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ZMV8 Slim Series
VRF (Side discharge) Unit
Energy-saving and
environmental-friendly
Healthy and
comfortable Stable and reliable
2025 Issue 01
Product Lineup 0 1
0 3
0 5
Agile Body
Flexible Installation
0 7 Outstanding Performance
2 6 Smart Connectivity
3 0 Product Specification
Contents
ZMV8 Slim series VRF features a single outdoor unit with a capacity range of 14-26 HP, with up to 4 indoor units combined in any
configuration. After combination, the system capacity can cover 14-104 HP. It uses internationally renowned brand compressors, operates
in an ultra-wide temperature range of -25 to 55°C, and is unaffected by extreme cold or heat. With highl energy efficiency, it is even
more energy-saving.
Product Lineup
Core Drive, Comprehensive Protection
• 2.2-9.0 kW, 200 mm high
• Suitable for hotel rooms,
bedrooms, offices, etc.
Product Lineup Of VRF Indoor Units
Product Lineup Of VRF Outdoor Units
Low ESP Duct(0-50 Pa) Mid ESP Duct(160Pa)
• 8.0-16 kW, 255 mm high
• Suitable for meeting rooms,
medium-sized and large business
places.
High ESP Duct(200 Pa)
• 20-56 kW
• Suitable for exhibition halls, waiting
rooms, industrial workshops, large
business places, etc.
• 14-56 kW
• Suitable for exhibition halls,
waiting rooms, medium-sized
and large business places, etc.
Fresh Air Processor
(200-400 Pa)
• 2.8-16 kW
• Suitable for meeting rooms, offices,
large/medium-sized/small business
places.
• 1.8-7.1 kW
• Suitable foroffice, living
room and bed room.
• 2.2-8.0 kW
• Suitable for long narrow and long
room or corridor.
One-way Cassette Two-way Cassette Four-way Cassette
• 2.2-8.0 kW
• Suitable for bedrooms, living
rooms, hotel rooms, offices, etc.
Wall-mounted
Core Drive, Comprehensive Protection
-25~55℃ ultra-wide temperature operation
01
/
02
Installation Dimensions Of Outdoor Unit
Unit:(mm) Note: Before installing the outdoor unit, please confirm its dimensions to make sure
that the space is large enough to install it.
Model Outline dimensions Installation dimensions
A B C D E F
14HP~16HP 1135 470 1800 648 476 514
18HP~26HP 1360 470 1800 948 476 514
(Duct indoor units) (Cassette indoor units)
795 (Boom spacing)
795 (Boom spacing)
698 (Boom spacing) 900 (Dimensions of ceiling opening) 950 (Outline dimensions of panel) 840 (Dimensions of unit) 698 (Boom spacing)
840 (Dimensions of unit)
900 (Dimensions of ceiling opening)
950 (Outline dimensions of panel)
Indoor unit
Nut (for
horizontal
adjustment)
Ceiling
Dimensions of ceiling opening 900
Boom Nut
Spacer
Angle bracket
Nut (for horizontal
adjustment)
Unit: (mm) Note: The actual dimensions depend on the actual product.
2.2-8kW
9-16kW
205
290
Model Height of unit (H)
Note: The actual dimensions Unit: mm
depend on the actual product.
C
Dimensions of return air inlet (lower air return)
and installation spacing
A
D
B
E
G
F
Outline dimensions and air outlet dimensions of the unit: Dimensions of return air inlet (rear air return):
J
K
H
I Wire inlet
Installation Dimensions Of Indoor Units
Model
Outline dimensions Air outlet Rear return
air inlet
Lower return
air inlet Lifting size
A B C D E F G H I J K
Low static
pressure
2.2-2.8kW 665 200 470 475 140 170 445 185 445 590 350
3.6kW 815 200 470 625 140 170 595 185 595 740 350
4.5-5.6kW 1015 200 470 825 140 170 795 185 795 940 350
7.1kW 1215 200 470 1025 140 170 995 185 995 1140 350
8.0-9.0kW 1415 200 470 1225 140 170 1195 185 1195 1340 350
Medium
static
pressure
8.0-11.2kW 1225 255 730 925 192 210 975 215 975 1140 600
12.5-16kW 1375 255 730 1075 192 210 1125 215 1125 1290 600
High static
pressure
20-33.5kW 1495 455 800 918 350 350 1120 / / 1250/1390 660
40-56kW 2035 675 940 1260 350 520 1595 / / 1905 795
Product Size
Core Drive, Comprehensive Protection
Compact Body,Powerful Performance
iCongo Central Air Conditioning is always committed to innovation in products and technology. ZMV8
Slim Series VRF system, with its slim and flexible body, frees up more installation space; it supports the
parallel connection of up to 4 units, with a maximum capacity of 104 HP, meeting the needs of users in
different industries and scenarios.
03
/
04
ZMV8 Slim series VRF supports up to 4 units in parallel, with a single unit capacity of up to 26 HP and a maximum of 104 HP.
It reduces the floor space by 50% compared to similar-capacity top discharge units, freeing up more usable space.
Agile Body
Perfect fusion of a compact body and high performance
Supports parallel operation of 4 units, with a maximum of 104 horsepower
Multi-channel high-efficiency liquid cooling technology increases the operating frequency of the compressor at high
temperatures, enabling powerful cooling at 55°C. Heat dissipation is more efficient, making it resistant to extreme heat.
New Refrigerant Cooling Technology: Continuous Cooling at Ultra-High
Temperature of 55°C
vs
The land area is reduced by50%
Equipped with a well-known brand compressor and full DC inverter technology, it provides efficient heating even in severe
cold. It can maintain stable heating operation at ultra-low temperatures of -25°C.
DC inverter compressor, ultra-low temperature heating down to -25°C
User-friendly Design,
Meets Various Installation Needs
In recent years, with the frequent release of relevant documents on green buildings and the dual carbon
and dual control policies, developing energy-saving green buildings and contributing to achieving
carbon neutrality has become a common goal for the sustainable development of the future construction industry. ZMV8 Slim series VRF feature a breakthrough side air outlet design, breaking space
limitations, improving the energy efficiency of building equipment and systems, and promoting green
and low-carbon development.
05
/
06
Flexible Installation
Breaking Conventional Design
With a smaller depth, the top air discharge is reduced by about 39%
compared to units of the same capacity, saving space for unit
installation and maintenance.
Shallow depth, more flexible installation
space
Side air outlet, can be installed on the same level without needing air
guides, saving installation costs compared to top air outlets and
improving installation efficiency.
Side air outlet, more flexible installation
height
Compared to top-blow units, this unit is more compact and can be
transported by elevator instead of a crane, reducing installation costs.
Small in size, easier to transport
A powerful lineup of indoor units to choose from freely, meeting the
healthy and comfortable air needs of different industries, scenarios, and
requirements.
Various types of indoor units,
offering more flexible choices
One outdoor unit can be paired with multiple indoor units. The indoor
and outdoor units are controlled separately, unaffected by the indoor
layout, meeting the usage needs of different rooms.
One-to-many layout, more comfortable
with flexible control
The piping can reach up to 560 meters, with installation not limited
by distance. It is about 10 times the length of a single product's pipe,
allowing for a wider range of applications.
Long piping, installation distance is not
limited
No need for large equipment, can be carried manually No need to install a ventilation device, improving
Can be transported via stairs/elevator Extra-long piping design with flexible
Overall length
560m
Pipe length
150m
IDU pressure drop
30m
IDU and ODU difference
50m
120
120
120
120
40m
50m
IDU height difference
30m ODU below
ODU on top
Comfort is an important criterion for evaluating the quality of a central air conditioning system. For
different application scenarios, scientific airflow organization, pleasant temperatures, and clean, fresh air
all affect the user experience. ZMV8 Slim Series VRF paired with a variety of indoor units, provides users
with a quieter, more comfortable, and healthier experience, creating a high-quality environment.
Outstanding performance for
an ultimate comfort experience
07
/
08
Outstanding Performance
Ultimate Comfort Experience
Energy-efficient
Double Φ700mm large-sized fan wheel, providing greater airflow
Using a new type of large dual Φ700mm fan wheel*, and optimizing the fan structure to reduce resistance, achieve more uniform edge
speed, a single fan wheel delivers the same airflow as two fan wheels in a traditional multi-split unit, with lower noise, sufficient airflow, and
higher heat exchange efficiency.
Diameter 700mm
Standard air conditioner with dual fans,
540mm diameter
Standard air conditioner with dual fans,
540mm diameter
iCongo air conditioner with dual fans,
700mm diameter
*Note: Taking the 24HP and related models as an example.
Users can operate the unit in automatic energy-saving
mode as needed. The unit will adjust the system's high
and low pressure target control in real time according to
seasonal climate changes and environmental temperature variations, automatically optimizing system output
and improving energy efficiency throughout the year.
Users can set a temperature range using the energy-saving lock
according to the indoor temperature needs, preventing energy
waste.
Energy Management
Automatic Energy-Saving Mode Energy-saving lock setting
Spring Summer Autumn Winter Normal output
Power
consumption
Energy-saving output
Overall power consumption
Time
23 24 25 26 27
90%
80%
70%
60%
0%
Save10%
Cooling Operation Power Consumption Diagram Heating Operation Power Consumption Diagram
90%
80%
70%
60%
0%
17 18 1 9 20 21
Cooling
Setting 26℃ 20℃ Power consumption Power consumption
Temp.
Setting
℃
Temp.
Setting
℃
Heating
Setting
Save10%
Energy Efficiency,
Energy-Saving and Worry-Free
ZMV8 Slim series products all have an APF value that
meets the national high energy efficiency standard and
comply with professional certification for multi-split air
conditioning energy-saving products. They take into
account both the cooling capacity and heating factors
of the air conditioner, providing a more comprehensive
evaluation of air conditioning performance based on
annual energy consumption.
Through innovations in core technology and overall
system optimization, the overall energy efficiency of the
system is further improved by using high-efficiency DC
inverter compressors, high-efficiency DC motors, and
high-efficiency heat exchange technology.
Stepless inverter technology, supporting a low-carbon future
ZMV8 Slim series all-DC inverter central air conditioners feature three core motors
(inverter compressor motor, indoor fan motor, and outdoor fan motor), as well as an
all-DC water pump and compressor. Paired with an advanced control system, their energy
efficiency and energy-saving levels are among the best in the industry.
DC inverter compressor DC outdoor motor DC indoor motor DC condensate pump
iCongo central air conditioners are always focused on the energy-saving core of air conditioning—the compressor. The Slim series uses a
DC inverter compressor, which offers powerful performance, high efficiency, low noise, reliability, and long lifespan, providing you with an
energy-saving experience beyond expectations.
ZMV8 Slim series VRF uses a DC inverter fan motor, which significantly improves motor efficiency and effectively reduces the power
consumption of the outdoor unit. The motor features a stepless inverter control board, allowing high-precision stepless speed regulation
according to system operating changes. This ensures that the system pressure remains optimal, resulting in higher operational efficiency,
more stable operation, and lower noise.
Using GMCC compressor variable frequency control board, it
achieves high-precision stepless variable frequency speed
control, enabling the system to operate efficiently and save
energy.
No sensors are needed; motor speed can be detected through
DC inverter drive technology, preventing incorrect outputs and
effectively improving inverter efficiency. Using advanced 180°
sine wave drive technology, the overall machine efficiency is
increased by up to 30%.
Stepless Inverter Motherboard DC inverter drive
DC inverter compressor, the core of energy saving
DC Inverter High-Efficiency Motor
Motor speed(RPM)
Rotational speed(RPM)
Efficiency(%)
Improve
· System Pressure Regulation ·
DC inverter stepless regulation
System pressure
AC variable frequency multi-level regulation
·Outdoor motor Motor Efficiency
0-480Hz Wideband Adjustment
High-efficiency DC inverter compressor
Efficient operation across the full frequency range
High-efficiency brushless DC motor rotor
0-480Hz
Wideband Adjustment
The compressor features wide-frequency
stepless adjustment, allowing precise regulation
of refrigerant output according to indoor and
outdoor loads, providing users with a comfortable and energy-efficient experience.
The magnetic force of a neodymium magnet
is ten times that of common ferrite magnets.
Under the same magnetic field strength, it
generates a greater starting torque and
higher motor operating efficiency.
The new generation 180° sine wave waveform has smooth lines
and higher motor efficiency.
The normal output waveform (square wave) is jagged and
messy, and the motor efficiency is low.
Outstanding Performance
Ultimate Comfort Experience
09
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10
The system accurately determines the defrosting timing based on the main parameters of heating operation and load variations, ensuring
defrosting occurs only when needed and normal heating continues when there is no frost, thereby avoiding unnecessary heating loss from
defrosting. When the ambient temperature is significantly low, the system will slightly advance the defrosting timing to better ensure indoor
comfort. During the outdoor unit's defrosting, the system will shut off the indoor fan to prevent cold air from blowing out, maintaining
long-lasting warmth and comfort.
Smart defrosting technology, worry-free operation in winter
Wind Resistance and Airflow
Standard fins
iCongo High-Efficiency
Low-Pressure Loss Fin
Comparison of Frosting on Different Fins
Relative wind resistance Relative wind resistance
Heating capacity
Air volume is constant dry bulb 2℃ wet bulb 1℃
Reduce
Original fin
Low-pressure damaged fin
Relative Frost Amount
Defrost Curve Chart
Time
Quick Defrost Curve
Normal Defrost Curve
mini Shortened
defrosting time
t t
Reduce defrost frequency Reduce defrosting time Reduce defrost frequency Reduce defrosting time
Heating operation Defrosting
Normal Defrost
iCongo Quick Defrost
Intelligent detection effectively reduces the frequency of defrosting, extends heating time,
and improves heating efficiency.
Hydrophilic film aluminum foil fin
heat exchanger
Copper pipe with internal threads
Conventional finned
heat exchanger
Low-pressure damaged fin Former fin
Standard light tube
Combining internally threaded copper tubes with hydrophilic aluminum foil fins, and innovatively using CFD-assisted optimization design,
greatly enhances the heat exchanger's efficiency, making it both durable and energy-saving.
Efficient heat exchange system, durable and energy-saving
Outstanding Performance
Ultimate Comfort Experience
Efficient operation
High-quality components, efficient heat exchange
The outdoor unit adopts a newly designed wrap-around integrated high-efficiency G-type high internal tooth heat exchanger, which reduces
the air flow resistance, makes the heat exchange more uniform and sufficient, greatly improves the heat exchange area and heat exchange
efficiency, and also reduces the amount of frost in the heat exchanger during winter heating, improving the heating effect.
High-efficiency heat exchanger
Through the specially designed '2-1' refrigerant process, the amount of liquid refrigerant is effectively increased, flow resistance is reduced,
refrigerant flow rate is improved, and the heat exchange efficiency of the heat exchanger is optimized.
The proportion of liquid refrigerant in the heat exchanger
is relatively low, resulting in lower efficiency.
Increase the proportion of liquid refrigerant in the heat
exchanger to improve heat transfer efficiency.
\"2-1\" Refrigerant Circuit
Corrosion-resistant coatings effectively slow down the corrosion of heat exchangers caused by atmospheric pollution, hydrophilic coatings
ensure that the air conditioner is less likely to frost during heating, and lubricating layers can break the surface tension of water droplets,
speeding up the flow of condensate or defrost water, thereby improving air conditioning performance.
Double-sided three-layer coating ensures long-lasting and efficient heat transfer of the fins
Using new corrugated fins with high heat transfer efficiency and low pressure loss, along with spirally grooved high-performance Φ7
inner-threaded copper tubes, the internal surface area of the copper tubes is increased, enhancing thermal conductivity; the hydrophilic
corrugated fins have strong frost resistance and good drainage, improving the heating performance of the unit.
High-efficiency internal threaded copper tubes and new type of corrugated fins
Conventional Refrigerant Circuit \"2-1\" Refrigerant Circuit
VS
Gaseous refrigerant
Gaseous refrigerant
Gaseous refrigerant
Gaseous refrigerant
Liquid refrigerant
Liquid refrigerant
Liquid refrigerant
Gas Liquid refrigerant phase
Liquid
phase
Gas-liquid
mixed phase
The outdoor unit features a subcooling design with a subcooling
degree of up to 36°C, significantly enhancing the system's cooling
and heating capacity, reducing refrigerant pressure loss, and
improving overall system performance.
① Adopts VPC (Voltage Predictive Control) variable frequency control
technology, and for the first time in the industry, applies the internationally
advanced ORPWM control technology, greatly improving the stability and
reliability of compressor operation.
② Utilizes industrial-grade high-performance DC-LINK capacitors to
replace electrolytic capacitors, addressing issues such as low voltage
tolerance, poor ripple current capability, high internal resistance, significant
heat generation, and short lifespan of electrolytic capacitors. The capacitor’s lifespan does not degrade within a temperature range of -30 to 70
degrees Celsius, with a design life of up to 15 years, significantly enhancing
capacitor reliability and making the variable frequency drive performance
more stable.
③ When the unit operates in single-module mode, the stepless adjustment
range can reach 10%-120%.
Adding an economizer to the system can also improve the system's
long piping capacity.
All-purpose supercooling, high-efficiency
hot and cold
Bottom subcooling reduces issues of ice formation at the
bottom of the heat exchanger in winter, as well as problems
with difficult or incomplete defrosting.
Brand new VPC variable frequency control technology, higher
stability, longer lifespan
Brand new technology, efficient operation
Outstanding Performance
Ultimate Comfort Experience
Gas
phase
Liquid
phase
Gas-liquid
mixed phase
11
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12
Big data research shows that commercial VRF systems are in
standby mode 76.5% of the time, with standby power consumption
reaching up to 40W. The Slim series VRF adjusts the power supply
of the electronic control power module based on the usage of the
outdoor unit. When the system detects that the indoor unit does
not require cooling or heating, the main program sends a
command to intelligently cut off the power to components like the
outdoor unit's electric heater and electronic control modules,
reducing the outdoor unit's standby power to as low as 1W,
achieving ultra-low standby power.
1W low standby technology
OFF
40W
1W
Standby ON
T
P
Normal standby
OFF Deep standby
ON
Driver
OFF
ON
Fan power supply
OFF
OFF
Power supply
for the press
OFF
Heating tape
Driver Fan power supply Power supply
for the press
Heating tape
ON
Low standby technology
0
0.005
0.01
0.015
0.02
0.025
0.03
12 16 18 20 22 24 26
Power Output (kW)
Standard
Four-Way Valve
New Type
Four-Way Valve
10
Pressure loss(MPa)
The system uses multi-channel high-efficiency liquid cooling technology, which offers extremely high heat transfer capability and a smaller temperature gradient. The module temperature can be 5-10K lower, while not consuming the system's refrigerant heat, resulting in less overall system
capacity loss. This technology improves system efficiency while ensuring stability. Compared to traditional refrigerant-based cooling methods,
multi-channel high-efficiency cooling can achieve energy savings of over 2%, and the high-temperature cooling air outlet is approximately 3°C lower
than that of conventional refrigerant cooling methods.
Electric control box with multi-channel high-efficiency liquid cooling technology is
more energy-efficient
Optimize refrigeration system design to reduce
low-pressure losses
A new type of small-to-medium intermediate flow four-way valve is used to
ensure reliable switching even when the compressor output is low. Meanwhile,
the pipe diameter and valve body are optimized to further reduce pressure loss.
Small to medium flow, large-diameter four-way valve
Leading thermal management design for electronic
control modules
Equipped with the industry's most advanced low-flow-resistance, high-efficiency finned refrigerant radiator, the flow resistance is 70% lower than that of
ordinary refrigerant radiators, and the module temperature is more than 30°C
lower than air cooling, and more than 10°C lower than ordinary refrigerant
cooling. Coupled with optimized airflow design, it quickly removes heat from
the electronic control box, ensuring that all components operate within a
reliable temperature range. Heat exchanger channels with high-efficiency fins
Outstanding Performance
Ultimate Comfort Experience
Refrigerant pressure predictive control technology to improve overall system efficiency
Advanced refrigerant technology, more energy-efficient
By combining the use of big data with the operating conditions of the outdoor unit, it intelligently predicts pressure changes and timely
adjusts the opening of the system's output valves, pre-adjusting the air conditioning system to the ideal state, significantly reducing
over-output and delayed output, and improving the overall energy efficiency of the unit.
When the heating system operates under partial load, the standby indoor
unit is prone to refrigerant accumulation, causing phenomena such as
increased system exhaust temperature and lower suction pressure, which
affect the overall heating performance and energy efficiency of the unit.
Real-time monitoring of refrigerant pressure and temperature with
intelligent judgment, adjusting the electronic expansion valve opening of
the standby indoor unit to prevent refrigerant accumulation in the standby
indoor unit and enhance overall system performance.
Pd(0) Pd(2) Pd(4) ··· Pd(n)
t t t t
Pd Target value
Pd
Piping Refrigerant Storage Technology
Using advanced refrigerant control technology, the refrigerant is stored in the indoor and outdoor unit piping, precisely regulating the refrigerant
circulation flow of the unit, ensuring the unit always operates at a high performance level, resulting in higher overall efficiency.
Normal VRF Slim Series VRF
VS
L
Pd
Four-way valve
One-way valve
d
e s c
EV L EV L EV
Indoor Unit 1 Indoor Unit 2 Indoor Unit 3
LEV
Oil content
Capillary
Outstanding Performance
Ultimate Comfort Experience
Gaseous
Liquid
Gas-liquid separator
13
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14
待机中
时间(T)
压缩机频 率
传统启动电流
零扭矩启动电流
38%
耗电
降低
Small load, high heat exchange technology improves heat exchange capability
Temperature-approaching technology avoids energy waste caused by frequent starting and stopping
Zero torque start technology reduces power
In order to reduce power consumption under partial load, maximize the heat exchange capacity of all modules, and improve energy
efficiency, the outdoor unit fan that is not running during partial load will operate to enhance the module's heat exchange capability.
For a typical inverter air conditioner, the compressor stops when the
room temperature reaches the set temperature and restarts when the
room temperature rises above the set temperature. Although it does
not turn on and off as frequently as a fixed-frequency air conditioner,
the energy consumption caused by restarting the system after it
stops is also an issue that cannot be ignored.
Running Standby Standby Standby
Actual temp.
Set temp.
Compressor
capacity
OFF
max
Traditional
control methods
Compressor Frequency/Current
OFF
min
max
Temp.
Approaching
Technology
This system uses intelligent temperature approach technology,
allowing the room temperature to get infinitely close to the set
temperature without actually reaching it, so that the air conditioning
system continues to operate steadily at a lower frequency, avoiding
energy waste caused by frequent on-off cycles.
The system comes with a built-in pressure balance valve, which
opens before the compressor starts to ensure high and low-pressure balance in the compressor.
The compressor starts under zero-torque conditions, with a starting
current of less than 1A, causing minimal impact on the power grid,
low starting power consumption, and reduced startup energy use.
Outstanding Performance
Ultimate Comfort Experience
Actual temp.
Set temp.
Compressor
capacity
Comfortable experience Silent technology, low-noise design
Silent Mode
Night Silent Mode
Air Duct Noise Reduction
wind guide ring
Motor bracket DC motor
It uses an aviation-grade high-strength alloy tubular
motor bracket with a non-resonant suspension structure,
making it sturdy and durable, reducing wind resistance,
and increasing airflow while lowering noise.
Stepless speed regulation with low electromagnetic
noise ensures the system pressure remains at an
optimal level, resulting in higher operational efficiency,
more stable performance, and lower noise.
When the unit is installed in locations with noise requirements, it needs to operate quietly both during the day and at night. The
iCongo multi-split unit offers multiple silent modes for setting, ensuring that the unit operates in low-noise mode at all times, with
noise levels as low as 40dB(A).
The outdoor unit has a unique nighttime operation setting function. The system can memorize and determine the highest outdoor
temperature, and when it enters nighttime low-load operation, it can automatically switch to silent mode. Depending on the actual
application scenario, the unit can be set to four different nighttime silent modes.
Fan Blades: They feature an anti-vibration blade design, using special materials, combined with bionic thin-wing design, outer
edge flanging, and trailing edge notches. This effectively absorbs vibration noise and resists the vibration noise caused by air flow
impacting the blades.
Adopting a super-high stepped gradient fan guide ring design allows the airflow speed to change smoothly, improving the
uniformity of the air output, increasing the air delivery distance, effectively reducing airflow short-circuiting, and lowering fan
energy consumption, while also reducing ventilation noise. The design of high outer ribs and vertical ribs on the guide ring
increases stiffness and bending strength, effectively reducing operational vibration noise; the extended design of the guide ring
also significantly enhances the fan's pressure resistance and increases the air delivery distance.
08:00 12:00 16:00
8hrs
20:00 00:00 04:00 08:00
0
100
50
58
50
40
10hrs
Ability %
Load %
Operating noise dB
Outstanding Performance
Ultimate Comfort Experience
15
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16
Precision Temperature Control, Ultimate Comfort
Precise temperature control and full coverage of comfortable airflow. By using a comprehensive range of sensors to monitor various
system parameters (including compressor discharge pressure and temperature sensors, outdoor ambient temperature sensors, return
air temperature sensors, evaporator temperature sensors, etc.), the system's operation mode is accurately controlled to ensure it is
always running in an optimal state. This achieves maximum performance output with minimal energy consumption, thereby maximizing energy-saving effects.
Temp.
Set
Temp.
Start Cooling operation Runtime
Small temp. difference
Big temp. difference
Uses high-precision
temperature sensors
Traditional
control technology
Not cooling
So comfortable
Too cold
Inverter CAC
Cooling quickly
Using a high-precision 0.1℃ temperature sensor, it can detect slight temperature fluctuations, monitor both indoor and outdoor units
in real time, adjust the outdoor unit's output capacity, reduce indoor temperature variations, ensure indoor environmental comfort,
prevent significant temperature changes, and better meet human comfort needs.
0.1℃ high-precision temperature sensor
Refrigerant Balancing Technology: Advanced refrigerant balancing technology ensures even refrigerant distribution in the
outdoor unit heat exchanger, guaranteeing efficient and stable system operation.
Liquid Side Bypass Control Technology: With multi-electronic expansion valve liquid side bypass control technology, the refrigerant circulation is precisely adjusted, the compressor overheating is controlled, maximizing compressor efficiency, and ensuring
the compressor's safety and reliability.
Multi-electron expansion valve liquid-side bypass control technology
Through the multi-electronic expansion valve liquid-side bypass control technology, the refrigerant flow is precisely adjusted,
controlling the compressor superheat, maximizing compressor efficiency, and ensuring safe and reliable operation of the compressor.
solenoid valve
Automatically turn the solenoid
valve on/off based on actual conditions
Electronic expansion valve
Electronic expansion valve
Outstanding Performance
Ultimate Comfort Experience
Rapid Heating
Anti-freezing design at the bottom during heating
Using the large-capacity operation of a variable frequency compressor,
the unit is quickly started with a soft start method, achieving an instantaneous surge of heating energy output to quickly meet the indoor air
conditioning load demand.
The special frost-resistant bottom design ensures that the outdoor heat exchanger remains frost-free at the bottom during winter
heating. At the same time, during defrosting, it can fully heat the ice-water mixture left along the fins to a liquid state and discharge it
through the bottom drainage hole, preventing heat loss caused by frost accumulation at the bottom.
Dedicated Bottom Hot Gas Bypass Bottom Pipeline Diagram
Wide operating range, more versatile
The brand-new VRF can operate over a wide temperature range, with heating performance down to -25°C, providing excellent heating
in winter. In summer, they can achieve high-temperature cooling of 55°C, flexibly adapting to special climate conditions and meeting
users' personalized needs in different environments.
Cooling:-5℃-55℃; Heating:-25℃-30℃。
-30
-7℃ 43℃
℃
-20 -10 0 10 20 30 40 55
General VRF operating range iCongo operating range
-30
-25℃ Heating 30℃
-5℃ Cooling 55℃
℃
-20 -10 0 10 20 30 40 55
Outstanding Performance
Ultimate Comfort Experience
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18
Convenient Design
Performance assurance,
superior product quality
Flexible outlet, easy to install
Automatic Refrigerant Charging Technology
Refrigerant Auto-Detection Technology
Refrigerant Automatic Recovery Technology
It is recommended to have the outlet at the front or on the right
side for easier installation.
The proprietary automatic refrigerant charging technology
intelligently determines the refrigerant amount based on the
operating parameters of the indoor and outdoor units,
Using an advanced intelligent control system, the system's
refrigerant levels are monitored in real time based on operational conditions, allowing for smart assessment to ensure
stable system operation.
When the heating section indoor unit is running, refrigerant
easily accumulates in the standby indoor unit, causing issues
such as excessively high system exhaust temperature and
excessively low low-pressure pressure, which seriously affect
the overall heating performance and increase the energy
consumption of the entire unit. The iCongo side-discharge
multi-split unit intelligently detects this situation and controls
the process to transfer the refrigerant from the standby
indoor unit into the system operation. Through a continuous,
small-amount supplementation, it improves efficiency and
When an indoor unit needs to be disassembled for mainte- reduces energy consumption.
nance, the system can automatically recover the refrigerant
through the outdoor unit’s dip switch settings. This allows all
the system refrigerant to be recovered into the outdoor unit,
making maintenance easier.
Easily handles various installation environments with extra-long
piping and ultra-high drops.
Maximum total piping length: 560m
Maximum height difference between outdoor units: 50m (outdoor unit on top),
40m (outdoor unit at the bottom)
Maximum height difference between indoor units: 30m
Long piping, high drop, more freedom
in design and construction
Automatic Refrigerant Recharging Technology
Maximum practical single pipe length: 150m
Under Maintenance
Outdoor
Unit
ON OFF OFF
Indoor Unit 1 Indoor Unit 2 Indoor Unit 3
冷媒自动判断 冷媒自动充注
Outdoor unit high drop
*If the height difference between indoor units exceeds 18m,
please consult a technician.
NO.1 High Drop Test Tower
Indoor unit
height difference
Long piping
560m
30m
50m
Outstanding Performance
Ultimate Comfort Experience
Refrigerant automatically
recovered to the outdoor
unit
Convenient protection, easier peace of mind
Automatic debugging, faster construction
After the system installation is complete, you only need to
use the button on the outdoor unit's main control board to
control it, and you can automatically debug the entire system,
check for potential faults, and make the debugging process
more convenient.
One-Click Test Run
You only need to press a button once on the outdoor unit's
main control board to perform a cooling or heating test run,
without having to turn on each indoor unit individually.
Automatic addressing function
The outdoor unit can automatically assign addresses to the
indoor units, and the controller can query and set the addresses
of the indoor units, making it smarter and more convenient.
Automatic Control and Monitoring
A combination of knobs and buttons for easy settings.
Monitoring software automatically records the parameters.
Main Control Board Memory (Black Box)
Digital interface, easy to
operate
The host automatically stores various types of data, with no
time limit on storing records. During after-sales maintenance,
relevant fault data can be read from the digital display on the
computer board, enhancing the convenience of repairs.
Digital display window, all dials are
easy to operate.
High communication speed
The communication rate between the indoor and outdoor
units should be no less than 20 kbps to ensure the reliability
of the system unit communication. *Customizable to meet
Innovative
Design
Real-time detection
of pipeline anomalies
Auto detection unit
Internal malfunction
Auto allocation
IDU and ODU address
Auto allocation
IDU and ODU address
Start automatic
debugging
Automatic wiring
inspection
Storage Record
Unlimited time
Outstanding Performance
Ultimate Comfort Experience
OPEN
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Extra-wide operating range, easily handling
various working conditions Using a high-efficiency DC inverter compressor and advanced
control technology, the unit can operate over a wide range. In
heating mode, it can work at temperatures as low as -25°C,
providing stronger heating in winter; in cooling mode, it can
operate at temperatures up to 55°C, ensuring effective
cooling in summer.
Precise Return Oil Control
The specially designed exhaust baffle is engineered to reduce
the amount of lubricating oil discharged when the refrigerant is
compressed and expelled, ensuring that most of the lubricating
oil remains inside the compressor.
Automatic Oil Return Technology Prevents Lubricant Accumulation
The system comes with built-in oil return control, and various oil return methods ensure that lubricating oil does not accumulate on
the indoor unit side under any circumstances.
The first type: During low load, the compressor operates at high frequency once every hour to ensure sufficient airflow speed to
return the lubricating oil.
The second type: During medium load, perform oil return operation every 2 hours to prevent lubricant from accumulating.
The third type: During heavy loads, perform an oil return operation every 4 hours to prevent lubricant accumulation.
The fourth type: When low oil levels are detected, the valve opening of the standby room unit automatically increases to return the
lubricating oil.
The compressor discharge baffle ensures that most
of the lubricating oil remains inside the compressor.
Efficient oil return technology ensures stable system operation
As the heart of the unit, the compressor's effective supply of
lubricating oil is key to ensuring the unit's reliable operation.
iCongo Slim Series VRF uses tenfold oil return technology to
ensure a reliable oil supply.
Multiple oil return control technology ensures
55℃ DB(Extreme Cooling)
30℃ DB
-25℃ DB(Extreme Heating)
Cooling Continuous operation
Heating
-5℃ DB
Capillary Gas-liquid
separator
Capillary Compressor
Compressor
One-way valve One-way valve
Oil content Oil content
ON
OFF
OFF
Outstanding Performance
Ultimate Comfort Experience
Precision System Protection Control
Wide voltage range
System Pressure Control
Stable operation
Efficient operation
VRA Intelligent Adjustment Technology
The DC inverter multi-split unit has a voltage range of 310V-460V, far exceeding the national standard of 342V-420V. It is especially
suitable for areas with unstable voltage, offering excellent applicability.
Using VRA (Variable Refrigerant Adjust) intelligent adjustment technology, the system intelligently regulates the evaporation temperature. Under partial load, it smartly reduces the compressor output, achieving both comfort and energy-saving effects.
Electronic expansion valve self-monitoring
Pressure Self-Balancing Technology
The control board of the Slim series VRF is independently developed and features an exclusive design. It has an electronic expansion
valve fault detection and feedback function, which monitors in real-time whether the electronic expansion valve is operating correctly,
providing early warnings to prevent system failures caused by valve malfunction.
The system comes with a built-in pressure balancing valve and a relief
valve. When the pressure sensor detects that the system pressure is too
low or too high, it automatically opens the pressure balancing valve to
equalize the pressure. At the same time, to prevent errors from the
pressure sensor, the relief valve mechanically responds when the pressure
exceeds the limit, automatically opening to prevent pipe bursting.
The low-pressure sensor provides real-time feedback on the
compressor suction pressure, allowing the unit to respond more
quickly to indoor load changes and ensuring highly stable
system operation. The high-pressure sensor monitors changes
in high pressure in real time, protecting the compressor from
the impact of sudden high-pressure fluctuations.
Temperature sensors, pressure sensors, and high-pressure
switches work together to control the compressor frequency.
Combined with high-speed communication rates, this allows
the compressor to start quickly and respond more rapidly to
indoor load changes.
Dual pressure sensor
Outdoor unit
High-load operation
Outdoor unit
Medium-load operation
feel very cold
Blows out very hot wind Blows out warmer wind
No longer feeling cold feel
t(Time)
P
(Pressure)
P d
P s
Outstanding Performance
Ultimate Comfort Experience
Outdoor unit
Low-load operation
Very comfortable
Blows out Moderate wind
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Balanced Operation Control
Unit cycle start alternating operation technology
Unit Load Adaptive Matching and Rotational Operation
Each time the system starts, the compressors start in a different sequence, controlled so that the frequency and duration of compressor
use are averaged. This prevents any single compressor from being overloaded, thereby avoiding failures, extending the compressor's
service life, and improving system stability.
The outdoor units also operate in rotation to extend their lifespan and enhance unit stability. When a dual-fan outdoor unit operates
under low load, the fans rotate in turns, extending motor life and improving unit stability.
During partial load operation, the outdoor units are started according to the indoor unit load demands to meet the indoor unit load
requirements, and each outdoor unit operates in rotation according to the predetermined sequence (A, B, C, D).
Next time you start up,
turn on the compressor first.
Traditional control mode
A B C D
Outstanding Performance
Ultimate Comfort Experience
The fan motor features an anti-reverse design to effectively protect the fan.
Flexible compressors and control technology: stable operation and long service life
During partial load operation, the main unit can be set to automatically calculate the most energy-efficient outdoor unit matching operation
scheme based on the indoor unit load demand, indoor and outdoor temperatures, the heat exchange capacity of each outdoor unit, and
the output range database of their high-efficiency zones. It then activates the corresponding combination of outdoor units for operation.
When outdoor units rotate operation, the system automatically selects and starts the next combination of outdoor units for optimal energy
efficiency, ensuring that the unit always operates in a way that maximizes energy efficiency and overall lifespan.
During the operation of the unit in this control mode, based on parameters such as the unit's actual output rate, fan speed, system high and
low pressure, and the unit's operational efficiency detected online, it can determine in real time whether the unit is operating in a high-efficiency state. If the unit's parameters are not in the high-efficiency range, it automatically adjusts the indoor and outdoor unit load matching
in real time to ensure the unit always operates in a high-efficiency state.
The examples in the figure only illustrate scenarios where the indoor unit load remains the same or increases.
SMT sealing technology, increases reliability
When external forces cause the
outdoor unit fan to rotate in reverse,
the air conditioner will first stop the
fan when starting, and then restart it
in the correct direction according to
the program to protect the fan.
The main circuit board of the outdoor unit uses SMT potting technology to ensure system operational reliability.
Intelligent Adaptive Matching Control Mode
A B C D
Indoor unit load increases Indoor unit load remains unchanged
Indoor unit load remains unchanged
Regular
Wind-resistant
An external force causes
the fan to rotate in reverse
Instant reverse rotation and sudden torque
increase can easily cause fan damage
An external force causes
the fan to rotate in reverse
Start the unit, stop rotating Forward rotation, low starting torque,
protects the fan
Phase sequence imbalance control technology to prevent machine
The iCongo inverter features flexible control technology for power supply voltage quality and phase sequence detection technology.
Even if the power supply quality is poor, it can ensure the inverter operates stably. However, if the power supply phase sequence is
abnormal, the inverter can promptly detect and protect itself, ensuring that neither the inverter nor the compressor is damaged.
Outstanding Performance
Ultimate Comfort Experience
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Adding discharge tubes and varistors to the electronic control circuit can effectively absorb the momentarily high lightning voltage
when the unit is struck by lightning, protecting important electrical components at the back end of the circuit from damage.
Lightning protection technology
Special anti-corrosion treatment is applied for specific
environments, and different air conditioning system solutions
are provided for various acidic and alkaline conditions:
For acidic and alkaline atmospheric corrosion environments
(such as beverage factories, waste treatment plants, farms,
restaurant kitchens, food factories, vegetable markets, chemical plants, etc.), indoor units can be customized for anti-corrosion, outdoor units can be customized for anti-corrosion,
or both indoor and outdoor units can be customized for
anti-corrosion;
For salt-damage atmospheric corrosion environments (such
as areas near the sea, classified according to the distance
from the coastline), C5 severe salt-damage and C4 salt-damage environments can have outdoor units customized for
anti-corrosion.
Multiple protective measures ensure the unit operates
stably under various conditions, providing worry-free use
for customers, and the indoor unit can have four
temperature sensors.
Brand new anti-corrosion technology, trustworthy
Region Salt Damage Level
Inland sea
connecting regions
Offshore connected region
Islands off the coast
(such as Sansha in Hainan Island)
Distance
<500m
500~1000m
>1000m
<1000m
>1000m
C5
C4
Standard environment
C5
C4
C5
indoor unit
can be
designed
with four
temperature
sensors.
Anti-freeze
protection
Anti-aging design
Condensate Safe
Drainage Design
Flame-retardant
design
Corrosionresistant
design
Leak
Protection
Anti-condensation drip design
The built-in water tray comes
standard with a float switch,
making drainage safer.
Safety Grounding
Protection
Reverse Wind
Protection
Current
protection
Low Voltage
Protection
Overheat
protection
Press overload
protection
Inspection window
function
(customizable)
Smart Filtering
Smart
Anti-Resonance
Pressure
Protection
High Voltage
Protection
Oil Temp.
Protection
Phase Sequence
Protection
Lightning
protection
Return Liquid
Protection
Four-way valve
switching
protection
Phase Failure
Protection
Fuel Pressure
Differential Protection
Temp.
protection
*Customizable air outlet temperature sensor
Outstanding Performance
Ultimate Comfort Experience
The interfaces reserved on the indoor and outdoor units
can connect the building's fire protection system. In this
way, when a fire alarm is triggered, the system will
automatically shut down to avoid greater risk and loss
and ensure safe use.
Interlocked with fire protection
system and shutdown in emergency
OFF
With the room card and access control management
functions, the units can be interlocked with hotel room or
smart home system for management. When the card is
inserted, the air conditioner starts to work, and automatically executes the earlier operation mode, thus avoiding
waste and being more efficient and convenient.
Interlocked with room card
The system has a built-in intelligent lock, which can be
unlocked with one key after being actually installed
according to the specifications, ensuring the operation
reliability of the whole system and avoiding the problems
caused by incorrect installation by humans. In combination
with the intelligent air conditioner management system,
the system can be locked in case of arrears, which is
convenient for management.
Construction supervision
In some occasions, when a diesel generator is used to
supply power temporarily, the outdoor unit can recognize
the signal of insufficient power supply, adapt to the low
voltage load, and send the signal to the indoor unit. In this
case, only the VIP rooms are allowed to use air conditioners, while other rooms are not allowed.
Recognition of insufficient power
supply
VIP room
Other rooms
Other rooms
The DC inverter has a \"black box\" data storage device: the
\"black box\" data storage device can automatically store
the data of the main machine, indoor unit and control
system and the cause of the fault when a fault occurs, and
the \"black box\" can record the fault data, which can also
be saved even when power is off, without limit on the
duration of storage.
Storage of fault information in
black box
Both the indoor unit and outdoor unit may be unexpectedly powered off during operation. In this case, the system
will record the running state before the power failure, and
when the power supply is restored, the system will
automatically return to the state before the power failure
without the need of resetting.
Automatic restart with memory
after power failure
Intelligent diagnosis for easy and efficient management
Outstanding Performance
Ultimate Comfort Experience
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Technology changes life, and AI makes life more convenient. Our super inverter
VRF is equipped with diverse controllers and control modes, the intelligent and
efficient centralized management system can help you solve the problems on
the management of traditional central air-conditioning system, thus meeting
the needs of different occasions, and allowing you to manage your central
air-conditioning system freely and conveniently.
Smart interconnection
Easy control for optimal
operation
Smart Connectivity
Creating an intelligent lifestyle
Diverse control modes
Our products support a variety of control modes to meet the needs of different populations at different places.
Features Advantages
Can control up to 128 indoor
units and 16 refrigerant systems
Small in size, compatible with 86 type box mounting holes
Centralized controller (4-inch)
Features Advantages
Through each intelligent gateway,
64 indoor units can be centrally
controlled by computer/mobile
phone /iPad.
1. Control is possible in any time and at any place, as long as
network signal is available for the mobile phone;
2. Multiple indoor units can be centrally controlled, facilitating
unified management.
Intelligent gateway control
Remote control
One to one
Suitable for all indoor units
Features
The traditional remote controller is powered by battery,
which can be flexibly and conveniently installed and removed.
Advantages
Features Advantages
One to one
Control a certain indoor unit
1. Mounted on the wall, and will not get lost;
2. Powered by the indoor unit, without the need of
batteries, which is convenient.
Wire controller
Features Advantages
Connect the air conditioner to the
hotel card management system for
central control with other electrical
appliances
A new generation of hotel card insertion system, compatible
with strong current and weak current control, making it easy
to access to various hotel room card insertion systems.
Hotel card insertion system
Features Advantages
Provide a common protocol for
centralized control of air conditioners,
lighting system, fire system, and
other systems.
Provide a common protocol for integrating the air conditioners,
lighting system, fire system, and other systems for automatic
building management.
BMS
Features Advantages
Large screen, control by group 1. Can control many indoor units, facilitating centralized
management;
2. Powerful functions such as indoor unit group management
and weekly timing;
3. Automatic division of independent electric quantity
Touch centralized controller (7-inch)
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With clock, timing, swing air supply and other functions;
Simple and small, powered by traditional #7 battery, ultra-low power consumption;
Backlight display+fluorescent button (optional), convenient for night operations;
Multiple mode setting functions (automatic, refrigeration, heating, dehumidification, multi-stage air supply);
The address of indoor unit can be set automatically through the remote control, making installation and
commissioning fast and convenient;
Sleep/mute/ECO/power saving and other additional functions, fast switching between refrigeration and heating
with one key.
Also with the remote control and receiving functions, and can receive the remote control as long as you point to it;
With the functions of clock, timing, swing air supply, filter cleaning warning, energy-saving operation, etc.
Support setting of a variety of operation modes (automatic, refrigeration, heating, dehumidification, multi-stage air
supply);
Latest fashionable design, touch buttons, good-looking, and simple to operate;
Backlight display, Chinese characters, convenient to operate even at night; WIFI function optional, which can realize
remote control;
10-stage static pressure adjustable, precisely matching the requirements of multi-branch air ducts, with excellent
adaptability for engineering installation.
Operating status query, parameter setting, address setting, and achieving master-slave line controller control of the
same indoor unit through parameter configuration.
With the functions of fault warning, mode locking, ECO setting, etc.
Full touch screen design, good-looking, multi-languages supported, and convenient to operate;
Support any timing, group timing, weekly timing, holiday timing and schedule management functions;
Can make statistics of the operating state change records and daily execution of all equipment, and export data;
Support mode locking, remote locking, VIP locking, single unit control, group control and all control;
Can export graphical reports, operation status (fault record), log management, energy consumption management
table and other data;
Up to 100 indoor units form an air-conditioner LAN, which can be directly connected with multiple VRF indoor
and outdoor units for communication conveniently.
Based on the distributed architecture, the brand new centralized control system allows administrators to log in to the control system through a browser to
realize the automation and remote online management and control of air conditioners. In addition, it has the functions of automatic power division,
building control and schedule management, which can provide professional solutions for enterprises and users, help you effectively control the overall use
of the central air conditioning system, and provide you with an efficient and intelligent one-stop solution for the air conditioning system.
Remote control
Wire controller
Touch centralized controller (7-inch)
Network-based centralized control system
图
One IMMPro software can access up to 10 sets of
MD-CMM23
One MD-CMM23 can access up to 48
refrigerant systems or 384 indoor units
Central controller
Central controller
Smart Connectivity
Creating an intelligent lifestyle
Wh Wh Wh Wh
The system can realize remote centralized monitoring in the LAN, and support the operation of browsers such as Chrome and mobile devices (such as
Android and iOS). The report of power division and the report of device operation record are output in csv and excel formats, which is convenient for
statistics. It can be directly connected to the outdoor unit easily, reducing wiring difficulty, saving engineering time and cost.
(1) Temperature authority and scope management
(2) Equipment monitoring
(3) Air conditioner authority management
(4) Fault management
(5) Schedule management function
(6) Statistics of cumulative running time
(7) Prepayment function
(8) Time-of-use electricity pricing
(9) Statistics of data and report output
(10) Exclusive VIP grouping
(11) Statistics of overall energy consumption of
buildings
(12) Automatic backup of billing data.
Main functions:
1. Automatic deducting from prepayment; 2. Recharge record query; 3. Electricity arrears alarm;
4. Flexible allocation of air conditioning expenses in public areas (multiple modes optional) can be realized
Main characteristics:
The household billing system has an algorithm for power division and management. Based on the operating data of indoor/outdoor units, such as
operating time, capacity and opening of electronic expansion valve, the household metering software distributes the total power consumption measured
by the electric meter to each indoor unit, realizing scientific and reasonable individual billing.
Individual billing:
Each outdoor unit or each refrigeration system
is provided with an electric meter.
Outdoor unit
Indoor unit
Wire
controller
Power supply for
outdoor unit
Power supply for
indoor unit
Smart Connectivity
Creating an intelligent lifestyle
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Specifications Outdoor units
Notes:
Capacities are based on the following conditions:
Cooling: Indoor temperature 27℃ DB / 19℃WB; Outdoor temperature 35℃ DB / 24℃WB;
Heating: Indoor temperature 20℃ DB / 15℃WB; Outdoor temperature 7℃ DB / 6℃WB;
Piping length: Interconnecting piping length is 7.5m, level difference is 0m.
Connection piping diameter of single-unit is the stop valve diameter of the unit.
Sound values are measured in a semi-anechoic room, at a position 1m in front of the unit and 1.3m above the floor.
Appearance
14 16 18 20 22 24 26
380V-3PH-50Hz
Rated Capaicty W 40000 45000 50500 56000 61500 68500 73500
kW 11.18 12.2 12.8 16.3 18.1 19.65 22.1
A 17.88 19.51 20.47 26.07 28.95 31.43 35.35
W 45000 50000 56500 63000 69000 75000 81500
kW 10.58 11.8 13.75 15.3 16.9 17.5 19.9
A 16.92 18.87 21.99 24.47 27.03 27.99 31.83
APF Wh/Wh 4.7 4.5 4.75 4.7 4.6 4.5 4.4
A 28 30 33 40 45 48 50
kW 17.5 18.8 20.6 25.0 28.1 30.0 31.3
A 32 40 40 50 50 63 63
MPa 4.4/1.6
MPa 4.4/4.4
m /h 13500 14000 19000 19500 19000 19000 19000
dB A 60 61 61 61 62 64 64
KG 171 172 207 217 237 238 239
mm 1135*1800*470 1350*1800*460
/ R410A
/
Pipes
connection
Liquid pipe mm φ12.7 φ15.9 φ15.9 φ15.9 φ15.9 φ15.9 φ15.9
Gas pipie mm φ25.4 φ28.6 φ28.6 φ28.6 φ28.6 φ28.6 φ28.6
Connection type
-5 -55
-25 -30
23 26 29 33 36 39 41
Model CGMV-V400W/DSN1-
H01
CGMV-V450W/DSN1-
H01
CGMV-V505W/DSN1-
J01
CGMV-V560W/DSN1-
J01
CGMV-V615W/DSN1-
J01
CGMV-V685W/DSN1-
J01
CGMV-V735W/DSN1-
J01
HP
Power Supply
Cooling Rated input power
Rated current
Heating
Rated Capaicty
Rated input power
Rated current
Maximun Circuit Amps
Maximum Input Power
Maximum Fuse Current
Maximum Discharge/Suction Pressur
Maximum Allowable Pressure
(High/low pressure side)
Airflow Volume
Noise Level ( )
Compressor Type / DC Inverter Rotary Compressor
Net Weight
Unit Dimensions
Refrigerant
Type
Throttling type Electronic Expansion Valve (EEV)
Welding
Operation
Temperatur
e
Range
Cooling ℃
Heating ℃
Maximum Quantity of
Connectable IDU set
3
℃ ℃
℃ ℃
Power supply 220V-1PH-50Hz
Cooling capacity W 2200 2800 3600 4500 5600 7100 8000 9000
Heating capacity W 2600 3200 4000 5000 6300 8000 9000 10000
Power input W 30 30 50 66 66 88 120 120
Operating current A 0.15 0.15 0.2 0.3 0.3 0.4 0.7 0.7
Fan motor type Brushless DC Motor
Airflow volume m³/h 450 450 650 750 750 1000 1400 1400
External Static pressure Pa 0-50 0-50 0-50 0-50 0-50 0-50 0-50 0-50
Sound pressure level dB(A) 21-32 21-32 21-33 29-35 29-35 30-38 32-42 32-42
Net Dimension
(WxDxH) mm 550X450X200 550X450X200 700X450X200 900X450X200 900X450X200 1100X450X200 1300X450X200 1300X450X200
Packing Dimension
(WxDxH) mm 780X540X250 780X540X250 930X540X250 1130X540X250 1130X540X250 1330X540X250 1545X555X270 1545X555X270
Net weight kg 14.5 14.5 16.5 19.5 19.5 24.5 28.5 29.5
Connecting pipes
(Gas/liquid) mm 9.52/6.35 9.52/6.35 12.7/6.35 12.7/6.35 12.7/6.35 15.88/9.52 15.88/9.52 15.88/9.52
Power supply 220V-1PH-50Hz
Cooling capacity W 2200 2800 3600 4500 5600 7100 8000 9000
Heating capacity W 2600+750(PTC) 3200+750(PTC) 4000+750(PTC) 5000+1200(PTC) 6300+1200(PTC) 8000+1500(PTC) 9000+2200(PTC) 10000+2200(PTC)
Power input W 30+750(PTC) 30+750(PTC) 50+750(PTC) 66+1200(PTC) 66+1200(PTC) 88+1500(PTC) 120+2200(PTC) 120+2200(PTC)
Operating current A 0.15+3.4(PTC) 0.15+3.4(PTC) 0.2+3.4(PTC) 0.3+5.5(PTC) 0.3+5.5(PTC) 0.4+6.82(PTC) 0.7+10(PTC) 0.7+10(PTC)
Fan motor type Brushless DC
Low ESP Duct indoor unit with water pump, without electric heating
Low ESP Duct indoor unit with water pump and electric heating
( )
( )
Model CGMV-V22F1Y-HFAA CGMV-V28F1Y-HFAA CGMV-V36F1Y-HFA CGMV-V45F1Y-HFB CGMV-V56F1Y-HFB CGMV-V71F1Y-HFC CGMV-V80F1Y-HFCA CGMV-V90F1Y-HFCA
Model CGMV-V22F1EY-HFAA CGMV-V28F1EY-HFAA CGMV-V36F1EY-HFA CGMV-V45F1EY-HFB CGMV-V56F1EY-HFB CGMV-V71F1EY-HFC CGMV-V80F1EY-HFCA CGMV-V90F1EY-HFCA
Motor
Airflow volume m³/h 450 450 650 750 750 1000 1400 1400
External Static pressure Pa 0-50 0-50 0-50 0-50 0-50 0-50 0-50 0-50
Sound pressure level dB(A) 21-32 21-32 21-33 29-35 29-35 30-38 32-42 32-42
Net Dimension
(WxDxH) mm 550X450X200 550X450X200 700X450X200 900X450X200 900X450X200 1100X450X200 1300X450X200 1300X450X200
Packing Dimension
(WxDxH) mm 780X540X250 780X540X250 930X540X250 1130X540X250 1130X540X250 1330X540X250 1545X555X270 1545X555X270
Net weight kg 15 15 16.5 19.5 19.5 25 29 30
Connecting pipes
(Gas/liquid) mm 9.52/6.35 9.52/6.35 12.7/6.35 12.7/6.35 12.7/6.35 15.88/9.52 15.88/9.52 15.88/9.52
Specifications Duct indoor units
Low static pressure duct
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32
Power supply 220V-1PH-50Hz
Cooling capacity W 2200 2800 3600 4500 5600 7100 8000 9000
Heating capacity W 2600 3200 4000 5000 6300 8000 9000 10000
Power input W 30 30 50 66 66 88 120 120
Operating current A 0.15 0.15 0.2 0.3 0.3 0.4 0.7 0.7
Fan motor type Brushless DC Motor
Airflow volume m³/h 450 450 650 750 750 1000 1400 1400
External Static pressure Pa 0-50 0-50 0-50 0-50 0-50 0-50 0-50 0-50
Sound pressure level dB(A) 21-32 21-32 21-33 29-35 29-35 30-38 32-42 32-42
Net Dimension
(WxDxH) mm 550X450X200 550X450X200 700X450X200 900X450X200 900X450X200 1100X450X200 1300X450X200 1300X450X200
Packing Dimension
(WxDxH) mm 780X540X250 780X540X250 930X540X250 1130X540X250 1130X540X250 1330X540X250 1545X555X270 1545X555X270
Net weight kg 14 14 16 19 19 24 28 29
Connecting pipes
(Gas/liquid) mm 9.52/6.35 9.52/6.35 12.7/6.35 12.7/6.35 12.7/6.35 15.88/9.52 15.88/9.52 15.88/9.52
Power supply 220V-1PH-50Hz
Cooling capacity W 2200 2800 3600 4500 5600 7100 8000 9000
Heating capacity W 2600+750(PTC) 3200+750(PTC) 4000+750(PTC) 5000+1200(PTC) 6300+1200(PTC) 8000+1500(PTC) 9000+2200(PTC) 10000+2200(PTC)
Power input W 30+750(PTC) 30+750(PTC) 50+750(PTC) 66+1200(PTC) 66+1200(PTC) 88+1500(PTC) 120+2200(PTC) 120+2200(PTC)
Operating current A 0.15+3.4(PTC) 0.15+3.4(PTC) 0.2+3.4(PTC) 0.3+5.5(PTC) 0.3+5.5(PTC) 0.4+6.82(PTC) 0.7+10(PTC) 0.7+10(PTC)
Fan motor type Brushless DC
Low ESP Duct indoor unit without water pump and electric heating
Low ESP Duct indoor unit without water pump, with electric heating
( )
( )
Model CGMV-V22F1Y-FAA CGMV-V28F1Y-FAA CGMV-V36F1Y-FA CGMV-V45F1Y-FB CGMV-V56F1Y-FB CGMV-V71F1Y-FC CGMV-V80F1Y-FCA CGMV-V90F1Y-FCA
Model CGMV-V22F1EY-FAA CGMV-V28F1EY-FAA CGMV-V36F1EY-FA CGMV-V45F1EY-FB CGMV-V56F1EY-FB CGMV-V71F1EY-FC CGMV-V80F1EY-FCA CGMV-V90F1EY-FCA
Motor
Airflow volume m³/h 450 450 650 750 750 1000 1400 1400
External Static pressure Pa 0-50 0-50 0-50 0-50 0-50 0-50 0-50 0-50
Sound pressure level dB(A) 21-32 21-32 21-33 29-35 29-35 30-38 32-42 32-42
Net Dimension
(WxDxH) mm 550X450X200 550X450X200 700X450X200 900X450X200 900X450X200 1100X450X200 1300X450X200 1300X450X200
Packing Dimension
(WxDxH) mm 780X540X250 780X540X250 930X540X250 1130X540X250 1130X540X250 1330X540X250 1545X555X270 1545X555X270
Net weight kg 14.5 14.5 16 19 19 24.5 28.5 29.5
Connecting pipes
(Gas/liquid) mm 9.52/6.35 9.52/6.35 12.7/6.35 12.7/6.35 12.7/6.35 15.88/9.52 15.88/9.52 15.88/9.52
Specifications Duct indoor units
Low static pressure duct
Specifications Duct indoor units
Mid ESP Duct indoor unit with water pump, without electric heating
Mid ESP Duct indoor unit with water pump and electric heating
( )
( )
Model
Model
CGMV-V80F2Y-HFD CGMV-V90F2Y-HFD CGMV-V100F2Y-HFD CGMV-V112F2Y-HFD CGMV-V125F2Y-HFE CGMV-V140F2Y-HFE CGMV-V150F2Y-HFE CGMV-V160F2Y-HFE
CGMV-V80F2EY-HFD CGMV-V90F2EY-HFD CGMV-V100F2EY-HFD CGMV-V112F2EY-HFD CGMV-V125F2EY-HFE CGMV-V140F2EY-HFE CGMV-V150F2EY-HFE CGMV-V160F2EY-HFE
Power supply 220V-1PH-50Hz
Cooling capacity W 14000 15000 16000
Heating capacity W 16000 17000 18000
Power input W 240 240 300
Operating current A 1.1 1.1 1.4
Fan motor type Brushless DC Motor
Airflow volume m³/h
External Static pressure Pa 0-120
Sound pressure level dB(A)
Net Dimension
(WxDxH) mm 1100X700X255 1250X700X255
Packing Dimension
(WxDxH) mm 1315X840X330 1450X825X310
Net weight kg 38 38 38
Connecting pipes
(Gas/liquid) mm 15.88/9.52
Power supply 220V-1PH-50Hz
Cooling capacity W 14000 15000 16000
Heating capacity W 16000+2400(PTC) 17000+2400(PTC) 18000+2400(PTC)
Power input W 240+2400(PTC) 240+2400(PTC) 240+2400(PTC) 300+2400(PTC)
Operating current A 1.1+10.9(PTC) 1.1+10.9(PTC) 1.1+10.9(PTC) 1.4+10.9(PTC)
Fan motor type Brushless DC Motor
Airflow volume m³/h
External Static pressure Pa 0-120
Sound pressure level dB(A)
Net Dimension
(WxDxH) mm 1100X700X255 1250X700X255
Packing Dimension
(WxDxH) mm 1315X840X330 1450X825X310
Net weight kg 39 39 39 39
Connecting pipes
(Gas/liquid) mm 15.88/9.52
8000 9000 10000 11200 12500
9000 10000 11200 12500 15000
160 280 280 280 240
1.4 2.4 2.4 2.4 1.1
1300 1800 1800 1800 2000 2000 2200 2200
35-40 41-45 41-45 41-45 38-46 38-46 40-48 40-48
33 33 36 36 38
8000 9000 10000 11200 12500
9000+2000(PTC) 10000+2000(PTC) 11200+2000(PTC) 12500+2000(PTC) 15000+2400(PTC)
160+2000(PTC) 280+2000(PTC) 280+2000(PTC) 280+2000(PTC)
1.4+9.1(PTC) 2.4+9.1(PTC) 2.4+9.1(PTC) 2.4+9.1(PTC)
1300 1800 1800 1800 2000 2000 2200 2200
35-40 41-45 41-45 41-45 38-46 38-46 40-48 40-48
33.5 33.5 36.5 36.5
Medium static pressure duct
*Note: Medium static pressure duct uints can achieve an ultra-high static pressure of 160Pa through a customized motor.
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Mid ESP Duct indoor unit without water pump and electric heating
Mid ESP Duct indoor unit without water pump, with electric heating
( )
( )
Model
Model
CGMV-V80F2Y-FD CGMV-V90F2Y-FD CGMV-V100F2Y-FD CGMV-V112F2Y-FD CGMV-V125F2Y-FE CGMV-V140F2Y-FE CGMV-V150F2Y-FE CGMV-V160F2Y-FE
CGMV-V80F2EY-FD CGMV-V90F2EY-FD CGMV-V100F2EY-FD CGMV-V112F2EY-FD CGMV-V125F2EY-FE CGMV-V140F2EY-FE CGMV-V150F2EY-FE CGMV-V160F2EY-FE
Power supply 220V-1PH-50Hz
Cooling capacity W 14000 15000 16000
Heating capacity W 16000 17000 18000
Power input W 240 240 300
Operating current A 1.1 1.1 1.4
Fan motor type Brushless DC Motor
Airflow volume m³/h
External Static pressure Pa 0-120
Sound pressure level dB(A)
Net Dimension
(WxDxH) mm 1100X700X255 1250X700X255
Packing Dimension
(WxDxH) mm 1315X840X330 1450X825X310
Net weight kg 37.5 37.5 37.5
Connecting pipes
(Gas/liquid) mm 15.88/9.52
Power supply 220V-1PH-50Hz
Cooling capacity W 14000 15000 16000
Heating capacity W 16000+2400(PTC) 17000+2400(PTC) 18000+2400(PTC)
Power input W 240+2400(PTC) 240+2400(PTC) 300+2400(PTC)
Operating current A 1.1+10.9(PTC) 1.1+10.9(PTC) 1.1+10.9(PTC) 1.4+10.9(PTC)
Fan motor type Brushless DC Motor
Airflow volume m³/h
External Static pressure Pa 0-120
Sound pressure level dB(A)
Net Dimension
(WxDxH) mm 1100X700X255 1250X700X255
Packing Dimension
(WxDxH) mm 1315X840X330 1450X825X310
Net weight kg 38.5 38.5 38.5 38.5
Connecting pipes
(Gas/liquid) mm 15.88/9.52
8000 9000 10000 11200 12500
9000 10000 11200 12500 15000
160 280 280 280 240
1.4 2.4 2.4 2.4 1.1
1300 1800 1800 1800 2000 2000 2200 2200
35-40 41-45 41-45 41-45 38-46 38-46 40-48 40-48
32.5 32.5 35.5 35.5 37.5
8000 9000 10000 11200 12500
9000+2000(PTC) 10000+2000(PTC) 11200+2000(PTC) 12500+2000(PTC) 15000+2400(PTC)
160+2000(PTC) 280+2000(PTC) 280+2000(PTC) 280+2000(PTC) 240+2400(PTC)
1.4+9.1(PTC) 2.4+9.1(PTC) 2.4+9.1(PTC) 2.4+9.1(PTC)
1300 1800 1800 1800 2000 2000 2200 2200
35-40 41-45 41-45 41-45 38-46 38-46 40-48 40-48
33 33 36 36
Specifications Duct indoor units
Medium static pressure duct
*Note: Medium static pressure duct uints can achieve an ultra-high static pressure of 160Pa through a customized motor.
High ESP Duct indoor unit(with water pump, without electric heating)
Model CGMV-V200F3Y-HFH CGMV-V224F3Y-HFH CGMV-V260F3Y-HFH CGMV-V280F3Y-HFH CGMV-V335F3Y-HFH
Power supply 220V-1PH-50Hz
Cooling capacity W 20000 22400 26000 28000 33500
Heating capacity W 22500 25000 28000 31500 37000
Power input W 950 950 950 950 950
Operating current A 4.4 4.4 4.4 4.4 4.4
Fan motor type Brushless DC Motor
Airflow volume m³/h 4600 4600 4600 4600 4600
External Static pressure Pa 50-200 50-200 50-200 50-200 50-200
Sound pressure level dB(A)
Net Dimension
(WxDxH) mm 1350X740X455 1350X740X455 1350X740X455 1350X740X455 1350X740X455
Packing Dimension
(WxDxH) mm 1525X865X485 1525X865X485 1525X865X485 1525X865X485 1525X865X485
Net weight kg 98 98 100.5 100.5 100.5
Connecting pipes
(Gas/liquid) mm 19/9.52 19/9.52 22/12.7 22/12.7 25.4/12.7
43-53 43-53 43-53 43-53 43-53
High ESP Duct indoor unit(without water pump and electric heating)
Model CGMV-V200F3YFH
CGMV-V224F3YFH
CGMV-V260F3YFH
CGMV-V280F3YFH
CGMV-V335F3YFH
CGMV-V400F3YFJ
CGMV-V450F3YFJ
CGMV-V505F3YFJ
CGMV-V560F3YFJ
Power supply 220V-1PH-50Hz
Cooling capacity W 20000 22400 26000 28000 33500 40000 45000 50500 56000
Heating capacity W 22500 25000 28000 31500 37000 45000 50000 60000 63000
Power input W 950 950 950 950 950 2120 2150 2240 2280
Operating current A 4.4 4.4 4.4 4.4 4.4 15.8 16.0 17.0 17.5
Fan motor type Brushless DC Motor
Airflow volume m³/h 4600 4600 4600 4600 4600 7400 7500 7800 8000
External Static pressure Pa 50-200 50-200 50-200 50-200 50-200 50-400 50-400 50-400 50-400
Sound pressure level dB(A)
Net Dimension
(WxDxH) mm 1350X740X455 1350X740X455 1350X740X455 1350X740X455 1350X740X455 1838X870X624 1838X870X624 1838X870X624 1838X870X624
Packing Dimension
(WxDxH) mm 1525X865X485 1525X865X485 1525X865X485 1525X865X485 1525X865X485 2060X1010X788 2060X1010X788 2060X1010X788 2060X1010X788
Net weight kg 97.5 97.5 100 100 100 176 176 180 180
Connecting pipes
(Gas/liquid) mm 19/9.52 19/9.52 22/12.7 22/12.7 25.4/12.7 28.6/15.88 28.6/15.88 28.6/15.88 28.6/15.88
43-53 43-53 43-53 43-53 43-53 48-58 48-58 49-59 49-59
Specifications Duct indoor units High static pressure duct
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One-way cassette indoor unit
Model
Power supply 220V-1PH-50Hz
Cooling capacity W 1800 2200 2800 3600 4500 5600 7100
Heating capacity W 2200 2500 3200 4000 5000 6300 8000
Power input W 40 40 40 40 50 70 90
Operating current A 0.18 0.18 0.18 0.18 0.23 0.32 0.41
Fan motor type AC Motor
Airflow volume m³/h 530 530 530 530 620 760 950
Sound pressure level dB(A) 30~36 30~36 30~36 30~36 36~41 33~40 38~45
Net Dimension
(WxDxH) mm 994×532×250 994×532×250 994×532×250 994×532×250 994×532×250 1304×552×250 1304×552×250
Packing Dimension
(WxDxH) mm 1055×650×280 1055×650×280 1055×650×280 1055×650×280 1365×675×325 1365×675×325 1365×675×325
Net weight kg 24 24 24 24 26 38 38
Connecting pipes
(Gas/liquid) mm 9.52/6.35 9.52/6.35 9.52/6.35 12.7/6.35 12.7/6.35 12.7/6.35 15.88/9.52
Panel
Net Dimension
(WxDxH) mm 1070×520×50 1070×520×50 1070×520×50 1070×520×50 1070×520×50 1380×550×50 1380×550×50
Net weight kg 3.6 3.6 3.6 3.6 3.6 5.0 5.0
CGMV-18Q1Y-HQA CGMV-22Q1Y-HQA CGMV-28Q1Y-HQA CGMV-36Q1Y-HQA CGMV-45Q1Y-HQA CGMV-56Q1Y-HQA CGMV-71Q1Y-HQA
Two-way cassette indoor unit
Model
Power supply 220V-1PH-50Hz
Cooling capacity W 2200 2800 3600 4500 5600 7100 8000
Heating capacity W 2500 3200 4000 5000 6300 8000 9000
Power input W 50 50 50 70 70 100 100
Operating current A 0.23 0.23 0.23 0.32 0.32 0.45 0.45
Fan motor type AC motor
Airflow volume m³/h 550 550 550 820 820 1150 1150
Sound pressure level dB(A) 28~34 28~34 28~34 36~42 36~42 40~46 40~46
Net Dimension
(WxDxH) mm 1068×517×310 1068×517×310 1068×517×310 1068×517×310 1068×517×310 1308×517×310 1308×517×310
Packing Dimension
(WxDxH) mm 1185×600×350 1185×600×350 1185×600×350 1185×600×350 1185×600×350 1425×600×350 1425×600×350
Net weight kg 33 33 33 33 33 40 40
Connecting pipes
(Gas/liquid) mm 9.52/6.35 9.52/6.35 12.7/6.35 12.7/6.35 12.7/6.35 15.88/9.52 15.88/9.52
Panel
Net Dimension
(WxDxH) mm 1205×630×50 1205×630×50 1205×630×50 1205×630×50 1205×630×50 1445×630×50 1445×630×50
Net weight kg 6.5 6.5 6.5 6.5 6.5 7.5 7.5
CGMV-22Q2Y-HQA CGMV-28Q2Y-HQA CGMV-36Q2Y-HQA CGMV-45Q2Y-HQA CGMV-56Q2Y-HQA CGMV-71Q2Y-HQA CGMV-80Q2Y-HQA
Specifications
Cassette indoor units
Specifications Four-way cassette indoor unit
Model
Power supply 220V-1PH-50Hz
Cooling capacity W 2800 3600 4500 5600 7100 8000
Heating capacity W 3200 4000 5000 6300 8000 9000
Power input W 66 66 88 88 110 110
Operating current A 0.3 0.3 0.4 0.4 0.5 0.5
Fan motor type AC Motor
Airflow volume m³/h 750 750 850 850 1050 1050
Sound pressure level dB(A) 25-31 25-31 25-33 25-33 28-37 28-37
Net dimension
(WxDxH) mm 840X840X205 840X840X205 840X840X205 840X840X205 840X840X205 840X840X205
Packing Dimension
(WxDxH) mm 900X900X258 900X900X258 900X900X258 900X900X258 900X900X258 900X900X258
Net weight kg 20 20 20 22.5 22.5 22.5
Connecting pipes
(Gas/liquid) mm 9.52/Φ6.35 12.7/6.35 15.88/9.52
Panel
Net dimension
(WxDxH) mm 950X950X67
Packing dimension
(WxDxH) mm 1035X1035X95
Net/gross weight kg 6.5/8.9
CGMV-28Q3Y-HQD CGMV-36Q3Y-HQD CGMV-45Q3Y-HQD CGMV-56Q3Y-HQD CGMV-71Q3Y-HQD CGMV-80Q3Y-HQD
Four-way cassette indoor unit
Model
Power supply 220V-1PH-50Hz
Cooling capacity W 9000 10000 11200 12500 14000 16000
Heating capacity W 10000 11200 12500 15000 16000 18000
Power input W 180 180 180 180 180 300
Operating current A 0.8 0.8 0.8 0.8 0.8 1.5
Fan motor type AC Motor
Airflow volume m³/h 1800 1800 1800 1800 1800 2100
Sound pressure level dB(A) 34-43 34-43 34-43 34-43 34-43 37-46
Net dimension
(WxDxH) mm 840X840X290 840X840X290 840X840X290 840X840X290 840X840X290 840X840X290
Packing Dimension
(WxDxH) mm 900X900X343 900X900X343 900X900X343 900X900X343 900X900X343 900X900X343
Net weight kg 26.5 26.5 26.5 26.5 26.5 29
Connecting pipes
(Gas/liquid) mm 15.88/9.52
Panel
Net dimension
(WxDxH) mm 950X950X67
Packing dimension
(WxDxH) mm 1035X1035X95
Net/gross weight kg 6.5/8.9
CGMV-90Q3Y-HQE CGMV-100Q3Y-HQE CGMV-112Q3Y-HQE CGMV-125Q3Y-HQE CGMV-140Q3Y-HQE CGMV-160Q3Y-HQE
Cassette indoor units
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Specifications
Wall-mounted indoor unit
Model CGMV-V22GY-1B150 CGMV-V28GY-1B150 CGMV-V36GY-1B150 CGMV-V45GY-1D150 CGMV-V56GY-1D150 CGMV-V71GY-1E150 CGMV-V80GY-1E150
Power supply 220V-1PH-50Hz
Cooling capacity W 2200 2800 3600 4500 5600 7100 8000
Heating capacity W 2600 3200 4000 5000 6300 8000 9000
Power input W 34 34 36 48 50 66 66
Operating current A 0.17 0.17 0.18 0.24 0.25 0.32 0.32
Fan motor type Brushless DC Motor
Airflow volume m³/h 600 600 650 860 900 1220 1220
Sound pressure level dB(A) 21-38 21-38 22-40 24-42 24-43 25-46 25-46
Net Dimension
(WxDxH) mm 854×212×279 854×212×279 854×212×279 950×241×314 950×241×314 1154×244×341 1154×244×341
Packing Dimension
(WxDxH) mm 915x270*350 915x270*350 915x270*350 1230x320*388 1230x320*388 1230x320*388 1230x320*388
Net weight kg 9 9 9 13 13 14.5 14.5
Connecting pipes
(Gas/liquid) mm 12.7/6.35 12.7/6.35 12.7/6.35 12.7/6.35 12.7/6.35 15.88/9.52 15.88/9.52
Fresh Air Processor Unit
Model CGMV-V140XFFE
CGMV-V200XFFH
CGMV-V224XFFH
CGMV-V260XFFH
CGMV-V280XFFH
CGMV-V335XFFH
CGMV-V400XFFH
CGMV-V450XFFH
CGMV-V505XFFJ
CGMV-V560XFFJ
Power supply 220V-1PH-50Hz
Cooling capacity W 14000 20000 22400 26000 28000 33500 40000 45000 50500 56000
Heating capacity W 10000 12500 14000 17000 18000 22000 26800 27800 32000 39500
Power input W 250 600 650 750 850 900 950 950 1660 1660
Operating current A 1.3 3.0 3.1 3.6 4.1 4.3 6.8 6.8 12.2 12.2
Fan motor type Brushless DC Motor
Airflow volume m³/h 1200 1800 2000 2500 2800 3000 4000 4000 6000 6000
External Static pressure Pa 30-180 50-300 50-300 50-300 50-300 50-300 50-300 50-300 50-400 50-400
Sound pressure level dB(A) 44-50 45-53 46-54 47-55 48-56 49-57 51-56 52-57 48-58 48-58
Net Dimension
(WxDxH) mm 1250X700X255 1350X740X455 1350X740X455 1350X740X455 1350X740X455 1350X740X455 1350X740X455 1350X740X455 1838X870X624 1838X870X624
Packing Dimension
(WxDxH) mm 1465X840X330 1555X885X625 1555X885X625 1555X885X625 1555X885X625 1555X885X625 1555X885X625 1555X885X625 2060X1010X788 2060X1010X788
Net weight kg 39.5 97.5 97.5 100 100 100 103 103 172 176
Connecting pipes
(Gas/liquid) mm 15.88/9.52 19/9.52 19/9.52 22/12.7 22/12.7 25.4/12.7 28.6/15.88 28.6/15.88 28.6/15.88 28.6/15.88
iCongo Central Air Conditioning
Suitable for all kinds of commercial venues
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FOSHAN CHIGO INTELLIGENT ENVIRONMENTAL EQUIPMENT CO. , LTD
Add:No.1, Shengli lndustrial Park, Lishui Town, Nanhai District, Foshan City, Guangdong Province, P.R.china
Tel:0757-85609526 URL:https://www.zemspro.com/
