beko high ambient (tropical) vrs/vrf catalogue
DESCRIPTION
Beko High Ambient (Tropical) VRS/VRF CatalogueTRANSCRIPT
High Performance
BEKO VRS Systems
Enjoy a Clean & Comfortable life with Xtreme VRS 3
Contents Outdoor Unit
Xtreme VRS 3 10
Xtreme VRS MINI 28
VRS WATERACE 32(Heat Pump, Heat Recovery)
Indoor Unit
Wall Mounted 60
ART COOL 62
Ceiling Cassette 64
Ceiling Duct 68
Ceiling & Floor / 72Suspended 73
Floor Standing 74
VRS 3 Vent
VRS 3 Vent 80
VRS 3 Vent DX 84
Fresh Air Intake Unit 85
AHU Kit 86
Automation & Accessory
Remote Controller 96
Central Controller 100
Accessory 104
BEKO XTREME VRS 3 SERIES
2012 OUTDOOR UNIT LINE-UP
| HP |
| HP |
| HP |
4
22
40
4
10
6
24
42
5
20
8
26
44
6
30
10
28
46
7
40
12
30
48
8
50
14
32
50
9
60
16
34
60
10
70
18
36
70
11
80
20
38
80
12
90
gy g
kW
Btu / h 7k 9k 12k
2.2 2.8 3.6
5k
1.5
Ceilin
g &
Floo
r /
Ceilin
g Su
spen
ded
Flo
or
Sta
ndin
gFA
UV
RS
3
Vent
With Case
Vent
Vent DX
Fresh Air Intake Unit
Without Case
Cei
ling
Cas
sett
e
2way Cassette
1way Cassette
(840*840)4way Cassette
(570*570)4way Cassette
SR
AC
Wall Mounted
Cei
ling
Co
ncea
led
D
uct
Low Static
High Static
BEKO XTREME VRS 3 SERIES
2012 OUTDOOR UNIT LINE-UP
18k 24k 28k 36k 42k 48k 76k 96k15k
5.6 7.1 8.2 10.6 12.3 14.1 22.4 28.04.5
4.71, 7.46, 9.12 kW
14.1, 22.4, 28 kW
Enjoy a Clean &Comfortable life with
Xtreme VRS 3
VRS 3 Inverter units composed of serially
arranged refrigerant pipes connected
to a single outdoor unit are an efficient
system that offers outstanding energy
saving, simple and easy installation, and
connection to different types of indoor
units, making it easy to design and
install.
Tropical Multi V III
Tropical Multi V M
iniTropical M
ulti V Water II
Multi V series Indoor unit
eco VV-N
et & Accessory
The world’s best cooling COP
• High efficiency BLDC V-scroll inverter compressor
• High efficiency BLDC inverter fan motor
• High air volume fan
• Optimal heat exchanger distribution
Coefficient of Performance (COP) =
Therefore, the higher the COP of a product, the higher its cooling and heating capability and the lower its energy consumption.
Cooling capability
Energy consumption
COP Comparison (Base on 12HP)
MULTIACE
VRS 3
Cooling
Maximum single unit capacity of 16HP
VRS 3 offers world’s largest capacity of 16HP for a single unit. The two basic modules, small unit (up to 10HP), and large unit (up to 16HP), can be combined freely. Since one outdoor unit is enough to heat and cool a large area, the design of the VRS 3 is simple and installation costs are kept to a minimum.
Small8~10HP
Large12~16HP
16HP Single Unit !!
11% UP 4.12
3.7
6
1
7
2
3
4
5
As VRS 3 has high efficiency parts, advanced interver control technology and optimal cycle control technology, the system’s unified performance has been improved. Based on these advanced technologies, the product provides customers with value through high efficiency and energy savings.
Technical innovation for high COP
BLDC v-scroll inverter compressor
Improved the energy efficiency by 11%, compared with the AC inverter compressor, by using the high efficiency BLDC inverter compressor.
1
Sine wave inverter control
Improved the efficiency of the compressor motor by using the sine wave DC inverter control technology.
2
Cyclone sub-cooling circuit
Improved the cooling capability by using a cyclone sub-cooling circuit.
3
Newly designed propeller fan
Achieved optimal heat exchange by using high air volume and low noise fan.
4
BLDC v-scroll inverter fan motor
Improved efficiency by using high efficiency BLDC inverter motor, compared with the AC motor.
5
New refrigerant distributor for the heat exchanger
Improved heat exchange performance and efficiency by reducing greatly the heat exchanger’s temperature deviation from 5ºC to 1 degree by applying an optimal distributor design to the heat exchanger.
6
Wide louver fins for the heat exchanger
Improved efficiency by using wide louver fins with an increased heating area.
7
Outdoor UnitPursuing the market needs of high energy efficiency and environmental friendliness.
Tropical Multi V III
Tropical Multi V M
iniTropical M
ulti V Water II
eco VV-N
et & Accessory
Space utilization by smaller size
The product size is reduced by up to 50% compared to the existing products, reducing the required installation space greatly. This gives you more free space and thus allows for easier HVAC design.
50% Reduction
MULTIACE VRS IIl
25% Reduction
10HP 20HP
MULTIACE
PH61PH61
VRS 3 XTREME
Extended piping length and elevation
Because of the product’s use of inverter control technology and sub-cooling control circuit technology, it is possible to design a system with the world’s longest piping length and world’s highest elevation difference. With this product, since a cooling and heating system can be designed more flexibly in a high-rise building or complex facilities building, the designer’s working time is reduced, thus allowing a more efficient design.
Total piping lengthActual longest piping length(Equivalent)Longest piping length after 1st branch(Conditional application)Level difference between ODU~IDULevel difference between IDU~IDULevel difference between ODU~ODU
1000m200m
(225m)40m
(90m)110m15m5m
Outdoor UnitPursuing the market needs of high energy efficiency and environmental friendliness.
We not only produce high efficiency products that have excellent energy-saving capability, but we also develop eco-friendly products with green technology that protects the earth and the environment. With these products, we are leading the world in low carbon and green development.
Eco-friendly design
R410A Refrigerant
No refrigerant leakage design and production
Auto leakage detection
Refrigerant recovery and reuse
Refrigerant recovery
Tropical Multi V III
Tropical Multi V M
iniTropical M
ulti V Water II
Multi V series Indoor unit
eco VV-N
et & Accessory
Maximum combination capacity of 48HP with a single pipe
When designing a HVAC system with a total capacity of 240HP, our 48HP VRS 3 combination give you the following benefits, compared with conventional 36HP combination models
• Reduces the installation space by 50%. • A large capacity design reduces the time spent on designing
the HVAC system, and also reduces the construction costs.
A combination of up to 48HP can be made using 16HP units. This makes it possible to design a HVAC system that fits into an extensive space. The usual major problems in design, such as installation space for outdoor units, pipe shaft space and piping line, are no longer an issue.
Outdoor unit combination of up to 48HP
Installation space saving - Optimal space utilization
Single pipe
- Easy to design.- Cooling and heating for an extensive space- Installation cost savings
Comparison of outdoor unit installation space
Conventional
VRS 3
Outdoor UnitPursuing the market needs of high energy efficiency and environmental friendliness.
Wide operating range / Cooling at 54ºC
New designs for low operation noise
To provide our customers with the world’s best cooling and heating performance at a minimum size, and as well as a pleasant environment created with quiet operation, VRS 3 uses various low noise technologies. It has minimized operation noise by using a compressor with BLDC motors, low noise fan motors, new soundproof technology, outdoor fans, and a newly developed shroud shape.
The product has more extended continuous cooling operation range and operable range than the existing products, enabling more extensive operation. It has extended the operation range by using more enhanced inverter compressor and control technology. 54ºC
Tropical Multi V III
Tropical Multi V M
iniTropical M
ulti V Water II
Multi V series Indoor unit
eco VV-N
et & Accessory
High static pressure fan
Since the product uses a more powerful high static pressure fan, the outdoor unit can be installed not only on the roof of a building but also inside the building by using an air duct. Because of the high static pressure fans and the BLDC fan motors, a sufficient air volume can be acquired for heat exchange and no re-circulation of the discharged air currents occurs. Depending on the building structure, you can reduce the piping length by installing the outdoor unit in the machine room.
erent building structures
No stacking of high temperature air occurs due to powerful discharge of air currents even within a high-rise building
Conventional model VRS lll
Outdoor UnitPursuing the market needs of high energy efficiency and environmental friendliness.
Improved corrosion resistance with Goldfin™
Flexible indoor unit combination
Since up to 64 indoor units can be connected and there are 13 types of 71 different indoor models that can be connected, a variety of designs tailored for individual construction usage can be made. Up to 130% efficiency can be achieved with different combinations.
A combination with maximum 130% efficiency can be achieved only if the changes of the heating and cooling load and the product operation rate by time are considered
Verify combination ratio at EPDB
The patented chloride-induced corrosion resistant Goldfin has low corrosion and erosion rates and high hydrophilicity. Its performance will not be affected even in a humid area.(Please contact us regarding the chloride-induced corrosion resistance model.)
Salt Spray Test for 15 DaysFin layer
Connectable Indoorunit Capacity
Up to Max 130%Various Indoor units
13 types, 71 modelsConnectable Indoor
unit Number
Up to 64
Tropical Multi V III
Tropical Multi V M
iniTropical M
ulti V Water II
Multi V series Indoor unit
eco VV-N
et & Accessory
Easy and safe transportation
Fast and safe transportation by a forklift
Forklift transportation hole Scratch prevention guide
Compact product design allowing transportation by an elevator
Transportation by an elevator
Safety design for crane use
Crane rope hole
Transportation by a crane
Outdoor UnitPursuing the market needs of high energy efficiency and environmental friendliness.
Free 4-way piping connection
Intelligent simple test run
Automatic test run reduce test run time by more than 60% compared to the test run in an existing product, and provides safe, reliable and convenient test run with various data backup functions. Since any general installation worker, not just a highly trained engineer, can perform a test run, the product also increases your installation competitiveness.
The piping lines for the outdoor unit can be connected in 4 ways (front/left/right/bottom piping), allowing various custom construction depending on the individual site. If the piping lines are installed on the floor (bottom piping), the product looks neat as they are hidden from view and, in addition, the piping lines also do not interfere with gas/liquid lines, making the installation work safe and convenient. Piping line tray work is not necessary depending on the individual site, which reduces additional working hours, and also makes maintenance easier when the product is installed in the machine room. Bottom
Front
Right
Left
4-way piping design
Conventional model
• Piping/Communication lines• Entire room
operation• Individual room
operation•Reporting
• Piping/Communication lines• Entire room
operation• Individual room
operation•Reporting
• Piping/Communication lines• Entire room
operation• Individual room
operation•Reporting
VRS 3
Automatic test run
Tropical Multi V III
Tropical Multi V M
iniTropical M
ulti V Water II
Multi V series Indoor unit
eco VV-N
et & Accessory
Automatic detection for incorrect connections
Real-time automatic fault prediction function
In the existing products, if an installation engineer has connected a liquid line to a gas line by mistake, you have to take the trouble to check the piping line connections for the indoor units installed over the ceiling. However, VRS 3 automatically checks the connections of piping lines and communication lines with its FDD function and notifies the user if there is any problem. Usually, installation becomes more and more complex as the number of connected indoor units increases. But, with the automatic detection function of this product, installation is made easier and, when an indoor unit has a connection problem, you can take action quickly because the automatic detection function will inform you about that indoor unit.
With the existing products, their performance and reliability would be degraded due to a slight fault with a sensor or the EEV. However, this product allows you to check the current status for the sensors and the EEV, which are the major components for system control, through a through FDD test standard.
Incorrect piping line connection
(Liquid line + gas line)
Incorrect communication line connection
Sensor
EEV
Outdoor unit Indoor unit
Temperature sensor 11(16HP) 3
Pressure sensor 2 0
Based on one outdoor unit and one indoor unit, respectively
Outdoor UnitPursuing the market needs of high energy efficiency and environmental friendliness.
Pump down
Automatic refrigerant charging function
Calculates and automatically injects the optimal amount of refrigerant. Since the FDD algorithm calculates and automatically charges the correct amount of refrigerant without using an electronic scale, installation reliability is increased and product performance is guaranteed.
When an indoor unit malfunctions, it needs to be replaced served before servicing this function automatically collects its refrigerant in outdoor unit running normally, making servicing very convenient and easy.
PUMP DOWN When an indoor unit malfunctions, this function collects the refrigerant remaining in the piping line or that unit to an outdoor unit.
Embedded with the FDD algorithm
Indicated by theLED indicator
when fully charged
Tropical Multi V III
Tropical Multi V M
iniTropical M
ulti V Water II
Multi V series Indoor unit
eco VV-N
et & Accessory
Automatic emergency back-up function
Powerful Control Software
When a compressor malfunctions, the other compressor that is operating normally in an outdoor unit can run automatically as a substitute, minimizing any inconvenience that may occur in an emergency situation.
This program allows you to monitor and control the operation status of the product. Since the program can be connected to either an outdoor unit or indoor unit, you can check the operation status of the product easily and conveniently any time and anywhere.
Software Cycle View Cycle Indoor unit control
Outdoor UnitPursuing the market needs of high energy efficiency and environmental friendliness.
Night silent operation
Fast and comfortable operation
By using the core technologies, such as optimal and cutting-edge control on each part of the indoor and outdoor units, BLDC inverter compressors, and artificial intelligence, the product takes less than 10 minutes to reach the set temperature from the initial heating or cooling operation. In addition, it always creates a pleasant indoor atmosphere with no temperature variation by reducing the revolutions of the compressor and performing finer control when the temperature reaches close to the set temperature.
By using the BLDC inverter compressor & fan control technology and the real-time outdoor temperature detection technology, the product is equipped with the night low-noise operation function. 8 stages of low-noise operation are possible to provide more quiet operation during the night.
Tropical Multi V III
Tropical Multi V M
iniTropical M
ulti V Water II
Multi V series Indoor unit
eco VV-N
et & Accessory
New & core technologies
Provides high air volume and high static pressure with the changed shape
Provides low noise levels through pod-shapeddesign
OLD
NEW
Minimizesvortexresistance with a curvedshape
Sub-cooling circuit control: Extracts part of the refrigerant of the SC circuit equipped in the liquid line exit of an outdoor unit and expands that extracted refrigerant using the SC EEV to make low temperature refrigerant, and then performs heat exchange in the system using that low temperature to increase the sub-cooling rate of the system.
1
2
3
5
4
6
1
2
3
BLDC inverter compressor
New designed propeller fan (Super Aero fan)
New Sub-Cooling Circuit
Improved the energy efficiency by 11%, compared with the AC inverter compressor, by using the high efficiency BLDC inverter compressor.
Improved the energy efficiency by 11%, compared with the AC inverter compressor, by using the high efficiency BLDC inverter compressor.
The sub-cooling circuit control acquires sub-cooled liquid refrigerant and thus improves the symptoms of o i l recovery degradation and per formance degradation that occur because a loss of system capability occurs throughout the piping lines. The sub-cooling circuit control is a core technology that enables the product to implement the world’s longest piping length and elevation difference technology.
4 New BLDC inverter compressor
We have developed a new compressor with better performance, higher efficiency, and a more enhanced reliability than the existing compressors. For the motor, which is the core of the compressor, the product uses a BLDC motor. The BLDC motor is a highly efficient motor, where strong ND magnetism inside the rotor produces magnetic torque and the metal part of the rotor produces reluctance torque to generate strong rotational force. Efficiency is improved because it has no slip loss, which always occurs in the normal induction motor, and noise is also reduced due to its low torque ripple design.In addition, because the BLDC inverter compressor has the back pressure structure in which the interior of the compressor is maintained at a high pressure, the compression efficiency for refrigerant is improved. The compressor is also a high pressure type that makes oil lubrication smoother. Compared to the existing models, the BLDC inverter compressor has more improved performance and reliability.It is the most suitable scroll inverter compressor for the VRF system and performs the role of a strong human hear t in the VRS 3 with i ts outstanding performance and high reliability.
Outdoor UnitPursuing the market needs of high energy efficiency and environmental friendliness.
5
6
New optimized refrigerant distributor
New FDD technology
With the new optimal distributor design applied to the heat exchanger, the product distr ibutes refrigerant to the heat exchanger uniformly so that its entire area can be used efficiently. As a result, both of heat exchange efficiency and system performance are improved.
Just like a comprehensive automotive diagnostic sys tem, the VRS 3 i s a l so equ ipped w i th a comprehensive diagnostic system that carries out automatic test run, refrigerant amount check, and real-time inspection and back-up operation for parts and sensors, maximizing reliability of the product.
6
6
New FDD technology
New & Improved function
FDD (Fault Detection & Diagnosis)
1. Automatic test run 2. Refrigerant amount check3. Real-time diagnosis (refrigerant and parts)4. Real-time back-up (compressor and sensors)
Automotive self-diagnostic system
Tropical Multi V III
Tropical Multi V M
iniTropical M
ulti V Water II
eco VV-N
et & Accessory
Enjoy a Clean &Comfortable life with
Xtreme VRS M�INI
VRS MINI can be easily installed in small
offices and shops. Designed for low-
noise operation, it ensures a pleasant air
conditioned environment.
Tropical Multi V III
Tropical Multi V M
iniTropical M
ulti V Water II
Multi V series Indoor unit
eco VV-N
et & Accessory
Enhanced Comfort
Wide Range of Operation / Cooling at 54ºC
• Night silent operation silent operation• High COP
• Cooling operation range : -5ºC to 54ºC• Heating operation range : -20ºC to 16ºC
Day-time Night time(Based on 4HP)
• Noise level (dBA)
50 51 52
4HP 5HP 6HP STEP 1 STEP 2 STEP 3
34 0446• Long pipe length
Total piping length
Longest piping length (Equivalent)
Longest piping length after 1st branch
Level di�erence Between ODU~IDU
Level di�erence Between IDU~IDU
300m
150m(175m)
40m
50m(40m*)
15m
Cooling Heating
4HP
5HP
6HP
HP3Ø, 380V
4.3
4.0
3.7
4.3
4.1
3.9
*Outdoor unit is lower than indoor unit.
54ºC
Max. 9 Indoor Units Connectable
Easy To Service
• Maximum 9 indoor units can be connected to one single outdoor unit with 100% indoor unit combination.
- 9 indoor units for 6HP - 8 indoor units for 5HP - 6 indoor units for 4HP
• Maximum 9 indoor units can be connected to one single outdoor unit with 100% indoor unit combination. - 9 indoor units for 6HP - 8 indoor units for 5HP - 6 indoor units for 4HP
Outdoor UnitMULTI V MINI uses the cutting-edge, artificial intelligence control to obtain efficient operation and reduced noise.
units
(Based on 6 HP model)
1 2 3 4 5
6 7 8 9
01
0302
Convenient moving handle02
Compact Design & Ez SVC- Remove 3 pieces of screw for SVC- Front panel removal system
3 pieces of screw
Ez SVC
03Inner SVC valve- 4 Way piping is possible (Front, Rear, Right, Down)- Excellent exterior
01
1 Way 4 Way
Tropical Multi V III
Tropical Multi V M
iniTropical M
ulti V Water II
Multi V series Indoor unit
eco VV-N
et & Accessory
Enjoy a Clean &Comfortable life with
VRS WaterAce
VRS WaterAce represents both
effective and safe system with great
performance regardless of external
conditions, such as ambient
temperature, building wind effects in
high rising building.
Cooling tower
Refrigerant pipe
VRS WaterAceOutside unit
VRS WaterAceIndoor unit
Water pipe
Boiler
Tropical Multi V III
Tropical Multi V M
iniTropical M
ulti V Water II
Multi V series Indoor unit
eco VV-N
et & Accessory
Economic Water System
There is no efficiency reduction from environmental condition such as a contrary wind, building wind, harsh outside temperature. This is a good solution for high-rise building.
Easy Installation
• Light weight & compact size - Installation space is reduced up to 60%
• Easy piping work - Refrigerant & water pipe connection at front side
• High e�ciency system regardless of external conditions
• Optimized control by variable load
Wind
Outside temp
A company
Refrigerant piping
Water piping
Outside Unit
Refrigerant piping
Water piping
Outside UnitYour life will be upgraded through the state-of-the-art-technology of MULTI V WATER II.
Wide View
High Efficiency & Reliability
Longest Piping Length
The reduced installation space required for the outdoor unit has resulted in a more usable space.
Conventional
Narrow view
VRS WaterAce
Wide view
Total piping length
Longest piping length (Equivalent)
Longest piping length after 1st branch
Level difference Between ODU~IDU
Level difference Between IDU~IDU
300m
150m(175m)
40m
50m(40m*)
15m
*Outdoor unit is lower than indoor unit.
Longest piping length 40m (after 1st branch)
Level di�erence 50m
Between Indoor units 15m
Comparison between plate type and double pipe type
Compressor back up operation
1. One compressor failure
2. Error code is displayed
3. Back-up by field setting (Dip S/W)
4. Continuous operation
D/Pipe typePlate type
Reliability (MPa) Installation area(m2) E�ciency
15.5
20.0
29%
0.12
0.0650% 3.5
4.1
17%
Tropical Multi V III
Tropical Multi V M
iniTropical M
ulti V Water II
Multi V series Indoor unit
eco VV-N
et & Accessory
SPECIFICATIONS
Note
1. Capacities are based on following conditions:
BW )Fº2.66(Cº91/BD )Fº6.08(Cº72 erutarepmeT roodnI- gnilooC** BW )Fº2.66(Cº91/BD )Fº6.08(Cº72 erutarepmeT roodnI- :gnilooC*
BW )Fº2.57(Cº42/BD )Fº8.411(Cº64 erutarepmeT roodtuO- BW )Fº2.57(Cº42/BD )Fº59(Cº53 erutarepmeT toodtuO-
Piping Length -Interconnecting Piping Length 7.5m
-Level Difference of Zero
2. Capacities are net capacities
3. EEV : Electronic Expansion Valve
4. Wiring cable size must comply with the applicable local and national code.
5. Due to our policy of innovation some specification may be changed without prior notification
*HSS DC Scroll : High Side Shell DC Scroll
Model Name Combination Unit
Independent Unit
Capacity Cooling (T_air : 35ºC) RT
Wk
h/utB
Cooling (T_air : 46ºC) RT
Wk
h/utB
Heating RT
Wk
h/utB
Power Supply Ø , V, Hz
Dimensions(WxHxD) mm
hcni
Net Weight kg
sbl
Casing color
Number of outdoor units(Max)
Compressor Type
Motor Output x Number kW
Refrigerant Charge kg
Refrigerant name
Control
Heat Exchanger
Fan Drive
Air Flow Rate(High) CMM
Motor Output x Number kW
Sound pressure levels dB(A)±3
Pipe Connections Liquid Pipes mm(inch)
Gas Pipes mm(inch)
HPBTON08LUH3-X
BTON08LUH3-X
6.4
22.4
76,400
6.4
22.4
76,400
7.17
25.2
85,300
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(920×1,680×760)×1
(36.2×66.1×29.9)×1
240 × 1
529 × 1
Warm Gray
Morning Gray
13
*HSS DC Scroll
(5.143+4.95)x1
6.4
R410A
EEV
Gold fin
DC INVERTER
180
0.75 x 1
57
Ø9.52(3/8)
Ø19.05(3/4)
BTON10LUH3-X
BTON10LUH3-X
8.0
28.0
95,500
7.1
25.0
85,300
8.96
31.5
107,500
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(920×1,680×760)×1
(36.2×66.1×29.9)×1
240 × 1
529 × 1
Warm Gray
Morning Gray
16
*HSS DC Scroll
(5.143+4.95)x1
6.4
R410A
EEV
Gold fin
DC INVERTER
190
0.75 x 1
58
Ø9.52(3/8)
Ø22.2(7/8)
BTON12LUH3-X
BTON12LUH3-X
9.6
33.6
114,600
8.1
28.5
97,200
10.75
37.8
128,000
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(1,240×1,680×760)×1
(48.8×66.1×29.9)×1
270 × 1
595 × 1
Warm Gray
Morning Gray
20
*HSS DC Scroll
(5.143+4.95)x1
7.0
R410A
EEV
Gold fin
DC INVERTER
240
0.6 x 2
61
Ø12.7(1/2)
Ø28.58(11/8)
8 10 12
*HSS DC Scroll : High Side Shell DC Scroll
Note
1. Capacities are based on following conditions:
BW)Fº2.66(Cº91/BD)Fº6.08(Cº72erutarepmeTroodnI-gnilooC**BW)Fº2.66(Cº91/BD)Fº6.08(Cº72erutarepmeTroodnI-:gnilooC*
BW)Fº2.57(Cº42/BD)Fº8.411(Cº64erutarepmeTroodtuO-BW)Fº2.57(Cº42/BD)Fº59(Cº53erutarepmeTtoodtuO-
Piping Length -Interconnecting Piping Length 7.5m
-Level Difference of Zero
2. Capacities are net capacities
3. EEV : Electronic Expansion Valve
4. Wiring cable size must comply with the applicable local and national code.
5. Due to our policy of innovation some specification may be changed without prior notification
14 16(Space Saving) 16(Energy Saving) 18Model Name Combination Unit
Independent Unit
Capacity Cooling (T_air : 35ºC) RT
Wk
h/utB
Cooling (T_air : 46ºC) RT
Wk
h/utB
Heating RT
Wk
h/utB
Power Supply Ø , V, Hz
Dimensions(WxHxD) mm
hcni
Net Weight kg
sbl
Casing color
Number of outdoor units(Max)
Compressor Type
Motor Output x Number kW
Refrigerant Charge kg
Refrigerant name
Control
Heat Exchanger
Fan Drive
Air Flow Rate(High) CMM
Motor Output x Number kW
Sound pressure levels dB(A)±3
Pipe Connections Liquid Pipes mm(inch)
Gas Pipes mm(inch)
HPBTON14LUH3-X
BTON14LUH3-X
11.1
39.2
133,800
10.0
35.3
120,400
12.48
43.9
149,800
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(1,240×1,680×760)×1
(48.8×66.1×29.9)×1
340 × 1
749 × 1
Warm Gray
Morning Gray
23
*HSS DC Scroll
(5.143+4.95+4.95)x1
7.5
R410A
EEV
Gold fin
DC INVERTER
250
0.6 x 2
62
Ø12.7(1/2)
Ø28.58(11/8)
BTON16LUH3-X
BTON16LUH3-X
12.7
44.8
152,900
11.5
40.3
137,600
14.22
50.0
170,600
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(1,240×1,680×760)×1
(48.8×66.1×29.9)×1
350 × 1
771× 1
Warm Gray
Morning Gray
26
*HSS DC Scroll
(5.143+4.95+4.95)x1
9.0
R410A
EEV
Gold fin
DC INVERTER
250
0.6 x 2
62
Ø12.7(1/2)
Ø 28.58(11/8)
BTON16LUH3-X
BTON08LUH3-X
BTON08LUH3-X
12.7
44.8
152,800
12.7
44.8
152,800
14.33
50.4
170,600
3, 380~415, 50
3ø, 380V, 60Hz
(920×1,680×760)×2
(36.2×66.1×29.9)×2
240 × 2
529 × 2
Warm Gray
Morning Gray
26
HSS DC Scroll
(5.143+4.95)x2
12.8
R410A
EEV
Gold fin
DC INVERTER
360
0.75 x 2
60
Ø12.7(1/2)
Ø28.58(11/8)
BTON18LUH3-X
BTON08LUH3-X
BTON10LUH3-X
14.3
50.4
171,900
13.5
47.4
161,700
16.12
56.7
192,800
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(920×1,680×760)×2
(36.2×66.1×29.9)×2
240 × 2
529 × 2
Warm Gray
Morning Gray
29
*HSS DC Scroll
(5.143+4.95)x2
6.4 x 2
R410A
EEV
Gold fin
DC INVERTER
370
0.75 x 2
61
Ø15.88(5/8)
Ø28.58(11/8)
SPECIFICATIONS
Note
1. Capacities are based on following conditions:
BW )Fº2.66(Cº91/BD )Fº6.08(Cº72 erutarepmeT roodnI- gnilooC** BW )Fº2.66(Cº91/BD )Fº6.08(Cº72 erutarepmeT roodnI- :gnilooC*
BW )Fº2.57(Cº42/BD )Fº8.411(Cº64 erutarepmeT roodtuO- BW )Fº2.57(Cº42/BD )Fº59(Cº53 erutarepmeT toodtuO-
Piping Length -Interconnecting Piping Length 7.5m
-Level Difference of Zero
2. Capacities are net capacities
3. EEV : Electronic Expansion Valve
4. Wiring cable size must comply with the applicable local and national code.
5. Due to our policy of innovation some specification may be changed without prior notification
Model Name Combination Unit
Independent Unit
Capacity Cooling (T_air : 35ºC) RT
Wk
h/utB
Cooling (T_air : 46ºC) RT
Wk
h/utB
Heating RT
Wk
h/utB
Power Supply Ø , V, Hz
Dimensions(WxHxD) mm
hcni
Net Weight kg
sbl
Casing color
Number of outdoor units(Max)
Compressor Type
Motor Output x Number kW
Refrigerant Charge kg
Refrigerant name
Control
Heat Exchanger
Fan Drive
Air Flow Rate(High) CMM
Motor Output x Number kW
Sound pressure levels dB(A)±3
Pipe Connections Liquid Pipes mm(inch)
Gas Pipes mm(inch)
HPBTON20LUH3-X
BTON10LUH3-X
BTON10LUH3-X
15.9
56
191,000
14.2
50
170,600
17.91
63.0
215,000
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(920×1,680×760)×2
(36.2×66.1×29.9)×2
240 × 2
529 × 2
Warm Gray
Morning Gray
32
*HSS DC Scroll
(5.143+4.95)x2
6.4 x 2
R410A
EEV
Gold fin
DC INVERTER
380
0.75 x 2
61
Ø15.88(5/8)
Ø28.58(11/8)
BTON22LUH3-X
BTON10LUH3-X
BTON12LUH3-X
17.5
61.6
210,100
15.2
53.5
182,500
19.70
69.3
235,500
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(920×1,680×760)×1
(1,240×1,680×760)×1
(36.2×66.1×29.9)×1
(48.8×66.1×29.9)×1
240 × 1 + 270 × 1
529 × 1 + 595 × 1
Warm Gray
Morning Gray
35
*HSS DC Scroll
(5.143+4.95) x 2
6.4 x 1 + 7.0 x 1
R410A
EEV
Gold fin
DC INVERTER
430
0.75 + (0.6x2)
62.8
Ø15.88(5/8)
Ø28.58(11/8)
BTON24LUH3-X
BTON10LUH3-X
BTON14LUH3-X
19.1
67.2
229,300
17.1
60.3
205,700
21.44
75.4
257,300
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(920×1,680×760)×1
(1,240×1,680×760)×1
(36.2×66.1×29.9)×1
(48.8×66.1×29.9)×1
240 × 1 + 340 × 1
529 × 1 + 749 × 1
Warm Gray
Morning Gray
39
*HSS DC Scroll
(5.143+4.95)x1
(5.143+4.95+4.95)x1
6.4 x 1 + 7.5 x 1
R410A
EEV
Gold fin
DC INVERTER
440
0.75 + (0.6x2)
63.5
Ø15.88(5/8)
Ø34.9(13/8)
20 22 24
*HSS DC Scroll : High Side Shell DC Scroll
Note
1. Capacities are based on following conditions:
BW )Fº2.66(Cº91/BD )Fº6.08(Cº72 erutarepmeT roodnI- gnilooC** BW )Fº2.66(Cº91/BD )Fº6.08(Cº72 erutarepmeT roodnI- :gnilooC*
BW )Fº2.57(Cº42/BD )Fº8.411(Cº64 erutarepmeT roodtuO- BW )Fº2.57(Cº42/BD )Fº59(Cº53 erutarepmeT toodtuO-
Piping Length -Interconnecting Piping Length 7.5m
-Level Difference of Zero
2. Capacities are net capacities
3. EEV : Electronic Expansion Valve
4. Wiring cable size must comply with the applicable local and national code.
5. Due to our policy of innovation some specification may be changed without prior notification
26 28 30 32Model Name Combination Unit
Independent Unit
Capacity Cooling (T_air : 35ºC) RT
Wk
h/utB
Cooling (T_air : 46ºC) RT
Wk
h/utB
Heating RT
Wk
h/utB
Power Supply Ø , V, Hz
Dimensions(WxHxD) mm
hcni
Net Weight kg
sbl
Casing color
Number of outdoor units(Max)
Compressor Type
Motor Output x Number kW
Refrigerant Charge kg
Refrigerant name
Control
Heat Exchanger
Fan Drive
Air Flow Rate(High) CMM
Motor Output x Number kW
Sound pressure levels dB(A)±3
Pipe Connections Liquid Pipes mm(inch)
Gas Pipes mm(inch)
HPBTON26LUH3-X
BTON10LUH3-X
BTON16LUH3-X
20.7
72.8
248,400
18.6
65.3
222,900
23.17
81.5
278,100
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(920×1,680×760)×1
(1,240×1,680×760)×1
(36.2×66.1×29.9)×1
(48.8×66.1×29.9)×1
240 × 1 + 350 × 1
529 × 1 + 771 × 1
Warm Gray
Morning Gray
42
*HSS DC Scroll
(5.143+4.95)x1
(5.143+4.95+4.95)x1
6.4 x 1 + 9.0 x 1
R410A
EEV
Gold fin
DC INVERTER
440
0.75 + (0.6x2)
63.5
Ø19.05(3/4)
Ø34.9(13/8)
BTON28LUH3-X
BTON12LUH3-X
BTON16LUH3-X
22.3
78.4
267,500
19.6
68.8
234,800
24.96
87.8
298,600
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(1,240×1,680×760)×2
(48.8×66.1×29.9)×2
270 × 1 + 350 × 1
595 × 1 + 771 × 1
Warm Gray
Morning Gray
45
*HSS DC Scroll
(5.143+4.95)x1
(5.143+4.95+4.95)
7.0 x 1 + 9.0 x 1
R410A
EEV
Gold fin
DC INVERTER
490
(0.6x2) x 2
64.5
Ø19.05(3/4)
Ø34.9(13/8)
BTON30LUH3-X
BTON14LUH3-X
BTON16LUH3-X
23.9
84
286,700
21.5
75.6
258,000
26.70
93.9
320,400
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(1,240×1,680×760)×2
(48.8×66.1×29.9)×2
340 × 1 + 350 × 1
749 × 1 + 771 × 1
Warm Gray
Morning Gray
49
*HSS DC Scroll
(5.143+4.95+4.95)x2
7.5 x 1 + 9.0 x 1
R410A
EEV
Gold fin
DC INVERTER
500
(0.6x2) x 2
65
Ø19.05(3/4)
Ø34.9(13/8)
BTON32LUH3-X
BTON16LUH3-X
BTON16LUH3-X
25.5
89.6
305,800
22.9
80.6
275,200
28.43
100.0
341,200
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(1,240×1,680×760)×2
(48.8×66.1×29.9)×2
350 × 2
771 × 2
Warm Gray
Morning Gray
52
*HSS DC Scroll
(5.143+4.95+4.95)x2
9.0 x 2
R410A
EEV
Gold fin
DC INVERTER
500
(0.6x2) x 2
65
Ø19.05(3/4)
Ø34.9(13/8)
38 /39
*HSS DC Scroll : High Side Shell DC Scroll
SPECIFICATIONS
Note
1. Capacities are based on following conditions:
BW )Fº2.66(Cº91/BD )Fº6.08(Cº72 erutarepmeT roodnI- gnilooC** BW )Fº2.66(Cº91/BD )Fº6.08(Cº72 erutarepmeT roodnI- :gnilooC*
BW )Fº2.57(Cº42/BD )Fº8.411(Cº64 erutarepmeT roodtuO- BW )Fº2.57(Cº42/BD )Fº59(Cº53 erutarepmeT toodtuO-
Piping Length -Interconnecting Piping Length 7.5m
-Level Difference of Zero
2. Capacities are net capacities
3. EEV : Electronic Expansion Valve
4. Wiring cable size must comply with the applicable local and national code.
5. Due to our policy of innovation some specification may be changed without prior notification
34 36 38 40Model Name Combination Unit
Independent Unit
Capacity Cooling (T_air : 35ºC) RT
Wk
h/utB
Cooling (T_air : 46ºC) RT
Wk
h/utB
Heating RT
Wk
h/utB
Power Supply Ø , V, Hz
Dimensions(WxHxD) mm
hcni
Net Weight kg
sbl
Casing color
Number of outdoor units(Max)
Compressor Type
Motor Output x Number kW
Refrigerant Charge kg
Refrigerant name
Control
Heat Exchanger
Fan Drive
Air Flow Rate(High) CMM
Motor Output x Number kW
Sound pressure levels dB(A)±3
Pipe Connections Liquid Pipes mm(inch)
Gas Pipes mm(inch)
HPBTON34LUH3-X
BTON10LUH3-X
BTON10LUH3-X
BTON14LUH3-X
27.1
95.2
324,800
24.3
85.3
291,000
30.40
106.9
364,800
3, 380~415, 50Hz
3ø, 380V, 60Hz
(920×1,680×760)×2
(1,240×1,680×760)×1
(36.2×66.1×29.9)×2
(48.8×66.1×29.9)×1
240 × 2 + 340 × 1
529 × 2 + 749 × 1
Warm Gray
Morning Gray
55
HSS DC Scroll
(5.143+4.95)x2
(5.143+4.95+4.95) x 1
6.4 x 2 + 7.5 x 1
R410A
EEV
Gold fin
DC INVERTER
630
0.75x 2 + (0.6x2)
65
Ø19.05(3/4)
Ø34.9(13/8)
BTON36LUH3-X
BTON10LUH3-X
BTON12LUH3-X
BTON14LUH3-X
28.7
100.8
343,900
25.2
88.8
302,900
32.19
113.2
385,300
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(920×1,680×760)×1
(1,240×1,680×760)×2
(36.2×66.1×29.9)×1
(48.8×66.1×29.9)×2
240×1 + 270×1 + 340x1
529×1 + 595×1 + 749x1
Warm Gray
Morning Gray
58
*HSS DC Scroll
(5.143+4.95)x2
(5.143+4.95+4.95)x1
6.4 x 1 + 7.0 x 1 + 7.5 x 1
R410A
EEV
Gold fin
DC INVERTER
680
0.75 + (0.6x2) x 2
65.4
Ø19.05(3/4)
Ø41.3(15/8)
BTON38LUH3-X
BTON10LUH3-X
BTON12LUH3-X
BTON16LUH3-X
30.3
106.4
363,000
26.7
93.8
320,100
33.92
119.3
406,100
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(920×1,680×760)×1
(1,240×1,680×760)×2
(36.2×66.1×29.9)×1
(48.8×66.1×29.9)×2
240×1 + 270×1 + 350x1
529×1 + 595×1 + 771x1
Warm Gray
Morning Gray
61
*HSS DC Scroll
(5.143+4.95)x2
(5.143+4.95+4.95)x1
6.4 x 1 + 7.0 x 1 + 9.0 x 1
R410A
EEV
Gold fin
DC INVERTER
680
0.75 + (0.6x2) x 2
65.4
Ø19.05(3/4)
Ø41.3(15/8)
BTON40LUH3-X
BTON12LUH3-X
BTON12LUH3-X
BTON16LUH3-X
31.8
112
382,100
27.7
97.3
332,000
35.71
125.6
426,600
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(1,240×1,680×760)×3
(48.8×66.1×29.9)×3
270 × 2 + 350 x 1
595 × 2 + 771 x 1
Warm Gray
Morning Gray
64
*HSS DC Scroll
(5.143+4.95)x2
(5.143+4.95+4.95)x1
7.0 x 2 + 9.0 x 1
R410A
EEV
Gold fin
DC INVERTER
730
(0.6x2) x 3
66.1
Ø19.05(3/4)
Ø41.3(15/8)
*HSS DC Scroll : High Side Shell DC Scroll
Note
1. Capacities are based on following conditions:
BW )Fº2.66(Cº91/BD )Fº6.08(Cº72 erutarepmeT roodnI- gnilooC** BW )Fº2.66(Cº91/BD )Fº6.08(Cº72 erutarepmeT roodnI- :gnilooC*
BW )Fº2.57(Cº42/BD )Fº8.411(Cº64 erutarepmeT roodtuO- BW )Fº2.57(Cº42/BD )Fº59(Cº53 erutarepmeT toodtuO-
Piping Length -Interconnecting Piping Length 7.5m
-Level Difference of Zero
2. Capacities are net capacities
3. EEV : Electronic Expansion Valve
4. Wiring cable size must comply with the applicable local and national code.
5. Due to our policy of innovation some specification may be changed without prior notification
42 44 46 48Model Name Combination Unit
Independent Unit
Capacity Cooling (T_air : 35ºC) RT
Wk
h/utB
Cooling (T_air : 46ºC) RT
Wk
h/utB
Heating RT
Wk
h/utB
Power Supply Ø , V, Hz
Dimensions(WxHxD) mm
hcni
Net Weight kg
sbl
Casing color
Number of outdoor units(Max)
Compressor Type
Motor Output x Number kW
Refrigerant Charge kg
Refrigerant name
Control
Heat Exchanger
Fan Drive
Air Flow Rate(High) CMM
Motor Output x Number kW
Sound pressure levels dB(A)±3
Pipe Connections Liquid Pipes mm(inch)
Gas Pipes mm(inch)
HPBTON42LUH3-X
BTON12LUH3-X
BTON14LUH3-X
BTON16LUH3-X
33.4
117.6
401,300
29.6
104.1
355,200
37.45
131.7
448,400
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(1,240×1,680×760)×3
(48.8×66.1×29.9)×3
270×1 + 340×1 + 350x1
595×1 + 749×1 + 771x1
Warm Gray
Morning Gray
64
*HSS DC Scroll
(5.143+4.95)x1
(5.143+4.95+4.95)x2
7.0 x 1 + 7.5 x 1 + 9.0 x 1
R410A
EEV
Gold fin
DC INVERTER
740
(0.6x2) x 3
66.5
Ø19.05(3/4)
Ø41.3(15/8)
BTON44LUH3-X
BTON12LUH3-X
BTON16LUH3-X
BTON16LUH3-X
35.0
123.2
420,400
31.0
109.1
372,400
39.18
137.8
469,200
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(1,240×1,680×760)×3
(48.8×66.1×29.9)×3
270 × 1 + 350 x 2
595 × 1 + 771 x 2
Warm Gray
Morning Gray
64
*HSS DC Scroll
(5.143+4.95)x1
(5.143+4.95+4.95)x2
7.0 x 1 + 9.0 x 2
R410A
EEV
Gold fin
DC INVERTER
740
(0.6x2) x 3
66.5
Ø19.05(3/4)
Ø41.3(15/8)
BTON46LUH3-X
BTON14LUH3-X
BTON16LUH3-X
BTON16LUH3-X
36.6
128.8
439,600
33.0
115.9
395,600
40.92
143.9
491,000
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(1,240×1,680×760)×3
(48.8×66.1×29.9)×3
340 x 1 + 350 x 2
749 x 1 + 771 x 2
Warm Gray
Morning Gray
64
*HSS DC Scroll
(5.143+4.95+4.95)x3
7.5 x 1 + 9.0 x 2
R410A
EEV
Gold fin
DC INVERTER
750
(0.6x2) x 3
66.8
Ø19.05(3/4)
Ø41.3(15/8)
BTON48LUH3-X
BTON16LUH3-X
BTON16LUH3-X
BTON16LUH3-X
38.2
134.4
458,700
34.4
120.9
412,800
42.65
150.0
511,800
3Ø, 380V~415V, 50Hz
3Ø, 380V, 60Hz
(1,240×1,680×760)×3
(48.8×66.1×29.9)×3
350 x 3
771 x 3
Warm Gray
Morning Gray
64
*HSS DC Scroll
(5.143+4.95+4.95)x3
9.0 x 3
R410A
EEV
Gold fin
DC INVERTER
750
(0.6x2) x 3
66.8
Ø19.05(3/4)
Ø41.3(15/8)
40 /41
*HSS DC Scroll : High Side Shell DC Scroll
HPModel
Note
1. Capacities are based on following conditions:
BW )Fº2.66(Cº91/BD )Fº6.08(Cº72 erutarepmeT roodnI- gnilooC** BW )Fº2.66(Cº91/BD )Fº6.08(Cº72 erutarepmeT roodnI- :gnilooC*
BW )Fº2.57(Cº42/BD )Fº8.411(Cº64 erutarepmeT roodtuO- BW )Fº2.57(Cº42/BD )Fº59(Cº53 erutarepmeT toodtuO-
m5.7 htgneL gnipiP gnitcennocretnI- htgneL gnipiP BW )Fº95(Cº51/BD )Fº86(Cº02 erutarepmeT roodnI- :gnitaeH
oreZ fo ecnereffiD leveL- BW )Fº8.24(Cº6/BD )Fº6.44(Cº7 erutarepmeT toodtuO-
2. Capacities are net capacities
3. EEV : Electronic Expansion Valve
4. Wiring cable size must comply with the applicable local and national code.
5. Due to our policy of innovation some specification may be changed without prior notification
4
Capacity *Cooling RT
Wk
h/lack
h/utB
**Cooling(46) RT
Wk
h/lack
h/utB
TR gnitaeH
Wk
h/lack
h/utB
zH ,V ,ø ylppuS rewoP
Dimensions (WxHxD) mm
hcni
gk thgieW teN
Casing Color
Max. Number of Connectable Indoor Units
Ratio of the Connectable Indoor Units
Compressor (#1) Type
Piston Displacement m3/h
Number of Revolutions r.p.m
Motor Output x Number of Units kW
Oil charge volume cc
Oil Type
Refrigerant Type
gk egrahC
Control
Heat Exchanger
Fan Drive
Discharge Direction(Side/Top)
Air Flow Rate x No. of Fan m3/min
Motor output kW
Sound Level Sound Pressure dB(A)+3
Pipe Connections Liquid mm(inch)
Gas mm(inch)
3.2
11.2
9,632
38,200
2.6
9.2
7,910
31,400
3.6
12.5
10,750
42,700
3 / 380~415 / 50
3 / 380 / 60
950x1380x330
37.4x54.3x13.0
107
Warm Gray
6
100%
DC INV Rotary
42.5
3,600x1
4.0x1
1,300
FVC68D
R410A
3.0
EEV
Gold Fin
BLDC Inverter
Side
110
0.124x2
50/52
ø9.52(3/8)
ø15.88(5/8)
SPECIFICATIONS
BTON04LUH-X
BTON05LUH-X BTON06LUH-X
HPModel
Note
1. Capacities are based on following conditions:
BW )Fº2.66(Cº91/BD )Fº6.08(Cº72 erutarepmeT roodnI- gnilooC** BW )Fº2.66(Cº91/BD )Fº6.08(Cº72 erutarepmeT roodnI- :gnilooC*
BW )Fº2.57(Cº42/BD )Fº8.411(Cº64 erutarepmeT roodtuO- BW )Fº2.57(Cº42/BD )Fº59(Cº53 erutarepmeT toodtuO-
m5.7 htgneL gnipiP gnitcennocretnI- htgneL gnipiP BW )Fº95(Cº51/BD )Fº86(Cº02 erutarepmeT roodnI- :gnitaeH
oreZ fo ecnereffiD leveL- BW )Fº8.24(Cº6/BD )Fº6.44(Cº7 erutarepmeT toodtuO-
2. Capacities are net capacities
3. EEV : Electronic Expansion Valve
4. Wiring cable size must comply with the applicable local and national code.
5. Due to our policy of innovation some specification may be changed without prior notification
5 6
Capacity *Cooling RT
Wk
h/lack
h/utB
**Cooling(46) RT
Wk
h/lack
h/utB
TR gnitaeH
Wk
h/lack
h/utB
zH ,V ,ø ylppuS rewoP
Dimensions (WxHxD) mm
hcni
gk thgieW teN
Casing Color
Max. Number of Connectable Indoor Units
Ratio of the Connectable Indoor Units
Compressor (#1) Type
Piston Displacement m3/h
Number of Revolutions r.p.m
Motor Output x Number of Units kW
Oil charge volume cc
Oil Type
Refrigerant Type
gk egrahC
Control
Heat Exchanger
Fan Drive
Discharge Direction(Side/Top)
Air Flow Rate x No. of Fan m3/min
Motor output kW
Sound Level Sound Pressure dB(A)+3
Pipe Connections Liquid mm(inch)
Gas mm(inch)
4.0
14.0
12,040
47,800
2.9
10.3
8,860
35,100
4.5
16.0
13,760
54,600
3 / 380~415 / 50
3 / 380 / 60
950x1380x330
37.4x54.3x13.0
107
Warm Gray
8
100%
DC INV Rotary
42.5
3,600x1
4.0x1
1,300
FVC68D
R410A
3.0
EEV
Gold Fin
BLDC Inverter
Side
110
0.124x2
51/53
ø9.52(3/8)
ø15.88(5/8)
4.4
15.5
13,330
52,900
3.3
11.5
9,890
39,200
5.1
18.0
15,480
61,400
3 / 380~415 / 50
3 / 380 / 60
950x1380x330
37.4x54.3x13.0
107
Warm Gray
9
100%
DC INV Rotary
42.5
3,600x1
4.0x1
1,300
FVC68D
R410A
3.0
EEV
Gold Fin
BLDC Inverter
Side
110
0.124x2
52/54
ø9.52(3/8)
ø19.05(3/4)
SPECIFICATIONS
42 /43
SPECIFICATIONS
HPModel Name Combination Unit
Independent Unit
Capacity Cooling kW
Heating kW
Power Input Cooling kW
Heating kW
COP Cooling
Heating
Powersupply ø, V, Hz
Dimensions (WxHxD) mm
Net Weight kg
Color
Noise Level dBA
Heat Exchanger Type
Max. Pressure resistance kgf/cm2
Head loss kpa
Rated Water flow LPM
Compressor Type
Number of compressors
Refrigerant Type
gk egrahC
Control
Refrigerant Oil Oil Type
Oil Charge Amount L
Pipe Connctions Liquid Pipes mm(inch)
Gas Pipes mm(inch)
Water Connection Inlet
Outlet
Drain Outlet
Number of outdoor unit
Number of connectable indoor units
Ratio of the connectable indoor units
Longest piping length / Level difference
BTO*10LA-X
BTO*10LA-X
28.0
31.5
5.6
5.8
5.00
5.43
3, 380~415, 50
772x1,120x547
170
51
45
26.5
96
DC Inverter Scroll
1
R410A
7.3
EEV
FVC68D(PVE)
2.325±10
9.52(3/8)
22.2(7/8)
PT32
PT32
PT20
1
16
BTO*20LA-X
BTO*20LA-X
56.0
63.0
11.2
11.7
5.00
5.38
3, 380~415, 50
772x1,120x547
238
51
45
43
192
2
R410A
8.8
EEV
FVC68D(PVE)
2.325±10+2.325±70
12.7(1/2)
28.85(1 1/8)
PT40
PT40
PT20
1
32
BTO*30LA-X
BTO*20LA-X
BTO*10LA-X
84.0
94.5
16.8
17.5
5.00
5.40
3, 380~415, 50
(772x1,120x547)x2
170+238
53
45
26.5+43
192+96
3
R410A
8.8+7.3
EEV
FVC68D(PVE)
(2.325±10)x2+2.325±70
15.88(5/8)
34.9(1 3/8)
PT32 + PT40
PT32 + PT40
PT20
2
49
10 20 30
* N : Heat Pump B : Heat Recovery
Note
1. Capacities are based on following conditions:
Cooling: -Indoor Temperature 27ºC(80.6ºF) DB/19ºC(66.2ºF) WB
-Water inlet temperature 30ºC(86ºF)
Interconnecting piping length 7.5m
Level difference of zero
2. Capacities are net capacities
3. Due to our policy of innovation some specification may be changed without prior notification
4. EEV : Electronic Expansion Valve
Heating: -Indoor Temperature 20ºC(68ºF) DB
-Water inlet temperature 20ºC(86ºF)
Warm Gray
Stainless Steel Plate
DC Inverter Scroll / Constant Speed Scroll
50 ~ 130%
150m / 50m
HPModel Name Combination Unit
Independent Unit
Capacity Cooling kW
Heating kW
Power Input Cooling kW
Heating kW
COP Cooling
Heating
Powersupply ø, V, Hz
Dimensions (WxHxD) mm
Net Weight kg
Color
Noise Level dBA
Heat Exchanger Type
Max. Pressure resistance kgf/cm2
Head loss kpa
Rated Water flow LPM
Compressor Type
Number of compressors
Refrigerant Type
gk egrahC
Control
Refrigerant Oil Oil Type
Oil Charge Amount L
Pipe Connctions Liquid Pipes mm(inch)
Gas Pipes mm(inch)
Water Connection Inlet
Outlet
Drain Outlet
Number of outdoor unit
Number of connectable indoor units
Ratio of the connectable indoor units
Longest piping length / Level difference
BTO*40LA-X
BTO*20LA-X
BTO*20LA-X
112.0
126.0
22.4
23.4
5.00
5.38
3, 380~415, 50
(772x1,120x547)x2
238+238
54
45
43+43
192+192
4
R410A
8.8+8.8
EEV
FVC68D(PVE)
(2.325±10)x2+(2.325±70)x2
19.05(3/4)
41.3(1 5/8)
PT40 + PT40
PT40 + PT40
PT20
2
64
BTO*50LA-X
BTO*20LA-X
BTO*20LA-X
BTO*10LA-X
140.0
157.5
28.0
29.2
5.00
5.39
3, 380~415, 50
(772x1,120x547)x3
238+238+170
55
45
26.5+43+43
192+192+96
5
R410A
7.3+8.8+8.8
EEV
FVC68D(PVE)
(2.325±10)x3+(2.325±70)x2
19.05(3/4)
41.3(1 5/8)
PT32+PT40+PT40
PT32+PT40+PT40
PT20
3
64
BTO*60LA-X
BTO*20LA-X
BTO*20LA-X
BTO*20LA-X
168.0
189.0
33.6
35.1
5.00
5.38
3, 380~415, 50
(772x1,120x547)x3
238+238+238
56
45
43+43+43
192+192+192
6
R410A
8.8+8.8+8.8
EEV
FVC68D(PVE)
(2.325±10)x3+(2.325±70)x3
19.05(3/4)
41.3(1 5/8)
PT40+PT40+PT40
PT40+PT40+PT40
PT20
3
64
40 50 60
* N : Heat Pump B : Heat Recovery
Note
1. Capacities are based on following conditions:
Cooling: -Indoor Temperature 27ºC(80.6ºF) DB/19ºC(66.2ºF) WB
-Water inlet temperature 30ºC(86ºF)
Interconnecting piping length 7.5m
Level difference of zero
2. Capacities are net capacities
3. Due to our policy of innovation some specification may be changed without prior notification
4. EEV : Electronic Expansion Valve
Heating: -Indoor Temperature 20ºC(68ºF) DB
-Water inlet temperature 20ºC(86ºF)
Warm Gray
Stainless Steel Plate
DC Inverter Scroll / Constant Speed Scroll
50 ~ 130%
150m / 50m
44 /45