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7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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KX6 series
FDC224KXE6M, 280KXE6M, 335KXE6M
FDCS224KXE6M, 280KXE6M, 335KXE6M(Corrosion Protection Treatment series)
(INDOOR UNIT) -KX6 series-
(Heat pump type)
Manual No. '10 • KX-DB-147
DATA BOOK
(OUTDOOR UNIT)
VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS
Alternative refrigerant R410A use models
FDT28KXE6DFDT36KXE6DFDT45KXE6DFDT56KXE6DFDT71KXE6DFDT90KXE6DFDT112KXE6DFDT140KXE6DFDT160KXE6D
FDTC22KXE6DFDTC28KXE6DFDTC36KXE6DFDTC45KXE6DFDTC56KXE6D
FDTW28KXE6DFDTW45KXE6DFDTW56KXE6D
FDTS45KXE6DFDTS71KXE6D
FDTQ22KXE6DFDTQ28KXE6DFDTQ36KXE6D
FDU500FKXE6DFDU850FKXE6DFDU1300FKXE6DFDU1800FKXE6D
FDUM22KXE6DFDUM28KXE6DFDUM36KXE6DFDUM45KXE6DFDUM56KXE6DFDUM71KXE6DFDUM90KXE6D
FDUM112KXE6DFDUM140KXE6D
FDUT22KXE6DFDUT28KXE6DFDUT36KXE6DFDUT45KXE6DFDUT56KXE6D
FDK22KXE6DFDK28KXE6DFDK36KXE6DFDK45KXE6DFDK56KXE6DFDK71KXE6D
FDUH22KXE6DFDUH28KXE6DFDUH36KXE6D
FDE36KXE6DFDE45KXE6DFDE56KXE6DFDE71KXE6DFDE112KXE6DFDE140KXE6D
FDU224KXE6DFDU280KXE6D
FDFW28KXE6DFDFW45KXE6DFDFW56KXE6D
Regarding the Duct Connected-High static Pressure-type Outdoor Air Processing Unit Series
(FDU500∼1800FKXE6), refer to the DATA BOOK No.'08 • KX-DB-122
• Note
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CONTENTS
1 GENERAL INFORMATION ............................................................................... 1
1.1 Increased indoor unit connection capacity .................................................... 1
1.2 How to read the model name ........................................................................ 1
1.3 Table of models ............................................................................................. 2
1.4 Table of indoor units panel (Optional) ........................................................... 2
1.5 Branch pipe set and Header pipe set ............................................................ 2
2 OUTDOOR UNIT ................................................................................................ 3
2.1 Specifications ................................................................................................ 3
2.2 Exterior dimensions ....................................................................................... 4
2.3 Electrical wiring ............................................................................................. 7
2.4 Noise level ..................................................................................................... 9
2.5 Corrosion protection treatment series ......................................................... 103 INDOOR UNIT .................................................................................................. 11
3.1 Specifications .............................................................................................. 11
(a) Ceiling cassette-4 way type (FDT) ....................................................... 11
(b) Ceiling cassette-4 way compact type (FDTC)...................................... 13
(c) Ceiling cassette-2 way type (FDTW) ................................................... 14
(d) Ceiling cassette-1 way compact type (FDTQ) ..................................... 15
(e) Ceiling cassette-1 way type (FDTS) .................................................... 18
(f) Duct connected-High static pressure type (FDU) ................................ 19
(g) Duct connected-Middle static pressure type (FDUM) .......................... 20
(h) Duct connected (thin)-Low static pressure type (FDUT) ...................... 22
(i) Duct Connected-Compact and Flexible type (FDUH) .......................... 24
(j) Wall mounted type (FDK) .................................................................... 25
(k) Ceiling suspended type (FDE) ............................................................. 27
(l) Floor standing-2 way type (FDFW) ...................................................... 29
(m) Outdoor air processing unit (FDU-F).................................................... 30
3.2 Exterior dimensions ..................................................................................... 31
3.3 Electrical wiring ........................................................................................... 62
3.4 Noise level ................................................................................................... 80
3.5 Characteristics of fan .................................................................................. 88
3.6 Temperature and velocity distribution ......................................................... 95
3.7 Capacity tables ......................................................................................... 117
4 RANGE OF USAGE & LIMITATIONS ........................................................... 176
5 SELECTION CHART ..................................................................................... 178
6 PIPING SYSTEM ............................................................................................ 186
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7 APPLICATION DATA .................................................................................... 188
7.1 Installation of indoor unit ........................................................................... 188
(a) Ceiling cassette-4 way type (FDT) ..................................................... 189
(b) Ceiling cassette-4 way compact type (FDTC).................................... 194
(c) Ceiling cassette-2 way type (FDTW) ................................................. 199(d) Ceiling cassette-1 way compact type (FDTQ) ................................... 202
(e) Ceiling cassette-1 way type (FDTS) .................................................. 210
(f) Duct connected-High static pressure type (FDU) .............................. 213
(g) Duct connected-Middle static pressure type (FDUM) ........................ 216
(h) Duct connected (thin)-Low static pressure type (FDUT) .................... 219
(i) Duct Connected-Compact and Flexible type (FDUH) ........................ 222
(j) Wall mounted type (FDK) .................................................................. 225
(k) Ceiling suspended type (FDE) ........................................................... 228
(l) Floor standing-2 way type (FDFW) .................................................... 231(m) Outdoor air processing unit type (FDU-F) ......................................... 234
7.2 Electric wiring work instruction .................................................................. 237
7.3 Installation manual for wired remote controller (option parts : RC-E4) .... 243
7.4 Installation of outdoor unit ....................................................................... 248
7.5 Method for connecting the accessory pipe .............................................. 264
7.6 Check operation procedure ...................................................................... 265
7.7 Instructions for installing the branch pipe set (option) ............................... 273
8 OPTIONAL PARTS ........................................................................................ 277
8.1 Wireless kit ................................................................................................ 277
(a) FDT series (RCN-T-36W-E)............................................................... 278
(b) FDTC series (RCN-TC-24W-ER) ....................................................... 285
(c) FDK series (RCN-K-E • RCN-K71-E) ................................................. 292
(d) FDE series (RCN-E-E) ....................................................................... 299
(e) FDFW series (RCN-FW-E) ................................................................ 303
(f) Except for FDT, FDTC, FDK, FDE & FDFW series (RCN-KIT3-E) .... 307
8.2 Simple wired remote controller (RCH-E3) ................................................. 313
8.3 Fan controller kit for high static pressure duct (U-FCRA) ......................... 319
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- 1 -
'10 • KX-DB-147
GENERAL INFORMATION1.1 Increased indoor unit connection capacity
• Capacity from 50% to 150% is possible
FDC224KXE6M
FDCS224KXE6M
FDC280KXE6M
FDCS280KXE6M
FDC335KXE6M
FDCS335KXE6M
1 to 15 units
1 to 19 units
1 to 22 units 167 ~ 502
140 ~ 420
112 ~ 336
Number of connectable Connectable capacityItemModel
Note (1) If one or more indoor units of FDK and FDFW series are connected to the system, the total connecting capacity of indoor
units should not exceed 130%.
Note (2) If superlink I (previous superlink) is selected, the connectable indoor capacity should not exceed 130% of outdoor
capacity.
(2) Indoor unit
Example: FDT 28 KX E 6D
Series cord.
Application power source...See the specifications
Multi KX series
Nominal capacity (nominal cooling capacity : 2.8kW)
Model name Indoor unit : FDTC, FDT, FDTW, FDTQ,FDTS, FDU, FDUM,FDUT, FDE, FDK,FDFW, FDUH, FDU-F
1.2 How to read the model name
(1) Outdoor unit
Example: FDC S 224 KX E 6M
Series cord.
Application power source...See the specifications
Multi KX series
Nominal capacity (nominal cooling capacity : 22.4kW)
Corrosion protection treatment series
Model name (Outdoor unit)
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'10 • KX-DB-147
1.3 Table of modelsCapacity
Model22 28 36 45 56 71 90 112 140 160 224 280
Ceiling cassette-4 way type(FDT)
○ ○ ○ ○ ○ ○ ○ ○ ○
Ceiling cassette-4 way compact type
(FDTC)
○ ○ ○ ○ ○
Ceiling cassette-2 way type(FDTW)
○ ○ ○
Ceiling cassette-1 way compact type(FDTQ)
○ ○ ○
Ceiling cassette-1 way type(FDTS)
○ ○
Duct connected-High static pressure type(FDU)
○ ○
Duct connected-Low/Middle static preessure type(FDUM)
○ ○ ○ ○ ○ ○ ○ ○ ○
Duct connected (thin)-Low static pressure type(FDUT)
○ ○ ○ ○ ○
Duct connected-Compact and Flexible type(FDUH)
○ ○ ○
Wall mounted type(FDK)
○ ○ ○ ○ ○ ○
Ceiling suspended type(FDE)
○ ○ ○ ○ ○ ○
Floor standing-2 way type(FDFW)
○ ○ ○
Outdoor air processing unit(FDU-F)
○ ○ ○ ○
1.4 Table of indoor units panel (Optional)
Model Parts Model
T-PSA-3AW-EFDTCapacity:28,36,45,56,71,
90,112,140,160
Capacity:22,28,36
Capacity:22,28,36
Capacity:28,45,56
Capacity:71,90
Capacity:112,140
Capacity: 45
Capacity:71
TW-PSA-25W-E
TW-PSA-35W-E
TW-PSA-45W-E
TQ-PSA-15W-E
TQ-PSB-15W-E
QR-PNA-14W-ER
QR-PNB-14W-ER
TS-PSA-29W-E
TS-PSA-39W-EFDTS
FDTW
FDTQ
(Duct panel)
FDTQ
(Direct blow panel)
TC-PSA-25W-EFDTC Capacity:22,28,36,45,56
1.5 Branch pipe set and Header pipe set
Total capacity downstream
Less than 180
180 or more but less than 371
371 or more but less than 540
Branching pipe set
DIS-22-1
DIS-180-1
DIS-371-1
Total capacity downstream
Less than 180
180 or more but less than 371
371 or more but less than 540
Header set model type
HEAD4-22-1
HEAD6-180-1
HEAD8-371-1
Number of branches
4 branches at the most
6 branches at the most
8 branches at the most
(a) Branch pipe set (Option)
(b) Header pipe set (Option)
Note (1) The indoor unit of 224 or 280 capacity cannot be connected to the header.
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C
P C B 0 0 3 Z 0 3 0
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C
P C B 0 0 3 Z 0 3 1
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C
P C B 0 0 3 Z 0 3 2
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7 -
Y E
Y E
Y E
Y E
Y E
R D
R D
RD
P C B 0 0 3 Z 1 8 4
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Y E
Y E
Y E
RD
R D
Y E
Y E
R D
P C B 0 0 3 Z 1 8 5
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- 9 -
'10 • KX-DB-147
Measured based on JIS B 8616
Mike position as highest noise level in position as below
Distance from front side 1m
Height 1m
2.4 Noise level
Models FDC224KXE6M, FDCS224KXE6MNoise level 58 dB (A)
Cooling
Noise level 58 dB (A)
Heating
Noise level 59 dB (A)
Cooling
Noise level 60 dB (A)
Heating
Models FDC335KXE6M, FDCS335KXE6MNoise level 61 dB (A)
Cooling
Noise level 61 dB (A)
Heating
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S o u u d
P r e s s u r e L e v e l
( s t a n d a r d 2 - 5 2 C )
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e L e v e l
( s t a n d a r d 2 - 5 2 C )
Mid Octave Band Frequency (Hz)
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S o u u d
P r e s s u r e L e v e l
( s t a n
d a r d 2 - 5 2 C )
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e L e v e l
( s t a n
d a r d 2 - 5 2 C )
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e L e v e l
( s t a n d a r d 2 - 5 2 C )
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e L e v e l
( s t a n d a r d 2 - 5 2 C )
Mid Octave Band Frequency (Hz)
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Models FDC280KXE6M, FDCS280KXE6M
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'10 • KX-DB-147
KX6 outdoor series are available with special coating
applied for not only sheet metals but also small parts in
order to prevent salt corrosion caused by sea breeze in
area along coast line (Within approximately 500m fromcoast line).
Sea breeze
Sea
CautionEven if the outdoor unit is protected with the anti-salt damage treatment, it cannot be perfectly free from rusting.
The following points should be kept in mind during installation and maintenance of the outdoor units.
Installation(1) When installing the outdoor unit close to the coastal area, provide a windbreak to protect it from direct sea breeze and
salt water splash.
(2) Select a well-drained place to install.
(3) If any scratch or damages occurred on the outdoor unit during installation, repair it carefully.
Maintenance(1) Clean salt grains on the outdoor unit with fresh water periodically.
(2) Apply rust preventive at regular intervals for maintenance depending on the conditions at the installation place(consulting with the withstanding capacity).
(3) Confirm reset of screw tap after maintenance, if missing it may cause corrosion occurred from the hole of screw tap.
(4) During prolonged non operation periods, protect the unit with covering.
Production by order
Model No.
FDCS224KXE6MFDCS280KXE6M
FDCS335KXE6M
Nominal Cooling Capacity
22.4kW28.0kW
33.5kW
2.5 Corrosion protection treatment series
Additional treatment from the standard series
Fin
pipe
Side plate
Description
undercoat: Cation electrodeposition coating
topcoat: polyester powder coating or acrylic baked coating
undercoat: Cation electrodeposition coating
topcoat: polyester powder coating or acrylic baked coating
application of anticorrosion compound
application of anticorrosion compound
Precoated Aluminum Blue Fins in high anticorrosion specification
application of anticorrosion compound
application of anticorrosion compound
application of anticorrosion compound
application of anticorrosion compound
application of anticorrosion compound
Corrosion protection treatment complies with regulation of The Japan Refrigeration and Air Conditioning Industry Association
Exterior panel
Base plate
Drain pan
Fan motor
Compressor
Accumulator
Receiver
Fan motor base
Heat exchanger
Control box
Baffle plate
Service valve bracket
Screw tap for exterior panel
Screw tap for inside of exterior panel
zinc coating + chromate treatment + fluorine coating
zinc coating + chromate treatment + fluorine coating
application of anticorrosion compound
application of anticorrosion compound
application of anticorrosion compound
Parts
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220V ~ 60Hz 220V ~ 60Hz 220V ~ 60Hz220V ~ 60Hz
0.03
0.03
0.20
0.20
0.03
0.03
0.20
0.20
0.03
0.03
0.20
0.20
0.04
0.04
0.20
0.20
(3) When wireless remote controller is used, fan is 3 speed setting(Hi-Me-Lo) only.B
P J F 0 0 0 Z 1 8 9
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1 2 -
(3) When wireless remote controller is used, fan is 3 speed setting(Hi-Me-Lo) only.B
P J F 0 0 0 Z 1 8 9
220V ~ 60Hz 220V ~ 60Hz 220V ~ 60Hz
0.14 0.14 0.14
0.14 0.14 0.14
0.45 0.45 0.45
0.45 0.45 0.45
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1 3 -
(3) When wireless remote controller is used, fan is 3 speed setting(Hi-Me-Lo) only.A
P J A 0 0 3 Z 3 7 6
220V ~ 60Hz 220V ~ 60Hz 220V ~ 60Hz 220V ~ 60Hz
0.03
0.03
0.10
0.10
0.03
0.03
0.10
0.10
0.03
0.03
0.11
0.11
0.04
0.04
0.14
0.14
0 . 0 3
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P J B 0 0 1 Z 6 3 8
220V ~ 60Hz
0.09
0.09
0.43
0.43
220V ~ 60Hz
0.09
0.09
0.43
0.43
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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A
P J C 0 0 1 Z 2 7 5
220V ~ 60Hz 220V ~ 60Hz 220V ~ 60Hz
0.07 0.07 0.07
0.07 0.07 0.07
0.29 0.29 0.29
0.29 0.29 0.29
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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A
P J C 0 0 1 Z 2 7 5
220V ~ 60Hz 220V ~ 60Hz 220V ~ 60Hz
0.07
0.29
0.07
0.29
0.07
0.29
0.07
0.29
0.07
0.29
0.07
0.29
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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1 7 -
A
P J C 0 0 1 Z 2 7 5
220V ~ 60Hz 220V ~ 60Hz 220V ~ 60Hz
0.07 0.07 0.07
0.07 0.07 0.07
0.29 0.29 0.29
0.29 0.29 0.29
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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B
P J C 0 0 1 Z 2 7 1
220V ~ 60Hz 2
0.10
0.10
0.46
0.46
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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A
P J D 0 0 1 Z 3 0 2
220V ~ 60Hz 2
1.46
1.28
6.60
5.74
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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A
P J R 0 0 2 Z 3 9 0
220V ~ 60Hz 220V ~ 60Hz 220V ~ 60Hz 220V ~ 60Hz
0.16
0.16
0.69
0.69
0.13
0.13
0.57
0.57
0.13
0.13
0.57
0.57
0.10
0.10
0.43
0.43
90(at 10 CMM) 90(at 12 CMM) 90(at 12 CMM) 90(at 14 CMM
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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A
P J R 0 0 2 Z 3 9 0
220V ~ 60Hz
0.27
0.27
1.18
1.18
220V ~ 60Hz
0.18
0.18
0.79
0.79
220V ~ 60Hz
0.17
0.17
0.74
0.74
100 (at 18 CMM) 100 (at 20 CMM) 100 (at 20 CMM)
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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A
P J M 0 0 0 Z 0 1 2
22220~60Hz
0.06
0.06
0.28
0.28
220~60Hz
0.06
0.06
0.28
0.28
220~60Hz
0.06
0.06
0.28
0.28
220~60Hz
0.06
0.06
0.28
0.28
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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A
P J M 0 0 0 Z 0 1 2
220 ~ 60Hz
0.14
0.14
0.65
0.65
220 ~ 60Hz
0.10
0.10
0.46
0.46
220 ~ 60Hz
0.10
0.10
0.46
0.46
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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2 4 -
A
P J C 0 0 1 Z 2 8 2
220V ~ 60Hz
0.07
0.07
0.29
0.29
220V ~ 60Hz
0.07
0.07
0.29
0.29
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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2 5 -
A
P HA 0 0 1 Z 0 2 8
220V ~ 60Hz
0.23
0.23
220V ~ 60Hz
0.23
0.23
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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A
P HA 0 0 1 Z 0 2 8
220V ~ 60Hz
0.23
0.23
220V ~ 60Hz
0.23
0.23
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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2 7 -
(3) When wireless remote controller is used, fan is 3 speed setting(Hi-Me-Lo) only.A
P F A 0 0 3 Z 9 0 1
220V ~ 60Hz
0.23
0.23
0.05
0.05
220V ~ 60Hz
0.23
0.23
0.05
0.05
220V ~ 60Hz
0.23
0.23
0.05
0.05
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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(3) When wireless remote controller is used, fan is 3 speed setting(Hi-Me-Lo) only.A
P F A 0 0 3 Z 9 0 1
220V ~ 60Hz
0.65
0.59
0.13
0.14
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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P GF 0 0 0 Z 0 0 6
220V ~ 60Hz
0.18
0.18
0.03
0.03
220V ~ 60Hz
0.17
0.17
0.02
0.02
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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3 0 -
A
P J D 0 0 1 Z 3 0 3
220V ~ 60Hz
0.32
0.32
1.70
1.70
220V ~ 60Hz
0.18
0.18
1.05
1.05
220V ~ 60Hz
0.13
0.13
0.70
0.70
8.5
510
14.5
870
21.5
1290
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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B
P J F 0 0 0 Z 0 5 1
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B
P J F 0 0 0 Z 0 5 2
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A
P J A 0 0 3 Z 3 3 9
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P J B 0 0 1 Z 6 3 9
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P J C 0 0 1 Z 2 7 6
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3 6 -
Ducting for outdoor air intake
180
1 8 0
P J C 0 0 1 Z 2 7 7
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180
1 8 0
Ducting for outdoor air intake
P J C 0 0 1 Z 2 7 8
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3 8 -
180
1 8 0
Ducting for outdoor air intake
P J C 0 0 1 Z 2 7 9
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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A
P J C 0 0 1 Z 1 9 4
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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4 1 -
A
P J D 0 0 1 Z 2 2 8
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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A
P J R 0 0 2 Z 2 5 4
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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A
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7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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P J M 0 0 0 Z 0 0 1
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A
P J M 0 0 0 Z 0 0 2
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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A
P J M 0 0 0 Z 0 0 3
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A
P J M 0 0 0 Z 0 0 4
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5 0 -
P J C 0 0 1 Z 2 8 3
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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5 1 -
P J C 0 0 1 Z 2 9 2
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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A
P HA 0 0 0 Z 9 8 2
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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5 4 -
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P F A 0 0 3 Z 8 2 3
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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3.4 Noise level Note (1) The data are based on the following conditions.
Ambient air tempetature: Indoor unit 27˚C DB, 19˚C WB. Outdoor unit 35˚C DB
(2) The data in the chart are measuted in an unechonic room.
(3) The noise levels measured in the field are usually higher than the data because of reflection.
(a) Ceiling cassette-4 way type (FDT)Measured based on JIS B 8616
Mike position as right
1.5m
Mike (center & low points)
Models FDT28KXE6D,36KXE6D,45KXE6D
Noise level 37 dB (A) at P-HIGH
31 dB (A) at MEDIUM
30 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u
r e
L e v e l
( s t a n d a r d
2 ×
1 0 - 5
P a )
33 dB (A) at HIGH
Model FDT56KXE6D
Noise level 39 dB (A) at P-HIGH
31 dB (A) at MEDIUM
30 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u
r e
L e v e l
( s t a n d a r d
2 ×
1 0 - 5
P a )
33 dB (A) at HIGH
Models FDT90KXE6D,112KXE6D
Noise level 51 dB (A) at P-HIGH
37 dB (A) at MEDIUM
35 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e
l
( s t a n d a r d
2 × 1 0 - 5
P a )
40 dB (A) at HIGH
Model FDT140KXE6D
Noise level 51 dB (A) at P-HIGH
40 dB (A) at MEDIUM
37 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e
l
( s t a n d a r d
2 × 1 0 - 5
P a )
42 dB (A) at HIGH
Model FDT71KXE6D
Noise level 46 dB (A) at P-HIGH
31 dB (A) at MEDIUM
30 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u
r e
L e v e l
( s t a n d a r d
2 ×
1 0 - 5
P a )
33 dB (A) at HIGH
Model FDT160KXE6D
Noise level 51 dB (A) at P-HIGH
41 dB (A) at MEDIUM
38 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e
l
( s t a n d a r d
2 × 1 0 - 5
P a )
43 dB (A) at HIGH
(b) Ceiling cassette-4 way compact type (FDTC) Note (1) Value inާި are for the heating mode. Measured based on JIS B 8616
Mike position as right
1.5m
Mike (center & low points)
Model FDTC22KXE6D
Noise level 44ާ44ިdB (A) at P-HIGH
33ާ33ިdB (A) at MEDIUM
30ާ32ިdB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o
u u d
P r e s s u r e
L e v e l
( s
t a n d a r d
2 × 1 0 - 5
P a )
35ާ35ިdB (A) at HIGH
Model FDTC28KXE6D
Noise level 44ާ44ިdB (A) at P-HIGH
33ާ33ިdB (A) at MEDIUM
30ާ32ިdB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o
u u d
P r e s s u r e
L e v e l
( s
t a n d a r d
2 × 1 0 - 5
P a )
35ާ35ިdB (A) at HIGH
Model FDTC36KXE6D
Noise level 46ާ46ިdB (A) at P-HIGH
36ާ36ިdB (A) at MEDIUM
31ާ34ިdB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o
u u d
P r e s s u r e
L e v e l
( s
t a n d a r d
2 × 1 0 - 5
P a )
38ާ38ިdB (A) at HIGH
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Note (1) Value in ާި are for the heating mode.
Model FDTC45KXE6D
Noise level 48ާ48ިdB (A) at P-HIGH
37ާ37ިdB (A) at MEDIUM
31ާ34ިdB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v
e l
( s t a n d a r d
2 × 1 0 - 5 P a
)
40ާ40ިdB (A) at HIGH
Model FDTC56KXE6D
Noise level 49ާ49ިdB (A) at P-HIGH
39ާ39ިdB (A) at MEDIUM
31ާ34ިdB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v
e l
( s t a n d a r d
2 × 1 0 - 5 P
a )
45ާ45ިdB (A) at HIGH
(c) Ceiling cassette-2 way type (FDTW)
Measured based on JIS B 8616
Mike position as below
1.5m
Mike (center & low points)
Models FDTW28KXE6D, 45KXE6D, 56KXE6D
Noise level 39 dB (A) at P-HIGH
39 dB (A) at HIGH34 dB (A) at MEDIUM
32 dB (A) at LOW
S o u u d
P r e s s u r e L e v e l ( d B )
( s t a n d a r d 2 x 1 0 - 5 P a )
Mid Octave Band Frequency (Hz)
N 3 0
N 4 0
N 2 0
N 5 0
N 6 0
N 7 0
63 125 250 500 1000 2000 4000 8000
20
30
40
50
60
70
20
30
40
50
60
70
Models FDTQ22KXE6D,28KXE6D
Noise level 45 dB (A) at P-HIGH
38 dB (A) at MEDIUM
33 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5
P a )
41 dB (A) at HIGH
Model FDTQ36KXE6D
Noise level 45 dB (A) at P-HIGH
38 dB (A) at MEDIUM
33 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5
P a )
41 dB (A) at HIGH
Measured based on JIS B 8616
Mike position as below
1.5m
Mike (center & low points)
(d) Ceiling cassette-1 way compact type (FDTQ)
(e) Ceiling cassette-1 way type (FDTS)
Measured based on JIS B 8616
Mike position as below
1.5m
Mike (center & low points)
Model FDTS45KXE6D
Noise level 44 dB (A) at P-HIGH
38 dB (A) at MEDIUM
36 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d P
r e s s u r e
L e v e l
( s t a n d a
r d
2 × 1 0 - 5
P a )
43 dB (A) at HIGH
Model FDTS71KXE6D
Noise level 45 dB (A) at P-HIGH
38 dB (A) at MEDIUM
36 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d P
r e s s u r e
L e v e l
( s t a n d a
r d
2 × 1 0 - 5
P a )
44 dB (A) at HIGH
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(f) Duct connected-High static pressure type (FDU)
1.5m
Measured based on JIS B 8616
Mike position as right
• Power level
(Measurement conditions: JIS-B8616,
measurement location: reverberation chamber)
(Unit: dB)
Outlet side
75
76
Inlet side
64
65
MODEL
FDU224KXE6D
FDU280KXE6D
Note (1) Values are for external static pressure of 200Pa
S o u u d
P r e s s u r e L e v e l ( d B )
( s t a n d a r d 2 x 1 0 - 5 P a )
Mid Octave Band Frequency (Hz)
N 6 0
63 125 250 500 1000 2000 4000 8000
N 5 0
N 40
N 30
N 2 0
40
50
10
20
30
60
40
50
10
20
30
60
N 1 0
Model FDU224KXE6DNoise level 51 dB (A) at HIGH
S o u u d
P r e s s u r e L e v e l ( d B )
( s t a n d a r d 2 x 1 0 - 5 P a )
Mid Octave Band Frequency (Hz)
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Model FDU280KXE6DNoise level 52 dB (A) at HIGH
1.5m
(g) Duct connected-Low/Middle static pressure type (FDUM)
Measured based on JIS B 8616
Mike position as right
Model FDUM22KXE6DNoise level 35 dB (A) at P-HIGH
31 dB (A) at MEDIUM
28 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u
u d
P r e s s u r e
L e v e l
( s t
a n d a r d
2 × 1 0 - 5
P a )
33 dB (A) at HIGH
Model FDUM140KXE6DNoise level 41 dB (A) at P-HIGH
36 dB (A) at MEDIUM33 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d P
r e s s u r e
L e v e l
( s t a n d a
r d
2 × 1 0 - 5
P a )
38 dB (A) at HIGH
Models FDUM28KXE6D,36KXE6DNoise level 35 dB (A) at P-HIGH
31 dB (A) at MEDIUM
28 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u
u d
P r e s s u r e
L e v e l
( s t
a n d a r d
2 × 1 0 - 5
P a )
34 dB (A) at HIGH
Model FDUM71KXE6D
Noise level 38 dB (A) at P-HIGH
32 dB (A) at MEDIUM29 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n
d a r d
2 × 1 0 - 5 P a )
35 dB (A) at HIGH
Model FDUM90KXE6D
Noise level 38 dB (A) at P-HIGH
33 dB (A) at MEDIUM30 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a
n d a r d
2 × 1 0 - 5 P a )
36 dB (A) at HIGH
Models FDUM45KXE6D,56KXE6DNoise level 36 dB (A) at P-HIGH
32 dB (A) at MEDIUM
29 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u
u d
P r e s s u r e
L e v e l
( s t
a n d a r d
2 × 1 0 - 5
P a )
35 dB (A) at HIGH
Model FDUM112KXE6D
Noise level 41 dB (A) at P-HIGH
35 dB (A) at MEDIUM32 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n
d a r d
2 × 1 0 - 5 P a )
37 dB (A) at HIGH
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Models FDUT22KXE6D,28KXE6D
(1) Rear air returnMike position : 1.5m bwlow the unit
Noise level 29 dB (A) at HIGH
24 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5
P a )
26 dB (A) at MEDIUM
Model FDUT56KXE6D
Noise level 36 dB (A) at HIGH
31 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5
P a )
34 dB (A) at MEDIUM
Model FDUT36KXE6DNoise level 33 dB (A) at HIGH
28 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5
P a )
31 dB (A) at MEDIUM
Model FDUT45KXE6DNoise level 35 dB (A) at HIGH
28 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5
P a )
32 dB (A) at MEDIUM
Models FDUT22KXE6D,28KXE6D
Mike position : 1.5m in front and 1m below of the air supply duct
Noise level 37 dB (A) at HIGH
30 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5 P a )
34 dB (A) at MEDIUM
Model FDUT56KXE6DNoise level 44 dB (A) at HIGH
37 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S
o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5 P a )
40 dB (A) at MEDIUM
Model FDUT36KXE6DNoise level 39 dB (A) at HIGH
33 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5 P a )
35 dB (A) at MEDIUM
Model FDUT45KXE6DNoise level 42 dB (A) at HIGH
34 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o
u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5 P a )
38 dB (A) at MEDIUM
Measured based on JIS B 8616 ANNEX3 (Duct setting)Mike position as right
1m
Unit
Supply ductReturn duct
2m
Measured based on JIS B 8616 ANNEX3 (Duct setting)Mike position as right
1m
1 m
1.5m
1m
Unit
Supply ductReturn duct
2m
Air
Air
(h) Duct connected (thin)-Low static pressure type (FDUT)
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Models FDUT22KXE6D,28KXE6D
Noise level 39 dB (A) at HIGH
32 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5 P a )
36 dB (A) at MEDIUM
Model FDUT56KXE6D
Noise level 48 dB (A) at HIGH
43 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5 P a )
45 dB (A) at MEDIUM
Model FDUT36KXE6D
Noise level 43 dB (A) at HIGH
37 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5 P a )
40 dB (A) at MEDIUM
Model FDUT45KXE6D
Noise level 44 dB (A) at HIGH
36 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5 P a )
41 dB (A) at MEDIUM
Models FDUT22KXE6D,28KXE6D
Mike position : 1.5m in front and 1m below of the air supply duct
Noise level 38 dB (A) at HIGH
31 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5
P a )
35 dB (A) at MEDIUM
Model FDUT56KXE6D
Noise level 46 dB (A) at HIGH
40 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S
o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5
P a )
42 dB (A) at MEDIUM
Model FDUT36KXE6D
Noise level 42 dB (A) at HIGH
36 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5
P a )
39 dB (A) at MEDIUM
Model FDUT45KXE6D
Noise level 43 dB (A) at HIGH
35 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5
P a )
40 dB (A) at MEDIUM
1.5m
Unit
Supply duct
Air
2m
Measured based on JIS B 8616 ANNEX3 (Duct setting)Mike position as right
Unit
Supply duct
2m
Measured based on JIS B 8616 ANNEX3 (Duct setting)Mike position as right
1m
1 m
Air
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(i) Duct connected-Compact and Flexible type (FDUH)
1.5m
Measured based on JIS B 8616
Mike position as right
Models FDUH22KXE6D,28KXE6D
Noise level 39 dB (A) at P-HIGH
30 dB (A) at MEDIUM27 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5 P a )
33 dB (A) at HIGH
Model FDUH36KXE6D
Noise level 39 dB (A) at P-HIGH
30 dB (A) at MEDIUM27 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5 P a )
33 dB (A) at HIGH
(j) Wall mounted type (FDK)
Measured based on JIS B 8616
Mike position as right 1m
Unit
Mike
(Center & low points) 1 m
Models FDK22KXE6D,28KXE6D
Noise level 38ާ38ިdB (A) at P-HIGH
33ާ33ިdB (A) at MEDIUM
31ާ31ިdB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 -
5
P a )
35ާ35ިdB (A) at HIGH
Model FDK36KXE6D
Noise level 48ާ42ިdB (A) at P-HIGH
35ާ35ިdB (A) at MEDIUM
31ާ31ިdB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
Note (1) Value in ާި are for the heating mode.
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 -
5
P a )
41ާ39ިdB (A) at HIGH
cooling heating
Model FDK56KXE6D
Noise level 48ާ47ިdB (A) at P-HIGH
42ާ42ިdB (A) at MEDIUM
37ާ37ިdB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5 P a )
46ާ46ިdB (A) at HIGH
cooling
heating
Model FDK71KXE6D
Noise level 48ާ48ިdB (A) at P-HIGH
43ާ43ިdB (A) at MEDIUM
39ާ39ިdB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5 P a )
47ާ47ިdB (A) at HIGH
Model FDK45KXE6D
Noise level 48ާ43ިdB (A) at P-HIGH
37ާ37ިdB (A) at MEDIUM
33ާ33ިdB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 -
5
P a )
42ާ42ިdB (A) at HIGH
cooling heating
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Models FDE36KXE6D,45KXE6D,56KXE6D
Noise level 46 dB (A) at P-HIGH
38 dB (A) at MEDIUM
36 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e L e v e l
( s t a n d a r d
2 × 1 0 - 5 P
a )
39 dB (A) at HIGH
Model FDE140KXE6D
Noise level 50 dB (A) at P-HIGH
44 dB (A) at MEDIUM
43 dB (A) at LOWN 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5
P a )
46 dB (A) at HIGH
Model FDE71KXE6D
Noise level 50 dB (A) at P-HIGH
39 dB (A) at MEDIUM
37 dB (A) at LOWN 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5
P a )
41 dB (A) at HIGH
Model FDE112KXE6D
Noise level 46 dB (A) at P-HIGH
41 dB (A) at MEDIUM
39 dB (A) at LOWN 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d
2 × 1 0 - 5
P a )
44 dB (A) at HIGH
(k) Ceiling suspended type (FDE)
Measured based on JIS B 8616
Mike position as below
1m
Mike (front & low point)
1mUnit
Model FDFW28KXE6D
Noise level 36 dB (A) at HIGH
34 dB (A) at MEDIUM
30 dB (A) at LOW
Model FDFW 45KXE6D
Noise level 38 dB (A) at HIGH
36 dB (A) at MEDIUM
33 dB (A) at LOW
(l) Floor standing-2 way type (FDFW)
Measured based on JIS B 8616Mike position as right
1m
Mike (front & at low point)
1m
Indoor unit
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0 S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d 2
x 1 0 - 5 P a )
Mid Octave Band Frequency (Hz)
Model FDFW56KXE6D
Noise level 44 dB (A) at HIGH
37 dB (A) at MEDIUM
33 dB (A) at LOW
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0 S o u u d
P r e s s u r e
L e v e l
( s t a n d a r d 2
x 1 0 - 5 P a )
Mid Octave Band Frequency (Hz)
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 40
N 30
N 2 0
6060
N 1 0 S o u u d
P r e s
s u r e
L e v e l
( s t a n d a r d 2
x 1 0 - 5 P a )
Mid Octave Band Frequency (Hz)
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1.5m
Unit
Mike
(at center & below unit)
Measured based on JIS-B 8616
Mike position as right
(m) Outdoor Air Processing unit (FDU-F)
(1) Standard (Factory setting) Note (1) Values are for external static pressure of 200Pa.
Model FDU500FKXE6DNoise level 45 dB (A)
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
Model FDU850FKXE6DNoise level 48 dB (A)
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
Model FDU1300FKXE6DNoise level 50 dB (A)
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
Model FDU1800FKXE6D
Noise level 52 dB (A)
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
Outlet side Inlet side Outlet side Inlet side
• Power level (Measurement conditions : JIS-B8616,measurement location : reverberation chamber)
68
71
57
60
MODEL
FDU500FKXE6D
FDU850FKXE6D
(Unit: dB)
73
74
62
63
MODEL
FDU1300FKXE6D
FDU1800FKXE6D
Note (1) Values are for external static pressure of 200Pa.
(2) When the controller kit is used (Option : U-FCRB) Note (1) Values are for external static pressure of 100Pa.
Model FDU500FKXE6D
Noise level 40 dB (A)
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
Model FDU850FKXE6D
Noise level 43 dB (A)
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 800010
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
Noise level 45 dB (A)Model FDU1300FKXE6D
Noise level 47 dB (A)
N 6 0
40
50
40
50
63 125 250 500 1000 2000 4000 8000
10
20
30
10
20
30
N 5 0
N 4 0
N 30
N 2 0
6060
N 1 0
Mid Octave Band Frequency (Hz)
Model FDU1800FKXE6D
Outlet side Inlet side Outlet side Inlet side
63
66
52
55
MODEL
FDU500FKXE6D
FDU850FKXE6D
(Unit: dB)
73
74
62
63
MODEL
FDU1300FKXE6D
FDU1800FKXE6D
• Power level (Measurement conditions : JIS-B8616,measurement location : reverberation chamber)
Note (1) Values are for external static pressure of 100Pa. (Models FDU1300, 1800FKXE6D : 200Pa)
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'10 • KX-DB-147
E x t e r n a l s t a t i c
p r e s s u r e
( P a )
Models FDTQ22KXE6D,28KXE6D,36KXE6D
0
10
20
30
40
4 5 6 7 8 9 10 11
Air flow (m3 /min)
L o w
M e d i u m
H
i g h
P - H i g
h
U p p e
r l i m
i t
3.5 Characteristics of fan(a) Ceiling cassette-1 way compact type (FDTQ)
(Only when FDTQ22, 28 and 36 model are used for the Duct panel)
(b) Duct connected-Low/Middle static pressure (FDUM)
• External static pressure table How to interpret the blower characteristics table
Example : Case of FDUM71KXE6D
Model
Duct specs.
1 spot closing Standard Square ductAir flow
(m3 /min)
10
12
14
18
20
28
34
90
90
90
100
100
100
100
75
75
90
100
105
105
105
Unit : Pa
E x t e r n a l s t a t i c
p r e s s u r e
( P a )
Air flow (m3 /min)
Notes(1) 1 spot closing: Round duct flange at center is removed and shield with a
special panel (option).
(2) Standard: ø200 duct are installed at all blowout holes.
(3) Square duct: All round ducts are removed and replaced with special
square duct flanges (option).
-
-
-
85
80
90
90
FDUM22
FDUM28,36
FDUM45,56
FDUM71
FDUM90
FDUM112
FDUM140
Ԙ 2-spot blowout
Internal static pressure increases more than
the standard 3-spot blowout.Approx.
14Pa at 17m3/min
ԙ Square duct blowout
Internal static pressure decreases more than
the standard round duct (ø200 3-spot).
3Pa at 17m3/min. (External static
pressure increases in reverse.)
(1) (2) (3)
2016 1813 14
40
20
0
-10
-20
Square duct blower intermalresistance.
L o w
M e d i u m
[Standard]
3-spot blower internal resistance
2-spot blower internal resistance
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'10 • KX-DB-147
Model FDUM22KXE6D
Air flow(m3 /min)
Lowerlimit
Upperlimit
100
80
60
40
20
0
-20
8 10 12
E x t e r n a l s t a t i c p r e s s u r e ( P a )
E x t e r n a l s t a t i c p r e s s u r e ( P a )
Models FDUM28KXE6D,36KXE6D
P - H
i g h
H i g h
L o w
Square duct blower internal resistance
Air flow(m3 /min)
Lowerlimit
Upperlimit
100
80
60
40
20
0
-20
10 12 14
U p p e r
l i m i t
[Standard]2-spot blower internal resistance
M e d i u m
Square duct blower internal resistance
[Standard]2-spot blower internal resistance
P - H i g h
H i g h
U p p e r
l i m i t
M e d i u m
L o w
Model FDUM71KXE6D
2016 1813 14
Lowerlimit
Upperlimit
Air flow(m3 /min)
120
100
80
60
40
20
0
-10
-20
E x t e r n a l s t a t i c
p r e s s u r e ( P a )
Square duct blower intermalresistance.
U p p e r
l i m i t
H i g h
L o w
M e d i u m
P - H i g h
[Standard]
3-spot blower internal resistance
2-spot blower internal resistance
Models FDUM45KXE6D,56KXE6D
100
120
80
60
40
20
0
-10Square duct blower intermalresistance.
10 12 14 15.5
Lower
limit
Upper
limit
E x t e r n a l s t a t i c
p r e s s u r e ( P a )
U p p e r l i
m i t
H i g h
L o w
M e d i u m
P - H
i g h
[Standard]2-spot blower internal resistance
Air flow (m3 /min)
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'10 • KX-DB-147
Model FDUM112KXE6D
343125 2821
Lower
limit
Upper
limit
Air flow (m3 /min)
U p p e r l i m
i t
L o w
M e d i u m
H i g h
P - H i g h
E x t e r n a l s t a t i c p r e s s u r e ( P a )
120
100
80
60
40
20
0
-10
Square duct blower intermalresistance
[Standard] 4-spot blower internal resistance
3-spot blower internal resistance
Model FDUM90KXE6D
U p p e r
l i m i t
H i g h
L o w
M e d i u m
P - H i g h
2317 2014
Lower
limit
Upper
limit
Air flow(m3 /min)
E x t e r n a l s t a t i c p r e s s u r e ( P a )
120
100
80
60
40
20
0
-10
Square duct blower intermalresistance.
[Standard]3-spot blower internal resistance
2-spot blower internal resistance
Model FDUM140KXE6D
3834302624
Lower
limit
Upper
limit
Air flow (m3 /min)
U p p e r l
i m i t
H i g h
L o w
M e d i u m
P - H i g h
E x t e r n a l s t a t i c
p r e s s u r e ( P a )
120
100
80
60
40
20
0
-10Square duct blower intermalresistance
[Standard] 4-spot blower internal resistance
3-spot blower internal resistance
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'10 • KX-DB-147
(c) Duct connected-High static pressure type (FDU) Note 1) Factory default setting of fan speed is [STANDARD] which has standard static pressure.
If high static pressure setting is requied, change setting to [HIGH SPEED 1] whit remote controller on site.
(Regarding the setting method, refer to the user ,s manual of remote controller for detall)
2) When setting up high static pressure, do not operate the unit under the condition of 60Pa or lower of the external static pressure.
3) The fan speed of this model can be switched between two speeds.
Model FDU224KXE6D
■Standard (Factory Settings)
Model FDU280KXE6D
■Standard (Factory Settings)
045 50 55 60
6665
50
100
150
200
S t a t i c
p r e
s s u r e
( P a )
Upperlimit
Lowerlimit
Standard
Air flow(m3 /min)
Example
of duct
High
Low
060 65 70 75 80 85 88
50
100
150
200
S t a t i c p
r e s s u r e
( P a )
Example
of duct
High
Low
Upper
limit
Lower
limit
Standard
Air flow(m3
/min)
(d) Duct connected (thin)-Low static pressure type (FDUT)
0
10
20
30
40
4.5 5 6 7 7.5 8 8.3Lowerlimit
Upperlimit
Standard
E x t e r n a l S t a t i c p r e s s u r e ( P a )
Air flow (m3 /min)
Models FDUT22KXE6D,28KXE6D
H i g h
L o w
M e d i u m
5 5.4 6 7 8 98.5 9.4Lowerlimit
Upperlimit
Standard
Air flow (m3 /min)
Model FDUT36KXE6D
0
10
20
30
40
E x t e r n a l S t a t i c p r e s s
u r e ( P a )
H i g h
M e d i u m
L o w
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'10 • KX-DB-147
Model FDUT45KXE6D
10
0
20
30
40
45
50
7.2 8 9 10 11 12 13.2Lowerlimit
Upperlimit
Standard
E x t e r n a l s t a t i c p r e s s u r e ( P a )
Air flow (m3 /min)
H i g h
M e d i u
m L o w
Model FDUT56KXE6D
10
0
20
30
40
45
50
7.7 8 9 10 11 12 12.5 13 13.8Lowerlimit
Upperlimit
Standard
E x t e r n a l s t a t i c p r e s s u r e ( P a )
Air flow (m3 /min)
H i g h M
e d i u
m
L
o w
(e) Duct connected-Compact and Flexible type (FDUH)
0
10
20
30
40
4 5 6 7 8 9 10
E x t e r
n a l S t a t i c
p r e s s u r e
( P a )
Air flow (m3 /min)
Models FDUH22KXE6D,28KXE6D,36KXE6D
H i g h
P
- H i g h
L o w
M e d i u m
U p p e
r l i m
i t
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'10 • KX-DB-147
(1) Standard (Factory Settings)
Air flow (m3 /min)Upper
limit
200
180
160
140
120
100
80
60
40
20
014.5 15 15.5 16 16.5 17 17.5 18
Model FDU850FKXE6D
E x t e r
n a l s t a i c p r e s s u r e ( P a )
E x t e r n
a l s t a i c p r e s s u r e ( P a )
Air flow (m3 /min) Upper
limit
8.5 9.59 10 10.5
160
180
120
140
200
100
20
40
60
80
0
Model FDU500FKXE6D
Lower
limit
Standard
( )Lower
limit
Standard
( )
(f) Outdoor air processing unit (FDU-F)
2221.5
2423 25 26 2827
160
180
120
140
200
100
20
40
60
80
0
Model FDU1300FKXE6D
E x t e r n a l s t a t i c p
r e s s u r e ( P a )
Air flow (m3 /min)Upperlimit
30 333231 34 35 36 37 38
160
180
120
140
200
100
20
60
80
0
40
Model FDU1800FKXE6D
E x t e r n a l s t a t i c p r e s s u r e ( P a )
Air flow (m3 /min)Upperlimit
Lowerlimit
Standard
( )Lowerlimit
Standard
( )
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'10 • KX-DB-147
(2) When the fun controller kit is used (Option : U-FCRB)
Note (1) Number in an open circle in each property chart indicates the volume No. of the fan controller. Volume numbers not described
in the charts are not usable because they are out of the operational flow rate range.
200
180
160
140
120
100
80
60
40
20
014.5 15 15.5 16 16.5 17 17.5 18
• Condition of standard rating
rated air Volume : 100Pa
E x t e r n a l s t a t i c
p r e s s u r e
( P a )
Lowerlimit
Standard
( ) Air flow (m3 /min)Upper
limit
FDU850FKXE6D
8.5 9.59 10 10.5
160
180
120
140
200
100
20
40
60
80
0
• Condition of standard rating
rated air Volume : 100Pa
E x t e r n a l s t a t i c
p r e s s u r e
( P a )
Standard
(Lowerlimit ) Air flow (m3 /min)
Upperlimit
FDU500FKXE6D
2221.5
2423 25 26 2827
160
180
120
140
200
100
20
40
60
80
0
7
6
5
4
8
30 333231 34 35 36 37 38
160
180
120
140
200
100
20
60
80
0
40
8
7
6
5
• Condition of standard rating
rated air Volume : 100Pa
• Condition of standard rating
rated air Volume : 100Pa
E x t e r n a l s t a t i c
p r e s s u r e
( P a )
E x t e r n a l s t a t i c
p r
e s s u r e
( P a )
Air flow (m3 /min)Upper
limit Air flow (m3 /min)Upper
limit
FDU1300FKXE6D FDU1800FKXE6D
Standard
Lower
limit( )
Standard
Lower
limit( )
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'10 • KX-DB-147
3.6 Temperature and velocity distribution(a) Ceiling cassett-4 way type (FDT)
Models FDT28, 36, 45, 56, 71KXE6D
15 1518 18
21 21
24 24
1.5 1.51.2 1.2
0.9 0.90.6 0.6
0.3 0.3
35 35
32 32
29 29
2623 26 23
1.5 1.51.2 1.2
0.9 0.9
0.6 0.6
0.3 0.3
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'10 • KX-DB-147
Model FDT71KXE6D
1.2
1.5
0.90.6
0.3
1.2
1.5
0.9
0.6
0.3
15 1518 18
21 21
24 24
35 35
32 32
29 29
2623 26 23
1.5 1.5
1.2 1.2
0.9 0.9
0.6 0.6
0.3 0.3
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'10 • KX-DB-147
Models FDT90, 112, 140, 160KXE6D
15 1518 18
21 21
24 24
1.5 1.51.2 1.20.9 0.9
0.6 0.6
0.3 0.3
35 35
32 32
29 29
2623 26 23
1.5 1.5
1.2 1.2
0.90.9
0.6 0.60.3 0.3
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'10 • KX-DB-147
(b) Ceiling cassette-4 way-compact type (FDTC)
Models FDTC22, 28KXE6D
1515
18 1821 21
24 24
0.9 0.90.6 0.6
0.3 0.3
35 35
32 32
29 29
2623
2623
0.9 0.9
0.6 0.6
0.3 0.3
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'10 • KX-DB-147
Model FDTC36KXE6D
15 1518 18
21 21
24 24
0.9 0.90.6 0.6
0.3 0.3
35 35
32 32
29 2926
23 2623
0.9 0.9
0.60.6
0.30.3
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'10 • KX-DB-147
Model FDTC45KXE6D
15 1518 18
21 21
24 24
0.9 0.90.6 0.6
0.3 0.3
35 35
32 32
29 2926
23
2623
0.9 0.9
0.6 0.6
0.3 0.3
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'10 • KX-DB-147
Model FDTC56KXE6D
15 1518 18
21 21
24 24
0.9 0.90.6 0.6
0.3 0.3
35 35
32 32
29 29
2623
26
23
0.9 0.9
0.6 0.60.3 0.3
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'10 • KX-DB-147
(c) Ceiling cassette-2 way type (FDTW)
Models FDTW28, 45, 56KXE6D
15 1518 1821 21
24 24
0.91.5 1.5
0.90.6 0.6
0.3 0.3
35 3532 32
29 29
26
23
26
23
0.9 0.9
0.6 0.6
0.3 0.3
1.51.2 1.2
1.5
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'10 • KX-DB-147
(d) Ceiling cassette-1 way compact type (FDTQ)
Models FDTQ22, 28, 36KXE6D
15 18
2124
1.5
1.00.5
35
32
29
26 23
1.00.5
1.5
2.0
2.0
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'10 • KX-DB-147
(e) Ceiling cassette-1 way type (FDTS)
Model FDTS45KXE6D
15
18
21
24
1.5
1.0
0.5
35
32
29
26 23
1.00.5
1.5
2.0
2.0
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'10 • KX-DB-147
Model FDTS71KXE6D
15
18
21
24
1.5
1.0
0.5
35
32
29
26
23
1.0
0.5
1.5
2.0
2.0
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'10 • KX-DB-147
(f) Wall Mounded type (FDK)
Models FDK22, 28KXE6D
1518
21
24
1.51.0
0.5
35
32
2926 23
1.00.5
1.5
2.0
2.0
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'10 • KX-DB-147
Models FDK36, 45KXE6D
1518
21
24
1.51.0
0.5
35
32
2926
23
1.0
0.5
1.5
2.0
2.0
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'10 • KX-DB-147
Model FDK56KXE6D
1518
21
24
1.5
1.0 0.5
35
32
2926
23
1.00.5
1.52.0
2.0
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'10 • KX-DB-147
Model FDK71KXE6D
1518
21
24
1.5
1.0
0.5
35
3229
26
23
1.00.5
1.5
2.0
2.0
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'10 • KX-DB-147
(g) Ceiling Suspended type (FDE)
Models FDE36, 45, 56KXE6D
15 1821
24
1.51.0
0.5
35
32
29 26
23
1.00.5
1.5
2.0
2.0
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'10 • KX-DB-147
Model FDE71KXE6D
1518
21
24
1.5
1.0 0.5
35
32
2926
23
1.0
0.5
1.5
2.0
2.0
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
Model FDE112KXE6D
1518
21
24
1.51.0
0.5
35
32
29 26
23
1.00.5
1.5
2.0
2.0
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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- 113 -
'10 • KX-DB-147
Model FDE140KXE6D
1518
21
24
1.5 1.00.5
35
32
29 26
23
1.0
0.5
1.5
2.0
2.0
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
http://slidepdf.com/reader/full/10-kx-db-147-vrf-inverter-multi-system-air-conditioners-220v-fdc224-fdc335 117/324
- 114 -
'10 • KX-DB-147
(h) Floor standing-2 way type (FDFW)
Model FDFW28KXE6D
1518
2124
1.51.0 0.5
35 3229 26
23
1.00.5
1.5
2.0
2.0
18
15
2.0
3529
3226
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
http://slidepdf.com/reader/full/10-kx-db-147-vrf-inverter-multi-system-air-conditioners-220v-fdc224-fdc335 118/324
- 115 -
'10 • KX-DB-147
Model FDFW45KXE6D
1518
2124
1.51.0 0.5
35 3229 26
23
1.00.5
1.5
2.0
2.0
18
2.0
3529
3226
15
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
http://slidepdf.com/reader/full/10-kx-db-147-vrf-inverter-multi-system-air-conditioners-220v-fdc224-fdc335 119/324
- 116 -
'10 • KX-DB-147
Model FDFW56KXE6D
1518
21 24
1.51.0 0.5
35 3229
26
23
1.00.5
1.52.0
2.0
15
3529
32
26
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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- 117 -
'10 • KX-DB-147
3.7 Capacity tables(a) Ceiling cassette-4 way type (FDT)
PJF000Z193
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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- 118 -
'10 • KX-DB-147
PJF000Z193
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJF000Z193
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJF000Z193
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJF000Z193
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJF000Z193
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJF000Z193
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJF000Z193
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJF000Z193
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
(b) Ceiling cassette-4 way compact type (FDTC)
PJA003Z378
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJA003Z378
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJA003Z378
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'10 • KX-DB-147
PJA003Z378
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'10 • KX-DB-147
PJA003Z378
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'10 • KX-DB-147
(c) Ceiling cassette-2 way type (FDTW)
PJB001Z645
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJB001Z645
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJB001Z645
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
(d) Ceiling cassette-1 way compact type (FDTQ)
PJC001Z297
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJC001Z297
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'10 • KX-DB-147
PJC001Z297
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'10 • KX-DB-147
(e) Ceiling cassette-1 way type (FDTS)
PJC001Z296
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJC001Z296
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
(f) Duct connected-High static pressure type (FDU)
PJD001Z307
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
(g) Duct connected-Low/Middle static pressure type (FDUM)
PJR002Z392
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJR002Z392
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJR002Z392
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJR002Z392
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJR002Z392
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJR002Z392
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJR002Z392
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJR002Z392
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJR002Z392
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
(h) Duct connected (thin)-Low static pressure type (FDUT)
PJM000Z013
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJM000Z013
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJM000Z013
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJM000Z013
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJM000Z013
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
(i) Duct connected-Compact and Flexible type (FDUH)
PJC001Z298
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJC001Z298
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PJC001Z298
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
(j) Wall mounted type (FDK)
PHA001Z036
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PHA001Z036
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PHA001Z036
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PHA001Z036
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PHA001Z036
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PHA001Z036
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
(k) Ceiling suspended type (FDE)
PFA003Z903
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PFA003Z903
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PFA003Z903
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PFA003Z903
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PFA003Z903
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'10 • KX-DB-147
PFA003Z903
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'10 • KX-DB-147
(l) Floor standing-2 way type (FDFW)
PGF000Z007
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PGF000Z007
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
PGF000Z007
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
(m) Outdoor air processing unit type (FDU-F)
PJD001Z308
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'10 • KX-DB-147
PJD001Z308
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PJD001Z308
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'10 • KX-DB-147
PJD001Z308
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'10 • KX-DB-147
RANGE OF USAGE & LIMITATIONS
Indoor unitOutdoor unit
Indoor unitOutdoor unit
First branch
5 0 m
M A X .
1 8 m
M A X .
1 8 m
M A X .
1 8 m
M A X .
1 8 m
M A X .
1 8 m
( O u t d o o r u n i t i s l o w e r : 4 0 m )
5 0 m
M A X .
1 8 m
( O u t d o o r u n i t i s l o w e r : 4 0 m )
A t t h e m o s t , 1 3 0 m o r l e s s
A t t h e m o s t , 1 3 0 m o r l e s s
(Lowest indoor unit)
(Lowest indoor unit)
At the most, 90 m or less
40 m or less (2)
40 m or less (2)
At the most, 90m or less
(Highest indoor unit)
(Highest indoor unit)
First branch
(Header)
denotes
Allowable length of refrigerant piping, height difference between indoor and outdoor unit
(1) Branch pipe method (using branch piping)
(2) Header System (Header used)
Note (1) A branch piping system cannot be connected after a header system.(2) 90m or less (However, difference between the longest and shortest piping : 40m or less)(3) The indoor unit of 224 or 280 capacity cannot be connected to the header.
System FDC280KXE6M
FDCS280KXE6M
FDC335KXE6M
FDCS335KXE6M
Please see the next page.
1 to 19 unit 1 to 22 unit1 to 15 unit
Item
Indoor intake air temperature
(Upper, lower limits)
Outdoor air temperature
(Upper, lower limits)
Single direction piping length Actual length : 160m or less, Eguivalent length : 185m or less
Total piping length
Main pipe length
510m or less
130m or less
90m or less (However, difference between the longest and shortest piping : 40m or less)
6 min or more (3 minutes or more from start to stop or 3 minutes or more from stop to start)
3 min or more
Within 10% of rated voltage
50m or less
40m or less
18m or less
Allowable pipe length from the first branching
18m or lessElevation difference between the first branching point and the indoor unit
Number of connected units
Connectable capacity (1)
FDC224KXE6M
FDCS224KXE6M
112 ~ 336 140 ~ 420 167 ~ 502
Outdoor unit is higher
Outdoor unit is lower
Indoor units
that can be
used incombination
Difference in
height betweenindoor and outdoor
units
Difference in the elevation of indoor units in a system
Indoor unit atmosphere (behind ceiling)
temperature and humidity
Only models FDT, FDTC, FDTW, FDTS, FDTQ,
FDU, FDUM, FDUH
1 cycle time
Stop time
Voltage fluctuation
Phase unbalance
Compressor
stop/ start
frequency
Power sourcevoltage
Voltage drop during start
Dew point temperature 28 or less, relative humidity 80% or less
(FDE, FDK : Dew point temperature 23 or less, relative humidity 80% or less)
Within 3% of rated voltage
Within 15% of rated voltage
Note (1) If one or more indoor units of FDK, FDFL, FDFU and/or FDFW seris are connected to the system, the total connecting capacity of indoor units should not exceed 130%.
(2) If superlink I (previous superlink) is selected, all the range of usage and limitations, not only the limitations of connectable indoor capacityand connectable number of indoor unit but also of the piping length, operating temperature range and etc., become same as those of KX4
(See technical manual '07 - KX - KXR-T-114). In addition to above limitations, all of new functions for KX6 such as automatic addresssetting function for multiple refrigerant systems and etc. will be cancelled.
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4340
35
30
25
20
0
-5
-15
2624
27
25
20
15
10
-15-20-25 -10 -5 0 5 10 15
14 16 18 20 22
Applicable range
Outdoor air W.B. temperature ̊ C W.B.
Indoor air W.B. temperature ̊ C W.B.
H e a t i n g o p e r a t i o n
I n d o o r a i r D . B .
t e m p e r a t u r e
˚ C
D . B .
C o o l i n g o p e r a t i o n
O u t d o o r a i r D . B .
t e m p e r a t u r e
˚ C
D . B .
“CAUTION” Cooling operation under low outdoor air temperature conditions
KXE6 models can be operated in cooling mode at low outdoor air temperature condition within above temperature range. However
in case of severely low temperature conditions if the following precaution is not observed, it may not be operated in spite of operable
temperature range mentioned above and cooling capacity may not be established under certain conditions.
[Precaution]
In case of severely low temperature condition
1) Install the outdoor unit at the place where strong wind cannot blow directly into the outdoor unit.
2) If there is no installation place where can prevent strong wind from directly blowing into the outdoor unit, prepare a windbreak
fence or something like that locally in order to divert the strong wind from the outdoor unit.
[Reason]
Under the low outdoor air temperature conditions of -5 or lower, if strong wind directly blow into the outdoor unit, the outdoor heat
exchanger temperature will drop, even though the outdoor fan is stopped by outdoor fan control. This makes high and low pressuresto drop as well. This low pressure drop makes the indoor heat exchanger temperature to drop and will activate anti-frost control at
indoor heat exchanger at frequent intervals, that cooling operation may not be established for any given time.
Note (1) A branch piping system cannot be connected after a header system.(2) 90m or less (However, difference between the longest and shortest piping : 40m or less)
(3) The indoor unit of 224 or 280 capacity cannot be connected to the header.
(3) Mixed System (Branch piping and Header used)
(Highest indoor unit)
(Lowest indoor unit)MAX.90m(2)
MAX.90m(2)
MAX.130m
(Header)
( O u t d o o r u n i t i s l o w e r : 4 0 m )
5 0 m
First branch
M A X . 1 8 m
M A X . 1
8 m
M A X . 1
8 m
Indoor unit
Ⅱ
Outdoor unit
Ⅵ
Ⅴ
Ⅳ
Ⅲ
Ⅰ
MAX.40m(2)
Operating temperature range
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SELECTION CHART(1) Equipment selection flow
Indoor unit
capacity (tentative)Indoor Load
Total indoor unitcapacity System Capacity
YES
YES
YES
NO
NO
NO
Select an indoor unit that matches the indoor load (tentative).
Calculate the total indoor unit capacity.
Indoor unitcapacity Indoor Load
Equipment selection complete.
Change the outdoor unit.
Calculate the temperature compensation,
then calculate the indoor unit capacity.
(See item (2) (a) for the calculation method.)
Calculate temperature compensation and piping
compensation, etc., then calculate the outdoor unit
capacity. (See item (2) (b) for the calculation method.)
Select the outdoor unit (tentative).
Calculate the system capacity
(See item (2) (c) for the calculation method.)
Calculate the indoor unit capacity.
(See item (2) (d) for the calculation method.)
Calculate the load for each room separately, then determine the indoor load.
Change the indoor unit.
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(2) Capacity calculation method
(a) Calculating the indoor unit capacity compensation
Indoor unit capacity (cooling, heating) = Indoor unit total rated capacity
× Capacity compensation coef ficient according to temperature conditions
See item (3) (a) concerning the capacity compensation coef ficient according to temperature conditions.
(b) Calculating the outdoor unit capacity compensationOutdoor Unit Capacity (Cooling, Heating) = Outdoor unit rated capacity (rated capacity when 100% connected)
× Capacity compensation coef ficient according to temperature conditions
× Capacity compensation coef ficient according to piping length
× Capacity compensation coef ficient according to height difference
× Correction of heating capacity in relation to the frost on the outdoor unit
heat exchanger
× Capacity compensation coefficient according to indoor unit connection
capacity
See item (3) (a) concerning the capacity compensation coef ficient according to temperature conditions.
See item (3) (c) concerning the capacity compensation coef ficient according to piping length.
See item (3) (d) concerning the capacity compensation coef ficient according to height difference. This compensation
should be carried out only in cases where the outdoor unit is lower during cooling and higher during heating.See item (3) (e) correction of heating capacity in relation to the frost on the outdoor unit heat exchanger. This compen-
sation should be carried out only when calculating the heating capacity.
See item (3) (f) concerning the capacity compensation coef ficient according to indoor unit connected capacity. This
compensation should be carried out only in cases where the indoor unit total capacity is 100% or higher.
(c) Calculating system capacity
Compare the capacities determined in items (a) and (b) above and let the smaller value be the system capacity (cooling,
heating).
In cases where indoor unit total capacity (cooling, heating) > outdoor unit capacity (cooling, heating)
System capacity (cooling, heating) = Outdoor unit capacity (cooling, heating)
In cases where indoor unit total capacity (cooling, heating) < outdoor unit capacity (cooling, heating)
System capacity (cooling, heating) = Indoor unit capacity (cooling, heating)
(d) Calculating indoor unit capacity [item (c) 1 only]Indoor unit capacity (cooling, heating) = System capacity (cooling, heating)
× [(Indoor unit capacity) / (Indoor unit total capacity)]
Capacity calculation examples
Example 1
Cooling (when the indoor unit connected total capacity is less than 100%)
• Outdoor unit FDC224KXE6M .................................................... 1 Unit
• Indoor unit FDT56KXE6D ......................................................... 3 Units
• Piping length .............................................................................. 60 m (Equivalent length)
• Indoor, outdoor unit height difference ........................................ 15 m (Outdoor unit is lower)
• Temperature conditions .................... .......................................... Outdoor temperature: 33˚C DB
• Temperature conditions ............................................................... Indoor temperature: 19˚C WB
<Indoor unit total cooling capacity>: Item (2) (a) calculation.• Indoor unit rated cooling capacity: 5.6 kW
• Capacity compensation coef ficient according to temperature conditions:
1.02 (Calculated according to Indoor 19˚C WB / Outdoor 33˚C DB); (See page 181)
Indoor unit cooling capacity: 5.6 kW × 1.02.=. 5.7 kW
• Indoor unit total cooling capacity calculation;
indoor unit total cooling capacity: 5.7 kW × 3 units = 17.1 kW
<Outdoor unit maximum cooling capacity> : Item (2) (b) calculation• Outdoor unit rated cooling capacity: 22.4 kW
• Capacity compensation coef ficient according to temperature conditions:
1.02 (Calculated according to Indoor 19˚C WB / Outdoor 33˚C DB); (See page 181)
Outdoor unit cooling capacity: 22.4 kW × 1.02.=. 22.8 kW
• Capacity compensation coef ficient according to piping length: 0.92 (calculated according to 60 m length); (See page 183)
22.8 kW × 0.92.=. 21.0 kW
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• Capacity compensation coef ficient according to height difference: 0.97 (calculated according to 15 m difference); (See page 184)
21.0 kW × 0.97.=. 20.4 kW
• Capacity compensation coef ficient according to indoor unit connected total capacity: 1.0 (56 × 3) / 224 < 100%)
No compensation
<System cooling capacity>: Item (2) (c) calculationCompare the indoor unit total cooling capacity and the outdoor unit maximum cooling capacity. The smaller value is the actual
system cooling capacity.• Indoor unit total cooling capacity: 17.1 kW
• Outdoor unit maximum cooling capacity: 20.4 kWE System cooling capacity: 17.1 kW
<Indoor unit capacity compensation> No compensation (5.7 kW)
Example 2
Cooling (when the indoor unit connected total capacity is 100% or higher)
• Outdoor unit FDC224KXE6M .................................................... 1 Unit
• Indoor unit FDT56KXE6D ......................................................... 5 Units
• Piping length .............................................................................. 60 m (Equivalent length)
• Indoor, outdoor unit height difference ........................................ 15 m (Outdoor unit is higher)
• Temperature conditions .................... .......................................... Outdoor temperature: 35˚C DB
• Temperature conditions ............................................................... Indoor temperature: 18˚C WB
<Indoor unit total cooling capacity>: Item (2) (a) calculation.• Indoor unit rated cooling capacity: 5.6 kW
• Capacity compensation coef ficient according to temperature conditions:
0.95 (Calculated according to Indoor 18˚C WB / Outdoor 35˚C DB); (See page 181)
Indoor unit cooling capacity: 5.6 kW × 0.95.=. 5.3 kW
• Indoor unit total cooling capacity calculation;
indoor unit total cooling capacity: 5.3 kW × 5 units.=. 26.5 kW
<Outdoor unit maximum cooling capacity> : Item (2) (b) calculation• Outdoor unit rated cooling capacity: 22.4 kW
• Capacity compensation coef ficient according to temperature conditions:
0.95 (Calculated according to Indoor 18˚C WB / Outdoor 35˚C DB); (See page 181)
Outdoor unit cooling capacity: 22.4 kW × 0.95.=. 21.3 kW
• Capacity compensation coef ficient according to piping length: 0.92 (calculated according to 60 m length); (See page 183)
21.3 kW × 0.92 .=. 19.6 kW
• Capacity compensation coef ficient according to height difference: 1.0 (the outdoor unit is higher during cooling)
No compensation
• Capacity compensation coef ficient according to indoor unit connected total capacity: 1.08 (56 × 5) / 224.=. 125%) (See page 184)
19.6 kW × 1.08.=. 21.2 kW
<System cooling capacity>: Item (2) (c) calculationCompare the indoor unit total cooling capacity and the outdoor unit maximum cooling capacity. The smaller value is the actual
system cooling capacity.
• Indoor unit total cooling capacity : 26.5 kW
• Outdoor unit maximum cooling capacity : 21.2 kWE System cooling capacity: 21.2 kW
<Indoor unit cooling capacity Compensation>: Item (2) (d) calculation.21.2 kW × 5.3 kW 4.2 kW
26.5 kW
Example 3
Heating (when the indoor unit connected total capacity is 100% or higher)
• Outdoor unit FDC224KXE6M .................................................... 1 Unit
• Indoor unit FDT56KXE6D ......................................................... 5 Units
• Piping length .............................................................................. 60 m (Equivalent length)
• Indoor, outdoor unit height difference ........................................ 20 m (Outdoor unit is higher)
• Temperature conditions .................... .......................................... Outdoor temperature: 6˚C WB
• Temperature conditions ............................................................... Indoor temperature: 19˚C DB
<Indoor unit total heating capacity>: Item (2) (a) calculation.• Indoor unit rated heating capacity: 6.3 kW
• Capacity compensation coef ficient according to temprature conditions:
1.04 (Calculated according to Outdoor 6˚C WB / Indoor 19˚C DB); (See page 182)Indoor unit heating capacity: 6.3 kW × 1.04
.=. 6.6 kW
• Indoor unit total heating capacity calculation;
indoor unit total heating capacity: 6.6 kW × 5 units.=. 33.0 kW
.=.
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<Outdoor unit maximum heating capacity> : Item (2) (b) calculation• Outdoor unit rated heating capacity: 25.0 kW
• Capacity compensation coef ficient according to temperature conditions:
1.04 (Calculated according to Outdoor 6˚C WB / Indoor 19˚C DB); (See page 182)
Outdoor unit heating capacity: 25.0 kW × 1.04 = 26.0 kW
• Capacity compensation coef ficient according to piping length: 0.982 (calculated according to 60 m length); (See page 183)
26.0 kW × 0.982.=. 25.5 kW
• Capacity compensation coef ficient according to height difference: 0.96 (calculated according to 20 m difference); (See page 184)
25.5 kW × 0.96.=. 24.5 kW
• Correction of heating capacity in relation to the frost on the outdoor unit heat exchanger:
1.0 (calculated according to 6˚C WB); (See page 184)
24.5 kW × 1.0.=. 24.5 kW.
• Capacity compensation coef ficient according to indoor unit connected total capacity: 1.0 (56 × 5) / 224.=. 125%) (See page 184)
24.5 kW × 1.0.=. 24.5 kW.
<System heating capacity>: Item (2) (c) calculationCompare the indoor unit total heating capacity and the outdoor unit maximum heating capacity. The smaller value is the actual
system heating capacity.
• Indoor unit total heating capacity : 33.0 kW
• Outdoor unit maximum heating capacity : 24.5 kWE System heating capacity: 24.5 kW
<Indoor unit heating capacity compensation> (Item (2) (d) calculation24.5 kW × 6.6 kW
4.9 kW33.0 kW
.=.
(3) Capacity compensation coefficient
(a) Capacity compensation coefficient and power consumption compensation coefficient according to in-
door and outdoor temperature conditions.
1) Capacity compensation coefficient
4Cooling
Indoor air W.B. temperature 14˚CWB
Indoor air W.B. temperature 15˚CWB
Indoor air W.B. temperature 16˚CWB
Indoor air W.B. temperature 17˚CWB
Indoor air W.B. temperature 18˚CWB
Indoor air W.B. temperature 19˚CWB
Indoor air W.B. temperature 20˚CWB
Indoor air W.B. temperature 21˚CWB
Indoor air W.B. temperature 22˚CWB
Indoor air W.B. temperature 24˚CWB
Indoor air W.B. temperature 26˚CWB
Outdoor air D.B. temperature (˚CDB)
C a p a c i t y c o
m p e n s a t i o n c o n e f f i c i e n t
0.70
0.75
0.80
0.85
0.90
0.95
1.00
1.05
1.10
1.15
1.20
1.25
1.30
1.35
1.40
0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42
Note (1) The above-mentioned table shows a typical condition among conditions to occur via controlling an air-conditioning equipment.
(2) When performing the cooling operation with the outdoor air temperature being -5°C or under, a windbreak fence must beinstalled.
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2) Power consumption correction factor
Outdoor air W.B. temperature -20˚CWBOutdoor air W.B. temperature -15˚CWB
Outdoor air W.B. temperature -10˚CWB
Outdoor air W.B. temperature -6˚CWB
Outdoor air W.B. temperature -2˚CWB
Outdoor air W.B. temperature 2˚CWB
Outdoor air W.B. temperature 6˚CWB
Outdoor air W.B. temperature 14˚CWB
Outdoor air W.B. temperature 10˚CWB
Outdoor air W.B. temperature 18˚CWB
C a p a c i t y c o m p e n s a t i o n c o e f f i c i e
n t
16
4Heating
0.55
0.60
0.65
0.70
0.75
0.80
0.85
0.90
0.95
1.00
1.05
1.10
1.15
1.20
17 18 19 20 21 22 23 24
Indoor air D.B. temperature(˚CDB)
Indoor air W.B. temperature 14˚CWBIndoor air W.B. temperature 15˚CWB
Indoor air W.B. temperature 16˚CWB
Indoor air W.B. temperature 17˚CWB
Indoor air W.B. temperature 18˚CWB
Indoor air W.B. temperature 19˚CWB
Indoor air W.B. temperature 20˚CWB
Indoor air W.B. temperature 21˚CWB
Indoor air W.B. temperature 22˚CWB
Indoor air W.B. temperature 24˚CWB
Indoor air W.B. temperature 26˚CWB
P o w e r c o n s u m p t i o n c
o m p e n s a t i o n c o e f f i c i e n t
0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42
4Cooling
0.50
Outdoor air D.B. temperature(˚CDB)
0.55
0.60
0.65
0.70
0.75
0.80
0.85
0.90
0.95
1.00
1.05
1.10
1.15
1.20
1.25
1.25
Note (1) The above-mentioned table shows a typical condition among conditions to occur via controlling an air-conditioning equipment.
Note (1) The above-mentioned table shows a typical condition among conditions to occur via controlling an air-conditioning equipment.
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Outdoorair W.B. temperature 18˚CWB
Outdoor air W.B.temperature -15˚CWB
Outdoor air W.B.temperature 10˚CWB
Outdoor air W.B. temperature 14˚CWBOutdoor air W.B. temperature -20˚CWB
Outdoor air W.B. temperature -2˚CWB
Outdoor air W.B. temperature -6˚CWB
Outdoor air W.B. temperature 6˚CWB
Outdoor air W.B. temperature 2˚CWB
Outdoor air W.B. temperature -10˚CWB
16 17 18 19 20 21 22 23 24
Indoor air D.B. temperature(˚CDB)
P o w e r c o n s u m p t i o n c o m p e n s a t i o n c o e
f f i c i e n t
0.70
0.75
0.80
0.85
0.90
0.95
1.00
1.05
1.10
1.15
1.20
1.25
4Heating
Note (1) The above-mentioned table shows a typical condition among conditions to occur via controlling an air-conditioning equipment.
(c) Correction of cooling and heating capacity in relation to one way length of refrigerant piping.(Note) This table is for reference only. If the refrigerant piping one way equivalent after the first branch is extended longer than 40 m, it could
drop further by about 10% in the worst case.
1) Cooling
Liquid line:φ9.52
Gas line:φ19.05Liquid line:φ12.7
Gas line:φ22.22
00.80
0.85
0.90
0.95
1.00
20 40 60 80 90 100 120 140 160 180
Models : FDC224KXE6M, FDCS224KXE6M
Models : FDC335KXE6M, FDCS335KXE6M
C a p a c i t y c o m p e n s a t i o n
c o e f f i c i e n t
00.90
0.92
0.96
0.94
0.98
1.00
20 40 60 80 100 120 140 160 180
All models
C a p a c i t y c o m p e n s a t i o n
c o e f f i c i e n t
Refrigerant piping one way equivalent length (m)
Liquid line:φ9.52
Gas line:φ22.22
Liquid line:φ12.7
Gas line:φ25.4
00.80
0.85
0.90
0.95
1.00
20 40 9060 80 100 120 140 160 180
Models : FDC280KXE6M, FDCS280KXE6M
C a p a c i t y c o m p e n s a t i o n
c o e f f i c i e n t
Refrigerant piping one way equivalent length (m)Refrigerant piping one way equivalent length (m)
Liquid line:φ12.7
Gas line:φ25.4
Liquid line:φ12.7
Gas line:φ28.58
0.80
0.85
0.90
0.95
1.00
0 20 40 60 80 100 120 140 160 180
C a p a c i t y c o m p e n s a t i o n
c o e f f i c i e n t
Refrigerant piping one way equivalent length (m)
2) Heatling
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(e) Correction of heating capacity in relation to the frost on the outdoor unit heat exchanger
(d) When the outdoor unit is located at a lower height than the indoor unit in cooling operation and when the outdoor unit is located at a higher height than the indoor unit in heating operation, the following values
should be subtracted from the values in the above table.
The correction factors will change drastically according to weather conditions. So necessary adjustment should be
made empirically according to the weather data of the particular area.
Note (1) Equivalen t piping length can be obtained by calculating as follows.
Equivalent piping length = Real gas piping length + Number of bends in gas piping sEquivalent piping length of bends.
Equivalent length of each joint
F12.7
0.20
F9.52
0.15
F15.88
0.25
F19.05
0.30
F22.22
0.35
F25.4
0.40
F28.58
0.45
F31.8
0.55
Unit : m/one part
Height difference between the indoor unit and
outdoor unit in the vertical height difference
Adjustment coefficient
15 m
0.97
10 m
0.98
5 m
0.99
20 m
0.96
25 m
0.95
30 m
0.94
Height difference between the indoor unit and
outdoor unit in the vertical height difference
Adjustment coefficient
45 m
0.91
40 m
0.92
35 m
0.93
50 m
0.90
(f) The capacity compensation coefficient and power consumption compensation coefficient vary
according to the total capacity of concurrently operating indoor units, as shown below.
-11
0.95
-13
0.96
-20
0.96
-15
0.96
-9
0.94
-7
0.93
-5
0.91
-3
0.88
-1
0.86
1
0.87
3
0.92
5 or more
1
Outdoor air °C W.Btemperature
Adjustment coefficient
(Note) This table shows typical values.
CoolingCapacity compensation coefficient
Models : FDC224KXE6M, 280KXE6M, FDCS224KXE6M, 280KXE6M
C a p a c i t y c o m p e n s a t i o n
c o e f f i c i e n t
P o w e r c o n s u m p t i o n
c o m p e n s a t i o n c o e f f i c i e n t
Total capacity of concurrently operating indoor units (%)
Heating
C a p a c i t y c o m p e n s a t i o n
c o e f f i c i e n t
Total capacity of concurrently operating indoor units (%)
Total capacity of concurrently operating indoor units (%)
Power consumption compensation coefficient
Cooling
P o w e r c o n s u m p t i o n
c o m p e n s a t i o n c o e f f i c i e n t
Total capacity of concurrently operating indoor units (%)
Heating
0 20 40 60 80 100 1200
0.2
0.4
0.6
0.8
1.0
1.2
0 20 40 60 80 100 1200
0.2
0.4
0.6
0.8
1.0
1.2
0 2010 30 50 70 90 110 13040 60 80 100 1200
0.2
0.4
0.6
0.8
1.0
1.2
0 2010 30 50 70 90 110 13040 60 80 100 1200
0.2
0.4
0.6
0.8
1.0
1.2
(Note) If the connecting capacity of the indoor unit exceeds 130%, consider the connecting capacity as 130%.
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CoolingCapacity compensation coefficient
Models : FDC335KXE6M, FDCS335KXE6M
C a p a c i t y c o m p e n s a t i o n
c o e f f i c i e n t
P o w e r c o n s u m p t i o n
c o m p e n s a t i o n c o e f f i c i e n t
Total capacity of concurrently operating indoor units (%)
Heating
C a p a c i t y c o m p e n s a t i o n
c o e f f i c i e n t
Total capacity of concurrently operating indoor units (%)
Total capacity of concurrently operating indoor units (%)
Power consumption compensation coefficient
Cooling
P o w e r c o n s u m p t i o n
c o m p e n s a t i o n c o e f f i c i e n t
Total capacity of concurrently operating indoor units (%)
Heating
0 20 40 60 80 100 1200
0.2
0.4
0.6
0.8
1.0
1.2
0 20 40 60 80 100 1200
0.2
0.4
0.6
0.8
1.0
1.2
0 2010 30 50 70 90 110 13040 60 80 100 1200
0.2
0.4
0.6
0.8
1.0
1.2
0 2010 30 50 70 90 110 13040 60 80 100 1200
0.2
0.4
0.6
0.8
1.0
1.2
(Note) If the connecting capacity of the indoor unit exceeds 130%, consider the connecting capacity as 130%.
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Pressure switch setting value
Solenoid valve operation
Name Setting value
High pressure switch (63H1-1)
[For protection]4.15 open/3.15 close (MPa)
Name Control content
SV6
SV1
At inverter accumulator start : Open
During under-dome temperature control : Open
During discharge temperature control : Open
Thermistor (Tho-D1)
Thermistor (Tho-A)
Thermistor (Tho-R1, R2)
Thermistor (Tho-S)
Thermistor (Tho-SC)Thermistor (Tho-H)
Thermistor (Tho-C1)
: For
: For
: For
: For
: Sub: Sub
: Und
Function of thermistor
Low pressure sensor (PSL)
High pressure sensor (PSH)
Thermistor (ThI-R1,R2)
(ThI-R3)
: Compressor control
Protection
0.18 ON/0.236 OFF (MPa)
Error
0.134 ON/0.18 OFF (MPa)
: Compressor controlProtection
Cooling : 3.70 ON (MPa)
Heating : 3.00 ON (MPa)
: Heating operation : Indoor fan control
Cooling operation : Frost prevention
Superheat control
: Cooling superheat control
Gas piping
Check valve
4-way switching solenoid
Service valve
Service valveLiquid piping
ø9.52Stepping motor
(for electronic expansion valve)
Stepping motor(for electronic expansion valve)
To next unit by turn
Strainer
Strainer
Strainer
Strainer
Strainer
Thermistor (Outlet)
(ThI-R3)
Thermistor (Return air)
(ThI-A)
(Tho-SC)
(EEVSC)
(Tho-C1)
(Tho-D1)
(63H1-1)
(PSH)
SV1
Thermistor (Inlet)
(ThI-R2)
Thermistor (Outlet)
(ThI-R3)
Thermistor (Return air)
(ThI-A)
Thermistor (Inlet)
(ThI-R2)
Thermistor (Heat exchanger)
(ThI-R1)
(ThI-R1)
Oil
separator
Thermistor (Heat exchanger)
Outdoor unit
Strainer
Strainer Receiver
Super-cooling coil Thermistor 1 Sub-cooling coil
Super-cooling coil expansion valve
Fusibleplug
Under-dome thermistor
SV6
Capillary
tube
Discharge pipe Thermistor
(PSL)
Low pressure sensor
(THo-S)
Suction pipe thermistor
High pressure switch
Check joint
High pressure sensor
Capillary tube
(Tho
Super-cooling c
Solenoid valve (oil return)
H
Check joint
A c c u m u l a t o r
Strainer
224: ø19.05
280: ø22.22
H e
a t e x c h a n g e r
H e a t e x c h a n g e r
Indoor unit A
Indoor unit B
C o m p r e s s o r
(Liguid injection return)
Solinoid valve
( )
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Pressure switch setting value
Solenoid valve operation
Name Setting value
High pressure switch (63H1-1)
[For protection]4.15 open/ 3.15 close (MPa)
Name Control content
SV6
SV1
At inverter accumulator start : Open
During under-dome temperature control : Open
During discharge temperature control : Open
Thermistor (Tho-D1)
Thermistor (Tho-A)
Thermistor (Tho-R1,R2)
Thermistor (Tho-S)
Thermistor (Tho-SC)
Thermistor (Tho-H)
Thermistor (Tho-C1)
: For
: For h
: For
: For
: Sub
: Sub
: Und
Function of thermistor
Low pressure sensor (PSL)
High pressure sensor (PSH)
Thermistor (ThI-R1,R2)
(ThI-R3)
: Compressor control
Protection
0.18 ON/0.236 OFF (MPa)
Error
0.134 ON/0.18 OFF (MPa): Compressor control
Protection
Cooling : 3.70 ON (MPa)
Heating : 3.00 ON (MPa)
: Heating operation : Indoor fan control
Cooling operation : Frost prevention
Superheat control
: Cooling superheat control
Gas piping
ø25.4
Check valve
Service valve
Service valveLiquid piping
ø12.7
Stepping motor(for electronic expansion valve)
Stepping motor(for electronic expansion valve)
To next unit by turn
Strainer
Strainer
Strainer
Strainer
Strainer
Thermistor (Outlet)
(ThI-R3)
Thermistor (Return air)
(ThI-A)
(Tho-SC)
(EEVSC)
(Tho-C1)
(Tho-D1)
(63H1-1)
(PSH)
Thermistor (Inlet)
(ThI-R2)
Thermistor (Outlet)
(ThI-R3)
Thermistor (Return air)
(ThI-A)
Thermistor (Inlet)
(ThI-R2)
Thermistor (Heat exchanger)
(ThI-R1)
Thermistor (Heat exchanger)
(ThI-R1)
Oil
separator
Outdoor unit
Strainer
Strainer Receiver
Sub-cooling coil
Fusibleplug
Capillary
tube
Discharge pipe Thermistor
(PSL)
Low pressure sensor
(THo-S)
High pressure switch
Check joint
High pressure sensor
Capillary tube
(Tho-H
H
Check
joint
A c c u m u l a t o r
Strainer
H e a t e x c h a n g e r
H e a t e x c h a n g e r
C o m p r e s s o r
Strainer
Indoor unit A
Indoor unit B
SV6(Liguid injection return)
Solinoid valve
Under-dome thermistor
4-way switching solenoid
SV1Solenoid valve (oil return)
SV11Solenoid valve (oil return)
Suction pipe Thermistor
Super-cooling co
Super-cooling coil Thermistor 1
Super-cooling coil expansion valve
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'10 • KX-DB-147
APPLICATION DATA7.1 Installation of indoor unit
APJF012D016
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'10 • KX-DB-147
(a) Ceiling cassette-4way type (FDT) APJF012D016
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'10 • KX-DB-147
Indoor Unit
Ceiling surface
Level gauge(inserted into the unit)
Ceiling opening
dimensions
20+40
Keep the distance between 20~24mm.
Exceeding the range of distance
may cause failure etc.
① Before installation
③ Removing the air return grille
Accessories
Follow installation manual careully, and install the panel properly.
Check the ollowing items.
Accessories
Accessories holding position
Note: Accessories are laid in the position removing the corner panel.
1.
2.
④ Removing a corner panel
Corner panel
⑤Orientation of the panel installation
Control box
Refrigerant pipes Drain pipe
Caution
WARNING
Bolt
Strap
4 pieces
4 pieces
For panel installation
For avoiding the corner panel rom alling
② Checking the indoor unit installation position
or details.)⑥ Attaching the panel
<Removal>
Stopper
Pull the corner panel towardthe direction indicatedby
the arrow and remove it. (Same way or all our
corner panels)
Take note that there is an orientation to install the panel.
Attach the panel wit h the orientati on shown on the ri ght.
CAUTION
PIPE SIDEDRAIN
PANEL INSTALLATION MANUAL
Read this manual together with the indoor unit’s installation manual.
⑦ Electrical wiring
Unit’s hook
Panel’s fixing hanger
Hook
hanger
Screws of
Panel switch
control box cover
Refrigerant pipes Drain pipe
Connectorfor louver motor (white) Clamps of unit main body
To Panel switch
CNV (red)
⑥ Attaching the panel
1. Temporary attaching
Lit up the hanger (2 places) on the panel or temporary support.
Hang the panel on the hook on the indoor unit.
2. Fix the panel on the indoor unit
Fasten the panel on the indoor unit with the our bolts supplied with the panel.
Caution
Improperly tightened hanging bolts can causethe
problemslistedbelow,so make sure that youhave
tightened them s ecurely.
Air leakage
Air leakage along
the ceiling
Fouling
Dew condensation or dripping Make sure no gap is left here.
Caution
PipeSide Drain
PIPE SIDE DRAIN
Fasten the wiring to the terminal securely and hold the cable securely so as not to apply
unexpected stress on the terminal.Loose connection or hold will cause abnormal heat generation or fire.
Make sure the power supply is turned off when electric wiring work.
Otherwise, electric shock, malfunction and improper running may occur.
Read this manual together with the air conditioner installation manual careully.
Check i the opening size or the indoor unit is correct with the level gauge supplied in the indoor unit.
Check i the gap between the ceiling plane and the indoor unit is correct by ins erting the level gauge into the air
outlet port o the indoor unit. (See below drawing)
Adjust the installation elevation i necessary.
I there is a height dierence beyond the design limitbetween the installation level o the indoor unit and theceiling plane, the panel may be subject to excessivestress during installation, it may cause distortion anddamage.
Align the “PIPE SIDE” mark (on t he panel) with the
rerigerant pipes on the indoor unit.
Align the “DRAIN” mark (on the panel) wit h the drain
pipe on the indoor unit.
In case the orientation o the panel isnot correct, it will lead to air leakageand also it is not possible to connectthe louver motor wiring.
I thereis a gap remainingbetween theceilingand the decorat ive panel even ater thehanging bolts are tightened,adjust theinstallation level o the indoor unit again.
It is possible to adjust the installation height o the indoor unit with the panel attached as longas there is no infuence on the drain pipe inclination and/or the indoor unit levelness.
To adjust finely, please turn a nut fastening the indoor unit
using a spanner or similar tool from the opening on the corner.
Make sure there is no stress given on the panel when adjusting the height o the indoorunit to avoid unexpected distortion. It may cause the distortion o panel or ailing toclose the air return grille.
•
•
•
•
• •
•
•
•
•
•
•
•
•
•
•
•
•
•
The installation level o the indoor unit can be adjusted nely
rom the opening provided on the corner, even ater panel is attached.
(Reer to
Hold the stoppers on the air return grille (2 places) toward
OPEN direction, open the air return grille.
Remove the hooks o the air return grille rom the decorative
panel while it is in the open position.
1. Ater removing three screws o control box, detach the cover o control box (the hatched part).
2. Connect the connector or louver motor (white 20P).
• Hold the wiring by using the clamps o the indoor unit.
• Hold the connector inside the control box.
3. Connect the connector or panel switch.
• Hold the wiring by using the clamps o the indoor unit.
• Connect CNV (red) inside the control box.
CAUTION
I the air return grill is opened, thepanel switch is turned o so that theair-conditioner cannot be operated anymore.To start the air conditioner, close theair return grill.
•
•
APJF012D003A
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'10 • KX-DB-147
Horizontal 0°
43
Vertical airfow direction
Dimension L (mm)
Downwards 45°
26 It can be set between 26~43mm reely.
A
a
I it is necessary to x the louver position manually, ollow the procedure mentioned below.
1. Shut o the main power switch.
2.
3.
⑧ Attaching a corner panel
Louver motorLouver
Louver motorConnector
<Range o louver setting>
Caution
⑩ Attaching the air return grille
To attach the air return grille, ollow the procedure described in in the reverse order.
1.
2.
③ Removing the air return grille
<Installation>
Closing direction
Position for hanging hinges
Caution
•
•
•
Attaching the air return grille rom the hinge side.
Be careul in air return grille attaching, unstable attaching may cause grille alling.
Repair or replace the distorted, broken stopper at once, or the grille alling may occur.
1 Stop the air conditioner and press SET
buttonand LOUVER buttonsimultaneously
for three seconds or more.
“ ”
“ ”
“ ”
“ ”
2 Press S or T button.(selection of indoor unit)
[EXAMPLE]
“ ”⇔“ ”⇔“ ”⇔
“ ”
3 Press SET button . ( determinati on of
indoor unit)
[EXAMPLE]
“ ”
“ ”
“ ”
4 Press S or T button. (selection of louver No.)
[EXAMPLE]
“ ”⇔ “ ”⇔ “ ”⇔
“ ”
5 Press SET button. (Determin ati on of
louver No.)
[EXAMPLE] If No.1 louver is selected,
“ ” current upper limit position
6 Press S or T
S T
button. (selection of upper limit
position)
“ ” (the most horizotal)
⇔ “ ”
⇔ “ ”
⇔ “ ”
⇔ “ ”
⇔ “ ” (the most downwards)
⇔ “ ” (return to the deault setting)
No. 4
No. 2
No. 1 No. 3 b
l o r t n o C
o x
Louver No.
It is possible to change the movable range o the louver on the air outlet rom the wired remote controller. Once the top and bottom positionis set, the louver will swing within the range between the top and the bottom when swing operation is chosen. It is also possible to applydierent setting to each louver.
NOTICE
•
(downwards)
(horizontal)
the position of the louver7 Press SET bu tton (Fixing of the upper
limit position)
[EXAMPLE]
8 P re ss o r butt on ( Se le ct io no f l ow er l im it
position)
9 P res s SET b ut to n (F ixi ng o f t he l o we r lim it
position)
[Example]
(displayed or two seconds)
10Press button.
ATTENTION
Lowerposition
Movablerange
Upperposition
When plural remote controllers are connected, louver setting operation cannot be set by slave remote controller.
Caution
1. To avoid unexpected alling o the corner panel, put the strap onto the corner panel’s pin with turning the strap up.
2. Then hang the strap o a corner panel onto the decorative panel’s pin.3. First insert the part “a” o a corner panel into the part “A” o the decorative panel, and then engage our hooks.
Pin
Pin
For FDT type, in case the louver No to be set is uncertain, set any louver
temporarily. The louver will swing once when the setting is completed and it
is possible to conrm the louver No and the position.
Ater that, choose the correct louver No and set the top and bottom
position.
The louver No. to be set is conrmed and the display shows the upper limit o the movable range.
“position --” is to return to the actory setting. I you need tochange the setting to the deault setting, use “position --”.
(displayed or two seconds)
(shows current setting)
⑨ How to set the airflow direction
• Ater the setting is completed, the louver which was set movesrom the original position to the lower limit position, and goesback to the original position again. (This operation is notperormed i the indoor unit and/or indoor unit an is in operation.)
Upperlimitposition andlower limit positionare xed,andthe setpositions are displayed or two seconds, then setting is completed.
I the upper limit position number and the lower limit position number are set to the same position, the louver is fxed at thatposition auto swing does not untion.
I youpress RESETbuttonduring settings,thedisplay willreturn toprevious display. Iyoupressbutton during settings, the mode will be ended and return to original display, and the settings that have not beencompleted will become invalid.
Unplug the connector o the louver motor which you want to x the position. Make sure to ins ulate unplugged
connectors electrically with a vinyl t ape.
Adjust the louver position slowly by hand so as to be within the applicable range mentioned below table.
Any automatic control or operation rom the remote controller will be disabled on the louver whoseposition is xed in the above way.
Do not set a louver beyond the specied range.Failure to observe this instruction may result indripping, dew condensation, the ouling o the ceiling and the malunctioning o the unit.
Piping side Drain hose side
•
•
Select the lower limit position o louver.“position1” is themost horizontal, and“position 6 ”is the mostdownwards.“position --” is to return to the actory setting. I you need tochange the setting to the deault setting, use “position --”.
Theupper l imi t posi t ion is xed andthe sett ing posi t ion isdisplayed ortwo seconds.Then proceedto lower limit position
selection display.
Select the upper limit o louver movable range.“position1”is themost horizontal,and “position 6” is themostdownward.
(the most horizontal)
(the most horizontal)
(return to the deault setting)
Louver adjusting mode ends and returns to the original display.
Hang the hooks o the air return grille in the hole o the panel. (The hooks o the grille can be hanged in three sideo the panel as ollowing.)
Ater the grille is hanged, close the grille while the stoppers on the grille (2 places) are kept pressed to “OPEN”direction. When the grille comes to the original position, release the stoppers to hold the grille. Make sure to hear thesound o “CLICK” in both stoppers.
Control box
Panel switch
The grill may be
installed at one ofthese three sides.
The grill cannot beinstalled at this side.
Select the indoor unit o which the louver is set.
Select the louver No. to be set according to the right gure.
Selected indoor unit is xed.
(displayed or two seconds)
The ollowingis displayedithe numbero theindoorunitsconnected to the remote controller is one. Go to step 4.
The ollowingis displayedi the numbero the indoorunitsconnected to the remote controller are more than one
• This function is not able to be set with wireless remote controls or simple remote control (RCH-H3).
• For setting the swing range of other louvers, return to 1 and proceed same procedure respectively.
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① Before installation
z Install correctly according to the installation manual.z Confirm the following points:cUnit type/Power supply specification c Pipes/Wires/Small parts c Accessory items
Accessory itmeFor unit hanging For refrigerant pipe For draom pipe
Flat washer(M10)
Level gauge(Insulation)
Pipe cover(big)Pipe cover
(small)S tr ap P ip e c ov er (b ig ) P ip e c ov er (s ma ll ) D ra in h os e H os e c la mp
8 4 1 1 4 1 1 1 1
For unit hangingFor adjustmentin hoisting in theunit's main body
For heatinsulationof gas pipe
For heatinsulationof liquid tube
For pipe coverfixing
For heatinsulationof drain socket
For heatinsulationof drain socket
For drain pipeconnecting
For drain hosemounting
② Selection of installation location for the indoor unit
1Select the suitable areas to install the unit under approval of the user.x Areas where the indoor unit can deliver hot and cold wind sufficiently. Suggest to the user to use
a circulator if the ceiling height is over 3m to avoid warm air being accumulated on the ceiling.x Areas where there is enough space to install and service.x Areas where it can be drained properly. Areas where drain pipe descending slope can be taken.x Areas where there is no obstruction of airflow on both air return grille and air supply port.x Areas where fire alarm will not be accidentally activated by the air conditioner.x Areas where the supply air does not short-circuit.
x Areas where it is not influenced by draft air.x Areas not exposed to direct sunlight.x Areas where dew point is lower than around 28°C and relative humidity is lower than 80%.
This indoor unit is tested under the condition of JIS (Japan Industrial Standard) high humiditycondition and confirmed there is no problem. However, there is some risk of condensation dropif the air conditioner is operated under the severer condition than mentioned above.If there is a possibility to use it under such a condition, attach additional insulation of 10 to20mm thick for entire surface of indoor unit, refrigeration pipe and drain pipe.
x Areas where TV and radio stays away more than 1m. (It could cause jamming and noise.)x Areas where any items which will be damaged by getting wet are not placed such as food, table
wares, server, or medical equipment under the unit.x Areas where there is no influence by the heat which cookware generates.x Areas where not exposed to oil mist, powder and/or steam directly such as above fryer.x Areas where lighting device such as fluorescent light or incandescent light doesn’t affect the
operation.(A beam from lighting device so metimes affects the infrared receiver for the wireless remotecontroller and the air conditioner might not work properly.)
2Check if the place where the air conditioner is installed can hold the weight of the unit. If it is notable to hold, reinforce the structure with boards and beams strong enough to hold it. If the strengthis not enough, it could cause injury due to unit falling.
3 If there are 2 units of wireless type, keep them away for more than 5m to avoid malfunction due tocross communication.
4When plural indoor units are installed nearby, keep them away for more than 4m.
Space for installation and service
z When it is not possible to keep enough space between indoor unit and wall or between indoor units,close the air supply port where it is not possible to keep space and confirm there is no short circuitof airflow.
z Install the indoor unit at a height of more than 2.5m above the floor.
tinuroodnItinuroodnI
Wall
Ceiling
surface
Decorative panel
1000mm or more
4000mm or more
1000mm or more2500mm or more
Obstacle
Floor
③ Preparation before installation
z If suspension bolt becomes longer, do reinforcement of earthquake resistant.c For grid ceiling
When suspension bolt length is over 500mm, or the gap between the ceiling and roof is over700mm, apply earthquake resistant brace to the bolt.
c In case the unit is hanged directly from the slab and is installed on the ceiling plane which hasenough strength.When suspension bolt length is over 1000mm, apply the earthquake resistant brace to the bolt.
z Prepare four (4) sets of suspension bolt, nut and spring washer (M10 or M8) on site.
Ceiling opening, Suspension bolts pitch, Pipe position
④ Installation of indoor unit
Work procedure
1. This units is designed for 2 x 2 grid ceiling.If necessary, please detach the T bar temporarily before you install it.If it is installed on a ceiling other than 2 x 2 grid ceiling, provide an inspection port on the control boxside.
2. Arrange the suspension bolt at the right position (530mm×530mm).3. Make sure to use four suspension bolts and fix them so as to be able to hold 500N load.4. Ensure that the lower end of the suspension bolt should be 45mm above the ceiling plane.
Temporarily put the four lower nuts 88mm above the ceiling plane and the upper nuts on distantplace from the lower nuts in order not to obstruct hanging the indoor unit or adjust the indoor unitposition, and then hang the indoor unit.
T bar Ceilingpanel
Control box
5. Adjust the indoor unit position after hanging it by inserting the level gauge attached on the packageinto the air supply port and checking if the gap between the ceiling plane and the indoor unit isappropriate. In order to adjust the indoor unit position, adjust the lower nuts while the upper nuts areput on distant place. Confirm there is no backlash between the hanger plate for suspension bolt andthe lower nut and washer.
88mm
Suspension bolt
Nut (upper)
FlatwasherSpring washer
Nut (lower)
Ceiling surface
45mm
Refrigerant piping
Drain piping
Level gauge
3 0 3
0
Level gaugeT-barCeiling panel(insulation)
Use level gauges asreference, adjust thebottom to the face ofthe indoor unit.
DiffuserLevel gauge(insulation)
T-barCeiling panel
Use level gauges asreference, adjust thebottom to the face ofthe indoor unit.
When the ceiling panel comes below the Tbar, align the bottom of the level gauge tothe lower face of the ceiling panel.
Diffuser
Unit
Correct
Unit
Wrong
Touch the nut (lower) andwasher without any play
Play is left between the fixtureand the nut (lower) and washer.
A B C E
F
F
F
D
F
6-Ǿ4
DE
CBA
Symbol Content
Air outlet openingfor ductingF
Gas pipingLiquid pipingDrain pipingHole for wiringSuspension bolts
Decorative panel
Air supplyAir returngrille
Hanger plate forsuspension bolt
(Installed on site)
Drain hose piece(Accessory)
Controlbox
Holes fortapping screws
Hole
145325
□570
4 5 o r m o r e
1 3 2 1
9 2
3 5
8 8
2 1 0
2 4 8
185
190 223
3 2 6
3 5 0
5 3 0 ( S u s p e n s i o n
b o l t s
p i t c h )
530 (Suspension bolts pitch)
5 5 6
6 7
200 48
□413
□70021
3 5
60
140
100
1 0 0
8 8
1 4 0
(b) Ceiling cassette-4way compact type (FDTC) PJA012D786
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④ Installation of indoor unit (continued)
6. Make sure to install the indoor unit horizontally. Confirm thelevelness of the indoor unit with a level gauge or transparenthose filled with water. Keep the height difference at both ends ofthe indoor unit within 3mm.
7. Tighten four upper nuts and fix the unit after height and levelnessadjustment.
Caution
z Do not adjust the height by adjusting upper nuts. It will cause unexpected stress on the indoor unitand it will lead to deformation of the unit, failure of attaching a panel, and generating noise from thefan.
z Make sure to install the indoor unit horizontally and set the gap between the unit underside andthe ceiling plane properly. Improper installation may cause air leakage, dew condensation, waterleakage and noise.
z Even after decorative panel attached, still the unit height can be adjusted finely. Refer to theinstallation manual for decorative panel for details.
z Make sure there is no gap between decoration panel and ceiling surface, and between decorationpanel and the indoor unit. The gap may cause air leakage, dew condensation and water leakage.
z In case decorative panel is not installed at the same time, or ceiling material is installed after theunit installed, put the cardboard template for installation attached on the package (packing materialof cardboard box) on the bottom of the unit in order to avoid dust coming into the indoor unit.
⑤ Refrigerant pipe
Caution
z Use the new refrigerant pipe.When re-using the existing pipe system for R22 or R407C, pay attention to the following items.x Change the flare nuts with the attached ones (JIS category 2), and reprocess the flare parts.x Do not use thin-walled pipes.
z Use phosphorus deoxidized copper alloy seamless pipe (C1220T specified in JIS H3300) forrefrigeration pipe installation. In addition, make sure there is no damage both inside and outside of the pipe, and no harmfulsubstances such as sulfur, oxide, dust or a contaminant stuck on the pipes.
z Do not use any refrigerant other than R410A.Using other refrigerant except R410A (R22 etc.) may degrade inside refrigeration oil. And air gettinginto refrigeration circuit may cause over-pressure and resultant it may result in bursting, etc.
z Store the copper pipes indoors and seal the both end of them until they are brazed in order to avoidany dust, dirt or water getting into pipe. Otherwise it will cause deg radation of refrigeration oil andcompressor breakdown, etc.
z Use special tools for R410 refrigerant.
Work procedure
1. Remove the flare nut and blind flanges on the pipe of the indoor unit.Make sure to loosen the flare nut with holding the nut on pipe side with a spanner and givingtorque to the nut with another spanner in order to avoid unexpected stress to the copper pipe,and then remove them.(Gas may come out at this time, but it is not abnormal.)
z Pay attention whether the flare nut pops out. (as the indoor unit is sometimes pressured.)2. Make a flare on liquid pipe and gas pipe, and connect the refrigeration pipes on the indoor unit.
Bend the pipe with as big radius as possible and do not bend the pipe repeatedly. In addition, do
not twist and crush the pipes.Do a flare connection as follows:
z Make sure to loosen the flare nut with holding the nut on pipe side with a spanner and givingtorque to the nut with another spanner in order to avoid unexpected stress to the copper pipe,and then remove them.
z When fastening the flare nut, align the refrigeration pipe with the center of flare nut, screw thenut for 3-4 times by hand and then tighten it by spanner with the specified torque mentionedin the table below. Make sure to hold the pipe on the indoor unit securely by a spanner whentightening the nut in order to avoid unexpected stress on the copper pipe.
3. Cover the flare connection part of the indoor unit with attached insulation material after a gasleakage inspection, and tighten both ends with attached straps.z Make sure to insulate both gas pipes and liquid pipes completely.
Incomplete insulation may cause dew condensation or water dropping.4. Refrigerant is charged in the outdoor unit.
As for the additional refrigerant charge for the indoor unit and piping, refer to the installation manualattached to the outdoor unit.
Pipe d iamete r Tighten ing torque N·mφ 6.35 14 to 18φ 9.52 34 to 42φ 12.7 49 to 61φ 15.88 68 to 82
φ 19.05 100 to 120
⑥ Drain pipe (continued)
Work procedure
1. Make sure to insert the drain hose (the end mode of soft PVC) to the end of the step part of drainsocket.Attach the hose clamp to the drain hose around 10mm from the end, and fasten the screw within5mm left to the nut.z Do not apply adhesives on this end.
Drain socketThe step part Drain hose
No adhesive allowed
Drain socket
Metal plate
10mm
Hose clamp
Fasten the screw within 5 mm left to the nut.
Drain hose
2. Prepare a joint for connecting VP-20 pipe, adhere and connect the joint to the drain hose (the endmade of rigid PVC), and adhere and connect VP-20 pipe (prepare on site).
As for drain pipe, apply VP-20 made of rigid PVC which is on the market.z Make sure that the adhesive will not get into the supplied drain hose.
It may cause the flexible part broken after the adhesive is dried up and gets rigid.z Do not bend or make an excess offset on the drain hose as shown in the picture.
Bend or excess offset will cause drain leakage.
Over20mm
3. Make sure to make descending slope of greater than 1/100 and do not make up-down bend and/ortrap in the midway.z Pay attention not to give stress on the pipe on the indoor unit side, and support and fix the pipe
as close place to the unit as possible when connecting the drain pipe.z Do not set up air vent.
Supporting metalNo bump
No trap
Not touching the water
Trapped air willgenerate noises.
Air vent
Insulation material
1.5m ~ 2m
Descending slope greater than 1/100
z When sharing a drain pipe for more than oneunit, lay the main pipe 100mm below the drainoutlet of the unit. In addition, select VP-30 orbigger size for main drain pipe.
4. Insulate the drain pipe.z Be sure to insulate the drain socket and rigid PVC pipe installed indoors otherwise it may cause
dew condensation and water leakage.After drainage test implementation, cover the drain socket part with pipe cover (small size),then use the pipe cover (big size) to cover the pipe cover (small size), clamps and part of thedrain hose, and fix and wrap it with tapes to wrap and make joint part gapless.
Drain up
z The position for drain pipe outlet can be raised up to 600mm above the ceiling. Use elbows forinstallation to avoid obstacles inside ceiling. If the horizontal drain pipe is too long before verticalpipe, the backflow of water will increase when the unit is stopped, and it may cause overflow ofwater from the drain pan on the indoor unit. In order to avoid overflow, keep the horizontal pipelength and offset of the pipe within the limit shown in the figure below.
Drain hose
6 0 0 m m o
r l e s s
Joint forVP-20(Prepare on site)
295 to 325mm 100 or less
⑥ Drain pipe
Caution
z Install the drain pipe according to the installation manual in order to drain properly. Imperfection in draining may cause flood indoors and wetting the household goods etc.z Do not put the drain pipe directly into the ditch where toxic gas such as sulfur, the other harmful and inflammable gas is generated. Toxic gas would flow into the room and it would cause serious
damage to user’s health and safety (some poisoning or deficiency of oxygen). In addition, it maycause corrosion of heat exchanger and bad smell.
z Connect the pipe securely to avoid water leakage from the joint.z Insulate the pipe properly to avoid condensation drop.z Check if the water can flow out properly from both the drain outlet on the indoor unit and the end of
the drain pipe after installation.z Make sure to make descending slope of greater than 1/100 and do not make up-down bend and/or
trap in the midway. In addition, do not put air vent on the drain pipe. Check if water is drainedout properly from the pipe during commissioning. Also, keep sufficient space for inspection andmaintenance.
Indoor unit
hose
Strap (Accessory) Pipe cover (Accessory)
The thickness of insulation should be 20mm or more.
Pipe cover (small)(For insulation)
(Accessory)
Unit
pipe cover (big)(For insulation)
(Accessory)
Joint forVP-20
(Prepare on site)
Drain socket
Connect
VP-20(Prepare on site)
Pipe cover (small)(For insulation)
(Prepare on site)
Drain hose(Accessory)
Clamp(Accessory
Descending stop greater than 1/100
As wide as possible(about100mm)
VP-30 or bigger
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⑥ Drain pipe (continued)
Drain test
z After installation of drain pipe, make sure that drain system work in good condition and no waterleakage from joint and drain pan. Check if the motor sound of drain pump is normal or not.
z Do drain test even if installation of heating season.z For new building cases, make sure to complete the test before
hanging the ceiling.1. Pour water of about 1000cc into the drain pan in the indoor unit by
pump so as not to get the electrical component wet.2. Make sure that water is drained out properly and there is no water
leakage from any joints of the drain pipe at the test.Confirm that the water is properly drained out while the drain motoris operating. At the drain socket (transparent), it is possible tocheck if the water is drained out properly.
3. Unplug the drain plug on the indoor unit to remove remaining wateron the drain pan after the test, and re-plug it. And insulate the drainpipe properly finally.
Drain pump operation
c In case electrical wiring work finishedDrain pump can be operated by remote controller (wired).For the operation method, refer to Operation for drain pump in the installation manual for wiringwork.
c In case electrical wiring work not finished Drain pump will run continuously when the dip switch“SW7-1” on the indoor unit PCB is turned ON,the Connector CNB is disconnected, and then the power supply (220-240VAC on the terminal block[ ① and ②] or [ Ⓛ and Ⓝ ] ) is turned ON. Make sure to turn OFF “SW7-1” and reconnect the Connector CNB after the test.
z Attach the panel on the indoor unit after electrical wiring work.z Refer to attached manual for panel installation for details.
⑦ Wiring-out position and wiring connection
z Electrical installation work must be performed according to the installation manual by an electricalinstallation service provider qualified by a power provider of the country, and be executed accordingto the technical standards and other regulations applicable to electrical installation in the country.Be sure to use an exclusive circuit.
z Use specified cord, fasten the wiring to the terminal securely, and hold the cord securely in ordernot to apply unexpected stress on the terminal.
z Do not put both power source line and signal line on the same route. It may causemiscommunication and malfunction.
z Be sure to do D type earth work.z For the details of electrical wiring work, see attached instruction manual for electrical wiring work.
1. Remove a lid of the control box (1 screws).2. Hold each wiring inside the unit and fasten them to terminal block securely.3. Fix the wiring with clamp.4. Install a lid of the control box back to original place.
⑧ Panel installation
z After wiring work finished, install the panel on the indoor unit.z Refer to panel installation manual for details. (see next page)
Accessory items
1 Hook 1 piece For fixing temporarily
2 Chain 2 pieces
3 Bolt 4 pieces For installing the panel
4 Screw 1 piece For attaching a hook
5 Screw 2 pieces For attaching a chain
⑨ Check list after installation
z Check the following items after all installation work c ompleted.
Check if Expected trouble Check
The indoor and outdoor uni ts a re fixed secure ly? Fal ling , v ib ra tion , noise
Inspection for leakage is done? Insufficient capacity
Insulation work is properly done? Water leakage
Water is drained properly? Water leakage
Supply voltage is same as mentioned in the model name plate? PCB burnt out, not working at all
There is mis-wi ring or mis-connec tion of piping? PCB burn t out , not work ing a t a llEarth wiring is connected properly? Electric shock
Cable size comply with specified size? PCB burnt out, not working at all
Any obstac le blocks ai rflow on ai r inlet and out le t? Insuffic ient capaci ty
Drain plug
Power source side terminal block
EarthWiring between indoorand outdoor unit
Signal side terminal block
Remote controller line
Wiring clamp
Single split (PAC) series
VRF (KX) series
Power source side terminal block
Earth
Indoor power source line
Signal side terminalblock
Signal line (shielded cord)
Remote controller line
Wiring clamp
Earth (signal line)
6
6
6
6
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Caution
Ⓐ
Ⓑ
[Figure 1]
[Figure 2]
Hook
Screw
3 0
3 0
ⒷⒶ
PANEL INSTALLATION MANUAL
Please read this manual together with the indoor unit’s installation manual.
WARNING
Fasten the wiring to the terminal securely and hold the cable securely so as notto apply unexpected stress on the terminal.Loose connection or hold will cause abnormal heat generation or fire.
Make sure the power supply is turned off when electric wiring work.Otherwise, electric shock, malfunction and improper running may occur.
① Checking the indoor unit installation position
• Read this manual together with the air conditioner installation manual carefully.
• Check if the gap between the ceiling plane and the indoor unit is correct by inserting the
level gauge into the air outlet port of the indoor unit. (See below drawing)
• Adjust the installation elevation if necessary.
• Remove the level gauge before you attach the panel.
• Unscrew the screw from the corner area, pull the corner panel toward the direction
indicated by the arrow mark.
• First insert the part “a” of a corner panel into the part “A” of the cover panel, engage two
hooks and tighten the screw.
1. Take note that there is an orientation to install the panel.
• Attach the panel with the orientation shown on the below.
• Align the “PIPE SIDE” mark (on the panel) with t he refrigerant pipes on the indoor unit.
2. The intake grille can also be attached in a rotated position by 90 degrees.
1. Screw in two bolts out of the four supplied with
the panel by about slightly less than 5mm.
( markⒶⒷ ) [Figure 1]
2. Attach the hook supplied with the panel to the
main body with the hook fixing screw (1 screw).
[Figure 2]
3. Open the intake grille.
4. Please remove the screw of a corner panel and
remove a corner panel. (four places)
5. A panel is hooked on two bolts ( markⒶⒷ ).
[Figure 3]
· In case the orientation of the panel is not correct, it wil l lead to air leakage and also
it is not possible to connect t he louver motor wiring.
② Orientation of the panel and return air grille installation
③ Removing a corner panel
④ Attaching a corner panel
⑤ Panel installation
Accessories
Use level gauges
as reference, adjust
the bottom to the
face of the indoor
unit.
Use level gauges
as reference, adjust
the bottom to the
face of the indoor
unit.
When the ceiling panel comes below
the T bar, align the bottom of the level
gauge to the lower face of the ceiling
panel.
Diffuser
Ceiling panel Ceiling panel
Intake grille
Refrigerantpipes sideControl box
Drain pipe side
Screw
Screw
Hook
Cornerpanel
T-bar T-barLevel gauge
(insulation)
Level gauge
(insulation)
Diffuser
Louver motor
connector
• Install the panel on the unit after completing the electrical wiring.
1
2
3
4
5
Hook
Chain
Screw
Screw
Screw
1 piece
2 pieces
4 pieces
1 piece
2 pieces
For fixing temporarily
For hoisting the panel
For attaching a hook
For attaching a chain
[Figure 3]
PJA012D783
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№4
№2
№1 №3
⑥
②
①
③
④
⑤
⑥
②
①
③
④
⑤
[Figure 5]
[Figure 6]
[Figure 7]
Louver motor connectorDrain pump connector
Wire intake
Clamp
Louver motor wiring
Chain
Chain
6. Please rotate a hook, put in the slot on the panel, and carry out fixing the panel
temporarily. [Figure 4]
7. Tighten the two bolts used for fixing the panel temporarily and the other two.
8. Please open the lid of a control box.
9. Like drain pump wiring, please band together by the clamp and put in louver motor wiring
into a control box. [Figure 5]
10.Please connect a louver motor connector. [Figure 5]
11.Attach two chains to the intake grille with two screws. [Figure 6]
12. Replace the corner panels. Please also close a chain with a screw together
then. [Figure 7]
13. Close the intake grill.
Make sure there is no stressgivenon thepanel when adjustingthe heightof theindoor
unit to avoid unexpected distortion. It may cause the distortion of panel or fai ling to
close the air return grille.
• Any automatic control or operation from the remote controller wil l be disabled on the louver whoseposition is fixed in the above way.
• Do not set a louver beyond the specified range. Failure to observe this instruction may result indripping, dew condensation, the fouling of the ceiling and the malfunctioning of the unit.
Caution
If theupperlimit position numberand thelower limit position numberare set to the same position, thelouver is fixed at that position auto swing does not function.
Caution
When plural remote controllers are connected, louver setting operation cannot be set by slave remotecontroller.
ATTENTION
Louver motor
Connector
<Range of louver setting>
※It can be set between 24~40mm freely.
Vertical airflow direction
Dimension L (mm)
Horizontal 23°
40
Downwards 50°
24
Louver motor
Louver
It is possible to change the movable range of the louver on the air outlet from the wired remote controller. Once the
• This function is not able to be set with wireless remote controls or simple remote control (RCH-H3).
top and bottom position is set, the louver will swing within the range between the top and the bottom when swingoperation is chosen. It is also possible to apply different setting to each louver.
If it is necessary to fix the louver position manually, follow the procedure mentioned below.1. Shut off the main power switch.2. Unplug the connector of the louver motor which you want to fix the position.
Make sure to insulate unplugged connectors electrically with a vinyl tape.3. Adjust the louver position slowly by hand so as to be within the applicable range mentioned below table.
Stop the air conditioner and press SET button and
LOUVER button simultaneously for three seconds or more.
The following is displayed if the number of the indoor units connected to the
remote controller is one. Go to step 4.
Press ▲ or ▼ button. (selection of indoor unit)
Press SET button. (determination of indoor unit)
The following is displayed if the number of the indoor units connected to the
remote controller are more than one
Select the indoor unit of which the louver is set.
Selected indoor unit is fixed.
⑦ How to set the airflow direction
1
2
3
LL
Caution
Caution
Lowerposition
Movablerange
Upperposition
Louver No.
Pipingside
Drainhose side
Control box
(downwards)
(horizontal)
the position of the louver
[EXAMPLE]
Press ▲ or ▼ button. (selection of louver No.)Select the louver No. to be set according to the right figure.
4
Press button.Louver adjusting mode ends and returns to the original display.
10
[EXAMPLE]
Press ▲ or ▼ button. (selection of upper limit position)
Select the upper limit of louver movable range.
“position 1” is the most horizontal, and “position 6” is the most downward.
“position --” is to return to the factory setting. If you need to change the setting to
the default setting, use “position --”.
6
Press ▲ or ▼ button. (Selection of lower limit position)
Select the lower limit position of louver.
“position 1” is the most horizontal, and “position 6” is the most downwards.
“position --” is to return to the factory setting. If you need to change the setting to
the default setting, use “position --”.
8
[EXAMPLE]
(displayed for two seconds)
(displayed for two seconds)
(shows current setting)
(the most downwards)
(the most horizontal)
(return to the default setting)
(the most downwards)
(the most horizontal)
(return to the default setting)
(displayed for two seconds)
Press SET button. (Determination of louver No.)
The louver No. to be set is confirmed and the display shows the
upper limit of the movable range.
5
[EXAMPLE] If No.1 louver is selected,
← current upper limit position
Press SET button. (Fixing of the upper limit position)
The upper limit position is fixed and the setting position is displayed for two
seconds. Then proceed to lower limit position selection display.
7
[EXAMPLE]
Press SET button. (Fixing of the lower limit position)
Upper limit position and lower limit position are fixed, and the set positions aredisplayed for two seconds, then setting is completed.• After the setting is completed, the louver which was set moves from the
original position to the lower limit position, and goes back to the originalposition again. (This operation is not performed if the indoor unit and/or indoorunit fan is in operation.)
9
[EXAMPLE]
NOTICE
• In case the louver No to be set is uncertain,set any louver temporarily.The louver will swing once when the settingis completed and it is possible to confirmthe louver No and the position.
After that, choose the correct louver No andset the top and bottom position.
Slot
[Figure 4]
Air leakage
Air leakage alongthe ceiling
Fouling
Dew condensation or dripping Make sure no gap is left here.
• Improperly tightened hanging bolts cancause the problems listed below, so makesure that you have tightened themsecurely.
• If there is a gap remaining between theceiling and the decorative panel evenafter the hanging bolts are tightened,adjust the installation level of the indoor
unit again.
“ ”
“ ”
“ ”
“ ”
“ ”“ ”“ ”
“ ”
“ ”
“ ”
“ ”
“ ”
“ ”
“ ”
“ ”
“ ”
“ ”
“ ”
If you press RESET button during settings, the display will return to previous display.If youpress buttonduring settings,the mode will be endedand returnto original display,and thesettings that have n ot been completed will become invalid.
“ ” “ ” “ ”
“ ”
“ ”
• For setting the swing range of other louvers, return to 1 and proceed same procedure respectively.
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(C) Ceiling cassette-2way type (FDTW) APJB012D230
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(d) Ceiling cassette-1way compact type (FDTQ) PJC012D121
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PANEL INSTALLATION MANUAL
(1) Parts Models : TQ-PSA-15W-E, TQ-PSB-15W-E
PJC012D118
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① Attach 2 of 4 hanging bolts supplied with the panel on the indoor piping side and its
diagonal position respectively, and tighten them gently for 5mm. ( ● marks)
② Open the suction grille, hang the panel onto 2 bolts, and secure it temporarily.
When securing the panel temporarily, hang the panel onto side bolts as shown in
the left figure, then hang onto side while turning it.
③ Tighten the temporarily secured hanging bolts and other 2 hanging bolts.
④ Remove 2 screws on the control box, and open the cover.
⑤ Connect the connector for louver motor (white 4P) and the connector for limit switch
(white 3P).
The connector on the indoor unit side is in the control box.
⑥ After connecting the connectors, pass the wiring on the panel side through wiring
hole. Hold the connector in the control box.
⑦ Close control box cover, and tighten 2 screws.
⑧ Mount the chain attached with suction grille on the panel using screw. The screws for
mounting chain and hanging bolts are in the same bag.
⑨ Close suction grille, then work is completed.
⑩ If the louver cannot be moved by remote control operation, cut off the power for over 10
seconds after confirming the connection of connector, then turn on the power again.
Mount the panel3
A
A
A Piping
B
Control box
Rotation direction
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(2) Parts Models : QR-PNA-14W-ER, QR-PNB-14W-ER iPJC012D102
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0
10
20
30
6 7 8 9 10
E x t e r n a l s t a t i c
p r
e s s u r e
( P a )
Air flow (m3 /min)
L o w
M e d i u m
H i g h
P - H
i g h
U p p e
r l i m
i t
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(e) Ceiling cassette-1way type (FDTS) PJC012D016
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PJD012D053(f) Duct connected High static pressure type (FDU)
Models 224, 280, KXE6D
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(g) Duct connected - Low / Middle static pressure type (FDUM) APJR012D319
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(h) Duct connected (thin) - Low static pressure type (FDUT) BPJM012D032
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(i) Duct connected-Compact and Flexible type (FDUH) aPJC012D207
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0
10
20
30
5 6 7 8 9
E x t e r n a l s t a t i c
p r e s s u r e
( P a )
Air flow (m3 /min)
H i g h
P - H i g h
L o w
M e d i u m
U p p e
r l i m
i t
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(j) Wall mounted type (FDK) PHA012D039
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(k) Ceiling suspended type (FDE) APFA012D621B
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*1 This function is not able to be set with wireless remote controls or simple remote control (RCH-H3).*2 For setting the swing range of other louvers, return to 1 and proceed same procedure respectively.
*1
*2
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(l) Floor standing-2 way type (FDFW) PGF012D004
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*1 This function is not able to be set with wireless remote controls or simple remote control (RCH-H3).*2 For setting the swing range of other louvers, return to 1 and proceed same procedure respectively.
'10 • KX-DB-147
*1
*2
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(m) Outdoor air processing unit type (FDU-F) PJD012D059
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7.2 Electrlc wiring work instruction
●Install an over-current and earth leakage brea ker (threshold current: 30mA) specified foreach unit without fail.
●Provide a dedicated branchin g circuit and never share a branching circuit with otherequipment. If shared, disconnection at the circuit breaker may occur, which can causesecondary damage.
●Set earth of D-type.
●Connection of a cable beyond 3.5 mm 2 is not permitted. When cables of over 5.5 mm2 arein use, provide a dedicated pull box to take a branch to an indoor unit.
●Keep "remote controller line" and "power source line" away from each other on constructingof unit outside.
●Run the lines (power source, remote controller and "between indoor and outdoor unit")upper ceiling through iron pipe or other tube protection to avoid the damage by mouse andso on.
●Do not add cord in the middle of line (of indoor power source, remote controller and signal)route on outside of unit. If connecting point is flooded, it could cause problem as for electricor communication.(In the case that it is necessary to set connecting point on the signal line way, performthorough waterproof measurement.)
●Do not connect the power source line [220V/240V/380V/415V] to signal side terminal block.Otherwise, it could cause failure.
●Screw the line to terminal block without any looseness, certainly.
●Do not turn on the switch of power source, before all of line work is done.
ƽElectrical wiring work must be performed by an electlician an qualified by alocal power provider. These wiring specifications are determ ined on theassumption that the following instructions are observed:① Do not use cords other than copper ones.
Do not use any supply line lighter than one specified in parentheses for each type below.
-braided cord (code designation 60245 IEC 51), if allowed in the relevant part 2;
-
ordinary tough rubber sheathed cord (code designation 60245 IEC 53);-flat twin tinsel cord (code designation 60227 IEC 41);-ordinary polyvinyl chloride sheathed cord (code designation 60227 IEC 53);
②Provide a separate power outlet for each outdoor or indoor unit.
③ All indoor units grouped in one system must have power source that can be turned on or off simultaneously.
④ Pay extra attention so as not to confuse signal line and power source line connection, because an error in theirconnection can be burn all the boards at once.
ƽConnection of the line ("Between indoor and outdoor unit", Earth and Remote controller)① Remove lid of control box before connect the above lines, and connect the lines to terminal block according to
number pointed on label of terminal block.In addition, pay enough attention to confirm the number to lines, because there is electrical polarity except earth line.Furthermore, connect earth line to earth position of terminal block of power source.
② Install earth leakage breaker on power source line. In addition, select the type of breaker for inverter circuit asearth leakage breaker.
③ If the function of selected earth leakage breaker is only for earth-fault protection, hand switch (switch itself and type"B" fuse) or circuit breaker is required in series with the earth leakage breaker.
Cabling system diagram (Outdoor/indoor unit connection procedure)
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Outdoor unitPower source
Indoor unit1 Indoor unit2
Signal line (between indoor and outdoor units)
Use shielded cord for a signal line and connect “earth(signal line)” at all the indoor units andoutdoor units.
Earth
Signal line
(between indoor unit)
Earth
Remote controller
Remotecontroller line
Remotecontroller line
Power source line specification
Note (1) The cord distances are calculated with a voltage drop of 2%. If the distance should exceed theabove data, review the cord thickness to use in accordance with your extension cord regulations.
(2) When total extension of remote controller line is more than 100m, change the size of cordaccording to "③ Remote Control, Wiring and functions".
In case of Heat recovery 3-pipe systems
Branching controller of heat recovery 3-pipe systems wiring
●When this unit is used as a "Heat Recovery 3-pipe Systems", refer to the installationmanual of a branching controller (option).
Address setting is done by (1) Manual address setting or (2) Automatic address setting.In the case of (2) "Automatic address setting", it is possible to change address setting by wiredremote controller after once complete setting.As for details of setting procedure, refer to instructions attached to the outdoor unit for details.
Installation and wiring of remote controller
Remote controller
ƽBe sure to have the electrical wiring work done by qualified electric alinstaller, and use exclusive circuit.Power source with insufficient capacity and improper work can cause electric shock and fire.
ƽUse specified wire for electrical wiring, fasten the wiring to the terminalsecurely, and hold the cable securely in order not to apply unexpectedstress on the terminal.Loose connections or hold could result in abnormal heat generation or fire.
ƽArrange the electrical wires in the control box properly to prevent them fromrising. Fit the lid of the services panel property.Improper fitting may cause abnormal heat and fire.
ƽMake sure there is no dust or clogging on both the plug and the socket norloose connection of the socket before plugging, and plug in securely to theend of the blade.Accumulation of dust, clogging on the socket or plug, or loose installation of the socket could causeelectric shock and fire. Replace the socket if it is loose.
ƽUse the genuine optional parts. And installation should be performed by aspecialist.
If you install the unit by yourself, it could cause water leakage, electric shock and fire.
ƽDo not repair by yourself. And consult with the dealer about repair.Improper repair may cause water leakage, electric shock or fire.
ƽConsult the dealer or a specialist about removal of the air conditioner.Improper installation may cause water leakage, electric shock or fire.
ƽTurn off the power source during servicing or inspection work.If the power is supplied during servicing or inspection work, it could cause electric shock and injury bythe operating fan.
ƽShut off the power before electrical wiring work.It could cause electric shock, unit failure and improper running.
ƽPerform earth wiring surely.Do not connect the earth wiring to the gas pipe, water pipe, lightning rod and telephone earth wiring.
Improper earth could cause unit failure and electric shock due to a short circuit.
ƽMake sure to install earth leakage breaker on power source line.(countermeasure thing to high harmonics.)
Absence of breaker could cause electric shock.ƽUse the circuit breaker of correct c apacity.
Using the incorrect capacity one could cause the system failure and fire.
ƽDo not use any materials other than a fuse of correct capacity where a fuseshould be used.Connecting the circuit by wire or copper wire could cause unit failure and fire.
ƽUse power source line of correct capacity.Using incorrect capacity one could cause electric leak, abnormal heat generation and fire.
ƽDo not mingle solid cord and stranded cord on power source and signal sideterminal block.In addition, do not mingle difference capacity solid or stranded cord.
Inappropriate cord setting could cause loosing screw on terminal block, bad electrical contact, smoke
and fire.
ƽDo not turn off the power source immediately after stopping the operation.Be sure to wait for more than 5 minutes. Otherwise it could cause water leakage or breakdown.
ƽDo not control the operation with the circuit breaker.It could cause fire or water leakage. In addition, the fan may start operation unexpectedly and it may
cause injury.
Security instructions
WARNING
CAUTION
① Electrical Wiring Connection
② Address setting
●Do not install it on the following places.(1) Place exposed to direct sunlight (4) Hot surface or cold surface enough to generate condensation
(2) Places near heat devices (5) Place exposed to oil mist or steam directly.
(3) High humidity places (6) Uneven surface
③ Remote Control, Wiring and functions
① Install remote controller referring to the attached manual.② Wiring of remote controller should use 0.3mm2 x2 core wires or cables.
(on-site configuration)③ Maximum prolongation of remote control wiring is 600 m.
If the prolongation is over 100m, change to the size below.
But, wiring in the remote controller case should be under 0.5mm2. Change the wire size outside of the case
according to wire connecting. Waterproof treatment is necessary at the wire connecting section. Be careful about
contact failure.
100-200m.....................0.5mm2×2 core
Under 300m................0.75mm2
× 2 core
Under 400m................1.25mm2
× 2 core
Under 500m................2.0mm2
× 2 core
④ Avoid using multi-core cables to prevent malfunction.⑤ Keep remote controller line away from earth (frame or any metal of building).⑥ Make sure to connect remote controller line to the remote controller and terminal block of
indoor unit. (No polarity)
Electrical wiring work must be performed by an electrician qualified by a local power provider according
to the electrical installation technical standards and interior wiring regulations applicable to the
installation site.
ƽAccord with following items. Otherwise, there will be the risks of electric shock and fire
caused by overheating or short circuit.
Earth leakage breaker
Circuit breaker
Wiring specification
① Electrical Wiring Connection (continued)
Unit type Earth leakage breaker
Circuit breaker Wiring size
Switchbreaker
Over-current
protectorrated
capacity
Powersource
line
Wirelength
Signal lineRemote
controllerline
Earthline
22-36
15A 30mA 0.1sec 30A 15A2.0mm
2
×2
304m0.75~
1.25mm2×2
0.3mm2
×2cores2.0mm
2m61209-54
m921061-211
In case of Duct connected -High static pressure- type
71-14015A 30mA 0.1sec 30A 15A
2.0mm2
×287m 0.75~
1.25mm2×2
0.3mm2
×2cores2.0mm
2
m84082,422
Specification of each line
Power source line
Signal line (Shielded cord)
Remote controller line
2.0~3.5mm2
0.75~1.25mm2
0.3~2.0mm2
PSB012D967
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③ Remote Control, Wiring and functions (continued) ④ Trial operation (continued)
When indoor unit address number is displayed on
remote controller, pushing the (MODE)
button to make the indoor unit with that number
blow air (Display example:" ").
Push the (MODE) button again to stop the
operation.
However, this operation is invalid on the
air-conditioning running.
After a unit is energized, it is possible
to display an indoor unit address by
pressing button on
the remote control unit.
Press the or button to make
sure that all indoor units connected
are displayed in order.
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Control plural indoor units by a single remote controller
① A remote controller can control plural indoor units (up to 16)In above setting, all plural indoor units will operate under same mode and temperature setting.
② Connect all indoor units with 2 core remote controller line for group control.
③ Use the function of manual address setting to set the indoor and outdoor address number. ƻDo not forget to set the number for the outdoor units.
④ As shown in the following figure, the remote control can be used to control multiple outdoorunits.
⑤ One remote control is able to perform group control for multiple units (maximum 16 units).
ƻUse the rotary SW1 and SW2 provided on the indoor unit PCB (Printed circuit board) to set unique remote control
communication address avoiding duplication.
Outdoor unit
No.01
Outdoor unit
No.02
Indoor unit Indoor unit
Outdoor No.01
Indoor No.01
Indoor unit Indoor unit
Indoor unit Indoor unit
Action time
Indoor unit
Action time
SW1” Master”
Action time
SW1” Slave”
Switch Setting Contents
Master
Slave Slave remotecontroller
Wired remote controller: SW1Wireless kit: SW1-2
Master remotecontroller
AIR CON NO
Confirming method of indoor units
Master/slave setting when more than one remote control unit are used
A maximum of two remote control units can be connected to one indoor unit (or one group ofindoor units.)Latest "function setting" is superior than previous one.Acceptable combination is "two (2) wired remote controllers", "one (1) wired remote controllerand one (1) wireless kit" or "two (2) wireless kits".Set SW1 to "Slave" for the slave remote control unit. It was factory set to "Master" for shipment.Note:The setting "Remote control unit sensor enabled" is only selectable with the master
remote control unit in the position where you want to check room temperature.
Checking operation data
Outdoor No.02
Indoor No.04
Outdoor No.01
Indoor No.02
Outdoor No.02
Indoor No.05
Outdoor No.01
Indoor No.03
Outdoor No.02
Indoor No.06
④ Trial operation
The method of trial cooling operation
Remote controller line
(No polarity)
Remote controller line
(No polarity)
Operate the remote control unit as follows.
1. Starting a cooling test run.
①Start the system by pressing the button.
②Select “ (Cool)” with the (MODE) button.
③Press the TEST button for 3 seconds or longer.
The screen display will switch to: “ ”
④When the (SET) button is pressed while “ ” is indicated, a cooling test
run will start.
The screen display will switch to “ ”.
2. Ending a cooling test run.
Pressing the button, the (TEMP) button or (MODE) button will end a
cooling test run. (Cooling test run will end after 30 minutes pass.)
“ ” shown on the screen will go off.
Operation data can be checked with remote control unit operation.1. Press the button.
The display change “ ”2. Press the (SET) button while “ ” is displayed.When only one indoor unit is connected to remote controller, “ ” is displayed
(blinking indication during data loading).Next, operation data of the indoor unit will be displayed. Skip to step 7.
4. When plural indoor units is connected, the smallest address number of indoor unit among allconnected indoor unit is displayed.[Example]:“ ” (blinking 1 seconds) “ ” blinking.
5. Select the indoor unit number you would like to have data displayed with the button.6. Determine the indoor unit number with the (SET) button.
(The indoor unit number changes from blinking indication to continuous indication)“ ” (The address of selected indoor unit is blinking for 2 seconds.)
“ ” (A blinking indication appears while data loaded.)Next, the operation data of the indoor unit is indicated.
7. Upon operation of the button, the current operation data is displayed in order fromdata number 01.The items displayed are in the following table※Depending on models, the items that do not have corresponding data are not displayed.
8. To display the data of a different indoor unit, press the button, which allows you
to go back to the indoor unit selection screen.9. Pressing the button will stop displaying data.
Pressing the (RESET) button during remote control unit operation will undo your lastoperation and allow you to go back to the previous screen.◎If two (2) remote controllers are connected to one (1) inside unit, only the master controller is available
for trial operation and confirmation of operation data. (The slave remote controller is not available.)
Drain pump operation from remote control unit is possible. Operate a remote control unit by
following the steps described below.
1. To start a forced drain pump operation.
②Press the TEST button for three seconds or longer.
The display will change “ ”
②Press the button once and cause “ ” to be displayed.
③When the (SET) button is pressed, a drain pump operation will start.
Display: “ ”
2. To cancel a drain pump operation.
①If either (SET) or button is pressed, a forced drain pump operation will
stop. The air conditioning system will become OFF.
◎If two (2) remote controllers are connected to one (1) inside unit, only the master controller is available
for trial operation and confirmation of operation data. (The slave remote controller is not available.)
Trail operation of drain pump
※Depending on outdoor unit model, there are data not shown.
Number
01
02
03
04
05
06
07
08
09
10
11
12
21
22
23
24
25
26
27
28
29
34
35
36
37
38
39
Data Item
(Operation Mode)
(Set Temperature)
(Return Air Temperature)
(Remote Controller Thermistor Temperature)
(Indoor Unit Heat Exchanger Thermistor / U Bend)
(Indoor Unit Heat Exchanger Thermistor /Capillary)
(Indoor Unit Heat Exchanger Thermistor /Gas Header)
(Indoor Unit Fan Speed)
(Frequency Requirements)
(Response Frequency)
(Pulse of Indoor Unit Expansion Valve)
(Total Running Hours of The Indoor Unit)
(Outdoor Air Temperature)
(Outdoor Unit Heat Exchanger Thermistor)
(Outdoor Unit Heat Exchanger Thermistor)
(Compressor Frequency)
(High Pressure)
(Low Pressure)
(Discharge Pipe Temperature)
(Comp Bottom Temperature)
(Current)
(Outdoor Unit Fan Speed)
(63H1 On/Off)
(Defrost Control On/Off)
(Total Running Hours of The Compressor)
(Pulse of The Outdoor Unit Expansion Valve EEVC)
(Pulse of The Outdoor Unit Expansion Valve EEVH)
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Ԝ Function Setting by Remote Controller
The functional setting.
• The initial function setting for typical using is performed automatically by the indoor unit connected, when remote controller and
indoor unit are connected.
As long as they are used in a typical manner, there wiil be no need to change the initial settings.
If you would like to change the initial setting marked “ ” , set your desired setting as for the selected item.The procedure of functional setting is shown as the following diagram.
[Flow of function setting]
Start : Stop air-conditioner and press “ ” (SET) and
“ ” (MODE) buttons at the same time for over three seconds.
Finalize : Press “ ” (SET) button.
Reset : Press “ ” (RESET) button.
Select : Press button.
End : Press button.
It is possible to finish above setting on the way,
and unfinished change of setting is unavailable.
Record and keep the
setting
Note 1: The initial setting marked is decided by connected indoor and outdoor unit, and is automatically defined as following table.
Function No.
Remote controller function02
Remote controller function06
Remote controller function07
Remote controller function13
Remote controller function15
Default Model
Indoor unit with only one of air flow setting
Heat pump unit
Exclusive cooling unit
"Auto-RUN" mode selectable indoor unit.
Indoor unit without "Auto-RUN" mode
Indoor unit with two or three step of air flow setting
Indoor unit with only one of air flow setting
Indoor unit with automatically swing louver
Indoor unit without automatically swing louver
Indoor unit with three step of air flow setting
Indoor unit with two step of air f low setting
Item
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Ԝ Function Setting by Remote Controller (continued)
01
When you use at 50Hz area
When you use at 50Hz area
When you use at 60Hz area
Automatical operation is impossible
Temperature setting button is not working
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
Functionsetting
Mode button is not working
On/Off button is not working
Fan speed button is not working
Louver button is not working
Timer button is not working
Remote thermistor is not working.
Remote thermistor is working.
Remote thermistor is working, and to be set for producing +3.0 C increase in temperature.
Remote thermistor is working, and to be set for producing +2.0 C increase in temperature.Remote thermistor is working, and to be set for producing +1.0 C increase in temperature.
Remote thermistor is working, and to be set for producing -1.0 C increase in temperature.
Remote thermistor is working, and to be set for producing -2.0 C increase in temperature.
Remote thermistor is working, and to be set for producing -3.0 C increase in temperature.
If you change the range of set temperature, the indication of set temperaturewill vary following the control.If you change the range of set temperature, the indication of set temperaturewill not vary following the control, and keep the set temperature.
If you change the remote controller function "14 ",you must change the indoor function "04 " accordingly.You can select the louver stop position in the four.The louver can stop at any position.
In normal working indication, indoor unit temperature is indicated instead of airflow.(Only the master remote controller can be indicated.)
Heating preparation indication should not be indicated.
Temperature indication is by degree CTemperature indication is by degree F
ON/OFF button(finished)
In case of Single split series, by connecting ventilation device to CNT of theindoor printed circuit board (in case of VRF series, by connecting it to CND of theindoor printed circuit board), the operation of ventilation device is linked with theoperation of indoor unit.In case of Single split series, by connecting ventilation device to CNT of the indoor printedcircuit board (in case of VRF series, by connecting it to CND of the indoor printed circuitboard), you can operate /stop the ventilation device independently by (VENT) button.
If you input signal into CNT of the indoor printed circuit board from external, theindoor unit will be operated independently according to the input from external.If you input into CNT of the indoor printed circuit board from external, all units whichconnect to the same remote controller are operated according to the input from external.
(i) Remote controller function
“ ” : Initial settings
“ ” : Automatic criterion
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Ԝ Function Setting by Remote Controller (continued)
Indoor unit No. are indicated only whenplural indoor units are connected.
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
Note1: Fan setting of "HIGH SPEED"
Permission/prohibition control of operation will be vali d.
Functionsetting
To set other indoor unit, press AIRCON NO. button, whichallows you to go back to theindoor unit selection screen(for example: I/U 000 ).
The filter sign is i ndicated after running for 180 hours.The filter sign is i ndicated after running for 600 hours.The filter sign is i ndicated after running for 1000 hours.The filter sign is indicated after running for 1000 hours, then the indoor unit will be stopped bycompulsion after 24 hours.
If you change the indoor function "04 ",
you must change the remote controller function "14 " accordingly.
You can select the louver stop position in the four.The louver can stop at any positi on.
With the VRF series, it is used to stop all indoor units connected with the same outdoor unit immediately.When stop signal is inputed from remote on-off terminal "CNT-6", all indoor units are stopped immediately.
To be reset for producing +3.0 C increase in temperature during heating.
To be reset for producing +2.0 C increase in temperature during heating.To be reset for producing +1.0 C increase in temperature during heating.
To be reset producing +2.0 C increase in return air temperature of indoor unit.
To be reset producing +1.5 C increase in return air temperature of indoor unit.To be reset producing +1.0 C increase in return air temperature of indoor unit.
To be reset producing -1.0 C increase in return ai r temperature of indoor unit.
To be reset producing -1.5 C increase in return ai r temperature of indoor unit.
To be reset producing -2.0 C increase in return ai r temperature of indoor unit.
When heating thermostat is OFF, f an speed is low speed.
When heating thermostat is OFF, f an speed is set speed.
When heating thermostat is OFF, fan speed is operated intermittently.
When heating thermostat is OFF, the fan is stopped.When the remote thermistor is working, "FAN OFF" is set automatically.
Do not set "FAN OFF" when the indoor unit's thermistor is working.
Drain pump is run during cooling and dry.
Drain pump is run during cooling, dry and heating.Drain pump is run during cooling, dry, heating and fan.
Drain pump is run during cooling, dry and fan.
After cooling is stopped the fan does not perform extra operation.
After cooling is stopped the fan perform extra operation for half an hour.After cooling is stopped the fan perform extra operation for an hour.
After cooling is stopped the fan perform extra operation for six hours.
After heating is stopped or heating thermostat is OFF, the fan does not perform extra operation.
After heating is stopped or heating thermostat is OFF,the fan perform extra operation for half an hour.After heating is stopped or heating thermostat is OFF,the fan perform extra operation for two hours.
After heating is stopped or heating thermostat is OFF, the fan perform extra operation for six hours.
During heating is stopped or heating thermostat is OFF, the fan perform intermittent operation for five
minutes with low fan speed after twenty minutes' OFF.
During heating is stopped or heating thermostat is OFF, the fan perform intermittent operation for five
minutes with low fan speed after five minutes' OFF.
Working only with the Single split series.
To control frost prevention, the indoor fan tap is raised.
Change of indoor heat exchanger temperature to start frost prevention control.
Stop air-conditioner and press
(SET) + (MODE) buttons
at the same time for over three seconds.
ON/OFF button(finished)
(ii) Indoor unit function
“ ” : Initial settings
“ ” : Automatic criterion
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⑥ Control mode switching
●The control content of indoor units can be switched in following way. ( is the default setting)
Switch No. control content
SW1 Indoor unit address (tens place)
SW2 Indoor unit address (ones place)
SW3 Outdoor unit address (tens place)
SW4 Outdoor unit address (ones place)
SW5㧙1 ON Fixed previous version of Super Link protocol
OFF Automatic adjustment of Super Link protocolSW5㧙2 Indoor unit address (hundreds place)
SW6㧙1 ~ 4 Model capacity setting
SW7㧙1 ON Operation check, Drain motor test run
OFF Normal operation
⑦ Function of CNT connector of indoor printed circuit board
●CNT connector (local) vendor modelConnector : Made by molex 5264-06Terminals : Made by molex 5263 T
⑧Troubleshooting
+12
Indoor units control box
(Blue 6P)
Printed circuit board
Red
BlackYellow
BlueBrownOrange
Remote start/stop kit
Note (1): Do not use the length over 2 meter
White
BlackYellowBlueBrown
Orange
OrangeInputpower
Remote start / stop button or timer point
Output 1: Operation output (there is output when unit is in operation.)
Output 2: Heating output (there is output when operation MODE is HEATING.)
Output 3: Thermo ON output
Output 4: Inspection output (there is out put when unit is stopped by error.)
Input 5: XR5 OFF ON UNIT ON
XR5 ON OFF UNIT OFF
XR5 OFF ON Receiving pulse signal, "ON/OFF"is reversed.
Factory set
Local set
Refer to instruction manuals of "Branching controller", when the indoor unit isconnected to "Heat recovery 3-pipe systems".
Display onremotecontroller
LED on indoor circuit boardContent
Off
E1
E2
E3
E5
E6
E7
E9
E10
E11
E12
E16E18
E19
E28
Over E30
E63
Off
Off
Off
Off
Off
Off
Off
Off
N ot s ur e N ot s ur e
blinking once
blinking once
blinking once
blinking once
blinking onceblinking once
blinking once
blinking once
Duplication of indoor address No. (can only be detected during operation)Excessnumber of remote controllers(can only be detected during operation)Continuous blinking
Continuous blinking
Continuous blinking
Continuous blinking
Continuous blinking
Continuous blinking
Continuous blinking
Continuous blinking
Continuous blinking
Continuous blinkingContinuous blinking
Continuous blinking
Continuous blinking
Continuous blinking
Continuous blinking
blinking twice
blinking twice
Continuousblinking
Fault on the transmission between indoorcircuit board and remote control
Indoor computer abnormal
Outdoor power off or lack phaseThere is no corresponding outdoor unit address.
Fault on outdoor-indoor transmission
Indoor air inhaling sensor broken or short-circuit
Float SW actions (only with FS)
Excess number of remote controller connections
The master indoor unit is not set properly.
Fan motor abnormalThe address configuration fault for master-slave indoor units.
Configuration fault on running checking model
Remote controller sensor interrupted
Outdoor unit checking (outdoor circuit board LED checking)
Emergency stop.
Super link
New specification
Old specification
Indoor unit address SW
Indoor No. Outdoor No.
Indoor heat exchange sensor interrupted or short-circuit
Off
Normal
Fault on power, indoor power off or lack phase
Continuous blinking
red (checking) green (normal)
001̚ 127 49
0̚ 47 48ˈ49
48ˈ49 0̚ 47
Error code of indoor unit
Note
Butt splice
CNT
Common
Output
Output
Output
Output
●Function
(Application coverage0.75~1.25mm2)
The operation data is saved when the situation of abnormal operation happen,and the data can be confirmed by remote controller.
[Operating procedure]
1. Press the button.The display change “ ”
2. Once, press the button, and the display change “ ”.
3. Press the (SET) button and abnormal operation data mode is started.
4. When only one indoor unit is connected to remote controller, following is
displayed.
①The case that there is history of abnormal operation.
Error code and “ ” is displayed.
[Example]: [E8] (ERROR CODE)
“ ” is displayed (blinking indication during data loading).
Next, the abnormal operation data of the indoor unit will be displayed.
Skip to step 7.
②The case that there is not history of abnormal o peration.
“ ” is displayed for 3 seconds and this mode is closed.
5. When plural indoor units is connected, following is displayed.
①The case that there is history of abnormal operation.
Error code and the smallest address number of indoor unit among all
connected indoor unit is displayed.
[Example]: [E8] (ERROR CODE)
“ ” blinking
②The case that there is not history of abnormal o peration.
Only address number is displayed.
6. Select the indoor unit number you would like to have data displayed with the
button.
7. Determine the indoor unit number with the (SET) button.
[Example]: [E8] (ERROR CODE)
“ ” (The address of selected indoor unit is blinking for 2 seconds.)
[E8] “ ” (A blinking indication appears while data loaded.)
Next, the abnormal operation data is indicated.
If the indoor unit doing normal operation is selected, “ ” is displayed for 3 seconds and address of indoor unit is displayed.
8. By the button, the abnormal operation data is displayed.
Displayed data item is based on ④ Trial operation
※Depending on models, the items that do not have corresponding data are not displayed.
9. To display the data of a different indoor unit, press the AIR CON No. button, which allows you to go back to the indoor unit slection screen.
10.Pressing the button will stop displaying data.
Pressing the (RESET) button during remote control unit operation will undo your last operation and allow you to go back to the previous screen.
◎If two (2) remote controllers are connected to one (1) inside unit, only the master controller is available for trial operation and confirmation of operationdata. (The slave remote controller is not available.)
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Read together with indoor unit's installation manual.
Accessories Remote controller, wood screw (ø3.5 16) 2 pieces
Prepare on site Remote controller cord (2 cores) the insulated thickness in 1mm or more.
[In case of embedding cord] Erectrical box, M4 screw (2 pieces)[In case of exposing cord] Cord clamp (if needed)
Screw
Installation procedure
Open the cover of remote controller , and remove the screw under thebuttons without fail.
Remove the upper case of remote controller.
Insert a flat-blade screwdriver into the dented part of the upper partof the remote controller, and wrench slightly.
[In case of embedding cord]
Embed the erectrical box and remote controller cord beforehand.
Prepare two M4 screws (recommended length is 12-16mm) on site, and install the lower case to erectrical box.Choose either of the following two positions in fixing it with screws.
Connect the remote controller cord to the terminal block.
Connect the terminal of remote controller (X,Y) with the terminal ofindoor unit (X,Y). (X and Y are no polarity)
Install the upper case as before so as not to catch up the remote controller cord,
and tighten with the screws.
[In case of exposing cord]
You can pull out the remote controller cord from left upper part or center upper part.
Cut off the upper thin part of remote controller lower case with a nipper or knife,and grind burrs with a file etc.
Install the lower case to the flat wall with attached two wooden screws.
WARNING
CAUTION
Fasten the wiring to the terminal securely and hold the cable securely so as not to apply unexpected stress on theterminal.
Loose connection or hold will cause abnormal heat generation or fire.
Make sure the power supply is turned off when electric wiring work.
Otherwise, electric shock, malfunction and improper running may occur.
DO NOT install the remote controller at the following places in order to avoid malfunction.
DO NOT leave the remote controller without the upper case.
(1) Places exposed to direct sunlight
(2) Places near heat devices
(3) High humidity places
In case the upper cace needs to be detached, protect the remote controller with a packaging box or bag in
order to keep it away from water and dust.
(4) Hot surface or cold surface enough to generate condensation
(5) Places exposed to oil mist or steam directly
(6) Uneven surface
Tighten the screws after
cutting off the thin part of
screw mounting part.
Controller cord
Erectrical box(Prepare on site)
Lower part Lower part
Upper part
Lower case Lower case
Wiring ouletWiring oulet
M4 screw 2 (Prepare on site)
The thin part
Upper part
Lower
Lower case
Upper
Lower
Lower case
Upper
7.3 Instullation manual for wired remote controller (Option parts : RC-E4)
APJA012D729A
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Installation and wiring of remote controller
Wiring of remote controller should use 0.3mm2 2 core wires or cables. (on-site configuration)Maximum prolongation of remote controller wiring is 600 m.
100 - 200m.........................0.5mm2 2 coresUnder 300m.......................0.75mm2 2 cores
Under 400m.......................1.25mm2 2 coresUnder 500m.......................2.0mm2 2 cores
Master/ slave setting when more than one remote controllers are used
A maximum of two remote controllers can be connected to one indoor unit (or one group of indoor units.)
Remote controller cord (no polarity)
Remote controllerSW1 "Master"
Switch Setting Contents
M Master remote control lerSW1
S Slave remote controller
The indication when power source is supplied
When power source is turned on, the following is displayed on the remote controller until the
communication between the remote controller and indoor unit settled.
Master remote controller : " "
Slave remote controller : " "
At the same time, a mark or a number will be displayed for two seconds first.
This is the software's administration number of the remote controller, not an error cord.
When remote controller cannot communicate with the indoor unit for half an hour, the below indication willappear.
Check wiring of the indoor unit and the outdoor unit etc.
Connect the remote controller cord to theterminal block.
Connect the terminal of remote controller (X,Y)with the terminal of indoor unit (X,Y).
(X and Y are no polarity)Wiring route is as shown in the right diagram
depending on the pulling out direction.
The wiring inside the remote controller case should be within 0.3mm2 (recommended) to 0.5mm2.
The sheath should be peeled off inside the remote controller case.
The peeling-off length of each wire is as below.
Pulling out from upper left Pulling out from upper center
X wiring : 215mmY wiring : 195mm
X wiring : 170mmY wiring : 190mm
Install the upper case as before so as not to catch up the remote controller cord, and tighten withthe screws.In case of exposing cord, fix the cord on the wall with cord clamp so as not to slack.
In case of pulling out fromupper left
In case of pulling out fromupper center
The peeling-off lengthof sheath
Wiring Wiring
Upper UpperSheath
Upper case Upper caseBoard Board
Lower Lower
If the prolongation is over 100m, change to the size below.
But, wiring in the remote controller case should be under 0.5mm2 . Change the wire size outsideof the case according to wire connecting. Waterproof treatment is necessary at the wire
connecting section. Be careful about contact failure.
Remote controllerSW1 "Slave"
Lower
Master
Slave
Upper
Board
The left mark is only anexample. Other marks mayappear.
Sheath
Indoor units
Set SW1 to "Slave" for the slave remote controller. It was factory set to "Master" for shipment.Note: The setting "Remote controller thermistor enabled" is only selectable with the master remote
controller in the position where you want to check room temperature.
The air conditioner operation follows the last operation of the remote controller regardless of themaster/ slave setting of it.
600
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The range of temperature setting
When shipped, the range of set temperature differs depending on the operation mode as below.
Heating : 16~30˚C (55~86˚F)
Except heating (cooling, fan, dry, automatic) : 18~30˚C (62~86˚F)
Upper limit and lower limit of set temperature can be changed with remote controller.
Upper limit setting: valid during heating operation. Possible to set in the range of 20 to 30˚C (68 to 86˚F).
Lower limit setting: valid except heating (automatic, cooling, fan, dry) Possible to set in the range of 18 to 26˚C (62 to
79˚F).
When you set upper and lower limit by this function, control as below.
1. When TEMP RANGE SET, remote controller function of function setting mode is "INDN CHANGE" (factory setting),
During heating, you cannot set the value exceeding the upper limit.
During operation mode except heating, you cannot set the value below the lower limit.
2. When TEMP RANGE SET, remote controller function of function setting mode is "NO INDN CHANGE"
During heating, even if the value exceeding the upper limit is set, upper limit value will be sent to the indoor unit.But, the indication is the same as the temperature set.
During except heating, even if the value lower than the lower limit is set, lower limit value will be sent to the indoor unit.
But, the indication is the same as the temperature set.
How to set upper and lower limit value
1. Stop the air-conditioner, and press (SET) and (MODE) button at the same time for over threeseconds .
The indication changes to "FUNCTION SET ".
2. Press button once, and change to the "TEMP RANGE " indication.
3. Press (SET) button, and enter the temperature range setting mode.
4. Select "UPPER LIMIT " or "LOWER LIMIT " by using button.
5. Press (SET) button to fix.
6. When "UPPER LIMIT " is selected (valid during heating)
Press (SET) button to fix. Indication example: "UPPER 26˚C" (Displayed for two seconds)After the fixed upper limit value displayed for two seconds, the indication will return to "UPPER LIMIT ".
7. When "LOWER LIMIT " is selected (valid during cooling, dry, fan, automatic)
Indication: " SET UP" "LOWER 18˚C "
8. Press ON/OFF button to finish.
Previous button
If upper limit value is set
If upper limit value is set
If lower limit value is set
If lower limit value is set
Indication: " SET UP" "UPPER 30˚C "
Select the upper limit value with temperature setting button . Indication example: "UPPER 26˚C "(blinking)
Select the lower limit value with temperature setting button . Indication example: "LOWER 24˚C "
(blinking)
Press (SET) button to fix. Indication for example: "LOWER 24˚C" (Displayed for two seconds)
After the fixed lower limit value displayed for two seconds, the indication will return to "LOWER LIMIT ".
It is possible to finish by pressingON/OFF button on the way, but
unfinished change of setting is
unavailable.
During setting, if you press
(RESET) button, you return to theprevious screen.
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Press or button.
Make sure which do you want to set, " FUNCTION "
(remote controller function) or "I/U FUNCTION " (indoor
unit function).
How to set function
2.
1.
3.
4.
5.
It is possible to finish by pressing ON/OFF button on the way, but unfinished change of setting isunavailable.During setting, if you press (RESET) button, you return to the previous screen.
Setting is memorized in the controller and it is saved independently of power failure.
How to check the current setting
When you select from "No. and funcion" and press set button by the previous operation, the "Setting" displayed first is the currentsetting.(But, if you select "ALL UNIT ", the setting of the lowest number indoor unit is displayed.)
Stop air-conditioner and press (SET) (MODE)
buttons at the same time for over three seconds, and the
"FUNCTION SET " will be displayed.
Press (SET) button.
Selecct " FUNCTION " (remote controller function) or "I/UFUNCTION " (indoor unit function).
Operation messageFunction description: ,setting description: Function No.
Fixing button
Finishing button7
2
1
6
Starting button
Previous screen buttonIndoor unit selection button
Press (SET) button.
6.
"DATA LOADING" (Indication with blinking)
Display is changed to "01 GRILLE SET".
7.
"DATA LOADING" (Blinking for 2 to 23 seconds to read the data)
(1)
(2)
(3)
Press (SET) button.
On the occasion of remote controller function selection On the occasion of indoor unit function selection
Press or button."No. and function"are indicated by turns on the remotecontroller function table, then you can select from them.(For example)
Press or button.Select the setting.
Press or button.
Select the setting.
The current setting of selected function is indicated.(for example) "AUTO RUN ON" If "02 AUTO RUN SET" isselected
Press (SET) button.
Press (SET) button.
Press or button.
Press or button.
Select the number of the indoor unit you are to setIf you select "ALL UNIT ", you can set the same setting withall unites.
Press (SET)
"SET COMPLETE" will be indicated, and the setting will becompleted.Then after "No. and function" indication returns, Set as thesame procedure if you want to set continuously ,and if tofinish, go to 7.
Press ON/OFF button.
Setting is finished.
Indication is changed to "02 FAN SPEED SET".
Go to .
[Note]
If plural indoor units are connected to a remote controller,the indication is "I/U 000" (blinking) The lowest number ofthe indoor unit connected is indicated.
"No. and function" are indicated by turns on the indoor unit functiontable, then you can select from them.
(For example)
The current setting of selected function is indicated.(For example) "STANDARD" If "02 FAN SPEED SET" isselected.
Press (SET) button."SET COMPLETE" will be indicated, and the setting will becompleted.
Then after "No. and function" indication returns, set as the sameprocedure if you want to set continuously , and if to finish, go to 7.
Setting
Function No.
Function
When plural indoor units are connected to a remote controller,press the AIRCON NO. button, which allows you to go back tothe indoor unit selection screen. (example "I/U 000 ")
Function No.
Function
Setting
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PCB012D015L
KX SERIES INSTALLATION MANUAL◎This installation manual deals with outdoor units and general installation specifications only. For indoor units, please refer to the respective installation manuals supplied with your
units.
◎Please read this manual carefully before you set to installation work and carry it out according to the instructions contained in this manual.
Outdoor unit capacity FDC224∼335
SAFETY PRECAUTIONS●We recommend you to read this "SAFETY PRECAUTIONS" carefully before the installation work in order to gain full advantage of the functions of the unit and to avoid malfunction due to
mishandling.
●The precautions described below are divided into and . The matters with possibilities leading to serious consequences such as death or serious personal
injury due to erroneous handling are listed in the and the matters with possibilities leading to personal injury or damage of the unit due to erroneous handling including
probability leading to serious consequences in some cases are listed in . These are very important precautions for safety. Be sure to observe all of them without fail.
●The meaning of"Marks"used here are as shown on the right.
●Be sure to confirm no anomaly on the equipment by commissioning after completed installation and explain the operating methods as well as the maintenance methods of this equipment to
the user according to the owner's manual.
●Keep the installation manual together with owner's manual at a place where any user can read at any time. Moreover if necessary, ask to hand them to a new user●This unit complies with EN61000-3-3.
For outdoor unit, EN61000-3-2 is not applicable as consent by the utility company or notification to the utility company is given before usage. (Only 224, 280)
For outdoor unit, EN61000-3-12 is not applicable as consent by the utility company or notification to the utility company is given before usage. (Only 335)
Never do it under any circumstance. Always do it according to the instruct ion.
WARNINGS
WARNINGS
CAUTIONS
CAUTIONS
WARNING CAUTION●Installation must be carried out by the qualified installer.
If you install the system by yourself, it may cause serious trouble such as water leaks, electric shocks, fire and personal injury ,as a result of a system malfunction.●Install the system in full accordance with the instruction manual.
Incorrect installation may cause bursts, personal injury, water leaks, electric shocks and fire.●Use the original accessories and the specified components for installation.
If parts other than those prescribed by us are used, It may cause fall of the unit, water leaks, electric shocks, fire, refrigerant leak,substanard performance, contrl failure and personal injury.●When installing in small rooms, take prevention measures not to exceed the density limit of refrigerant in the event of leakage
accordance with ISO5149.Consult the expert about prevention measures. If the density of refrigerant exceeds the limit in the event of leakage, lack ofoxygen can occur, which can cause serious accidents.● Ventilate the working area well in the event of refrigerant leakage during installation.
If the refrigerant comes into contact with naked flames, poisonous gas is produced.● After completed installation, check that no refrigerant leaks from the system.
If refrigerant leaks into the room and comes into contact with an oven or other hot surface, poisonous gas is produced.●Hang up the unit at the specified points wi th ropes which can support the weight in lift ing for portage. And to avoid jolting out of
alignment, be sure to hang up the unit at 4-point support.
An improper manner of portage such as 3-point support can cause death or serious personal injury due to falling of the unit.●Install the unit in a location with good support.
Unsuitable installation locations can cause the unit t o fall and cause material damage and personal injury.●Ensure the unit is stable when installed, so t hat it can withstand earthquakes and strong winds.
Unsuitable installation locations can cause the unit t o fall and cause material damage and personal injury.●The electrical installation must be carried out by the qualified electrician in accordance with "the norm for electrical work" and"national wiring regulation", and the system must be connected to the dedicated circuit.Power supply with insufficient capacity and incorrect function done by improper work can cause electric shocks and fire.●Be sure to shut off the power before starting electrical work.
Failure to shut off the power can cause electric shocks, unit failure or incorrect function of equipment.●Be sure to use the cables conformed to safety standard and cable ampacity for power distribution work.
Unconformable cables can cause electric leak, anomalous heat production or fire.●Use the prescribed cables for electrical connection, tighten the cables securely in terminal block and relieve the cables correctly
to prevent overloading the terminal blocks.Loose connections or cable mountings can cause anomalous heat production or fire.● Arrange the wiring in the control box so that it cannot be pushed up further into the box. Install the service panel correctly.
Incorrect installation may result in overheating and fire.●In connecting the power cable, make sure that no anomakies such as dust deposits, socket clogging or wobble are found and
insert the plug securely. Accumulation of dust, clogging on the socket, or looseness of plugging can cause electric shocks and fire.●Be sure not to reuse existing refrigerant pipes
Conventional refrigerant oil or chlorine contained in the conventional refrigerant which is remaining in the existing refrigerantpipes can cause deterioration of refrigerant oil of new unit. And 1.6 times higher pressure of R410A refrigerant than conventionalone can cause burst of existing pipe, personal injury or serious accident.●Do not perform brazing work in the airti ght room
It can cause lack of oxygen.●Use the prescribed pipes, flare nuts and tools for R410A.
Using existing parts (for R22 or R407C) can cause the unit failure and serious accidents due to burst of the refrigerant circuit.●Tighten the flare nut by using double spanners and torque wrench according to prescribed method. Be sure not to tighten the
flare nut too much.Loose flare connection or damage on the flare part by tightening with excess torque can cause burst or refrigerant leaks whichmay result in lack of oxygen.●Do not open the service valves for liquid line and gas line until completed refrigerant piping work, air tightness test and evacuation.
If the compressor is operated in state of opening service valves before completed connection of refrigerant piping work, you mayincur frost bite or injury from an abrupt refrigerant outflow and air can be sucked into refrigerant circuit, which can cause burst orpersonal injury due to anomalously high pressure in the refrigerant.●Do not put the drainage pipe directly into drainage channels where poisonous gases such as sulphide gas can occur.
Poisonous gases will flow into the room through drainage pipe and seriously affect the user's health and safety. It can also cau sethe corrosion of the indoor unit and resultant unit failure or refrigerant leak.●Only use prescribed optional parts. The installation must be carried out by the qualified installer.
If you install the system by yourself, it can cause serious trouble such as water leaks, electric shocks, fire.●Do not perform any change of protective device itself or its setup condition
The forced operation by short-circuiting protective device of pressure switch and temperature controller or the use of nonspecified component can cause fire or burst.●Be sure to switch off the power supply in the event of i nstallation, inspection or servicing.
If the power supply is not shut off, there is a risk of electric shocks, unit failure or personal injury due to the unexpected start of fan.●Consult the dealer or an expert regarding removal of the unit.
Incorrect installation can cause water leaks, electric shocks or fire.●Stop the compressor before closing valve and disconnecting refrigerant pipes in case of pump down operation.
If disconnecting refrigerant pipes in state of opening service valves before compressor stopping, you may incur frost bite or injuryfrom an abrupt refrigerant outflow and air can be sucked, which can cause burst or personal injury due to anomalously highpressure in the refrigerant circuit.
●Ensure that no air enters in the refrigerant circuit when the unit is installed and removed.If air enters in the refrigerant circuit, the pressure in the refrigerant circuit becomes too high, which can cause burst andpersonal injury.●Do not run the unit with removed panels or protections
Touching rotating equipments, hot surfaces or high voltage parts can cause personal injury due to entrapment, burn or electric shocks. ●
Be sure to fix up the service panels.Incorrect fixing can cause electric shocks or fire due to intrusion of dust or water.●Do not perform any repairs or modifications by yourself. Consult the dealer if the unit requires repair.
If you repair or modify the unit, it can cause water leaks, electric shocks or fire.
●Use the circuit breaker for all pole with correct capacity.Using the incorrect circuit breaker, it can cause the unit malfunction and fire.
●Take care when carrying the unit by hand.If the unit weights more than 20kg, it must be carried by two or more persons. Do not carry by the plastic straps, always use the carry handlewhen carrying the unit by hand. Use gloves to minimize the risk of cuts by the aluminum fins.
●Dispose of any packing materials correctly. Any remaining packing materials can cause personal injury as it contains nails and wood. And to avoid danger of suffocation,be sure to keep the plastic wrapper away from children and to dispose after tear it up.
●Pay attention not to damage the drain pan by weld spatter when welding work is done near the indoor unit.If weld spatter entered into the indoor unit during welding work, it can cause pin-hole in drain pan and result in waterleakage. To prevent such damage, keep the indoor unit in its packing or cover it.
●Be sure to insulate the refrigerant pipes so as not to condense t he ambient air moisture on them.Insufficient insulation can cause condensation, which can lead to moisture damage on the ceiling, floor, furniture and anyother valuables.
●Be sure to perform air tightness test by pressurizing with nitrogen gas after completed refrigerant piping work. If the density of refrigerant exceeds the limit in the event of refrigerant leakage in the small room, lack of oxygen can occur,which can cause serious accidents.
●Perform installation work properly according to this installation manual.Improper installation can cause abnormal vibrations or increased noise generation.
●Carry out the electrical work for ground lead with care.
Do not connect the ground lead to the gas line, water line, lightning conductor or telephone line's ground lead. Incorrectgrounding can cause unit faults such as electric shocks due to short-circuiting. Never connect the grounding wire to aޓgas pipe because if gas leaks, it could cause explosion or ignition.
●Never connect the grounding wire to a gas pipe because if gas leaks, It could explosion or ignition.
●Earth leakage breaker must be installedIf the earth leakage breaker is not installed, it can cause fire or electric shocks.
●Do not use any materials other than a fuse with the correct rating in the location where fuses are to be used.Connecting the circuit with copper wire or other metal thread can cause unit failure and fire.
●Do not install the unit near t he location where leakage of combustible gases can occur.If leaked gases accumulate around the unit, it can cause fire.
●Do not install the unit where corrosive gas (such as sulfurous acid gas etc.) or combustible gas (such as thinner and petroleumgases) can accumulate or collect, or where volatile combustible substances are handled.Corrosive gas can cause corrosion of heat exchanger, breakage of plastic parts and etc. And combustible gas can cause fire.
●Secure a space for installation, inspection and maintenance specified in the manual.Insufficient space can result in accident such as personal injury due to falling from the installation place.
●When the outdoor unit is installed on a roof or a high place, provide permanent ladders and handrails along the accessroute and fences and handrails around the outdoor unit.If safety facilities are not provided, it can cause personal injury due to falling from the installation place.
●Do not install nor use the system close to the equipment that generates electromagnetic fields or high frequency harmonicsEquipment such as inverters, standby generators, medical high frequency equipments and telecommunication equipments canaffect the system, and cause malfunctions and breakdowns. The system can also affect medical equipment andtelecommunication equipment, and obstruct its function or cause jamming.
●Do not install the outdoor unit in a location where insects and small animals can inhabit.Insects and small animals can enter the electric parts and cause damage or fire. Instruct the user to keep the surroundings clean.
●Do not use the base flame for outdoor unit which is corroded or damaged due to long periods of operation.Using an old and damage base flame can cause the unit falling down and cause personal injury.
●Do not install the unit in the locations listed below• Locations where carbon fiber, metal powder or any powder is floating.• Locations where any substances that can affect the unit such as sulphide gas, chloride gas, acid and alkaline can occur.• Vehicles and ships• Locations where cosmetic or special sprays are often used.• Locations with direct exposure of oil mist and steam such as kitchen and machine plant.
• Locations where any machines which generate high frequency harmonics are used.• Locations with salty atmospheres such as coastlines• Locations with heavy snow (If installed, be sure to provide base flame and snow hood mentioned in the manual)• Locations where the unit is exposed to chimney smoke• Locations at high altitude (more than 1000m high)• Locations with ammonic atmospheres• Locations where heat radiation from other heat source can affect the unit• Locations without good air circulation.• Locations with any obstacles which can prevent inlet and outlet air of the unit• Locations where short circuit of air can occur (in case of multiple units installation)• Locations where strong air blows against the air outlet of outdoor unitIt can cause remarkable decrease in performance, corrosion and damage of components, malfunction and fire.
●Do not install the outdoor unit in the locations listed below.• Locations where discharged hot air or operating sound of the outdoor unit can bother neighborhood.• Locations where outlet air of the outdoor unit blows directly to an animal or plants. The outlet air can affect adversely to
the plant etc.• Locations where vibration can be amplified and transmitted due to insufficient strength of structure.• Locations where vibration and operation sound generated by the outdoor unit can affect seriously.
(on the wall or at the place near bed room)• Locations where an equipment affected by high harmonics is placed. (TV set or radio receiver is placed within 5m)• Locations where drainage cannot run off safely.It can affect surrounding environment and cause a claim
●Do not use the unit for special purposes such as storing foods, cooling precision instruments and preservation of animals,plants or art.It can cause the damage of the items.
●Do not touch any buttons with wet handsIt can cause electric shocks
●Do not shut off the power supply immediately after stopping the operation.Wait at least 5 minutes, otherwise there is a risk of water leakage or breakdown.
●Do not control the system with main power switch.It can cause fire or water leakage. In addition, the fan can start unexpectedly, which can cause personal injury.
●Do not touch any refrigerant pipes with your hands when the system is in operation.During operation the refrigerant pipes become extremely hot or extremely cold depending the operating condition, and it
can cause burn injury or frost injury.●Do not operate the outdoor unit with any article placed on it. You may incur property damage or personal injure from a fall of the article.●Do not step onto the outdoor unit.
You may incur injury from a drop or fall.
When install the unit, be sure to check whether the selection of installation place, power supply specifications, usage limitation (piping length, height differences betweenindoor and outdoor units, power supply voltage and etc.) and installation spaces.
Application data
L
7.4 Installation of outdoor unit
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Notabilia as a unit designed for R410Aa)
b)
c)
d)
e)
f)g)
h)
Gauge manifold
Charge hose
Electronic scale for refrigerant charging
Torque wrench
Flare tool
Protrusion control copper pipe gauge
Vacuum pump adapter
Gas leak detector
Dedicated R410A tools
● Do not use any refrigerant other than R410A. R410A will rise to pressure about 1.6 times higher than that of a conventional refrigerant.● A unit designed for R410A has adopted a different size outdoor unit service valve charge port and a different size check joint provided in the unit to
prevent the charging of a wrong refrigerant by mistake. The processed dimension of the flared part of a refrigerant pipe and a flare nut's parallel sidemeasurement have also been altered to raise strength against pressure. Accordingly, you are required to arrange dedicated R410A tools listed in thetable on the right before installing or servicing this unit.
● Do not use a charge cylinder. The use of a charge cylinder will cause the refrigerant composition to change, which results in performance degradation.● In charging refrigerant, always take it out from a cylinder in the liquid phase.● All indoor units must be models designed exclusively for R410A. Please check connectable indoor unit models in a catalog, etc.
(A wrong indoor unit, if connected into the system, will impair proper system operation)
Caution●Be sure to read this manual before installation to follow the proper installation methods.
●When installing the indoor unit, read the installation manual of indoor unit.
●Optional distribution parts are required for the piping (Branch pipe set, header set). For details, refer to the catalog, etc.
●Make sure to install the earth leakage breaker. (Select a product compatible with high frequency.)
●There is risk of damaging the compressor if the unit is operated while the discharge pipe thermistor, suction pipe thermistor, pressure sensor, etc. are removed. Never attempt tooperation in such condition.
1. BEFORE BEGINNING INSTALLATION (Check that the models, power supply specifications, piping, wiring are correct.)
Name Quantity Location of use
Accessory
Wire 2
1
1
1
Insert this in CNG on the outdoor unit PCB when using the silencing mode orforced cooling mode Secured in the control box with adhesive tape.
It is attached to the bracket with an adhesive tape
in the proximity of the service valve.
Attached on the base below the operation valve.
Attached on the base below the operation valve.
Edging
Attachedwire
Instruction manual
Use it for protection of a knock-out hole.
Use this when connecting gas pipe.
When the installation work is completed,
give instructions to the customer and ask him/her to keep it.
[Items sold separately]
Refrigerant pipe distribution parts, which are not contained in the package, will be required for installation. As for refrigerant pipe distribution parts, we offer branching pipe sets (Model type: DIS) and header sets (Model type: HEAD) as parts used on the indoor side of piping.Please select one suiting your application. In selecting distribution parts, please also refer to “4. REFRIGERANT PIPING.”If you are not sure which parts to select, please consult with your dealer or the manufacture.Use refrigerant branching pipe sets and header sets designed exclusively for R410A without fail.
2. INSTALLATION LOCATION (Obtain approval from the customer when selecting the installation area.)
2-1. Selecting the installation location〇 Where air is not trapped.〇 Where the installation fittings can be firmly installed.〇 Where any object does not prevent inlet or outlet air.〇 Out of the heat range of other heat sources.〇Where strong winds will not blow against the outlet air.
〇 A place where stringent regulation of electric noises is applicable.〇 Where it is safe for the drain water to be discharged.〇 Where noise and hot air will not bother neighboring residents.〇 Where snow will not accumulate.〇 A place where no TV set or radio receiver is placed within 5m.
(If electrical interference is caused, seek a place less likely to cause the problem)Please note
a) If there is a possibility of a short-circuit, then install a flex flow adapter.b) When installing multiple units, provide sufficient intake space so that a short-circuit does not occur.c) In areas where there is snowfall, install the unit in a frame or under a snow hood to prevent snow from accumulating on it.
(Inhibition of collective drain discharge in a snowy country)d) Do not install the equipment in areas where there is a danger for potential explosive atmosphere.e) Install the equipment in a location that can sufficiently support the weight of the equipment.f) If a unit is installed into a special environment as shown below, there will be a danger that the corrosion of the outdoor unit or its
malfunctioning is caused. If this is the case, please consult with the distributor from whom you have purchased the unit.・Where corrosive gas is generated (such as a hot-spring resort area).・Where the unit is subject to sea breezes (coastal area).・Where the unit is subject to oil mists.・Where equipment generating electromagnetic waves exists in the vicinity.
g) When strong winds occur ● Where it is likely that the unit is subjected to strong winds, provide wind guards according to the following guidelines. Strong winds can cause performance degradation, an accidental stop due to a rise of high pressure and a broken fan.
CAUTION
Please leave sufficient clearancearound the unit without fail.Otherwise, a risk of compressorand/or electric component failuremay arise.
O v e r 5 0 0 m m Fasten with anchor bolts
①Place the unit outlet pipe perpendicular
to the wind direction.
②Please install so the direction of the air from the blowing
outlet will be perpendicular to the direction of the wind.③When the foundation is not level, use wires
to tie down the unit.
When installing units sideby side, install the fexfow adaptor. (This is notrequired i a distance o1,500 mm may besecured between theblowing outlet and thewall.)
Wind direction
Wind direction
Combination pattern●Combination pattern of outdoor units, number of indoor units connected and capacity of connection are as show in the table at right.
●It can be used in combination with the following indoor unit.
Indoor unit Remote controller Connection OK/NO
FD○△△KXE6 RC-E4(2 cores) OK
FD○A△△KXE4 RC-E1R(3 cores) OK
Capacity
224
280
335
Combination pattern
Single
Single
Single
Number of units connected (unit)
1∼15
1∼19
1∼22
Range of total capacity of connected indoor units
112∼336
140∼420
167∼502
Outdoor unit Indoor unit
CautionIf superlink I (previous superlink) is selected, all the range of usage and limitations, not only the limitations of connectable indoor capacity and connectablenumber of indoor unit but also of the piping length, operating temperature range and etc., become same as those of KX4 (See technical) manual ´07 . KX . KXR-T-114). In addition to above limitations, all of new functions for KX6 such as automatic address setting function for multiple refrigerant systems and etc.wll be cancelled.
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2 0
Out door unit
Height difference
between indoor
units: 18 mthicker
Height difference 50 m
Actual length 160 m
Equivalent length 185 m
Total piping length 510 m
Indoor unit
Suction
Blowout
195 195690
Foundation bolt position
(4 places)
2 0
5 2 0
2 0
● The protrusion of an anchor bolt on the front side must bekept within 15 mm.
● Securely install the unit so that it does not fall over duringearthquakes or strong winds, etc.
● Refer to the above illustrations for information regardingconcrete foundations.
● Install the unit in a level area. (With a gradient of 5 mm orless.)
Improper installation can result in a compressor failure, brokenpiping within the unit and abnormal noise generation.
Wooden base
Wear plate
3-1. Delivery
●Deliver the unit in the packing to the specified installation place.
●To hoist the unit, attach a pair of textile ropes with cushion materials attached to protect it.
Request
Put cushion materials between the unit and the ropes to avoid damages.
Attach the ropes on the unit and carry it in avoiding displacement of gravity center.Improper slinging may cause the unit to lose balance and fall.
4. REFRIGERANT PIPING
3. Unit delivery and installation
(1) Limitation on use o pipes
Caution
●When arranging pipes, observe the restrictions on use concerning the longest distance of (1), total piping length,
allowable pipe length from initial branching and allowable difference of height (difference between heads).
● Avoid any trap ( ) or bump ( ) in piping as they can cause fuid stagnation.●Maximum length (To the urthest indoor unit) … Actual length Less than 160 m (Actual length less
than 185 m)It is required to change the pipe diameter when the actual length exceeds 90 m.Determine the size o main pipe, reerring to the table o main pipe selection table o (3) (a).
●Total piping length ………………………………………………………… 510 m or less
●Length o main pipe ……………………………………………………… 130 m or less● Allowable pipe length rom initial branching …………………………… 90 m or less
Dierence in pipe lengths between indoor units, however, is 40 m or less.● Allowable dierence in height (Dierence o heads)
(a) When an indoor unit is positioned at a higher place ……………… 50 m or less(b) When an outdoor unit is positioned at a lower place ……………… 40 m or less(c) Dierence o heights between indoor units in a system …………… 18 m or less(d) Dierence o heights between initial branching and indoor unit … 18 m or less
(2) Selection o pipe material●Use pipes with the inside clean and ree rom any harmul sulur, oxides, dirt, chips & oil, or moisture
(contamination).●Use ollowing rerigerant pipes.
Material … Phosphate deoxidation treated seamless pipe (C1220T-O, 1/2H, JIS H3300)C1220T-1/2H or O.D. ø19.05 or more, or C1220T-O or ø15.8 or less
●Wall thickness and size - Select according to the guide or pipe size selection(This product uses R410A. Since, in case o pipes in the size o ø19.05 or more, materials o -Olacks sucient capacity to withstand pressure, make sure to use pipes o 1/2H material and
thickness larger than the minimum thickness.)●When a pipe is branched, make sure to use our branching set or header set.●When setting branching pipes, take care o the mounting direction and consult careully with the
instruction manual.●Regarding the handling o operation valve, reer to 4-3 (1) Operating method o operation valve.
●Make sure to lock the fixing legs of outdoor unit with 4 pieces of anchor bolt (M10). Best margin of protrusion for bolt above thefloor is 20 mm.
● When installing the unit, make sure to lock its legs with the following bolts.
3-2. Cautions for installation
CAUTION
Make sure to install within the range of limitation. Otherwise, resultingmalfunction of compressor may not be warranted. Observe always thelimitation of use during installation.
4-1. Determination of piping specifications (Please select from the following matrix according to indoor unit specifications and installation site conditions)
Lock with bolt (M10-12)
Suction Blowout
Use a long block to extend the width.Use a thicker
block to anchor
deeper.
SampleSize
L1
L2
L3
L4
Ⅰ
Open
300
300
250 (5)
Ⅱ
Open
5
300
250 (5)
Ⅲ
1500 (500)
Open
300
250 (5)
Airinlet
Airinlet
Air
outlet
Service
space
L3
L2
L4
L1
(Unit : mm)a) Minimum installation space(Please select an installation point with due attention to the direction of installation of the refrigerant pipe )(If the installation conditions shown in this drawing are not satisfied, please consult with your dealeror the manufacturer.)
b) When units are installed side by side, leave a 10 mm or wider service space between the units .c) Don’t install at a place where it will be surrounded with walls in four directions.
Even when it is not surrounded with walls in four directions and it is met the installation conditions
as shown by this figure, if there is risk of short-circuit, install the flex flow adaptor to prevent theshort-circuit.d) There must be a 1-meter or larger space in the above.e) A barrier wall placed in front of the exhaust diffuser must not be higher than the unit.
2-2. Installation space (Ex. servicing space)
Important
In case that the unit operates in cooling mode, when the outdoor temperature is –5°C or lower,
please equip a flex flow adapter and a snow guard hood (option) on the unit.
Figure in ( ) shows the value applicable when the fex fowadaptor is installed.
*1
*1
Under the setting condition as specied in ( ) , it is necessary tosecured 250 mm or the dimension L4 when replacing the compressor.Establish this or example by moving the unit during the work.
*2
*2 *2 *2
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fig1Indoor unit
Indoor unit
Outdoor unit
Branch pipe set for indoor unit side
Model: DIS
Branch pipe set for indoor unit side
Model: DIS
Header set for indoor unit side
Model: HEAD
A B
B
C C
B B
C C CC
C C
(3) Pipe size selection
Floor surfaceFloor surfaceFloor surface
Liquid side
Horizontal
Floor surface Floor surface
Gas side
Floor surface
Branching atdownstream
side
Outdoor unit
224
280
335
Gas pipe
ø19.5×t1.0
ø22.22×t1.0
ø25.4(ø28.58)×t1.0
Liquid pipe
ø9.52×t0.8
ø12.7×t0.8
Gas pipe
ø22.22×t1.0
ø25.4(ø28.58)×t1.0
Liquid pipe
ø12.7×t0.80
Main pipe size (Ordinary) Pipe size or actual length longer than 90 m
For ø19.05 or larger, use C1220T-1/2H material.
Make sure to use the attached pipes
in the length as shown at let.
For ø19.05 or larger, use C1220T-1/2H material.
*1: When connecting indoor units o 280 at the downstream and the main gas pipe is o ø22.22 or larger, use the pipe o ø22.22x t1
(a) Main pipe (Between branch at outdoor unit side - initial branch at indoor unit side): Section A in Fig. 1
When the maximum length (to the urthest indoor unit rom outdoor unit) is 90 m or more (actual length), change the size o main pipe as shown
by the ollowing table.
(b) Between initial branch at indoor unit side- indoor unit side: Section B in Fig. 1
Select rom ollowing table based on the total capacity o indoor units connected at the downstream side. However, it should never exceed the
size o main pipe (Section A in Fig. 1).
Total capacity o indoor units
Less than 70
70 - 180
180 - 371
371 - 540
Gas pipe
ø12.7 ×t1.0
ø15.88×t1.0
ø19.05×t1.0 *1
ø19.05×t1.0
Liquid pipe
ø 9.52×t0.8
ø12.7×t0.8
ø15.88×t1.0
For ø19.05 or larger, use C1220T-1/2H material.
Total capacity at downstream
Less than 180
180 - 371
371 - 540
Branch pipe set
DIS-22-1
DIS-180-1
DIS-371-1
(c) Between branching at indoor unit side - indoor unit side: Section C in Fig. 1
According to the table o pipe size or indoor unit. However, it should never exceed the size o main pipe (Section A in Fig. 1).
(4) Selection o the branch set or indoor unit side
(a) Selection of the branch pipe set
● Size o branch pipe varies depending on the capacity o connected indoor units (total capacity at
downstream). Select it rom the table at right.
Request
● Adjust the indoor unit and the size o branch pipe at the indoor unit side according to the size o
pipe connected to indoor unit.
● Install the branch joint (both o gas and fuid) so that it will become “Horizontal branching” or
“Vertical branching”.
(b) Selection of the header set
● Connect a plugged pipe (eld provided) at the branch point (indoor unit connecting side)
depending on he number o units connected.
● For the size o plugged pipe, reer to the header set (optional item).
Request
● Adjust the header and indoor unit pipes to the size o pipes or connected indoor units.
● Install the header at the gas side to be “Horizontal branching” and, at the fuid side, that the
branch is provided at the downstream side.
● Header is not allowed to receive indoor units o 224 or 280.
Capacity
22, 28
36, 45, 56
71, 80, 90, 112, 140, 160
224
280
Gas pipe
ø 9.52×t0.8
ø 12.7×t0.8
ø15.88×t1.0
ø19.05×t1.0
ø22.22×t1.0
Liquid pipe
ø6.35×t0.8
ø9.52×t0.8Indoor unit
Vertical
Floor surface Floor surface Floor surface Floor surface
Horizontal
Total capacity at downstream
Less than 180
180 - 371
371 - 540
Header set model
HEAD4-22-1
HEAD6-180-1
HEAD8-371-1
Number of branches
Max. 4 branches
Max. 6 branches
Max. 6 branches
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7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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'10 • KX-DB-147
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7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
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(1) Check operationThe following ① – ③ can be checked automatically with this operation.
① Checking of operation valves opened/closed.
Checks to see if operation valves are opened.
② Checking of mismatch on wiring or piping.Checks to see if refrigerant piping or signal wiring between indoor and outdoor units in the same refrigerant system are
connected properly.
③ Checking of indoor expansion valve operation.
Checks to see if indoor expansion valve operates properly.
* Check operation should be performed before initial test run after completion of installation.
When any corrective measure for nonconformity has been taken, perform the check operation again after repair.
Operational condition
Temperature range: Outdoor air temperature … 0㨪 43℃, Indoor air temperature … 10 㨪 32℃.
Connecting capacity of indoor units: 80% or more of outdoor unit capacity.
Precautions
Check each outdoor unit system for single use or each refrigeration system for combination use.
Outdoor units in other refrigerant system shall not be operated.
After turning on power supply to outdoor unit and connected indoor units, start check operation with all connected indoor
units stopped.
In combination use, check the setting and the result displayed on the 7-segment display of master outdoor unit.
If the unit has been operating before check operation, wait for 5 minutes after stopping the unit operation before starting
check operation, in order to avoid misjudgment.
In combination use, judging operation valves opened or closed by check operation can be done as no good (NG), when
all of operation valves in liquid l ine, gas line and oil equalizing line of both master and slave outdoor units are closed.
However, in other cases than the above, judgment may not be done.
During check operation it is impossible to stop operation from remote controller. Accordingly, before starting check operation,
be sure to confirm that no one working near the indoor unit especially near the rotating part such as fan of indoor unit or
something is remaining near the fan of indoor unit.
Purpose
The purpose of this check operation is only to verify any overlooked items to be checked during the ordinary checking doneޓ
at the site after installation. Accordingly it has no function to substitute the ordinary checking to be done during or after installation
work and to restore automatically as a result of checking operation.
.Therefore be sure to conduct the checking in ordinary way after installation firstly, and then to perform this check operationޓ
We believe that this checking method could prevent from overlooking any items to be checked.
7.6 Check operation procedure
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'10 • KX-DB-147
(2) Flow of the check operationCheck operation is performed as follows.
Note (1) For preliminary check method, refer to “(3) Confirmation before check operation”.
(2) For details of check operation, refer to “(4) Check operation procedure”.
(3) For measures to be taken in case of NG, refer to “(5) Measures to be taken after check operation”.
Preliminary check Note (1)
Judgment of checked result Note (3)
End
NG
OK
Auto checking Note (2)
Start
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'10 • KX-DB-147
(3) Confirmation before check operation
Confirm the installation has been completed properly by hearing, actual inspection or other method.
This preliminary confirmation is indispensable to prevent troubles during or after check operation.
Check operation can be performed only when the following conditions (1) – (8) are established.
Check the following contents listed in the table with 7-segment display and MentePC.
Item Content Check method Check result
(1) Preparation Supply power to outdoor and
indoor units.
No outdoor unit in other
refrigerant systems is operating.
All indoor units are stopped.
It has elapsed more than 5
minutes after the stopping.
(2) Connecting capacity of
indoor units
Connecting capacity of indoor
units is 80% or more of outdoor
unit capacity.
Check capacities of outdoor and indoor units.
(3) Address setting Addresses of outdoor unit
(in combination use, both of master
and slave outdoor units) and
indoor units have been set.
Check the number of connected units.
(4) Temperature range Outdoor air temperature is 0 –
43℃. Indoor air temperature is
10 – 32℃.
Check outdoor air temperature with 7-segment
display and indoor air temperature with
MentePC.
(5) Others System communicating method
is of new SL.
Check the model name of outdoor unit, indoor
units, central control device, etc.
System is not in error stopcondition.
Check to see if any error code (E??) isdisplayed on indoor or outdoor unit.
(6) Outdoor unit operation
valve
Outdoor unit operation valve is
opened. *1
Check visually.
(7) Refrigerant amount Proper amount of refrigerant is
charged.
Check the additional charged amount of
refrigerant is written in the plate for specifying
refrigerant charging amount on the back of
outdoor service panel.
(8) Number of connected
indoor units
It is same as the number of
connected indoor units installed.
Check with 7-segement display or MentePC.
*1 Be sure to open the operation valves in both liquid and gas lines of outdoor unit before starting check operation. In combination use,
open the operation valves not only in liquid and gas lines but also in oil equalizing line of both master and slave outdoor units.
Operating with operation valves closed causes vacuum operation that results in a compressor fault.
If the operation valves are “closed” before test run, be sure to verify whether the evacuation, air tightness test and additional refrigerant
charge have been completed by hearing to installation contractor, before opening the operation valves.
Otherwise, it may cause such trouble as mixing air (non-condensation gas and water) in, forgetting to charge additional refrigerant
at the site, or others.
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'10 • KX-DB-147
(4) Check operation procedure
Flow Work Operation status
(Displayed on 7-segment)
Meaning of
7-segment displayRemarks
Preliminary
check
Check in advance as per “(3)
Confirmation before check
operation”.
Don’t operate any outdoors unit in
other refrigerant systems during
check operation.
Start of check
operation
Turn “Chek operation switch
(SW3-5)” on outdoor control
PCB from OFF to ON.
In combination use, turn
“Chek operation switch
(SW3-5) on master control
PCB from OFF to ON.
“H1 Max. remaining time” Remai ning time: Max.
remaining time for check
operation
This operation status is displayed
during preparation for check
operation.
Depending on conditions, it may not
be displayed.
In combination use, “H0---” is
displayed on the slave outdoor unit.
*Be sure to start check operation
when all indoor units are stopping.
“H0 HE” When “H0-HE” is
displayed for more then 10
minutes, then check
operation is not started yet.
In such case refer to “(3)
confirmation before check
Implementingauto checking
“H2 Max. remaining time” Remaining time: Max.remaining time for auto
checking.
In combination use, “H0---” isdisplayed on the slave outdoor unit.
End of auto
checking,
judgment
result
Record the indication of
7-segment indicator on
outdoor unit.
“CHO End” Result of check operation
is judged normal.
End the check operation.
“CHL---” Operation valve may be
closed.
Refer to “(5) Measures to be
taken after check operation”.
“CHU Anomalous indoor
unit No.”
Refrigerant piping or
signal wiring between
indoor and outdoor units
may not be connectedcorrectly.
“CHJ Anomalous indoor
unit No.”
Indoor expansion valve
may not be operating
properly.
“CHE---” Check operation has not
ended properly.
All judgment resul ts at
the end are displayed.
Other display
Check ofnonconforming
item
Check for anomalous conditionas per “(5) Measures to be
taken after check operation”
When any display other than“CHO-End” is displayed
after auto checking.
Refer to “(5) Measures to betaken after check operation”.
End of check
operation
Turn off “Chek operation
run switch (SW3-5)” on
outdoor control PCB.
Returns to normal display.
Notes (1) When “HO-HE” is displayed for more than 10 minutes, or any displays other than “CHO-End” is displayed at the end of cheek
operation, turn SW3-5 to OFF and take necessary measures.
And then turn SW3-5 to ON again and perform the check operation.
(2) During check operation it is impossible to stop operation from remote controller. Accordingly, before starting check operation, be
sure to confirm that no one working near the indoor unit especially near the rotating part such as fan of indoor unit or something isremaining near the fan of indoor unit.
When interrupting check operation, turu SW3-5 to OFF, Compressor stops and 7-segment display returns to normal display.
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(5) Measures to be taken after check operationWhen any display other than “CHO-End” is displayed after completing the judgment of check operation, the meanings of each display
are shown as follows.
After checking the contents of inspection and repairing nonconforming items, perform check operation again.
Code
display
Data
display
Meaning of display Contents of Inspection
CHL --- Refrigerant circuit is choked at certain
place.
Operation valve on outdoor unit may be left closed.
Low pressure sensor may be anomalous.
Check the detected pressure displayed on 7-segment and compare it with the
value measured with gauge manifold.
Refrigerant piping or signal wiring may not be connected properly. *1 (See page
271.) Check with Mente PC, etc.
Indoor heat exchanger temperature thermistor may be anomalous or disconnected.
*2 (See page 271.)
Refrigerant may not be charged correctly.
Indoor unit expansion valve may not be operating properly.
Connector of indoor unit expansion valve coil may not be connected. *3 (See page271.)
Indoor unit expansion valve coil may be disconnected from main body of expansion
valve. *4 (See page 271.)
Outdoor unit PCB may be defective.
CHU Anomalous
indoor unit
No.
Refrigerant is not circulated in the
indoor unit of indicated No.
Refrigerant piping or signal cables may not be connected properly between indoor
and outdoor units. *1 (See page 271.) Check with Mente PC, etc.
Indoor heat exchanger temperature thermistor may be anomalous or disconnected.
*2 (See page 271.)
Operation valve on outdoor unit may be left closed.
Check it especially when many indoor units No. are displayed in data display column of CHU.
it may be displayed by influence of liquid flooding due to the trouble on any otherindoor unit. If CHJ is displayed at the same time, check preferentially the indoor
unit displaying CHJ and after repairing, perform check operation again.
Refrigerant may not be charged correctly.
Indoor unit expansion valve may not be operating properly.
Connector of indoor unit expansion valve coil may not be connected. *3 (See page
271.)
Indoor unit expansion valve coil may be disconnected from main body of expansion
valve. *4 (See page 271.)
CHJ Anomalous
indoor unit
No.
Expansion valve on the indoor unit
of indicated No. does not operate
properly.
Indoor heat exchanger temperature thermistor may be anomalous or disconnected.
*2 (See page 271.)
it may be displayed by influence of liquid flooding due to the trouble on any otherindoor unit.
Contamination may be trapped in expansion valve due to installation or transitional cause.
Indoor unit expansion valve may not be operating properly.
Connector of indoor unit expansion valve coil may not be connected. *3 (See page
271.)
Indoor unit expansion valve coil may be disconnected from main body of expansion
valve. *4 (See page 271.)
Refrigerant may not be charged correctly.
CH1 --- Indoor heat exchanger temperature
anomaly.
Indoor heat exchanger temperature thermistor may be anomalous or disconnected.
*2 (See page 271.)
CH3 --- Unable to do indoor EEV trouble check. Unable to do indoor EEV trouble check because of unstable operation.
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Code
display
Data
displayMeaning of display Contents of Inspection
CHH --- It may be liquid flooding. Refrigerant piping or signal cables may not be connected properly between indoor
and outdoor units. *1 (See next page.)
Power switch may be turned off on some indoor units.
Check if power is supplied to all indoor units.Indoor unit expansion valve may not be operating properly.
Connector of indoor unit expansion valve coil may not be connected. *3 (See next
page)
Indoor unit expansion valve coil may be disconnected from main body of expansion
valve. *4 (See next page.)
If no indoor unit indicates CHJ, check also indoor units which are not showing CHJ.
Refrigerant may not be charged correctly.
CHE --- Anomalous stop of check operation. Some error may happen on indoor or outdoor units.
Check if any error code “E??” is displayed on indoor or outdoor units.
There may be anomalous on signal wire connection.
Check if signal wire is connected firmly.
SW setting on outdoor PCB might have been changed.
Check if any SW setting has been changed during check operation.
CHE Anomalous
indoor unit
No.
Anomalous stop of check operation.
Indoor unit indicated its No. has
anomaly.
Some error may happen on indoor or outdoor units.
Check if any error code “E??” is displayed on indoor or outdoor units.
There may be anomalous on signal wire connection.
Check if signal wire is connected firmly.
Power switch may be turned off on some indoor units.
Check if power is supplied to indoor units.
E 40 High pressure anomaly. Refrigerant circuit may be choked at a certain place. Refer to the technical manual
or the above.
E 42 Current cut. Refrigerant circuit may be choked at a certain place. Refer to the technical manual
or the above.
It might have been started operation while bottom of compressor was still cold.
Perform check operation again after the bottom of compressor has been enough
warm.
E 49 Low pressure anomaly. Refrigerant circuit may be choked at a certain place. Refer to the technical manual
or the above.
E 36-3 Liquid flooding anomaly. It may be in the same condition as “CHH---”. Refer to the technical manual or the
above.
Note (1) When an error code (E??) is displayed, press SW9 to display all indicalions other than the error code in series.
Press SW9 again to return to error display.
(2) When check operation has been suspended, the followings listed in below table are displayed depending on judgment at
the time of stoppage.
Code display Data display Contents of display
HL --- Refrigerant circuit is choked at a certain place.
HL LPL Refrigerant circuit is choked at a certain place. (In combination use)
HU Anomalous indoor unit No. Refrigerant is not circulated in the indoor unit of indicated No.
HJ Anomalous indoor unit No. Expansion valve does not operate on the indoor unit of indicated No.
UU Anomalous indoor unit No. Refrigerant is not circulated in the indoor unit of indicated No.
U Anomalous indoor unit No. Refrigerant was not circulated in the indoor unit of indicated No. just after starting but it
has been confirmed that it is now circulated.
(3) If refrigerant circuit is choked at a certain place, it may be stopped with error code E40 (High pressure anomaly), E42
(Current cut) or E49 (Low pressure anomaly).(4) When it has stopped with error code E36-3 (Liquid flooding anomaly), it may be in the same condition as “CHH---”.
(5) When it has stopped with error code E42 (Current cut), it might have been started operation while bottom of compressor
was still cold. Perform check operation again after the bottom of compressor has been enough warm.
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*1 Piping
Wiring
Normal Wrong wiring
Outdoor unit1
Outdoor unit
2
Outdoor unit1
Outdoor unit
2
Indoor unit1
Indoor unit2
Indoor unit3
Indoor unit4
Indoor unit1
Indoor unit2
Indoor unit3
Indoor unit4
*2 (If the connector comes off by a weak pull, it’s no good. If not come off, It’s OK)
The connector of indoor heat exchanger temperature thermistor.
Normalޓޓޓޓޓޓޓޓޓޓޓޓޓޓޓ Disconnected
*3 (If the connector comes off by a weak pull, it’s no good. If not come off, It’s OK)
The connector of indoor expansion valve coil.
Normalޓޓޓޓޓޓޓޓޓޓޓޓޓޓޓޓޓޓ Disconnected
*4
The indoor expansion valve coil itself.
Normalޓޓޓޓޓޓޓޓޓޓޓޓޓޓޓޓޓޓ Disconnected from main body
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(6) Data sheet<Check Operation Data Sheet>
Project name Location
Fill necessary data in advance
Model Address
Outdoor
unit
Master FDC
Slave FDC
Fill necessary data in advance
No. Model AddressPiping length
O/U-I/UElevation difference
O/U-I/UNo. Model Address
Piping lengthO/U-I/U
Elevation differenceO/U-I/U
Indoor unit 1 FD 41 FD
2 FD 42 FD
3 FD 43 FD
4 FD 44 FD
5 FD 45 FD
6 FD 46 FD
7 FD 47 FD
8 FD 48 FD
9 FD 49 FD
10 FD 50 FD
11 FD 51 FD
12 FD 52 FD
13 FD 53 FD
14 FD 54 FD
15 FD 55 FD
16 FD 56 FD
17 FD 57 FD
18 FD 58 FD
19 FD 59 FD
20 FD 60 FD
21 FD 61 FD
22 FD 62 FD
23 FD 63 FD
24 FD 64 FD
25 FD 65 FD
26 FD 66 FD
27 FD 67 FD
28 FD 68 FD
29 FD 69 FD
30 FD 70 FD31 FD 71 FD
32 FD 72 FD
33 FD 73 FD
34 FD 74 FD
35 FD 75 FD
36 FD 76 FD
37 FD 77 FD
38 FD 78 FD
39 FD 79 FD
40 FD 80 FD
Date of installation (d/m/y)
Name of installer
Superlink version
Superlink II
Superlink I*
* In case of Superlink I, the check operation cannot be implemented.
① No anomaly allowed.
→ If anomaly occu
② 7-segment display at com
③ Others
(Comment/Measures to be ta
Checked by
Date of checking
Weather
Outdoor air temperature
Start time of check operation
Completion time of check oper
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7.7 Instructions for installing the branch pipe set (option)
2
I D : Ǿ 2 5 . 4
O
D : Ǿ 2 8 .
5 8
100
P−9
I D : Ǿ 3 4 .
9 2
O
D : Ǿ 3 8 .
1100
P−15
DIS-540-2
100
I D :
Ǿ 3 4 . 9
2
O D : Ǿ 3 8 . 1
P−15
PSB012D855B
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2
(model type DIS)
(model type HEAD)
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2
2
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2
2
2
2
2
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WARNING
f Fasten the wiring to the terminal securely and hold the cable securely so as not to apply unexpectedstress on the terminal.Loose connection or hold will cause abnormal heat generation or fire.
f Make sure the power supply is turned off when electric wiring work.Otherwise, electric shock, malfunction and improper running may occur.
CAUTION
f DO NOT install the wireless kit at the following places in order to avoid malfunction.
(1) Places exposed to direct sunlight(2) Places near heat devices(3) High humidity places
(4) Hot surface or cold surface enough to gen-erate condensation
(5) Places exposed to oil mist or steam directly(6) Uneven surface(7) Places affected by the direct airflow of the
AC unit.
(8) Places where the receiver is influenced bythe fluorescent lamp (especially invertertype) or sunlight.
(9) Places where the receiver is affected byinfrared rays of any other communicationdevices
(10) Places where some object may obstruct thecommunication with the remote controller
f DO NOT leave the wireless kit without the cover.In case the cover needs to be detached, protect the receiver with a packaging box or bag in orderto keep it away from water and dust.
Note
f Instruct the customer how to operate it correctly referring to the instruction manual.
f For the installation method of the air conditioner itself, refer to the installation manual enclosed in the package.
OPTION PARTS8.1 Wireless kit
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(a) FDT Series (RCN-T-36W-E)The FDT series is an exclusive series with all wired models. However, these models can also be used wireless units by using the op-
tional wireless kit.
(1) Wireless kit model
(2) Accessories
Please make sure that you have all of the following accessories.
(3) How to install the receiver
The receiver can be installed by replacing with a corner panel on the applicable decorative panel.
Preparation before installation
① Attach the decorative panel onto the air conditioner according to the installation manual for the panel.
② Remove the air return grille.
③ Remove a corner panel located on the refrigerant pipes side.
④ Remove three screws and detach the cover (indicated as shadowed area) from the control box of the air conditioner.
Setting on site
① PCB on the receiver has the following switches to set the functions. Default setting is shown with mark.
Receiver
Parts set
Wirelessremotecontroller
Remote controller holder
AAA dry cell battery(RO3)
Wood screw for holder
Refrigerant pipes Drain pipe
Model
RCN-T-36W-E
Normal
Remote
Master
Slave
Valid
Invalid
Valid
Invalid
Customized signal setting to avoidmixed communication
Receiver master/slave setting
Buzzer valid/Invalid
Auto restart
SW1
SW2
SW3
SW4PJF012D010
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② Remove the cover by unscrewing two screws from the back of receiver.
③ Change the setting by the switch on PCB.
④ When SW1 is turned to OFF position, change the corresponding remote controller setting as follows:
How to change the remote controller setting
Pressing ACL and AIR FLOW button at the same time or inserting the
batteries with pressing AIR FLOW button will customize the signal.
Note
* When the batteries are removed, the setting will return to the default setting.
Please make sure to reset it when the batteries are replaced.
Caution
Instruct the customer to set the mentioned above when replacing the batteries.
(How to set is also mentioned in the user’s manual attached on the air conditioner.)
Screws
Default settings
Switch
Receiver Backside Cover Backside
Radio interference prevention mode
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Installation of the receiver
① Loosen the bolts which fix the panel and make a gap between the panel and the indoor unit
② Put the wiring of the receiver through the opening.
③ Put the wiring on the notch on the control box so as not to be pinched by the control box and lid as shown below.
④ Connect the wiring to the terminal block provided in the control box. (Non- polarized)
⑤ Attach the receiver to the panel according to the panel installation manual.
⑥ Fix the wiring with the clamp so that the wiring do not contact the edge of control box’s metal sheet.
⑦ Reattach the control box lid with 3 screws removed.
*Note: Make sure the wires not to be pinched by any other parts like panel, control box and indoor unit.
Terminal block in the indoor
unit control box
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Ensure the correct
polarity when
inserting.
Wood screw
Holder for remote controller
(4) Remote controller
Installation of the controller holder
Caution
DO NOT install it on the following places
1. Places exposed to direct sunlight
2. Places near heat devices3. High humidity places
4. Hot surface or cold surface enough to generate condensation
5. Places exposed to oil mist or steam directly.
6. Uneven surface
Installation tips for the remote controller holder
· Adjust and keep the holder upright
· Tighten the screw to the end to avoid scratching the remote controller.
· DO NOT attach the holder on plaster wall.
How to insert batteries
① Detach the back lid.
② Insert the batteries. (two AAA batteries)
③ Reattach the back lid.
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Control plural indoor units with one remote controller
Up to 16 indoor units can be connected.
① Connect the XY terminal with 2-core wire. As for the size, refer to the following note.
② For Packaged air conditioner series, set the indoor unit address with SW2 on the indoor unit PCB from [0] to [F] so as not
to duplicate.
Restrictions on the thickness and length of wire
(Maximun total extension 600m.)
Standard Within 100m x 0.3 mm2
Within 200m x 0.5 mm2
Within 300m x 0.75mm2
Within 400m x 1.25mm2
Within 600m x 2.0 mm2
Terminal block
Remote controller
Indoor unit (1)
Address (0)
Indoor unit (2)
Address (1)
Indoor unit (16)
Address ( F )
Receiver
③ For VRF series, set the indoor unit address with SW1, SW2 and SW5-2 on the indoor unit PCB from [000] to [127] so as
not to duplicate.
Master/Slave setting when using plural remote controllers
Up to two receivers can be installed in one indoor unit group.
When two receivers are used, it is necessary for a receiver to turn OFF SW2 on the receiver PCB to set it as slave.
(For the method of switching, please see Setting on site in the section of How to install the receiver in this manual.)
Wireless remote controller's operable area
① Standard reachable area of the signal
[condition] Illuminance at the receiver: 300lux
(when no lighting is installed within 1m of the receiver in an ordinary of fice.)
Ceiling surface
0 1m 2m 3m 4m
30°
Reachable area of the signal 1 . 4 m
2 . 5 m
1 . 1 m
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② Correlation between illuminance at the receiver and
reachable area of the signal in a plain view. The
drawing in the right shows the correlation between
the reachable area of the signal and illuminance at
the receiver when the remote controller is operated
at 1.1m high under the condition of ceiling height
of 2.5m. When the illuminance becomes double,
the area is narrowed down to two thirds.
③ Installation tips when several receivers are installed close Minimum distance between the indoor units which can avoid
cross communication is 5m under the condition of 300lux of illuminance at the receiver.
(When no lighting is installed within 1m of the receiver in an ordinary of fice )
The receivable area of the
signal when the illuminance
at the receiver is 300lux
The receivable area of the
signal when the illuminance
at the receiver is 600lux
(5) How to disable the Auto mode operation
VRF system (except heat recovery 3-pipe systems) cannot be operated in Auto mode.
Make sure to set the remote controller for the models so as not to be able to choose Auto
mode.
Pushing ACL and MODE button at the same time or inserting the batteries with
pressing MODE button will make auto mode operation.
Attention
* When the batteries are removed, the setting will return to the default setting
(Auto mode is valid).
Caution
Instruct the customer to set the mentioned above when replacing the batteries.
(How to set is also mentioned in the user’s manual attached on the air conditioner.)Auto mode operation setting
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(6) Backup button
A Backup button is provided on the receiver.
Even when the operation from the wireless remote controller is not possible
(due to flat batteries, controller lost, or controller failure), still it possible to
operate as temporary means. Press the button directly when operating it.
(a) The air conditioner starts the operation with the condition of Auto
mode, 23˚C of set point, High fan speed and horizontal louver position.
(b) The air conditioner stops the operation when the button is pressed when
in operation.
(7) Cooling test run operation
f After safety confirmation, turn on the power.
f Transmit a cooling operation command with wireless remote controller, while the backup button on the receiver is pressed.
f If the backup button on the receiver is pressed during a test run, it will end the test run.
f If you cannot operate the unit properly during a test run, please check by consulting with inspection guides on the wiring
diagram of outdoor units.
(8) How to read the two-digit display
On the receiver of a wireless kit, a two-digit (7-segment) display is provided.
(a) An indication will be displayed for one hour after power on.
(b) An indication will be displayed for 3.5 seconds after transmitting a “STOP” command from the wireless remote controller
or the operation of the backup button to stop the unit.(c) An indication appearing in (a) or (b) above will go off as soon as the unit starts operation.
(d) When there are no error records to indicate, addresses of all the connected units are displayed.
(e) When there are some error records remaining, the error records are displayed.
(f) Error records can be cleared by transmitting a “STOP” command from the wireless remote controller, while the backup
button is pressed.
backup button
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(b) FDTC Series (RCN-TC-24W-ER)The FDTC series is an exclusive series with all wired models. However, these models can also be used wireless units by using the
optional wireless kit.
(1) Wireless kit model
(2) Accessories
Please make sure that you have all of the following accessories.
(3) How to install the receiver
The receiver can be installed by replacing with a corner panel on the applicable decorative panel.
Preparation before installation
① Attach the decorative panel onto the air conditioner according to the installation manual for the panel.
② Remove the air return grille.
③ Remove a corner panel located on the refrigerant pipes side.
④ Remove to screws and detach the lid from the control box of the air conditioner.
Receiver
Parts set
Wirelessremotecontroller
Remote controller holder
AAA dry cell battery(RO3)
Wood screw for holder
Model
RCN-TC-24W-ER
Refrigerant pipesDrain pipe
Drain plug
PJA012D758
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Screws
Receiver Backside Cover Backside
Default settings
Switch
Setting on site
① PCB on the receiver has the following switches to set the functions. Default setting is shown with mark.
Normal
Remote
Master
Slave
Valid
Invalid
Valid
Invalid
Customized signal setting to avoidmixed communication
Receiver master/slave setting
Buzzer valid/Invalid
Auto restart
SW1
SW2
SW3
SW4
② Remove the cover by unscrewing two screws from the back of receiver.
③ Change the setting by the switch on PCB.
④ When SW1 is turned to OFF position, change the corresponding remote controller
setting as follows:
How to change the remote controller setting
Pressing ACL switch with AIR FLOW button kept pressing or inserting the
batteries with pressing AIR FLOW button will customize the signal.
Note
* When the batteries are removed, the setting will return to the default set-
ting.
Please make sure to reset it when the batteries are replaced.
Caution
Instruct the customer to set the mentioned above when replacing the
batteries.(How to set is also mentioned in the user’s manual attached on the
air conditioner.) Radio interference prevention mode
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Installation of the receiver
① Attach the receiver to the panel according to the panel installation manual.
② Remove two screws and detach the lid from the control box.
③ Put the wiring in the control box with other wiring as shown below.
④ Connect the wiring to the terminal block (X, Y) provided in the control box. (Non- polarized)
⑤ Fix the wiring with the clamp as shown below.
⑥ Reattach the control box lid with 2 screws removed.
* Note: Make sure wires not to be pinched by any other parts like panel and control box.
ԛ Ԛԙ ,ԝ Ԝ Clamp
Control box
Wiring Terminal block (X, Y)
Terminal block (X, Y) in the indoor
unit control box
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Ensure the correct
polarity when
inserting.
Wood screw
Holder for remote controller
(4) Remote controller
Installation of the controller holder
Caution
DO NOT install it on the following places
1. Places exposed to direct sunlight2. Places near heat devices
3. High humidity places
4. Hot surface or cold surface enough to generate condensation
5. Places exposed to oil mist or steam directly.
6. Uneven surface
Installation tips for the remote controller holder
· Adjust and keep the holder upright· Tighten the screw to the end to avoid scratching the remote controller.
· DO NOT attach the holder on plaster wall.
How to insert batteries
① Detach the back lid
② Insert the batteries. (two AAA batteries)
③ Reattach the back lid.
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Control plural indoor units with one remote controller
Up to 16 indoor units can be connected.
① Connect the XY terminal with 2-core wire. As for the size, refer to the following note.
② For signal packaged air conditioner series, set the indoor unit address with SW2 on the indoor unit PCB from [0] to [F] so
as not to duplicate.
Restrictions on the thickness and length of wire
(Maximun total extension 600m.)
Standard Within 100m x 0.3 mm2
Within 200m x 0.5 mm2
Within 300m x 0.75mm2
Within 400m x 1.25mm2
Within 600m x 2.0 mm2
Terminal block
Remote controller
Indoor unit (1)
Address (0)
Indoor unit (2)
Address (1)
Indoor unit (16)
Address ( F )
Receiver
③ For VRF series, set the indoor unit address with SW1, SW2 and SW5-2 on the indoor unit PCB from [000] to [127] so as
not to duplicate.
Master/Slave setting when using plural remote controllers
Up to two receivers can be installed in one indoor unit group.
When two receivers are used, it is necessary for a receiver to turn OFF SW2 on the receiver PCB to set it as slave.
(For the method of switching, please see Setting on site in the section of How to install the receiver in this manual.)
Wireless remote controller's operable area
① Standard reachable area of the signal
[condition] Illuminance at the receiver: 300lux
(when no lighting is installed within 1m of the receiver in an ordinary of fice.)
Ceiling surface
1 . 4 m
2 . 4 m
1 m
0 1m 2m 3m 4m1m2m3m4m
Reachable area of the signal
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② Correlation between illuminance at the receiver and
reachable area of the signal in a plain view. The
drawing in the right shows the correlation between
the reachable area of the signal and illuminance at
the receiver when the remote controller is operated at
1m high under the condition of ceiling height of 2.4m.
③ Installation tips when several receivers are installed close Minimum distance between the indoor units which can avoid
cross communication is 5m under the condition of 300lux of illuminance at the receiver.
(When no lighting is installed within 1m of the receiver in an ordinary of fice )
The receivable area of the
signal when the illuminance
at the receiver is 300lux
The receivable area of the
signal when the illuminance
at the receiver is 600lux
(5) How to disable the Auto mode operation
VRF system (except heat recovery 3-pipe systems) cannot be operated in Auto mode.
Make sure to set the remote controller for the models so as not to be able to choose Auto
mode.
Pushing ACL switch with MODE button kept pressing or inserting the batteries
with pressing MODE button will make auto mode operation.
Note
* When the batteries are removed, the setting will return to the default setting
(Auto mode is valid).
Caution
Instruct the customer to set the mentioned above when replacing the batteries.
(How to set is also mentioned in the user’s manual attached on the air conditioner.)Auto mode operation setting
(6) Backup button
A Backup button is provided on the receiver. Even when the operation
from the wireless remote controller is not possible (due to flat batter-
ies, controller Iost, or controller failure), still it possible to operate as
temporary means. Press the button directly when operating it.
(a) The air conditioner starts the operation with the condition of
Auto mode, 23˚C of set point, High fan speed and horizontal
louver position.
(b) The air conditioner stops the operation when the button is
pressed when in operation.
Backup button
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(7) Cooling test run operation
f After safety confirmation, turn on the power.
f Transmit a cooling operation command with wireless remote controller, while the backup button on the receiver is pressed.
f If the backup button on the receiver is pressed during a test run, it will end the test run.
f If you cannot operate the unit properly during a test run, please check by consulting with inspection guides on the wiring
diagram of outdoor units.
(8) How to read the two-digit display
On the receiver of a wireless kit, a two-digit (7-segment) display is provided.
(a) An indication will be displayed for one hour after power on.
(b) An indication will be displayed for 3.5 seconds after transmitting a “STOP” command from the wireless remote controller
or the operation of the backup button to stop the unit.
(c) An indication appearing in (a) or (b) above will go off as soon as the unit starts operation.
(d) When there are no error records to indicate, addresses of all the connected units are displayed.
(e) When there are some error records remaining, the error records are displayed.
(f) Error records can be cleared by transmitting a “STOP” command from the wireless remote controller, while the backup
button is pressed.
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(C) FDK Series
· RCN-K-E (Models : FDK22~56)· RCN-K71-E (Model : FDK71)
296
PHA012D038
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see next page
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Wiring6
Wireless remote controller operation distance7
Up to 16 indoor units can be connected.
Connect indoor units with each other with 2-core wires. Asfor size, refer to the following note.
The receiver wires must be connected only with the indoor
unit that will be operated by the remote controller directly.
Use the rotary SW1 and SW2 provided on the indoor unit
PCB (Printed circuit board) to set unique remote control
communication address avoiding duplication.
Points for attention in connecting a plural number of indoor units
[Condition]
Illuminance at the receiver area: 360 lux.
Control plural indoor units with one remote controller
Restrictions on the thickness and length of wire
(Maximum total extension 600m.)
Standard Within 100m x 0.3mm2
Within 200m x 0.5mm2
Within 300m x 0.75mm2
Within 400m x 1.25mm2
Within 600m x 2.0mm2
1
2
3
1
2
60o 60o
(Top view)
5 m5 m
Receivable rangeReceivable range
5m
Standard signal receiving range[Condition]
Illuminance at the receiver area: 360 lux.
(When no lighting fixture is located within 1m of indoor unit in an ordinary office)
60o
5 m
Receivable range
(Top view)
Outdoor unitNo.01
Indoor unit
Outdoor No.01
Indoor No.01
Indoor unit
Outdoor No.01
Indoor No.02
Indoor unit
Outdoor No.02
Indoor No.04
Indoor unit
Outdoor No.02
Indoor No.05
Indoor unit
Outdoor No.02
Indoor No.06
Indoor unit
Outdoor No.01
Indoor No.03
Outdoor unitNo.02
Interface PCB
Receiver
8Remote controller line(No polarity)
1 m
2 . 0 m
Floor surface
Within 5m
Wireless remotecontroller unit
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Trial operation8
The backup switch is provided on the receiver section. It is possible to use the backup switch as shown in the
figure below. When operation from the wireless remote controller unit is not possible (due to flat batteries, a
mislaid unit, a unit failure), the backup switch can be used as an emergency means. The backup switch isoperated manually.
(1) If pressed while the air conditioner is in a halt, it will cause the air conditioner to start operation in the
automatic mode (in the case of cooling only, in the cooling mode).
Fan speed: Hi fan, Temperature setting: 23oC, Louver: horizontal
(2) If pressed while the air conditioner is in operation, it will stop the air conditioner.
• After safety confirmation, turn on the power.
• Transmit a cooling operation command with the wireless remote controller, while the backup switch on the
receiver is depressed.
• If the backup switch on the receiver is pressed during a test run, it will end the test run.
• If the air conditioner can not operate properly during the test run, check wiring according to the trouble shooting
guides.
Backup switch
Cooling test run operation
Backup switch
<FDK71><FDK22-56>
Backup switch
NOTE
1. After over 2 minute from power on, operate the wireless remote controller.
The operation is invalid during 2 minute from power on.
2. Check indicator lamp “check1” / “check2” shows error code.
The number of blinking shows the error code number of tens/ones place and check1/check2 corresponds to
tens/ones place.
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300)
(d) FDE Series (RCN-E-E)PFA012D619A
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(e) FDFW Series (RCN-FW-E)
WIRELESS KIT INSTALLATION MANUAL
Accessories
Please make sure that you have all of the following accessories.Remote controller
holderAAA dry cell battery
(RO3)Wood screw
for holderWireless remote
controller
1 1 12 2
Screw for display
2 1
1
Display labelControl ASSY
The interface PCB has the followingswitches to set the function.
Default setting is shown with mark.
1. Remove the upper case of the interface PCB assy.2. Change the switch setting on PCB.
Setting on site To change setting
NOTE
When SW1-1 is turned to off position, change the wireless remote
controller setting.
For the method of changing the setting, refer to Setting to avoid
mixed communication on page 372.
Preparation before installation2
ON : Normal (1ch)
OFF : Customized (2ch)
Prevents interferenceduring plural setting
Receiver master/slavesetting
Buzzer valid/invalid
Auto restart
SW1-1
SW1-2
SW1-3
SW1-4
ON : Master
OFF : Slave
ON : ValidOFF : Invalid
OFF : Invalid
Indication for error
Not in use
SW1-5
SW1-6
ON : Valid
OFF : Invalid
ON : – – –
OFF : – – –
1 2 3 4 5 6
ON
OFF
Receiver
Terminal
Interface PCBupper case
Switch
Default settings
SW1
ON : Valid
WARNING
CAUTION
Turn off the power source during servicing or inspection work.
If the power is supplied during servicing or inspection work, it could cause electric shock and injury by the operating fan.
Use specified wire for electrical wiring, fasten the wiring to the terminal securely, and hold the cable securely in order not to apply
unexpected stress on the terminal.
Loose connections or hold could result in abnormal heat generation or fire.
Shut off the power before electrical wiring work.
It could cause electric shock, unit failure and improper running.
DO NOT leave the wireless kit without the cover.
In case the cover needs to be detached, protect the receiver with a packaging box or bag in order to keep it away from water and dust.
• Instruct the customer how to operate it correctly referring to the instruction manual.
• For the installation method of the air conditioner itself, refer to the installation manual enclosed in the package.
DO NOT install it in the following places.
Attention
(1) Places exposed to direct sunlight
(2) Places near heat devices
(3) High humidity places(4) Hot surface or cold surface enough to generate condensation
(5) Places directly exposed to oil mist or steam
(6) Places where the receiver is influenced by the fluorescent lamp
(especially inverter type) or sunlight.
(7) Places where the receiver is affected by infrared rays of anyother communication devices
(8) Places where some object may obstruct the communication with
the remote controller
305
PGF012D002
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Ensure the correctpolarity wheninserting.
How to install the control assy3
The control assy (Receiver and Interface PCB assy) can be installed inside the indoor unit.After turning off the power and confirming safety, execute as follows.
Remove Inlet panel
a) Pull the inlet panel towards you at the upper side of bothsides, and detach the latches.b) Remove the retainer string from the front panel.c) Remove the inlet panel.
1
Remove Front panela) Remove the fixing screw. (5 pieces)b) Detach the latches at the upper side of the front panel. (3 places)
If difficult to remove the latch, detach the latch portion by usingstraight screw driver, for example.
c) Move the lower part of the front panel towards you.d) Detach the latches at the lower side of the front panel. (6 places)
2
Put back Front panela) Place the front panel over the indoor unit.b) Hang the latches on the lower side of the front panel. (6 places)c) Hang the latches on the upper side of the front panel. (3 places)d) Tighten the fixing screw. (5 pieces)
5
Put back Inlet panela) Put the lower side of the inlet panel on the front panel.b) Hang the retainer string on the claw of the front panel.c) Snap the latch of the inlet panel upper side into the front panel.
6
3
Install Control assya) Fix the receiver on the indoor unit, by the attached screw.
(2 pieces, refer to figure 1)Make sure that the claw of the receiver hungs on the clawof the indoor unit control box. (Refer to figure 2)
b) Put the interface PCB assy on the indoor unit control box.Put the interface PCB assy securely in the innermostlocation, when installing the front panel. (Refer to figure 3)
c) Fix the wiring on indoor unit control box by the clips.(3 places, refer to figure 4)
d) Fix the terminal of the wiring assy (for X, Y) on the lowerside terminal block of the indoor unit. (Non-polarity)
4
CAUTIONWhen removing the inletpanel, be careful not todrop it on your feet.
CAUTION DO NOT install it in the following places.
1. Places exposed to direct sunlight
3. Places near heat devices
5. High humidity places
Detach the back lid.
Insert the batteries.
(two AAA batteries)
Reattach the back lid.
Wood screw
2. Hot surface or cold surface enough to generate condensation
4. Places directly exposed to oil mist or steam
6. Uneven surface
Installation tips for the remote controller holder How to insert batteries
• Adjust and keep the holderup right.
• Tighten the screw to the endto avoid scratching theremote controller.
• DO NOT attach the holderon plaster wall.
How to install the wireless remote controller4
1
2
3
Latch
Latch
Pull
Clip
Screw
Claw
Remove Display label and stick on Display labela) Peel off the original display label, on the upper side. (★ Mark)
Press the back side of label, then the label floats.
b) Stick the attached display label on the same location.CAUTION MUST change the display label.If the display label is not changed, the receiver can not receive the signal from the remote controller.
Terminal block(X, Y)
Holder for remote controller
Screw
fig. 3
fig. 1
fig. 4
fig. 2
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In case of plural setting, check the operation distance of wireless remote controller, and avoid mixed
communication.
Refer to 7 Wireless remote controller operation distance on page 373 about the operation distance.
It is necessary to change setting of interface PCB and wireless remote controller.
(1) Interface PCB
Set SW1-1 to “OFF” position.
(2) Wireless remote controllerPressing ACL and AIR FLOW button at the same time or inserting the batteries with
pressing AIR FLOW button will customize the signal.
VRF system (except heat recovery 3-pipe system) cannot be operated in Auto mode.
Make sure to set the remote controller for the models so as not to be able to choose
Auto mode.
Pressing ACL and MODE button at the same time or inserting the batteries with
pressing MODE button will make auto mode operation.
ATTENTION
When the batteries are removed, the setting will return to the default setting. Please
make sure to reset it when the batteries are replaced.
CAUTIONInstruct the customer to set the mentioned above when replacing the batteries.
(How to set is also mentioned in the user’s manual attached on the air conditioner.)Auto mode operation setting
Radio prevention mode
Setting to avoid mixed communication
Setting to disable the Auto mode operation
Up to two wireless kit or wired remote controller can be installed in one indoor unit group.
When two wireless kit or wired remote controller are used, it is necessary to change setting on the PCB to slave.
Master/Slave setting when using plural remote controllers
Switch Setting
Master
Slave
Contents
Master remote controller
Slave remote controller
Wired remote controller: SW1
Wireless kit: SW1-2
Function setting of interface PCB and wireless remote controller5
Wiring6
Up to 16 indoor units can be connected.
Connect indoor units with each other with 2-core wires. As
for size, refer to the following note.
The receiver wires must be connected only with the indoor
unit that will be operated by the remote controller directly.Use the rotary SW1 and SW2 provided on the indoor unit
PCB (Printed circuit board) to set unique remote control
communication address avoiding duplication.
Control plural indoor units with one remote controller
Restrictions on the thickness and length of wire
(Maximum total extension 600m.)
Standard Within 100m x 0.3mm2
Within 200m x 0.5mm2
Within 300m x 0.75mm2
Within 400m x 1.25mm2
Within 600m x 2.0mm2
1
2
3
Outdoor unit
No.01
Indoor unit
Outdoor No.01
Indoor No.01
Indoor unit
Outdoor No.01
Indoor No.02
Indoor unit
Outdoor No.02
Indoor No.04
Indoor unit
Outdoor No.02
Indoor No.05
Indoor unit
Outdoor No.02
Indoor No.06
Indoor unit
Outdoor No.01
Indoor No.03
Outdoor unit
No.02
Interface PCB
Receiver
8Remote controller line(No polarity)
306
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Wireless remote controller operation distance7
Standard signal receiving range
[Condition]
Illuminance at the receiver area: 360 lux. (When no lighting
fixture is located within 1m of indoor unit in an ordinary office)
Points for attention in connecting a plural
number of indoor units
[Condition]
Illuminance at the receiver area: 360 lux.
60o
5 m
Receivable range
(Top view)
1 2
60o 60o
(Top view)
5 m5 m
Receivable rangeReceivable range
5m
1 m
Within 5m
Wireless remotecontroller unit
Trial operation8
The backup switch is provided on the display label. It is possible to use the
backup switch as shown in the figure right. When operation from the wireless
remote controller is not possible (due to flat batteries, a mislaid unit, a unit
failure), the backup switch can be used as an emergency means. The backup
switch is operated manually.
(1) If pressed while the air conditioner is in a halt, it will cause the air
conditioner to start operation in the automatic mode (in the case of cooling
only, in the cooling mode).
Fan speed: Hi fan, Temperature setting: 23oC, Louver: horizontal
(2) If pressed while the air conditioner is in operation, it will stop the air
conditioner.
AIR SELECTION button can switch the air supply.
(1) Stop the air conditioner.
(2) Select the airflow from AIR SELECTION button on the unit display.
In case of selecting to upper airflow.
Press the AIRFLOW SELECTION button once.
UPPER AIRFLOW LED will light for ten seconds.
In case of selecting to upper and lower airflow.
When UPPER AIRFLOW LED is lit by pressing AIRFLOW SELECTION
button, press AIRFLOW SELECTION button once again.
UPPER AIRFLOW LED will turn off.
• After safety confirmation, turn on the power.
• Transmit a cooling operation command with the wireless remote controller, while the backup switch on the
receiver is depressed.
• If the backup switch on the receiver is pressed during a test run, it will end the test run.
• If the air conditioner can not operate properly during the test run, check wiring according to the trouble shooting
guides.
Backup switch
Cooling test run operation
How to select air flow
NOTE
1. After over 2 minutes from power on, operate the wireless remote controller.
The operation is invalid during 2 minutes from power on.
2. Check indicator lamp “check1” / “check2” shows error code.
The number of blinking shows the error code number of tens/ones place and check1/check2 corresponds to
tens/ones place.
1
2
AIRFLOW SELECTION button
UPPER AIRFLOW LED
Backup switch
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(f) Except for FDT, FDTC, FDK, FDE & FDFW Series (RCN-KIT3-E)This product is dedicated for heat pump unit. Never install on the unit dedicated for cooling.
(1) Wireless kit model
(2) Accessories (Confirm the following accessories).
(3) Wireless remote controller’s operable area
(a) When installed on ceiling
① Standard reachable area of the signal
[Condition] Illuminance at the receiver : 300lux (when no lighting is installed within 1m of the receiver in an ordi-
nary of fice.)
1
1
1
1
111
2
31
2
3
4
1
2
3
2
3
4
5
6
7
2
2
15
5
1
2 2
2
1
1
1
Light detectionadaptor
Wiring (3m)
Parts set (A)
Parts set (B)
Parts set (C)
Wireless remotecontroller
User’s manual
Screw for receiver
Remote controller holder
Screw for holder
AAA dry cell battery (R03)
Fixing band
Clamp
Screw for clamp
Receiver installation bracket
Screw for the bracket
Installation fitting
Model
RCN-KIT3-E
Receiver
Orientation of receiver Ceiling surface
Floor
Floor
Receivable areaof the signal
Orientation of receiver Ceiling surface
Receivable areaof the signal
22°
29°
1 . 4 m
2 . 4 m
1 m
1 . 4 m
2 . 4 m
1 m
② Correlation between illuminance at the receiver and reachable area of the signal in a plain view.
[Condition] Correlation between the reachable area of the signal and illuminance at the receiver when the remote
controller is operated at 1.1m high under the condition of ceiling height of 2.5m.
When the illuminance becomes double, the area is narrowed down to two third.
(b) When installed on wall
[Condition] Illuminance at the receiver : 800lux.
The receivable area of the signal whenthe illuminance at the receiver is 300lux.
The receivable area of the signal whenthe illuminance at the receiver is 600lux.
Floor
0.6m 1 . 6 m
Receiver
5 m o r l e s s
Wirelessremote controller
5m or less 60° or less
3 0 ° o r l e s s
3 0 °
o r l e s s
aPJZ012D060
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(4) How to install the receiver
The following two methods can be used to install the receiver onto a ceiling or a wall.
Select a method according to the installation position.
<Installation position>
① Direct installation onto the ceiling with wood screws.
② Installation with accessory's bracket
(a) Drilling of the ceiling (ceiling opening)
Drill the receiver installation holes with the following dimensions at the ceiling position where wires can be connected.
(A) Direct installation onto the ceiling withwood screws.
88mm (H) × 101mm (W)
108mm (H) × 108mm (W)(B) Installation with enclosed bracket.
(b) Wiring connection of receiver
[Caution] Do not connect the wiring to the power source
of the terminal block.
If it is connected, printed board will be damaged.
Indoor unit terminal block
Wiring(non-polarized)
Reciever
(c) Installation of the receiver
Remove the screw on the side of the receiver and sprit it into the upper case and lower case. Install the receiver with one
of the two installation methods (A) or (B) shown below.
( ) Direct installation onto the ceiling with screws
UUse this installation method when the ceiling is wooden, and there is no problem for strength in installing directly with wood
screws.
Wall opening Lower case
Hole
Wiring
Wiring
Connector Lower case
Installation holeOpening
Hole
Hole
Upper case
Lower case
Installation hole
8 8
101
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① Put through the wiring from the back side to the hole of the lower case.
② Fit the lower case into the ceiling opening. Make sure that the clearance between the convex part of the back of the
lower case and the ceiling opening must be as equal as possible on both sides.
③ Using the two installation holes shown above, fix the lower case onto the ceiling with the enclosed wood screws. (The
other four holes are not used.)
④ Connect the wiring with the wiring from the upper case by the connector.
⑤ Take out the connector to the backside from the hole of the lower case putting through the wiring at ① .
⑥ Fit the upper case and the lower case, and tighten the screws.
( ) Installation with enclosed bracket
UUse this method when installaing onto a gypsum board (7 to 18mm), etc.
Installation fitting
Bracket
Bracket Protrusion (left side of center)
[Top]
[Top]
Hole(ø10)
Protrusion(right side of center)
Lower case
Hole
Wiring
Hole (ø10)
Hole
Lower case
[Bottom]
[Bottom]
Protrusion (left side of center)
Protrusion
(right side of center)
Bracket
Installation hole
Installation hole
① Catch the two protrusion of the enclosed bracket onto the fitting as shown above, and temporarily fix with the screws.
(The bracket has an up/down and front/back orientation. Confirm the top/bottom protrusion positions and the posi-
tional relation of the ø 10 holes on the bracket and the installation hole on the lower case with the above drawing.)
② Insert the end of the installation fitting into the back of the ceiling from the opening, and tighten the screws to fix the
bracket onto the ceiling.
③ Pass the wiring from the rear side through the hole on the lower case.
④ Fit the lower case onto the bracket, and fix the lower case to the bracket using the two installation holes shown above.
(The other four holes are not used.)
⑤ Follow step① to⑥ for (A) to complete the installation.
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'10 • KX-DB-147
(5) Remote controller
Installation of the controller holder
Caution
DO NOT install it on the following places
1. Places exposed to direct sunlight2. Places near heat devices
3. High humidity places
4. Hot surface or cold surface enough to generate condensation
5. Places exposed to oil mist or steam directly
6. Uneven surface
Installation tips for the remote controller holder
• Adjust and keep the holder upright.
• Tighten the screw to the end to avoid scratching the remote controller.
• DO NOT attach the holder to plaster wall.
How to insert batteries
① Detach the back lid.
② Insert the batteries. (two AAA batteries)
③ Reattach the back lid.
(6) Cooling test run operation
f After safety confirmation, turn on the power.
f Transmit a cooling operation command with wireless remote controller, while the backup button on the receiver is pressed.
f If the backup button on the receiver is pressed during a test run, it will end the test run.
f If you cannot operate the unit properly during a test run, please check by consulting with inspection guides on the wiring
diagram of outdoor units.
Wood screw
Holder for
remotecontroller
Ensure thecorrect polaritywhen inserting.
CHECK MODE ON/
OFF
CHECK
FILTERCHECK
TIMER RUN/ CHECK
Back-up button
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'10 • KX-DB-147
(7) Setting of wireless remote controller and receiver
( ) Methods of avoiding the malfunction due to the mixed communication
Do both procedures① and② .
This setting is to avoid the mixed communication with other household electric appliances or the mixed communication when
two receivers are located closely.① Setting change of the wireless remote controller
Pressing ACL and AIRFLOW button at the same time or inserting the batteries with pressing AIRFLOW button
will customize the signal.
Note *When the batteries are removed, the setting will return to the default setting. Make sure to reset it when the batter-
ies are replaced.
② Setting the PCB of the receiver
Turn SW1-1 off.
fWireless remote controller
SW1-1ON :
OFF :
ON :
OFF :
ON :
OFF :
Setting to
avoid mixed
communication.
SW1-4
(Auto restart)
SW1-1
(Customized signal
setting to avoid
mixed communication)
SW1-2
(Receiver master/slavesetting)
SW1-2
SW1-4
Customized signal setting to avoid
mixed communication
Receiver master/slave setting
Auto restart
Normal
Remote
Master
S lave
Va l id
Inva l id
: Default setting
fPCB of the receiver
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'10 • KX-DB-147
( ) Change setting of fan speed
While pressing the FAN SPEED button, press the ACL switch, or while pressing the FAN SPEED button, insert the batteries
to the remote controller. Then the fan speed can be changed from 2-speed setting to 3-speed setting.
When changing fan speed setting of remote controller, be sure to perform the same fan speed setting as that of the indoor unit
model to be used.
Attention
When the batteries are removed, it is returned to initial setting (Fan speed setting is 2-speed).
Accordingly when replacing the batteries, be sure to perform the above operation once again.
③ For VRF series, set the indoor unit address with SW1, SW2 and SW5-2 on the indoor unit PCB from [000] to [127] so as
not to duplicate.
( ) Master/Slave setting when using plural remote controller
Up to two receivers can be installed in one indoor unit group.
( ) Control plural indoor units with one remote controller
Up to 16 indoor units can be connected.
① Connect the XY terminal with 2-core wire. As for
the size, refer to the following note.
② For Packaged air conditioner series, set the indoor
unit address with SW2 on the indoor unit PCB from
[0] to [F] so as not to duplicate.
Restrictions on the thickness and length of wire
(Maximun total extension 600m.)
Standard Within 100m x 0.3 mm2
Within 200m x 0.5 mm2
Within 300m x 0.75mm2
Within 400m x 1.25mm2
Within 600m x 2.0 mm2
KIT
Terminal block
Remote controller
Indoor unit (1)Address (0)
Indoor unit (1)Address (0)
Indoor unit (16)Address (F)
Indoor unit
Remote controller line(Non-polarized)
Switch Setting Function
SW1-2
RCN-KITSW1[Master]
RCN-KITSW1[Slave]
ON Master
OFF Slave
( ) Change setting of auto mode operation
Auto mode operation is prohibited to be selected for KX models (except for KXR models).
Therefore be sure to change setting of remote controller to disable the auto mode operation for these models according to the
following procedure.
While pressing the MODE button, press the ACL switch, or while pressing the MODE button, insert the batteries to the re-
mote controller. Then the auto mode can be invalid.
Attention
When the batteries are removed, it is returned to initial setting (Auto mode becomes valid).
Accordingly when replacing the batteries, be sure to perform the above operation once again.
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'10 • KX-DB-147
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PJZ000Z272
8.2 Simple wired remote controller (RCH-E3)Models RCH-E3
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'10 • KX-DB-147
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㪤㪋㩷㪪㪺㫉㪼㫎㩷㩿㪉㩷㫇㫀㪼㪺㪼㫊㪀
㪮㫀㫉㫀㫅㪾㩷㫆㫌㫋㫃㪼㫋㩿㪠㫅㩷㪺㪸㫊㪼㩷㫆㪽㩷㪼㫄㪹㪼㪻㪻㫀㫅㪾㩷㫎㫀㫉㫀㫅㪾㪀
㪠㫅㫊㫋㪸㫃㫃㪸㫋㫀㫆㫅㩷㪿㫆㫃㪼㪈㪉㬍㪎㩷㪪㫃㫆㫋㩷㪿㫆㫃㪼
㪐㬍㪋㪅㪌㩷㪪㫃㫆㫋㩷㪿㫆㫃㪼㩷䋨㪉㩷㫇㫃㪸㪺㪼㫊䋩
㪣㪼㫅㪾㫋㪿 㪮㫀㫉㫀㫅㪾㩷㫋㪿㫀㪺㫂㫅㪼㫊㫊
㪈㪇㪇㩷㫋㫆㩷㪉㪇㪇㫄 㪇㪅㪌㫄㫄㪉㬍㪉㩷㪺㫆㫉㪼㫊
㪇㪅㪎㪌㫄㫄㪉㬍㪉㩷㪺㫆㫉㪼㫊
㪈㪅㪉㪌㫄㫄㪉㬍㪉㩷㪺㫆㫉㪼㫊
㪉㪅㪇㫄㫄㪉㬍㪉㩷㪺㫆㫉㪼㫊
㪬㫅㪻㪼㫉㩷㪊㪇㪇㫄
㪬㫅㪻㪼㫉㩷㪋㪇㪇㫄
㪬㫅㪻㪼㫉㩷㪍㪇㪇㫄
㪪㪿㪼㪸㫋㪿
㪬㫇㫇㪼㫉㩷㪺㪸㫊㪼
㪬㫇㫇㪼㫉㩷㪺㪸㫊㪼
㫎㫀㫉㫀㫅㪾
㪇㪅㪊㫄㫄㪉㬍㪉㩷㪺㫆㫉㪼㫊㪅
㪯㪃㩷㪰㩷㪫㪼㫉㫄㫀㫅㪸㫃㩷㪹㫃㫆㪺㫂
㪘㫋㫋㪸㪺㪿㩷㪤㪊㩷㫊㪺㫉㪼㫎㩷㫎㫀㫋㪿㩷㫎㪸㫊㪿㪼㫉
㩿㪈㪀㩷㪮㫀㫉㫀㫅㪾㩷㫆㪽㩷㫉㪼㫄㫆㫋㪼㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉㩷㫊㪿㫆㫌㫃㪻㩷㫌㫊㪼㩷㪇㪅㪊㫄㫄㪉㩷×㩷㪉㩷㪺㫆㫉㪼㩷㫎㫀㫉㪼㫊㩷㫆㫉㩷㪺㪸㪹㫃㪼㫊㪅㩷㩿㫆㫅㪄㫊㫀㫋㪼㩷㪺㫆㫅㪽㫀㪾㫌㫉㪸㫋㫀㫆㫅㪀㩷㩿㪉㪀㩷㪤㪸㫏㫀㫄㫌㫄㩷㫇㫉㫆㫃㫆㫅㪾㪸㫋㫀㫆㫅㩷㫆㪽㩷㫉㪼㫄㫆㫋㪼㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉㩷㫎㫀㫉㫀㫅㪾㩷㫀㫊㩷㪍㪇㪇㫄㪅㩷㩷㩷㩷㩷㪠㪽㩷㫋㪿㪼㩷㫇㫉㫆㫃㫆㫅㪾㪸㫋㫀㫆㫅㩷㫀㫊㩷㫆㫍㪼㫉㩷㪈㪇㪇㫄㪃㩷㪺㪿㪸㫅㪾㪼㩷㫋㫆㩷㫋㪿㪼㩷㫊㫀㫑㪼㩷㪹㪼㫃㫆㫎㪅㩷㩷㩷㩷㩷㪙㫌㫋㪃㩷㫋㪿㪼㩷㫎㫀㫉㫀㫅㪾㩷㫀㫅㩷㫋㪿㪼㩷㫉㪼㫄㫆㫋㪼㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉㩷㪺㪸㫊㪼㩷㫊㪿㫆㫌㫃㪻㩷㪹㪼㩷㪇㪅㪊㫄㫄㪉㩷㩿㫉㪼㪺㫆㫄㫄㪼㫅㪻㪼㪻㪀㩷㫋㫆㩷㪇㪅㪌㫄㫄㪉㪅㩷㩷㩷㩷㩷㪚㪿㪸㫅㪾㪼㩷㫋㪿㪼㩷㫎㫀㫉㪼㩷㫊㫀㫑㪼㩷㫆㫌㫋㫊㫀㪻㪼㩷㫆㪽㩷㫋㪿㪼㩷㪺㪸㫊㪼㩷㪸㪺㪺㫆㫉㪻㫀㫅㪾㩷㫋㫆㩷㫎㫀㫉㪼㩷㪺㫆㫅㫅㪼㪺㫋㫀㫅㪾㪅㩷㪮㪸㫋㪼㫉㫇㫉㫆㫆㪽㩷㫋㫉㪼㪸㫋㫄㪼㫅㫋㩷㫀㫊㩷㩷㩷㩷㩷㫅㪼㪺㪼㫊㫊㪸㫉㫐㩷㪸㫋㩷㫋㪿㪼㩷㫎㫀㫉㪼㩷㩷㩷㩷㩷㪺㫆㫅㫅㪼㪺㫋㫀㫅㪾㩷㫊㪼㪺㫋㫀㫆㫅㪅㩷㪙㪼㩷㪺㪸㫉㪼㪽㫌㫃㩷㪸㪹㫆㫌㫋㩷㪺㫆㫅㫋㪸㪺㫋㩷㪽㪸㫀㫃㫌㫉㪼㪅
㪫㪿㫀㫅㩷㫇㪸㫉㫋
㪫㪿㪼㩷㫉㪼㫄㫆㫋㪼㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉㩷㫎㫀㫉㫀㫅㪾㩷㪺㪸㫅㩷㪹㪼㩷㪼㫏㫋㫉㪸㪺㫋㪼㪻㩷㪽㫉㫆㫄㩷㫋㪿㪼㩷㫌㫇㫇㪼㫉㩷㪺㪼㫅㫋㪼㫉㪅㩷㪘㪽㫋㪼㫉㩷㫋㪿㪼㩷㫋㪿㫀㫅㩷㫇㪸㫉㫋㩷㫀㫅㩷㫋㪿㪼㩷㫌㫇㫇㪼㫉㩷㫊㫀㪻㪼㩷㫆㪽㩷㫋㪿㪼㩷㫉㪼㫄㫆㫋㪼㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉㩷㫌㫇㫇㪼㫉㩷㪺㪸㫊㪼㩷㫀㫊㩷㫊㪺㫉㪸㫇㪼㪻㩷㫎㫀㫋㪿㩷㪸㩷㫅㫀㫇㫇㪼㫉㩷㫆㫉㩷㫂㫅㫀㪽㪼㪃㩷㫉㪼㫄㫆㫍㪼㩷㪹㫌㫉㫉㩷㫎㫀㫋㪿㩷㪸㩷㪽㫀㫃㪼㪅
㪪㪿㪼㪸㫋㪿㪧㪼㪼㫃㫀㫅㪾㩷㫃㪼㫅㪾㫋㪿
㪯㩷㫎㫀㫉㫀㫅㪾㩷㪑㩷㪈㪍㪇㫄㫄
㪰㩷㫎㫀㫉㫀㫅㪾㩷㪑㩷㪈㪌㪇㫄㫄
㪈 㪉 㪇
㪎㪇
㪣㩷㪚㩷㪛
㪫㪿㪼㩷㫇㪼㪼㫃㫀㫅㪾㩷㫃㪼㫅㪾㫋㪿㩷㫆㪽㩷㪼㪸㪺㪿㩷㫎㫀㫉㫀㫅㪾㩷㫀㫊㩷㪸㫊㩷㪽㫆㫃㫃㫆㫎㫊㪑
㪘㪻㪸㫇㫋㪼㪻㩷㫋㫆㩷RoHS㩷㪻㫀㫉㪼㪺㫋㫀㫍㪼
㪬㫅㫀㫋㪑㫄㫄
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'10 • KX-DB-147
Simple Remote Controller Installation Manual
ead together with indoor unit's installation manual.
WARNING
● Fasten the wiring to theterminal securely and hold the cable securely so as not to applyunexpected stress on the terminal.
Loose connection or hold will cause abnormal heat generation or fire.
● Make sure the power supply is turned off when electric wiring work.
Otherwise, electric shock, malfunction and improper running may occur.
CAUTION
● DO NOT leave the remote controller without the upper case.
In case the upper cace needs to be detached, protect the remote controller with a packaging box
or bag in order to keep it away from water and dust.
● DO NOT install the remote controller at the following places in order to avoid malfunction.
(1) Places exposed to direct sunlight (4) Hot surface or cold surface enough to generate condensation
(2) Places near heat devices (5) Places exposed to oil mist or steam directly
(3) High humidity places (6) Uneven surface
Accessories Remote controller, wood screw (Ǿ3.5×16) 2 pieces
Prepare on site Remote controller cord (2 cores) (Refer to [2. Installation and wiring of remote controller])
[In case of embedding cord] Electrical box, M4 screw (2 pieces)
[In case of exposing cord] Cord clamp (if needed)
1. Installation procedure
In case of embedding cord
⑴ Make certain to remove the screw on the bottom
surface of the remote controller.
⑵ Remove the upper case of the remote controller.
Insert a flat-blade screwdriver to a concave portion of the bottom
surface of the remote controller and slightly twist it, and the case is
removed.
⑶ Pre-bury the electrical box and remote controller cord.
⑷ Prepare two M4 screws (recommended length: 12– 16mm), and install the lower case to the electrical box.
Do not use a screw whose screw head is larger than the height of the wall around the screw hole.
⑸ Connect the remote controller cord to the terminal block.
Connect the terminals (X and Y) of the remote controller and the terminals (X and Y) of the indoor
unit. (No polarity of X and Y)
⑹ Mount the upper case for restoring to its former state so as not to crimp the remote controller cord,
and secure with the removed screw.
In case of exposing cord
⑴ Make certain to remove a screw on the bottom surface of the
remote controller.
⑵ Remove the upper case of the remote controller.
Insert a flat-blade screwdriver to a concave portion of
the bottom surface of the remote control and slightly
twist it, and the case is removed.
⑶ The remote controller cord can be extracted from the
upper center.
After the thin part in the upper side of the remote
controller upper case is scraped with a nipper or knife,
remove burr with a file.
⑷ The lower case of the remote controller is mounted to
a flat wall with two accessory wood screws.
⑸ Connect the remote controller cord to the terminal block.
Connect the terminals (X and Y) of the remote controller and
the terminals (X and Y) of the indoor unit. (No polarity of X and
Y)
The wiring route is as shown in the right.
The wiring in the remote controller case should be 0.3 mm2
(recommended) to 0.5 mm2
at
maximum.
Further, peel off the sheath.
The peeling length of each wiring is as follows:
X wiring : 160mm
Y wiring : 150mm
⑹ Mount the upper case for res to ring to i ts former s ta te so as not to
crimp the remote controller cord, and secure with the removed screw.
⑺ In the case of exposing installation, secure the remote controller cord to the wall surface with a
cord clamp so as not to loosen the remote controller cord.
2. Installation and wiring of remote controller
⑴ Wiring of remote controller should use 0.3mm2
× 2 core wires or cables. (on-site configuration)
⑵ Maximum prolongation of remote controller wiring is 600 m.
If the prolongation is over 100m, change to the size below.
But, the wiring in the remote controller case should be 0.3mm2
(recommended) to 0.5mm2.
Change the wire size outside of the case according to wire connecting. Waterproof treatment is
necessary at the wire
connecting section. Be careful about contact failure.
100 - 200m・・・・・・・・・・・・・・・・・0.5mm2× 2 cores
Under 300m・・・・・・・・・・・・・・・・・0.75mm2
× 2 coresUnder 400m・・・・・・・・・・・・・・・・・1.25mm
2× 2 cores
Under 600m・・・・・・・・・・・・・・・・・2.0mm2× 2 cores
PJZ012D069
Screw
⑴
Lower case
Wallsurface
⑷
㪯 㪰
⑸
⑶
Remote controller cord
Electrical box
Prepare on site
Two M4 screws (head: ø8 or less) (prepare on site)
⑷
Screw
⑴
SheathPeeling length
Wiring outlet
Lower case
⑵
Upper case
⑵
Upper case
⑶
Thin part
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'10 • KX-DB-147
[In the case of selecting the indoor unit function (07-14)]
① “88” blinks on the temperature setting indicators.
(blinking for approximately 2 to 10 seconds while data is read)
↓
After that, the current setting number of the selected function number blinks.
(Example)
Function number: “07” (lighting)
Setting number: “01” (blinking)
Proceed to ② .
[Note]
a. In the case of connecting one remote control to plural i ndoor units, the display
will be as follows:
Indoor unit No. display: “U 000” (blinking)
(Display the lowest number among the connected indoor units.)
b. Press TEMP△ or TEMP▽ button.
Select the indoor unit No. to be set.
If “U ALL” is selected, the same setting can be set to all units.
c. Press MODE button.
Decide the indoor unit No.
“88” blinks on the temperature setting indicators. (blinking for 2 to 10 seconds while data
is read)
When AIR CON NO. button is pressed, go back to the indoor unit selection display (for
example, “U 000” blinking).
② Press TEMP△ or TEMP▽ button.
Select the setting number
③ Press MODE button.
The setting is completed.
Light is on for approximately 3 to 20 seconds while data of the decided function No. and
setting No. is transmitted.
(Example)
Indoor unit No.: “U 000” (lighting for 3 to 20 seconds)
Function number: “07” (lighting for 3 to 20 seconds)
Setting number: “01” (lighting for 3 to 20 seconds)
Then, the screen goes back to the function number blinking indication ⑴ , if the setting
is sequentially conducted, continue with the same procedures. If the setting is finished,
proceed to ⑸ .
⑴ Stop air-conditioning, and simultaneously press AIR CON NO. and MODE buttons
at the same time for over three seconds.
The function number “01” blinks in the upper right.
⑵ Press TEMP△ or TEMP▽ button.
Select the function number.
⑶ Press MODE button.
Decide the function number.
⑷ [In the case of selecting the remote controller function (01-06)]
① The current setting number of the selected function number blinks
(Example)
Function number: “01” (lighting)
Setting number: “01” (blinking)
② Press TEMP△ or TEMP▽ button.
Select the setting number.
③ Press MODE button.
The setting is completed.
Light is on for approximately 3 to 20 seconds while data of the
decided function No. and setting No. is transmitted.
(Example)
Function number: “01” (lighting for 3 to 20 seconds)
Setting number: “01” (lighting for 3 to 20 seconds)
Then, the screen goes back to the function number blinking
indication ⑴ , if the setting is s equentially conducted, continue
with the same procedures. If the setting is finished, proceed to ⑸ .
⑸ Press ON/OFF button.
The setting is completed.
Function number
Function number
Setting number
Function number
Setting number
Function number
Setting number
Function numberIndoor unit No.
Indoor unit No.(In the case ofconnectingplural indoorunits)
Function number
Setting number
・Even if ON/OFF button is pressed during setting, the setting is ended. However, any details where the setting has not been completed will be ineffective.
・The setting contents are stored in the controller, and even if the power failure occur, this will not be lost.
[Confirmation method for current setting]
According to the operation, the “setting number” displayed first after selecting “function number” and pressing MODE button is the currently set content.
(However, in the case of selecting “U ALL” (all units), the setting number of the lowest number among the indoor units is displayed.)
Decide button
Start button
Select button
End button
7. How to set functions by button operation
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'10 • KX-DB-147
㩷㩷㩷㩷㩷㩷㩷㪫㪿㪼㩷㫎㪸㫐㩷㫆㪽㩷㫀㫅㫊㫋㪸㫃㫃㫀㫅㪾㩷㫋㪿㪼㩷㫆㫇㫋㫀㫆㫅㪸㫃㩷㪽㪸㫅㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉㩷㪽㫆㫉㩷㪿㫀㪾㪿㩷㫊㫋㪸㫋㫀㪺㩷㫇㫉㪼㫊㫊㫌㫉㪼㩷㪻㫌㪺㫋㫊㪅㩷㪠㫅㫊㫋㪸㫃㫃㩷㫋㪿㪼㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉㩷㫀㫅㩷㪸㪺㪺㫆㫉㪻㪸㫅㪺㪼㩷㫎㫀㫋㪿㩷㫋㪿㪼
㩷㩷㩷㩷㩷㩷㩷㪽㫆㫃㫃㫆㫎㫀㫅㪾㩷㫇㫉㫆㪺㪼㪻㫌㫉㪼㪅㩷
㪮㪘㪩㪥㪠㪥㪞
㪌㪋㪊
㪈
㪉
㪍
㪏
㪎
㪈㪀㩷㩷㪘㫇㫇㫃㫀㪺㪸㪹㫃㪼㩷㫄㫆㪻㪼㫃㫊㩷㪸㫅㪻㩷㪺㫆㫉㫉㪼㫊㫇㫆㫅㪻㫀㫅㪾㩷㪽㪸㫅㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉㩷㫂㫀㫋
㪉㪀㩷㩷㪚㫆㫄㫇㫆㫅㪼㫅㫋㩷㫇㪸㫉㫋㫊㩷㫃㫀㫊㫋
㪊㪀㩷㩷㪜㫃㪼㪺㫋㫉㫀㪺㩷㪺㫀㫉㪺㫌㫀㫋㩷㪻㫀㪸㪾㫉㪸㫄㩷䋨㪚㪿㪸㫅㪾㪼㩷㫋㪿㪼㩷㫊㪼㪺㫋㫀㫆㫅㫊㩷㫀㫅㪻㫀㪺㪸㫋㪼㪻㩷㫎㫀㫋㪿㩷㪹㪸㫃㪻㩷㫃㫀㫅㪼㫊㪅䋩
㽲㩷㪚㫆㫅㫊㫌㫃㫋㩷㫐㫆㫌㫉㩷㪻㪼㪸㫃㪼㫉㩷㪽㫆㫉㩷㫋㪿㪼㩷㫀㫅㫊㫋㪸㫃㫃㪸㫋㫀㫆㫅㩷㫆㪽㩷㫋㪿㪼㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉㪅
㽳㩷㪦㫅㫃㫐㩷㫈㫌㪸㫃㫀㪽㫀㪼㪻㩷㪼㫃㪼㪺㫋㫉㫀㪺㫀㪸㫅㩷㫄㫌㫊㫋㩷㫀㫅㫊㫋㪸㫃㫃㩷㫋㪿㪼㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉㪅
㽴㩷㪩㪼㫄㫆㫍㪼㩷㫋㪿㪼㩷㪺㫆㫅㫋㫉㫆㫃㩷㪹㫆㫏㩷㪹㪼㪽㫆㫉㪼㩷㫋㪿㪼㩷㫀㫅㫊㫋㪸㫃㫃㪸㫋㫀㫆㫅㪅
㩷㩷㩷㩷㪙㪼㪽㫆㫉㪼㩷㫀㫅㫊㫋㪸㫃㫃㫀㫅㪾㩷㫋㪿㪼㩷㫇㫉㫆㪻㫌㪺㫋㪃㩷㫋㪸㫂㪼㩷㫀㫋㩷㫆㫌㫋㩷㪽㫉㫆㫄㩷㫋㪿㪼㩷㫇㪸㪺㫂㪸㪾㪼㩷㪸㫅㪻㩷㫇㫃㪸㪺㪼㩷㫀㫋㩷㫆㫅㩷㫋㪿㪼㩷㪽㫃㫆㫆㫉㪅
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㩷㩷㩷㩷㪬㫅㫃㪼㫊㫊㩷㫋㪿㪼㩷㪸㪹㫆㫍㪼㩷㫇㫉㪼㪺㪸㫌㫋㫀㫆㫅㫊㩷㪸㫉㪼㩷㫆㪹㫊㪼㫉㫍㪼㪻㪃㩷㫀㫋㩷㪺㫆㫌㫃㪻㩷㪺㪸㫌㫊㪼㩷㪼㫃㪼㪺㫋㫉㫀㪺㪸㫃㩷㫊㪿㫆㪺㫂㫊㩷㫆㫉㩷㪽㫀㫉㪼㪅
㪤㫆㪻㪼㫃 㪝㪛㪬㪉㪉㪋㪃㪉㪏㪇
㪬㪄㪝㪚㪩㪘㪝㪸㫅㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉㩷㫂㫀㫋
㪝㪸㫅㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉
㪈㩷㫇㫀㪼㪺㪼
㪸㩷䋨㪣㪔㪐㪉䋩䋺㪌㩷㫇㫀㪼㪺㪼㫊
㪙㪸㫅㪻
㪫㪸㫇㫇㫀㫅㪾㩷㫊㪺㫉㪼㫎
㪉㩷㫇㫀㪼㪺㪼㫊䋨㪤㪊䋺㪉㩷㫇㪺㫊㪅䋩
㪌㪉㪝㪣㪃㪋
㪝㪟㪉
㪮㫀㫉㫀㫅㪾㩷㪘
㪝㪈
㪝㪉
㪌㪉㪝㪟㪃㪋
㪌㪉㪝㪣㪃㪍
㪌㪉㪝㪟㪃㪍
㪌㪉㪝㪣㪃㪊
㪌㪉㪝㪟㪃㪊
㪌㪉㪝㪣㪃㪌
㪌㪉㪝㪟㪃㪌
㪓㪝㪚㪕㪚㪥㪝
㪝㪟㪈
㪚㪝㪠㪉
㪚㪝㪠㪈
㪓㪝㪤㪠㪄㪈㪕㪚㪥㪝㪉
㪚㪥㪝㪊㪓㪝㪤㪠㪄㪉㪕
䋨㪩㪐䋩㪚㪥㪙
㪫㪙㪉㪃㪯䋨㪘㪢㪋䋩
㪫㪙㪉㪃㪰䋨㪘㪋䋩
㪮㫀㫉㫀㫅㪾㩷㪙
㪝䋨㪊㪅㪈㪌㪘䋩
㪝䋨㪊㪅㪈㪌㪘䋩
㪝㪣
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㪰㪼㫃㫃㫆㫎
㪌㪉㪝㪣 㪌㪉㪝㪟 㪌㪉㪝㪣 㪌㪉㪝㪟
㪮㪿㫀㫋㪼 㪮㪿㫀㫋㪼㪮㪿㫀㫋㪼
㪮㪿㫀㫋㪼
㪮㪿㫀㫋㪼
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㪮㪿㫀㫋㪼
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䋨㪍㪅㪊㪘䋩 䋨㪍㪅㪊㪘䋩
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㪮㪿㫀㫋㪼 㪩㪼㪻
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㪮㪿㫀㫋㪼
㪰㪼㫃㫃㫆㫎
㪦㫉㪸㫅㪾㪼㪝㪤㪠㪈
㪦㫉㪸㫅㪾㪼
㪰㪼㫃㫃㫆㫎
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㪰㪼㫃㫃㫆㫎
㪦㫉㪸㫅㪾㪼
㪰㪼㫃㫃㫆㫎
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㪚㪥㪝㪌
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㪚㪥㪝㪌㪟
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㪚㪝㪠㪉
㪚㪥㪝㪊
㪮㪿㫀㫋㪼
㪦㫉㪸㫅㪾㪼
㪰㪼㫃㫃㫆㫎
㪌㪉㪝㪣 㪌㪉㪝㪟 㪌㪉㪝㪣 㪌㪉㪝㪟
㪮㪿㫀㫋㪼 㪮㪿㫀㫋㪼㪮㪿㫀㫋㪼
㪮㪿㫀㫋㪼
㪮㪿㫀㫋㪼
㪮㪿㫀㫋㪼
㪮㪿㫀㫋㪼
㪝 㪝
㪝㪤㪠㪉
䋨㪍㪅㪊㪘䋩 䋨㪍㪅㪊㪘䋩
㪮㪿㫀㫋㪼 㪩㪼㪻
㪩㪼㪻
㪮㪿㫀㫋㪼
㪮㪿㫀㫋㪼
㪰㪼㫃㫃㫆㫎
㪦㫉㪸㫅㪾㪼㪝㪤㪠㪈
㪦㫉㪸㫅㪾㪼
㪰㪼㫃㫃㫆㫎
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㪦㫉㪸㫅㪾㪼
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㪮㪿㫀㫋㪼
㪮㪿㫀㫋㪼㪝䋨㪊㪅㪈㪌㪘䋩
㪮㪿㫀㫋㪼
㪝䋨㪊㪅㪈㪌㪘䋩
㪥㪼㫎
㪮㪿㫀㫋㪼
㪙㫃㫌㪼
㪩㪼㪻
㪚㪥㪝
㪙㫃㪸㪺㫂
㪙㫃㪸㪺㫂
㪙㫃㪸㪺㫂
㪝㩷㪚
㪮㪿㫀㫋㪼
㪮㪿㫀㫋㪼
㪈㪉
㪧㫉㫀㫅㫋㪼㪻㩷㪺㫀㫉㪺㫌㫀㫋㩷㪹㫆㪸㫉㪻
㪚㪥㪙
㪈 㪊
㪫㪙㪉
㪮㪿㫀㫋㪼
㫋㫦
㪧 㫀㫅 㫂 㪧㫀 㫅㫂
㪩 㪼㪻 㪙 㫃㪸 㪺㫂
㪩 㪼㪻 㪙 㫃㪸 㪺㫂
㪧 㫀㫅 㫂 㪧 㫀㫅 㫂
㪩 㪼㪻 㪙 㫃㪸 㪺㫂
㪮㪿㫀㫋㪼
㪩 㪼㪻 㪙 㫃㪸 㪺㫂
㪩 㪼㪻 㪙 㫃㪸 㪺㫂
㪮 㪿㫀 㫋㪼 㪙 㫃㪸 㪺㫂
㪮㪿㫀㫋㪼 㪙㫃㪸㪺㫂
㪩㪼㫄㫆㫋㪼㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉 㪮㪿㫀㫋㪼
㪈㪉
㪧㫉㫀㫅㫋㪼㪻㩷㪺㫀㫉㪺㫌㫀㫋㩷㪹㫆㪸㫉㪻
㪚㪥㪙
㪈 㪊
㪫㪙㪉
㪮㪿㫀㫋㪼
㫋㫦
㪧㫀 㫅㫂 㪧㫀 㫅㫂
㪩 㪼㪻 㪙㫃 㪸㪺 㫂
㪩 㪼㪻 㪙㫃 㪸㪺 㫂
㪧㫀 㫅㫂 㪧㫀 㫅㫂
㪩 㪼㪻 㪙㫃 㪸㪺 㫂
㪮㪿㫀㫋㪼
㪩 㪼㪻 㪙㫃 㪸㪺 㫂
㪩 㪼㪻 㪙㫃 㪸㪺 㫂
㪮 㪿㫀 㫋㪼 㪙 㫃㪸 㪺㫂
㪮㪿㫀㫋㪼 㪙㫃㪸㪺㫂
㪩㪼㫄㫆㫋㪼㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉
㪫㪿㪺 㪫㪿㪺
8.3 Fan controller kit for high static pressure duct. (U-FCRA)
PJD012D049
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
http://slidepdf.com/reader/full/10-kx-db-147-vrf-inverter-multi-system-air-conditioners-220v-fdc224-fdc335 323/324
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'10 • KX-DB-147
㪯
㪯
㪰
㪰
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㪯
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㪍㪧㪃㪮㪿㫀㫋㪼
㪍㪧㪃㪮㪿㫀㫋㪼
㪚㫅㪝㪉㪚㫅㪝㪊
㪚㪝㪠䋱
㪚㪝㪠㪉
䋵䋲㪝㪟
䋵䋲㪝㪣
㪍㪧㪃㪮㪿㫀㫋㪼
㪍㪧㪃㪮㪿㫀㫋㪼
㪚㫅㪝㪉㪚㫅㪝㪊
㪚㪝㪠䋱
㪚㪝㪠㪉
䋵䋲㪝㪟
䋵䋲㪝㪣
㪚㪥㪝
㪝㪈㩷㩿㪍㪅㪊㪘㪀
㪝㪉㩷㩿㪍㪅㪊㪘㪀
䋼㪧㫉㪼㪺㪸㫌㫋㫀㫆㫅㫊㩷㪽㫆㫉㩷㫎㫀㫉㫀㫅㪾䋾
㪋㪀㩷㩷㪠㫅㫊㫋㪸㫃㫃㪸㫋㫀㫆㫅㩷㫇㫉㫆㪺㪼㪻㫌㫉㪼
㩷㩷㪸䋩㩷㪩㪼㫄㫆㫍㪼㩷㫋㪿㪼㩷㫃㫀㪻㩷㪽㫉㫆㫄㩷㫋㪿㪼㩷㪺㫆㫅㫋㫉㫆㫃㩷㪹㫆㫏㪅㩷㩷㪹䋩㩷㪩㪼㫄㫆㫍㪼㩷㫋㪿㪼㩷㫎㫀㫉㫀㫅㪾㩷䋨㪽㫌㫊㪼䌾㪚㪥㪝㪉㪃㪊䋩㩷㪸㫅㪻㩷㫎㫀㫉㫀㫅㪾䋨㪫㪙㩷㪯㩷㩷㪰㩷䌾㪚㪥㪙䋩㪅
㩷
㩷㩷㪺䋩㩷㪠㫅㫊㫋㪸㫃㫃㩷㫋㪿㪼㩷㪽㪸㫅㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉㪅
㩷㩷㪻䋩㩷㪩㪼㪽㪼㫉㫉㫀㫅㪾㩷㫋㫆㩷㵰㪊㪀㩷㪜㫃㪼㪺㫋㫉㫀㪺㩷㪺㫀㫉㪺㫌㫀㫋㩷㪻㫀㪸㪾㫉㪸㫄㵱㪃㪺㫆㫅㫅㪼㪺㫋㩷㫎㫀㫉㪼㫊㩷㪸㫊㩷㫀㫃㫃㫌㫊㫋㫉㪸㫋㪼㪻㩷㪸㫅㪻㩷㪽㫀㫏㩷㫎㫀㫋㪿㩷㪹㪸㫅㪻㫊㩷㩷㪸㩷㪅
㩷㩷㪼䋩㩷㪩㪼㫀㫅㫊㫋㪸㫃㫃㩷㫋㪿㪼㩷㫉㪼㫄㫆㫍㪼㪻㩷㫃㫀㪻㩷㫆㫅㩷㫋㪿㪼㩷㪺㫆㫅㫋㫉㫆㫃㩷㪹㫆㫏㪅
䂾㩷㪚㫆㫅㫅㪼㪺㫋㩷㫎㫀㫉㪼㫊㩷㪺㫆㫉㫉㪼㪺㫋㫃㫐㩷㪸㫊㩷㫊㪿㫆㫎㫅㩷㪹㫐㩷㫋㪿㪼㩷㪼㫃㪼㪺㫋㫉㫀㪺㩷㫎㫀㫉㫀㫅㪾㩷㪻㫀㪸㪾㫉㪸㫄㪅㩷㪙㪼㩷㫊㫌㫉㪼㩷㫋㫆㩷㫋㫀㪾㪿㫋㪼㫅㩷㫊㪼㫋㩷㫊㪺㫉㪼㫎㫊㩷㪽㫀㫉㫄㫃㫐㩷㫋㫆㩷㫇㫉㪼㫍㪼㫅㫋
㩷㩷㩷㩷㩷㫋㪿㪼㫄㩷㪾㪼㫅㪼㫉㪸㫋㫀㫅㪾㩷㪿㪼㪸㫋㩷㫆㫉㩷㪺㪸㫌㫊㫀㫅㪾㩷㫆㫋㪿㪼㫉㩷㫋㫉㫆㫌㪹㫃㪼㫊㩷㪸㪽㫋㪼㫉㩷㪹㪼㪺㫆㫄㫀㫅㪾㩷㫃㫆㫆㫊㪼㪅
䂾㩷㪥㫌㫄㪹㪼㫉㩷㫆㪽㩷㫎㫀㫉㪼㫊㩷㪺㫆㫅㫅㪼㪺㫋㪼㪻㩷㫋㫆㩷㫋㪿㪼㩷㫋㪼㫉㫄㫀㫅㪸㫃㩷㪹㫃㫆㪺㫂㩷㫄㫌㫊㫋㩷㪹㪼㩷㪉㩷㫎㫀㫉㪼㫊㩷㫆㫉㩷㫃㪼㫊㫊㪅㩷㪥㪼㫍㪼㫉㩷㪺㫆㫅㫅㪼㪺㫋㩷㪊㩷㫆㫉㩷㫄㫆㫉㪼㩷㫎㫀㫉㪼㫊㩷㫀㫅㩷㪸㫅㫐㩷㪼㫍㪼㫅㫋㪅
㪚㪘㪬㪫㪠㪦㪥㪚㫆㫅㪽㫀㫉㫄㩷㫋㪿㪸㫋㩷㪼㫃㪼㪺㫋㫉㫀㪺㫀㫋㫐㩷㪿㪸㫊㩷㪹㪼㪼㫅㩷㪻㫀㫊㪺㪿㪸㪾㪼㪻㩷㪹㪼㪽㫆㫉㪼㩷㫋㫆㫌㪺㪿㫀㫅㪾
㫋㪿㪼㩷㪺㪸㫇㪸㪺㫀㫋㫆㫉㩷㫋㪼㫉㫄㫀㫅㪸㫃㫊㪅㪫㪿㪼㫉㪼㩷㫀㫊㩷㫉㫀㫊㫂㩷㫆㪽㩷㪼㫃㪼㪺㫋㫉㫀㪺㩷㫊㪿㫆㪺㫂㫊㪅
㪝㪸㫅㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉㪃㪤㪊㩷㫋㪸㫇㫇㫀㫅㪾㩷㫊㪺㫉㪼㫎䋨㪉㩷㫇㪺㫊㪅䋩
㪦㫃㪻 㪥㪼㫎
㪩㪼㫄㫆㫍㪼
㪝㪸㫅㩷㪺㫆㫅㫋㫉㫆㫃㫃㪼㫉㩷㫄㫆㫌㫅㫋㫀㫅㪾㩷㪿㫆㫃㪼䋨㪉㪄㱢㪉㪅㪌䋩
㪩㪼㫄㫆㫍㪼 㪮㫀㫉㫀㫅㪾㩷㪘
㪮㫀㫉㫀㫅㪾㩷㪙
㪚 㪥 㪩
㪚㪥 㪜
㪚㪥 㪞
㪚㪥 㪡
㪚㪥 㪦
㪚㪥 㪨
㪚㪥 㪫
㪚㪥 㪠
㪚㪥 㪪
㪚㪥 㪭
㪚㪥 㪫 㪉
㪚㪥 㪥
㪚㪥 㪟
㪚㪥 㪝
㪚㪥 㪱
㪚㪥㪘
㪚 㪥 㪮 㪦
㪚 㪥㪛 㪚 㪥㪢 㪉 㪚 㪥㪢 㪈 㪚 㪥㪙 㪚 㪥㪮 㪉
㪚 㪥 㪡 㪉 㪚 㪥 㪤 㪊 㪚 㪥 㪮 㪈 㪚 㪥 㪩
㪚㪥 㪜
㪚㪥 㪞
㪚㪥 㪡
㪚㪥 㪦
㪚㪥 㪨
㪚㪥 㪫
㪚㪥 㪠
㪚㪥 㪪
㪚㪥 㪭
㪚㪥 㪫 㪉
㪚㪥 㪥
㪚㪥 㪟
㪚㪥 㪝
㪚㪥 㪱
㪚㪥㪘
㪚 㪥 㪮 㪦
㪚 㪥㪛 㪚 㪥㪢 㪉 㪚 㪥㪢 㪈 㪚 㪥㪙 㪚 㪥㪮 㪉
㪚 㪥 㪡 㪉 㪚 㪥 㪤 㪊 㪚 㪥 㪮 㪈
㪝㪈㩷㩿㪍㪅㪊㪘㪀
㪝㪉㩷㩿㪍㪅㪊㪘㪀
7/16/2019 10 • KX-DB-147 VRF INVERTER MULTI-SYSTEM AIR CONDITIONERS 220V (FDC224-FDC335)
http://slidepdf.com/reader/full/10-kx-db-147-vrf-inverter-multi-system-air-conditioners-220v-fdc224-fdc335 324/324
- 321 -
'10 • KX-DB-147
045 50 55 60
6665
50
100
150
200
S t a t i c
p r e s s u r e
( P a )
Upper limit
Lower limit
Standard
Air flow(m3/min)
Example
of duct
High
Low
4
5
7
8
6
5
4
6
7
8
Notes (1) Nos.③,② and① of fan controller should not be used
because the fan motor could produce electromagnetic
noise.
Model FDU224
• Standard rating point rated air volume at 100Pa
Model FDU280
• Standard rating point rated air volume at 100Pa
060 65 70 75 80 85 88
50
100
150
200
S t a t i c p r e s s u r e
( P a )
Exampleof duct
High
Low
Upper limit
Lower limit
Standard
Air flow(m3
/min)
4
5
6
7
8
4
5
6
7
8
Notes (1) Nos.③,② and① of fan controller should not be used
because the fan motor could produce electromagnetic
noise.
Characteristics of fan