0.07
125 AFR 32BF 0.07
7. Add the following corrections to power input of each model.
Model Supply FUYP
71 V1 0.05W1 0
100 V1 0.05W1 0
125 W1 0
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
19• Split - Sky Air • Outdoor Units
FUYP71-125BV1 + RYP71-100L7V1RYP71-125L7W1
Heating capacity V1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CWB)EDB(°C)
-10 -5 0 6 10 15TC PI TC PI TC PI TC PI TC PI TC PI
71
16.0 6.3 2.04 6.7 2.11 7.4 2.11 8.1 2.19 8.6 2.19 - -18.0 6.3 2.04 6.7 2.11 7.4 2.19 8.0 2.26 8.6 2.26 - -20.0 6.3 2.19 6.7 2.19 7.3 2.26 8.0 2.34 8.6 2.42 9.3 2.4922.0 6.3 2.19 6.7 2.26 7.3 2.34 8.0 2.42 8.6 2.42 9.1 2.4924.0 6.3 2.26 6.7 2.34 7.3 2.42 7.9 2.49 8.6 2.49 9.1 2.57
100
16.0 8.5 2.93 9.3 3.02 10.1 3.11 11.2 3.21 11.9 3.30 - -18.0 8.4 3.02 9.2 3.11 10.1 3.21 11.1 3.30 11.9 3.39 - -20.0 8.4 3.21 9.1 3.30 10.0 3.39 11.0 3.48 11.7 3.57 12.7 3.6622.0 8.4 3.30 9.1 3.39 10.0 3.48 11.0 3.57 11.7 3.66 12.6 3.7524.0 8.3 3.39 9.1 3.48 9.8 3.57 10.8 3.66 11.5 3.75 12.6 3.85
125
16.0 11.1 3.63 12.0 3.81 12.9 3.90 14.1 3.99 15.0 4.17 - -18.0 11.1 3.72 12.0 3.90 12.9 3.99 14.0 4.17 14.9 4.26 - -20.0 11.1 3.90 11.8 4.08 12.8 4.26 14.0 4.35 14.8 4.44 16.0 4.6222.0 11.1 3.99 11.8 4.17 12.8 4.26 14.0 4.44 14.8 4.53 16.0 4.7124.0 10.9 4.08 11.8 4.26 12.7 4.44 13.9 4.53 14.8 4.71 15.8 4.89
3TW25142-11A
SYMBOLS
AFR: Air flow rate (m3/min)EDB: Entering dry bulb temp. (°CDB)WB: Wet bulb temperature (°CWB)TC: Total cooling capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC is shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. Capacities are based on following conditions:
Outdoor air : 85 % RH. however, the condition on nominal capacity is7° CDB/6° CWB (heating)Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
4. Direct interpolation is permissible. Do not extrapolate.5. Air flow rate and BF are tabulated below.
Model FUYP
71 AFR 19BF 0.07
100 AFR 29BF 0.07
AFR AFR 32BF 0.07
6. Add the following corrections to power input of each model.
Model Supply FUYP
71 V1 0.14W1 0
100 V1 0.03W1 0
125 W1 0
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
20 • Split - Sky Air • Outdoor Units
FDYMP71-125L7V1 + RYP71-100L7V1RYP71-125L7W1
Cooling capacity V1/T1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CDB)
EWB(°C)
EDB(°C)
20 25 32 35 40 46TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI
71
12.0 18.00 6.2 4.8 1.82 6.1 4.7 2.08 5.7 4.6 2.25 5.5 4.5 2.43 5.3 4.4 2.69 4.9 4.1 2.9514.0 20.00 6.6 4.8 1.91 6.5 4.7 2.17 6.0 4.6 2.34 5.9 4.5 2.43 5.5 4.4 2.69 5.3 4.1 2.9516.0 22.00 7.2 4.9 1.91 7.0 4.8 2.17 6.5 4.7 2.34 6.3 4.6 2.51 6.0 4.5 2.77 5.5 4.2 3.0318.0 25.00 7.7 5.1 1.99 7.5 4.9 2.17 7.2 4.8 2.43 6.8 4.7 2.60 6.4 4.5 2.77 6.0 4.4 3.1219.0 27.00 8.0 5.2 1.99 7.7 5.1 2.17 7.3 4.9 2.43 7.1 4.7 2.60 6.6 4.6 2.86 6.2 4.5 3.1219.5 27.00 8.0 5.2 1.99 7.9 5.1 2.17 7.4 4.9 2.43 7.2 4.7 2.60 6.7 4.6 2.86 6.3 4.5 3.1222.0 30.00 8.7 5.3 2.08 8.5 5.2 2.25 8.0 5.1 2.51 7.9 4.8 2.69 7.4 4.7 2.86 6.8 4.5 3.2124.0 32.00 9.4 5.3 2.08 9.1 5.2 2.25 8.6 5.1 2.60 8.4 4.9 2.69 8.0 4.7 2.95 7.4 4.5 3.29
100
12.0 18.00 8.4 7.0 2.66 8.3 6.9 2.86 8.1 6.7 3.26 7.8 6.6 3.45 7.5 6.2 3.85 6.9 6.0 4.2414.0 20.00 8.9 7.0 2.76 8.8 6.9 2.86 8.7 6.7 3.26 8.4 6.6 3.45 7.8 6.2 3.85 7.5 6.0 4.2416.0 22.00 10.1 7.1 2.76 9.8 7.0 2.96 9.1 6.8 3.35 8.9 6.7 3.55 8.5 6.3 3.95 7.8 6.1 4.3418.0 25.00 10.8 7.4 2.76 10.5 7.3 2.96 9.8 6.9 3.35 9.6 6.8 3.55 9.0 6.6 3.95 8.4 6.2 4.4419.0 27.00 11.1 7.5 2.76 10.8 7.4 3.06 10.1 7.0 3.45 10.0 6.9 3.65 9.4 6.7 4.04 8.7 6.3 4.5419.5 27.00 11.2 7.5 2.76 11.0 7.4 3.06 10.3 7.0 3.45 10.1 6.9 3.65 9.5 6.7 4.04 8.8 6.3 4.5422.0 30.00 12.2 7.6 2.86 11.8 7.5 3.06 11.2 7.1 3.55 11.0 7.0 3.75 10.4 6.9 4.14 9.6 6.6 4.5424.0 32.00 13.0 7.7 2.96 12.7 7.6 3.16 11.9 7.3 3.65 11.6 7.1 3.85 11.1 7.0 4.24 10.3 6.7 4.64
125
12.0 18.00 11.1 9.1 3.36 10.8 8.8 3.66 10.0 8.3 3.96 9.7 8.2 4.25 9.2 8.0 4.65 8.6 7.6 5.3414.0 20.00 11.8 9.1 3.46 11.4 8.8 3.66 10.7 8.3 4.06 10.4 8.2 4.35 9.8 8.0 4.75 9.2 7.6 5.3416.0 22.00 12.7 9.2 3.46 12.1 8.9 3.76 11.4 8.4 4.06 11.1 8.3 4.45 10.4 8.1 4.85 9.7 7.7 5.4418.0 25.00 13.3 9.5 3.56 13.0 9.1 3.76 12.1 8.7 4.15 11.8 8.6 4.55 11.2 8.3 4.95 10.4 8.0 5.4419.0 27.00 13.6 9.6 3.66 13.3 9.1 3.86 12.7 8.8 4.25 12.2 8.6 4.55 11.5 8.4 5.04 10.8 8.1 5.5419.5 27.00 13.8 9.6 3.66 13.5 9.1 3.86 12.8 8.8 4.25 12.4 8.7 4.55 11.7 8.4 5.04 11.0 8.1 5.5422.0 30.00 15.1 9.7 3.76 14.6 9.4 3.86 13.7 9.0 4.35 13.4 8.9 4.65 12.9 8.7 5.14 12.0 8.3 5.7424.0 32.00 15.9 9.8 3.76 15.5 9.5 3.96 14.6 9.1 4.45 14.3 9.0 4.75 13.6 8.8 5.24 12.9 8.6 5.84
3TW25142-3A
SYMBOLS
AFR: Air flow rate (m3/min)BF: Bypass factorEWB: Entering wet bulb temp. (°CWB)EDB: Entering dry bulb temp. (°CDB)DB*: Dry bulb temp. (°CDB)TC: Total cooling capacity (kW)SHC: Sensible heating capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC and SHC are shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. SHC is based on each EWB and EDB
SHC* = SHC correction for other dry bulb= 0.29 x 60 x AFR (m3/min) x (1-BF) x (DB*-EDB)/860Add SHC* to SHC if SHC > TC, then TC equal SHC
4. Direct interpolation is permissible. Do not extrapolate.5. Capacities are based on following conditions:
Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
6. Air flow rate and BF are tabulated below.
Model FDYMP
71 AFR 19BF 0.11
100 AFR 27BF 0.2
125 AFR 35BF 0.14
7. Add the following corrections to power input of each model.
Model Supply FDYMP
71 V1 0.08W1 0
100 V1 0.1W1 0
125 W1 0
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
21• Split - Sky Air • Outdoor Units
FDYP125B7V1 + RYP125L7W1
Cooling capacity V1/T1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CDB)
EWB(°C)
EDB(°C)
20 25 32 35 40 46TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI
125
12.0 18.0 11.1 10.4 3.46 10.8 10.1 3.76 10.0 9.6 4.07 9.7 9.5 4.37 9.2 9.3 4.78 8.6 8.9 5.4914.0 20.0 11.8 10.4 3.56 11.4 10.1 3.76 10.7 9.6 4.17 10.4 9.5 4.48 9.8 9.3 4.88 9.2 8.9 5.4916.0 22.0 12.7 10.5 3.56 12.1 10.2 3.87 11.4 9.7 4.17 11.1 9.6 4.58 10.4 9.4 4.99 9.7 9.0 5.6018.0 25.0 13.3 10.8 3.66 13.0 10.4 3.87 12.1 10.0 4.27 11.8 9.9 4.68 11.2 9.6 5.09 10.4 9.3 5.6019.0 27.0 13.6 10.9 3.76 13.3 10.4 3.97 12.7 10.1 4.37 12.2 9.9 4.68 11.5 9.7 5.19 10.8 9.4 5.7019.5 27.0 13.8 10.9 3.76 13.5 10.4 3.97 12.8 10.1 4.37 12.4 10.0 4.68 11.7 9.7 5.19 11.0 9.4 5.7022.0 30.0 15.1 11.0 3.87 14.6 10.7 3.97 13.7 10.3 4.48 13.4 10.2 4.78 12.9 10.0 5.29 12.0 9.6 5.9024.0 32.0 15.9 11.1 3.87 15.5 10.8 4.07 14.6 10.4 4.58 14.3 10.3 4.88 13.6 10.1 5.39 12.9 9.9 6.00
3TW25202-6A
SYMBOLS
AFR: Air flow rate (m3/min)BF: Bypass factorEWB: Entering wet bulb temp. (°CWB)EDB: Entering dry bulb temp. (°CDB)DB*: Dry bulb temp. (°CDB) (°CDB)TC: Total cooling capacity (kW)SHC: Sensible heating capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC and SHC are shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. SHC is based on each EWB and EDB
SHC* = SHC correction for other dry bulb= 0.29 x 60 x AFR(m3/min) x (1-BF) x (DB°-EDB)/860Add SHC* to SHC if SHC > TC, then TC equal SHC
4. Direct interpolation is permissible. Do not extrapolate.5. Capacities are based on following conditions:
Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
6. Air flow rate and BF are tabulated below.
Model FDYP
125 AFR 45BF 0.25
FDYP125B7V1 + RYP125L7W1
Heating capacity V1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CDB)EDB(°C)
-10 -5 0 6 10 15TC PI TC PI TC PI TC PI TC PI TC PI
125
16.0 11.5 3.76 12.5 3.95 13.4 4.04 14.7 4.13 15.7 4.32 - -18.0 11.5 3.85 12.5 4.04 13.4 4.13 14.6 4.32 15.6 4.42 - -20.0 11.5 3.95 12.3 4.13 13.4 4.23 14.6 4.42 15.6 4.60 17.0 4.7021.0 11.5 4.04 12.3 4.23 13.4 4.42 14.6 4.51 15.5 4.60 16.7 4.7922.0 11.5 4.13 12.3 4.32 13.4 4.42 14.6 4.60 15.5 4.70 16.7 4.8924.0 11.3 4.23 12.3 4.42 13.3 4.60 14.5 4.70 15.5 4.89 16.4 5.07
3TW25202-12
SYMBOLS
AFR: Air flow rate (m3/min)BF: Bypass factorEWB: Entering wet bulb temp. (°CWB)EDB: Entering dry bulb temp. (°CDB)DB*: Dry bulb temp. (°CDB) (°CDB)TC: Total cooling capacity (kW)SHC: Sensible heating capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC is shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. Capacities are based on following conditions:
Outdoor air : 85 % RH. however, the condition on nominal capacity is7° CDB/6° CWB (heating)Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
4. Direct interpolation is permissible. Do not extrapolate.5. Air flow rate and BF are tabulated below.
Model FDYP
125 AFR 45BF 0.25
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
22 • Split - Sky Air • Outdoor Units
FDYP200∼250B7V1 + RYP200∼250B7W1
Cooling capacity V1: 1∼230V [50Hz]W1: 3∼400V [50Hz]
OutdoorIndoor Outdoor temperature (°CDB)
EWB(°C)
EDB(°C)
20 25 32 35 40 46TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI TC SHC PI
RYP200
12.0 18.0 17.5 14.8 6.49 16.8 14.3 6.98 15.8 13.7 7.83 15.4 13.4 8.23 14.8 13.0 9.02 14.1 12.6 10.0814.0 20.0 18.7 14.9 6.59 17.9 14.4 7.08 16.9 13.8 7.94 16.5 13.6 8.36 15.9 13.2 9.15 15.1 12.7 10.2216.0 22.0 20.0 15.0 6.68 19.2 14.5 7.19 18.1 13.9 8.06 17.7 13.7 8.49 17.0 13.3 9.29 16.2 12.8 10.3718.0 25.0 21.3 15.9 6.79 20.4 15.4 7.31 19.3 14.8 8.19 18.9 14.6 8.62 18.2 14.2 9.43 17.4 13.7 10.5419.0 27.0 21.9 16.8 6.84 21.1 16.3 7.37 20.0 15.7 8.26 19.5 15.5 8.69 18.8 15.1 9.51 17.9 14.6 10.6222.0 30.0 24.1 16.8 7.02 23.2 16.3 7.56 22.0 15.8 8.47 21.5 15.5 8.92 20.7 15.1 9.75 19.8 14.7 10.8924.0 32.0 25.6 16.8 7.15 24.6 16.4 7.70 23.4 15.8 8.63 22.9 15.5 9.09 22.1 15.1 9.93 21.1 14.6 11.07
RYP250
12.0 18.0 22.4 19.1 7.62 21.5 18.5 8.20 20.2 17.7 9.19 19.7 17.3 9.67 18.9 16.8 10.58 18.0 16.2 11.8314.0 20.0 24.0 19.2 7.73 23.0 18.6 8.31 21.7 17.8 9.32 21.2 17.5 9.82 20.3 17.0 10.73 19.4 16.4 12.0016.0 22.0 25.6 19.3 7.84 24.6 18.7 8.45 23.2 17.9 9.46 22.7 17.6 9.97 21.8 17.1 10.90 20.8 16.5 12.1718.0 25.0 27.2 20.5 7.97 26.2 19.9 8.58 24.8 19.2 9.61 24.2 18.8 10.12 23.3 18.3 11.06 22.3 17.7 12.3719.0 27.0 28.1 21.7 8.03 27.0 21.1 8.65 25.6 20.3 9.69 25.0 20.0 10.20 24.1 19.5 11.16 23.0 18.9 12.4622.0 30.0 30.9 21.6 8.24 29.7 21.1 8.87 28.2 20.3 9.94 27.6 20.0 10.47 26.5 19.5 11.45 25.4 18.9 12.7824.0 32.0 32.8 21.7 8.39 31.6 21.1 9.03 30.0 20.4 10.13 29.4 20.0 10.67 28.3 19.5 11.65 27.1 18.9 13.00
3TW23632-1A
SYMBOLS
AFR: Air flow rate (m3/min)BF: Bypass factorEWB: Entering wet bulb temp. (°CWB)EDB: Entering dry bulb temp. (°CDB)DB*: Dry bulb temp. (°CDB) (°CDB)TC: Total cooling capacity (kW)SHC: Sensible heating capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC and SHC are shown by kW
NOTES1. Ratings shown are net capacities which include a deduction for indoor fan
motor heat2. Shows nominal capacities3. SHC is based on each EWB and EDB
SHC* = SHC correction for other dry bulb= 0.29 x 60 x AFR(m3/min) x (1-BF) x (DB°-EDB)Add SHC* to SHC if SHC > TC, then TC equal SHC
4. Direct interpolation is permissible. Do not extrapolate.5. Capacities are based on following conditions:
Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
6. Air flow rate and BF are tabulated below.
Model FDYP200 FDYP250AFR 69 89BF 0.25 0.25
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
23• Split - Sky Air • Outdoor Units
FDYP200∼250B7V1 + RYP200∼250B7W1
Heating capacity V1: 1∼230V [50Hz]W1: 3∼400V [50Hz]
OutdoorIndoor Outdoor temperature (°CDB)
EWB(°C)
EDB(°C)
-10 -5 0 6 10 15TC PI TC PI TC PI TC PI TC PI TC PI
RYP200
9.0 16.0 15.1 6.42 16.7 6.47 19.6 6.76 23.4 7.16 26.3 7.50 30.3 7.9911.0 18.0 14.8 6.58 16.6 6.65 19.5 6.95 23.2 7.37 26.1 7.72 30.1 8.2312.0 20.0 14.6 6.76 16.3 6.84 19.3 7.15 23.1 7.59 26.0 7.95 30.0 8.4913.0 21.0 14.5 6.86 16.2 6.92 19.3 7.25 23.0 7.70 26.0 8.08 29.9 8.6214.0 22.0 14.4 6.96 16.0 7.02 19.3 7.36 23.0 7.82 25.9 8.21 29.8 8.7615.0 24.0 14.2 7.16 15.7 7.23 19.2 7.59 22.9 8.08 25.8 8.46 29.7 9.05
RYP250
9.0 16.0 17.6 7.41 19.5 7.47 22.9 7.81 27.3 8.27 30.8 8.66 35.4 9.2211.0 18.0 17.3 7.60 19.4 7.68 22.7 8.02 27.1 8.51 30.6 8.91 35.2 9.5012.0 20.0 17.1 7.81 19.1 7.89 22.6 8.26 27.0 8.76 30.4 9.18 35.0 9.8013.0 21.0 16.9 7.92 18.9 7.99 22.6 8.37 26.9 8.89 30.3 9.32 34.9 9.9514.0 22.0 16.8 8.03 18.7 8.10 22.5 8.49 26.9 9.03 30.3 9.47 34.9 10.1115.0 24.0 16.6 8.27 18.4 8.34 22.5 8.76 26.8 9.32 30.2 9.77 34.8 10.44
3TW23632-2A
SYMBOLS
AFR: Air flow rate (m3/min)BF: Bypass factorEWB: Entering wet bulb temp. (°CWB)EDB: Entering dry bulb temp. (°CDB)DB*: Dry bulb temp. (°CDB) (°CDB)TC: Total cooling capacity (kW)SHC: Sensible heating capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC is shown by kW
NOTES1. Ratings shown are net capacities which include a deduction for indoor fan
motor heat2. Shows nominal capacities3. Capacities are based on following conditions:
Corresponding refrigerant piping length: 7.5 mLevel difference: 0 mOutdoor air : 85 % RH. however, the condition on nominal capacity is7° CDB/6° CWB (heating)
4. Direct interpolation is permissible. Do not extrapolate.5. Air flow rate and BF are tabulated below.
Model FDYP200 FDYP250AFR 69 89BF 0.25 0.25
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
24 • Split - Sky Air • Outdoor Units
FDYMP71-125L7V1 + RYP71-100L7V1RYP71-125L7W1
Heating capacity V1: 230V [50Hz]W1: 400V [50Hz]
OutdoorIndoor Outdoor temperature (°CWB)EDB(°C)
-10 -5 0 6 10 15TC PI TC PI TC PI TC PI TC PI TC PI
71
16.0 6.3 2.17 6.7 2.25 7.4 2.25 8.1 2.33 8.6 2.33 - -18.0 6.3 2.17 6.7 2.25 7.4 2.33 8.0 2.41 8.6 2.41 - -20.0 6.3 2.33 6.7 2.33 7.3 2.41 8.0 2.49 8.6 2.57 9.3 2.6522.0 6.3 2.33 6.7 2.41 7.3 2.49 8.0 2.57 8.6 2.57 9.1 2.6524.0 6.3 2.41 6.7 2.49 7.3 2.57 7.9 2.65 8.6 2.65 9.1 2.73
100
16.0 8.5 3.22 9.3 3.32 10.1 3.42 11.2 3.52 11.9 3.62 - -18.0 8.4 3.32 9.2 3.42 10.1 3.52 11.1 3.62 11.9 3.72 - -20.0 8.4 3.52 9.1 3.62 10.0 3.72 11.0 3.82 11.7 3.92 12.7 4.0222.0 8.4 3.62 9.1 3.72 10.0 3.82 11.0 3.92 11.7 4.02 12.6 4.1224.0 8.3 3.72 9.1 3.82 9.8 3.92 10.8 4.02 11.5 4.12 12.6 4.22
125
16.0 11.4 3.76 12.4 3.95 13.4 4.04 14.6 4.13 15.5 4.32 - -18.0 11.4 3.85 12.4 4.04 13.4 4.13 14.5 4.32 15.5 4.42 - -20.0 11.4 4.04 12.2 4.23 13.3 4.42 14.5 4.51 15.4 4.60 16.6 4.7922.0 11.4 4.13 12.2 4.32 13.3 4.42 14.5 4.60 15.4 4.70 16.6 4.8924.0 11.3 4.23 12.2 4.42 13.2 4.60 14.4 4.70 15.4 4.89 16.3 5.07
3TW25142-14A
SYMBOLS
AFR: Air flow rate (m3/min)EDB: Entering dry bulb temp. (°CDB)WB: Wet bulb temperature (°CWB)TC: Total cooling capacity (kW)PI: Power input (kW)
(comp.+indoor+outdoor fan motor)
Caution:TC is shown by kW
NOTES1. Ratings shown are net capacities.
Influence of fan motor heat is included.2. Shows nominal capacities3. Capacities are based on following conditions:
Outdoor air : 85 % RH. however, the condition on nominal capacity is7° CDB/6° CWB (heating)Corresponding refrigerant piping length: 7.5 mLevel difference: 0 m
4. Direct interpolation is permissible. Do not extrapolate.5. Air flow rate and BF are tabulated below.
Model FDYMP
71 AFR 19BF 0.11
100 AFR 27BF 0.2
125 AFR 35BF 0.14
6. Add the following corrections to power input of each model.
Model Supply FDYMP
71 V1 0W1 0
100 V1 0.09W1 0
125 W1 0
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
3 Capacity tables
13
25• Split - Sky Air • Outdoor Units
3 Capacity tables3-1 Cooling capacity in low latent heat application
Method and illustration
The capacity will be increased when the dip switch DS2-4, mounted on the outdoor PCB, is set to ON.
Detail dip switch setting
OFF (factory setting)
ON
OFF
ON
OFF
ON
Capacity result at low temperatureThe capacity increases when outdoor temperature drops below 21°C as indicated on table below
Dip switch OFF(factory setting) Dip switch ON
Capacity low temperature 100%* 150 ∼ 200%
*This is a relative comparisson to indicate an increase of 50 to 100% capacity with the dipswitch ON.
Caution+ Finally the capacity result will depend on the total condition of the installation site.
This is the responsibility of the customer.+ There is additional limitation for the relative humidity when operating this switch.
Finally, it will depend on the total condition of the installation site and is responsibility of the customer.+ Evaluation is necessary for each installation site by a professional responsible installer.+ Only use the switch for capacity increase in the area indicated on the graph of page 4.+ Do not set the switch in combination with the option EKRPER, this is only for use of Daikin indoor units.
Reason for limitationWhen operating with switch ON, there will be a change of freeze protection control see table on next page. By this there will be some risk of+ Ice building up at indoor heat exchanger.+ Water blown off from the unit into the room.
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
13
3-1
26 • Split - Sky Air • Outdoor Units
3 Capacity tables3-2 Details about software change
B-typeL-type
Dip switch OFF (factory setting) Dip switch ON
Function: capacity increase at low temperature Not present Not activated Activated
Freeze protection (partly)IN condition
+ Intelligent control+ Indoor decision+ 25min integrated coil temp ≤-1°C+ coil temp ≤’’A’’°C continuous 1min+ 20min continuous comp operation time+ coil temp ≤-1°C continuous 1min
’’A’’: depend on each indoor typeEx.: FHY...-3°C
FHYC...-5°C
+ Indoor decision+ 25min integrated coil temp ≤-1°C+ coil temp ≤’’A’’°C continuous 1min+ 20min continuous comp operation time+ coil temp ≤-1°C continuous 1min
’’A’’: depend on each indoor typeEx.:FHY...-3°C
FHYC...-5°C
+ 25min integrated coil temp ≤-1°C+ coil temp ≤’’A’’°C continuous 1min+ 20min continuous comp operation time+ coil temp ≤-1°C continuous 1min
’’A’’: depend on each indoor typeEx.:FHY...-3°C
FHYC...-5°C
OUT condition Coil temp >10°C continuous ≥ 10min X Coil temp >7°C continuous ≥ 3min
Discharge temp (TK) control limitation
TK acceptable areaAir
TK acceptable areaAir >12°C:NormalAir≤ 12°C:
TK acceptable area
Only use the switch for capacity increase in thisarea.
Humidity limitation
HOR
H&HOR
& H H HOR
&
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
•PairApplication
•R-407C•RYP71-125L7V1/W
1∼RYP200-250B7W1
3Capacity
tables3-2
Detailsaboutsoftwarechange133-2
27
• Split - Sky Air • Outdoor Units
•Split-
SkyA
ir•
OutdoorU
nits
4 Dimensional drawings
unit (mm)
1 Gas pipe connection J15.9 flare2 Liquid pipe connection - J9.5 flare3 Service port (in the unit)4 Grounding terminal M5 (in switch box)5 Refrigerant piping intake6 Power supply wiring intake (knock hole J34)7 Control wiring intake (knock hole J27)8 Drain outlet
RYP71L7Hole for anchor bolt4-M12
3TW25144-1
unit (mm)
1 Gas pipe connection J19.1 flare2 Liquid pipe connection - J9.5 flare3 Service port (in the unit)4 Grounding terminal M5 (in switch box)5 Refrigerant piping intake6 Power supply wiring intake (knock hole J34)7 Control wiring intake (knock hole J27)8 Drain outlet
RYP100L7Hole for anchor bolt4-M12
3TW25154-1
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
14
28 • Split - Sky Air • Outdoor Units
unit (mm)
1 Gas pipe connection J19.1 flare2 Liquid pipe connection - J9.5 flare3 Service port (in the unit)4 Grounding terminal M5 (in switch box)5 Refrigerant piping intake6 Power supply wiring intake (knock hole J34)7 Control wiring intake (knock hole J27)8 Drain outlet
RYP125L7
Hole for anchor bolt4-M12
3TW25204-1
unit (mm)
1 Liquid piping connection opening2 Gas piping connection opening3 Ground terminal4 Power supply wiring outlet
RYP200B7
Knock hole for lower piping
3TW21484-1C
(Distance between anchor bolt holes)
Pipes connected to theside
Foundation hole
(pipes connected tothe front)
NOTE: The dimensions marked withz refer todistances after fixing the accessory pipes.
(Dist
ance
betw
een
anch
orbo
ltho
les)
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
4 Dimensional drawings
14
29• Split - Sky Air • Outdoor Units
unit (mm)
1 Liquid piping connection opening2 Gas piping connection opening3 Ground terminal4 Power supply wiring outlet
RYP250B7
Knock hole for lower piping
3TW21494-1C
(Distance between anchor bolt holes)
Pipes connected to theside
Foundation hole
(pipes connected tothe front)
NOTE: The dimensions marked withz refer todistances after fixing the accessory pipes.
(Dist
ance
betw
een
anch
orbo
ltho
les)
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
4 Dimensional drawings
14
30 • Split - Sky Air • Outdoor Units
5 Operation range
RYP71-125L7
3TW25143-1A
Heating
Cooling
Indoor temp. (°CWB)
Out
door
tem
p.(°
CDB)
Allo
wab
lera
nge
ofop
erat
ion
(pul
l-dow
n)
Indoor temperature (°CDB)
Out
door
tem
p.(°
CWB)
Allo
wab
lera
nge
ofop
erat
ion
(war
min
g-up
)
Model name
RYP71L7V1 RYP100L7V1 RYP125L7W1
RYP71L7W1 RYP100L7W1
Notes:- Depending on operation and installation conditions, the indoor unit can change over to
freeze-up operation (indoor de-icing).- To reduce the freeze-up operation (indoor de-icing) frequency, it is recommended to install
the outdoor unit in a location not exposed to wind.
Ope
ratio
nra
nge
Ope
ratio
nra
nge
RYP200-250B7
3TW23633-1
Heating
Cooling
Indoor temp. (°CWB)
Out
door
tem
p.(°
CDB)
Allo
wab
lera
nge
ofop
erat
ion
(pul
l-dow
n)
Indoor temperature (°CDB)
Out
door
tem
p.(°
CWB)
War
min
gup
perio
d
Notes:The graph is based on the following conditions:1. Equivalent piping length 70 m2. Level difference 30 m3. Indoor air flow rate 72m3/min (200 class)
90m3/min (250 class)
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
15
31• Split - Sky Air • Outdoor Units
6 Piping diagrams
RYP71L7
3TW25145-1
Indoor unit
Field pipingJ15.9 C122OT-O
Field pipingJ9.5 C122OT-O
Low pressureswitch
Heat exchanger
Filter
Stop valve(with service port 1/4 ’ flare)
Solenoid valve
Filter
Electronic expansionvalve
Filter
4-way valve
Compressor
Receiver
Service port1/4’’
Heat exchanger
Muffler
One way valve
One way valve
High pressureswitch
One way valve
Filter
Outdoor unit
O Check valve L Flare connection M Screw connection N Flange connection Z Pinched pipe P Spinned pipe
HeatingCooling
One way valve
One way valve
StrainerService port
1/4’’
RYP100-125L7
3TW25155-1
Indoor unit
Field pipingJ15.9 C122OT-O
Field pipingJ9.5 C122OT-O
Low pressureswitch
Heat exchanger
Filter
Stop valve(with service port 1/4 ’ flare)
Solenoid valve
Filter
Electronic expansionvalve
Filter
4-way valve
Compressor
Receiver
High pressureswitch
Service port1/4’’
Heat exchanger
Muffler
One way valve
One way valve
One way valve
One way valve
Filter
Outdoor unit
O Check valve L Flare connection M Screw connection N Flange connection Z Pinched pipe P Spinned pipe
HeatingCooling
One way valve
Strainer
Service port1/4’’
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
16
32 • Split - Sky Air • Outdoor Units
RYP200-250B7
3TW23635-1
Indoor unit
Field piping •B
Field piping •ALow pressure
switch
Indoor heat exchanger
Stop valve(with service port 1/4 ’ flare)
Solenoid valve
Electronic expansionvalve Filter
4-way valve
Compressor
Receiver
High pressureswitch
Service port1/4’’
Outdoor heat exchanger
Muffler
One way valve
One way valve
One way valve
One way valve
Filter
Outdoor unit
O Check valve L Flare connection M Screw connection N Flange connection Z Pinched pipe P Spinned pipe
Filter
Propeller fan
Fan
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
6 Piping diagrams
16
33• Split - Sky Air • Outdoor Units
7 Wiring diagrams
2TW25146-1
RYP71-100L7V1
A1P Printed circuit boardBS1 Push button (forced defrost-pump down)C1R Capacitor (M1F)C3R Capacitor (M1C)C4 Starting capacitor (M1C)DS1, DS2 Selector switchF1U, F2U Fuse (250V, 10A,jB )F3U Field fuseHAP Light emitting diode (service monitor green)
K1M Magnetic contactor (M1C)K1R Magnetic relay (K1M)K3R Magnetic relay (Y1S)K4R Magnetic relay (Y2S)K8R,K9R,K10R Magnetic relay (M1F)K11R Starting relayM1C Motor compressorM1F Motor fan 1
Q1M Thermo switch (M1F)Q3E Earth leak detectorR1T Thermistor (air)R2T Thermistor (coil)R3T Thermistor (discharge pipe)R4C ResistorRC Signal receiver circuitS1PH Pressure switch (high)
S1LP Pressure switch (low)SD Safety devices inputT1A Current transformerT1R Transformer (220-240V/24.9V)TC Signal transmission circuitX1M,X2M Terminal stripY1E Expansion valve (electronic type)Y1S 4-way valveY2S Solenoid valve
Indoor
NOTES:
1. Confirm the method of setting the selectorswitches by service. When the unit is shipped byfactory all switches are set to be off.
2. Do not operate the unit by short-circuiting S1LPIt will cause compressor failure.
g Field wiringD : TerminalF : Connector„ : Wire clampb : Protective earth (screw)L : LiveN : Neutral
ColoursBLK: Black/ BLU: Blue/ WHT: White/RED: Red/ ORG: Orange/ YLW:Yellow
Switch box(Outdoor)
Outdoor
ON
OFF
ON
OFF
Position ofcompressorterminal
Wire entrance
NOTE 1
2TW25186-1
RYP71-100L7W1
A1P Printed circuit boardBS1 Push button (forced defrost-pump down)C1R Capacitor (M1F)DS1, DS2 Selector switchF1U, F2U Fuse (250V, 10A,jB )F3U Field fuseHAP Light emitting diode (service monitor green)K1M Magnetic contactor (M1C)
K1R Magnetic relay (K1M)K3R Magnetic relay (Y1S)K4R Magnetic relay (Y2S)K8R,K9R,K10R Magnetic relay (M1F)M1C Motor compressorM1F Motor fan 1PRC Phase reverse circuitQ1M Thermo switch (M1F)
Q3E Earth leak detectorR1T Thermistor (air)R2T Thermistor (coil)R3T Thermistor (discharge pipe)RC Signal receiver circuitS1PH Pressure switch (high)S1LP Pressure switch (low)SD Safety devices inputT1A Current transformer
T1R Transformer (220-240V/24.9V)TC Signal transmission circuitX1M,X2MX3M
Terminal strip
Y1E Expansion valve (electronic type)Y1S 4-way valveY2S Solenoid valve
Indoor
NOTES:
1. Do not operate the unit by short-circuiting S1LPIt will cause compressor failure.
2. Confirm the method of setting the selector switches byservice. When the unit is shipped by factory all switchesare set to be off.
g Field wiringD : TerminalF : Connector„ : Wire clampb : Protective earth (screw)L : LiveN : Neutral
ColoursBLK: Black/ BLU: Blue/ WHT: White/RED: Red/ ORG: Orange/ YLW:Yellow
Switch box(Outdoor)
Outdoor
ON
OFF
ON
OFF
Position ofcompressorterminal
Wire entrance
NOTE 1
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
17
34 • Split - Sky Air • Outdoor Units
2TW25196-1
RYP125L7W1
A1P Printed circuit boardBS1 Push button (forced defrost-pump down)C1R Capacitor (M1F)C2R Capacitor (M2F)DS1, DS2 Selector switchF1U, F2U Fuse (250V, 10A,jB )F3U Field fuseHAP Light emitting diode (service monitor green)K1M Magnetic contactor (M1C)
K1R Magnetic relay (K1M)K3R Magnetic relay (Y1S)K4R Magnetic relay (Y2S)K5R,K6R,K7R Magnetic relay (M2F)K8R,K9R,K10R Magnetic relay (M1F)M1C Motor compressorM1F Motor fan 1M2F Motor fan 2PRC Phase reverse circuit
Q1M Thermo switch (M1F)Q2M Thermo switch (M2F)Q3E Earth leak detectorR1T Thermistor (air)R2T Thermistor (coil)R3T Thermistor (discharge pipe)RC Signal receiver circuitS1PH Pressure switch (high)S1LP Pressure switch (low)
SD Safety devices inputT1A Current transformerT1R Transformer (220-240V/24.9V)TC Signal transmission circuitX1M,X2MX3M
Terminal strip
Y1E Expansion valve (electronic type)Y1S 4-way valveY2S Solenoid valve
Indoor
NOTES:
1. Do not operate the unit by short-circuiting S1LPIt will cause compressor failure.
2. Confirm the method of setting the selector switches byservice. When the unit is shipped by factory all switchesare set to be off.
g Field wiringD : TerminalF : Connector„ : Wire clampb : Protective earth (screw)L : LiveN : Neutral
ColoursBLK: Black/ BLU: Blue/ WHT: White/RED: Red/ ORG: Orange/ YLW:Yellow
Switch box(Outdoor)
Outdoor
ON
OFF
ON
OFF
Position ofcompressorterminal
Wireentrance
NOTE 1
2TW23636-1B
RYP200-250B7W1
A1P,A2P,A3P Printed circuit boardBS1 Push button (forced defrost-pump down)C1R,C2R Capacitor (M1F-M2F)DS1 Selector switch (defrost)DS2 Selector switch (various see PCB)DS3 Selector switch (emergency)F1C Overcurrent relayF1U,F2U Fuse (250V, 10A)F3U Field fuse
HAP Light emitting diode (service monitor green)H1P,H2P Light emitting diode (service monitor red)J1HC Crankcase heaterK1M Magnetic contactor (M1C)M1C Motor (compressor)M1F,M2F Motor (fan)PRC Phase reverse circuitQ1L,Q2L Thermo switch (M1F)Q3E Earth leak detector
R1T Thermistor (air)R2T Thermistor (coil)R3T Thermistor (discharge pipe)RC Signal receiver circuitRyC Magnetic relay (K1M)RyCH Magnetic relay (J1HC)RyF1-2 Magnetic relay (M1F-M2F)RyR Magnetic relay (Y1S)RyS Magnetic relay (Y1R)
S1LP Pressure switch (low)S1PH Pressure switch (high)SD Safety devices inputT1R Transformer (230V/20.1V)TC Signal transmission circuitX1M Terminal stripY1E Expansion valveY1R 4-way valveY1S Solenoid valve
IndoorNote:
Do not operate the unit by short-circuiting S1LP
g Field wiringD TerminalF : Connector„ : Wire clampb : Protective earth (screw)L : LiveN : Neutral
ColoursBLK: Black/ BLU: Blue/ WHT: White/RED: Red/ ORG: Orange/ YLW:Yellow
Switch box
Outdoor
L1-RED L2-WHT L3-BLK N-BLU
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
7 Wiring diagrams
17
35• Split - Sky Air • Outdoor Units
4TW25149-6
RYP71-125L7
Field wire
Symbol explication
I = PairII = TwinIII = TripleM = MasterS = Slave1 = Earth leak detector2 = Fuse3 = Remote control
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
7 Wiring diagrams
17
36 • Split - Sky Air • Outdoor Units
8 Sound level8-1 Sound level data
Soun
dpr
essu
rele
vel(
dB)
Soun
dpr
essu
rele
vel(
dB)
Model
Sound pressure levelSound power level (H)
(cooling)230V, 50Hz
Measuring locationH (cooling) H (heating)
RYP71L7 50 52 63
RYP100L7 53 56 66
RYP125L7 53 56 67
RYP200B7 57 57 77
RYP250B7 57 57 77
Octave band center frequency (Hz) Octave band center frequency (Hz)
RYP71L7 RYP71L7
3TW25147-2A3TW25147-1A
8-2 Sound pressure spectrum
NOTES
1 Data is valid at free field condition2 Data is valid at nominal conditions.3 dB(A) = A-weighted sound pressure level (A-scale according
to IEC)4 Reference acoustic pressure 0dB = 20µPa5 Curve for RYP71-125L7V1/W1 in cooling mode
Cooling Heating
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
18
8-1
37• Split - Sky Air • Outdoor Units
Soun
dpr
essu
rele
vel[
dB(A
)]
Soun
dpr
essu
rele
vel[
dB(A
)]
Octave band center frequency (Hz) Octave band center frequency (Hz)
RYP100L7 RYP100L7
RYP125L7 RYP125L7
Soun
dpr
essu
rele
vel[
dB(A
)]
Soun
dpr
essu
rele
vel[
dB(A
)]
Octave band center frequency (Hz) Octave band center frequency (Hz)
3TW25157-1A 3TW25157-2A
3TW25207-1A 3TW25207-2A
Cooling Heating
Cooling Heating
NOTES
1 Data is valid at free field condition2 Data is valid at nominal conditions.3 dB(A) = A-weighted sound pressure level (A-scale according to IEC)4 Reference acoustic pressure 0dB = 20µPa5 Curve for RYP71-125L7V1/W1 in cooling mode
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
8 Sound level8-2 Sound pressure spectrum
18
8-2
38 • Split - Sky Air • Outdoor Units
Soun
dpr
essu
rele
vel[
dB(A
)]
Soun
dpr
essu
rele
vel[
dB(A
)]Octave band center frequency (Hz) Octave band center frequency (Hz)
RYP200B7 RYP200B7
RYP250B7W1 RYP250B7W1
Soun
dpr
essu
rele
vel[
dB(A
)]
Soun
dpr
essu
rele
vel[
dB(A
)]
Octave band center frequency (Hz) Octave band center frequency (Hz)
3TW23637-1 3TW23637-1
3TW23647-1 3TW23647-1
Cooling Heating
Cooling Heating
NOTES
1 Data is valid at free field condition2 dB(A) = A-weighted sound pressure level (A-scale according to
IEC)3 Reference acoustic pressure 0dB = 20Pa
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
8 Sound level8-2 Sound pressure spectrum
18
8-2
39• Split - Sky Air • Outdoor Units
Soun
dpr
essu
rele
vel[
dB(A
)]
Soun
dpr
essu
rele
vel[
dB(A
)]
Octave band center frequency (Hz) Octave band center frequency (Hz)
RYP71L7 RYP100L7
RYP125L7
Soun
dpr
essu
rele
vel[
dB(A
)]
Octave band center frequency (Hz)
3TW25147-3 3TW25157-3
3TW25207-3
Cooling Cooling
Cooling
NOTES
1 Data is valid at free field condition2 Data is valid at nominal conditions.3 dB(A) = A-weighted sound pressure level (A-scale according to IEC)4 Reference acoustic pressure 0dB = 20µPa5 Curve for RYP71-125L7V1/W1 in cooling mode
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
8 Sound level8-2 Sound pressure spectrum
18
8-2
40 • Split - Sky Air • Outdoor Units
9 Accessories9-1 Standard accessories
RYP200-250B7
Available options for RYP71-125L7V1,W1
Name of option RYP71L RYP100L RYP125L
Central drain plug KKPJ5F180
Refrigerant branch pipingTwin KHRQ22M20TA7
Triple ∼ KHRP127HB7
Connection to Air handling unit EKRPER
3TW25149-1A3TW23189-1AAvailable options for RYP200-250B7W1
Option RYP200B7 RYP250B7
Fan motor size up NFM22C5
Refnet KHRQ22M20TA7*
Refnet KHRQ22M64T7*
Refnet KHRP127HB7*
3TW23619-2A
* Table with possible indoor combinations = combination matrix 3TW23619-1A See chapter RYP-L7/B7, twin/triple/double twin application
Gas pipes
9-2 Optional accessories
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
19
9-1
41• Split - Sky Air • Outdoor Units
9 Accessories9-2 Optional accessories
Refnet kits overview
Liquid side joint Suction gas side joint
Suction gas side headerLiquid side header
Reducers - Expanders
I.D. J12.70I.D. J9.52 I.D. J15.90 I.D. J12.70
I.D. J19.10I.D. J22.20 I.D. J25.40 I.D. J25.40
I.D. J26.60
I.D. J9.52
I.D. J15.90
I.D. J12.70
I.D. J9.52 (3x)
I.D. J6.35 (3x)
I.D. J12.70 (2x)
I.D. J15.90 (2x)
I.D. J19.10 (2x)
I.D. J29.60
I.D. J19.10
I.D. J25.40
I.D. J12.70
I.D. J15.90
I.D. J12.70I.D. J9.52
I.D. J9.52 I.D. J6.35
I.D. J6.35I.D. J9.52
I.D. J19.10 I.D. J22.20
I.D. J15.90
I.D. J15.90I.D. J12.70
I.D. J15.90
I.D. J19.10
I.D. J12.70 I.D. J15.90
I.D. J12.70 I.D. J9.52
I.D. J6.35
I.D. J 15.90
I.D. J6.35I.D. J12.70
I.D. J31.60 I.D. J29.60
I.D. J25.40I.D. J15.90I.D. J19.10
I.D. J12.70
I.D. J15.90I.D. J19.10
I.D. J25.40
KHRQ
22M
20TA
7KH
RQ22
M64
T7KH
RR12
7HB7
1TW25799-1
1TW25799-1D
O.D. J9.52 I.D. J6.35j5
j5 2 x
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
19
9-2
42 • Split - Sky Air • Outdoor Units
10 Center of gravity
11 Safety device settings
RYP71-125L7
ModelSafety device RYP71L7 RYP100L7 RYP125L7
Fan motor thermal protector Off 135 ±5°COn 95 ±15°C
HPS Off 3.30 ± 0.1 MpaOn 2.55 ± 0.15 Mpa
LPS Off -0.03 ± 0.02 MpaOn 0.05 ± 0.02 Mpa
Max discharge temperature By thermistor and software control
Overcurrent relay By TC on PCB and software control
4TW25141-2
RYP71L7V1/W1
Model A
RYP71L7 335
3TW25149-5
RYP100L7V1/W1
Model A
RYP100-125L7 455 3TW25159-5
RYP125L7W1
RYP200-250
Model A
RYP200B7W1 380
RYP250B7W1 510
4TW23619-1
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
110
43• Split - Sky Air • Outdoor Units
12 Installation
+ Where there are noobstacles above the unit.
1 Installation of single unit+ In case obstacles exist only in
front of outlet side.
2 Installation of multiple units inlateral connection (2 units ormore).
+ Where there areobstacles above theunit.
1 Installation of single unit+ In case obstacles exist
only in front of outletside.
2 Installation of multiple unitsin lateral connection (2units or more).
+ In case obstacles existonly in front of outletside.
(C) In case obstacles exist infront of both the air inlet andoutlet sides.
+ Where there are no obstaclesabove the unit.
RYP71-125L7/B7The numerical figures used here represent the dimensions for the models RP71to 125. The figures inside ( ) indicate the dimensions for the models RP100 and125. (Unit:mm)The figures inside < > indicate the dimension of discharge grille when it isinstalled facing downwardWhen installing multiple units in lateral connection, discharge grille cannot be setto discharge air in Left/Right direction
(A) In case obstacles exist in front of the air inlet
+ In case obstacles exist in front of theair inlet and on both sides of theunit.
+ In case obstacles exist in frontof the air inlet and on bothsides of the unit.
1 Installation of singleunit.
2 Installation ofmultiple units inlateral connection(2 units or more).
+ Where there are no obstacles abovethe unit
Where obstacle infront of the air outletis higher than theunit.
2 Installation of multiple units in lateralconnection (2 units or more).
Pattern 1
2 Installation of multiple units in lateralconnection (2 units or more).
+ In case obstacles exist in frontof the air inlet and on bothsides of the unit.
+ Where there are obstacles above theunit.
1 Installation of single unit+ In case obstacles exist only in
front of the air inlet.
1 Installation of single unit+ In case obstacles exist only in front of the
air inlet.+ In case obstacles exist in front of the air
inlet and on both sides of the unit.
(B) In case obstacles exist only in front of outlet side
50 or more (100)
100 or more
100 or more
100 or more
20 mm or more
20 mm or more
1000 mm or more
20 mm or more
500 or less
100 or more
500 or less
150 or more
150 or more
150 or more
500 or less
20 mm or more
1000 mm or more
20 mm or more
200 mm or more200 or more (300)
150 or more
20 mm or more
20 mm or more
1000 mm ormore
500 or less
500 mm or more
500 or less
1000 mm or more
20 mm or more
20 mm or more
50 or more (100)
500 or more (1000)
20 mm or more
20 mm or more
200 or more (300)
1000 or more(1500)
100orm
ore
1000m
morm
ore
1000m
morm
ore
1000m
morm
ore
1000m
morm
ore
200 or more (300)
DU427-826
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
112
44 • Split - Sky Air • Outdoor Units
1 In case of installingone unit per row.
2 In case of installingmultiple units (2 unitsor more) in lateralconnection per row.
2 Installation of multiple units inlateral connection (2units or less).
Relation of dimensions of H, A, and Lare shown in the table below.
L A
L ≤ H0 < L ≤ 1/2 H 150 (250)
1/2 H < L 200 (300)H < L Set the frame to be L<=H
(D) In case of stacked installation1 In case obstacles exist in front of the
outlet side.Do not stack more than one unit..About 100mm is required as thedimension for laying the upper outdoorunit’s drain pipe..Get the portion A sealed so that air fromthe outlet does not bypass..
Relation of dimensions of H, A, and L are shownin the table below.
L A
L ≤ H0 < L ≤ 1/2 H 150 (250)
1/2 H < L 200 (300)H < L Installation impossible
2 In case obstacles exist in front of theair inlet.
Do not stack more than one unit..
About 100mm is required as thedimension for laying the upper outdoorunit’s drain pipe..
Get the portion A sealed so that air fromthe outlet does not bypass..
(E) In case of multiple-low installation(for roof top use, etc.).
RYP71-125L7/B7+ Where there are obstacles
above the unit.
+ Where there are no obstacles abovethe unit.
Get the lower part of the frame sealed so thatair from the outlet does not bypassDo not install more than 2 units
1 Installation of single unit.
2 Installation of multiple units in lateralconnection (2 units or more).
Relation of dimensions of H, A, and L areshown in the table below.
L A
L ≤ H0 < L ≤ 1/2 H 750<1250>
1/2 H < L 1000<1500>H < L Set the frame to be L<=H
Relation of dimensions of H, A, and L areshown in the table below.
L A
L ≤ H0 < L ≤ 1/2 H 1000<1500>
1/2 H < L 1250<1750>H < L Set the frame to be L<=H
Pattern 2Where obstacle in front of the air outlet islower than the unit.
1 Installation of single unit.
2 Installation of multiple units in lateralconnection (2 units or more).
Relation of dimensions of H, A, and L areshown in the table below.
L A0 < L ≤ 1/2 H 150 (250)
1/2 H < L 200 (300)
+ Where there are obstacles above theunit.
1 Installation of single unit.
Relation of dimensions of H, A, and L areshown in the table below.
L A
L ≤ H0 < L ≤ 1/2 H 50 (100)
1/2 H < L 100 (200)H < L Set the frame to be L<=H
Get the lower part of the frame sealed so thatair from the outlet does not bypass
Get the lower part of the frame sealed sothat air from the outlet does not bypass
Get the lower part of the frame sealed so thatair from the outlet does not bypass
Do not install more than 2 units
500 or less
150 or more (250)
500 or less
20 mm ormore
200 or more (300)
50 or more (100)
500 or more (1000)
20 mm or more
20 mm or more
1000 or more (1500)
500 or less
500 or more (1000)
500 or less
20 mm ormore
1000 or more (1500)
20 mm or more
1000 mm or more
20 mm or more
200 or more (300)
50 or more (100)
1000 or more (2000)
100 or more (200)
500 or more (1000)
20 mm or more
20 mm or more
2000 or more (3000)
400 or more (600)
1000 or more (1500)
1000m
morm
ore
1000m
morm
ore100
ormore
1000m
morm
ore
DU427-826
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
12 Installation
112
45• Split - Sky Air • Outdoor Units
Single installation Installation in a row Conentrated installation
Case 1 Case 1 Case 1
Case 2 Case 2
Case 3 Case 3
Case 2
1 Case 1and case 2+ Front wall height is 1500mm+ Suction wall height is 500mm+ Side wall height has no limit+ Case 3 wall height has no limit
2 If the wall is higher than mentioned in note 1: ADO h2/2 (front side) and ANO h1/2(suction side) to the mentioned values for installation. (h1 and h2: see figure to the left)
3 Before installing, please check the passage of humans and air at the side, and select aplace which is suitable for the case. (If there are a lot of units to be installed, take carethat there is no shortcircuit of air)
4 Please install considering piping installation at the front side.
suct
ion
side
front
side
RYP200-250B7
3TW23619-4
RYP200-250B7
12 Installation
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
•PairApplication
•R-407C•RYP71-125L7V1/W
1∼RYP200-250B7W1
12Installation
11246
• Split - Sky Air • Outdoor Units
•Split-
SkyA
ir•
OutdoorU
nits
3TW25149-4A
Do not stack more than one unit.About 100mm is required as the dimension for laying the upper outdoorunit’s drain pipe.Get the portion A sealed so that air from the outlet does not bypass.
Legend= mmSSO Suction side obstacleDSO Discharge side obstacleLSO Left side obstacleRSO Right side obstacleTSO Top side obstacle
B. Stacked installation
1. Obstacles exist in front of the outlet side
C. Stacked installation
1. Installation of one unit per row
2. Obstacles exist in front of the air inlet
R(Y)(E)P-L
A. Non stacked installation
2. Installing multiple units (2 units or more) in lateralconnection per row
Relation of dimensions of H, A, and L are shown in the table below.L A
L ≤ H0 < L ≤ 0.5 H 150 (250)
0.5 H < L 200 (300)H < L Installation impossible
✓ Obstacle is presentIn these cases, close the bottom of the installation frame to prevent discharged air frombeing bypassed.In these cases, only 2 units can be installed.
x This situation is not allowed.( ) Figures between ( ) indicate the dimensions only for the 100-125 class models.
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
12 Installation
112
47• Split - Sky Air • Outdoor Units
RYP71-125L7
Refrigerant pipe size
Pair system
Model Piping length
Class Gas pipe Liquid pipe
71 J15.9xt1.0J9.5xt0.8
100, 125 J19.1xt1.0
The pipes between the outdoor unit and the branch (L1) should have thesame size as the outdoor connections. The pipes between the branch andthe indoor units (L2-L4) should have the same size as the indoorconnections.
Allowable pipe length and height difference
See the table below concerning lengths and heights. Refer to thefigures. Assume that the longest line in the figure corresponds with theactual longest pipe, and the highest unit in the figure corresponds with theactual highest unit.
Allowable pipe length
Maximum allowable pipe length(figures between parenthesisrepresent equivalent length)
Pair L1 70 m(90 m)Twin/Triple L1+L2
Maximum total one-way pipelength
Twin L1+L2+L380 m
Triple L1+L2+L3+L4
Maximum branch pipe length Twin/Triple L2 20 m
Maximum difference betweenbranch lengths
Twin L2-L310 m
Triple L2-L4
Maximum height between indoorand outdoor All H1 30 m
Maximum height between indoors Twin/Triple H2 0.5 m
Chargeless length All L1+L2+L3+L4 ≤30 m
The minimal piping length should be 5 m. If installation is performed withless field piping, the system will be overcharged (abnormal HP, etc.). If thedistance between indoor and outdoor unit is less than 5 m, please makesure that the piping length is ≥5 m by additional bending of the pipes.
Charging refrigerantThis unit requires additional charging of refrigerant according to the lengthof pipe connected at the site. Charge the refrigerant to the liquid pipe in itsliquid state. Since R-407C is a mixed refrigerant, its composition changes ifcharged in a state of gas and normal system operation would no longerbe assured.
On this model it is not necessary to charge additionaly if the piping length≤30 m.
On twin/triple application, piping length means sum of main pipe andbranch pipe.
Piping length is the 1 way length, gas or liquid.
Over 30 m or for complete recharging, please charge based as shown inthe figures, where the pipe length is respectively L1+L2+L3 andL1+L2+L3+L4.
Additional charging of refrigerant
Over 30 m please, add refrigerant quantity according to following table.
For future servicing, mark with a circle the selected amount on the tablesbelow.
Pair system
Table 1: Additional charging amount <unit: kg>
Model Piping length
Class 30∼40m 40∼50m 50∼60m 60∼70m
H/P71 +0.50 +1.00 +1.50 +2.00
100-125 +0.75 +1.50 +2.25 +3.00
C/O 71-100-125 +0.25 0.50 +1.75 +1.00
For twin/triple system
Please charge additionaly according to the following calculation. (Additionalamount is R1+ R2)1. G1: total length of J9.5 mm liquid piping
G2: total length of J6.4 mm liquid piping2. a G1 > 30 m
calculate length over 30 m (+ G1 - 30 m)Based on this length decide R1, R2 in the table
b G ≤ 30 m and G1 + G2 > 30 mcalculate total length over 30 m (= G1 + G2 - 30 m)Total additional charge amount
3. Total additional charge amountR = R1 + R2 (kg)
Table 2: Additional charging amount <unit: kg>
Model Length exceeding 30 m
Class Piping J 0-10 10-20 20-30 30-40 40-50
H/P
71Main
9.5 0.50 1.00 1.50 2.00 2.50R1
100-125 9.5 0.75 1.50 2.25 3.00 3.75
71
Branch
9.5 0.30 1.00 1.50 2.00 2.50R1
100-125 9.5 0.75 1.50 2.25 3.00 3.75
71-100-125 6.4 0.30 0.60 0.90 1.20 1.50 R2
C/O 71-100-125
Main 9.5 0.25 0.50 0.75 1.00 1.25R1
Branch9.5 0.25 0.50 0.75 1.00 1.25
6.4 0.15 0.30 0.45 0.60 0.75 R2
Twin
Pair
Triple
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
12 Installation
112
48 • Split - Sky Air • Outdoor Units
Example 1
100 type
outdoor heat pump
L1 = 35 (J9.5)
L2 = 7 (J9.5)
L3 = 5 (J6.4)
71 type
Indoor
35 type
1. G1 = L1 + L2 = 35 + 7 = 42 m G2 = L3 = 52. Over 30 m
a G1 - 30 = 12 m → J9.5 R1 = 1.50 kgb G2 = 5 m → J6.4 R2 = 0.30 kg
3. Refrigerant charge amount= R = R1 + R2 = 1.50 + 0.30 = 1.80 kg
Example 2
125 type
outdoor heat pump
L1 = 5 (J9.5)
L2 = 17 (J6.4)
L3 = 17 (J6.4)
L4 = 20 (J6.4)
45 type
Indoor
45 type
Indoor
45 type
1. G1 = L1 = 5 m G2 = L2 + L3 + L4 = 17 + 17 + 20 = 542. Over 30 m
a G1 = 5 m → R1 = 0.0 kgb (G1 + G2) - 30 = (5 + 54) - 30 = 29 → J6.4 R2 = 0.90 kg
3. Refrigerant charge amount= R = R1 + R2 = 0.0 + 0.9 = 0.9 kg
In case of complete recharge of the refrigerant, please first executevacuuming. Execute this vacuuming from the service port. Do not use theport of the stop valve for vacuuming. Vacuuming can not be executedcompletely using such port.
Position of service port:Heat pump: On the piping between the heat exchanger and the 4-way valve.Cooling only: On the discharge pipe.
Complete charging of the refrigerant (after a leak, etc.)
When the entire refrigerant pipe length is within 30 meters, charge therefrigerant in accordance with the amount mentioned in the nameplate,and when the pipe length exceeds 30 meters, the charging amountmentioned in the nameplate and that required for additional charging areto be totalled as the net charging amount.
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
12 Installation
112
49• Split - Sky Air • Outdoor Units
RYP200-250B7
Refrigerant pipe size
1. Pair system (fig. 1)
Outdoor unitRefrigerant pipe size
Gas pipe Liquid pipe
RYP200 J 28.8 J 12.7
RYP250 J 28.8 J 15.9
2. Simultaneous operation systemTwin and triple operation system (fig. 2 / fig. 3)The pipes between the outdoor unit and the branch (L1) should have the same sizeas the outdoor connections.The pipes between the branch and the indoor units (L2-L4) should have the samesize as the indoor connections.Branch: see marking ’Q’ on the figures. Double twin operation system (fig. 4)The pipes between the outdoor unit and the branch (L1) should have the same sizeas the outdoor connections.The pipes between the branch and the indoor units (L2-L4) should have the samesize as the indoor connections.Branch: see marking ’Q’ on the figures.
Outdoor unitRefrigerant pipe size
Gas pipe Liquid pipe
RYP200,250 J 19.1 J 9.5
Additional chargeThe units require additional charging of refrigerant, according to the length of pipeconnected at the size.The correct amount of refrigerant to charge ’G’ (kg) can be lound by using thefollowing formulas (If G<O: no addition is required).
1. Pair systemL1 (m) One way length of liquid pipe
RP200 G = (L1-30) * 0.06
RP250 G = (L1-30) * 0.09
RYP200 G = (L1-30) * 0.10
RYP250 G = (L1-30) * 0.14
2. Simultaneous operation systemL1 (m) One way length of main liquid pipeL2-L7 (m) One way length of branched liquid pipes
RP200 G = (L1-30) * 0.06+L2*A+L3*A+L4*A+L5*A+L6*A+L7*A
RP250 G = (L1-30) * 0.09+L2*A+L3*A+L4*A+L5*A+L6*A+L7*A
RYP200 G = (L1-30) * 0.10+L2*A+L3*A+L4*A+L5*A+L6*A+L7*A
RYP250 G = (L1-30) * 0.14+L2*A+L3*A+L4*A+L5*A+L6*A+L7*A
Outdoor unit Branched pipe A
RP200,250 J 9.5 0.03 kg/m
RYP200,250J 6.4 0.03 kg/m
J 9.5 0.05 kg/mAllowable pipe length
See the table below concerning lengths and heights. Refer to the figures. Assume that the longest line in the figure corresponds with the actual longest pipe, and the highest unit inthe figure corresponds with the actual highest unit.
Maximum allowable pipe length (figures between parenthesis represent equivalent length)
Pair L1
50m (70m)Twin/triple L1+L2
Double twin L1+L2+L4
Maximum total one-way pipe length
Twin L1+L2+L3
60mTriple L1+L2+L3+L4
Double twin L1+L2+L3+L4+L5+L6+L7
Maximum branch pipe lengthTwin/triple L2
20mDouble twin L2+L4
Maximum difference between branch lengths
Twin L2-L3
10mTriple L2-L4
Double twin (L2+L4)-(L3+L7)
Maximum difference between each 1st branch Double twin L2-L3 10m
Maximum difference between each 2nd branch Double twin L4-L5, L6-L7 10m
Maximum height between indoor and outdoor All H1 30m
Maximum height between indoors Twin / triple / double twin H2 0.5m
fig. 1: Pair3TW23619-3
fig. 4: Double twin
fig. 2: Twin
fig. 3: Triple
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
12 Installation
112
50 • Split - Sky Air • Outdoor Units
RYP71-125L7
4TW25149-8
Oil trapIndoor unit
Oil trap
Gas piping
Liquid piping
Outdoor unit
Inst
allt
rap
atea
chdi
ffere
nce
inei
ghto
f15m
NOTE:
Since there is fear of the oil held inside the riser piping flowing back into the compressor when stopped and causing liquidcompression phenomenon, or cases of deterioration of oil return, it well be necessary to provide a trap at an appropriateplace in
A trap is not necessary when the outdoor unit is installed in a higher position than the indoor unit.
• Pair Application • R-407C • RYP71-125L7V1/W1∼RYP200-250B7W1
12 Installation
112
51• Split - Sky Air • Outdoor Units