&6) $# ).6%24%2 /54$//2 5.)4 "!3)# -/$5,%
Model
FVI-L080A-E21G
0OWER 3UPPLY
FVI-L100A-E21G
60H(Z
#APACITY
)NPUT
#OOLING
2ATED #URRENT
#APACITY
)NPUT
(EATING
2ATED #URRENT
!IR &LOW 2ATE
.OISE ,EVEL 3OUND 0RESSURE
#OMPRESSOR
!
"TUHR
K7
!
#-(
#&-
D"!
KG
$IMENSION 7X(X$
MM
.ET 7EIGHT
KG
,IQUID 'AS
X X $# X # X ΠΠ-AX (EIGHT $IFFERENCE "ETWEEN )NDOOR 5NITS
M
-AX (EIGHT $IFFERENCE "ETWEEN /UTDOOR 5NIT AND )NDOOR 5NIT
M
0OWER 3UPPLY
#APACITY
.OISE ,EVEL (I-E,O
-AIN "ODY
0ANEL
2EFRIGERANT 0IPING
$RAINAGE 7ATER 0IPE $IAMETER
ΠΠModel
X X M
#/-0!#4 #!33%44% ).$//2 5.)4
#OOLING
(EATING
)NPUT
2ATED #URRENT
!IR &LOW (I
MMIN
-AX %QUIVALENT 2EFRIGERANT 0IPE ,ENGTH
-AX )NDOOR 5NIT #ONNECTION
FVI-L160A-E21G
K7
$# X # X 2EFRIGERANT #HARGE
2EFRIGERANT 0IPING
FVI-L140A-E21G
"TUHR
#ONFIGURATION
/UTDOOR 5NIT
FVI-L120A-E21G
$IMENSION 7X(X$
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
$IMENSION 7X(X$
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
,IQUID 'AS
Model
#OOLING
(EATING
)NPUT
2ATED #URRENT
!IR &LOW (I
7!,, -/5.4%$ ).$//2 5.)4
#APACITY
#OOLING
(EATING
)NPUT
2ATED #URRENT
!IR &LOW (I
.OISE ,EVEL (I-E,O
)NDOOR 5NIT
Cooling Only
FVI-W008CA-A21N
FVI-W010CA-A21N
FVI-W013CA-A21N
FVI-W016CA-A21N
FVI-W018CA-A21N
FVI-W020CA-A21N
FVI-W022CA-A21N
FVI-W025CA-A21N
Cool / Heat
FVI-W008HA-A21N
FVI-W010HA-A21N
FVI-W013HA-A21N
FVI-W016HA-A21N
FVI-W018HA-A21N
FVI-W020HA-A21N
FVI-W022HA-A21N
FVI-W025HA-A21N
60H(Z
"TUHR
"TUHR
$IMENSION 7X(X$
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
2EFRIGERANT 0IPING ,IQUID 'AS
$RAINAGE 7ATER 0IPE $IAMETER
7
!
#-(
#&D"!
MM
MM
X X X X X X X X X X X X KG
MMIN
MMIN
Œ Œ
Œ Œ
Œ Œ
.OISE ,EVEL (I-E,O
)NDOOR 5NIT
2EFRIGERANT 0IPING
$RAINAGE 7ATER 0IPE $IAMETER
$IMENSION 7X(X$
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
,IQUID 'AS
Model
0OWER 3UPPLY
#APACITY
#OOLING
(EATING
%XTERNAL 3TATIC 0RESSURE (I
.OISE ,EVEL (I-E,O
)NDOOR 5NIT
#!33%44% ).$//2 5.)4
0OWER 3UPPLY
#APACITY
#OOLING
(EATING
)NPUT
2ATED #URRENT
!IR &LOW (I
.OISE ,EVEL (I-E,O
-AIN "ODY
0ANEL
2EFRIGERANT 0IPING
$RAINAGE 7ATER 0IPE $IAMETER
$IMENSION 7X(X$
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
$IMENSION 7X(X$
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
,IQUID 'AS
2EFRIGERANT 0IPING
$RAINAGE 7ATER 0IPE $IAMETER
Cooling Only
FVI-T010CA-A21N
FVI-T013CA-A21N
FVI-T016CA-A21N
FVI-T018CA-A21N
FVI-T020CA-A21N
FVI-T022CA-A21N
FVI-T025CA-A21N
FVI-T028CA-A21N
Cool / Heat
FVI-T010HA-A21N
FVI-T013HA-A21N
FVI-T016HA-A21N
FVI-T018HA-A21N
FVI-T020HA-A21N
FVI-T022HA-A21N
FVI-T025HA-A21N
FVI-T028HA-A21N
60H(Z
"TUHR
"TUHR
7
!
#-(
#&D"!
MM
MM
KG
MM
MM
KG
MMIN
MMIN
0OWER 3UPPLY
#APACITY
X X X X X X X X Œ Œ
Œ Œ
X X X X X X X X Œ Œ
#OOLING
(EATING
)NPUT
#URRENT
!IR &LOW (I
.OISE ,EVEL (I-E,O
-AIN "ODY
0ANEL
2EFRIGERANT 0IPING
$RAINAGE 7ATER 0IPE $IAMETER
$IMENSION 7X(X$
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
$IMENSION 7X(X$
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
,IQUID 'AS
Cooling Only
FVI-T032CA-A21N
FVI-T036CA-A21N
FVI-T040CA-A21N
FVI-T045CA-A21N
FVI-T050CA-A21N
Cool / Heat
FVI-T032HA-A21N
FVI-T036HA-A21N
FVI-T040HA-A21N
FVI-T045HA-A21N
FVI-T050HA-A21N
60H(Z
"TUHR
"TUHR
7
!
#-(
#&D"!
MM
MM
KG
MM
MM
KG
MMIN
MMIN
FVI-T016CB-A21N
FVI-T013HB-A21N
FVI-T016HB-A21N
60H(Z
"TUHR
"TUHR
7
!
#-(
#&D"!
MM
MM
KG
MM
MM
KG
MMIN
MMIN
X X X X X X X X Œ Œ
Œ Œ
X X X X X X X X Œ Œ
Cooling Only
FVI-E010CA-A21N
FVI-E013CA-A21N
FVI-E018CA-A21N
FVI-E025CA-A21N
FVI-E032CA-A21N
FVI-E040CA-A21N
FVI-E045CA-A21N
Cool / Heat
FVI-E010HA-A21N
FVI-E013HA-A21N
FVI-E018HA-A21N
FVI-E025HA-A21N
FVI-E032HA-A21N
FVI-E040HA-A21N
FVI-E045HA-A21N
60H(Z
"TUHR
"TUHR
7
!
#-(
#&D"!
MM
MM
KG
MMIN
MMIN
X X X X X X X X Œ Œ
Œ Œ
X X X X Œ Œ
$IMENSION 7X(X$
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
,IQUID 'AS
Cooling Only
FVI-C008CA-A21N
FVI-C010CA-A21N
FVI-C013CA-A21N
FVI-C016CA-A21N
FVI-C020CA-A21N
FVI-C025CA-A21N
Cool / Heat
FVI-C008HA-A21N
FVI-C010HA-A21N
FVI-C013HA-A21N
FVI-C016HA-A21N
FVI-C020HA-A21N
FVI-C025HA-A21N
60H(Z
"TUHR
"TUHR
7
!
#-(
#&0A
D"!
MM
MM
KG
MMIN
MMIN
X X X X X X X X Œ Œ
Œ Œ
X X X X Œ Œ
-%$)5- ()'( 34!4)# $5#4%$ ).$//2 5.)4
Model
0OWER 3UPPLY
#APACITY
#OOLING
(EATING
)NPUT
2ATED #URRENT
!IR &LOW (I
%XTERNAL 3TATIC 0RESSURE (I,O
.OISE ,EVEL (I-E,O
)NDOOR 5NIT
2EFRIGERANT 0IPING
$RAINAGE 7ATER 0IPE $IAMETER
Model
FVI-T013CB-A21N
FVI-T010HB-A21N
,/7 34!4)# 3,)- $5#4%$ ).$//2 5.)4
)NPUT
2ATED #URRENT
)NDOOR !IR &LOW (I
Model
FVI-T010CB-A21N
FVI-T008HB-A21N
&,//2 #%),).' ).$//2 5.)4
0OWER 3UPPLY
#APACITY
0OWER 3UPPLY
FVI-T008CB-A21N
Cool / Heat
NOS
# #ONSTANT 3PEED 3CROLL #OMPRESSOR
$# $# )NVENTOR 3CROLL #OMPRESSOR
4HIS VALUE IS BASED ON THE CONDITION WHERE OUTDOOR UNIT IS LOCATED ABOVE THE INDOOR UNIT
Model
Cooling Only
$IMENSION 7X(X$
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
,IQUID 'AS
Cooling Only
FVI-D008CA-A21N
FVI-D010CA-A21N
FVI-D013CA-A21N
FVI-D016CA-A21N
FVI-D020CA-A21N
FVI-D025CA-A21N
FVI-D032CA-A21N
FVI-D040CA-A21N
FVI-D050CA-A21N
Cool / Heat
FVI-D008HA-A21N
FVI-D010HA-A21N
FVI-D013HA-A21N
FVI-D016HA-A21N
FVI-D020HA-A21N
FVI-D025HA-A21N
FVI-D032HA-A21N
FVI-D040HA-A21N
FVI-D050HA-A21N
60H(Z
"TUHR
"TUHR
7
!
#-(
#&0A
D"!
MM
MM
KG
MMIN
MMIN
X X X X Œ Œ
X X X X Œ Œ
X X X X Œ Œ
X X X X REMOTE CONTROL
Model
0OWER 3UPPLY
#APACITY
FVI-D080CA-E21N
FVI-D100CA-E21N
FVI-D080HA-E21N
FVI-D100HA-E21N
#OOLING
(EATING
)NPUT
2ATED #URRENT
!IR &LOW (I
%XTERNAL 3TATIC 0RESSURE
.OISE ,EVEL
)NDOOR 5NIT
2EFRIGERANT 0IPING
$RAINAGE 7ATER 0IPE $IAMETER
X X X X 0ACKING 7X(X$
X X X X ,IQUID 'AS
7IRED
:&
VRF Air Conditioning System
$IMENSION 7X(X$
.ET 'ROSS 7EIGHT
7IRELESS
9
STANDARD FOR ALL INDOOR UNIT EXCEPT DUCTED MODELS
STANDARD FOR DUCTED MODELS OPTIONAL FOR OTHER MODELS
Œ Œ
Condition:
s !LL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE
s .IMONAL COOLING AND HEATING CAPACITIES ARE BASED ON THE FOLLOWING CONDITIONS
s #OOLING ƒ# $" ƒ# 7" INDOORS AND ƒ# $" ƒ# 7" OUTDOORS
s (EATING ƒ# $" ƒ# 7" INDOORS AND ƒ# $" ƒ# 7" OUTDOORS
FUJIAIRE (M) SDN. BHD. -
5NIT # ,OT *ALAN 0ERUSAHAAN "ATU #AVES )NDUSTRIAL %STATE "ATU #AVES 3ELANGOR $% -ALAYSIA 4EL &AX 7EBSITE HTTPWWWFUJIAIRECOMMY %MAIL ENQUIRY FUJIAIRECOMMY
12HP / 14HP / 16HP
33.5kW / 40kW / 45kW
8HP / 10HP
22.4kW / 28kW
3.5HP / 4HP
5HP / 6HP
R410A
FUJIAIRE DC INVERTER TECHNOLOGY SAVES ENERGY BY 40%
WITH PROVIDING OPTIMUM COMFORT
Comparison of
Power Consumption
Comfortable
Precise Temperature Control
4.07
4HE %86 %LECTRONIC %XPANSION 6ALVE OF EACH INDOOR UNIT RESPOND TO THE
loading changes of indoor environment, continually adjusts the flow rate of
the refrigerant.
Meanwhile, the outdoor unit with DC Inverter compressor provides the
capacity with certain amount of refrigerant exactly according to the total
demands of indoor units.
7ITH THIS 6ARIABLE 2EFRIGERANT &LOW 62& TECHNOLOGY THE ROOM TEMPERATURE
CAN BE ACHIEVED QUICKLY NEAR TO CONSTANT VALUE WITHOUT MUCH TEMPERATURE
fluctuation that occurs with a conventional ON/OFF control system.
EER
Quiet operation
3.5
Quiet operation during night time
3.0
Intelligently adjustment of outdoor fan control can reduce the operation
noise up to 8dB(A) during night time and it can be lowered to 50dB(A)
2.0
D"!
New
DC motor
CONCENTRATED
WINDING
raises the low
FREQUENCY
performance
s )MPROVED $# )NVERTER MOTOR
,OW FREQUENCY PERFORMANCE IS
HIGHLY RAISED THANKS TO THE
concentrated winding.
s 7ITH STEPLESS POWER REGULATING
technology, the DC Inverter
compressor achieves stepless
output regulation between
20Hz – 120Hz.
#APACITY /PERATING
SOUND
(EAT ,OAD
#APACITY /PERATING
SOUND
60
80
100
Modular Operating
4HE OPERATING PRIORITY SEQUENCE OF THE OUTDOOR UNIT
modules will be changed without restart when the
system accumulatively operates for 12 hours which
can maximize the service life of the system.
12 Hours
Rotation
Suction pipe
s High pressure chamber compressor with
oil-balanced pipe can automatically drain out
the excess oil which can prevent oil-unbalance
between the compressors.
Auto-oil pipe
s /IL EQUALIZING PIPE CONNECTION DESIGN AT THE
outside of the modules allows high reliability.
Before Oil-balanced
s )TS AN OPTIMIZED DEFROSTING PROGRAM WHICH WILL BE PERFORMED ONLY WHEN
system pressure is too low, that can obviously lengthen the time gap
between two defrost operations, hence reduce the time of defrosting.
s (EATING CAPACITY LOSS HAS BEEN DECREASED BY 75% with highly comfortable
heating operation
Heating
&6),!!'
&6),!!'
Outdoor
Max. Connection
Combination (HP)
Indoor Unit
&6),!!'
&6),!!'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6) -).) $# ).6%24%2 /$5
&6) $# ).6%24%2 "!3)# -/$5,% /$5 &6) $# ).6%24%2 -/$5,!2 /$5 &6) $# ).6%24%2 -/$5,!2 /$5 &6)!%'
&6)!%'
&6),!%'
&6),!%'
&6),!%'
&6)!%'
Compressors
&6),!%'
Oil storage tanks
&6),!%'
&6),!%'
Oil equalizing pipe
Oil equalizing pipe
&6),!%'
Model
&6) $# ).6%24%2 -/$5,!2 /$5 FVI-L035A-A21G
0OWER 3UPPLY
FVI Mini
Capacity
#OOLING
FVI-L035A-A21G
FVI-L040A-A21G
FVI-L050A-A21G
FVI-L060A-A21G
(0
3.5
4.0
5.0
6.0
K7
10
12
14
16
MODEL
Flexible design
Long piping design
s -AXIMUM TOTAL PIPING LENGTH – 150m
s -AXIMUM ACTUAL PIPING LENGTH – 70m
s -AXIMUM EQUIVALENT PIPING LENGTH – 80m
s -AXIMUM HEIGHT DIFFERENCE BETWEEN
indoor units – 10m
s -AXIMUM HEIGHT DIFFERENCE BETWEEN
outdoor and indoor unit – 30m*
s -AXIMUM PIPING LENGTH FROM FIRST INDOOR
branch and the farthest indoor unit – 25m
#!0!#)49
0OWER 3UPPLY
Compact Design
)NPUT
2ATED #URRENT
#APACITY
(EATING
6 0HASE (Z
)NPUT
2ATED #URRENT
!IR &LOW 2ATE
Easy Installation
7HEN TOTAL PIPING LENGTH !"#$ABCD È
50m NO ADDITIONAL REFRIGERANT IS REQUIRED
.OISE ,EVEL 3OUND 0RESSURE
#OMPRESSOR
Defrosting stops
after completion
Note:
This value is based on the outdoor unit is located above the indoor unit.
If the outdoor unit is located underneath the indoor unit, the value is 25m.
2EFRIGERANT 0IPING
340mm
950mm
Floor area: 0.323m²
FVI-L050A-A21G
"TUHR
K7
!
"TUHR
K7
!
#-(
#&-
D"!
$# )NVERTER $UAL2OTOR
KG
$IMENSION 7X(X$
MM
X X 0ACKING 7X(X$
MM
X X .ET 7EIGHT
KG
MMIN
ΠΠ-AX %QUIVALENT 2EFRIGERANT 0IPE ,ENGTH
M
-AX (EIGHT $IFFERENCE "ETWEEN )NDOOR 5NITS
M
-AX (EIGHT $IFFERENCE "ETWEEN /UTDOOR 5NIT AND )NDOOR 5NIT
M
-AX )NDOOR 5NIT #ONNECTION
4HIS VALUE IS BASED ON THE CONDITION WHERE OUTDOOR UNIT IS LOCATED ABOVE THE INDOOR UNIT
FVI-L060A-A21G
(Z
#ONFIGURATION
2EFRIGERANT #HARGE
/UTDOOR 5NIT
FVI-L040A-A21G
60H(Z
,IQUID 'AS
Defrosting starts if frost is
detected by the unit
Description
After Oil-balanced
12 Hours
Rotation
Emergency Operation
Each module is an independent sub-system, and the
WHOLE SYSTEM WONT FAIL DOWN EVEN IF PARTIAL MALFUNCTION
of any one of the modules emergency operation can be
performed after simple manual set up on the outdoor
0#" SWITCHES
Model
kW
Discharge pipe
s New patented oil separator allows the oil
separating efficiency up to 99%.
12 Hours
Rotation
Capacity
HP
#APACITY
s 0RECISE DEFROSTING TIMING WHICH IS INTELLIGENT INDEED
2OTATING SPEED RPS
40
High Efficiency Oil-balanced Technology
RELIABLE
Module(s)
&6) -).) $# ).6%24%2 /54$//2 5.)4
Time
20
Note:
This value is based on the outdoor unit which is located above the indoor unit.
If the outdoor unit is located underneath the indoor unit, the value is 40m.
Intelligent Defrost Technology
Heating Capacity
Compressor efficiency
7%
Note:
From the standard model that 4 modules connect in parallel, up to 64
INDOOR UNITS CAN BE CONNECTED )F MORE INDOOR UNITS ARE REQUIRED TO BE
connected, please contact us.
1250mm
Concentrated winding
Various Combination
s 5P TO 110 SETS OF INDOOR UNITS CAN BE CONNECTED
s 12 types and 69 models
s Maximum diversity is 135%
s $EFROSTING PROGRAM IS DESIGNED UNDER THE CONSIDERATION OF AND OPERATION
reliability
Defrosting
Distributed winding
-100C
12 Hours
Rotation
High Efficiency Compressor
(0 CHAMBER
structure can
raise the high
and middle
FREQUENCY
performance
-200C
D"!
Note:
s %%2 %NERGY %FFICIENCY 2ATIO #OOLING #APACITY K7 Á #OOLING 0OWER )NPUT K7
s #/0 #OEFFICIENT OF 0ERFORMANCE (EATING #APACITY K7 Á (EATING 0OWER )NPUT K7
s 4HE DATA REFERS TO A (0 OUTDOOR UNIT
s #OMPARING WITH NORMAL COMPRESSOR
the DC Inverter Scroll Compressor
can save up to 40% of energy
consumption in a year.
48 C
Maximum total piping length – 500m
Maximum actual piping length – 150m
-AXIMUM EQUIVALENT PIPING LENGTH – 175m
Maximum height difference between
indoor units – 15m
s Maximum height difference between
outdoor and indoor unit – 50m*
s Maximum piping length from first indoor
branch to the farthest indoor unit – 40m
COMFORT
4.0
27 C
$EFAULT %30 OF THE OUTDOOR FAN IS 0A )F HIGHER %30 IS REQUIRED
re-selection is necessary.
0
s
s
s
s
)NVERTER 4YPE
4.37
COP
COOLING
s Maximum capacity of outdoor unit is 64HP X MODULES
The outdoor unit can be installed in the
EQUIPMENTS ROOM OF HIGH BUILDINGS
s )F THE REQUIRED CAPACITY OF INDOORS UNITS IS LOWER THAN OUTDOOR UNIT
cooling range may be up to -5 C.
0
s 6ARIOUS COMBINATION FROM 8HP TO 64HP with 2HP
increments
4HE MAXIMUM EXTERNAL STATIC PRESSURE %30
OF THE OUTDOOR FAN CAN REACH UP TO 0A
Note:
s )F THE REQUIRED CAPACITY OF INDOOR UNITS IS HIGHER THAN OUTDOOR UNIT
COOLING RANGE MAY BE LOWER TO #
HEATING
Modular Outdoor Unit Design
Long Piping Design
.ON )NVERTER 4YPE
High efficiency is realized by the use of DC Inverter Hermetic
Scroll Compressors with high pressure chamber design and
improved DC Inverter driving technology, and large heat exchanger.
High Static Pressure of
Outdoor Fan
The unit can operate in wide range, greatly reducing
the ambient temperature limitation.
%.%2'9
SAVINGS
High EER/COP Rating
No
Wide Operation Range
40%
EFFICIENT
#/-").!4)/. /& &6) $# ).6%24%2 /54$//2 5.)4
VERSATILE
NOS
Œ Œ
FUJIAIRE DC INVERTER TECHNOLOGY SAVES ENERGY BY 40%
WITH PROVIDING OPTIMUM COMFORT
Comparison of
Power Consumption
Comfortable
Precise Temperature Control
4.07
4HE %86 %LECTRONIC %XPANSION 6ALVE OF EACH INDOOR UNIT RESPOND TO THE
loading changes of indoor environment, continually adjusts the flow rate of
the refrigerant.
Meanwhile, the outdoor unit with DC Inverter compressor provides the
capacity with certain amount of refrigerant exactly according to the total
demands of indoor units.
7ITH THIS 6ARIABLE 2EFRIGERANT &LOW 62& TECHNOLOGY THE ROOM TEMPERATURE
CAN BE ACHIEVED QUICKLY NEAR TO CONSTANT VALUE WITHOUT MUCH TEMPERATURE
fluctuation that occurs with a conventional ON/OFF control system.
EER
Quiet operation
3.5
Quiet operation during night time
3.0
Intelligently adjustment of outdoor fan control can reduce the operation
noise up to 8dB(A) during night time and it can be lowered to 50dB(A)
2.0
D"!
New
DC motor
CONCENTRATED
WINDING
raises the low
FREQUENCY
performance
s )MPROVED $# )NVERTER MOTOR
,OW FREQUENCY PERFORMANCE IS
HIGHLY RAISED THANKS TO THE
concentrated winding.
s 7ITH STEPLESS POWER REGULATING
technology, the DC Inverter
compressor achieves stepless
output regulation between
20Hz – 120Hz.
#APACITY /PERATING
SOUND
(EAT ,OAD
#APACITY /PERATING
SOUND
60
80
100
Modular Operating
4HE OPERATING PRIORITY SEQUENCE OF THE OUTDOOR UNIT
modules will be changed without restart when the
system accumulatively operates for 12 hours which
can maximize the service life of the system.
12 Hours
Rotation
Suction pipe
s High pressure chamber compressor with
oil-balanced pipe can automatically drain out
the excess oil which can prevent oil-unbalance
between the compressors.
Auto-oil pipe
s /IL EQUALIZING PIPE CONNECTION DESIGN AT THE
outside of the modules allows high reliability.
Before Oil-balanced
s )TS AN OPTIMIZED DEFROSTING PROGRAM WHICH WILL BE PERFORMED ONLY WHEN
system pressure is too low, that can obviously lengthen the time gap
between two defrost operations, hence reduce the time of defrosting.
s (EATING CAPACITY LOSS HAS BEEN DECREASED BY 75% with highly comfortable
heating operation
Heating
&6),!!'
&6),!!'
Outdoor
Max. Connection
Combination (HP)
Indoor Unit
&6),!!'
&6),!!'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6) -).) $# ).6%24%2 /$5
&6) $# ).6%24%2 "!3)# -/$5,% /$5 &6) $# ).6%24%2 -/$5,!2 /$5 &6) $# ).6%24%2 -/$5,!2 /$5 &6)!%'
&6)!%'
&6),!%'
&6),!%'
&6),!%'
&6)!%'
Compressors
&6),!%'
Oil storage tanks
&6),!%'
&6),!%'
Oil equalizing pipe
Oil equalizing pipe
&6),!%'
Model
&6) $# ).6%24%2 -/$5,!2 /$5 FVI-L035A-A21G
0OWER 3UPPLY
FVI Mini
Capacity
#OOLING
FVI-L035A-A21G
FVI-L040A-A21G
FVI-L050A-A21G
FVI-L060A-A21G
(0
3.5
4.0
5.0
6.0
K7
10
12
14
16
MODEL
Flexible design
Long piping design
s -AXIMUM TOTAL PIPING LENGTH – 150m
s -AXIMUM ACTUAL PIPING LENGTH – 70m
s -AXIMUM EQUIVALENT PIPING LENGTH – 80m
s -AXIMUM HEIGHT DIFFERENCE BETWEEN
indoor units – 10m
s -AXIMUM HEIGHT DIFFERENCE BETWEEN
outdoor and indoor unit – 30m*
s -AXIMUM PIPING LENGTH FROM FIRST INDOOR
branch and the farthest indoor unit – 25m
#!0!#)49
0OWER 3UPPLY
Compact Design
)NPUT
2ATED #URRENT
#APACITY
(EATING
6 0HASE (Z
)NPUT
2ATED #URRENT
!IR &LOW 2ATE
Easy Installation
7HEN TOTAL PIPING LENGTH !"#$ABCD È
50m NO ADDITIONAL REFRIGERANT IS REQUIRED
.OISE ,EVEL 3OUND 0RESSURE
#OMPRESSOR
Defrosting stops
after completion
Note:
This value is based on the outdoor unit is located above the indoor unit.
If the outdoor unit is located underneath the indoor unit, the value is 25m.
2EFRIGERANT 0IPING
340mm
950mm
Floor area: 0.323m²
FVI-L050A-A21G
"TUHR
K7
!
"TUHR
K7
!
#-(
#&-
D"!
$# )NVERTER $UAL2OTOR
KG
$IMENSION 7X(X$
MM
X X 0ACKING 7X(X$
MM
X X .ET 7EIGHT
KG
MMIN
ΠΠ-AX %QUIVALENT 2EFRIGERANT 0IPE ,ENGTH
M
-AX (EIGHT $IFFERENCE "ETWEEN )NDOOR 5NITS
M
-AX (EIGHT $IFFERENCE "ETWEEN /UTDOOR 5NIT AND )NDOOR 5NIT
M
-AX )NDOOR 5NIT #ONNECTION
4HIS VALUE IS BASED ON THE CONDITION WHERE OUTDOOR UNIT IS LOCATED ABOVE THE INDOOR UNIT
FVI-L060A-A21G
(Z
#ONFIGURATION
2EFRIGERANT #HARGE
/UTDOOR 5NIT
FVI-L040A-A21G
60H(Z
,IQUID 'AS
Defrosting starts if frost is
detected by the unit
Description
After Oil-balanced
12 Hours
Rotation
Emergency Operation
Each module is an independent sub-system, and the
WHOLE SYSTEM WONT FAIL DOWN EVEN IF PARTIAL MALFUNCTION
of any one of the modules emergency operation can be
performed after simple manual set up on the outdoor
0#" SWITCHES
Model
kW
Discharge pipe
s New patented oil separator allows the oil
separating efficiency up to 99%.
12 Hours
Rotation
Capacity
HP
#APACITY
s 0RECISE DEFROSTING TIMING WHICH IS INTELLIGENT INDEED
2OTATING SPEED RPS
40
High Efficiency Oil-balanced Technology
RELIABLE
Module(s)
&6) -).) $# ).6%24%2 /54$//2 5.)4
Time
20
Note:
This value is based on the outdoor unit which is located above the indoor unit.
If the outdoor unit is located underneath the indoor unit, the value is 40m.
Intelligent Defrost Technology
Heating Capacity
Compressor efficiency
7%
Note:
From the standard model that 4 modules connect in parallel, up to 64
INDOOR UNITS CAN BE CONNECTED )F MORE INDOOR UNITS ARE REQUIRED TO BE
connected, please contact us.
1250mm
Concentrated winding
Various Combination
s 5P TO 110 SETS OF INDOOR UNITS CAN BE CONNECTED
s 12 types and 69 models
s Maximum diversity is 135%
s $EFROSTING PROGRAM IS DESIGNED UNDER THE CONSIDERATION OF AND OPERATION
reliability
Defrosting
Distributed winding
-100C
12 Hours
Rotation
High Efficiency Compressor
(0 CHAMBER
structure can
raise the high
and middle
FREQUENCY
performance
-200C
D"!
Note:
s %%2 %NERGY %FFICIENCY 2ATIO #OOLING #APACITY K7 Á #OOLING 0OWER )NPUT K7
s #/0 #OEFFICIENT OF 0ERFORMANCE (EATING #APACITY K7 Á (EATING 0OWER )NPUT K7
s 4HE DATA REFERS TO A (0 OUTDOOR UNIT
s #OMPARING WITH NORMAL COMPRESSOR
the DC Inverter Scroll Compressor
can save up to 40% of energy
consumption in a year.
48 C
Maximum total piping length – 500m
Maximum actual piping length – 150m
-AXIMUM EQUIVALENT PIPING LENGTH – 175m
Maximum height difference between
indoor units – 15m
s Maximum height difference between
outdoor and indoor unit – 50m*
s Maximum piping length from first indoor
branch to the farthest indoor unit – 40m
COMFORT
4.0
27 C
$EFAULT %30 OF THE OUTDOOR FAN IS 0A )F HIGHER %30 IS REQUIRED
re-selection is necessary.
0
s
s
s
s
)NVERTER 4YPE
4.37
COP
COOLING
s Maximum capacity of outdoor unit is 64HP X MODULES
The outdoor unit can be installed in the
EQUIPMENTS ROOM OF HIGH BUILDINGS
s )F THE REQUIRED CAPACITY OF INDOORS UNITS IS LOWER THAN OUTDOOR UNIT
cooling range may be up to -5 C.
0
s 6ARIOUS COMBINATION FROM 8HP TO 64HP with 2HP
increments
4HE MAXIMUM EXTERNAL STATIC PRESSURE %30
OF THE OUTDOOR FAN CAN REACH UP TO 0A
Note:
s )F THE REQUIRED CAPACITY OF INDOOR UNITS IS HIGHER THAN OUTDOOR UNIT
COOLING RANGE MAY BE LOWER TO #
HEATING
Modular Outdoor Unit Design
Long Piping Design
.ON )NVERTER 4YPE
High efficiency is realized by the use of DC Inverter Hermetic
Scroll Compressors with high pressure chamber design and
improved DC Inverter driving technology, and large heat exchanger.
High Static Pressure of
Outdoor Fan
The unit can operate in wide range, greatly reducing
the ambient temperature limitation.
%.%2'9
SAVINGS
High EER/COP Rating
No
Wide Operation Range
40%
EFFICIENT
#/-").!4)/. /& &6) $# ).6%24%2 /54$//2 5.)4
VERSATILE
NOS
Œ Œ
FUJIAIRE DC INVERTER TECHNOLOGY SAVES ENERGY BY 40%
WITH PROVIDING OPTIMUM COMFORT
Comparison of
Power Consumption
Comfortable
Precise Temperature Control
4.07
4HE %86 %LECTRONIC %XPANSION 6ALVE OF EACH INDOOR UNIT RESPOND TO THE
loading changes of indoor environment, continually adjusts the flow rate of
the refrigerant.
Meanwhile, the outdoor unit with DC Inverter compressor provides the
capacity with certain amount of refrigerant exactly according to the total
demands of indoor units.
7ITH THIS 6ARIABLE 2EFRIGERANT &LOW 62& TECHNOLOGY THE ROOM TEMPERATURE
CAN BE ACHIEVED QUICKLY NEAR TO CONSTANT VALUE WITHOUT MUCH TEMPERATURE
fluctuation that occurs with a conventional ON/OFF control system.
EER
Quiet operation
3.5
Quiet operation during night time
3.0
Intelligently adjustment of outdoor fan control can reduce the operation
noise up to 8dB(A) during night time and it can be lowered to 50dB(A)
2.0
D"!
New
DC motor
CONCENTRATED
WINDING
raises the low
FREQUENCY
performance
s )MPROVED $# )NVERTER MOTOR
,OW FREQUENCY PERFORMANCE IS
HIGHLY RAISED THANKS TO THE
concentrated winding.
s 7ITH STEPLESS POWER REGULATING
technology, the DC Inverter
compressor achieves stepless
output regulation between
20Hz – 120Hz.
#APACITY /PERATING
SOUND
(EAT ,OAD
#APACITY /PERATING
SOUND
60
80
100
Modular Operating
4HE OPERATING PRIORITY SEQUENCE OF THE OUTDOOR UNIT
modules will be changed without restart when the
system accumulatively operates for 12 hours which
can maximize the service life of the system.
12 Hours
Rotation
Suction pipe
s High pressure chamber compressor with
oil-balanced pipe can automatically drain out
the excess oil which can prevent oil-unbalance
between the compressors.
Auto-oil pipe
s /IL EQUALIZING PIPE CONNECTION DESIGN AT THE
outside of the modules allows high reliability.
Before Oil-balanced
s )TS AN OPTIMIZED DEFROSTING PROGRAM WHICH WILL BE PERFORMED ONLY WHEN
system pressure is too low, that can obviously lengthen the time gap
between two defrost operations, hence reduce the time of defrosting.
s (EATING CAPACITY LOSS HAS BEEN DECREASED BY 75% with highly comfortable
heating operation
Heating
&6),!!'
&6),!!'
Outdoor
Max. Connection
Combination (HP)
Indoor Unit
&6),!!'
&6),!!'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6),!%'
&6) -).) $# ).6%24%2 /$5
&6) $# ).6%24%2 "!3)# -/$5,% /$5 &6) $# ).6%24%2 -/$5,!2 /$5 &6) $# ).6%24%2 -/$5,!2 /$5 &6)!%'
&6)!%'
&6),!%'
&6),!%'
&6),!%'
&6)!%'
Compressors
&6),!%'
Oil storage tanks
&6),!%'
&6),!%'
Oil equalizing pipe
Oil equalizing pipe
&6),!%'
Model
&6) $# ).6%24%2 -/$5,!2 /$5 FVI-L035A-A21G
0OWER 3UPPLY
FVI Mini
Capacity
#OOLING
FVI-L035A-A21G
FVI-L040A-A21G
FVI-L050A-A21G
FVI-L060A-A21G
(0
3.5
4.0
5.0
6.0
K7
10
12
14
16
MODEL
Flexible design
Long piping design
s -AXIMUM TOTAL PIPING LENGTH – 150m
s -AXIMUM ACTUAL PIPING LENGTH – 70m
s -AXIMUM EQUIVALENT PIPING LENGTH – 80m
s -AXIMUM HEIGHT DIFFERENCE BETWEEN
indoor units – 10m
s -AXIMUM HEIGHT DIFFERENCE BETWEEN
outdoor and indoor unit – 30m*
s -AXIMUM PIPING LENGTH FROM FIRST INDOOR
branch and the farthest indoor unit – 25m
#!0!#)49
0OWER 3UPPLY
Compact Design
)NPUT
2ATED #URRENT
#APACITY
(EATING
6 0HASE (Z
)NPUT
2ATED #URRENT
!IR &LOW 2ATE
Easy Installation
7HEN TOTAL PIPING LENGTH !"#$ABCD È
50m NO ADDITIONAL REFRIGERANT IS REQUIRED
.OISE ,EVEL 3OUND 0RESSURE
#OMPRESSOR
Defrosting stops
after completion
Note:
This value is based on the outdoor unit is located above the indoor unit.
If the outdoor unit is located underneath the indoor unit, the value is 25m.
2EFRIGERANT 0IPING
340mm
950mm
Floor area: 0.323m²
FVI-L050A-A21G
"TUHR
K7
!
"TUHR
K7
!
#-(
#&-
D"!
$# )NVERTER $UAL2OTOR
KG
$IMENSION 7X(X$
MM
X X 0ACKING 7X(X$
MM
X X .ET 7EIGHT
KG
MMIN
ΠΠ-AX %QUIVALENT 2EFRIGERANT 0IPE ,ENGTH
M
-AX (EIGHT $IFFERENCE "ETWEEN )NDOOR 5NITS
M
-AX (EIGHT $IFFERENCE "ETWEEN /UTDOOR 5NIT AND )NDOOR 5NIT
M
-AX )NDOOR 5NIT #ONNECTION
4HIS VALUE IS BASED ON THE CONDITION WHERE OUTDOOR UNIT IS LOCATED ABOVE THE INDOOR UNIT
FVI-L060A-A21G
(Z
#ONFIGURATION
2EFRIGERANT #HARGE
/UTDOOR 5NIT
FVI-L040A-A21G
60H(Z
,IQUID 'AS
Defrosting starts if frost is
detected by the unit
Description
After Oil-balanced
12 Hours
Rotation
Emergency Operation
Each module is an independent sub-system, and the
WHOLE SYSTEM WONT FAIL DOWN EVEN IF PARTIAL MALFUNCTION
of any one of the modules emergency operation can be
performed after simple manual set up on the outdoor
0#" SWITCHES
Model
kW
Discharge pipe
s New patented oil separator allows the oil
separating efficiency up to 99%.
12 Hours
Rotation
Capacity
HP
#APACITY
s 0RECISE DEFROSTING TIMING WHICH IS INTELLIGENT INDEED
2OTATING SPEED RPS
40
High Efficiency Oil-balanced Technology
RELIABLE
Module(s)
&6) -).) $# ).6%24%2 /54$//2 5.)4
Time
20
Note:
This value is based on the outdoor unit which is located above the indoor unit.
If the outdoor unit is located underneath the indoor unit, the value is 40m.
Intelligent Defrost Technology
Heating Capacity
Compressor efficiency
7%
Note:
From the standard model that 4 modules connect in parallel, up to 64
INDOOR UNITS CAN BE CONNECTED )F MORE INDOOR UNITS ARE REQUIRED TO BE
connected, please contact us.
1250mm
Concentrated winding
Various Combination
s 5P TO 110 SETS OF INDOOR UNITS CAN BE CONNECTED
s 12 types and 69 models
s Maximum diversity is 135%
s $EFROSTING PROGRAM IS DESIGNED UNDER THE CONSIDERATION OF AND OPERATION
reliability
Defrosting
Distributed winding
-100C
12 Hours
Rotation
High Efficiency Compressor
(0 CHAMBER
structure can
raise the high
and middle
FREQUENCY
performance
-200C
D"!
Note:
s %%2 %NERGY %FFICIENCY 2ATIO #OOLING #APACITY K7 Á #OOLING 0OWER )NPUT K7
s #/0 #OEFFICIENT OF 0ERFORMANCE (EATING #APACITY K7 Á (EATING 0OWER )NPUT K7
s 4HE DATA REFERS TO A (0 OUTDOOR UNIT
s #OMPARING WITH NORMAL COMPRESSOR
the DC Inverter Scroll Compressor
can save up to 40% of energy
consumption in a year.
48 C
Maximum total piping length – 500m
Maximum actual piping length – 150m
-AXIMUM EQUIVALENT PIPING LENGTH – 175m
Maximum height difference between
indoor units – 15m
s Maximum height difference between
outdoor and indoor unit – 50m*
s Maximum piping length from first indoor
branch to the farthest indoor unit – 40m
COMFORT
4.0
27 C
$EFAULT %30 OF THE OUTDOOR FAN IS 0A )F HIGHER %30 IS REQUIRED
re-selection is necessary.
0
s
s
s
s
)NVERTER 4YPE
4.37
COP
COOLING
s Maximum capacity of outdoor unit is 64HP X MODULES
The outdoor unit can be installed in the
EQUIPMENTS ROOM OF HIGH BUILDINGS
s )F THE REQUIRED CAPACITY OF INDOORS UNITS IS LOWER THAN OUTDOOR UNIT
cooling range may be up to -5 C.
0
s 6ARIOUS COMBINATION FROM 8HP TO 64HP with 2HP
increments
4HE MAXIMUM EXTERNAL STATIC PRESSURE %30
OF THE OUTDOOR FAN CAN REACH UP TO 0A
Note:
s )F THE REQUIRED CAPACITY OF INDOOR UNITS IS HIGHER THAN OUTDOOR UNIT
COOLING RANGE MAY BE LOWER TO #
HEATING
Modular Outdoor Unit Design
Long Piping Design
.ON )NVERTER 4YPE
High efficiency is realized by the use of DC Inverter Hermetic
Scroll Compressors with high pressure chamber design and
improved DC Inverter driving technology, and large heat exchanger.
High Static Pressure of
Outdoor Fan
The unit can operate in wide range, greatly reducing
the ambient temperature limitation.
%.%2'9
SAVINGS
High EER/COP Rating
No
Wide Operation Range
40%
EFFICIENT
#/-").!4)/. /& &6) $# ).6%24%2 /54$//2 5.)4
VERSATILE
NOS
Œ Œ
&6) $# ).6%24%2 /54$//2 5.)4 "!3)# -/$5,%
Model
FVI-L080A-E21G
0OWER 3UPPLY
FVI-L100A-E21G
60H(Z
#APACITY
)NPUT
#OOLING
)NPUT
(EATING
.OISE ,EVEL 3OUND 0RESSURE
#OMPRESSOR
!
"TUHR
!
#-(
#&-
D"!
2EFRIGERANT #HARGE
2EFRIGERANT
0IPING
KG
$IMENSION 7X(X$
MM
.ET 7EIGHT
KG
MMIN
X X ΠΠΠΠ-AX %QUIVALENT 2EFRIGERANT 0IPE ,ENGTH
M
-AX (EIGHT $IFFERENCE "ETWEEN )NDOOR 5NITS
M
-AX (EIGHT $IFFERENCE "ETWEEN /UTDOOR 5NIT AND )NDOOR 5NIT
M
-AX )NDOOR 5NIT #ONNECTION
X X $# X # X #APACITY
Cooling Only
FVI-W008CA-A21N
FVI-W010CA-A21N
FVI-W013CA-A21N
FVI-W016CA-A21N
FVI-W018CA-A21N
FVI-W020CA-A21N
FVI-W022CA-A21N
FVI-W025CA-A21N
Cool / Heat
FVI-W008HA-A21N
FVI-W010HA-A21N
FVI-W013HA-A21N
FVI-W016HA-A21N
FVI-W018HA-A21N
FVI-W020HA-A21N
FVI-W022HA-A21N
FVI-W025HA-A21N
60H(Z
#OOLING
"TUHR
"TUHR
2ATED #URRENT
!IR &LOW (I
.OISE ,EVEL (I-E,O
)NDOOR 5NIT
(EATING
)NPUT
7
!
#-(
#&-
D"!
$IMENSION 7X(X$
MM
X X X X X X 0ACKING 7X(X$
MM
X X X X X X .ET 'ROSS 7EIGHT
2EFRIGERANT 0IPING ,IQUID 'AS
$RAINAGE 7ATER 0IPE $IAMETER
KG
MMIN
MMIN
0OWER 3UPPLY
#APACITY
#OOLING
(EATING
)NPUT
2ATED #URRENT
Œ Œ
-AIN "ODY
0ANEL
&,//2 #%),).' ).$//2 5.)4
FVI-T010CA-A21N
FVI-T013CA-A21N
FVI-T016CA-A21N FVI-T018CA-A21N FVI-T020CA-A21N FVI-T022CA-A21N FVI-T025CA-A21N FVI-T028CA-A21N
Cool / Heat
FVI-T010HA-A21N
FVI-T013HA-A21N
FVI-T016HA-A21N FVI-T018HA-A21N FVI-T020HA-A21N FVI-T022HA-A21N FVI-T025HA-A21N FVI-T028HA-A21N
60H(Z
"TUHR
"TUHR
#-(
#&-
$IMENSION 7X(X$
0ACKING 7X(X$
D"!
MM
MM
X X X X X X X X .ET 'ROSS 7EIGHT
$IMENSION 7X(X$
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
KG
MM
MM
KG
X X X X MMIN
MMIN
Œ Œ
Cooling Only
FVI-T032CA-A21N
FVI-T036CA-A21N
Cool / Heat
FVI-T032HA-A21N
FVI-T036HA-A21N
X X X X Œ Œ
Cooling Only FVI-E010CA-A21N FVI-E013CA-A21N
Cool / Heat FVI-E010HA-A21N FVI-E013HA-A21N
0OWER 3UPPLY
60H(Z
#OOLING
"TUHR
#APACITY
(EATING
"TUHR
)NPUT
7
2ATED #URRENT
!
#-(
!IR &LOW (I
#&
.OISE ,EVEL (I-E,O
D"!
$IMENSION 7X(X$
MM
X X MM
X X )NDOOR 5NIT
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
KG
Œ Œ
2EFRIGERANT 0IPING
,IQUID 'AS
MMIN
$RAINAGE 7ATER 0IPE $IAMETER
MMIN
Cooling Only
Cool / Heat
60H(Z
#OOLING
"TUHR
#APACITY
(EATING
"TUHR
)NPUT
7
2ATED #URRENT
!
#-(
)NDOOR !IR &LOW (I
#&%XTERNAL 3TATIC 0RESSURE (I
0A
.OISE ,EVEL (I-E,O
D"!
$IMENSION 7X(X$
MM
)NDOOR 5NIT
0ACKING 7X(X$
MM
.ET 'ROSS 7EIGHT
KG
2EFRIGERANT 0IPING
,IQUID 'AS
MMIN
$RAINAGE 7ATER 0IPE $IAMETER
MMIN
Cooling Only
2EFRIGERANT 0IPING
,IQUID 'AS
$RAINAGE 7ATER 0IPE $IAMETER
$IMENSION 7X(X$
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
$IMENSION 7X(X$
0ANEL
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
2EFRIGERANT 0IPING
,IQUID 'AS
$RAINAGE 7ATER 0IPE $IAMETER
-AIN "ODY
FVI-T010CB-A21N FVI-T013CB-A21N FVI-T016CB-A21N
FVI-T010HB-A21N FVI-T013HB-A21N FVI-T016HB-A21N
X X X X X X X X Œ Œ
Œ Œ
FVI-E018CA-A21N
FVI-E018HA-A21N
FVI-E025CA-A21N
FVI-E032CA-A21N
FVI-E025HA-A21N
FVI-E032HA-A21N
X X X X FVI-E040CA-A21N
FVI-E040HA-A21N
FVI-E045CA-A21N
FVI-E045HA-A21N
X X X X Œ Œ
Œ Œ
FVI-C008CA-A21N
FVI-C008HA-A21N
FVI-C010CA-A21N
FVI-C010HA-A21N
0OWER 3UPPLY
Œ Œ
.OISE ,EVEL (I-E,O
.OISE ,EVEL (I-E,O
Model
Œ Œ
7
!
!IR &LOW (I
)NPUT
2ATED #URRENT
#OOLING
(EATING
FVI-T008CB-A21N
FVI-T008HB-A21N
,/7 34!4)# 3,)- $5#4%$ ).$//2 5.)4
#!33%44% ).$//2 5.)4
Model
0OWER 3UPPLY
#APACITY
Cooling Only
Cool / Heat
60H(Z
"TUHR
"TUHR
7
!
#-(
#&D"!
MM
MM
KG
MM
MM
KG
MMIN
MMIN
Model
7!,, -/5.4%$ ).$//2 5.)4
0OWER 3UPPLY
Model
NOS
# #ONSTANT 3PEED 3CROLL #OMPRESSOR
$# $# )NVENTOR 3CROLL #OMPRESSOR
4HIS VALUE IS BASED ON THE CONDITION WHERE OUTDOOR UNIT IS LOCATED ABOVE THE INDOOR UNIT
Model
#/-0!#4 #!33%44% ).$//2 5.)4
!IR &LOW (I
$# X # X ,IQUID 'AS
K7
#ONFIGURATION
/UTDOOR 5NIt
FVI-L160A-E21G
K7
2ATED #URRENT
!IR &LOW 2ATE
FVI-L140A-E21G
"TUHR
2ATED #URRENT
#APACITY
FVI-L120A-E21G
X X X X Œ Œ
FVI-C013CA-A21N FVI-C016CA-A21N FVI-C020CA-A21N FVI-C025CA-A21N
FVI-C013HA-A21N FVI-C016HA-A21N FVI-C020HA-A21N FVI-C025HA-A21N
X X X X X X X X Œ Œ
Œ Œ
-%$)5- ()'( 34!4)# $5#4%$ ).$//2 5.)4
Model
Cooling Only FVI-D008CA-A21N FVI-D010CA-A21N FVI-D013CA-A21N FVI-D016CA-A21N FVI-D020CA-A21N FVI-D025CA-A21N
FVI-D032CA-A21N
FVI-D040CA-A21N FVI-D050CA-A21N
Cool / Heat FVI-D008HA-A21N FVI-D010HA-A21N FVI-D013HA-A21N FVI-D016HA-A21N FVI-D020HA-A21N FVI-D025HA-A21N
FVI-D032HA-A21N
FVI-D040HA-A21N FVI-D050HA-A21N
60H(Z
#OOLING
"TUHR
(EATING
"TUHR
)NPUT
7
2ATED #URRENT
!
!IR &LOW (I
#-(
#&
%XTERNAL 3TATIC 0RESSURE (I,O
0A
.OISE ,EVEL (I-E,O
D"!
$IMENSION 7X(X$
MM
X X X X X X X X MM
X X X X X X X X )NDOOR 5NIT
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
KG
2EFRIGERANT 0IPING
,IQUID 'AS
MMIN
Œ Œ
Œ Œ
Œ Œ
$RAINAGE 7ATER 0IPE $IAMETER
MMIN
0OWER 3UPPLY
#APACITY
Œ Œ
REMOTE CONTROLLER
Model
0OWER 3UPPLY
#APACITY
60H(Z
#OOLING
(EATING
"TUHR
"TUHR
FVI-T040CA-A21N
FVI-T045CA-A21N FVI-T050CA-A21N
FVI-T040HA-A21N
FVI-T045HA-A21N
FVI-T050HA-A21N
)NPUT
7
#URRENT
!
#-(
#&D"!
$IMENSION 7X(X$
MM
X X 0ACKING 7X(X$
.ET 'ROSS 7EIGHT
$IMENSION 7X(X$
0ACKING 7X(X$
MM
KG
MM
MM
X X X X X X !IR &LOW (I
.OISE ,EVEL (I-E,O
-AIN "ODY
0ANEL
.ET 'ROSS 7EIGHT
2EFRIGERANT 0IPING
,IQUID 'AS
$RAINAGE 7ATER 0IPE $IAMETER
KG
MMIN
Œ Œ
MMIN
Model
Cooling Only
Cool / Heat
0OWER 3UPPLY
60H(Z
#OOLING
"TUHR
#APACITY
(EATING
"TUHR
)NPUT
7
2ATED #URRENT
!
#-(
!IR &LOW (I
#&%XTERNAL 3TATIC 0RESSURE (I,O
0A
.OISE ,EVEL (I-E,O
D"!
$IMENSION 7X(X$
MM
)NDOOR 5NIT
0ACKING 7X(X$
MM
.ET 'ROSS 7EIGHT
KG
2EFRIGERANT 0IPING
,IQUID 'AS
MMIN
$RAINAGE 7ATER 0IPE $IAMETER
MMIN
FVI-D080CA-E21N
FVI-D100CA-E21N
FVI-D080HA-E21N
FVI-D100HA-E21N
X X X X X X X X Œ Œ
7IRELESS
9
7IRED
:&
VRF Air Conditioning System
STANDARD FOR ALL INDOOR UNIT EXCEPT DUCTED MODELS
STANDARD FOR DUCTED MODELS OPTIONAL FOR OTHER MODELS
Condition:
s !LL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE
s .IMONAL COOLING AND HEATING CAPACITIES ARE BASED ON THE FOLLOWING CONDITIONS
s #OOLING ƒ# $" ƒ# 7" INDOORS AND ƒ# $" ƒ# 7" OUTDOORS
s (EATING ƒ# $" ƒ# 7" INDOORS AND ƒ# $" ƒ# 7" OUTDOORS
FUJIAIRE (M) SDN. BHD. -
5NIT # ,OT *ALAN 0ERUSAHAAN "ATU #AVES )NDUSTRIAL %STATE "ATU #AVES 3ELANGOR $% -ALAYSIA 4EL &AX 7EBSITE HTTPWWWFUJIAIRECOMMY %MAIL ENQUIRY FUJIAIRECOMMY
12HP / 14HP / 16HP
33.5kW / 40kW / 45kW
8HP / 10HP
22.4kW / 28kW
3.5HP / 4HP
5HP / 6HP
R410A
&6) $# ).6%24%2 /54$//2 5.)4 "!3)# -/$5,%
Model
FVI-L080A-E21G
0OWER 3UPPLY
FVI-L100A-E21G
60H(Z
#APACITY
)NPUT
#OOLING
)NPUT
(EATING
.OISE ,EVEL 3OUND 0RESSURE
#OMPRESSOR
!
"TUHR
!
#-(
#&-
D"!
2EFRIGERANT #HARGE
2EFRIGERANT
0IPING
KG
$IMENSION 7X(X$
MM
.ET 7EIGHT
KG
MMIN
X X ΠΠΠΠ-AX %QUIVALENT 2EFRIGERANT 0IPE ,ENGTH
M
-AX (EIGHT $IFFERENCE "ETWEEN )NDOOR 5NITS
M
-AX (EIGHT $IFFERENCE "ETWEEN /UTDOOR 5NIT AND )NDOOR 5NIT
M
-AX )NDOOR 5NIT #ONNECTION
X X $# X # X #APACITY
Cooling Only
FVI-W008CA-A21N
FVI-W010CA-A21N
FVI-W013CA-A21N
FVI-W016CA-A21N
FVI-W018CA-A21N
FVI-W020CA-A21N
FVI-W022CA-A21N
FVI-W025CA-A21N
Cool / Heat
FVI-W008HA-A21N
FVI-W010HA-A21N
FVI-W013HA-A21N
FVI-W016HA-A21N
FVI-W018HA-A21N
FVI-W020HA-A21N
FVI-W022HA-A21N
FVI-W025HA-A21N
60H(Z
#OOLING
"TUHR
"TUHR
2ATED #URRENT
!IR &LOW (I
.OISE ,EVEL (I-E,O
)NDOOR 5NIT
(EATING
)NPUT
7
!
#-(
#&-
D"!
$IMENSION 7X(X$
MM
X X X X X X 0ACKING 7X(X$
MM
X X X X X X .ET 'ROSS 7EIGHT
2EFRIGERANT 0IPING ,IQUID 'AS
$RAINAGE 7ATER 0IPE $IAMETER
KG
MMIN
MMIN
0OWER 3UPPLY
#APACITY
#OOLING
(EATING
)NPUT
2ATED #URRENT
Œ Œ
-AIN "ODY
0ANEL
&,//2 #%),).' ).$//2 5.)4
FVI-T010CA-A21N
FVI-T013CA-A21N
FVI-T016CA-A21N FVI-T018CA-A21N FVI-T020CA-A21N FVI-T022CA-A21N FVI-T025CA-A21N FVI-T028CA-A21N
Cool / Heat
FVI-T010HA-A21N
FVI-T013HA-A21N
FVI-T016HA-A21N FVI-T018HA-A21N FVI-T020HA-A21N FVI-T022HA-A21N FVI-T025HA-A21N FVI-T028HA-A21N
60H(Z
"TUHR
"TUHR
#-(
#&-
$IMENSION 7X(X$
0ACKING 7X(X$
D"!
MM
MM
X X X X X X X X .ET 'ROSS 7EIGHT
$IMENSION 7X(X$
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
KG
MM
MM
KG
X X X X MMIN
MMIN
Œ Œ
Cooling Only
FVI-T032CA-A21N
FVI-T036CA-A21N
Cool / Heat
FVI-T032HA-A21N
FVI-T036HA-A21N
X X X X Œ Œ
Cooling Only FVI-E010CA-A21N FVI-E013CA-A21N
Cool / Heat FVI-E010HA-A21N FVI-E013HA-A21N
0OWER 3UPPLY
60H(Z
#OOLING
"TUHR
#APACITY
(EATING
"TUHR
)NPUT
7
2ATED #URRENT
!
#-(
!IR &LOW (I
#&
.OISE ,EVEL (I-E,O
D"!
$IMENSION 7X(X$
MM
X X MM
X X )NDOOR 5NIT
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
KG
Œ Œ
2EFRIGERANT 0IPING
,IQUID 'AS
MMIN
$RAINAGE 7ATER 0IPE $IAMETER
MMIN
Cooling Only
Cool / Heat
60H(Z
#OOLING
"TUHR
#APACITY
(EATING
"TUHR
)NPUT
7
2ATED #URRENT
!
#-(
)NDOOR !IR &LOW (I
#&%XTERNAL 3TATIC 0RESSURE (I
0A
.OISE ,EVEL (I-E,O
D"!
$IMENSION 7X(X$
MM
)NDOOR 5NIT
0ACKING 7X(X$
MM
.ET 'ROSS 7EIGHT
KG
2EFRIGERANT 0IPING
,IQUID 'AS
MMIN
$RAINAGE 7ATER 0IPE $IAMETER
MMIN
Cooling Only
2EFRIGERANT 0IPING
,IQUID 'AS
$RAINAGE 7ATER 0IPE $IAMETER
$IMENSION 7X(X$
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
$IMENSION 7X(X$
0ANEL
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
2EFRIGERANT 0IPING
,IQUID 'AS
$RAINAGE 7ATER 0IPE $IAMETER
-AIN "ODY
FVI-T010CB-A21N FVI-T013CB-A21N FVI-T016CB-A21N
FVI-T010HB-A21N FVI-T013HB-A21N FVI-T016HB-A21N
X X X X X X X X Œ Œ
Œ Œ
FVI-E018CA-A21N
FVI-E018HA-A21N
FVI-E025CA-A21N
FVI-E032CA-A21N
FVI-E025HA-A21N
FVI-E032HA-A21N
X X X X FVI-E040CA-A21N
FVI-E040HA-A21N
FVI-E045CA-A21N
FVI-E045HA-A21N
X X X X Œ Œ
Œ Œ
FVI-C008CA-A21N
FVI-C008HA-A21N
FVI-C010CA-A21N
FVI-C010HA-A21N
0OWER 3UPPLY
Œ Œ
.OISE ,EVEL (I-E,O
.OISE ,EVEL (I-E,O
Model
Œ Œ
7
!
!IR &LOW (I
)NPUT
2ATED #URRENT
#OOLING
(EATING
FVI-T008CB-A21N
FVI-T008HB-A21N
,/7 34!4)# 3,)- $5#4%$ ).$//2 5.)4
#!33%44% ).$//2 5.)4
Model
0OWER 3UPPLY
#APACITY
Cooling Only
Cool / Heat
60H(Z
"TUHR
"TUHR
7
!
#-(
#&D"!
MM
MM
KG
MM
MM
KG
MMIN
MMIN
Model
7!,, -/5.4%$ ).$//2 5.)4
0OWER 3UPPLY
Model
NOS
# #ONSTANT 3PEED 3CROLL #OMPRESSOR
$# $# )NVENTOR 3CROLL #OMPRESSOR
4HIS VALUE IS BASED ON THE CONDITION WHERE OUTDOOR UNIT IS LOCATED ABOVE THE INDOOR UNIT
Model
#/-0!#4 #!33%44% ).$//2 5.)4
!IR &LOW (I
$# X # X ,IQUID 'AS
K7
#ONFIGURATION
/UTDOOR 5NIt
FVI-L160A-E21G
K7
2ATED #URRENT
!IR &LOW 2ATE
FVI-L140A-E21G
"TUHR
2ATED #URRENT
#APACITY
FVI-L120A-E21G
X X X X Œ Œ
FVI-C013CA-A21N FVI-C016CA-A21N FVI-C020CA-A21N FVI-C025CA-A21N
FVI-C013HA-A21N FVI-C016HA-A21N FVI-C020HA-A21N FVI-C025HA-A21N
X X X X X X X X Œ Œ
Œ Œ
-%$)5- ()'( 34!4)# $5#4%$ ).$//2 5.)4
Model
Cooling Only FVI-D008CA-A21N FVI-D010CA-A21N FVI-D013CA-A21N FVI-D016CA-A21N FVI-D020CA-A21N FVI-D025CA-A21N
FVI-D032CA-A21N
FVI-D040CA-A21N FVI-D050CA-A21N
Cool / Heat FVI-D008HA-A21N FVI-D010HA-A21N FVI-D013HA-A21N FVI-D016HA-A21N FVI-D020HA-A21N FVI-D025HA-A21N
FVI-D032HA-A21N
FVI-D040HA-A21N FVI-D050HA-A21N
60H(Z
#OOLING
"TUHR
(EATING
"TUHR
)NPUT
7
2ATED #URRENT
!
!IR &LOW (I
#-(
#&
%XTERNAL 3TATIC 0RESSURE (I,O
0A
.OISE ,EVEL (I-E,O
D"!
$IMENSION 7X(X$
MM
X X X X X X X X MM
X X X X X X X X )NDOOR 5NIT
0ACKING 7X(X$
.ET 'ROSS 7EIGHT
KG
2EFRIGERANT 0IPING
,IQUID 'AS
MMIN
Œ Œ
Œ Œ
Œ Œ
$RAINAGE 7ATER 0IPE $IAMETER
MMIN
0OWER 3UPPLY
#APACITY
Œ Œ
REMOTE CONTROLLER
Model
0OWER 3UPPLY
#APACITY
60H(Z
#OOLING
(EATING
"TUHR
"TUHR
FVI-T040CA-A21N
FVI-T045CA-A21N FVI-T050CA-A21N
FVI-T040HA-A21N
FVI-T045HA-A21N
FVI-T050HA-A21N
)NPUT
7
#URRENT
!
#-(
#&D"!
$IMENSION 7X(X$
MM
X X 0ACKING 7X(X$
.ET 'ROSS 7EIGHT
$IMENSION 7X(X$
0ACKING 7X(X$
MM
KG
MM
MM
X X X X X X !IR &LOW (I
.OISE ,EVEL (I-E,O
-AIN "ODY
0ANEL
.ET 'ROSS 7EIGHT
2EFRIGERANT 0IPING
,IQUID 'AS
$RAINAGE 7ATER 0IPE $IAMETER
KG
MMIN
Œ Œ
MMIN
Model
Cooling Only
Cool / Heat
0OWER 3UPPLY
60H(Z
#OOLING
"TUHR
#APACITY
(EATING
"TUHR
)NPUT
7
2ATED #URRENT
!
#-(
!IR &LOW (I
#&%XTERNAL 3TATIC 0RESSURE (I,O
0A
.OISE ,EVEL (I-E,O
D"!
$IMENSION 7X(X$
MM
)NDOOR 5NIT
0ACKING 7X(X$
MM
.ET 'ROSS 7EIGHT
KG
2EFRIGERANT 0IPING
,IQUID 'AS
MMIN
$RAINAGE 7ATER 0IPE $IAMETER
MMIN
FVI-D080CA-E21N
FVI-D100CA-E21N
FVI-D080HA-E21N
FVI-D100HA-E21N
X X X X X X X X Œ Œ
7IRELESS
9
7IRED
:&
VRF Air Conditioning System
STANDARD FOR ALL INDOOR UNIT EXCEPT DUCTED MODELS
STANDARD FOR DUCTED MODELS OPTIONAL FOR OTHER MODELS
Condition:
s !LL SPECIFICATIONS ARE SUBJECTED TO CHANGE BY THE MANUFACTURER WITHOUT PRIOR NOTICE
s .IMONAL COOLING AND HEATING CAPACITIES ARE BASED ON THE FOLLOWING CONDITIONS
s #OOLING ƒ# $" ƒ# 7" INDOORS AND ƒ# $" ƒ# 7" OUTDOORS
s (EATING ƒ# $" ƒ# 7" INDOORS AND ƒ# $" ƒ# 7" OUTDOORS
FUJIAIRE (M) SDN. BHD. -
5NIT # ,OT *ALAN 0ERUSAHAAN "ATU #AVES )NDUSTRIAL %STATE "ATU #AVES 3ELANGOR $% -ALAYSIA 4EL &AX 7EBSITE HTTPWWWFUJIAIRECOMMY %MAIL ENQUIRY FUJIAIRECOMMY
12HP / 14HP / 16HP
33.5kW / 40kW / 45kW
8HP / 10HP
22.4kW / 28kW
3.5HP / 4HP
5HP / 6HP
R410A