Φυλλάδια - ΚΟΚΟΤΑΣ ΚΛΙΜΑΤΙΣΜΟΣ
SERIES
1
SELECTION
Line-up includes a selection of eight indoor units and four series of outdoor units. Easily construct a system that best matches room air conditioning needs.
INDOOR UNIT
OUTDOOR UNIT
Power Inverter
Standard Inverter
4-way ceiling-cassette PLA-ZM EA PLA-M EA
Ceiling-concealed PEAD-M
Ceiling-suspended PCA-M
Professional Kitchen PCA-M HA
INDOOR UNIT
4-way ceiling-cassette PLA-ZM EA PLA-M EA
Wall-mounted PKA-M LA (L) PKA-M KA (L) Ceiling-concealed PEA- M
Floor-standing PSA-M
Wall-mounted PKA-M LA (L) PKA-M KA (L)
PUZ-ZM35/50
PUZ-ZM60/71
PUZ-ZM100/125/140/ 200/250
SUZ-M35 SUZ-M50 SUZ-M60/71 PUZ-M100/125/140
PUZ-M200/250
8 Some indoor units cannot be used with this unit.
OUTDOOR UNIT
Power Inverter
Standard Inverter
PUHZ-ZRP35/50
SUZ-KA35
Ceiling-concealed PEAD-M
PUHZ-ZRP60/71
SUZ-KA50/60/71
Ceiling-suspended PCA-M
Professional Kitchen PCA-M HA
Floor-standing PSA-M
Ceiling-concealed PEA- M
To confirm compatibility with the MXZ Series, refer to the MXZ Series page.
PUHZ-ZRP100/125/140/ 200/250
PUHZ-P100/125/140
PUHZ-P200/250 8 Some indoor units cannot be used with this unit.
SELECT COMBINATION
Choose the installation pattern for the indoor units. (In the case of a multi-system, distribution piping is necessary, so please select the necessary piping as well.)
Single System
Simultaneous Multi-System
Twin Allows simultaneous operation of
two indoor units on one floor.
Quadruple Realises the optimum temperature
distribution even in a large space.
Connectable Combinations for Inverter Units
Outdoor Unit Capacity
71 100 125 140 200 250
Distribution Pipe
Twin 50 : 50 35 × 2
50 × 2
60 × 2
71 × 2
100 × 2
125 × 2
MSDD-50TR-E MSDD-50WR-E MSDD-50TR2-E2 MSDD-50WR2-E
Note: The distribution pipe listed is required for simultaneous multi-systems.
Triple Can cover a large-scale space or dispersed
installation on the same floor.
Indoor Unit Capacity Triple
33 : 33 : 33 -- -- --
50 × 3 60 × 3 71 × 3
MSDT-111R-E MSDT-111R3-E
Quadruple 25 : 25 : 25 : 25
-- -- -- -- 50 × 4 60 × 4
MSDF-1111R-E MSDF-1111R2-E
2
Power InverterSERIES
Our Eco-conscious Power Inverter Series is designed to achieve industry-leading seasonal chergy-efficiency throught use of New R32 refrigerant and advanced technologies.
PUZ-ZM35/50VKA2
PUZ-ZM60/71VHA2
PUZ-ZM100/125/140V(Y)KA2 PUZ-ZM200/250YKA2
Industry-leading energy efficiency
Introduction of new R32 refrigerant realises improved cooling efficiency. Rating of more than 7.0 achieved for all capacity range.
7.4 7.5 SAEE+R +6.1
7.6
6.9
6.7 7.2
7.4 7.6
7.2 7.7
7.0 7.5
Introduction of new R32 refrigerant reduces energy consumption and realises energy savings.
35V
50V
60V
71V
100V
100Y
R410A SEER PUHZ-ZRP
R32 SEER PUZ-ZM
Longer piping (60/71/100/125/140/200/250)
Longer piping length realised for 60, 71, 100, 125, 140, 200 and 250 classes, widely increasing installation flexibility.
Outdoor unit (200/250)
Piping Length
35/50
R410A
R32
PUHZ-ZRP PUZ-ZM
50m
50m
6 0 / 71
50m
55m
100/125/140 75m
100m
200/250
100m
100m
Height difference
30m
Indoor unit
Piping length
100m
Rated heating capacity maintained down to 3°C*
Rated heating capacity maintained even when the outside temperature is down to 3°C. Stay warm even at times of cold weather.
%
R32
PUZ-ZM
100
Rated capacity
-3°C *PUZ-ZM35/50/60/71/100/125/140 only.
7°C
Outside
temperature
3
2+1 Back-up rotation*
The use of a three-refrigerant air conditioning system enables you to utilize the back-up, rotation, and cut-in functions. This allows you to implement effective risk management for added peace of mind.
*Availability of this function is depending on outdoor unit, indoor unit and remote controller.
Back-up Function
In the unlikely event that one of the units stops operation due to an abnormality, the standby unit immediately starts back-up operation. Being fully prepared for a failure guarantees that and operation is always available and gives you the confidence that your system will be reliable in any situation.
Main-1
Run
Abnormal condition
Main-2
Run
Run
Sub
Stop
Run
Rotation Function
A single remote controller is used to operate three-refrigerant air conditioning system in a rotation pattern. Reducing the burden on the equipment allows you to maintain a longer time between maintenance and increases product life.
Main-1
Run
Stop
Run
Main-2
Run
Run
Stop
Sub
Stop
Run
Run
Cut-in Function
If the actual room temperature greatly differs from the set temperature and two-refrigerant air conditioning system is insufficient, the standby unit starts operation to provide support.
Main-1
Run
Main-2
Run
Sub
Stop
Run
Stop
The standby unit starts operation if the actual temperature deviates significantly from the set temperature.
Extended cooling set temperature range*
In environments such as gyms where people do strenuous exercise, even if the room is cooled to an appropriate temperature, people may feel that it is hot, and they need a cooler air. To satisfy such demands, we have extended the lower limit of the cooling set temperature range from 1930°C. to 1430°C.
*Insulation kit (PAC-SK36HK-E) is required when indoor unit is PLA series. *Availability of this function is depending on outdoor unit, indoor unit and remote controller.
14°C
19°C
30°C
Previous model 1930°C
New model 1430°C
Display of model names and serial numbers*
The model names and serial numbers of the indoor/outdoor units that are connected to the MA smart remote controller can be automatically acquired and displayed through one simple operation. This eliminates the need to directly check each unit and helps with inquiries in the case of an abnormality.
*Availability of this function is depending on outdoor unit, indoor unit and remote controller.
GModel name display (example)
GSerial number display (example)
4
Preliminary error history*
In addition to error history, the history of preliminary abnormalities can be displayed. The feature enables the unit status check during inspection and maintenance.
*Availability of this function is depending on outdoor unit, indoor unit and remote controller.
GError history (Sample)
GPreliminary error history (Sample)
Display of power consumption*
It is possible to measure, acquire, and display the amount of energy used by each air conditioning system.
*Availability of this function is depending on outdoor unit, indoor unit and remote controller.
< Data Collection Period > Time data: Every 30 minutes over the past month Monthly/daily data: Monthly over the past 14 months
Energy consumption values are calculated from estimated power consumption values according to the operating conditions. They may vary from the actual power consumption values. Please note that the power consumption of optional parts is not included except in the case of optional parts that have their power supplied directly by the outdoor unit.
GEvery 30 minutes (example)
GDaily (example)
GMonthly (example)
Improved defrosting performance*
*Availability of this function is depending on outdoor unit, indoor unit and remote controller.
Avoiding Simultaneous Defrosting
When each of multiple units is in operation for heating in the same space, these may start defrosting at the same time, resulting in a drop in the room temperature. Therefore, we have developed a new function that controls up to four-refrigerant air conditioning system to avoid simultaneous defrosting. By ensuring that defrosting is only performed by one unit at a time, it is possible to minimize any decrease in room temperature.
Example System Configuration Four sets controlled by a single remote controller
IWhen All Sets Are Controlled Together
A
B
C
D
A Heating Defrosting Heating
B Heating
Defrosting Heating
C Heating
Defrosting Heating
D Heating
Defrosting Heating
Ensuring defrosting is only performed by one unit at a time allows you to minimize decreases in room temperature!
Defrosting When People Are Absent
The use of the 3D i-see sensor allows a more comfortable defrosting schedule. After a large amount of frost has built up, the system will switch to defrosting when the 3D i-see sensor detects that no people are present. By minimizing defrosting while people are in the room, there is a much lower chance of a temperature drop while the room is occupied.
3D i-see sensor detects that no people are present
Defrosting
Defrosting When Operation is Stopped
It takes a long time to start operation if there is an excess build-up of frost. Therefore, each unit is equipped with a control system where defrosting is performed immediately after operation is stopped when there is a large amount of frost. This allows heating to be quickly started the next day.
Previous model
Heating
OFF
Defrost Heating
Power off
Power on
New model
Heating
Defrost OFF
Heating
* Only compatible with 4-way cassette and 2x2 cassette models with an attached 3D i-see sensor panel. Even though people are present in the room, the defrosting process may start if all defrosting conditions are met.
5
The power turns off after defrosting is complete and the system will start up smoothly the next time it is used.
Easier M-NET Adapter Installation
The optional M-NET adapter, which allows centralized control (M-NET control), is now easier to install. The redesigned mounting position significantly reduces the time and effort for installation.
Conventional Model PAC-SJ96MA-E
Removed parts
M-NET adapter mounting position (1)
(2)
(4)
The (1) top panel, (2) front panel,
(3) service panel, and (4) electron-
ics box need to be removed, and
the connector must be temporarily
unplugged.
(3)
New Model
PAC-SK15MA-E
(1)
Removed parts
There is no need to remove the (1) top panel, (2) service panel, (3) service plate, electronics box, nor temporarily unplug the connector.
M-NET adapter mounting position
(3)
(2)
Improved chargeless piping length ZM100/125/140
PUZ-ZM100/125/140V(Y)KA used to have a chargeless pipe length of 30 m. However, starting with the V(Y)KA2 model, this has been extended to 40 m. This allows it to be used for a wider range of applications without the need for additional charging of refrigerant.
PUZ-ZM 100V (Y)KA PUZ-ZM 125V (Y)KA PUZ-ZM 140V (Y)KA
Maximum piping length
100m 100m 100m
Chargeless piping length
30m 30m 30m
PUZ-ZM 100V (Y)KA2 PUZ-ZM 125V (Y)KA2 PUZ-ZM 140V (Y)KA2
Maximum piping length
100m 100m 100m
Chargeless piping length
40m 40m 40m
Utilizing IoT for Improved Convenience*
*Availability of IoT functions are depending on MELCloud version.
By connecting to a MAC-587IF-E Wi-Fi interface, it is possible to collect data and perform air conditioning control via MELCloud. In addition to basic functions such as turning the power on/off and setting the temperature, it is also possible to acquire data used for maintenance and inspection such as model names, serial numbers, and operation data.
[Basic Operation Functions] GOperation on/off GTemperature setting GOperation mode GAirflow speed GAirflow direction etc...
[Data Collection and Display] GModel name display GSerial number display GCollection of operation data GEnergy consumption display
etc...
MELCloud
Notification when an error /abnormality occurs
Checking air conditioner operating status
Checking energy consumption
MELCloud
Data is stored and shared in the cloud
Notification when an error /abnormality occurs
Notification of signs of an error/abnormality
Remote monitoring of operation data
Checking air conditioner operating status
Checking energy consumption
Checking model names/serial numbers
Enduser
Contractor and installer
MELCloud System Configuration
Indoor unit
Wi-Fi interface (Optional)
Outdoor unit
Wireless LAN environment (arranged on-site)
Cloud server
MELCloud
Notification
Onscreen browsing
Wi-Fi Adapter (Optional) Installation
Wi-Fi adapter(Optional) (When installing above the ceiling)
Indoor unit
On-Site Installation and Configuration
G1 Wireless LAN adapter installation
Connect the wireless LAN adapter to the indoor unit PCB and install it above the ceiling.
G2 Wireless LAN adapter and router connection settings
G3 Wireless LAN adapter and server connection settings
6
Collection of operation data
All the operation data required for maintenance and inspection can be collected in a simple step. This data can then be easily checked via
MELcloud. This makes it easy to check the operating status data even in cases when it is difficult to do a visual inspection. This allows you to
quickly identify any system malfunctions. This function also helps to improve the quality of installation work and shortening the time required for
maintenance and inspection.
This operation
Operation data that can be collected (example)
data is strange...
GCompressor frequency GCompressor operating current GOutdoor discharge temperature GOutdoor heat exchanger temperature GOutdoor air temperature GCompressor shell temperature GSub cool GDischarge superheat GIndoor inlet temperature GIndoor heat exchanger temperature GTotal compressor operating timeGCompressor operation count GIndoor filter operating time
*1 The total compressor operating time is displayed in units of 10 hours. The compressor operation count is displayed in units of 100. *2 Indicates the elapsed time since a filter sign reset was performed.
Demand control
It is possible to control air-conditioners to appropriately operate according to the energy supply-demand adjustment by electric power companies and each electricity rate plan of end users. e.g. <Peak cut control> It is possible to utilize an external demand signal to reduce power consumption during peak hours. By satisfying the need for reducing peak power consumption or shifting consumption to a non-peak period, we have increased the range of options for our customers.
Notification of potential abnormality
The comprehensive analysis of operating data allows the early detection of abnormalities in small functional parts by alerting the operator of any signs of abnormal behaviour. The recognition in advance of abnormalities in each unit further improves the ease of servicing and maintenance. Since this allows a countermeasure to be implemented before the abnormality requires the unit to be completely shut down, it is an effective method for maintaining the unit in its optimum condition.
[Abnormalities That Have Their Signs Monitored] GFilter blockage GDrain blockage GRefrigerant leakage GHeat exchanger blockage etc...
Notification of potential
abnormality
<example>
This device may stop operation due to drain blockage. Would you like to perform maintenance before it is too late?
Detects any signs of abnormalities caused by external factors or the surrounding environment.
MELCloud
7
Standard InverterSERIES
Our Standard Series become light and compact with greater energy-saving performance.
SUZ-M35VA
SUZ-M50VA
SUZ-M60/71VA PUZ-M100/125/140V(Y)KA2 PUZ-M200/250YKA2
Improved energy efficiency
Introduction of new R32 refrigerant realises improved cooling efficiency. Rating of more than 6.6 achieved for all capacity range.
SEER
R410A
SUZ-KA PUHZ-P
SEER
R32
SUZ-M PUZ-M
7.4 SAEE+R+6.1 6.9
6.5 6.7
6.5 6.6
7.5
6.2
7.0
6.1
7.0
6.1
35V
50V
60V
71V
100V
100Y
8Specifications are figures when PLA-RP/M is connected.
Longer piping (100/125/140/200/250)
Longer piping length realised for 100, 125, 140, 200 and 250
classes, widely increasing installation flexibility.
Max. Piping Length
Outdoor unit (200/250)
25/35 50 / 6 0 / 71
100
R410A SUZ-KA PUHZ-P
20m
30m
50m
R32 SUZ-M PUZ-M
20m
30m
55m
Height difference
30m
Indoor unit
Piping length
70m
125/140
50m
65m
200/250
70m
70m
Light weight and compact size
Compact design fits into narrow outdoor unit space of condominiums and offices. Light weight design facilitates easy installation.
SUZ-KA50VA6
Height 880mm Weight 54kg
SUZ-M50VA
Height 714mm Weight 41kg
18% reduction 24% reduction
PUHZ-P140YHA2
Height 1,350mm Weight 101kg
PUZ-M140YKA2
Height 981mm Weight 85kg
27% reduction 15% reduction
Unobstructive, compact, and easy to hide from view
Conventional outdoor units may spoil the view. Due to its compact size, the new model can be installed in locations that previous model is not suitable.
Easy transportation and installation
The reduced weight and height allow for better transportation performance. Carrying and installing become easier.
Transport efficiency improves thanks to its low height. The unit can even be transported by minivan.
8
2+1 Back-up rotation*
The use of a three-refrigerant air conditioning system enables you to utilize the back-up, rotation, and cut-in functions. This allows you to implement effective risk management for added peace of mind.
*Availability of this function is depending on outdoor unit, indoor unit and remote controller.
Back-up Function
In the unlikely event that one of the units stops operation due to an abnormality, the standby unit immediately starts back-up operation. Being fully prepared for a failure guarantees that and operation is always available and gives you the confidence that your system will be reliable in any situation.
Main-1
Run
Abnormal condition
Main-2
Run
Run
Sub
Stop
Run
Rotation Function
A single remote controller is used to operate three-refrigerant air conditioning system in a rotation pattern. Reducing the burden on the equipment allows you to maintain a longer time between maintenance and increases product life.
Main-1
Run
Stop
Run
Main-2
Run
Run
Stop
Sub
Stop
Run
Run
Cut-in Function
If the actual room temperature greatly differs from the set temperature and two-refrigerant air conditioning system is insufficient, the standby unit starts operation to provide support.
Main-1
Run
Main-2
Run
Sub
Stop
Run
Stop
The standby unit starts operation if the actual temperature deviates significantly from the set temperature.
Extended cooling set temperature range*
In environments such as gyms where people do strenuous exercise, even if the room is cooled to an appropriate temperature, people may feel that it is hot, and they need a cooler air. To satisfy such demands, we have extended the lower limit of the cooling set temperature range from 1930°C. to 1430°C.
*Insulation kit (PAC-SK36HK-E) is required when indoor unit is PLA series. *Availability of this function is depending on outdoor unit, indoor unit and remote controller.
14°C
19°C
30°C
Previous model 1930°C
New model 1430°C
Display of model names and serial numbers*
The model names and serial numbers of the indoor/outdoor units that are connected to the MA smart remote controller can be automatically acquired and displayed through one simple operation. This eliminates the need to directly check each unit and helps with inquiries in the case of an abnormality.
*Availability of this function is depending on outdoor unit, indoor unit and remote controller.
GModel name display (example)
GSerial number display (example)
9
Preliminary error history*
In addition to error history, the history of preliminary abnormalities can be displayed. The feature enables the unit status check during inspection and maintenance.
*Availability of this function is depending on outdoor unit, indoor unit and remote controller.
GError history (Sample)
GPreliminary error history (Sample)
Display of power consumption*
It is possible to measure, acquire, and display the amount of energy used by each air conditioning system.
*Availability of this function is depending on outdoor unit, indoor unit and remote controller.
< Data Collection Period > Time data: Every 30 minutes over the past month Monthly/daily data: Monthly over the past 14 months
Energy consumption values are calculated from estimated power consumption values according to the operating conditions. They may vary from the actual power consumption values. Please note that the power consumption of optional parts is not included except in the case of optional parts that have their power supplied directly by the outdoor unit.
GEvery 30 minutes (example)
GDaily (example)
GMonthly (example)
Improved defrosting performance*
*Availability of this function is depending on outdoor unit, indoor unit and remote controller.
Avoiding Simultaneous Defrosting
When each of multiple units is in operation for heating in the same space, these may start defrosting at the same time, resulting in a drop in the room temperature. Therefore, we have developed a new function that controls up to four-refrigerant air conditioning system to avoid simultaneous defrosting. By ensuring that defrosting is only performed by one unit at a time, it is possible to minimize any decrease in room temperature.
Example System Configuration Four sets controlled by a single remote controller
A
B
C
D
IWhen All Sets Are Controlled Together
A Heating Defrosting Heating
B Heating
Defrosting Heating
C Heating
Defrosting Heating
D Heating
Defrosting Heating
Ensuring defrosting is only performed by one unit at a time allows you to minimize decreases in room temperature!
10
Utilizing IoT for Improved Convenience*
By connecting to a MAC-587IF-E Wi-Fi interface, it is possible to collect data and perform air conditioning control via MELCloud. In addition to basic functions such as turning the power on/off and setting the temperature, it is also possible to acquire data used for maintenance and inspection such as model names, serial numbers, and operation data.
[Basic Operation Functions] GOperation on/off GTemperature setting GOperation mode GAirflow speed GAirflow direction etc...
[Data Collection and Display] GModel name display GSerial number display GCollection of operation data GEnergy consumption display etc...
MELCloud
*Availability of IoT functions are depending on MELCloud version.
Notification when an error /abnormality occurs
Checking air conditioner operating status
Checking energy consumption
MELCloud
Data is stored and shared in the cloud
Notification when an error /abnormality occurs
Notification of signs of an error/abnormality
Remote monitoring of operation data
Checking air conditioner operating status
Checking energy consumption
Checking model names/serial numbers
Enduser
Contractor and installer
MELCloud System Configuration
Indoor unit
Wi-Fi interface (Optional)
Outdoor unit
Wireless LAN environment (arranged on-site)
Cloud server
MELCloud
Notification
Onscreen browsing
Wi-Fi Adapter (Optional) Installation
Wi-Fi adapter(Optional) (When installing above the ceiling)
Indoor unit
On-Site Installation and Configuration
G1 Wireless LAN adapter installation
Connect the wireless LAN adapter to the indoor unit PCB and install it above the ceiling.
G2 Wireless LAN adapter and router connection settings
G3 Wireless LAN adapter and server connection settings
Collection of operation data
All the operation data required for maintenance and inspection can be collected in a simple step. This data can then be easily checked via
MELcloud. This makes it easy to check the operating status data even in cases when it is difficult to do a visual inspection. This allows you to
quickly identify any system malfunctions. This function also helps to improve the quality of installation work and shortening the time required for
maintenance and inspection.
This operation
Operation data that can be collected (example)
data is strange...
GCompressor frequency GCompressor operating current GOutdoor discharge temperature GOutdoor heat exchanger temperature GOutdoor air temperature GCompressor shell temperature GSub cool GDischarge superheat GIndoor inlet temperature GIndoor heat exchanger temperature GTotal compressor operating timeGCompressor operation count GIndoor filter operating time
*1 The total compressor operating time is displayed in units of 10 hours. The compressor operation count is displayed in units of 100. *2 Indicates the elapsed time since a filter sign reset was performed.
Demand control
It is possible to control air-conditioners to appropriately operate according to the energy supply-demand adjustment by electric power companies and each electricity rate plan of end users. e.g. <Peak cut control> It is possible to utilize an external demand signal to reduce power consumption during peak hours. By satisfying the need for reducing peak power consumption or shifting consumption to a non-peak period, we have increased the range of options for our customers.
Notification of potential abnormality
The comprehensive analysis of operating data allows the early detection of abnormalities in small functional parts by alerting the operator of any signs of abnormal behaviour. The recognition in advance of abnormalities in each unit further improves the ease of servicing and maintenance. Since this allows a countermeasure to be implemented before the abnormality requires the unit to be completely shut down, it is an effective method for maintaining the unit in its optimum condition.
[Abnormalities That Have Their Signs Monitored] GFilter blockage GDrain blockage GRefrigerant leakage GHeat exchanger blockage etc...
Notification of potential
abnormality
<example>
This device may stop operation due to drain blockage. Would you like to perform maintenance before it is too late?
Detects any signs of abnormalities caused by external factors or the surrounding environment.
MELCloud
11
PLA-ZM35/50/60/71/100/125/140EA2
PL A SERIES
PLA-M35/50/60/71/100/125/140EA2
A complete line-up including deluxe units that offer added energy savings. The incorporation of "3D total flow" and the "3D i-see Sensor" enhances airflow distribution control, achieving an enhanced level of comfort throughout the room. The synergy of higher energy efficiency and more comfortable room environment results in the utmost user satisfaction.
Deluxe 4-way Cassette Line-up
For users seeking even further energy savings, Mitsubishi Electric now offers deluxe units (PLA-ZM) to complete the line-up of models in this series, from 35-140. Compared to the standard models (PLA-M), deluxe models provide additional energy savings, contributing to a significant reduction in electricity costs.
I Line-up Series
Model 35
50 60
71 100 125 140
Deluxe 4-way Cassette
(PLA-ZM)
Standard 4-way Cassette
(PLA-M)
I Indoor/Outdoor Unit Combinations
Deluxe 4-way Cassette PLA-ZM EA2
Power Inverter
Power Inverter
PUZZM35/50
PUZ-
PUZ-
ZM60/71 ZM100/125/
140/200/250
PUHZ-
PUHZ-
PUHZ-
ZRP35/50 ZRP60/71 ZRP100/125/
140/200/250
Standard 4-way Cassette PLA-M EA2
Power Inverter
Power Inverter
Standard Inverter
Standard Inverter
PUZ-
PUZ-
PUZ-
ZM35/50 ZM60/71 ZM100/125/
140/200/250
PUHZ- PUHZ- PUHZZRP35/50 ZRP60/71 ZRP100/125/
140/200/250
SUZ-M35 SUZ-M50 SUZ-M60/71 PUZM100/ 125/140
PUZM200/250
SUZ-KA35 SUZ-
PUHZ-
PUHZ-
KA50/60/71 P100/125/140 P200/250
Industry-leading energy efficiency
Introduction of new R32 refrigerant realises improved cooling efficiency. Rating of more than 7.0 achieved for all capacity range. Introduction of new R32 refrigerant reduces energy consumption and realises energy savings.
R410A SEER PUHZ-ZRP
R32 SEER PUZ-ZM
7.4 7.5
SEER 6.1
A++
7.6
6.9
7.2
6.7
7.4 7.6
7.7
7.2
7.5
7.0
Horizontal Airflow
The new airflow control removes that uncomfortable drafty feeling with the introduction of a horizontal airflow that spreads across the ceiling. The ideal airflow for offices and restaurants.
[Horizontal airflow]
Model name: PLA-ZM140EA2 Ceiling height: 3.2m Mode: Cooling
Indoor Unit
3.2
3.0
3
2.0
1.0 0.5
(m/s)
35V
50V
60V
71V
100V 100Y
2
Height (m)
1
0
1
2
3
4
5
Floor distance (m)
12
Automatic Grille Lowering Function (PLP-6EAJ, PLP-6EAJE)*
An automatic grille lowering function is available for easy filter maintenance. Special wired and wireless remote controllers can be used to lower the intake grille for maintenance.
*Auto elevation panel(PLP-6EAJ,PLP-6EAJE) cannot be used with Plasma Quad Connect(PAC-SK51FT-E) and Insulation kit (PAC-SK36HK-E).
Grille Elevation Remote Controller (comes with the automatic elevation panel)
Wired Remote Controller
Wireless Remote Controller
Easy Installation
1.2m 1.6m
2.0m 2.4m 2.8m 3.2m 3.6m 4.0m
Maximum 4m Automatic elevation
Electrical box wiring
After reviewing the power supply terminal position in the electrical box, the structure was redesigned to improve connectivity. This has made previously complex wiring work easier.
I Previous model (B Series)
I New model (E Series)
Increased space for plumbing work
The top and bottom positions of the liquid and gas pipes have been reversed to allow the gas pipe work, which requires more effort, to be completed first. Further, through structural innovations related to the space around the pipes, the area where the spanner can be moved has been increased, thus improving liquid pipe work and enabling it to be completed smoothly.
I Previous model (B Series)
I New model (E Series)
50°
70°
Temporary hanging hook
No need to remove screws
Lightweight decorative panel
The structure of the panel has been revised and is now equipped with a temporary hanging hook. This has improved work efficiency during panel installation.
Installation is possible without removing the screws for the corner panel and the control box, simply loosen them. This lowers the risk of losing screws.
I Corner panel
I Control box cover
After reviewing the structure and materials, weight has been reduced approximately 20% compared to the previous model, reducing the burden of installation.
for S & P SERIES
Detects number of people
3D i-see Sensor detects the number of people in the room and sets the air-conditioning power accordingly. This makes automatic power-saving operation possible in places where the number of people entering and exiting is large. Additionally, when the area is continuously unoccupied, the system switches to a more enhanced power-saving mode. Depending on the setting, it will save additional capacity or stop operation altogether.
Detects people's position
Once the position of a person is detected, the duct angle of the vane is automatically adjusted in that direction. Each vane can be independently set to "block wind" or "not block wind" according to taste.
Detects number of people
Detects people's position
8
7
6 4 53 2 1
Detects position and number of people
Detects floor temperature
8 sensors
12 3 4 5
6
7
8
360°
Detection 2.7m
7.2m
1.1m
12m
Floor surface *In case of a 2.7m ceiling
13
Detects number of people (3D i-see Sensor)
Room occupancy energy-saving mode
The 3D i-see Sensor detects the number of people in the room. It then calculates the occupancy rate based on the maximum number of people in the room up to that point in time in order to save airconditioning power. When the occupancy rate is approximately 30%, air-conditioning power equivalent to 1°C during both cooling and heating operation is saved. The temperature is controlled according to the number of people.
No occupancy energy-saving mode
When 3D i-see Sensor detects that no one is in the room, the system is switched to a pre-set power-saving mode. If the room remains unoccupied for more than 60min, air-conditioning power equivalent to 2°C during both cooling and heating operation is saved. This contributes to preventing waste in terms of heating and cooling.
No occupancy Auto-OFF mode*
When the room remains unoccupied for a pre-set period of time, the air conditioner turns off automatically, thereby providing even greater power savings. The time until operation is stopped can be set in intervals of 10min, ranging from 60 to 180 min.
* When MA Remote Controller is used to control multiple refrigerant systems, "No occupancy Auto-OFF mode" cannot be used.
Room occupancy energy save mode No occupancy energy save mode No occupancy Auto-Off mode
Detects people's position (3D i-see Sensor)
1C° power savings
2C° power savings
Auto-Off
*PAR-41MAA is required for each setting
Direct/Indirect settings*
Some people do not like the feel of wind, some want to be warm from head to toe. People's likes and dislikes vary. With the 3D i-see Sensor, it is possible to choose to block or not block to the wind for each vane.
Seasonal airflow*
<When cooling> Saves energy while keeping a comfortable effective temperature by automatically switching between ventilation and cooling. When a pre-set temperature is reached, the air conditioning unit switches to swing fan operation to maintain the effective temperature. This clever function contributes to keeping a comfortable coolness.
<When heating> The air conditioning unit automatically switches between circulator and heating. Wasted heat that accumulates near the ceiling is reused via circulation. When a pre-set temperature is reached the air conditioner switches from heating to circulator and blows air in the horizontal direction. It pushes down the warm air that has gathered near the ceiling to people's height, thereby providing smart heating.
Cooling
Heating
*PAR-41MAA or PAR-SL101A-E is required for each setting.
*PAR-41MAA is required for each setting.
3D Total Flow*
3D Total Flow is an innovative function. Our original 3D i-see sensor detects the temperature of the floor, and then the newly installed 3D Total Flow unit automatically controls the airflow in the left/right directions in a smart manner.
*3D Total Flow unit(PLP-U160ELR-E) cannot be used with Plasma Quad Connect(PAC-SK51FT-E), Insulation kit(PAC-SK36HK-E), Shutter Plate(PAC-SJ37SP-E), Multi functional casement(PAC-SJ41TM-E) and High-efficiency filter element(PAC-SH59KF-E)
4-way cassette model
Horizontal louver (3D Total Flow)
In addition to the ability of conventional models to control airflow in the vertical direction, the adoption of a horizontal louver unit allows each outlet to blow air over a horizontal angle of 90 degrees. The combination of four outlets delivers 360° airflow control around the entire circumference. This now makes it possible to blow air in diagonal directions which eliminates temperature irregularities.
3D Total Flow unit (PLP-U160ELR-E)
Panel with 3D i-see sensor
louvers can provide horizontal airflow control.
14
Fine-tuned sensing & airflow direction control (3D Total Flow)
Swinging
Since airflow can be controlled in the horizontal and vertical directions, you can efficiently make the entire room comfortable.
Horizontal, vertical, and diagonal airflow delivered to every corner
The combination of the vertical vanes with the horizontal louver unit makes it possible to direct airflow in any direction. This quickly makes the entire room comfortable, even when diagonal airflow is necessary.
Without 3D Total Flow
With 3D Total Flow
Indirect mode
When set to "Indirect" mode, the system detects the position of a person and maintains comfort while diverting airflow away from them.
Prevents direct airflow and keeps you comfortable
This function prevents people from being directly exposed to airflow while still ensuring comfort. The "Indirect" mode of 3D Total Flow keeps the downward airflow while avoiding direct blow to people, delivering a pleasant warmth.
Without 3D Total Flow
With 3D Total Flow
Models that are only equipped with vertical vanes need to swing the airflow upward to avoid people. This makes it difficult to warm up the surrounding space.
Now, it is easier to warm the surrounding space while still ensuring people do not receive direct blow.
There are some areas that cannot receive air through vertical airflow control.
Swinging in both the vertical and horizontal directions provides a pleasant breeze throughout the room.
*If people are present throughout the entire airflow range of an outlet, the airflow is shifted horizontally to avoid direct airflow.
Targeting
The system can detect spaces with uneven temperatures and target them by sending air even if they are in a diagonal direction.
Detects and targets areas with uneven temperatures
3D i-see sensor detects areas with uneven temperatures, even if they are caused by the installation orientation of the air conditioner or the influence of strong sunlight. Efficient air conditioning is possible thanks to the ability to send focused airflow to such areas, even those in a diagonal position.
Without 3D Total Flow
Depending on application, conventional systems may take a long time to cool down hot spots.
With 3D Total Flow
The new system efficiently eliminates hot spots by using targeted airflow.
Direct mode
When set to "Direct" mode, the system detects the position and diverts airflow towards wherever they are located.
Delivers airflow even in diagonal directions
You can freely turn on "Direct" mode depending on personal prefereuce. This allows for air conditioning in diagonal directions which was difficult for models that could only swing the airflow up and down. This feature is perfect for when you come back home on a hot day.
Without 3D Total Flow
It is difficult to direct airflow in diagonal directions when only using vertical vanes.
With 3D Total Flow
Ensures comfort even when you are located diagonally from an outlet.
Connectable to
*
The optional Plasma Quad Connect PAC-SK51FT-E can be installed on the indoor units.
*Plasma Quad Connect(PAC-SK51FT-E) cannot be used with PLP-U160ELR-E(3D Total Flow unit), Insulation kit (PAC-SK36HK-E), Auto elevation panel(PLP-6EAJ, PLP-6EAJE), Multi functional casement(PAC-SJ41TM-E) and High-efficiency filter element(PAC-SH59KF-E).
15
Power Inverter Series
Indoor Unit
SERIES SELECTION
35-71
100-250
35-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Scroll
DC Fan Motor
Vector-Wave
Grooved Piping
35-71
Heat Caulking Fixing Method
Panel
PLA-ZM35/50/60/71/100/125/140EA2
Panel
PLP-6EA PLP-6EAL
With Signal Receiver
With 3D i-see Sensor
With Wireless Remote Controller
With Auto Elevation
PLP-6EAE
PLP-6EALE
PLP-6EAJ* PLP-6EAJE* PLP-6EALM2 PLP-6EALME2
*Auto elevation panel(PLP-6EAJ,PLP-6EAJE) cannot be used with Plasma Quad Connect(PAC-SK51FT-E) and Insulation kit (PAC-SK36HK-E).
For Single
For Multi (Twin/ Triple/Quadruple)
3D Total Flow Unit
Remote Controller
PUZ-ZM35/50
PLP-U160ELR-E (optional)
Optional
Optional
PUZ-ZM60/71
PUZ-ZM100/125/140
PUZ-ZM71
PUZ-ZM100/125/140/200/250 8
Optional
8 Enclosed in PLP-6EALM2/PLP-6EALME2
PLA-ZM EA2 Indoor Unit Combinations Indoor unit combinations shown below are possible.
Indoor Unit Combination
For Single
Outdoor Unit Capacity For Twin
For Triple For Quadruple
Power Inverter (PUZ-ZM) Distribution Pipe
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
35x1 50x1 60x1 71x1 100x1 125x1 140x1
35x2 50x2 60x2 71x2 100x2 125x2 50x3 60x3 71x3 50x4 60x4
MSDD-50TR2-E
MSDD50WR2-E
MSDT-111R3-E
MSDF1111R2-E
Standard Inverter Series
Indoor Unit
SERIES SELECTION
35-71
100-250
35-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Scroll
DC Fan Motor
Vector-Wave
Grooved Piping
35-71
Heat Caulking Fixing Method
Panel
PLA-M35/50/60/71/100/125/140EA2
Panel
PLP-6EA PLP-6EAL PLP-6EAE PLP-6EALE PLP-6EAJ* PLP-6EAJE* PLP-6EALM2 PLP-6EALME2
With Signal Receiver
With 3D i-see Sensor
With Wireless Remote Controller
With Auto Elevation
*Auto elevation panel(PLP-6EAJ,PLP-6EAJE) cannot be used with Plasma Quad Connect(PAC-SK51FT-E) and Insulation kit (PAC-SK36HK-E).
For Single
SUZ-M35
For Multi (Twin/ Triple/Quadruple)
3D Total Flow Unit
PLP-U160ELR-E* (optional)
*SUZ combination is not available.
Remote Controller
Optional
SUZ-M50
SUZ-M60/71
PUZ-M100/125/140
Optional
PUZ-M100/125/140 PUZ-M200/250 8
Optional
8 Enclosed in PLP-6EALM2/PLP-6EALME2
PLA-M EA2 Indoor Unit Combinations Indoor unit combinations shown below are possible.
Indoor Unit Combination
For Single
Outdoor Unit Capacity For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
Standard Inverter (SUZ & PUZ-M) 35x1 50x1 60x1 71x1 100x1 125x1 140x1 50x2 60x2 71x2 100x2 125x2 50x3 60x3 71x3 50x4 60x4
Distribution Pipe
MSDD-50TR2-E
MSDD50WR2-E
MSDT-111R3-E
MSDF1111R2-E
16
PLA-ZM SERIES POWER INVERTER
Optional
Optional 60-140V/200/250
Optional
Optional
Optional Optional
Wi-Fi
Interface
Optional
Optional
Type
Inverter Heat Pump
Indoor Unit
PLA-ZM35EA2 PLA-ZM50EA2 PLA-ZM60EA2 PLA-ZM71EA2 PLA-ZM100EA2 PLA-ZM100EA2 PLA-ZM125EA2 PLA-ZM125EA2 PLA-ZM140EA2 PLA-ZM140EA2
Outdoor Unit
PUZ-ZM35VKA2 PUZ-ZM50VKA2 PUZ-ZM60VHA2 PUZ-ZM71VHA2 PUZ-ZM100VKA2 PUZ-ZM100YKA2 PUZ-ZM125VKA2 PUZ-ZM125YKA2 PUZ-ZM140VKA2 PUZ-ZM140YKA2
Refrigerant (*1)
R32
Power Supply
Source Outdoor(V/Phase/Hz)
Outdoor power supply VKA.VHA:230/Single/50, YKA:400/Three/50
Cooling
Capacity
Rated
kW
3.6
5.0
6.1
7.1
9.5
9.5
12.5
12.5
13.4
13.4
Min-Max
kW
1.6 - 4.5
2.3 - 5.6
2.7 - 6.5
3.3 - 8.1
4.9 - 11.4 4.9 - 11.4 5.5 - 14.0 5.5 - 14.0 6.2 - 15.0 6.2 - 15.0
Total Input
Rated
kW
0.705
1.106
1.452
1.651
2.159
2.159
3.378
3.378
3.722
3.722
EER
5.10
4.52
4.20
4.30
4.40
4.40
3.70
3.70
3.60
3.60
Design load
kW
3.6
5.0
6.1
7.1
9.5
9.5
---
---
---
---
Annual electricity consumption (*2)
kWh/a
168
230
296
327
431
442
---
---
---
---
SEER (*4)
7.5
7.6
7.2
7.6
7.7
7.5
---
---
---
---
Energy efficiency class
A++
A++
A++
A++
A++
A++
---
---
---
---
Heating
Capacity
Rated
kW
4.1
6.0
7.0
8.0
11.2
11.2
14.0
14.0
16.0
16.0
Min-Max
kW
1.6 - 5.2
2.5 - 7.3
2.8 - 8.2
3.5 - 10.2 4.5 - 14.0 4.5 - 14.0 5.0 - 16.0 5.0 - 16.0 5.7 - 18.0 5.7 - 18.0
Total Input
Rated
kW
0.820
1.363
1.707
1.818
2.604
2.604
3.674
3.674
4.312
4.312
COP
5.00
4.40
4.10
4.40
4.30
4.30
3.81
3.81
3.71
3.71
Design load
kW
2.5
3.8
4.4
4.7
7.8
7.8
---
---
---
---
Declared Capacity
at reference design temperature kW
2.5 (-10°C ) 3.8 (-10°C ) 4.4 (-10°C ) 4.7 (-10°C ) 7.8 (-10°C ) 7.8 (-10°C )
---
---
---
---
at bivalent temperature
kW
2.5 (-10°C ) 3.8 (-10°C ) 4.4 (-10°C ) 4.7 (-10°C ) 7.8 (-10°C ) 7.8 (-10°C )
---
---
---
---
at operation limit temperature kW
2.1 (-11°C ) 3.7 (-11°C ) 2.8 (-20°C ) 3.4 (-20°C ) 5.8 (-20°C ) 5.8 (-20°C )
---
---
---
---
Back up heating capacity
kW
0.0
0.0
0.0
0.0
0.0
0.0
---
---
---
---
Annual electricity consumption (*2)
kWh/a
744
1086
1339
1371
2271
2272
---
---
---
---
SCOP (*4)
4.7
4.9
4.6
4.8
4.8
4.8
---
---
---
---
Energy efficiency class
A++
A++
A++
A++
A++
A++
---
---
---
---
Operating Current(Max)
A
13.2
13.2
19.2
19.3
20.5
8.5
27.0
9.5
30.7
12.5
Indoor Input [cooling / Heating ]
Rated
kW
0.03 / 0.03 0.03 / 0.03 0.03 / 0.03 0.05 / 0.05 0.07 / 0.07 0.07 / 0.07 0.08 / 0.08 0.08 / 0.08 0.10 / 0.10 0.10 / 0.10
Unit
Operating Current(Max)
A
0.21
0.22
0.22
0.34
0.47
0.47
0.52
0.52
0.66
0.66
Dimensions
H*W*D
mm
258-840-840 <40-950-950>
298-840-840 <40-950-950>
Weight
kg
21 <5>
21 <5>
21 <5>
24 <5>
26 <5>
26 <5>
26 <5>
26 <5>
26 <5>
26 <5>
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min 11-13-15-16 12-14-16-18 12-14-16-18 17-19-21-23 19-22-25-28 19-22-25-28 21-24-26-29 21-24-26-29 24-26-29-32 24-26-29-32
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A) 26-28-29-31 27-29-31-32 27-29-31-32 28-30-33-36 31-34-37-40 31-34-37-40 33-36-39-41 33-36-39-41 36-39-42-44 36-39-42-44
Sound Level (PWL)
dB(A)
51
54
54
57
61
61
62
62
65
65
Outdoor Dimensions
H*W*D
mm 630-809-300 630-809-300 943-950-330(+25) 943-950-330(+25) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40)
Unit
Weight
kg
46
46
67
67
105
111
105
114
105
118
Air Volume
Cooling
m3/min
45
45
55
55
110
110
120
120
120
120
Heating
m3/min
45
45
55
55
110
110
120
120
120
120
Sound Level (SPL)
Cooling
dB(A)
44
44
47
47
49
49
50
50
50
50
Heating
dB(A)
46
46
49
49
51
51
52
52
52
52
Sound Level (PWL)
Cooling
dB(A)
65
65
67
67
69
69
70
70
70
70
Operating Current(Max)
A
13
13
19
19
20
8
26.5
9
30
11.8
Breaker Size
A
16
16
25
25
32
16
32
16
40
16
Ext.Piping Diameter(*5)
Liquid/Gas
mm
6.35 / 12.7 6.35 / 12.7 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
Max.Length
Out-In
m
50
50
55
55
100
100
100
100
100
100
Max.Height
Out-In
m
30
30
30
30
30
30
30
30
30
30
Guaranteed Operating Range(Outdoor) Cooling(*3)
-15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46
Heating
-11 ~ +21 -11 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
PLA-M SERIES STANDARD INVERTER
Optional
Optional 60-140V/200/250
Optional
Optional
Optional Optional
Wi-Fi
Interface
Optional
Optional
Type
Inverter Heat Pump
Indoor Unit
PLA-M35EA2 PLA-M50EA2 PLA-M60EA2 PLA-M71EA2 PLA-M100EA2 PLA-M100EA2 PLA-M125EA2 PLA-M125EA2 PLA-M140EA2 PLA-M140EA2
Outdoor Unit Refrigerant(*1)
SUZ-M35VA SUZ-M50VA SUZ-M60VA SUZ-M71VA PUZ-M100VKA2 PUZ-M100YKA2 PUZ-M125VKA2 PUZ-M125YKA2 PUZ-M140VKA2 PUZ-M140YKA2 R32
Power Supply
Cooling
Source Outdoor(V/Phase/Hz)
Capacity
Rated
Outdoor power supply
VA.VKA:230/Single/50, YKA:400/Three/50
kW
3.6
5.5
6.1
7.1
9.5
9.5
12.1
12.1
13.4
13.4
Min-Max
kW
0.8 - 3.9
1.2 - 5.6
1.6 - 6.3
2.2 - 8.1 4.0 - 10.6 4.0 - 10.6 5.8 - 13.0 5.8 - 13.0 5.8 - 14.1 5.8 - 14.1
Total Input
Rated
kW
0.900
1.617
1.848
1.918
2.714
2.714
4.019
4.019
4.962
4.962
EER Design load Annual electricity consumption (*2) SEER (*4)
Energy efficiency class
kW kWh/a
4.00 3.6 170 7.4 A++
3.40 5.5 285 6.7 A++
3.30 6.1 320 6.6 A++
3.70 7.1 331 7.5 A++
3.50 9.5 475 7.0 A++
3.50 9.5 475 7.0 A++
3.01 ---------
3.01 ---------
2.70 ---------
2.70 ---------
Heating
Capacity
Rated
kW
4.1
6.0
7.0
8.0
11.2
11.2
13.5
13.5
15.0
15.0
Min-Max
kW
1.0 - 5.0
1.5 - 7.2
1.6 - 8.0 2.0 - 10.2 2.8 - 12.5 2.8 - 12.5 4.1 - 15.0 4.1 - 15.0 4.2 - 15.8 4.2 - 15.8
Total Input
Rated
kW
0.976
1.734
1.842
2.216
3.018
3.018
3.638
3.638
4.398
4.398
COP
Design load
Declared Capacity
at reference design temperature
at bivalent temperature
at operation limit temperature
Back up heating capacity
Annual electricity consumption (*2)
SCOP (*4)
Energy efficiency class
kW kW kW kW kW kWh/a
4.20 2.6 2.3 (-10°C) 2.3 (-7°C) 2.3 (-10°C) 0.3 774 4.7 A++
3.46 4.3 3.8 (-10°C) 3.8 (-7°C) 3.8 (-10°C) 0.5 1458 4.1 A+
3.80 4.6 4.1 (-10°C) 4.1 (-7°C) 4.1 (-10°C) 0.5 1459 4.4 A+
3.61 5.8 5.2 (-10°C) 5.2 (-7°C) 5.2 (-10°C) 0.6 1798 4.5 A+
3.71 8.0 6.0 (-10°C) 7.0 (-7°C) 4.5 (-15°C) 2.0 2406 4.6 A++
3.71 8.0 6.0 (-10°C) 7.0 (-7°C) 4.5 (-15°C) 2.0 2406 4.6 A++
3.71 -----------------
3.71 -----------------
3.41 -----------------
3.41 -----------------
Operating Current(Max)
A
8.7
13.7
15.0
15.1
20.5
12
27.2
12.2
30.7
12.2
Indoor Unit
Outdoor Unit
Input [cooling / Heating ]
Rated
Operating Current(Max)
Dimensions
H*W*D
Weight
Air Volume (Lo-Mi2-Mi1-Hi)
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
Sound Level (PWL)
Dimensions
H*W*D
Weight
kW A mm kg m3/min dB(A) dB(A) mm kg
0.03 / 0.03 0.03 / 0.03 0.03 / 0.03 0.04 / 0.04 0.07 / 0.07 0.07 / 0.07 0.10 / 0.10 0.10 / 0.10 0.10 / 0.10
0.20
0.22
0.24
0.27
0.46
0.46
0.66
0.66
0.66
258-840-840 <40-950-950>
298-840-840 <40-950-950>
19 <5>
19 <5>
21 <5>
21 <5>
24 <5>
24 <5>
26 <5>
26 <5>
26 <5>
11-13-15-16 12-14-16-18 12-14-16-18 14-17-19-21 19-23-26-29 19-23-26-29 21-25-28-31 21-25-28-31 24-26-29-32
26-28-29-31 27-29-31-32 27-29-31-32 28-30-32-34 31-34-37-40 31-34-37-40 33-37-41-44 33-37-41-44 36-39-42-44
51
54
54
56
61
61
65
65
65
550-800-285 714-800-285 880-840-330 880-840-330 981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40)
35
41
54
55
76
78
84
85
84
0.10 / 0.10 0.66
26 <5> 24-26-29-32 36-39-42-44
65 981-1050-330(+40)
85
Air Volume
Cooling
m3/min
34.3
45.8
50.1
50.1
79
79
86
86
86
86
Heating
m3/min
32.7
43.7
50.1
50.1
79
79
92
92
92
92
Sound Level (SPL)
Cooling
dB(A)
48
48
49
49
51
51
54
54
55
55
Heating
dB(A)
48
49
51
51
54
54
56
56
57
57
Sound Level (PWL)
Cooling
dB(A)
59
64
65
66
70
70
72
72
73
73
Operating Current(Max)
A
8.5
13.5
14.8
14.8
20
11.5
26.5
11.5
30
11.5
Breaker Size Ext.Piping Diameter(*5)
Liquid/Gas
A
10
20
20
20
32
16
32
16
40
16
mm
6.35 / 9.52 6.35 / 12.7 6.35 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
Max.Length
Out-In
m
20
30
30
30
55
55
65
65
65
65
Max.Height Guaranteed Operating Range(Outdoor)
Out-In Cooling(*3) Heating
m
12
30
30
30
30
30
30
30
30
30
°C
-10 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46
°C
-10 ~ +24 -10 ~ +24 -10 ~ +24 -10 ~ +24 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance
contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period
of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located.
*3 Optional air protection guide is required where ambient temperature is lower than 5°C.
17
*4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
PLA-M SERIES POWER INVERTER
Optional
Optional 60-140V/200/250
Optional
Optional
Optional Optional
Wi-Fi
Interface
Optional
Optional
Type
Inverter Heat Pump
Indoor Unit
PLA-M35EA2 PLA-M50EA2 PLA-M60EA2 PLA-M71EA2 PLA-M100EA2 PLA-M100EA2 PLA-M125EA2 PLA-M125EA2 PLA-M140EA2 PLA-M140EA2
Outdoor Unit
PUZ-ZM35VKA2 PUZ-ZM50VKA2 PUZ-ZM60VHA2 PUZ-ZM71VHA2 PUZ-ZM100VKA2 PUZ-ZM100YKA2 PUZ-ZM125VKA2 PUZ-ZM125YKA2 PUZ-ZM140VKA2 PUZ-ZM140YKA2
Refrigerant(*1)
R32
Power Source Supply Outdoor(V/Phase/Hz)
Outdoor power supply VKA VHA:230/Single/50, YKA:400/Three/50
Capacity
Rated
kW
3.6
5.0
6.1
7.1
9.5
9.5
12.5
12.5
13.4
13.4
Min-Max
kW
1.6 - 4.5
2.3 - 5.6
2.7 - 6.5
3.3 - 8.1 4.9 - 11.4 4.9 - 11.4 5.5 - 14.0 5.5 - 14.0 6.2 - 15.0 6.2 - 15.0
Total Input
Rated
kW
0.751
1.175
1.523
1.716
2.209
2.209
3.396
3.396
3.746
3.746
Cooling
EER Design load
4.79
4.25
4.00
4.14
4.30
4.30
3.68
3.68
3.58
3.58
kW
3.6
5.0
6.1
7.1
9.5
9.5
---
---
---
---
Annual electricity consumption(*2)
kWh/a
172
234
301
336
437
448
---
---
---
---
SEER(*4)
7.3
7.4
7.1
7.4
7.6
7.4
---
---
---
---
Energy efficiency class
A++
A++
A++
A++
A++
A++
---
---
---
---
Capacity
Rated
kW
4.1
6.0
7.0
8.0
11.2
11.2
14.0
14.0
16.0
16.0
Min-Max
kW
1.6 - 5.2
2.5 - 7.3
2.8 - 8.2
3.5 - 10.2 4.5 - 14.0 4.5 - 14.0 5.0 - 16.0 5.0 - 16.0 5.7 - 18.0 5.7 - 18.0
Total Input
Rated
kW
0.890
1.581
1.863
2.014
2.685
2.685
3.773
3.773
4.365
4.365
COP
4.61
3.79
3.76
3.97
4.17
4.17
3.71
3.71
3.67
3.67
Heating
Design load
kW
2.5
3.8
4.4
4.7
7.8
7.8
---
---
---
---
(Average Declared Capacity
at reference design temperature kW
2.5 (-10°C) 3.8 (-10°C) 4.4 (-10°C) 4.7 (-10°C) 7.8 (-10°C) 7.8 (-10°C)
---
---
---
---
Season)
at bivalent temperature
kW
2.5 (-10°C) 3.8 (-10°C) 4.4 (-10°C) 4.7 (-10°C) 7.8 (-10°C) 7.8 (-10°C)
---
---
---
---
at operation limit temperature kW
2.1 (-11°C) 3.7 (-11°C) 2.8 (-20°C) 3.4 (-20°C) 5.8 (-20°C) 5.8 (-20°C)
---
---
---
---
Back up heating capacity
kW
0.0
0.0
0.0
0.0
0.0
0.0
---
---
---
---
Annual electricity consumption(*2)
kWh/a
798
1187
1422
1429
2496
2497
---
---
---
---
SCOP(*4)
4.3
4.4
4.3
4.6
4.3
4.3
---
---
---
---
Energy efficiency class
A+
A+
A+
A++
A+
A+
---
---
---
---
Operating Current(Max)
A
13.2
13.2
19.2
19.3
20.5
8.5
27.2
9.7
30.7
12.5
Input [cooling / Heating ] Rated
kW
0.03 / 0.03 0.03 / 0.03 0.03 / 0.03 0.04 / 0.04 0.07 / 0.07 0.07 / 0.07 0.10 / 0.10 0.10 / 0.10 0.10 / 0.10 0.10 / 0.10
Operating Current(Max)
A
0.20
0.22
0.24
0.27
0.46
0.46
0.66
0.66
0.66
0.66
Dimensions
H*W*D
mm
258-840-840 <40-950-950>
298-840-840 <40-950-950>
Indoor Unit
Weight Air Volume (Lo-Mid-Hi) Sound Level (Lo-Mid-Hi) (SPL)
kg
19 <5>
19 <5>
21 <5>
21 <5>
24 <5>
24 <5>
26 <5>
26 <5>
26 <5>
26 <5>
m3/min 11-13-15-16 12-14-16-18 12-14-16-18 14-17-19-21 19-23-26-29 19-23-26-29 21-25-28-31 21-25-28-31 24-26-29-32 24-26-29-32
dB(A) 26-28-29-31 27-29-31-32 27-29-31-32 28-30-32-34 31-34-37-40 31-34-37-40 33-37-41-44 33-37-41-44 36-39-42-44 36-39-42-44
Sound Level (PWL)
dB(A)
51
54
54
56
61
61
65
65
65
65
Dimensions
H*W*D
mm 630-809-300 630-809-300 943-950-330(+25) 943-950-330(+25) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40)
Weight
kg
46
46
67
67
105
111
105
114
105
118
Air Volume
Cooling
m3/min
45
45
55
55
110
110
120
120
120
120
Heating
m3/min
45
45
55
55
110
110
120
120
120
120
Outdoor Sound Level (SPL)
Cooling
dB(A)
44
44
47
47
49
49
50
50
50
50
Unit
Heating
dB(A)
46
46
49
49
51
51
52
52
52
52
Sound Level (PWL)
Cooling
dB(A)
65
65
67
67
69
69
70
70
70
70
Operating Current(Max)
A
13
13
19
19
20
8
26.5
9
30
11.8
Breaker Size
A
16
16
25
25
32
16
32
16
40
16
Diameter(*5)
Liquid/Gas
mm
6.35 / 12.7 6.35 / 12.7 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
Ext.Piping Max.Length
Out-In
m
50
50
55
55
100
100
100
100
100
100
Max.Height
Out-In
m
30
30
30
30
30
30
30
30
30
30
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
-15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46
Heating
°C
-11 ~ +21 -11 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
18
Power Inverter Series
Indoor Unit
SERIES SELECTION
35-71
100-250
35-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Scroll
DC Fan Motor
Vector-Wave
Grooved Piping
35-71
Heat Caulking Fixing Method
PLA-ZM35/50/60/71/100/125/140EA2
Panel
Panel PLP-6EA
With Signal Receiver
With 3D i-see Sensor
With Wireless Remote Controller
With Auto Elevation
PLP-6EAL
PLP-6EAE
PLP-6EALE
PLP-6EAJ
PLP-6EAJE
PLP-6EALM2
PLP-6EALME2
Remote Controller
For Single
PUHZ-ZRP35/50
PUHZ-ZRP60/71
PUHZ-ZRP100/125/140
For Multi (Twin / Triple / Quadruple)
PUHZ-ZRP71 PUHZ-ZRP100/125/140/200/250 8
Optional
Optional
Optional
8 Enclosed in PLP-6EALM2/PLP-6EALME2
PLA-ZM EA2 Indoor Unit Combinations Indoor unit combinations shown below are possible.
Indoor Unit Combination
For Single
Outdoor Unit Capacity For Twin
For Triple For Quadruple
Power Inverter (PUHZ-ZRP) Distribution Pipe
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
35x1 50x1 60x1 71x1 100x1 125x1 140x1
35x2 50x2 60x2 71x2 100x2 125x2 50x3 60x3 71x3 50x4 60x4
MSDD-50TR-E
MSDD50WR-E
MSDT-111R-E
MSDF1111R-E
Standard Inverter Series
Indoor Unit
SERIES SELECTION
35-71
100-250
71-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Rotary
200/250
100-250
DC Scroll
DC Fan Motor
Vector-Wave
35-140
Grooved Piping
25-71
Heat Caulking Fixing Method
PLA-M35/50/60/71/100/125/140EA2
Panel
Panel
PLP-6EA PLP-6EAL PLP-6EAE PLP-6EALE PLP-6EAJ PLP-6EAJE PLP-6EALM2 PLP-6EALME2
With Signal Receiver
With 3D i-see Sensor
With Wireless Remote Controller
With Auto Elevation
Remote Controller
For Single
SUZ-KA35
SUZ-KA50/60/71
PUHZ-P100/125/140
For Multi (Twin / Triple / Quadruple)
PUHZ-P100/125/140 8
PUHZ-P200/250
Optional
Optional
Optional
8 Enclosed in PLP-6EALM2/PLP-6EALME2
PLA-M EA2 Indoor Unit Combinations Indoor unit combinations shown below are possible.
Indoor Unit Combination
For Single
Outdoor Unit Capacity For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
Standard Inverter (SUZ & PUHZ-P) 35x1 50x1 60x1 71x1 100x1 125x1 140x1 50x2 60x2 71x2 100x2 125x2 50x3 60x3 71x3 50x4 60x4
Distribution Pipe
MSDD-50TR-E MSDD-50WR-E MSDT-111R-E MSDF-1111R-E
19
PLA-ZM SERIES POWER INVERTER
Optional
Optional 60-140V/200/250
Optional
Optional
Optional Optional
Wi-Fi
Interface
Optional
Optional
Type
Inverter Heat Pump
Indoor Unit
PLA-ZM35EA2 PLA-ZM50EA2 PLA-ZM60EA2 PLA-ZM71EA2 PLA-ZM100EA2 PLA-ZM100EA2 PLA-ZM125EA2 PLA-ZM125EA2 PLA-ZM140EA2 PLA-ZM140EA2
Outdoor Unit
PUHZ-ZRP35VKA2 PUHZ-ZRP50VKA2 PUHZ-ZRP60VHA2 PUHZ-ZRP71VHA2 PUHZ-ZRP100VKA3 PUHZ-ZRP100YKA3 PUHZ-ZRP125VKA3 PUHZ-ZRP125YKA3 PUHZ-ZRP140VKA3 PUHZ-ZRP140YKA3
Refrigerant(*1)
R410A
Power Source Supply Outdoor(V/Phase/Hz)
Outdoor power supply VKA.VHA:230/Single/50, YKA:400/Three/50
Cooling Capacity
Rated Min-Max
kW
3.6
5.0
6.1
7.1
9.5
9.5
12.5
12.5
13.4
13.4
kW
1.6 - 4.5
2.3 - 5.6
2.7 - 6.5
3.3 - 8.1
4.9 - 11.4 4.9 - 11.4 5.5 - 14.0 5.5 - 14.0 6.2 - 15.0 6.2 - 15.0
Total Input
Rated
kW
0.782
1.330
1.660
1.790
2.200
2.200
3.846
3.846
4.364
4.364
EER
4.60
3.75
3.66
3.95
4.32
4.32
3.25
3.25
3.07
3.07
Design load
kW
3.6
5.0
6.1
7.1
9.5
9.5
---
---
---
---
Annual electricity consumption (*2)
kWh/a
170
253
318
335
461
472
---
---
---
---
SEER(*4)
7.4
6.9
6.7
7.4
7.2
7.0
---
---
---
---
Energy efficiency class
A++
A++
A++
A++
A++
A++
---
---
---
---
Heating Capacity
Rated
kW
4.1
6.0
7.0
8.0
11.2
11.2
14.0
14.0
16.0
16.0
Min-Max
kW
1.6 - 5.2
2.5 - 7.3
2.8 - 8.2
3.5 - 10.2 4.5 - 14.0 4.5 - 14.0 5.0 - 16.0 5.0 - 16.0 5.7 - 18.0 5.7 - 18.0
Total Input COP
Rated
kW
0.850
1.550
1.890
1.900
2.600
2.600
3.674
3.674
4.848
4.848
4.82
3.85
3.70
4.20
4.31
4.31
3.81
3.81
3.30
3.30
Design load
kW
2.5
3.8
4.4
4.7
7.8
7.8
---
---
---
---
Declared Capacity
at reference design temperature kW
2.5 (-10°C) 3.8 (-10°C) 4.4 (-10°C) 4.7 (-10°C) 7.8 (-10°C) 7.8 (-10°C)
---
---
---
---
at bivalent temperature
kW
2.5 (-10°C) 3.8 (-10°C) 4.4 (-10°C) 4.7 (-10°C) 7.8 (-10°C) 7.8 (-10°C)
---
---
---
---
at operation limit temperature kW
2.1 (-11°C) 3.7 (-11°C) 2.8 (-20°C) 3.5 (-20°C) 5.8 (-20°C) 5.8 (-20°C)
---
---
---
---
Back up heating capacity Annual electricity consumption (*2)
kW
0.0
0.0
0.0
0.0
0.0
0.0
---
---
---
---
kWh/a
713
1108
1335
1337
2223
2224
---
---
---
---
SCOP(*4)
Energy efficiency class
4.9
4.8
4.6
4.9
4.9
4.9
---
---
---
---
A++
A++
A++
A++
A++
A++
---
---
---
---
Operating Current(Max)
A
13.2
13.2
19.2
19.3
27.0
8.5
27.0
10.0
28.7
13.7
Indoor Unit
Input [cooling / Heating ] Operating Current(Max) Dimensions
Rated H*W*D
kW
0.03 / 0.03 0.03 / 0.03 0.03 / 0.03 0.05 / 0.05 0.07 / 0.07 0.07 / 0.07 0.08 / 0.08 0.08 / 0.08 0.10 / 0.10 0.10 / 0.10
A
0.21
0.22
0.22
0.34
0.47
0.47
0.52
0.52
0.66
0.66
mm
258-840-840 <40-950-950>
298-840-840 <40-950-950>
Outdoor
Weight
Air Volume (Lo-Mi2-Mi1-Hi)
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
Sound Level (PWL)
Dimensions
H*W*D
kg
21 <5>
m3/min 11-13-15-16
dB(A) 26-28-29-31
dB(A)
51
mm 630-809-300
21 <5> 12-14-16-18 27-29-31-32
54 630-809-300
21 <5>
24 <5>
26 <5>
26 <5>
26 <5>
26 <5>
26 <5>
26 <5>
12-14-16-18 17-19-21-23 19-22-25-28 19-22-25-28 21-24-26-29 21-24-26-29 24-26-29-32 24-26-29-32
27-29-31-32 28-30-33-36 31-34-37-40 31-34-37-40 33-36-39-41 33-36-39-41 36-39-42-44 36-39-42-44
54
57
61
61
62
62
65
65
943-950-330(+30) 943-950-330(+30) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40)
Unit
Weight
kg
43
46
70
70
116
123
116
125
118
131
Air Volume
Cooling
m3/min
45
45
55
55
110
110
120
120
120
120
Heating
m3/min
45
45
55
55
110
110
120
120
120
120
Sound Level (SPL)
Cooling
dB(A)
44
44
47
47
49
49
50
50
50
50
Heating
dB(A)
46
46
48
48
51
51
52
52
52
52
Sound Level (PWL) Operating Current(Max) Breaker Size Ext.Piping Diameter(*5) Max.Length Max.Height Guaranteed Operating Range(Outdoor)
Cooling
Liquid/Gas Out-In Out-In Cooling(*3) Heating
dB(A) A A mm m m °C °C
65 13 16 6.35 / 12.7 50 30 -15 ~ +46 -11 ~ +21
65 13 16 6.35 / 12.7 50 30 -15 ~ +46 -11 ~ +21
67 19 25 9.52 / 15.88 50 30 -15 ~ +46 -20 ~ +21
67 19 25 9.52 / 15.88 50 30 -15 ~ +46 -20 ~ +21
69 26.5 32 9.52 / 15.88 75 30 -15 ~ +46 -20 ~ +21
69 8 16 9.52 / 15.88 75 30 -15 ~ +46 -20 ~ +21
70 26.5 32 9.52 / 15.88 75 30 -15 ~ +46 -20 ~ +21
70 9.5 16 9.52 / 15.88 75 30 -15 ~ +46 -20 ~ +21
70 28 40 9.52 / 15.88 75 30 -15 ~ +46 -20 ~ +21
70 13 16 9.52 / 15.88 75 30 -15 ~ +46 -20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R410A is 2088 in the IPCC 4th Assessment Report. *2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
PUHZ
SPPLALZ--MPSSERERIEISES STANDARD INVERTER
Optional PUHZ
Optional PUHZ
Optional
Optional
PUHZ
SUZ Optional
Optional Optional
PUHZ
Wi-Fi
Interface
Optional
PUHZ Optional
PUHZ
Type
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Supply
Source Outdoor(V/Phase/Hz)
Cooling
Capacity
Rated
Min-Max
Total Input
Rated
EER
Design load
Annual electricity consumption (*2)
SEER(*4)
Energy efficiency class
Heating
Capacity
Rated
Min-Max
Total Input
Rated
COP
Design load
Declared Capacity
at reference design temperature
at bivalent temperature
at operation limit temperature
Back up heating capacity
Annual electricity consumption (*2)
SCOP(*4)
Energy efficiency class
Operating Current(Max)
Indoor
Input [cooling / Heating ]
Rated
Unit
Operating Current(Max)
Dimensions
H*W*D
Weight
Air Volume (Lo-Mi2-Mi1-Hi)
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
Sound Level (PWL)
Outdoor Dimensions
H*W*D
Unit
Weight
Air Volume
Cooling
Heating
Sound Level (SPL)
Cooling
Heating
Sound Level (PWL)
Cooling
Operating Current(Max)
Breaker Size
Ext.Piping Diameter(*5)
Liquid/Gas
Max.Length
Out-In
Max.Height
Out-In
Guaranteed Operating Range(Outdoor)
Cooling(*3)
Heating
Inverter Heat Pump
PLA-M35EA2 PLA-M50EA2 PLA-M60EA2 PLA-M71EA2 PLA-M100EA2 PLA-M100EA2 PLA-M125EA2 PLA-M125EA2 PLA-M140EA2 PLA-M140EA2
SUZ-KA35VA6 SUZ-KA50VA6 SUZ-KA60VA6 SUZ-KA71VA6 PUHZ-P100VKA PUHZ-P100YKA PUHZ-P125VKA PUHZ-P125YKA PUHZ-P140VKA PUHZ-P140YKA
R410A
Outdoor power supply VA.VKA:230/Single/50, YKA:400/Three/50
kW
3.6
5.5
5.7
7.1
9.4
9.4
12.1
12.1
13.6
13.6
kW
1.4 - 3.9 2.3 - 5.6 2.3 - 6.3 2.8 - 8.1 3.7 - 10.6 3.7 - 10.6 5.6 - 13.0 5.6 - 13.0 5.8 - 14.1 5.8 - 14.1
kW
1.020
1.610
1.760
2.100
3.186
3.186
4.101
4.101
5.418
5.418
3.53
3.42
3.24
3.38
2.95
2.95
2.95
2.95
2.51
2.51
kW
3.6
5.5
5.7
7.1
9.4
9.4
---
---
---
---
kWh/a
181
296
306
400
537
537
---
---
---
---
6.9
6.5
6.5
6.2
6.1
6.1
---
---
---
---
A++
A++
A++
A++
A++
A++
---
---
---
---
kW
4.1
5.8
6.9
8.0
11.2
11.2
13.5
13.5
15.0
15.0
kW
1.7 - 5.0 1.7 - 7.2 2.5 - 8.0 2.6 - 10.2 2.8 - 12.5 2.8 - 12.5 4.8 - 15.0 4.8 - 15.0 4.9 - 15.8 4.9 - 15.8
kW
1.000
1.690
1.970
2.247
3.265
3.265
3.846
3.846
4.672
4.672
4.10
3.43
3.50
3.56
3.43
3.43
3.51
3.51
3.21
3.21
kW
2.6
4.3
4.6
5.8
8.0
8.0
---
---
---
---
kW
2.3 (-10°C) 3.8 (-10°C) 4.0 (-10°C) 4.7 (-10°C) 6.0 (-10°C) 6.0 (-10°C)
---
---
---
---
kW
2.3 (-7°C) 3.8 (-7°C) 4.1 (-7°C) 5.1 (-7°C) 7.0 (-7°C) 7.0 (-7°C)
---
---
---
---
kW
2.3 (-10°C) 3.8 (-10°C) 4.0 (-10°C) 4.7 (-10°C) 4.5 (-15°C) 4.5 (-15°C)
---
---
---
---
kW
0.3
0.5
0.6
1.1
2.0
2.0
---
---
---
---
kWh/a
826
1499
1493
1888
2433
2433
---
---
---
---
4.4
4.0
4.3
4.3
4.6
4.6
---
---
---
---
A+
A+
A+
A+
A++
A++
---
---
---
---
A
8.4
12.2
14.2
16.4
20.5
12.0
27.2
12.2
30.7
12.2
kW
0.03 / 0.03 0.03 / 0.03 0.03 / 0.03 0.04 / 0.04 0.07 / 0.07 0.07 / 0.07 0.10 / 0.10 0.10 / 0.10 0.10 / 0.10 0.10 / 0.10
A
0.20
0.22
0.24
0.27
0.46
0.46
0.66
0.66
0.66
0.66
mm
258-840-840 <40-950-950>
298-840-840 <40-950-950>
kg
19 <5>
19 <5>
21 <5>
21 <5>
24 <5>
24 <5>
26 <5>
26 <5>
26 <5>
26 <5>
m3/min 11-13-15-16 12-14-16-18 12-14-16-18 14-17-19-21 19-23-26-29 19-23-26-29 21-25-28-31 21-25-28-31 24-26-29-32 24-26-29-32
dB(A) 26-28-29-31 27-29-31-32 27-29-31-32 28-30-32-34 31-34-37-40 31-34-37-40 33-37-41-44 33-37-41-44 36-39-42-44 36-39-42-44
dB(A)
51
54
54
56
61
61
65
65
65
65
mm 550-800-285 880-840-330 880-840-330 880-840-330 981-1050-330 981-1050-330 981-1050-330 981-1050-330 981-1050-330 981-1050-330
kg
35
54
50
53
76
78
84
85
84
85
m3/min
36.3
44.6
40.9
50.1
79
79
86
86
86
86
m3/min
34.8
44.6
49.2
48.2
79
79
92
92
92
92
dB(A)
49
52
55
55
51
51
54
54
56
56
dB(A)
50
52
55
55
54
54
56
56
57
57
dB(A)
62
65
65
69
70
70
72
72
75
75
A
8.2
12
14
16.1
20
11.5
26.5
11.5
30
11.5
A
10
20
20
20
32
16
32
16
40
16
mm
6.35 / 9.52 6.35 / 12.7 6.35 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
m
20
30
30
30
50
50
50
50
50
50
m
12
30
30
30
30
30
30
30
30
30
°C
-10 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46
°C
-10 ~ +24 -10 ~ +24 -10 ~ +24 -10 ~ +24 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance
contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period
of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R410A is 2088 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located.
*3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
20
PLA-M SERIES POWER INVERTER
Optional
Optional 60-140V/200/250
Optional
Optional
Optional Optional
Wi-Fi
Interface
Optional
Optional
Type
Inverter Heat Pump
Indoor Unit
PLA-M35EA2 PLA-M50EA2 PLA-M60EA2 PLA-M71EA2 PLA-M100EA2 PLA-M100EA2 PLA-M125EA2 PLA-M125EA2 PLA-M140EA2 PLA-M140EA2
Outdoor Unit
PUHZ-ZRP35VKA2 PUHZ-ZRP50VKA2 PUHZ-ZRP60VHA2 PUHZ-ZRP71VHA2 PUHZ-ZRP100VKA3 PUHZ-ZRP100YKA3 PUHZ-ZRP125VKA3 PUHZ-ZRP125YKA3 PUHZ-ZRP140VKA3 PUHZ-ZRP140YKA3
Refrigerant(*1)
R410A
Power Source Supply Outdoor(V/Phase/Hz)
Outdoor power supply VKA.VHA:230/Single/50, YKA:400/Three/50
Capacity
Rated
kW
3.6
5.0
6.1
7.1
9.5
9.5
12.5
12.5
13.4
13.4
Min-Max
kW
1.6 - 4.5
2.3 - 5.6
2.7 - 6.5
3.3 - 8.1 4.9 - 11.4 4.9 - 11.4 5.5 - 14.0 5.5 - 14.0 6.2 - 15.0 6.2 - 15.0
Total Input
Rated
kW
0.833
1.416
1.747
1.868
2.230
2.230
3.869
3.869
4.393
4.393
Cooling
EER Design load
4.32
3.53
3.49
3.80
4.26
4.26
3.23
3.23
3.05
3.05
kW
3.6
5.0
6.1
7.1
9.5
9.5
---
---
---
---
Annual electricity consumption(*2)
kWh/a
174
258
321
341
465
475
---
---
---
---
SEER
7.2
6.7
6.6
7.2
7.1
6.9
---
---
---
---
Energy efficiency class
A++
A++
A++
A++
A++
A++
---
---
---
---
Capacity
Rated
kW
4.1
6.0
7.0
8.0
11.2
11.2
14.0
14.0
16.0
16.0
Min-Max
kW
1.6 - 5.8
2.5 - 7.3
2.8 - 8.2
3.5 - 10.2 4.5 - 14.0 4.5 - 14.0 5.0 - 16.0 5.0 - 16.0 5.7 - 18.0 5.7 - 18.0
Total Input
Rated
kW
0.920
1.810
2.070
2.110
2.690
2.690
3.773
3.773
4.907
4.907
COP
4.46
3.31
3.38
3.79
4.16
4.16
3.71
3.71
3.26
3.26
Heating (Average
Design load Declared Capacity
kW
2.5
3.8
4.4
4.7
7.8
7.8
---
at reference design temperature kW
2.5 (-10°C) 3.8 (-10°C) 4.4 (-10°C) 4.7 (-10°C) 7.8 (-10°C) 7.8 (-10°C)
---
-----
-----
-----
Season)
at bivalent temperature
kW
2.5 (-10°C) 3.8 (-10°C) 4.4 (-10°C) 4.7 (-10°C) 7.8 (-10°C) 7.8 (-10°C)
---
---
---
---
at operation limit temperature kW
2.1 (-11°C) 3.7 (-11°C) 2.8 (-20°C) 3.5 (-20°C) 5.8 (-20°C) 5.8 (-20°C)
---
---
---
---
Back up heating capacity
kW
0.0
0.0
0.0
0.0
0.0
0.0
---
---
---
---
Annual electricity consumption(*2)
kWh/a
766
1215
1421
1405
2471
2472
---
---
---
---
SCOP
4.5
4.3
4.3
4.6
4.4
4.4
---
---
---
---
Energy efficiency class
A+
A+
A+
A++
A+
A+
---
---
---
---
Operating Current(Max)
A
13.2
13.2
19.2
19.3
27.0
8.5
27.2
10.2
28.7
13.7
Input [cooling / Heating ] Rated
kW
0.03 / 0.03 0.03 / 0.03 0.03 / 0.03 0.04 / 0.04 0.07 / 0.07 0.07 / 0.07 0.10 / 0.10 0.10 / 0.10 0.10 / 0.10 0.10 / 0.10
Operating Current(Max)
A
0.20
0.22
0.24
0.27
0.46
0.46
0.66
0.66
0.66
0.66
Dimensions
H*W*D
mm
258-840-840 <40-950-950>
298-840-840 <40-950-950>
Indoor Unit
Weight Air Volume (Lo-Mid-Hi) External Static Pressure
kg
19 <5>
19 <5>
21 <5>
21 <5>
24 <5>
24 <5>
26 <5>
26 <5>
26 <5>
26 <5>
m3/min 11-13-15-16 12-14-16-18 12-14-16-18 14-17-19-21 19-23-26-29 19-23-26-29 21-25-28-31 21-25-28-31 24-26-29-32 24-26-29-32
Pa
0
0
0
0
0
0
0
0
0
0
Sound Level (Lo-Mid-Hi) (SPL)
dB(A) 26-28-29-31 27-29-31-32 27-29-31-32 28-30-32-34 31-34-37-40 31-34-37-40 33-37-41-44 33-37-41-44 36-39-42-44 36-39-42-44
Sound Level (PWL)
dB(A)
51
54
54
56
61
61
65
65
65
65
Dimensions
H*W*D
mm 630-809-300 630-809-300 943-950-330(+30) 943-950-330(+30) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40)
Weight
kg
43
46
70
70
116
123
116
125
118
131
Air Volume
Cooling
m3/min
45
45
55
55
110
110
120
120
120
120
Heating
m3/min
45
45
55
55
110
110
120
120
120
120
Outdoor Sound Level (SPL)
Cooling
dB(A)
44
44
47
47
49
49
50
50
50
50
Unit
Heating
dB(A)
46
46
48
48
51
51
52
52
52
52
Sound Level (PWL)
Cooling
dB(A)
65
65
67
67
69
69
70
70
70
70
Operating Current(Max)
A
13
13
19
19
26.5
8
26.5
9.5
28
13
Breaker Size
A
16
16
25
25
32
16
32
16
40
16
Diameter(*5)
Liquid/Gas
mm
6.35 / 12.7 6.35 / 12.7 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
Ext.Piping Max.Length
Out-In
m
50
50
50
50
75
75
75
75
75
75
Max.Height
Out-In
m
30
30
30
30
30
30
30
30
30
30
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
-15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46
Heating
°C
-11 ~ +21 -11 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R410A is 2088 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
PEAD SERIES
PEAD-M35/50/60/71/100/125/140JA2
Energy efficiency has been improved. A reduced electricity consumption contributes to a further reduction in operating cost. The thin body with a wide-ranged external static pressure of this series is the perfect answer for the air conditioning needs of buildings with minimum ceiling installation space.
ErP Lot-10 compliant, Achieving High Energy Efficiency
SEER SCOP
A++ A+
The shape of fan wing and casing is improved to provide more smooth air flow, increasing the operation efficiency. All models under 12kW(M35~M100) are complied with ErP Lot 10 and energy rankings of A++ for cooling and A+ for heating. This contributes to a reduction in the cost of annual electricity.
SEER 6.3
SCOP 4.1
SEER 6.4
SCOP 4.4
SEER 6.2
SCOP 4.2
SEER 6.3
SCOP 4.3
SEER 6.6
SCOP 4.4
SEER 6.5
SCOP 4.4
Cooling
Heating
SEER Rank A++ (6.1)
SCOP Rank A+ (4.0)
PEAD-M35JA(L)2 PUZ-ZM35VKA2
PEAD-M50JA(L)2 PUZ-ZM50VKA2
PEAD-M60JA(L)2 PUZ-ZM60VHA2
PEAD-M71JA(L)2 PUZ-ZM71VHA2
PEAD-M100JA(L)2 PUZ-ZM100VKA2
PEAD-M100JA(L)2 PUZ-ZM100YKA2
Compact Indoor Units
The height of the models from 35-140 has been unified to 250 mm, which makes installation in low ceiling with minimal clearance space possible.
Selectable Static Pressure Levels
External static pressure conversion can be set up to five levels. Capable of being set to a maximum of 150 Pa, units are applicable to a wide range of building types.
Drain Pump is Optionally Selectable
The line-up consists of two types: models with or without a built-in drain pump, thus allowing more freedom in piping design.
PEAD-M JA2 Built-in drain pump PEAD-M JAL2 No drain pump
Less than 300mm
Drain pump ensures up to 700mm of lift.
Connectable to
The optional Plasma Quad Connect MAC-100FT-E can be installed on the indoor unit's air inlet side. For installation, PQ attachment or PQ box is required.
21
22
Power Inverter Series
Indoor Unit
SERIES SELECTION
35-71
100-250
71-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Rotary
200/250
100-250
DC Scroll
DC Fan Motor
Vector-Wave
35-140
Grooved Piping
35-71
Heat Caulking Fixing Method
For Single
PUZ-ZM35/50
PUZ-ZM60/71 PUZ-ZM100/125/140
PEAD-M35/50/60/71/100/125/140JA(L)2
For Multi (Twin / Triple/Quadruple)
Remote Controller
PUZ-ZM71 PUZ-ZM100/125/140/200/250
Optional
Optional
Optional
Optional8
Optional8
PEAD-M JA(L)2 Indoor Unit Combinations Indoor unit combinations shown below are possible.
8 PAR-SC9CA-E is also required.
Indoor Unit Combination
Power Inverter (PUZ-ZM) Distribution Pipe
Outdoor Unit Capacity
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
35x1 50x1 60x1 71x1 100x1 125x1 140x1
35x2 50x2 60x2 71x2 100x2 125x2 50x3 60x3 71x3 50x4 60x4
MSDD-50TR2-E
MSDD50WR2-E
MSDT-111R3-E
MSDF1111R2-E
Standard Inverter Series
Indoor Unit
SERIES SELECTION
35-71
100-250
71-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Rotary
200/250
100-250
DC Scroll
DC Fan Motor
Vector-Wave
35-140
Grooved Piping
35-71
Heat Caulking Fixing Method
For Single
SUZ-M35
SUZ-M50
SUZ-M60/71 PUZ-M100/125/140
PEAD-M35/50/60/71/100/125/140JA(L)2
For Multi (Twin / Triple/Quadruple)
Remote Controller
PUZ-M100/125/140 PUZ-M200/250
Optional
Optional
Optional
Optional8
Optional8
PEAD-M JA(L)2 Indoor Unit Combinations Indoor unit combinations shown below are possible.
8 PAR-SC9CA-E is also required.
Outdoor Unit Capacity
Indoor Unit Combination
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
Standard Inverter (PUZ-M& SUZ) 35x1 50x1 60x1 71x1 100x1 125x1 140x1 50x2 60x2 71x2 100x2 125x2 50x3 60x3 71x3 50x4 60x4
Distribution Pipe
MSDD-50TR2-E
MSDD50WR2-E
MSDT-111R3-E
MSDF1111R2-E
23
PEAD-M SERIES POWER INVERTER
Optional Optional
JAQ
60-140V/200/250
PUHZ
Optional
Optional
Optional
Wi-Fi
Interface
Optional
Type
Inverter Heat Pump
Indoor Unit
PEAD-M35JA(L)2 PEAD-M50JA(L)2 PEAD-M60JA(L)2 PEAD-M71JA(L)2 PEAD-M100JA(L)2 PEAD-M100JA(L)2 PEAD-M125JA(L)2 PEAD-M125JA(L)2 PEAD-M140JA(L)2 PEAD-M140JA(L)2
Outdoor Unit
PUZ-ZM35VKA2 PUZ-ZM50VKA2 PUZ-ZM60VHA2 PUZ-ZM71VHA2 PUZ-ZM100VKA2 PUZ-ZM100YKA2 PUZ-ZM125VKA2 PUZ-ZM125YKA2 PUZ-ZM140VKA2 PUZ-ZM140YKA2
Refrigerant(*1)
R32
Power Source Supply Outdoor(V/Phase/Hz)
Outdoor power supply VKA.VHA:230/Single/50, YKA:400/Three/50
Cooling Capacity
Rated
kW
3.6
5.0
6.1
7.1
9.5
9.5
12.5
12.5
13.4
13.4
Min-Max
kW
1.6 - 4.5
2.3 - 5.6
2.7 - 6.7
3.3 - 8.1
4.9 - 11.4 4.9 - 11.4 5.5 - 14.0 5.5 - 14.0 6.2 - 15.3 6.2 - 15.3
Total Input
Rated
kW
0.837
1.190
1.487
1.775
2.261
2.261
3.333
3.333
3.701
3.701
EER(*4)
4.30
4.20
4.10
4.00
4.20
4.20
3.75
3.75
3.62
3.62
Design load
kW
3.6
5.0
6.1
7.1
9.5
9.5
---
---
---
---
Annual electricity consumption (*2)
kWh/a
199
273
342
393
499
510
---
---
---
---
SEER(*4)(*5)
6.3
6.4
6.2
6.3
6.6
6.5
---
---
---
---
Energy efficiency class
A++
A++
A++
A++
A++
A++
---
---
---
---
Heating Capacity
Rated
kW
4.1
6.0
7.0
8.0
11.2
11.2
14.0
14.0
16.0
16.0
Min-Max
kW
1.6 - 5.2
2.5 - 7.3
2.8 - 8.2
3.5 - 10.2 4.5 - 14.0 4.5 - 14.0 5.0 - 16.0 5.0 - 16.0 5.7 - 18.0 5.7 - 18.0
Total Input
Rated
kW
0.911
1.363
1.590
1.904
2.545
2.545
3.763
3.763
4.102
4.102
COP(*4)
4.50
4.40
4.40
4.20
4.40
4.40
3.72
3.72
3.90
3.90
Design load
kW
2.4
3.8
4.4
4.9
7.8
7.8
---
---
---
---
Declared Capacity
at reference design temperature kW
2.4 (-10°C) 3.8 (-10°C) 4.4 (-10°C) 4.9 (-10°C) 7.8 (-10°C) 7.8 (-10°C)
---
---
---
---
at bivalent temperature
kW
2.4 (-10°C) 3.8 (-10°C) 4.4 (-10°C) 4.9 (-10°C) 7.8 (-10°C) 7.8 (-10°C)
---
---
---
---
at operation limit temperature kW
2.2 (-11°C) 3.7 (-11°C) 2.8 (-20°C) 3.4 (-20°C) 5.8 (-20°C) 5.8 (-20°C)
---
---
---
---
Back up heating capacity
kW
0.0
0.0
0.0
0.0
0.0
0.0
---
---
---
---
Annual electricity consumption(*2)
kWh/a
816
1202
1459
1585
2469
2470
---
---
---
---
SCOP(*4)(*5)
4.1
4.4
4.2
4.3
4.4
4.4
---
---
---
---
Energy efficiency class
A+
A+
A+
A+
A+
A+
---
---
---
---
Operating Current(Max)
A
14.2
14.4
20.9
20.9
22.3
10.3
28.8
11.3
32.6
14.4
Indoor Input [cooling / Heating ] Rated
kW
0.05
0.07
0.08
0.09
0.14
0.14
0.20
0.20
0.21
0.21
Unit
Operating Current(Max)
A
1.16
1.35
1.85
1.9
2.25
2.25
2.34
2.34
2.63
2.63
Dimensions
H*W*D
mm 250×900×732 250×900×732 250×1100×732 250×1100×732 250×1400×732 250×1400×732 250×1400×732 250×1400×732 250×1600×732 250×1600×732
Weight
kg
25(24.5) 26.5(25.5) 29.5(29)
29.5(29)
37(36)
37(36)
38(37)
38(37)
42(41)
42(41)
Air Volume (Lo-Mid-Hi)
m3/min 10.0-12.0-14.0 12.0-14.5-17.0 14.5-18.0-21.0 14.5-18.0-23.0 23.0-28.0-32.0 23.0-28.0-32.0 28.0-34.0-37.0 28.0-34.0-37.0 29.5-35.5-40.0 29.5-35.5-40.0
External Static Pressure(*7)
Pa
35-<50>-<70>-<100>-<150>
40-<50>-<70>-<100>-<150>
<40>-50-<70>-<100>-<150>
Sound Level (Lo-Mid-Hi) (SPL)
dB(A) 24-29-32
27-33-35
26-32-35
26-32-37
31-36-39
31-36-39
35-39-41
35-39-41
34-38-41
34-38-41
Sound Level (PWL)
dB(A)
54
58
56
58
62
62
66
66
66
66
Outdoor Dimensions
H*W*D
mm 630-809-300 630-809-300 943-950-330(+25) 943-950-330(+25) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40)
Unit
Weight
kg
46
46
67
67
105
111
105
114
105
118
Air Volume
Cooling
m3/min
45
45
55
55
110
110
120
120
120
120
Heating
m3/min
45
45
55
55
110
110
120
120
120
120
Sound Level (SPL)
Cooling
dB(A)
44
44
47
47
49
49
50
50
50
50
Heating
dB(A)
46
46
49
49
51
51
52
52
52
52
Sound Level (PWL)
Cooling
dB(A)
65
65
67
67
69
69
70
70
70
70
Operating Current(Max)
A
13
13
19
19
20
8
26.5
9
30
11.8
Breaker Size
A
16
16
25
25
32
16
32
16
40
16
Ext.Piping Diameter(*6)
Liquid/Gas
mm
6.35 / 12.7 6.35 / 12.7 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
Max.Length
Out-In
m
50
50
55
55
100
100
100
100
100
100
Max.Height
Out-In
m
30
30
30
30
30
30
30
30
30
30
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
-15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46
Heating
°C
-11 ~ +21 -11 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 EER/COP and SEER/SCOP for M35-71 are measured at ESP 35Pa, for M100 at ESP 37Pa, for M125/140 at ESP 50Pa. *5 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *6 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units. *7 The factory setting of ESP is shown without < >.
PEAD-M SERIES STANDARD INVERTER
Optional Optional
JAQ
60-140V/200/250
PUHZ
Optional
Optional
Optional
Wi-Fi
Interface
Optional
Type
Inverter Heat Pump
Indoor Unit
PEAD-M35JA(L)2 PEAD-M50JA(L)2 PEAD-M60JA(L)2 PEAD-M71JA(L)2 PEAD-M100JA(L)2 PEAD-M100JA(L)2 PEAD-M125JA(L)2 PEAD-M125JA(L)2 PEAD-M140JA(L)2 PEAD-M140JA(L)2
Outdoor Unit
SUZ-M35VA SUZ-M50VA SUZ-M60VA SUZ-M71VA PUZ-M100VKA2 PUZ-M100YKA2 PUZ-M125VKA2 PUZ-M125YKA2 PUZ-M140VKA2 PUZ-M140YKA2
Refrigerant(*1)
R32
Power Source Supply Outdoor(V/Phase/Hz)
Outdoor power supply VA.VKA:230/Single/50, YKA:400/Three/50
Cooling Capacity
Rated
kW
3.6
5.0
6.1
7.1
9.5
9.5
12.1
12.1
13.4
13.4
Min-Max
kW
0.8 - 3.9
1.7 - 5.6
1.6 - 6.3
2.2 - 8.1
4.0 - 10.6 4.0 - 10.6 6.0 - 13.0 6.0 - 13.0 6.1 - 14.1 6.1 - 14.1
Total Input
Rated
kW
0.923
1.351
1.694
2.028
2.878
2.878
4.019
4.019
4.768
4.768
EER(*4)
3.90
3.70
3.60
3.50
3.30
3.30
3.01
3.01
2.81
2.81
Design load
kW
3.6
5.0
6.1
7.1
9.5
9.5
---
---
---
---
Annual electricity consumption (*2)
kWh/a
199
277
345
397
538
538
---
---
---
---
SEER(*4)(*5)
6.3
6.3
6.1
6.2
6.1
6.1
---
---
---
---
Energy efficiency class
A++
A++
A++
A++
A++
A++
---
---
---
---
Heating Capacity
Rated
kW
4.1
6.0
7.0
8.0
11.2
11.2
13.5
13.5
15.0
15.0
Min-Max
kW
1.1 - 5.0
1.5 - 7.2
1.6 - 8.0
2.0 - 10.2 2.8 - 12.5 2.8 - 12.5 4.1 - 15.0 4.1 - 15.0 4.2 - 15.8 4.2 - 15.8
Total Input
Rated
kW
1.025
1.463
1.842
2.105
2.947
2.947
3.739
3.739
4.155
4.155
COP(*4)
4.00
4.10
3.80
3.80
3.80
3.80
3.61
3.61
3.61
3.61
Design load
kW
2.6
4.3
4.6
5.8
8.0
8.0
---
---
---
---
Declared Capacity
at reference design temperature kW
2.3 (-10) 3.8 (-10°C) 4.1 (-10°C) 5.2 (-10°C) 6.0 (-10°C) 6.0 (-10°C)
---
---
---
---
at bivalent temperature
kW
2.3 (-7) 3.8 (-7°C) 4.1 (-7°C) 5.2 (-7°C) 7.0 (-7°C) 7.0 (-7°C)
---
---
---
---
at operation limit temperature kW
2.3 (-10) 3.8 (-10°C) 4.1 (-10°C) 5.2 (-10°C) 4.5 (-15°C) 4.5 (-15°C)
---
---
---
---
Back up heating capacity
kW
0.3
0.5
0.5
0.6
2.0
2.0
---
---
---
---
Annual electricity consumption (*2)
kWh/a
884
1417
1558
1973
2725
2725
---
---
---
---
SCOP(*4)(*5)
4.1
4.2
4.1
4.1
4.1
4.1
---
---
---
---
Energy efficiency class
A+
A+
A+
A+
A+
A+
---
---
---
---
Operating Current(Max)
A
9.7
14.9
16.7
16.7
22.3
13.8
27.8
12.8
31.4
12.9
Indoor Input [cooling / Heating ] Rated
kW
0.05
0.07
0.08
0.09
0.14
0.14
0.20
0.20
0.21
0.21
Unit
Operating Current(Max)
A
1.16
1.35
1.85
1.9
2.25
2.25
2.34
2.34
2.63
2.63
Dimensions
H*W*D
mm 250×900×732 250×900×732 250×1100×732 250×1100×732 250×1400×732 250×1400×732 250×1400×732 250×1400×732 250×1600×732 250×1600×732
Weight
kg
25(24.5) 26.5(25.5) 29.5(29)
29.5(29)
37(36)
37(36)
38(37)
38(37)
42(41)
42(41)
Air Volume (Lo-Mid-Hi)
m3/min 10.0-12.0-14.0 12.0-14.5-17.0 14.5-18.0-21.0 14.5-18.0-23.0 23.0-28.0-32.0 23.0-28.0-32.0 28.0-34.0-37.0 28.0-34.0-37.0 29.5-35.5-40.0 29.5-35.5-40.0
External Static Pressure(*7)
Pa
35-<50>-<70>-<100>-<150>
40-<50>-<70>-<100>-<150>
<40>-50-<70>-<100>-<150>
Sound Level (Lo-Mid-Hi) (SPL)
dB(A) 24-29-32
27-33-35
26-32-35
26-32-37
31-36-39
31-36-39
35-39-41
35-39-41
34-38-41
34-38-41
Sound Level (PWL)
dB(A)
54
58
56
58
62
62
66
66
66
66
Outdoor Dimensions
H*W*D
mm 550-800-285 714-800-285 880-840-330 880-840-330 981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40)
Unit
Weight
kg
35
41
54
55
76
78
84
85
84
85
Air Volume
Cooling
m3/min 34.3
45.8
50.1
50.1
79
79
86
86
86
86
Heating
m3/min 32.7
43.7
50.1
50.1
79
79
92
92
92
92
Sound Level (SPL)
Cooling
dB(A)
48
48
49
49
51
51
54
54
55
55
Heating
dB(A)
48
49
51
51
54
54
56
56
57
57
Sound Level (PWL)
Cooling
dB(A)
59
64
65
66
70
70
72
72
73
73
Operating Current(Max)
A
8.5
13.5
14.8
14.8
20
11.5
26.5
11.5
30
11.5
Breaker Size
A
16
20
20
20
32
16
32
16
40
16
Ext.Piping Diameter(*6)
Liquid/Gas
mm
6.35 / 9.52 6.35 / 12.7 6.35 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
Max.Length
Out-In
m
20
30
30
30
55
55
65
65
65
65
Max.Height
Out-In
m
12
30
30
30
30
30
30
30
30
30
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
-10 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46
Heating
°C
-10 ~ +24 -10 ~ +24 -10 ~ +24 -10 ~ +24 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance
contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period
of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located.
*3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 EER/COP and SEER/SCOP for M35-71 are measured at ESP 35Pa, for M100 at ESP 37Pa, for M125/140 at ESP 50Pa.
*5 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *6 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units. *7 The factory setting of ESP is shown without < >.
24
Power Inverter Series
Indoor Unit
SERIES SELECTION
35-71
100-250
35-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Scroll
DC Fan Motor
Vector-Wave
Grooved Piping
35-71
Heat Caulking Fixing Method
For Single
PUHZ-ZRP35/50
PUHZ-ZRP60/71
PUHZ-ZRP100/125/140
PEAD-M35/50/60/71/100/125/140JA(L)2
For Multi (Twin / Triple / Quadruple)
Remote Controller
PUHZ-ZRP71 PUHZ-ZRP100/125/140/200/250
Optional
Optional
Optional
Optional8
Optional8
PEAD-M JA(L) Indoor Unit Combinations Indoor unit combinations shown below are possible.
8 PAR-SC9CA-E is also required.
Indoor Unit Combination
Power Inverter (PUHZ-ZRP) Distribution Pipe
Outdoor Unit Capacity
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
35x1 50x1 60x1 71x1 100x1 125x1 140x1
35x2 50x2 60x2 71x2 100x2 125x2 50x3 60x3 71x3 50x4 60x4
MSDD-50TR-E
MSDD50WR-E
MSDT-111R-E
MSDF1111R-E
Standard Inverter Series
Indoor Unit
SERIES SELECTION
35-71
100-250
71-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Rotary
200/250
100-250
DC Scroll
DC Fan Motor
Vector-Wave
35-140
Grooved Piping
35-71
Heat Caulking Fixing Method
For Single
SUZ-KA35
SUZ-KA50/60/71
PUHZ-P100/125/140
PEAD-M35/50/60/71/100/125/140JA(L)2
For Multi (Twin / Triple / Quadruple)
Remote Controller
PUHZ-P100/125/140
PUHZ-P200/250
Optional
Optional
Optional
Optional8
Optional8
PEAD-M JA(L) Indoor Unit Combinations Indoor unit combinations shown below are possible.
8 PAR-SC9CA-E is also required.
Outdoor Unit Capacity
Indoor Unit Combination
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
Standard Inverter (PUHZ-P & SUZ) 35x1 50x1 60x1 71x1 100x1 125x1 140x1 50x2 60x2 71x2 100x2 125x2 50x3 60x3 71x3 50x4 60x4
Distribution Pipe
MSDD-50TR-E MSDD-50WR-E MSDT-111R-E MSDF-1111R-E
25
PEAD-M SERIES POWER INVERTER
Optional Optional
JAQ
60-140V/200/250
PUHZ
Optional
Optional
Optional
Wi-Fi
Interface
Optional
Type
Inverter Heat Pump
Indoor Unit
PEAD-M35JA(L)2 PEAD-M50JA(L)2 PEAD-M60JA(L)2 PEAD-M71JA(L)2 PEAD-M100JA(L)2 PEAD-M100JA(L)2 PEAD-M125JA(L)2 PEAD-M125JA(L)2 PEAD-M140JA(L)2 PEAD-M140JA(L)2
Outdoor Unit Refrigerant(*1) Power Source
PUHZ-ZRP35VKA2 PUHZ-ZRP50VKA2 PUHZ-ZRP60VHA2 PUHZ-ZRP71VHA2 PUHZ-ZRP100VKA3 PUHZ-ZRP100YKA3 PUHZ-ZRP125VKA3 PUHZ-ZRP125YKA3 PUHZ-ZRP140VKA3 PUHZ-ZRP140YKA3 R410A
Outdoor power supply
Supply Cooling
Heating
Outdoor(V/Phase/Hz)
Capacity
Rated
Min-Max
Total Input
Rated
EER(*4)
Design load
Annual electricity consumption (*2)
SEER(*4)(*5)
Energy efficiency class
Capacity
Rated
Min-Max
Total Input
Rated
COP(*4)
kW kW kW
kW kWh/a
kW kW kW
3.6 1.6 - 4.5
0.870 4.14 3.6 205 6.1 A++ 4.1 1.6 - 5.2 0.950 4.32
5.0 2.3 - 5.6
1.420 3.52 5.0 287 6.1 A++ 6.0 2.5 - 7.3 1.500 4.00
6.1 2.7 - 6.7
1.630 3.74 6.1 340 6.2 A++ 7.0 2.8 - 8.2 1.790 3.91
VKAVHA:230/Single/50, YKA:400/Three/50
7.1
9.5
9.5
12.5
3.3 - 8.1
4.9 - 11.4 4.9 - 11.4 5.5 - 14.0
1.990
2.410
2.430
3.834
3.53 (3.57)
3.94
3.94
3.26
7.1
9.5
9.5
---
411
542
553
---
6.0
6.1
6.0
---
A+
A++
A+
---
8.0
11.2
11.2
14.0
3.5 - 10.2 4.5 - 14.0 4.5 - 14.0 5.0 - 16.0
2.030
2.600
2.600
3.508
3.94
4.31
4.31
3.70 (3.99)
12.5 5.5 - 14.0
3.834 3.26
--------14.0 5.0 - 16.0 3.508 3.70 (3.99)
13.4 6.2 - 15.3
4.322 3.10
--------16.0 5.7 - 18.0 4.071 3.60
13.4 6.2 - 15.3
4.322 3.10
--------16.0 5.7 - 18.0 4.071 3.60
Design load
kW
2.4
3.8
4.4
4.9
7.8
7.8
---
---
---
---
Declared Capacity
at reference design temperature kW
2.4 (-10°C) 3.8 (-10°C) 4.4 (-10°C) 4.9 (-10°C) 7.8 (-10°C) 7.8 (-10°C)
---
---
---
---
at bivalent temperature
kW
2.4 (-10°C) 3.8 (-10°C) 4.4 (-10°C) 4.9 (-10°C) 7.8 (-10°C) 7.8 (-10°C)
---
---
---
---
at operation limit temperature kW
2.2 (-11°C) 3.7 (-11°C) 2.8 (-20°C) 3.7 (-20°C) 5.8 (-20°C) 5.8 (-20°C)
---
---
---
---
Back up heating capacity Annual electricity consumption (*2) SCOP(*4)(*5)
kW
0.0
0.0
0.0
0.0
0.0
0.0
---
---
---
---
kWh/a
831
1232
1487
1718
2593
2594
---
---
---
---
4.0
4.3
4.1
3.9
4.2
4.2
---
---
---
---
Energy efficiency class
A+
A+
A+
A
A+
A+
---
---
---
---
Operating Current(Max)
A
14.2
14.4
20.9
20.9
28.8
10.3
28.8
11.8
30.6
15.6
Indoor Unit
Outdoor
Input [cooling / Heating ] Rated
Operating Current(Max)
Dimensions
H*W*D
Weight
Air Volume (Lo-Mid-Hi)
External Static Pressure(*7)
Sound Level (Lo-Mid-Hi) (SPL)
Sound Level (PWL)
Dimensions
H*W*D
kW
0.05
0.07
0.08
0.09
0.14
0.14
0.20
0.20
0.21
0.21
A
1.16
1.35
1.85
1.9
2.25
2.25
2.34
2.34
2.63
2.63
mm 250×900×732 250×900×732 250×1100×732 250×1100×732 250×1400×732 250×1400×732 250×1400×732 250×1400×732 250×1600×732 250×1600×732
kg
25(24.5) 26.5(25.5) 29.5(29)
29.5(29)
37(36)
37(36)
38(37)
38(37)
42(41)
42(41)
m3/min 10.0-12.0-14.0 12.0-14.5-17.0 14.5-18.0-21.0 14.5-18.0-23.0 23.0-28.0-32.0 23.0-28.0-32.0 28.0-34.0-37.0 28.0-34.0-37.0 29.5-35.5-40.0 29.5-35.5-40.0
Pa
35-<50>-<70>-<100>-<150>
40-<50>-<70>-<100>-<150>
<40>-50-<70>-<100>-<150>
dB(A) 24-29-32
27-33-35
26-32-35
26-32-37
31-36-39
31-36-39
35-39-41
35-39-41
34-38-41
34-38-41
dB(A)
54
58
56
58
62
62
66
66
66
66
mm 630-809-300 630-809-300 943-950-330(+30) 943-950-330(+30) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40)
Unit
Weight
kg
43
46
70
70
116
123
116
125
118
131
Air Volume Sound Level (SPL)
Cooling Heating Cooling
m3/min
45
45
55
55
110
110
120
120
120
120
m3/min
45
45
55
55
110
110
120
120
120
120
dB(A)
44
44
47
47
49
49
50
50
50
50
Heating
dB(A)
46
46
48
48
51
51
52
52
52
52
Sound Level (PWL)
Cooling
dB(A)
65
65
67
67
69
69
70
70
70
70
Operating Current(Max)
A
13
13
19
19
26.5
8
26.5
9.5
28
13
Breaker Size Ext.Piping Diameter(*6)
Liquid/Gas
A
16
16
25
25
32
16
32
16
40
16
mm
6.35 / 12.7 6.35 / 12.7 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
Max.Length
Out-In
m
50
50
50
50
75
75
75
75
75
75
Max.Height
Out-In
Guaranteed Operating Range(Outdoor) Cooling(*3)
m
30
30
30
30
30
30
30
30
30
30
°C
-15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46
Heating
°C
-11 ~ +21 -11 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R410A is 2088 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 EER/COP and SEER/SCOP for M35-71 are measured at ESP 35Pa, for M100 at ESP 37Pa, for M125/140 at ESP 50Pa. *5 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *6 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units. *7 The factory setting of ESP is shown without < >.
PEAD-M SERIES STANDARD INVERTER
Optional Optional
JAQ
60-140V/200/250
PUHZ
Optional
Optional
Optional
Wi-Fi
Interface
Optional
Type
Inverter Heat Pump
Indoor Unit
PEAD-M35JA(L)2 PEAD-M50JA(L)2 PEAD-M60JA(L)2 PEAD-M71JA(L)2 PEAD-M100JA(L)2 PEAD-M100JA(L)2 PEAD-M125JA(L)2 PEAD-M125JA(L)2 PEAD-M140JA(L)2 PEAD-M140JA(L)2
Outdoor Unit Refrigerant(*1) Power Source
SUZ-KA35VA6 SUZ-KA50VA6 SUZ-KA60VA6 SUZ-KA71VA6 PUHZ-P100VKA PUHZ-P100YKA PUHZ-P125VKA PUHZ-P125YKA PUHZ-P140VKA PUHZ-P140YKA R410A
Outdoor power supply
Supply Outdoor(V/Phase/Hz) Cooling Capacity
Rated Min-Max
VAVKA:230/Single/50, YKA:400/Three/50
kW
3.6
4.9
5.7
7.1
9.4
9.4
12.1
12.1
13.6
13.6
kW
1.4 - 3.9
2.3 - 5.6
2.3 - 6.3
2.8 - 8.1
3.7 - 10.6 3.7 - 10.6 5.6 - 13.0 5.6 - 13.0 5.8 - 14.1 5.8 - 14.1
Total Input
Rated
EER(*4)
Design load
Annual electricity consumption (*2)
SEER(*4)(*5)
kW
kW kWh/a
1.029 3.50 3.6 210 6.0
1.458 3.36 4.9 284 6.0
1.652 3.45 5.7 326 6.1
2.060 3.45 7.1 395 6.2
2.965 3.17 9.4 596 5.5
2.965 3.17 9.4 596 5.5
4.143 2.92
-------
4.143 2.92
-------
5.551 2.45
-------
5.551 2.45
-------
Heating Capacity
Energy efficiency class
A+
Rated
kW
4.1
A+
A++
A++
A
A
---
---
---
---
5.9
7.0
8.0
11.2
11.2
13.5
13.5
15.0
15.0
Min-Max
kW
1.7 - 5.0
1.7 - 7.2
2.5 - 8.0
2.6 - 10.2 2.8 - 12.5 2.8 - 12.5 4.8 - 15.0 4.8 - 15.0 4.9 - 15.8 4.9 - 15.8
Total Input COP(*4)
Rated
kW
1.111
1.620
1.928
2.040
2.947
2.947
3.739
3.739
4.347
4.347
3.69
3.64
3.63
3.80
3.80
3.80
3.61
3.61
3.45
3.45
Design load
kW
2.8
4.4
4.5
6.0
8.0
8.0
---
---
---
---
Declared Capacity
at reference design temperature kW
2.5 (-10°C) 3.9 (-10°C) 4.1 (-10°C) 5.3 (-10°C) 6.0 (-10°C) 6.0 (-10°C)
---
---
---
---
at bivalent temperature
kW
2.5 (-7°C) 3.9 (-7°C) 4.1 (-7°C) 5.3 (-7°C) 7.0 (-7°C) 7.0 (-7°C)
---
---
---
---
at operation limit temperature kW
2.5 (-10°C) 3.9 (-10°C) 4.1 (-10°C) 5.3 (-10°C) 4.5 (-15°C) 4.5 (-15°C)
---
---
---
---
Back up heating capacity Annual electricity consumption (*2) SCOP(*4)(*5)
kW
0.3
0.5
0.4
0.7
2.0
2.0
---
---
---
---
kWh/a
975
1455
1559
2132
2797
2797
---
---
---
---
4.0
4.2
4.0
3.9
4.0
4.0
---
---
---
---
Energy efficiency class
A+
A+
A+
A
A+
A+
---
---
---
---
Operating Current(Max)
A
9.4
13.4
15.9
18.0
22.3
13.8
27.8
12.8
31.4
12.9
Indoor Unit
Outdoor
Input [cooling / Heating ] Rated
Operating Current(Max)
Dimensions
H*W*D
Weight
Air Volume (Lo-Mid-Hi)
External Static Pressure(*7)
Sound Level (Lo-Mid-Hi) (SPL)
Sound Level (PWL)
Dimensions
H*W*D
kW
0.05
0.07
0.08
0.09
0.14
0.14
0.20
0.20
0.21
0.21
A
1.16
1.35
1.85
1.9
2.25
2.25
2.34
2.34
2.63
2.63
mm 250×900×732 250×900×732 250×1100×732 250×1100×732 250×1400×732 250×1400×732 250×1400×732 250×1400×732 250×1600×732 250×1600×732
kg
25(24.5) 26.5(25.5) 29.5(29)
29.5(29)
37(36)
37(36)
38(37)
38(37)
42(41)
42(41)
m3/min 10.0-12.0-14.0 12.0-14.5-17.0 14.5-18.0-21.0 14.5-18.0-23.0 23.0-28.0-32.0 23.0-28.0-32.0 28.0-34.0-37.0 28.0-34.0-37.0 29.5-35.5-40.0 29.5-35.5-40.0
Pa
35-<50>-<70>-<100>-<150>
40-<50>-<70>-<100>-<150>
<40>-50-<70>-<100>-<150>
dB(A) 24-29-32
27-33-35
26-32-35
26-32-37
31-36-39
31-36-39
35-39-41
35-39-41
34-38-41
34-38-41
dB(A)
54
58
56
58
62
62
66
66
66
66
mm 550-800-285 880-840-330 880-840-330 880-840-330 981-1050-330 981-1050-330 981-1050-330 981-1050-330 981-1050-330 981-1050-330
Unit
Weight
kg
35
54
50
53
76
78
84
85
84
85
Air Volume
Cooling
m3/min 36.3
44.6
40.9
50.1
79
79
86
86
86
86
Heating
m3/min 34.8
44.6
49.2
48.2
79
79
92
92
92
92
Sound Level (SPL)
Cooling
dB(A)
49
52
55
55
51
51
54
54
56
56
Heating
dB(A)
50
52
55
55
54
54
56
56
57
57
Sound Level (PWL)
Cooling
dB(A)
62
65
65
69
70
70
72
72
75
75
Operating Current(Max)
A
8.2
12
14
16.1
20
11.5
26.5
11.5
30
11.5
Breaker Size
A
10
20
20
20
32
16
32
16
40
16
Ext.Piping Diameter(*6)
Liquid/Gas
mm
6.35 / 9.52 6.35 / 12.7 6.35 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
Max.Length
Out-In
m
20
30
30
30
50
50
50
50
50
50
Max.Height
Out-In
m
12
30
30
30
30
30
30
30
30
30
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
-10 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46
Heating
°C
-10 ~ +24 -10 ~ +24 -10 ~ +24 -10 ~ +24 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance
contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period
of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located.
*3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 EER/COP and SEER/SCOP for M35-71 are measured at ESP 35Pa, for M100 at ESP 37Pa, for M125/140 at ESP 50Pa.
*5 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *6 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
*7 The factory setting of ESP is shown without < >.
26
PEA SERIES
PEA-M200/250LA
The PEA Series is a large capacity ceiling-concealed type indoor units which are visually discreet blending into various environments. The new R32 refrigerant lineup realizes improved energy efficiency with a patented fan called a Turbo In Sirocco fan. A wider option of external static pressure up to 200Pa allows authentic ducted air-conditioning with an elegant interior layout.
Improved Energy Efficiency
Introduction of new R32 refrigerant with newly designed fan reduces energy consumption and have resulted in higher energy savings for all
capacity ranges.
POWER INVERTER
STANDARD INVERTER
EER
COP
EER
COP
3.20 3.30
3.50 3.43
3.30 3.40
3.05
3.07 3.12
3.34 3.40
3.20 3.30
3.00
2.76
2.73
RP200/M200
RP250/M250
R410A PEA-RP WKA
R32
PUHZ-ZRP YKA3
RP200/M200
PEA-M LA PUZ-ZM YKA2
RP250/M250
Low input with New Fan Design
RP200/M200
R410A PEA-RP WKA PUHZ-P YKA3
RP250/M250 R32
RP200/M200
PEA-M LA PUZ-M YKA2
RP250/M250
The new PEA series applies a newly designed fan; a Turbo In Sirocco fan which realizes high efficiency with a lower power input. The new design is Mitsubishi Electric's patented technology with a combination of turbo fan inside the sirocco fan.
Patented Fan Design
*Patented in Japan, as of Nov.2020.
Sirocco fan blade
Axially turbo blade
Conventional Sirocco fan
Pressure loss occurs below the sirocco fan blade.
Air pathway
Rotation direction
Turbo In Sirocco fan
Improved air distribution with less pressure loss leads to lower power input.
Air pathway
Rotation direction
Turbo In Sirocco fan
Inside the conventional sirocco fan blade, an axially turbo blade has been added.
Pressure loss Small
Large
Wide range of external static pressure allows flexible duct design
PAR-41MAA Group Control
200Pa setting is newly added enabling total of five static pressure level. The ability to select additional static pressure enables long duct and more freedom in design.
PEA-M200/250LA <60>/75/<100>/<150>/<200> Pa
The factory setting of external static pressure is shown without brackets (< >). Refer to "Fan characteristics curves" according to the external static pressure, in the DATA BOOK for the usable range of airflow rate.
The PAR-41MAA remote controller can control up to 16 systems as a group, and is ideal for supporting the integrated management of building air conditioners.
E
F
G
A
A
A
B
B
B
CD
H
A Outdoor unit
A
B Indoor unit
C Main remote controller
D Subordinate remote controller
B
E Standard (Refrigerant address = 00)
F Refrigerant address = 01
G Refrigerant address = 02
H Refrigerant address = 15
Indoor Unit
Outdoor Unit
Power Inverter Series
LINE-UP
Standard Inverter Series
Remote Controller
PUHZ-ZRP200/250
PUHZ-P200/250
PEA-M200/250LA
Power Inverter Series
Standard Inverter Series
Optional
Optional
Optional
PUZ-ZM200/250
PUZ-M200/250
27
PEA-M SERIES POWER INVERTER
Wi-Fi
Interface
Optional
Optional
Optional
Optional
Type
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
Min-Max
Total Input
Rated
EER
Heating Capacity
Rated
Min-Max
Total Input
Rated
COP
Operating Current(Max)
Indoor Input [cooling / Heating ] Rated
Unit
Operating Current(Max)
Dimensions
H*W*D
Weight
Air Volume (Lo-Mi2-Mi1-Hi)
External Static Pressure
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
Sound Level (PWL)
Outdoor Dimensions
H*W*D
Unit
Weight
Air Volume
Cooling
Heating
Sound Level (SPL)
Cooling
Heating
Sound Level (PWL)
Cooling
Operating Current(Max)
Breaker Size
Ext.Piping Diameter(*3)
Liquid/Gas
Max.Length
Out-In
Max.Height
Out-In
Guaranteed Operating Range(Outdoor) Cooling(*2)
Heating
kW kW kW
kW kW kW
A kW A mm kg m3/min Pa dB(A) dB(A) mm kg m3/min m3/min dB(A) dB(A) dB(A) A A mm m m °C °C
PEA-M200LA PUZ-ZM200YKA2
19.0 9.2 - 22.4
5.757 3.30 22.4 7.1 - 25 6.400 3.50 25.7 0.35/0.35 3.1
42-51-60(60Pa-150Pa) 42-51-55(200Pa)
35-40-43 63-64-64 1338-1050-330(+40)
137 140 140 59 62 77 22.5 32 9.52 / 25.4 100 30 -15~+46 -20~+21
Inverter Heat Pump PEA-M250LA
PUZ-ZM250YKA2 R32 Separate power supply 400/Three/50
22.0 9.9 - 27.0
7.213 3.05 27.0 7.3 - 31 7.941 3.40 25.9 0.53/0.53 3.4 470 - 1370 - 1120 87 50-61-72(60Pa-100Pa) 45-55-65(150Pa) 45-50-55(200Pa)
(60)/75/(100)/(150)/(200) 38-43-47 67-67-68
1338-1050-330(+40) 138 140 140 59 62 77 22.5 32
12.7 / 25.4 100 30
-15~+46 -20~+21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.
*2 Optional air protection guide is required where ambient temperature is lower than -5°C. *3 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
PEA-M SERIES
Wi-Fi
Optional
Optional
STANDARD INVERTER
Interface
Optional
Optional
Optional
Optional
Type
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
Min-Max
Total Input
Rated
EER
Heating Capacity
Rated
Min-Max
Total Input
Rated
COP
Operating Current(Max)
Indoor Input [cooling / Heating ] Rated
Unit
Operating Current(Max)
Dimensions
H*W*D
Weight
Air Volume (Lo-Mi2-Mi1-Hi)
External Static Pressure
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
Sound Level (PWL)
Outdoor Dimensions
H*W*D
Unit
Weight
Air Volume
Cooling
Heating
Sound Level (SPL)
Cooling
Heating
Sound Level (PWL)
Cooling
Operating Current(Max)
Breaker Size
Ext.Piping Diameter(*3)
Liquid/Gas
Max.Length
Out-In
Max.Height
Out-In
Guaranteed Operating Range(Outdoor) Cooling(*2)
Heating
kW kW kW
kW kW kW
A kW A mm kg m3/min Pa dB(A) dB(A) mm kg m3/min m3/min dB(A) dB(A) dB(A) A A mm m m °C °C
PEA-M200LA PUZ-M200YKA2
19.0 9.2 - 22.4
6.089 3.12 22.4 6.8 - 25 6.588 3.40 25.7 0.35/0.35 3.1
42-51-60(60Pa-150Pa) 42-51-55(200Pa)
35-40-43 63-64-64 1338-1050-330(+40)
129 140 140 58 60 78 22.5 32 9.52 / 25.4 70 30 -15~+46 -20~+21
Inverter Heat Pump PEA-M250LA
PUZ-M250YKA2 R32 Separate power supply 400/Three/50
22.0 9.9 - 27.0
7.333 3.00 27.0 7.3 - 31 8.181 3.30 25.9 0.53/0.53 3.4 470 - 1370 - 1120 87 50-61-72(60Pa-100Pa) 45-55-65(150Pa) 45-50-55(200Pa)
(60)/75/(100)/(150)/(200) 38-43-47 67-67-68
1338-1050-330(+40) 138 140 140 59 62 77 22.5 32
12.7 / 25.4 70 30
-15~+46 -20~+21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.
*2 Optional air protection guide is required where ambient temperature is lower than -5°C. *3 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
28
PEA-M SERIES
POWER INVERTER
Optional
Type
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source Supply Outdoor (V/Phase/Hz)
Cooling Capacity
Rated
Min - Max
Total Input
Rated
EER
Heating Capacity
(Average Season) Total Input
Rated Min - Max Rated
COP
Operating Current (max)
Indoor Input [Cooling / Heating] Rated
Unit
Operating Current (max)
Dimensions
H x W x D
Weight
Air Volume [Lo-Mid-Hi]
External Static Pressure
Sound Level (SPL) [Lo-Mid-Hi]
Sound Level (PWL)
Outdoor Dimensions
Unit
Weight
H x W x D
Air Volume
Cooling
Heating
Sound Level (SPL)
Cooling
Heating
Sound Level (PWL)
Cooling
Operating Current (max)
Breaker Size
Ext. Piping
Diameter (*3) Max. Length
Liquid / Gas Out-In
Max. Height
Out-In
Guaranteed Operating Range [Outdoo
Cooling(*2) Heating
Optional
kW kW kW
kW kW kW
kW A mm kg m3/min Pa dB(A) dB(A) mm kg m3/min m3/min dB(A) dB(A) dB(A) A A mm m m oC oC
Wi-Fi
Interface
Optional
Optional
Inverter Heat Pump
PEA-M200LA PUHZ-ZRP200YKA3
19.0 9.0 - 22.4
5.937 3.20
22.4 9.5 -25 6.530 3.43 22.2 0.35 / 0.35 3.1
42-51-60(60Pa-150Pa) 42-51-55(200Pa)
35-40-43 63-64-64 1338-1050-330(+40)
135 140 140 59 62 77 19 32 9.52/25.4 100 30 -15 ~ +46 -20 ~ +21
PEA-M250LA
R410A(*1) Separate power supply
PUHZ-ZRP250YKA3
400 / Three / 50
22.0
11.2 - 27.0
7.971
2.76
-
27.0
12.5 - 31
8.181
3.30
24.4
0.53 / 0.53
470-1370-1120
3.4
87
50-61-72(60Pa-100Pa) 45-55-65(150Pa) 45- 50- 55(200Pa)
(60)/75/(100)/(150)/(200)
38-43-47
67-67-68
1338-1050-330(+40)
135
140
140
59
62
77
21
32
12.7/25.4
100
30
-15 ~ +46
-20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.
*2 Optional air protection guide is required where ambient temperature is lower than -5°C. *3 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
PEA-M SERIES STANDARD INVERTER
Type Indoor Unit Outdoor Unit
Optional
Wi-Fi
Interface
Optional
PEA-M200LA PUHZ-P200YKA3
Optional
Inverter Heat Pump
Optional
PEA-M250LA PUHZ-P250YKA3
Refrigerant(*1)
Power Source Supply Outdoor (V/Phase/Hz)
R410A(*1) Separate power supply
400 / Three / 50
Cooling Capacity
Rated
kW
19.0
22.0
Min - Max
kW
9.0-22.4
11.2-27.0
Total Input
Rated
kW
6.188
8.058
EER
3.07
2.73
Heating Capacity
Rated
kW
(Average
Min - Max
kW
Season) Total Input
Rated
kW
22.4 9.5-25 6.706
27.0 12.5-31 8.437
COP
3.34
3.20
Operating Current (max)
22.2
24.4
Indoor Input [Cooling / Heating] Rated
kW
Unit
Operating Current (max)
A
0.35/0.35 3.1
0.53/0.53 3.4
Dimensions Weight Air Volume [Lo-Mid-Hi]
H x W x D
mm kg m3/min
42-51-60(60Pa-150Pa) 42-51-55 (200Pa)
470-1370-1120 87 50-61-72(60Pa-100Pa)
45-55-65(150Pa)
45-50-55(200Pa)
External Static Pressure Sound Level (SPL) [Lo-Mid-Hi]
Pa dB(A)
35-40-43
(60)/75/(100)/(150)/(200)
38-43-47
Sound Level (PWL)
dB(A)
63-64-64
67-67-68
Outdoor Dimensions
Unit
Weight
Air Volume
H x W x D
Cooling Heating
mm kg m3/min m3/min
1338-1050-330(+40)
127
135
140
140
140
140
Sound Level (SPL)
Cooling
dB(A)
58
59
Heating
dB(A)
60
62
Sound Level (PWL)
Cooling
dB(A)
78
77
Operating Current (max)
A
19
21
Breaker Size
A
32
32
Ext.
Diameter (*3)
Liquid / Gas
mm
Piping Max. Length
Out-In
m
9.52/25.4 70
12.7/25.4 70
Max. Height
Out-In
m
Guaranteed Operating Range
Cooling(*2)
oC
[Outdoo
Heating
oC
30 -15~+46 -20~+21
30 -15~+46 -20~+21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.
*2 Optional air protection guide is required where ambient temperature is lower than -5°C. *3 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
29
PKA-M35/50LA(L)2
PK A SERIES
PKA-M60/71/100KA(L)2
The compact, wall-mounted indoor units offer the convenience of simple installation, and a large product line-up (M35-M100 models) ensures a best-match solution. Designed for highly efficient energy savings, the PKA Series is the answer to your air conditioning needs.
New Design (M35-50)
A sharp and simple form that combines beauty and function. The simple square design harmonizes beautifully with the straight lines created by the intersection of the walls, floor and ceiling of the space, leading to a better quality of space. Also adopted a new white body color. It will make your life and space beautiful and comfortable without disturbing the atmosphere of the room. In addition, we realized miniaturization of conventional model. It contributes to space saving of installation area and giving room to room space.
Quietness (M35-50)
The noise level has been significantly reduced compared to the conventional model by reviewing the unit structure and improving the line flow fan.
PKA-M35/50 SPL[Lo]
Previous model New model
36dB 34dB
36dB 34dB
M35 M35 HA(L) LA(L)
M50 M50 HA(L) LA(L)
New Wireless Remote Controller Included
The PKA-KAL2 series wireless remote controller has been updated. It now comes with a new stylish remote controller that fits comfortably in your hand and has a wide range of useful functions.
Previous
New
Main Functions of
new Wireless Remote Controller
Weekly Timer Backlight Dual set point Battery replacement sign etc...
ErP Lot 10 Compliant with High Energy-efficiency Achieving SEER/SCOP Rank A, A+ and A++
Highly efficient indoor unit heat exchangers and and newly designed power inverters (PUHZ-ZM) contribute to an amazing reduction in electricity consumption throughout a year, and have resulted in models in the full-capacity range attaining the rank A, A+ and A++ energy savings rating.
Minimum SEER 4.6 Minimum SCOP 3.8
SEER A++ 6.5
SCOP A+ 4.0
SEER A++ 6.6
SCOP A+ 4.3
SEER A++ 6.8
SCOP A+ 4.2
SEER A++ 6.8
SCOP A+ 4.3
SEER A++ 6.5
SCOP A+ 4.4
SEER A+ 6.4
SCOP A+ 4.4
Cooling Heating
PKA-M35LA(L)2 PUZ-ZM35VKA2
PKA-M50LA(L)2 PUZ-ZM50VKA2
PKA-M60KA(L)2 PUZ-ZM60VHA2
PKA-M71KA(L)2 PUZ-ZM71VHA2
PKA-M100KA(L)2 PUZ-ZM100VKA2
PKA-M100KA(L)2 PUZ-ZM100YKA2
Airflow Control Horizontal Airflow (M35-50)
Significantly improved airflow control to achieve horizontal airflow. This reduces the feeling of draft even on a wall-mounted model, and air conditioning the indoor space firmly.
PKA-M50LA <Cooling mode> Horizontal airflow
30
Power Inverter Series
Indoor Unit
SERIES SELECTION
Outdoor Unit
100-250
100-140
Vector Sine Wave
DC Rotary
200/250
100-250
100-140
DC Scroll
DC Fan Motor
Vector-Wave
Grooved Piping
PKA-M35/50LA(L)2
For Single
PUZ-ZM35/50
PUZ-ZM60/71 PUZ-ZM100/125/140
PKA-M60/71/100KA(L)2 Remote Controller
For Multi (Twin / Triple/Quadruple)
PUZ-ZM71 PUZ-ZM100/125/140/200/250
Optional (8)
Optional
Optional (8)
*PKA-M . LAL2 only
(8) PAC-SH29TC-E is required for LAL and KAL (optional)
PKA-M LA(L)2/KA(L)2 Indoor Unit Combinations Indoor unit combinations shown below are possible.
Indoor Unit Combination
Power Inverter (PUZ-ZM) Distribution Pipe
Outdoor Unit Capacity
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
35x1 50x1 60x1 71x1 100x1 35x2 50x2 60x2 71x2 100x2 50x3 60x3 71x3 50x4 60x4
MSDD-50TR2-E
MSDD50WR2-E
MSDT-111R3-E
MSDF1111R2-E
Standard Inverter Series
Indoor Unit
SERIES SELECTION
Outdoor Unit
100-250
100-140
Vector Sine Wave
DC Rotary
200/250
100-250
100-140
DC Scroll
DC Fan Motor
Vector-Wave
Grooved Piping
PKA-M35/50LA(L)2
For Single
PUZ-M100
PKA-M60/71/100KA(L)2 Remote Controller
For Multi (Twin / Triple/Quadruple)
PUZ-M100/125/140 PUZ-M200/250
Optional (8)
Optional
Optional (8)
*PKA-M . LAL2 only
(8) PAC-SH29TC-E is required for LAL and KAL (optional)
PKA-M LA(L)2/KA(L)2 Indoor Unit Combinations Indoor unit combinations shown below are possible.
Indoor Unit Combination
Standard Inverter (PUZ-M) Distribution Pipe
Outdoor Unit Capacity
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
100x1 50x2 60x2 71x2 100x2 50x3 60x3 71x3 50x4 60x4
MSDD-50TR2-E
MSDD50WR2-E
MSDT-111R3-E
MSDF1111R2-E
31
60-140V/200/250
PKA-M SERIES POWER INVERTER
Optional
Wi-Fi
Interface
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Type
Inverter Heat Pump
Indoor Unit
PKA-M35LA(L)2
PKA-M50LA(L)2
PKA-M60KA(L)2
PKA-M71KA(L)2
PKA-M100KA(L)2
PKA-M100KA(L)2
Outdoor Unit Refrigerant(*1) Power Source
PUZ-ZM35VKA2
PUZ-ZM50VKA2
PUZ-ZM60VKA2
PUZ-ZM71VHA2
R32
Outdoor power supply
PUZ-ZM100VKA2
PUZ-ZM100YKA2
Supply Outdoor(V/Phase/Hz) Cooling Capacity
Rated
VKAVHA:230/Single/50, YKA:400/Three/50
kW
3.6
4.6
6.1
7.1
9.5
9.5
Total Input EER
Min-Max Rated
kW
1.6 - 4.5
kW
0.857
4.20
2.3 - 5.6 1.239 3.71
2.7 - 6.7 1.560 3.91
3.3 - 8.1 1.863 3.81
4.9 - 11.4 2.435 3.90
4.9 - 11.4 2.435 3.90
Design load Annual electricity consumption (*2) SEER(*4)
kW
3.6
4.6
6.1
7.1
9.5
9.5
kWh/a
194
244
314
365
508
519
6.5
6.6
6.8
6.8
6.5
6.4
Energy efficiency class
A++
A++
A++
A++
A++
A++
Heating Capacity
Rated
kW
4.1
5.0
7.0
8.0
11.2
11.2
Min-Max
kW
1.6 - 5.2
2.5 - 7.0
2.8 - 8.2
3.5 - 10.2
4.5 - 14.0
4.5 - 14.0
Total Input
Rated
kW
1.040
1.344
1.732
2.116
3.102
3.102
COP
3.94
3.72
4.04
3.78
3.61
3.61
Design load
kW
2.4
3.3
4.4
4.7
7.8
7.8
Declared Capacity
at reference design temperature kW
2.4 (-10°C)
3.3 (-10°C)
4.4 (-10°C)
4.7 (-10°C)
7.8 (-10°C)
7.8 (-10°C)
at bivalent temperature
kW
2.4 (-10°C)
3.3 (-10°C)
4.4 (-10°C)
4.7 (-10°C)
7.8 (-10°C)
7.8 (-10°C)
at operation limit temperature kW
2.2 (-11°C)
3.2 (-11°C)
2.8 (-20°C)
3.4 (-20°C)
5.8 (-20°C)
5.8 (-20°C)
Back up heating capacity
kW
0.0
0.0
0.0
0.0
0.0
0.0
Annual electricity consumption (*2)
kWh/a
829
1074
1464
1530
2477
2478
SCOP(*4)
4.0
4.3
4.2
4.3
4.4
4.4
Energy efficiency class
A+
A+
A+
A+
A+
A+
Operating Current(Max)
A
13.4
13.4
19.4
19.4
20.6
8.6
Indoor Input [cooling / Heating ] Rated
Unit
Operating Current(Max)
Dimensions
H*W*D
Weight
Air Volume (Lo-Mi2-Mi1-Hi)
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
Sound Level (PWL)
Outdoor Dimensions
H*W*D
Unit
Weight
Air Volume
Cooling
Heating
Sound Level (SPL)
Cooling
Heating
Sound Level (PWL)
Cooling
Operating Current(Max)
Breaker Size
Ext.Piping Diameter(*5)
Liquid/Gas
Max.Length
Out-In
Max.Height
Out-In
Guaranteed Operating Range(Outdoor) Cooling(*3)
kW A mm kg m3/min dB(A) dB(A) mm kg m3/min m3/min dB(A) dB(A) dB(A) A A mm m m °C
0.04 / 0.03 0.35
299-898-237 12.6
7.5-8.2-9.2-10.9 34-37-40-43 60 630-809-300 46 45 45 44 46 65 13 16 6.35 / 12.7 50 30 -15 ~ +46
0.04 / 0.03 0.35
299-898-237 12.6
7.5-8.2-9.2-10.9 34-37-40-43 60 630-809-300 46 45 45 44 46 65 13 16 6.35 / 12.7 50 30 -15 ~ +46
0.06 / 0.05 0.43
365-1170-295 21
18-20-22 39-42-45
64 943-950-330(+25)
67 55 55 47 49 67 19 25 9.52 / 15.88 55 30 -15 ~ +46
0.06 / 0.05 0.43
365-1170-295 21
18-20-22 39-42-45
64 943-950-330(+25)
67 55 55 47 49 67 19 25 9.52 / 15.88 55 30 -15 ~ +46
0.08 / 0.07 0.57
365-1170-295 21
20-23-26 41-45-49
65 1338-1050-330(+40)
105 110 110 49 51 69 20 32 9.52 / 15.88 100 30 -15 ~ +46
0.08 / 0.07 0.57
365-1170-295 21
20-23-26 41-45-49
65 1338-1050-330(+40)
111 110 110 49 51 69
8 16 9.52 / 15.88 100 30 -15 ~ +46
Heating
°C
-11 ~ +21
-11 ~ +21
-20 ~ +21
-20 ~ +21
-20 ~ +21
-20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
60-140V/200/250
PKA-M SERIES STANDARD INVERTER
Optional
Wi-Fi
Interface
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Type
Inverter Heat Pump
Indoor Unit
PKA-M100KA2
PKA-M100KA2
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
Min-Max
Total Input
Rated
EER
Design load
Annual electricity consumption (*2)
SEER(*4)
Energy efficiency class
Heating Capacity
Rated
Min-Max
Total Input
Rated
COP
kW kW kW
kW kWh/a
kW kW kW
PUZ-M100VKA2
9.5 4.0 - 10.6
2.941 3.23 9.5 573 5.8 A+ 11.2 2.8 - 12.5 3.284 3.41
R32 Outdoor power supply VKAVHA:230/Single/50, YKA:400/Three/50
PUZ-M100YKA2
9.5 4.0 - 10.6
2.941 3.23 9.5 573 5.8 A+ 11.2 2.8 - 12.5 3.284 3.41
Design load Declared Capacity
kW
at reference design temperature kW
at bivalent temperature
kW
at operation limit temperature kW
8.0 6.0 (-10°C) 7.0 (-7°C) 4.5 (-15°C)
8.0 6.0 (-10°C) 7.0 (-7°C) 4.5 (-15°C)
Back up heating capacity Annual electricity consumption (*2) SCOP(*4)
kW kWh/a
2.0 2780 4.0
2.0 2780 4.0
Energy efficiency class
A+
A+
Operating Current(Max)
A
20.6
12.1
Indoor Unit
Outdoor Unit
Input [cooling / Heating ] Rated
Operating Current(Max)
Dimensions
H*W*D
Weight
Air Volume (Lo-Mi2-Mi1-Hi)
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
Sound Level (PWL)
Dimensions
H*W*D
Weight
kW A mm kg m3/min dB(A) dB(A) mm kg
0.08 / 0.07 0.57
365-1170-295 21
20-23-26 41-45-49
65 981-1050-330+40
76
0.08 / 0.07 0.57
365-1170-295 21
20-23-26 41-45-49
65 981-1050-330(+40)
78
Air Volume
Cooling
m3/min
79
79
Heating
m3/min
79
79
Sound Level (SPL)
Cooling
dB(A)
51
51
Heating
dB(A)
54
54
Sound Level (PWL)
Cooling
dB(A)
70
70
Operating Current(Max)
A
Breaker Size
A
Ext.Piping Diameter(*5)
Liquid/Gas
mm
20.0 32 9.52 / 15.88
11.5 16 9.52 / 15.88
Max.Length
Out-In
m
55
55
Max.Height
Out-In
m
30
30
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
-15 ~ +46
-15 ~ +46
Heating
°C
-15 ~ +21
-15 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
32
Power Inverter Series
Indoor Unit
PKA-M35/50LA(L)2
SERIES SELECTION
35-71
100-250
35-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Scroll
DC Fan Motor
Vector-Wave
Grooved Piping
35-71
Heat Caulking Fixing Method
For Single
PUHZ-ZRP35/50
PUHZ-ZRP60/71
PUHZ-ZRP100
PKA-M60/71/100KA(L)2 Remote Controller
For Multi (Twin / Triple / Quadruple)
PUHZ-ZRP71 PUHZ-ZRP100/125/140/200/250
Optional (8)
Optional
Optional (8)
*PKA-M . LAL2 only
(8) PAC-SH29TC-E is required for LAL and KAL (optional)
PKA-M LA(L)/KA(L) Indoor Unit Combinations Indoor unit combinations shown below are possible.
Indoor Unit Combination
Power Inverter (PUHZ-ZRP) Distribution Pipe
Outdoor Unit Capacity
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
35x1 50x1 60x1 71x1 100x1 35x2 50x2 60x2 71x2 100x2 50x3 60x3 71x3 50x4 60x4
MSDD-50TR-E
MSDD50WR-E
MSDT-111R-E
MSDF1111R-E
Standard Inverter Series
Indoor Unit
SERIES SELECTION
Outdoor Unit
100-250
100-140
Vector Sine Wave
DC Rotary
200/250
100-250
100-140
DC Scroll
DC Fan Motor
Vector-Wave
Grooved Piping
PKA-M35/50LA(L)2
For Single
PUHZ-P100
For Multi (Twin / Triple / Quadruple)
PKA-M60/71/100KA(L)2 Remote Controller
PUHZ-P100/125/140
PUHZ-P200/250
Optional (8)
Optional
Optional (8)
*PKA-M . LAL2 only
(8) PAC-SH29TC-E is required for LAL and KAL (optional)
PKA-M LA/KA Indoor Unit Combinations Indoor unit combinations shown below are possible.
Indoor Unit Combination
For Single
Outdoor Unit Capacity For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
Standard Inverter (PUHZ-P ) Distribution Pipe
100x1 50x2 60x2 71x2 100x2 50x3 60x3 71x3 50x4 60x4
MSDD-50TR-E
MSDD50WR-E
MSDT-111R-E MSDF-1111R-E
33
60-140V/200/250
PKA-M SERIES POWER INVERTER
Optional
Wi-Fi
Interface
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Type
Inverter Heat Pump
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
EER
Design load
kW
Annual electricity consumption(*2)
kWh/a
SEER(*4)
Energy efficiency class
Heating Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
COP
Design load
kW
Declared Capacity
at reference design temperature kW
at bivalent temperature
kW
at operation limit temperature kW
Back up heating capacity
kW
Annual electricity consumption (*2)
kWh/a
SCOP(*4)
Energy efficiency class
Operating Current(Max)
A
Indoor Input [cooling / Heating ] Rated
kW
Unit
Operating Current(Max)
A
Dimensions
H*W*D
mm
Weight
kg
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A)
Sound Level (PWL)
dB(A)
Outdoor Dimensions
H*W*D
mm
Unit
Weight
kg
Air Volume
Cooling
m3/min
Heating
m3/min
Sound Level (SPL)
Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL)
Cooling
dB(A)
Operating Current(Max)
A
Breaker Size
A
Ext.Piping Diameter(*5)
Liquid/Gas
mm
Max.Length
Out-In
m
Max.Height
Out-In
m
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
Heating
°C
PKA-M35LA(L)2 PUHZ-ZRP35VKA2
3.6 1.6 - 4.5
0.940 3.80 3.6 206 6.1 A++ 4.1 1.6 - 5.2 1.070 3.83 2.4 2.4 (-10°C) 2.4 (-10°C) 2.2 (-11°C) 0.0 841 3.9
A 13.4 0.04 / 0.03 0.35 299-898-237 12.6 7.5-8.2-9.2-10.9 34-37-40-43 60 630-809-300 43 45 45 44 46 65 13 16 6.35 / 12.7 50 30 -15 ~ +46 -11 ~ +21
PKA-M50LA(L)2 PUHZ-ZRP50VKA2
4.6 2.3 - 5.4
1.424 3.23 4.6 263 6.1 A++ 5.0 2.5 - 7.3 1.501 3.33 3.3 3.3 (-10°C) 3.3 (-10°C) 3.2 (-11°C) 0.0 1126 4.1 A+ 13.4 0.04 / 0.03 0.35 299-898-237 12.6 7.5-8.2-9.2-10.9 34-37-40-43 60 630-809-300 46 45 45 44 46 65 13 16 6.35 / 12.7 50 30 -15 ~ +46 -11 ~ +21
PKA-M60KA(L)2
PKA-M71KA(L)2
PUHZ-ZRP60VKA2 PUHZ-ZRP71VHA2
R410A
Outdoor power supply
VKAVHA:230/Single/50, YKA:400/Three/50
6.1
7.1
2.7 - 6.7
3.3 - 8.1
1.601
1.802
3.81
3.94
6.1
7.1
324
367
6.5
6.7
A++
A++
7.0
8.0
2.8 - 8.2
3.5 - 10.2
1.960
2.191
3.57
3.65
4.4
4.7
4.4 (-10°C)
4.7 (-10°C)
4.4 (-10°C)
4.7 (-10°C)
2.8 (-20°C)
3.5 (-20°C)
0.0
0.0
1466
1529
4.2
4.3
A+
A+
19.4
19.4
0.06 / 0.05
0.06 / 0.05
0.43
0.43
365-1170-295
365-1170-295
21
21
18-20-22
18-20-22
39-42-45
39-42-45
64
64
943-950-330(+30)
943-950-330(+30)
70
70
55
55
55
55
47
47
48
48
67
67
19
19
25
25
9.52 / 15.88
9.52 / 15.88
50
50
30
30
-15 ~ +46
-15 ~ +46
-20 ~ +21
-20 ~ +21
PKA-M100KA(L)2 PUHZ-ZRP100VKA3
9.5 4.9 - 11.4
2.398 3.96 9.5 522 6.3 A++ 11.2 4.5 - 14.0 3.043 3.68 7.8 7.8 (-10°C) 7.8 (-10°C) 5.8 (-20°C) 0.0 2659 4.1 A+ 27.1 0.08 / 0.07 0.57 365-1170-295 21 20-23-26 41-45-49 65 1338-1050-330(+40) 116 110 110 49 51 69 26.5 32 9.52 / 15.88 75 30 -15 ~ +46 -20 ~ +21
PKA-M100KA(L)2 PUHZ-ZRP100YKA3
9.5 4.9 - 11.4
2.398 3.96 9.5 532 6.2 A++ 11.2 4.5 - 14.0 3.043 3.68 7.8 7.8 (-10°C) 7.8 (-10°C) 5.8 (-20°C) 0.0 2660 4.1 A+ 8.6 0.08 / 0.07 0.57 365-1170-295 21 20-23-26 41-45-49 65 1338-1050-330(+40) 123 110 110 49 51 69
8 16 9.52 / 15.88 75 30 -15 ~ +46 -20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
60-140V/200/250
PKA-M SERIES STANDARD INVERTER
Optional
Wi-Fi
Interface
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Optional
Type
Inverter Heat Pump
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
EER
Design load
kW
Annual electricity consumption(*2)
kWh/a
SEER(*4)
Energy efficiency class
Heating Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
COP
Design load
kW
Declared Capacity
at reference design temperature kW
at bivalent temperature
kW
at operation limit temperature kW
Back up heating capacity
kW
Annual electricity consumption (*2)
kWh/a
SCOP(*4)
Energy efficiency class
Operating Current(Max)
A
Indoor Input [cooling / Heating ] Rated
kW
Unit
Operating Current(Max)
A
Dimensions
H*W*D
mm
Weight
kg
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A)
Sound Level (PWL)
dB(A)
Outdoor Dimensions
H*W*D
mm
Unit
Weight
kg
Air Volume
Cooling
m3/min
Heating
m3/min
Sound Level (SPL)
Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL)
Cooling
dB(A)
Operating Current(Max)
A
Breaker Size
A
Ext.Piping Diameter(*5)
Liquid/Gas
mm
Max.Length
Out-In
m
Max.Height
Out-In
m
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
Heating
°C
PKA-M100KA(L)2 PUHZ-P100VKA
9.4 3.7 - 10.6
3.122 3.01 9.4 586 5.6 A+ 11.2 2.8 - 12.5 3.489 3.21 8.0 6.0 (-10°C) 7.0 (-7°C) 4.5 (-15°C) 2.0 2799 4.0 A+ 20.6 0.08 / 0.07 0.57 365-1170-295 21 20-23-26 41-45-49 65 981-1050-330 76 79 79 51 54 70 20 32 9.52 / 15.88 50 30 -15 ~ +46 -15 ~ +21
R410A Outdoor power supply VKAVHA:230/Single/50, YKA:400/Three/50
PKA-M100KA(L)2 PUHZ-P100YKA
9.4 3.7 - 10.6
3.122 3.01 9.4 586 5.6 A+ 11.2 2.8 - 12.5 3.489 3.21 8.0 6.0 (-10°C) 7.0 (-7°C) 4.5 (-15°C) 2.0 2799 4.0 A+ 12.1 0.08 / 0.07 0.57 365-1170-295 21 20-23-26 41-45-49 65 981-1050-330 78 79 79 51 54 70 11.5 16 9.52 / 15.88 50 30 -15 ~ +46 -15 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
34
PCA-KA SERIES PCA-M35/50/60/71/100/125/140KA2
A stylish new indoor unit design and airflow settings for both high- and low-ceiling interiors expand installation possibilities. Together with exceptional energy-saving performance, these units are the solution to diversified air conditioning needs.
Stylish Indoor Unit Design
A stylish square-like design is adopted for the indoor units of all models. As a result, the units blend in better with the ceiling.
PCA-KA
ErP Lot 10 Compliant with High Energy-efficiency Achieving SEER/SCOP Rank A, A+ and A++
A direct-current (DC) fan motor is isntalled in the indoor unit, increasing the seasonal energy efficiency of newly designed Power Inverter series (PUHZ-ZM) and resulting in the full capacity models comply ErP Lot 10 with energy ranking A+/A++ for cooling and A/A+ for heating. This contrib-
ute to an impressive reduction in the cost of annual electricity.
Minimum SEER 4.6 Minimum SCOP 3.8
SEER A++ 6.4
SCOP A+ 4.0
SEER A++ 6.7
SCOP A+ 4.2
SEER A++ 6.5
SCOP A+
4.1
SEER A++ 6.7
SCOP A+
4.2
SEER A++ 6.4
SCOP A+ 4.3
SEER A+ 6.3
SCOP A+ 4.3
Cooling Heating
PCA-M35KA2
PCA-M50KA2
PCA-M60KA2
PCA-M71KA2 PCA-M100KA2 PCA-M100KA2
PUZ-ZM35VKA2 PUZ-ZM50VKA2 PUZ-ZM60VHA2 PUZ-ZM71VHA2 PUZ-ZM100VKA2 PUZ-ZM100YKA2
Optional Drain Pump for Full-capacity Models
The pumping height of the optional drain pump has been increased from 400mm to 600mm, expanding flexibility in choosing unit location during installation work.
G Drain pump installation possible
Drainage outlet can be 600mm above ceiling surface
Ceiling surface
Outside-air Intake
Static pressure (Pa)
Units are equipped with a knock-out hole that
G Outside-air intake characteristics
50 0
enables the induction of fresh outside-air.
50 100 150 200 250
PCA-M100-140KA2 PCA-M60/71KA2 PCA-M35/50KA2
300
0
1
2
3
4
Airflow volume (m3/min)
Equipped with Automatic Air-speed Adjustment
In addition to the conventional 4-speed setting, units are now equipped with an automatic air-speed adjustment mode. This setting automatically adjusts the air-speed to conditions that match the room environment. At the start of heating/cooling operation, the airflow is set to high-speed to quickly heat/cool the room. When the room temperature reaches the desired setting, the airflow speed is decreased automatically for stable comfortable heating/cooling operation.
Strong
Gentle
Start of cooling/heating... After room temperature is stabilized...
Equipped with High- /Low-ceiling Modes
Units are equipped with high- and low-ceiling operation modes that make it possible to switch the airflow volume to match room height. The ability to choose the optimum airflow volume makes it possible to optimize the breezy sensation felt throughout the room.
Capacity
35 50 60 71 100 125 140
High ceiling
3.5m 3.5m 3.5m 3.5m 4.2m 4.2m 4.2m
Standard ceiling
2.7m 2.7m 2.7m 2.7m 3.0m 3.0m 3.0m
Low ceiling
2.5m 2.5m 2.5m 2.5m 2.6m 2.6m 2.6m
35
Power Inverter Series
Indoor Unit
SERIES SELECTION
50-71
100-250
71-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Rotary
200/250
100-250
DC Scroll
DC Fan Motor
Vector-Wave
50-140
Grooved Piping
50-71
Heat Caulking Fixing Method
For Single
PUZ-ZM35/50
PUZ-ZM60/71 PUZ-ZM100/125/140
PCA-M35/50/60/71/100/125/140KA2
Remote Controller
For Multi (Twin/ Triple/Quadruple)
PUZ-ZM71 PUZ-ZM100/125/140/200/250
Optional
Optional
Optional
Optional
Optional
PCA-M Indoor Unit Combinations Indoor unit combinations shown below are possible.
Indoor Unit Combination
For Single
Outdoor Unit Capacity For Twin
For Triple For Quadruple
Power Inverter (PUZ-ZM) Distribution Pipe
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
35x1 50x1 60x1 71x1 100x1 125x1 140x1
35x2 50x2 60x2 71x2 100x2 125x2 50x3 60x3 71x3 50x4 60x4
MSDD-50TR2-E
MSDD50WR2-E
MSDT-111R3-E
MSDF1111R2-E
Standard Inverter Series
Indoor Unit
SERIES SELECTION
50-71
100-250
71-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Rotary
200/250
100-250
DC Scroll
DC Fan Motor
Vector-Wave
50-140
Grooved Piping
50-71
Heat Caulking Fixing Method
For Single
SUZ-M35
SUZ-M50
SUZ-M60/71
PUZ-M100/125/140
PCA-M35/50/60/71/100/125/140KA2
Remote Controller
For Multi (Twin/ Triple/Quadruple)
PUZ-M100/125/140 PUZ-M200/250
Optional
Optional
Optional
Optional
Optional
PCA-M Indoor Unit Combinations Indoor unit combinations shown below are possible.
Outdoor Unit Capacity
Indoor Unit Combination
Standard Inverter (PUZ-M& SUZ) Distribution Pipe
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
35x1 50x1 60x1 71x1 100x1 125x1 140x1 50x2 60x2 71x2 100x2 125x2 50x3 60x3 71x3 50x4 60x4
MSDD-50TR2-E
MSDD50WR2-E
MSDT-111R3-E
MSDF1111R2-E
36
PCA-M KA SERIES POWER INVERTER
Optional 60-140V/200/250
Optional
Optional
Optional Optional
Wi-Fi
Interface
Optional
Optional
Optional
Type
Inverter Heat Pump
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
Min-Max
Total Input
Rated
EER
Design load
Annual electricity consumption(*2)
SEER(*4)
Energy efficiency class
Heating Capacity
Rated
Min-Max
kW kW kW
kW kWh/a
kW kW
PCA-M35KA2 PUZ-ZM35VKA2
3.6 1.6 - 4.5
0.829 4.34 3.6 197 6.4 A++ 4.1 1.6 - 5.2
PCA-M50KA2 PUZ-ZM50VKA2
5.0 2.3 - 5.6
1.250 4.00 5.0 260 6.7 A++ 5.5 2.5 - 6.6
PCA-M60KA2 PUZ-ZM60VHA2
6.1 2.7 - 6.7
1.521 4.01 6.1 328 6.5 A++ 7.0 2.8 - 8.2
PCA-M71KA2 PCA-M100KA2 PCA-M100KA2 PCA-M125KA2 PCA-M125KA2 PCA-M140KA2 PCA-M140KA2
PUZ-ZM71VHA2 PUZ-ZM100VKA2 PUZ-ZM100YKA2 PUZ-ZM125VKA2 PUZ-ZM125YKA2 PUZ-ZM140VKA2 PUZ-ZM140YKA2
R32
Outdoor power supply
VKAVHA:230/Single/50, YKA:400/Three/50
7.1
9.5
9.5
12.5
12.5
13.4
13.4
3.3 - 8.1
4.9 - 11.4 4.9 - 11.4 5.5 - 14.0 5.5 - 14.0 6.2 - 15.0 6.2 - 15.0
1.829
2.375
2.375
3.846
3.846
3.941
3.941
3.88
4.00
4.00
3.25
3.25
3.40
3.40
7.1
9.5
9.5
---
---
---
---
371
516
527
---
---
---
---
6.7
6.4
6.3
---
---
---
---
A++
A++
A++
---
---
---
---
8.0
11.2
11.2
14.0
14.0
16.0
16.0
3.5 - 10.2 4.5 - 14.0 4.5 - 14.0 5.0 - 16.0 5.0 - 16.0 5.7 - 18.0 5.7 - 18.0
Total Input COP Design load Declared Capacity
Rated
kW
kW at reference design temperature kW
1.019 4.02 2.4 2.4 (-10°C)
1.361 4.04 3.8 3.8 (-10°C)
1.745 4.01 4.4 4.4 (-10°C)
2.156 3.71 4.7 4.7 (-10°C)
3.018 3.71 7.8 7.8 (-10°C)
3.018 3.71 7.8 7.8 (-10°C)
3.954 3.54
-----
3.954 3.54
-----
4.432 3.61
-----
4.432 3.61
-----
at bivalent temperature
kW
2.4 (-10°C) 3.8 (-10°C) 4.4 (-10°C) 4.7 (-10°C) 7.8 (-10°C) 7.8 (-10°C)
---
---
---
---
at operation limit temperature kW
2.2 (-11°C) 3.7 (-11°C) 2.8 (-20°C) 3.4 (-20°C) 5.8 (-20°C) 5.8 (-20°C)
---
---
---
---
Back up heating capacity
kW
0.0
0.0
0.0
0.0
0.0
0.0
---
---
---
---
Annual electricity consumption (*2)
kWh/a
838
1266
1501
1567
2536
2537
---
---
---
---
SCOP(*4)
4.0
4.2
4.1
4.2
4.3
4.3
---
---
---
---
Energy efficiency class
A+
A+
A+
A+
A+
A+
---
---
---
---
Operating Current(Max)
A
13.3
13.4
19.4
19.4
20.7
8.7
27.3
9.8
30.9
12.7
Indoor Input [cooling / Heating ] Rated
Unit
Operating Current(Max)
Dimensions
H*W*D
Weight
Air Volume (Lo-Mi2-Mi1-Hi)
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
Sound Level (PWL)
Outdoor Dimensions
H*W*D
Unit
Weight
Air Volume
Cooling
Heating
Sound Level (SPL)
Cooling
Heating
Sound Level (PWL)
Cooling
Operating Current(Max)
Breaker Size
Ext.Piping Diameter(*5)
Liquid/Gas
Max.Length
Out-In
Max.Height
Out-In
Guaranteed Operating Range(Outdoor) Cooling(*3)
kW
0.04 / 0.04 0.05 / 0.05 0.06 / 0.06 0.06 / 0.06 0.09 / 0.09 0.09 / 0.09 0.11 / 0.11 0.11 / 0.11 0.14 / 0.14 0.14 / 0.14
A
0.29
0.37
0.39
0.42
0.65
0.65
0.76
0.76
0.90
0.90
mm
230-960-680
230-1280-680
230-1600-680
kg
25
26
32
32
37
37
38
38
40
40
m3/min 10-11-12-14 10-11-13-15 15-16-17-19 16-17-18-20 22-24-26-28 22-24-26-28 23-25-27-29 23-25-27-29 24-26-29-32 24-26-29-32
dB(A) 31-33-36-39 32-34-37-40 33-35-37-40 35-37-39-41 37-39-41-43 37-39-41-43 39-41-43-45 39-41-43-45 41-43-45-48 41-43-45-48
dB(A)
60
60
60
62
63
63
65
65
68
68
mm 630-809-300 630-809-300 943-950-330(+25) 943-950-330(+25) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40)
kg
46
46
67
67
105
111
105
114
105
118
m3/min
45
45
55
55
110
110
120
120
120
120
m3/min
45
45
55
55
110
110
120
120
120
120
dB(A)
44
44
47
47
49
49
50
50
50
50
dB(A)
46
46
49
49
51
51
52
52
52
52
dB(A)
65
65
67
67
69
69
70
70
70
70
A
13
13
19
19
20
8
26.5
9
30
11.8
A
16
16
25
25
32
16
32
16
40
16
mm
6.35 / 12.7 6.35 / 12.7 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
m
50
50
55
55
100
100
100
100
100
100
m
30
30
30
30
30
30
30
30
30
30
°C
-15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46
Heating
°C
-11 ~ +21 -11 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
PCA-M KA SERIES STANDARD INVERTER
Optional 60-140V/200/250
Optional
Optional
Optional Optional
Wi-Fi
Interface
Optional
Optional
Optional
Type
Inverter Heat Pump
Indoor Unit
PCA-M35KA2 PCA-M50KA2 PCA-M60KA2 PCA-M71KA2 PCA-M100KA2 PCA-M100KA2 PCA-M125KA2 PCA-M125KA2 PCA-M140KA2 PCA-M140KA2
Outdoor Unit
SUZ-M35VA SUZ-M50VA SUZ-M60VA SUZ-M71VA PUZ-M100VKA2 PUZ-M100YKA2 PUZ-M125VKA2 PUZ-M125YKA2 PUZ-M140VKA2 PUZ-M140YKA2
Refrigerant(*1)
R32
Power Source
Outdoor power supply
Supply Outdoor(V/Phase/Hz)
VAVKA:230/Single/50, YKA:400/Three/50
Cooling Capacity
Rated
kW
3.6
5.0
6.1
7.1
9.5
9.5
12.1
12.1
13.4
13.4
Min-Max
kW
0.8 - 3.9
1.5 - 5.6
1.6 - 6.3
2.2 - 8.1
4.0 - 10.6 4.0 - 10.6 5.7 - 13.0 5.7 - 13.0 5.7 - 14.1 5.7 - 14.1
Total Input
Rated
kW
0.900
1.515
1.648
1.972
2.941
2.941
4.019
4.019
5.360
5.360
EER
4.00
3.30
3.70
3.60
3.23
3.23
3.01
3.01
2.50
2.50
Design load
kW
3.6
5.0
6.1
7.1
9.5
9.5
---
---
---
---
Annual electricity consumption (*2)
kWh/a
198
291
333
381
553
553
---
---
---
---
SEER (*4)
6.3
6.0
6.4
6.5
6.0
6.0
---
---
---
---
Energy efficiency class
A++
A+
A++
A++
A+
A+
---
---
---
---
Heating Capacity
Rated
kW
4.1
6.0
7.0
8.0
11.2
11.2
13.5
13.5
15.0
15.0
Min-Max
kW
1.0 - 5.0
1.5 - 7.2
1.6 - 8.0
2.0 - 10.2 2.8 - 12.5 2.8 - 12.5 4.1 - 15.0 4.1 - 15.0 4.2 - 15.8 4.2 - 15.8
Total Input
Rated
kW
1.025
1.617
1.750
2.216
3.284
3.284
3.958
3.958
4.285
4.285
COP
4.00
3.71
4.00
3.61
3.41
3.41
3.41
3.41
3.50
3.50
Design load
kW
2.6
4.3
4.6
5.8
8.0
8.0
---
---
---
---
Declared Capacity
at reference design temperature kW
2.3 (-10°C) 3.8 (-10°C) 4.1 (-10°C) 5.2 (-10°C) 6.0 (-10°C) 6.0 (-10°C)
---
---
---
---
at bivalent temperature
kW
2.3 (-7°C) 3.8 (-7°C) 4.1 (-7°C) 5.2 (-7°C) 7.0 (-7°C) 7.0 (-7°C)
---
---
---
---
at operation limit temperature kW
2.3 (-10°C) 3.8 (-10°C) 4.1 (-10°C) 5.2 (-10°C) 4.5 (-15°C) 4.5 (-15°C)
---
---
---
---
Back up heating capacity
kW
0.3
0.5
0.5
0.6
2.0
2.0
---
---
---
---
Annual electricity consumption(*2)
kWh/a
910
1458
1558
1974
2729
2729
---
---
---
---
SCOP (*4)
4.0
4.1
4.1
4.1
4.1
4.1
---
---
---
---
Energy efficiency class
A+
A+
A+
A+
A+
A+
---
---
---
---
Operating Current(Max)
A
8.8
13.9
15.2
15.2
20.7
12.2
27.3
12.3
30.9
12.4
Indoor Input [cooling / Heating ] Rated
kW
0.04 / 0.04 0.05 / 0.05 0.06 / 0.06 0.06 / 0.06 0.09 / 0.09 0.09 / 0.09 0.11 / 0.11 0.11 / 0.11 0.14 / 0.14 0.14 / 0.14
Unit
Operating Current(Max)
A
0.29
0.37
0.39
0.42
0.65
0.65
0.76
0.76
0.90
0.90
Dimensions
H*W*D
mm
230-960-680
230-1280-680
230-1600-680
Weight
kg
25
26
32
32
37
37
38
38
40
40
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min 10-11-12-14 10-11-13-15 15-16-17-19 16-17-18-20 22-24-26-28 22-24-26-28 23-25-27-29 23-25-27-29 24-26-29-32 24-26-29-32
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A) 31-33-36-39 32-34-37-40 33-35-37-40 35-37-39-41 37-39-41-43 37-39-41-43 39-41-43-45 39-41-43-45 41-43-45-48 41-43-45-48
Sound Level (PWL)
dB(A)
60
60
60
62
63
63
65
65
68
68
Outdoor Dimensions
H*W*D
mm 550-800-285 714-800-285 880-840-330 880-840-330 981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40)
Unit
Weight
kg
35
41
54
55
76
78
84
85
84
85
Air Volume
Cooling
m3/min 34.3
45.8
50.1
50.1
79
79
86
86
86
86
Heating
m3/min 32.7
43.7
50.1
50.1
79
79
92
92
92
92
Sound Level (SPL)
Cooling
dB(A)
48
48
49
49
51
51
54
54
55
55
Heating
dB(A)
48
49
51
51
54
54
56
56
57
57
Sound Level (PWL)
Cooling
dB(A)
59
64
65
66
70
70
72
72
73
73
Operating Current(Max)
A
8.5
13.5
14.8
14.8
20
11.5
26.5
11.5
30
11.5
Breaker Size
A
10
20
20
20
32
16
32
16
40
16
Ext.Piping Diameter(*5)
Liquid/Gas
mm
6.35 / 9.52 6.35 / 12.7 6.35 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
Max.Length
Out-In
m
20
30
30
30
55
55
65
65
65
65
Max.Height
Out-In
m
12
30
30
30
30
30
30
30
30
30
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
-10 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46
Heating
°C
-10 ~ +24 -10 ~ +24 -10 ~ +24 -10 ~ +24 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
37
Power Inverter Series
Indoor Unit
SERIES SELECTION
35-71
100-250
35-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Scroll
DC Fan Motor
Vector-Wave
Grooved Piping
35-71
Heat Caulking Fixing Method
For Single
PUHZ-ZRP35/50 PUHZ-ZRP60/71 PUHZ-ZRP100/125/140
PCA-M35/50/60/71/100/125/140KA2
Remote Controller
For Multi (Twin/ Triple/Quadruple)
PUHZ-ZRP100/125/140/200/250
Optional
Optional
Optional
Optional
Optional
PCA-M KA Indoor Unit Combinations Indoor unit combinations shown below are possible.
Outdoor Unit Capacity
Indoor Unit Combination
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
Power Inverter (PUHZ-ZRP) Distribution Pipe
35x1 50x1 60x1 71x1 100x1 125x1 140x1
35x2 50x2 60x2 71x2 100x2 125x2 50x3 60x3 71x3 50x4 60x4
MSDD-50TR-E
MSDD50WR-E
MSDT-111R-E
MSDF1111R-E
Standard Inverter Series
Indoor Unit
SERIES SELECTION
50-71
100-250
71-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Rotary
200/250
100-250
DC Scroll
DC Fan Motor
Vector-Wave
50-140
Grooved Piping
50-71
Heat Caulking Fixing Method
For Single
SUZ-KA35
SUZ-KA50/60/71 PUHZ-P100/125/140
PCA-M35/50/60/71/100/125/140KA2
Remote Controller
For Multi (Twin/ Triple/Quadruple)
PUHZ-P100/125/140 PUHZ-P200/250
Optional
Optional
Optional
Optional
Optional
PCA-M KA Indoor Unit Combinations Indoor unit combinations shown below are possible.
Outdoor Unit Capacity
Indoor Unit Combination
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
Standard Inverter (PUHZ-P& SUZ) 35x1 50x1 60x1 71x1 100x1 125x1 140x1 50x2 60x2 71x2 100x2 125x2 50x3 60x3 71x3 50x4 60x4
Distribution Pipe
MSDD-50TR-E
MSDD50WR-E
MSDT-111R-E
MSDF1111R-E
38
PCA-M KA SERIES POWER INVERTER
Optional 60-140V/200/250
Optional
Optional
Optional Optional
Wi-Fi
Interface
Optional
Optional
Optional
Type
Inverter Heat Pump
Indoor Unit
PCA-M35KA2 PCA-M50KA2 PCA-M60KA2 PCA-M71KA2 PCA-M100KA2 PCA-M100KA2 PCA-M125KA2 PCA-M125KA2 PCA-M140KA2 PCA-M140KA2
Outdoor Unit
PUHZ-ZRP35VKA2 PUHZ-ZRP50VKA2 PUHZ-ZRP60VHA2 PUHZ-ZRP71VHA2 PUHZ-ZRP100VKA3 PUHZ-ZRP100YKA3 PUHZ-ZRP125VKA3 PUHZ-ZRP125YKA3 PUHZ-ZRP140VKA3 PUHZ-ZRP140YKA3
Refrigerant(*1)
R410A
Power Source
Outdoor power supply
Supply Outdoor(V/Phase/Hz)
VKAVHA:230/Single/50, YKA:400/Three/50
Cooling Capacity
Rated
kW
3.6
5.0
6.1
7.1
9.5
9.5
12.5
12.5
13.4
13.4
Min-Max
kW
1.6 - 4.5
2.3 - 5.6
2.7 - 6.7
3.3 - 8.1
4.9 - 11.4 4.9 - 11.4 5.5 - 14.0 5.5 - 14.0 6.2 - 15.0 6.2 - 15.0
Total Input
Rated
kW
0.857
1.351
1.694
1.821
2.417
2.435
3.980
3.980
3.952
3.952
EER
4.19
3.73
3.67
3.90
3.93
3.90
3.14
3.14
3.39
3.39
Design load
kW
3.6
5.0
6.1
7.1
9.5
9.5
---
---
---
---
Annual electricity consumption(*2)
kWh/a
202
282
340
367
542
553
---
---
---
---
SEER(*4)
6.2
6.1
6.2
6.7
6.1
6.0
---
---
---
---
Energy efficiency class
A++
A++
A++
A++
A++
A+
---
---
---
---
Heating Capacity
Rated
kW
4.1
5.5
7.0
8.0
11.2
11.2
14.0
14.0
16.0
16.0
Min-Max
kW
1.6 - 5.2
2.5 - 6.6
2.8 - 8.2
3.5 - 10.2 4.5 - 14.0 4.5 - 14.0 5.0 - 16.0 5.0 - 16.0 5.7 - 18.0 5.7 - 18.0
Total Input
Rated
kW
1.019
1.450
1.930
2.197
3.043
3.043
3.804
3.804
4.571
4.571
COP
4.02
3.79
3.63
3.64
3.68
3.68
3.68
3.68
3.50
3.50
Design load
kW
2.4
3.8
4.4
4.7
7.8
7.8
---
---
---
---
Declared Capacity
at reference design temperature kW
2.4 (-10°C) 3.8 (-10°C) 4.4 (-10°C) 4.7 (-10°C) 7.8 (-10°C) 7.8 (-10°C)
---
---
---
---
at bivalent temperature
kW
2.4 (-10°C) 3.8 (-10°C) 4.4 (-10°C) 4.7 (-10°C) 7.8 (-10°C) 7.8 (-10°C)
---
---
---
---
at operation limit temperature kW
2.2 (-11°C) 3.7 (-11°C) 2.8 (-20°C) 3.5 (-20°C) 5.8 (-20°C) 5.8 (-20°C)
---
---
---
---
Back up heating capacity
kW
0.0
0.0
0.0
0.0
0.0
0.0
---
---
---
---
Annual electricity consumption (*2)
kWh/a
817
1259
1461
1522
2784
2785
---
---
---
---
SCOP(*4)
4.1
4.2
4.2
4.3
3.9
3.9
---
---
---
---
Energy efficiency class
A+
A+
A+
A+
A
A
---
---
---
---
Operating Current(Max)
A
13.3
13.4
19.4
19.4
27.2
8.7
27.3
10.3
28.9
13.9
Indoor Input [cooling / Heating ] Rated
kW
0.04 / 0.04 0.05 / 0.05 0.06 / 0.06 0.06 / 0.06 0.09 / 0.09 0.09 / 0.09 0.11 / 0.11 0.11 / 0.11 0.14 / 0.14 0.14 / 0.14
Unit
Operating Current(Max)
A
0.29
0.37
0.39
0.42
0.65
0.65
0.76
0.76
0.90
0.90
Dimensions
H*W*D
mm
230-960-680
230-1280-680
230-1600-680
Weight
kg
25
26
32
32
37
37
38
38
40
40
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min 10-11-12-14 10-11-13-15 15-16-17-19 16-17-18-20 22-24-26-28 22-24-26-28 23-25-27-29 23-25-27-29 24-26-29-32 24-26-29-32
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A) 31-33-36-39 32-34-37-40 33-35-37-40 35-37-39-41 37-39-41-43 37-39-41-43 39-41-43-45 39-41-43-45 41-43-45-48 41-43-45-48
Sound Level (PWL)
dB(A)
60
60
60
62
63
63
65
65
68
68
Outdoor Dimensions
H*W*D
mm 630-809-300 630-809-300 943-950-330(+30) 943-950-330(+25) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40)
Unit
Weight
kg
43
46
70
70
116
123
116
125
118
131
Air Volume
Cooling
m3/min
45
45
55
55
110
110
120
120
120
120
Heating
m3/min
45
45
55
55
110
110
120
120
120
120
Sound Level (SPL)
Cooling
dB(A)
44
44
47
47
49
49
50
50
50
50
Heating
dB(A)
46
46
48
48
51
51
52
52
52
52
Sound Level (PWL)
Cooling
dB(A)
65
65
67
67
69
69
70
70
70
70
Operating Current(Max)
A
13
13
19
19
26.5
8
26.5
9.5
28
13
Breaker Size
A
16
16
25
25
32
16
32
16
40
16
Ext.Piping Diameter(*5)
Liquid/Gas
mm
6.35 / 12.7 6.35 / 12.7 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
Max.Length
Out-In
m
50
50
50
50
75
75
75
75
75
75
Max.Height
Out-In
m
30
30
30
30
30
30
30
30
30
30
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
-15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46
Heating
°C
-11 ~ +21 -11 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21 -20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
PUHZ
PUHZ
PCA-M KA SERIES STANDARD INVERTER
Optional PUHZ
Optional
Optional
PUHZ
SUZ Optional
Optional Optional
Wi-Fi
Interface
Optional
PUHZ
PUHZ Optional
Optional
PUHZ
Type
Inverter Heat Pump
Indoor Unit
PCA-M35KA2 PCA-M50KA2 PCA-M60KA2 PCA-M71KA2 PCA-M100KA2 PCA-M100KA2 PCA-M125KA2 PCA-M125KA2 PCA-M140KA2 PCA-M140KA2
Outdoor Unit
SUZ-KA35VA6 SUZ-KA50VA6 SUZ-KA60VA6 SUZ-KA71VA6 PUHZ-P100VKA PUHZ-P100YKA PUHZ-P125VKA PUHZ-P125YKA PUHZ-P140VKA PUHZ-P140YKA
Refrigerant(*1)
R410A
Power Source
Outdoor power supply
Supply Outdoor(V/Phase/Hz)
VAVKA:230/Single/50, YKA:400/Three/50
Cooling Capacity
Rated
kW
3.6
5.0
5.7
7.1
9.4
9.4
12.1
12.1
13.6
13.6
Min-Max
kW
1.4 - 3.9
2.3 - 5.6
2.3 - 6.3
2.8 - 8.1
3.7 - 10.6 3.7 - 10.6 5.6 - 13.0 5.6 - 13.0 5.8 - 14.1 5.8 - 14.1
Total Input
Rated
kW
1.050
1.547
1.722
2.057
3.051
3.051
4.245
4.245
5.643
5.643
EER
3.43
3.23
3.31
3.45
3.08
3.08
2.85
2.85
2.41
2.41
Design load
kW
3.6
5.0
5.7
7.1
9.4
9.4
---
---
---
---
Annual electricity consumption (*2)
kWh/a
209
299
325
408
584
584
---
---
---
---
SEER(*4)
6.0
5.8
6.1
6.0
5.6
5.6
---
---
---
---
Energy efficiency class
A+
A+
A++
A+
A+
A+
---
---
---
---
Heating Capacity
Rated
kW
4.1
5.5
6.9
7.9
11.2
11.2
13.5
13.5
15.0
15.0
Min-Max
kW
1.7 - 5.0
1.7 - 6.6
2.5 - 8.0
2.6 - 10.2 2.8 - 12.5 2.8 - 12.5 4.8 - 15.0 4.8 - 15.0 4.9 - 15.8 4.9 - 15.8
Total Input
Rated
kW
1.051
1.519
1.911
2.182
3.373
3.373
4.066
4.066
4.477
4.477
COP
3.90
3.62
3.61
3.62
3.32
3.32
3.32
3.32
3.35
3.35
Design load
kW
2.6
4.0
4.8
5.8
8.0
8.0
---
---
---
---
Declared Capacity
at reference design temperature kW
2.3 (-10°C) 3.6 (-10°C) 4.0 (-10°C) 5.2 (-10°C) 6.0 (-10°C) 6.0 (-10°C)
---
---
---
---
at bivalent temperature
kW
2.3 (-7°C) 3.6 (-7°C) 4.3 (-7°C) 5.2 (-7°C) 7.0 (-7°C) 7.0 (-7°C)
---
---
---
---
at operation limit temperature kW
2.3 (-10°C) 3.6 (-10°C) 4.0 (-10°C) 5.2 (-10°C) 4.5 (-15°C) 4.5 (-15°C)
---
---
---
---
Back up heating capacity
kW
0.3
0.4
0.8
0.6
2.0
2.0
---
---
---
---
Annual electricity consumption(*2)
kWh/a
886
1388
1680
2029
2729
2729
---
---
---
---
SCOP(*4)
4.1
4.0
4.0
4.0
4.1
4.1
---
---
---
---
Energy efficiency class
A+
A+
A+
A+
A+
A+
---
---
---
---
Operating Current(Max)
A
8.5
12.4
14.4
16.5
20.7
12.2
27.3
12.3
30.9
12.4
Indoor Input [cooling / Heating ] Rated
kW
0.04 / 0.04 0.05 / 0.05 0.06 / 0.06 0.06 / 0.06 0.09 / 0.09 0.09 / 0.09 0.11 / 0.11 0.11 / 0.11 0.14 / 0.14 0.14 / 0.14
Unit
Operating Current(Max)
A
0.29
0.37
0.39
0.42
0.65
0.65
0.76
0.76
0.90
0.90
Dimensions
H*W*D
mm
230-960-680
230-1280-680
230-1600-680
Weight
kg
25
26
32
32
37
37
38
38
40
40
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min 10-11-12-14 10-11-13-15 15-16-17-19 16-17-18-20 22-24-26-28 22-24-26-28 23-25-27-29 23-25-27-29 24-26-29-32 24-26-29-32
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A) 31-33-36-39 32-34-37-40 33-35-37-40 35-37-39-41 37-39-41-43 37-39-41-43 39-41-43-45 39-41-43-45 41-43-45-48 41-43-45-48
Sound Level (PWL)
dB(A)
60
60
60
62
63
63
65
65
68
68
Outdoor Dimensions
H*W*D
mm 550-800-285 880-840-330 880-840-330 880-840-330 981-1050-330 981-1050-330 981-1050-330 981-1050-330 981-1050-330 981-1050-330
Unit
Weight
kg
35
54
50
53
76
78
84
85
84
85
Air Volume
Cooling
m3/min 36.3
44.6
40.9
50.1
79
79
86
86
86
86
Heating
m3/min 34.8
44.6
49.2
48.2
79
79
92
92
92
92
Sound Level (SPL)
Cooling
dB(A)
49
52
55
55
51
51
54
54
56
56
Heating
dB(A)
50
52
55
55
54
54
56
56
57
57
Sound Level (PWL)
Cooling
dB(A)
62
65
65
69
70
70
72
72
75
75
Operating Current(Max)
A
8.2
12
14
16.1
20
11.5
26.5
11.5
30
11.5
Breaker Size
A
10
20
20
20
32
16
32
16
40
16
Ext.Piping Diameter(*5)
Liquid/Gas
mm
6.35 / 9.52 6.35 / 12.7 6.35 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
Max.Length
Out-In
m
20
30
30
30
50
50
50
50
50
50
Max.Height
Out-In
m
12
30
30
30
30
30
30
30
30
30
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
-10 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46 -15 ~ +46
Heating
°C
-10 ~ +24 -10 ~ +24 -10 ~ +24 -10 ~ +24 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21 -15 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
39
PCA-HA SERIES PCA-M71HA2
Standard features include a strong carbon-black stainless steel body and built-in oil mist filter to prevent oil from getting into the unit providing a comfortable air conditioning environment in kitchens that use open-flame cooking.
Tough on Oily Smoke
A durable stainless steel casing that is resistant to oil and grease is provided to protect the surface of the body. Grimy dirt and stains are removed easily, enabling the unit to be kept clean at all times.
High-performance Oil Mist Filter
A high-performance heavy-duty oil mist filter is included as standard equipment. The filtering system is more efficient than conventional filters, thereby effectively reducing the oily smoke entering the air conditioner. The filter is disposable, thereby enabling trouble-free cleaning and maintenance.
Oil Mist Filter Cleaning
When used in kitchens, the oil mist filter should be replaced once every two months. The system comes with 12 filters elements. After these have been used, optional elements (PAC-SG38KF-E) can be purchased.
Easy Maintenance Even for Cleaning the Fan
A separate fan casing that can be disassembled in sections is adopted to ensure easy fan cleaning. Drain pan cleaning onsite is also no problem owing to the use of a pipe connector that is easily removed.
Fresh Outside-air Intake (Option)
There is a knock-out opening on the rear panel of the unit that can be used to bring fresh air into the unit. This helps to improve ventilation and make the kitchen comfortable.
Knock-out opening Fresh air knock-out opening (ø200)
Flexible Duct (Procured locally)
Duct Flange (ø200, Optional PAC-SF28OF-E)
Oil mist filter
Pull the handle to easily slide the filter out
Cosmetic Front and Hanging Fixture Covers (Option)
Cosmetic covers are available to prevent the collection of dust and grime on the main body and hanging fixture sections.
Front cover
Hanging fixture cover
Fresh Air Knock-out Opening (ø200)
Notes: 1) A fresh-air duct flange is required (sold separately) 2) Intake air is not 100% fresh (outside) air.
40
Power Inverter Series
Indoor Unit
SERIES SELECTION
71
100-250
71
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Scroll
DC Fan Motor
Vector-Wave
Remote Controller
Grooved Piping
71
Heat Caulking Fixing Method
For Single
PUZ-ZM71
Optional
Optional
Optional
PCA-M71HA2
For Multi (Twin / Triple)
PUZ-ZM140/250
Optional
PCA-M HA Indoor Unit Combinations Indoor unit combinations shown below are possible.
Indoor Unit Combination
Power Inverter (PUZ-ZM) Distribution Pipe
Outdoor Unit Capacity
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
71x1 71x2 71x3
MSDD50TR2-E
MSDT111R3-E
Power Inverter Series
Indoor Unit
SERIES SELECTION
71
100-250
71
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Scroll
DC Fan Motor
Vector-Wave
Remote Controller
Grooved Piping
71
Heat Caulking Fixing Method
For Single
PUHZ-ZRP71
Optional
Optional
Optional
PCA-M71HA2
For Multi (Twin / Triple)
PUHZ-ZRP140/250
Optional
PCA-M HA Indoor Unit Combinations Indoor unit combinations shown below are possible.
Indoor Unit Combination
Power Inverter (PUHZ-ZRP ) Distribution Pipe
Outdoor Unit Capacity
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
71x1 71x2 71x3
MSDD-50TR-E MSDT-111R-E
41
PCA-RP HA SERIES
Optional
POWER INVERTER
Optional
Optional
Optional
Optional
Type
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
EER
Design load
kW
Annual electricity consumption(*2)
kWh/a
SEER(*4)
Energy efficiency class
Heating Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
COP
Design load
kW
Declared Capacity
at reference design temperature kW
at bivalent temperature
kW
at operation limit temperature kW
Back up heating capacity
kW
Annual electricity consumption (*2)
kWh/a
SCOP(*4)
Energy efficiency class
Operating Current(Max)
A
Indoor Input [cooling / Heating ] Rated
kW
Unit
Operating Current(Max)
A
Dimensions
H*W*D
mm
Weight
kg
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A)
Sound Level (PWL)
dB(A)
Outdoor Dimensions
H*W*D
mm
Unit
Weight
kg
Air Volume
Cooling
m3/min
Heating
m3/min
Sound Level (SPL)
Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL)
Cooling
dB(A)
Operating Current(Max)
A
Breaker Size
A
Ext.Piping Diameter(*5)
Liquid/Gas
mm
Max.Length
Out-In
m
Max.Height
Out-In
m
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
Heating
°C
Inverter Heat Pump PCA-M71HA2
PUZ-ZM71VHA2 R32
Outdoor power supply 230/Single/50 7.1 3.3 - 8.1 2.028 3.50 7.1 443 5.6 A+ 7.6 3.5 - 10.2 2.171 3.50 4.7 4.7 (-10°C) 4.7 (-10°C) 3.4 (-20°C) 0.0 1684 3.9 A 19.4 0.10 / 0.10 0.43 280-1136-650 42 16-18 37-39 57
943-950-330(+25) 67 55 55 47 49 67 19 25
9.52 / 15.88 55 30
-15 ~ +46 -20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.The GWP of R410A is 2088 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
PCA-RP HA SERIES
Optional
POWER INVERTER
Optional
Optional
Optional
Optional
Type
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
EER
Design load
kW
Annual electricity consumption(*2)
kWh/a
SEER(*4)
Energy efficiency class
Heating Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
COP
Design load
kW
Declared Capacity
at reference design temperature kW
at bivalent temperature
kW
at operation limit temperature kW
Back up heating capacity
kW
Annual electricity consumption (*2)
kWh/a
SCOP(*4)
Energy efficiency class
Operating Current(Max)
A
Indoor Input [cooling / Heating ] Rated
kW
Unit
Operating Current(Max)
A
Dimensions
H*W*D
mm
Weight
kg
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A)
Sound Level (PWL)
dB(A)
Outdoor Dimensions
H*W*D
mm
Unit
Weight
kg
Air Volume
Cooling
m3/min
Heating
m3/min
Sound Level (SPL)
Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL)
Cooling
dB(A)
Operating Current(Max)
A
Breaker Size
A
Ext.Piping Diameter(*5)
Liquid/Gas
mm
Max.Length
Out-In
m
Max.Height
Out-In
m
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
Heating
°C
Inverter Heat Pump PCA-M71HA2
PUHZ-ZRP71VHA2 R410A
Outdoor power supply 230/Single/50 7.1 3.3 - 8.1 2.170 3.27 7.1 444 5.6 A+ 7.6 3.5 - 10.2 2.350 3.23 4.7 4.7 (-10°C) 4.7 (-10°C) 3.5 (-20°C) 0.0 1724 3.8 A 19.4 0.10 / 0.10 0.43 280-1136-650 42 16-18 37-39 57
943-950-330(+30) 70 55 55 47 48 67 19 25
9.52 / 15.88 50 30
-15 ~ +46 -20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.The GWP of R410A is 2088 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
42
PSA SERIES
PSA-M71/100/125/140KA
Installation of this floor-standing series is easy and quick. An excellent choice when there is a sudden need for an air conditioner to be installed.
A slim design the fits neatly into any space
With a width of only 600mm, this slim unit can fit neatly into narrow spaces.
Built-in MA smart remote controller
The large and easy-to-read LCD makes it easy to perform a variety of functions.
600mm
Equipped with a long-life filter as standard
The adoption of a grille that can be opened allows the filter to be easily removed.
A wide airflow range with horizontal swinging
The horizontal swinging function can be turned on or off via the remote controller to deliver comfort over a wider area.
Automatic swinging in the horizontal direction
The horizontal-swinging louvers provide wide coverage for improved comfort.
Airflow can also be adjusted manually in the vertical direction.
Floor-standing Line-up
The PSA series was previously only able to be connected to P series outdoor units. However, it can now also be connected to S series outdoor units. This wider lineup provides our customers with a more flexible range of options.
Floor-standing PSA-MKA
Power Inverter
Standard Inverter
Power Inverter
Standard Inverter
PUZ-ZM71 PUZ-ZM100/125/ 140/200/250
SUZ-M71 PUZ-M100/125/140 PUZ-M200/250
PUHZ-ZRP PUHZ-ZRP60/71 100/125/140
PUHZP100/125/140
PUHZP200/250
43
Power Inverter Series
Indoor Unit
SERIES SELECTION
71
100-250
71-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Scroll
DC Fan Motor
Vector-Wave
Grooved Piping
71
Heat Caulking Fixing Method
For Single
PUZ-ZM71
PUZ-ZM100/125/140
PSA-M71/100/125/140KA Remote Controller
For Multi (Twin/ Triple)
PUZ-ZM140/200/250
Built-in
Optional8
PSA-M Indoor Unit Combinations Indoor unit combinations shown below are possible.
8 PAC-SC9CA-E is also required.
Outdoor Unit Capacity
Indoor Unit Combination
Power Inverter (PUZ-ZM) Distribution Pipe
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
71x1 100x1 125x1 140x1 71x2 100x2 125x2 71x3
MSDD -50TR2-E
MSDD-50WR2-E
MSDT -111R3-E
Standard Inverter Series
Indoor Unit
SERIES SELECTION
Outdoor Unit
100-140
Vector Sine Wave
DC Rotary
200/250
100-140
DC Scroll
DC Fan Motor
Vector-Wave
Grooved Piping
For Single
SUZ-M71
PUZ-M100/125/140
PSA-M71/100/125/140KA Remote Controller
For Multi (Twin/ Triple)
PUZ-M140
PUZ-M200/250
Built-in
Optional8
PSA-M Indoor Unit Combinations Indoor unit combinations shown below are possible.
8 PAC-SC9CA-E is also required.
Outdoor Unit Capacity
Indoor Unit Combination
Standard Inverter (PUZ-M) Distribution Pipe
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
71x1 100x1 125x1 140x1 71x2 100x2 125x2 71x3
MSDD -50TR2-E
MSDD-50WR2-E
MSDT -111R3-E
44
PSA-M SERIES
Optional
POWER INVERTER
Optional
71-140V
Optional
Optional
Wi-Fi
Interface
Optional
Type
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
EER
Design load
kW
Annual electricity consumption(*2)
kWh/a
SEER(*4)
Energy efficiency class
Heating Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
COP
Design load
kW
Declared Capacity
at reference design temperature kW
at bivalent temperature
kW
at operation limit temperature kW
Back up heating capacity
kW
Annual electricity consumption(*2)
kWh/a
SCOP(*4)
Energy efficiency class
Operating Current(Max)
A
Indoor Input [cooling / Heating ] Rated
kW
Unit
Operating Current(Max)
A
Dimensions
H*W*D
mm
Weight
kg
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A)
Sound Level (PWL)
dB(A)
Outdoor Dimensions
H*W*D
mm
Unit
Weight
kg
Air Volume
Cooling
m3/min
Heating
m3/min
Sound Level (SPL)
Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL)
Cooling
dB(A)
Operating Current(Max)
A
Breaker Size
A
Ext.Piping Diameter(*5)
Liquid/Gas
mm
Max.Length
Out-In
m
Max.Height
Out-In
m
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
Heating
°C
PSA-M71KA PUZ-ZM71VHA2
7.1 3.3 - 8.1
1.888 3.76 7.1 388 6.4 A++ 7.6 3.5 - 10.2 2.338 3.25 4.7 4.7 (-10°C) 4.7 (-10°C) 3.4 (-20°C) 0.0 1636 4.0 A+ 19.4 0.06 / 0.06 0.4 1900-600-360 46 20-22-24 40-42-44 60 943-950-330(+25) 67 55 55 47 49 67 19 25 9.52 / 15.88 55 30 -15 ~ +46 -20 ~ +21
Inverter Heat Pump
PSA-M100KA
PSA-M100KA
PSA-M125KA
PSA-M125KA
PSA-M140KA
PSA-M140KA
PUZ-ZM100VKA2 PUZ-ZM100YKA2 PUZ-ZM125VKA2 PUZ-ZM125YKA2 PUZ-ZM140VKA2 PUZ-ZM140YKA2
R32
Outdoor power supply
VKAVHA:230/Single/50, YKA:400/Three/50
9.5
9.5
12.5
12.5
13.4
13.4
4.9 - 11.4
4.9 - 11.4
5.5 - 14.0
5.5 - 14.0
6.2 - 15.0
6.2 - 15.0
2.493
2.493
3.955
3.955
3.976
3.976
3.81
3.81
3.16
3.16
3.37
3.37
9.5
9.5
---
---
---
---
581
592
---
---
---
---
5.7
5.6
---
---
---
---
A+
A+
---
---
---
---
11.2
11.2
14.0
14.0
16.0
16.0
4.5 - 14.0
4.5 - 14.0
5 - 16.0
5 - 16.0
5.7 - 18.0
5.7 - 18.0
3.172
3.172
4.501
4.501
5.000
5.000
3.53
3.53
3.11
3.11
3.20
3.20
7.8
7.8
---
---
---
---
7.8 (-10°C)
7.8 (-10°C)
---
---
---
---
7.8 (-10°C)
7.8 (-10°C)
---
---
---
---
5.8 (-20°C)
5.8 (-20°C)
---
---
---
---
0.0
0.0
---
---
---
---
2658
2659
---
---
---
---
4.1
4.1
---
---
---
---
A+
A+
---
---
---
---
20.7
8.7
27.2
9.7
30.7
12.5
0.11 / 0.11
0.11 / 0.11
0.11 / 0.11
0.11 / 0.11
0.11 / 0.11
0.11 / 0.11
0.71
0.71
0.73
0.73
0.73
0.73
1900-600-360
1900-600-360
1900-600-360
1900-600-360
1900-600-360
1900-600-360
46
46
46
46
48
48
25-28-30
25-28-30
25-28-31
25-28-31
25-28-31
25-28-31
45-49-51
45-49-51
45-49-51
45-49-51
45-49-51
45-49-51
65
65
66
66
66
66
1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40)
105
111
105
114
105
118
110
110
120
120
120
120
110
110
120
120
120
120
49
49
50
50
50
50
51
51
52
52
52
52
69
69
70
70
70
70
20
8
26.5
9
30
11.8
32
16
32
16
40
16
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
100
100
100
100
100
100
30
30
30
30
30
30
-15 ~ +46
-15 ~ +46
-15 ~ +46
-15 ~ +46
-15 ~ +46
-15 ~ +46
-20 ~ +21
-20 ~ +21
-20 ~ +21
-20 ~ +21
-20 ~ +21
-20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance
contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.The GWP of R410A is 2088 in the IPCC 4th Assessment Report. *2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located.
*3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
PSA-M SERIES
Optional
STANDARD INVERTER
Optional
Optional
Wi-Fi
Interface
Optional
Optional
Type
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
EER
Design load
kW
Annual electricity consumption(*2)
kWh/a
SEER(*4)
Energy efficiency class
Heating Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
COP
Design load
kW
Declared Capacity
at reference design temperature kW
at bivalent temperature
kW
at operation limit temperature kW
Back up heating capacity
kW
Annual electricity consumption(*2)
kWh/a
SCOP(*4)
Energy efficiency class
Operating Current(Max)
A
Indoor Input [cooling / Heating ] Rated
kW
Unit
Operating Current(Max)
A
Dimensions
H*W*D
mm
Weight
kg
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A)
Sound Level (PWL)
dB(A)
Outdoor Dimensions
H*W*D
mm
Unit
Weight
kg
Air Volume
Cooling
m3/min
Heating
m3/min
Sound Level (SPL)
Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL)
Cooling
dB(A)
Operating Current(Max)
A
Breaker Size
A
Ext.Piping Diameter(*5)
Liquid/Gas
mm
Max.Length
Out-In
m
Max.Height
Out-In
m
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
Heating
°C
PSA-M71KA SUZ-M71VA
7.1 2.2 - 8.1
1.972 3.60 7.1 394 6.3 A++ 8.0 2.1 - 10.2 2.492 3.21 5.8 5.2 (-10°C) 5.2 (-7°C) 5.2 (-10°C) 0.6 2003 4.0 A+ 15.2 0.06 / 0.06 0.4 1900-600-360 46 20-22-24 40-42-44 60 880-840-330 55 50.1 50.1 49 51 66 14.8 20 9.52 / 15.88 30 30 -15 ~ +46 -10 ~ +24
Inverter Heat Pump
PSA-M100KA
PSA-M100KA
PSA-M125KA
PSA-M125KA
PSA-M140KA
PSA-M140KA
PUZ-M100VKA2 PUZ-M100YKA2 PUZ-M125VKA2 PUZ-M125YKA2 PUZ-M140VKA2 PUZ-M140YKA2
R32
Outdoor power supply
VA, VKA:230/Single/50, YKA:400/Three/50
9.4
9.4
12.1
12.1
13.6
13.6
3.7 - 10.6
3.7 - 10.6
5.6 - 13.0
5.6 - 13.0
5.8 - 13.7
5.8 - 13.7
2.686
2.686
4.481
4.481
5.037
5.037
3.50
3.50
2.70
2.70
2.70
2.70
9.4
9.4
---
---
---
---
591
591
---
---
---
---
5.5
5.5
---
---
---
---
A
A
---
---
---
---
11.2
11.2
13.5
13.5
15.0
15.0
2.8 - 12.5
2.8 - 12.5
4.8 - 15.0
4.8 - 15.0
4.9 - 15.8
4.9 - 15.8
3.246
3.246
4.355
4.355
4.761
4.761
3.45
3.45
3.10
3.10
3.15
3.15
8.0
8.0
---
---
---
---
6.0 (-10°C)
6.0 (-10°C)
---
---
---
---
7.0 (-7°C)
7.0 (-7°C)
---
---
---
---
4.5 (-15°C)
4.5 (-15°C)
---
---
---
---
2.0
2.0
---
---
---
---
2745
2745
---
---
---
---
4.0
4.0
---
---
---
---
A+
A+
---
---
---
---
20.7
12.2
27.2
12.2
30.7
12.2
0.11 / 0.11
0.11 / 0.11
0.11 / 0.11
0.11 / 0.11
0.11 / 0.11
0.11 / 0.11
0.71
0.71
0.73
0.73
0.73
0.73
1900-600-360
1900-600-360
1900-600-360
1900-600-360
1900-600-360
1900-600-360
46
46
46
46
48
48
25-28-30
25-28-30
25-28-31
25-28-31
25-28-31
25-28-31
45-49-51
45-49-51
45-49-51
45-49-51
45-49-51
45-49-51
65
65
66
66
66
66
981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40) 981-1050-330(+40)
76
78
84
85
84
85
79
79
86
86
86
86
79
79
92
92
92
92
51
51
54
54
55
55
54
54
56
56
57
57
70
70
72
72
73
73
20
11.5
26.5
11.5
30
11.5
32
16
32
16
40
16
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
55
55
65
65
65
65
30
30
30
30
30
30
-15 ~ +46
-15 ~ +46
-15 ~ +46
-15 ~ +46
-15 ~ +46
-15 ~ +46
-15 ~ +21
-15 ~ +21
-15 ~ +21
-15 ~ +21
-15 ~ +21
-15 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.The GWP of R410A is 2088 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
45
Power Inverter Series
Indoor Unit
SERIES SELECTION
71
100-250
71-140
Outdoor Unit
Joint Lap
Vector Sine Wave
DC Scroll
DC Fan Motor
Vector-Wave
Grooved Piping
71
Heat Caulking Fixing Method
For Single
PUHZ-ZRP71
PUHZ-ZRP100/125/140
PSA-M71/100/125/140KA Remote Controller
For Multi (Twin/ Triple)
PUHZ-ZRP140/200/250
Built-in
Optional8
PSA-M Indoor Unit Combinations Indoor unit combinations shown below are possible.
8 PAC-SC9CA-E is also required.
Outdoor Unit Capacity
Indoor Unit Combination
Power Inverter (PUHZ-ZRP) Distribution Pipe
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
71x1 100x1 125x1 140x1 71x2 100x2 125x2 71x3
MSDD -50TR-E
MSDD-50WR-E
MSDT -111R-E
Standard Inverter Series
Indoor Unit
SERIES SELECTION
Outdoor Unit
100-140
Vector Sine Wave
DC Rotary
200/250
100-140
DC Scroll
DC Fan Motor
Vector-Wave
Grooved Piping
For Single
PUHZ-P100/125/140
PSA-M71/100/125/140KA Remote Controller
For Multi (Twin/ Triple)
PUHZ-P140
PUHZ-P200/250
Built-in
Optional8
PSA-M Indoor Unit Combinations Indoor unit combinations shown below are possible.
8 PAC-SC9CA-E is also required.
Outdoor Unit Capacity
Indoor Unit Combination
Standard Inverter (PUHZ-P ) Distribution Pipe
For Single
For Twin
For Triple For Quadruple
35 50 60 71 100 125 140 200 250 71 100 125 140 200 250 140 200 250 200 250
100x1 125x1 140x1 71x2 100x2 125x2 71x3
MSDD -50TR-E
MSDD-50WR-E
MSDT -111R-E
46
PSA-RP SERIES
Optional
POWER INVERTER
Optional
71-140V
Optional
Optional
Wi-Fi
Interface
Optional
Type
Inverter Heat Pump
Indoor Unit
PSA-M71KA
PSA-M100KA
PSA-M100KA
PSA-M125KA
PSA-M125KA
PSA-M140KA
PSA-M140KA
Outdoor Unit
PUHZ-ZRP71VHA2 PUHZ-ZRP100VKA3 PUHZ-ZRP100YKA3 PUHZ-ZRP125VKA3 PUHZ-ZRP125YKA3 PUHZ-ZRP140VKA3 PUHZ-ZRP140YKA3
Refrigerant(*1)
R410A
Power Source
Outdoor power supply
Supply Outdoor(V/Phase/Hz)
VKAVHA:230/Single/50, YKA:400/Three/50
Cooling Capacity
Rated
kW
7.1
9.5
9.5
12.5
12.5
13.4
13.4
Min-Max
kW
3.3 - 8.1
4.9 - 11.4
4.9 - 11.4
5.5 - 14.0
5.5 - 14.0
6.2 - 15.0
6.2 - 15.0
Total Input
Rated
kW
1.890
2.500
2.500
4.084
4.084
4.060
4.060
EER
3.76
3.80
3.80
3.06
3.06
3.30
3.30
Design load
kW
7.1
9.5
9.5
---
---
---
---
Annual electricity consumption(*2)
kWh/a
394
584
595
---
---
---
---
SEER(*4)
6.3
5.6
5.5
---
---
---
---
Energy efficiency class
A++
A+
A
---
---
---
---
Heating Capacity
Rated
kW
7.6
11.2
11.2
14.0
14.0
16.0
16.0
Min-Max
kW
3.5 - 10.2
4.5 - 14.0
4.5 - 14.0
5.0 - 16.0
5.0 - 16.0
5.7 - 18.0
5.7 - 18.0
Total Input
Rated
kW
2.210
3.080
3.080
4.242
4.242
4.790
4.790
COP
3.44
3.64
3.64
3.30
3.30
3.34
3.34
Design load
kW
4.7
7.8
7.8
---
---
---
---
Declared Capacity
at reference design temperature kW
4.7 (-10°C)
7.8 (-10°C)
7.8 (-10°C)
---
---
---
---
at bivalent temperature
kW
4.7 (-10°C)
7.8 (-10°C)
7.8 (-10°C)
---
---
---
---
at operation limit temperature kW
3.5 (-20°C)
5.8 (-20°C)
5.8 (-20°C)
---
---
---
---
Back up heating capacity
kW
0.0
0.0
0.0
---
---
---
---
Annual electricity consumption(*2)
kWh/a
1668
2730
2731
---
---
---
---
SCOP(*4)
3.9
3.9
3.9
---
---
---
---
Energy efficiency class
A
A
A
---
---
---
---
Operating Current(Max)
A
19.4
27.2
8.7
27.2
10.2
28.7
13.7
Indoor Input [cooling / Heating ] Rated
kW
0.06 / 0.06
0.11 / 0.11
0.11 / 0.11
0.11 / 0.11
0.11 / 0.11
0.11 / 0.11
0.11 / 0.11
Unit
Operating Current(Max)
A
0.4
0.71
0.71
0.73
0.73
0.73
0.73
Dimensions
H*W*D
mm
1900-600-360
1900-600-360
1900-600-360
1900-600-360
1900-600-360
1900-600-360
1900-600-360
Weight
kg
46
46
46
46
46
48
48
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min
20-22-24
25-28-30
25-28-30
25-28-31
25-28-31
25-28-31
25-28-31
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A)
40-42-44
45-49-51
45-49-51
45-49-51
45-49-51
45-49-51
45-49-51
Sound Level (PWL)
dB(A)
60
65
65
66
66
66
66
Outdoor Dimensions
H*W*D
mm 943-950-330(+30) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40) 1338-1050-330(+40)
Unit
Weight
kg
70
116
123
116
125
118
131
Air Volume
Cooling
m3/min
55
110
110
120
120
120
120
Heating
m3/min
55
110
110
120
120
120
120
Sound Level (SPL)
Cooling
dB(A)
47
49
49
50
50
50
50
Heating
dB(A)
48
51
51
52
52
52
52
Sound Level (PWL)
Cooling
dB(A)
67
69
69
70
70
70
70
Operating Current(Max)
A
19
26.5
8
26.5
9.5
28
13
Breaker Size
A
25
32
16
32
16
40
16
Ext.Piping Diameter(*5)
Liquid/Gas
mm
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
Max.Length
Out-In
m
50
75
75
75
75
75
75
Max.Height
Out-In
m
30
30
30
30
30
30
30
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
-15 ~ +46
-15 ~ +46
-15 ~ +46
-15 ~ +46
-15 ~ +46
-15 ~ +46
-15 ~ +46
Heating
°C
-20 ~ +21
-20 ~ +21
-20 ~ +21
-20 ~ +21
-20 ~ +21
-20 ~ +21
-20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.The GWP of R410A is 2088 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
PSA-RP SERIES
Optional
STANDARD INVERTER
Optional
Optional
Wi-Fi
Interface
Optional
Optional
Type
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
EER
Design load
kW
Annual electricity consumption(*2)
kWh/a
SEER(*4)
Energy efficiency class
Heating Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
COP
Design load
kW
Declared Capacity
at reference design temperature kW
at bivalent temperature
kW
at operation limit temperature kW
Back up heating capacity
kW
Annual electricity consumption(*2)
kWh/a
SCOP(*4)
Energy efficiency class
Operating Current(Max)
A
Indoor Input [cooling / Heating ] Rated
kW
Unit
Operating Current(Max)
A
Dimensions
H*W*D
mm
Weight
kg
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A)
Sound Level (PWL)
dB(A)
Outdoor Dimensions
H*W*D
mm
Unit
Weight
kg
Air Volume
Cooling
m3/min
Heating
m3/min
Sound Level (SPL)
Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL)
Cooling
dB(A)
Operating Current(Max)
A
Breaker Size
A
Ext.Piping Diameter(*5)
Liquid/Gas
mm
Max.Length
Out-In
m
Max.Height
Out-In
m
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
Heating
°C
PSA-M100KA PUHZ-P100VKA
9.4 3.7 - 10.6
3.122 3.01 9.4 644 5.1
A 11.2 2.8 - 12.5 3.284 3.41 8.0 6.0 (-10°C) 7.0 (-7°C) 4.5 (-15°C) 2.0 2797 4.0 A+ 20.7 0.11 / 0.11 0.71 1900-600-360 46 25-28-30 45-49-51 65 981-1050-330 76 79 79 51 54 70 20 32 9.52 / 15.88 50 30 -15 ~ +46 -15 ~ +21
PSA-M100KA PUHZ-P100YKA
9.4 3.7 - 10.6
3.122 3.01 9.4 644 5.1
A 11.2 2.8 - 12.5 3.284 3.41 8.0 6.0 (-10°C) 7.0 (-7°C) 4.5 (-15°C) 2.0 2797 4.0 A+ 12.2 0.11 / 0.11 0.71 1900-600-360 46 25-28-30 45-49-51 65 981-1050-330 78 79 79 51 54 70 11.5 16 9.52 / 15.88 50 30 -15 ~ +46 -15 ~ +21
Inverter Heat Pump
PSA-M125KA
PSA-M125KA
PUHZ-P125VKA
PUHZ-P125YKA
R410A
Outdoor power supply
VKA:230/Single/50, YKA:400/Three/50
12.1
12.1
5.6 - 13.0
5.6 - 13.0
5.020
5.020
2.41
2.41
---
---
---
---
---
---
---
---
13.5
13.5
4.8 - 15.0
4.8 - 15.0
4.804
4.804
2.81
2.81
---
---
---
---
---
---
---
---
---
---
---
---
---
---
---
---
27.2
12.2
0.11 / 0.11
0.11 / 0.11
0.73
0.73
1900-600-360
1900-600-360
46
46
25-28-31
25-28-31
45-49-51
45-49-51
66
66
981-1050-330
981-1050-330
84
85
86
86
92
92
54
54
56
56
72
72
26.5
11.5
32
16
9.52 / 15.88
9.52 / 15.88
50
50
30
30
-15 ~ +46
-15 ~ +46
-15 ~ +21
-15 ~ +21
PSA-M140KA PUHZ-P140VKA
13.6 5.8 - 13.7
6.384 2.13
--------15.0 4.9 - 15.8 4.823 3.11 ----------------30.7 0.11 / 0.11 0.73 1900-600-360 48 25-28-31 45-49-51 66 981-1050-330 84 86 92 56 57 75 30 40 9.52 / 15.88 50 30 -15 ~ +46 -15 ~ +21
PSA-M140KA PUHZ-P140YKA
13.6 5.8 - 13.7
6.384 2.13
--------15.0 4.9 - 15.8 4.823 3.11 ----------------12.2 0.11 / 0.11 0.73 1900-600-360 48 25-28-31 45-49-51 66 981-1050-330 85 86 92 56 57 75 11.5 16 9.52 / 15.88 50 30 -15 ~ +46 -15 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.The GWP of R410A is 2088 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
47
48
SERIES
49
SELECTION
Series line-up consists of two types of indoor units. Choose the model that best matches room conditions.
SELECT INDOOR UNIT
Select the optimal unit and capacity required to match room construction and air conditioning requirements.
Units without Remote Controller SLZ-M15FA2 (Multi split series connection only) SLZ-M25FA2 SLZ-M35FA2 SLZ-M50FA2 SLZ-M60FA2
Panel
Panel
SLP-2FA SLP-2FAL SLP-2FAE SLP-2FALE SLP-2FALM2 SLP-2FALME2
With Signal Receiver
With 3D i-see With Wireless
Sensor
Remote Controller
Units without Remote Controller SEZ-M25DA2 SEZ-M35DA2 SEZ-M50DA2 SEZ-M60DA2 SEZ-M71DA2
Units with Wireless Remote Controller SEZ-M25DAL2 SEZ-M35DAL2 SEZ-M50DAL2 SEZ-M60DAL2 SEZ-M71DAL2
SELECT OUTDOOR UNIT
There is one outdoor unit for respective indoor units.
SUZ-M25/35VA
SUZ-M50VA
SUZ-M60/71VA
SUZ-KA25/35VA6
SUZ-KA50/60/71VA6
8 To confirm compatibility with the MXZ Series multi-type system, refer to the MXZ Series page. 50
SLZ SERIES
SLZ-M15/25/35/50/60FA2
Compact, lightweight ceiling cassette units with 4-way air outlets provide maximum comfort by evenly distributing airflow throughout the entire room.
2x2 Cassette Line-up
The SLZ series was previously only able to be connected to standard inverters and some power inverters. However, it can now also be connected to low-capacity power inverters. The ability to connect to a high-performance power inverter allows us to offer a wider range of options to our customers.
S2L+Z2-Mca.sFsAet2te
Power Inverter
NEW
NEW
Combination Combination
Standard Inverter
PUZ-
PUZ-
PUZ-
ZM35/50 ZM60/71 ZM100/125/140
SUZ-M35 SUZ-M50 SUZ-M60
Power Inverter
Standard Inverter
PUHZ-
PUHZ-
ZRP71 ZRP100/125/140
SUZ-KA35 SUZ-KA50/60
New lineup
1.5kW has been introduced for multi connection. The diverse selection enables the best solution for both customer and location.
Beautiful design
The straight-line form introduced has resulted in a beautiful square design. Its high affinity ensures the ability to blend in seamlessly with any interior. The indoor unit is an ideal match for office or store use. Of course, design matched 2×2 (600mm*600mm) ceiling construction specifications.
Capacity
15
25
35
50
60
SLZ-KF
SLZ-M
600mm
600mm
The height above ceiling of 245mm
The height above ceiling of 245mm enables fitting into narrow ceiling space. Installation is simple, even when the ceiling spaces are narrow to make the ceilings higher. Of course, in addition to our products, replacing competitors' product is simplified too.
51
245mm
Height (m)
Energy-saving Performance*
The energy-saving performance achieved A++ in SEER and A+ in SCOP.
*In case of connecting with SUZ-KA-VA6
[SEER]
6.5
6.3
6.3
6.2
A++ (6.1)
[SCOP]
4.3
4.3
4.3
4.1
A+ (4.0)
2.5kW 3.5kW 5.0kW 6.0kW
2.5kW 3.5kW 5.0kW 6.0kW
Quietness
Horizontal Airflow
Low sound level has been realized by introduction of 3D turbo fan. New SLZ can give users quieter and move comfortable room condition.
The new airflow control completely eliminates that uncomfortable drafty-feeling with the introduction of a horizontal airflow that spreads across the ceiling. The ideal airflow for offices and restaurants.
[Airflow distribution]* SLZ-M60FA Flow angle,cooling at 20°C (ceiling height 2.7m)
2.7
2.0
1.0
0.5
2
(m/s)
Easy installation
Temporary hanging hook
The structure of the panel has been revised and is now equipped with a temporary hanging hook. This has improved work efficiency during temporary panel installation.
1
0
4
3
2
1
0
Floor distribution (m)
*Vane angle: Horizontal
No need to remove screws
Installation is possible without removing the screws for control box simply loosen them. This eliminates the risk of losing screws.
I Corner panel
I Control box cover
Drain lift
As the result of using a larger drain pan, the maximum drain lifting height has been up to 850mm, greatly enhancing construction flexibility compared to the existing model.
SLZ-KA: up to 500mm SLZ-M : up to 850mm
52
for S & P SERIES
Detects number of people
Room occupancy energy-saving mode
The 3D i-see Sensor detects the number of people in the room. It then calculates the occupancy rate based on the maximum number of people in the room up to that point in time in order to save airconditioning power. When the occupancy rate is approximately 30%, air-conditioning power equivalent to 1°C during both cooling and heating operation is saved. The temperature is controlled according to the number of people.
No occupancy energy-saving mode
When 3D i-see Sensor detects that no one is in the room, the system is switched to a pre-set power-saving mode. If the room remains unoccupied for more than 60min, air-conditioning power equivalent to 2°C during both cooling and heating operation is saved. This contributes to preventing waste in terms of heating and cooling.
No occupancy Auto-OFF mode*
When the room remains unoccupied for a pre-set period of time, the air conditioner turns off automatically, thereby providing even greater power savings. The time until operation is stopped can be set in intervals of 10min, ranging from 60 to 180 min.
* When MA Remote Controller is used to control multiple refrigerant systems, "No occupancy Auto-OFF mode" cannot be used.
Room occupancy energy save mode No occupancy energy save mode No occupancy Auto-Off mode
1C° power savings
2C° power savings
Auto-Off
*PAR-41MAA is required for each setting
Detects people's position
Direct /Indirect settings*
Some people do not like the feel of wind, some want to be warm from head to toe. People's likes and dislikes vary. With the 3D i-see Sensor, it is possible to choose to block or not block to the wind for each vane.
Seasonal airflow*
<When cooling> Saves energy while keeping a comfortable effective temperature by automatically switching between ventilation and cooling. When a pre-set temperature is reached, the air conditioning unit switches to swing fan operation to maintain the effective temperature. This clever function contributes to keeping a comfortable coolness.
<When heating> The air conditioning unit automatically switches between circulator and heating. Wasted heat that accumulates near the ceiling is reused via circulation. When a pre-set temperature is reached the air conditioner switches from heating to circulator and blows air in the horizontal direction. It pushes down the warm air that has gathered near the ceiling to people's height, thereby providing smart heating.
Cooling
Heating
*PAR-41MAA or PAR-SL101A-E is required for each setting.
*PAR-41MAA is required for each setting.
53
SLZ-M SERIES
Indoor Unit
Outdoor Unit
For Single
Heat Caulking Fixing Method
For Multi (Twin/Triple/Quadruple)
SLZ-M15/25/35/50/60FA2
Panel
Panel
SLP-2FA SLP-2FAL SLP-2FAE SLP-2FALE SLP-2FALM2 SLP-2FALME2
With Signal Receiver
With 3D i-see With Wireless Sensor Remote Controller
FA
PUZ-ZM35/50
PUZ-ZM60
Remote Controller
PUZ-ZM71 PUZ-ZM100/125/140
Enclosed in SLP-2FALM2/SLP-2FALME2
*optional
*optional
Optional
Optional
Optional
Wi-Fi
Interface
Optional
*optional
Indoor Unit Combination
Power Inverter (PUZ-ZM) Distribution Pipe
Outdoor Unit Capacity
For Single
For Twin
For Triple
For Quadruple
35
50
60
71
100
125
140
71
100
125
100
125
140
125
140
35×1
50×1
60×1
-
-
-
-
35×2
50×2
60×2 35×3
50×3
50×3 35×4 35×4
-
-
-
-
-
-
-
MSDD-50TR2-E
MSDT-111R3-E
MSDF-1111R2-E
Type
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
EER
Design load
kW
Annual electricity consumption(*2)
kWh/a
SEER(*4)
Energy efficiency class
Heating Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
COP
Design load
kW
Declared Capacity
at reference design temperature kW
at bivalent temperature
kW
at operation limit temperature kW
Back up heating capacity
kW
Annual electricity consumption(*2)
kWh/a
SCOP(*4)
Energy efficiency class
Operating Current(Max)
A
Indoor Input [cooling / Heating ] Rated
kW
Unit
Operating Current(Max)
A
Dimensions
H*W*D
mm
Weight
kg
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A)
Sound Level (PWL)
dB(A)
Outdoor Dimensions
H*W*D
mm
Unit
Weight
kg
Air Volume
Cooling
m3/min
Heating
m3/min
Sound Level (SPL)
Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL)
Cooling
dB(A)
Operating Current(Max)
A
Breaker Size
A
Ext.Piping Diameter(*5)
Liquid/Gas
mm
Max.Length
Out-In
m
Max.Height
Out-In
m
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
Heating
°C
SLZ-M35FA2 PUZ-ZM35VKA2
3.6 1.6 - 4.5
0.800 4.50 3.6 194 6.5 A++ 4.1 1.6 - 5.0 1.205 3.40 2.4 2.4 (-10°C) 2.4 (-10°C) 2.2 (-11°C) 0.0 820 4.0 A+ 13.2 0.02 / 0.02 0.24 245-570-570 <10-625-625> 15 <3> 6.5-8.0-9.5 25-30-34 51 630-809-300 46 45 45 44 46 65 13 16 6.35 / 12.7 50 30 -15 ~ +46 -11 ~ +21
Inverter Heat Pump SLZ-M50FA2
PUZ-ZM50VKA2 R32
Outdoor power supply 230/Single/50 5.0 2.3 - 5.6 1.315 3.80 5.0 280 6.2 A++ 5.0 2.5 - 5.5 1.470 3.40 3.8 3.8 (-10°C) 3.8 (-10°C) 3.7 (-11°C) 0.0 1273 4.1 A+ 13.3 0.03 / 0.03 0.32
245-570-570 <10-625-625> 15 <3>
7.0-9.0-11.5 27-34-39 56
630-809-300 46 45 45 44 46 65 13 16
6.35 / 12.7 50 30
-15 ~ +46 -11 ~ +21
SLZ-M60FA2 PUZ-ZM60VHA2
6.1 2.7 - 6.5
1.648 3.70 6.1 346 6.1 A++ 6.4 2.8 - 7.3 2.064 3.10 4.4 4.4 (-10°C) 4.4 (-10°C) 2.8 (-20°C) 0.0 1560 3.9
A 19.4 0.04 / 0.04 0.43 245-570-570 <10-625-625> 15 <3> 7.5-11.5-13.0 32-40-43 60 943-950-330(+25) 67 55 55 47 49 67 19 25 9.52 / 15.88 55 30 -15 ~ +46 -20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.The GWP of R410A is 2088 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
54
SLZ-M SERIES
Indoor Unit
Outdoor Unit For Single
Heat Caulking Fixing Method
SLZ-M15/25/35/50/60FA2
Panel
Panel
SLP-2FA SLP-2FAL SLP-2FAE SLP-2FALE SLP-2FALM2 SLP-2FALME2
With Signal Receiver
With 3D i-see With Wireless Sensor Remote Controller
FA
SUZ-M25/35VA
SUZ-M50VA
Remote Controller
SUZ-M60VA
Enclosed in SLP-2FALM/SLP-2FALME
*optional
*optional
Optional
Optional
Optional
Wi-Fi
Interface
Optional
*optional
Indoor Unit Combination
S Seires
Distribution Pipe
Outdoor Unit Capacity
For Single
25
35
50
60
71
25×1
35×1
50×1
60×1
-
-
-
-
-
-
Type
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
EER
Design load
kW
Annual electricity consumption(*2)
kWh/a
SEER(*4)
Energy efficiency class
Heating Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
COP
Design load
kW
Declared Capacity
at reference design temperature kW
at bivalent temperature
kW
at operation limit temperature kW
Back up heating capacity
kW
Annual electricity consumption(*2)
kWh/a
SCOP(*4)
Energy efficiency class
Operating Current(Max)
A
Indoor Input [cooling / Heating ] Rated
kW
Unit
Operating Current(Max)
A
Dimensions
H*W*D
mm
Weight
kg
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A)
Sound Level (PWL)
dB(A)
Outdoor Dimensions
H*W*D
mm
Unit
Weight
kg
Air Volume
Cooling
m3/min
Heating
m3/min
Sound Level (SPL)
Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL)
Cooling
dB(A)
Operating Current(Max)
A
Breaker Size
A
Ext.Piping Diameter(*5)
Liquid/Gas
mm
Max.Length
Out-In
m
Max.Height
Out-In
m
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
Heating
°C
SLZ-M25FA2 SUZ-M25VA
2.5 1.4 - 3.2
0.657 3.80 2.5 139 6.3 A++ 3.2 1.3 - 4.2 0.886 3.61 2.2 2.0 (-10°C) 2.0 (-7°C) 2.0 (-10°C) 0.2 716 4.3 A+ 7.0 0.02 / 0.02 0.20 245-570-570 <10-625-625> 15 <3> 6.5-7.5-8.5 25-28-31 48 550-800-285 30 36.3 34.6 45 46 59 6.8 10 6.35 / 9.52 20 12 -10 ~ +46 -10 ~ +24
Inverter Heat Pump
SLZ-M35FA2
SLZ-M50FA2
SUZ-M35VA
SUZ-M50VA
R32
Outdoor power supply
230/Single/50
3.5
4.6
0.7 - 3.9
1.0 - 5.2
1.093
1.352
3.20
3.40
3.5
4.6
183
253
6.7
6.3
A++
A++
4.0
5.0
1.0 - 5.0
1.3 - 5.5
1.078
1.562
3.71
3.20
2.6
3.6
2.3 (-10°C)
3.2 (-10°C)
2.3 (-7°C)
3.2 (-7°C)
2.3 (-10°C)
3.2 (-10°C)
0.3
0.4
845
1192
4.3
4.2
A+
A+
8.7
13.8
0.02 / 0.02
0.03 / 0.03
0.24
0.32
245-570-570 <10-625-625>
245-570-570 <10-625-625>
15 <3>
15 <3>
6.5-8.0-9.5
7.0-9.0-11.5
25-30-34
27-34-39
51
56
550-800-285
714-800-285
35
41
34.3
45.8
32.7
43.7
48
48
48
49
59
64
8.5
13.5
10
20
6.35 / 9.52
6.35 / 12.7
20
30
12
30
-10 ~ +46
-15 ~ +46
-10 ~ +24
-10 ~ +24
SLZ-M60FA2 SUZ-M60VA
5.7 1.5 - 6.3
1.676 3.40 5.7 321 6.2 A++ 6.4 1.6 - 7.3 2.133 3.00 4.6 4.1 (-10°C) 4.1 (-7°C) 4.1 (-10°C) 0.5 1560 4.1 A+ 15.2 0.04 / 0.04 0.43 245-570-570 <10-625-625> 15 <3> 7.5-11.5-13.0 32-40-43 60 880-840-330 54 50.1 50.1 49 51 65 14.8 20 6.35 / 15.88 30 30 -15 ~ +46 -10 ~ +24
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere.This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R410A is 2088 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *4 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
55
SLZ-M SERIES
Indoor Unit
Outdoor Unit
For Single
Heat Caulking Fixing Method
For Multi (Twin/Triple/Quadruple)
SLZ-M15/25/35/50/60FA2
Panel
Panel
SLP-2FA SLP-2FAL SLP-2FAE SLP-2FALE SLP-2FALM2 SLP-2FALME2
With Signal Receiver
With 3D i-see With Wireless Sensor Remote Controller
FA
SUZ-KA25/35VA6 SUZ-KA50/60VA6
PUHZ-ZRP71 PUHZ-ZRP100/125/140
Remote Controller
Enclosed in SLP-2FALM2/SLP-2FALME2
*optional
*optional
Optional
Optional
Optional
Wi-Fi
Interface
Optional
*optional
Indoor Unit Combination
Power Inverter (PUZ-ZM) Distribution Pipe
25 25×1
-
35 35×1
-
50 50×1
-
For Single
60
71
60×1
-
-
-
Outdoor Unit Capacity
For Twin
For Triple
For Quadruple
100
125
140
71
100
125
100
125
140
125
140
-
-
-
35×2 50×2
60×2
35×3
50×3
50×3 35×4 35×4
-
-
-
MSDD-50TR-E
MSDT-111R-E
MSDF-1111R-E
Type
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
EER
Design load
kW
Annual electricity consumption(*2)
kWh/a
SEER(*4)
Energy efficiency class
Heating Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
COP
Design load
kW
Declared Capacity
at reference design temperature kW
at bivalent temperature
kW
at operation limit temperature kW
Back up heating capacity
kW
Annual electricity consumption(*2)
kWh/a
SCOP(*4)
Energy efficiency class
Operating Current(Max)
A
Indoor Input [cooling / Heating ] Rated
kW
Unit
Operating Current(Max)
A
Dimensions
H*W*D
mm
Weight
kg
Air Volume (Lo-Mi2-Mi1-Hi)
m3/min
Sound Level (Lo-Mi2-Mi1-Hi) (SPL)
dB(A)
Sound Level (PWL)
dB(A)
Outdoor Dimensions
H*W*D
mm
Unit
Weight
kg
Air Volume
Cooling
m3/min
Heating
m3/min
Sound Level (SPL)
Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL)
Cooling
dB(A)
Operating Current(Max)
A
Breaker Size
A
Ext.Piping Diameter(*5)
Liquid/Gas
mm
Max.Length
Out-In
m
Max.Height
Out-In
m
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
Heating
°C
SLZ-M25FA2 SUZ-KA25VA6
2.6 1.5 - 3.2
0.684 3.80 2.6 144 6.3 A++ 3.2 1.3 - 4.2 0.886 3.61 2.2 2.0 (-10°C) 2.0 (-7°C) 2.0 (-10°C) 0.2 716 4.3 A+ 7.2 0.02 / 0.02 0.20 245-570-570 <10-625-625> 15 <3> 6.5-7.5-8.5 25-28-31 48 550-800-285 30 32.6 34.7 47 48 58
7 10 6.35 / 9.52 20 12 -10 ~ +46 -10 ~ +24
Inverter Heat Pump
SLZ-M35FA2
SLZ-M50FA2
SUZ-KA35VA6
SUZ-KA50VA6
R410A
Outdoor power supply
230/Single/50
3.5
4.6
1.4 - 3.9
2.3 - 5.2
0.972
1.394
3.60
3.30
3.5
4.6
188
256
6.5
6.3
A++
A++
4.0
5.0
1.7 - 5.0
1.7 - 6.0
1.108
1.558
3.61
3.21
2.6
3.6
2.3 (-10°C)
3.2 (-10°C)
2.3 (-7°C)
3.2 (-7°C)
2.3 (-10°C)
3.2 (-10°C)
0.3
0.4
846
1166
4.3
4.3
A+
A+
8.4
12.3
0.02 / 0.02
0.03 / 0.03
0.24
0.32
245-570-570 <10-625-625>
245-570-570 <10-625-625>
15 <3>
15 <3>
6.5-8.0-9.5
7.0-9.0-11.5
25-30-34
27-34-39
51
56
550-800-285
880-840-330
35
54
36.3
44.6
34.8
44.6
49
52
50
52
62
65
8.2
12
10
20
6.35 / 9.52
6.35 / 12.7
20
30
12
30
-10 ~ +46
-15 ~ +46
-10 ~ +24
-10 ~ +24
SLZ-M60FA2 SUZ-KA60VA6
5.6 2.3 - 6.5
1.767 3.17 5.6 316 6.2 A++ 6.4 2.5 - 7.4 2.278 2.81 4.6 4.0 (-10°C) 4.0 (-7°C) 4.0 (-10°C) 0.6 1573 4.0 A+ 14.4 0.04 / 0.04 0.43 245-570-570 <10-625-625> 15 <3> 7.5-11.5-13.0 32-40-43 60 880-840-330 50 40.9 49.2 55 55 65 14 20 6.35 / 15.88 30 30 -15 ~ +46 -10 ~ +24
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere.This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R410A is 2088 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *4 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units.
56
SEZ SERIES
SEZ-M25 -71DA(L)2
This concealed ceiling-mounted indoor unit series is compact, and fits easily into rooms with lowered ceilings. Highly reliable energy-saving performance makes it a best match choice for concealed unit installations.
High Energy Efficiency
35/50
SEER SCOP
A++ A+
Power Inverter
25/35/50 25/35/50/60
SEER SCOP
A+ A+
Standard Inverter
Highly efficient indoor units with DC inverter contribute to a reduction in electricity consumption throughout a year. The SEZ series has achieved energy-saving performance of "A+" or higher when connected to PUZ series and "A" or higher when connected to SUZ-M series.
Power Inverter
SEER A++
6.1 SCOP
A+
SEER A++
6.1
SCOP
A+
SEER A+
6.0
SCOP A+
SEER A+
5.6
Cooling
Heating
SCOP A+
SEER Rank A+ (5.6)
4.2
4.1
4.2
SCOP Rank A+ (4.0)
4.0
SEZ-M35DA(L)2 PUZ-ZM35ZVKA2 Standard Inverter (R32)
SEER A+
6.0 SCOP
A+
4.0
SEZ-M50DA(L)2 PUZ-ZM50ZVKA2
SEZ-M60DA(L)2 PUZ-ZM60ZVHA2
SEER A+
6.0 SCOP
A+
4.1
SEER A+
6.0 SCOP
A+
4.0
SEER A
5.5
SCOP A+
4.2
SEZ-M71DA(L)2 PUZ-ZM71ZVHA2
SEER A
Cooling
Heating
5.5 SCOP
A
SEER Rank A (5.1)
3.9
SCOP Rank A (3.4)
SEZ-M25DA(L)2 SUZ-M25ZVA2
SEZ-M35DA(L)2 SUZ-M35ZVA2
SEZ-M50DA(L)2 SUZ-M50VA2
SEZ-M60DA(L)2 SUZ-M60VA2
SEZ-M71DA(L)2 SUZ-M71VA2
Lineup of compatible outdoor unit has been expanded by power inverter series
Although models in the SEZ series were previously only compatible with the standard inverter, they can now also be connected to small capacity power inverters. The ability to connect to a power inverter with high-performance specifications makes it possible to offer an even wider range of solutions to our customers.
Compact ceiling-concealed SEZ-M · DA(L)2
New combination
Power Inverter(High efficiency model)
Standard Inverter
Standard Inverter
PUZ-ZM35/50 PUZ-ZM60/71 PUZ-ZM100/125/140
SUZ-M25/35 SUZ-M50 SUZ-M60/71
SUZ-KA35 SUZ-KA50/60/71
57
Compact Design with a Height of 200 mm
The height of the units is 200 mm for all capacity ranges. Its thin body is suitable for installation in low ceilings with a small cavity space.
790 mm, 990 mm, 1190 mm
Height 200 mm (all models)
SEZ-M DA(L)2
Height
mm
Width
mm
M25 M35 M50 M60 M71
200
790
990
1190
Low Noise Operation
Selectable Static Pressure Levels
Low noise operation contributes to a peaceful indoor environment. The SPL of M25/35 model, which is the quietest model among the new series, is as low as 22 dB (ESP 5 Pa, low fan speed setting).
Capacity M25 M35 M50 M60 M71
Sound
High 29
30
36
37
39
pressure Fan
level
speed Mid 25
26
33
33
34
Low 22
22
29
29
29
External static pressure can be selected from 5, 25, 35, and 50 Pa (set to 25 Pa at the time of factory shipment).
Four levels Available for All Models
*When fan speed setting is low, the cooling/heating capacity is subject to reduce. *Operation noise may increase due to the installation environment or the operation status.
Drain Pump (Optional)
The PAC-KE07DM-E drain pump is available as an option. The drain connection can be raised as high as 580 mm, allowing more freedom in piping layout design.
*The use of drain pump may increase the operation noise.
Less than 300mm
Drain pump ensures a lifting height of up to 580mm
Connectable to
The optional Plasma Quad Connect MAC-100FT-E can be installed on the indoor unit's air inlet side. For installation, PQ attachment PAC-HA11PAR is required.
PQ attachment
Plasma Quad Connect
58
SEZ-M SERIES
Indoor Unit
Outdoor Unit
For Single
Heat Caulking Fixing Method
For Multi (Twin/Triple/Quadruple)
SEZ-M25/35/50/60/71DA2 (Requires Wired Remote Controller) SEZ-M25/35/50/60/71DAL2 (Wireless Remote Controller is enclosed)
PUZ-ZM35/50
PUZ-ZM60/71
Remote Controller
PUZ-ZM71 PUZ-ZM100/125/140
DA2 Optional
Optional
Enclosed in SEZ-M DAL2
Optional
Wi-Fi
Interface
Optional
*optional (for SEZ-M DA2)
Optional
*optional (for SEZ-M DA2)
*optional (for SEZ-M DA2)
Indoor Unit Combination
Power Inverter (PUZ-ZM) Distribution Pipe
Outdoor Unit Capacity
For Single
For Twin
For Triple
For Quadruple
35
50
60
71
100
125
140
71
100
125
100
125
140
125
140
35×1
50×1
60×1
71×1
-
-
-
35×2
50×2
60×2 35×3
50×3
50×3 35×4 35×4
-
-
-
-
-
-
-
MSDD-50TR2-E
MSDT-111R3-E
MSDF-1111R2-E
Type
Indoor Unit
Outdoor Unit Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
EER(*4)
Design load
kW
Annual electricity consumption(*2)
kWh/a
SEER(*4)(*5)
Energy efficiency class
Heating Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
COP(*4)
Design load
kW
Declared Capacity
at reference design temperature kW
at bivalent temperature
kW
at operation limit temperature kW
Back up heating capacity
kW
Annual electricity consumption(*2)
kWh/a
SCOP(*4)(*5)
Energy efficiency class
Operating Current(Max)
A
Indoor Input [cooling / Heating ] Rated
kW
Unit
Operating Current(Max)
A
Dimensions
H*W*D
mm
Weight
kg
Air Volume (Lo-Mid-Hi) External Static Pressure(*7)
m3/min Pa
Sound Level (Lo-Mid-Hi) (SPL) Rated Pa(*8)
dB(A) dB(A)
Sound Level (PWL)
dB(A)
Outdoor Dimensions
H*W*D
mm
Unit
Weight
kg
Air Volume
Cooling
m3/min
Heating
m3/min
Sound Level (SPL)
Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL)
Cooling
dB(A)
Operating Current(Max)
A
Breaker Size
A
Ext.Piping Diameter(*6)
Liquid/Gas
mm
Max.Length
Out-In
m
Max.Height
Out-In
m
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
Heating
°C
SEZ-M35DA(L)2 PUZ-ZM35VKA2
3.6 1.6 - 3.9
0.857 4.20 3.6 205 6.1 A++ 4.1 1.6 - 5.0 1.025 4.00 2.4 2.4 (-10°C) 2.4 (-10°C) 2.2 (-11°C) 0.0 791 4.2 A+ 13.7 0.047 0.65 200 - 990 - 700 22 7 - 9 - 11 <5> - 25 - <35> - <50> 23 - 27 - 31 22 - 26 - 30 51 630-809-300 46 45 45 44 46 65 13 16 6.35 / 12.7 50 30 -15 ~ +46 -11 ~ +21
Inverter Heat Pump
SEZ-M50DA(L)2
SEZ-M60DA(L)2
PUZ-ZM50VKA2
PUZ-ZM60VHA2
R32
Outdoor power supply
230/Single/50
5.0
6.1
2.3 - 5.6
2.7 - 6.3
1.315
1.525
3.80
4.00
5.0
6.1
287
352
6.1
6.0
A++
A+
6.0
7.0
2.5 - 7.2
2.8 - 8.0
1.578
1.707
3.80
4.10
3.8
4.4
3.8 (-10°C)
4.4 (-10°C)
3.8 (-10°C)
4.4 (-10°C)
3.7 (-11°C)
2.8 (-20°C)
0.0
0.0
1279
1464
4.1
4.2
A+
A+
13.8
19.9
0.077
0.084
0.82
0.88
200 - 990 - 700
200 - 1190 - 700
22
25.5
10 - 12.5 - 15
12 - 15 - 18
<5> - 25 - <35> - <50>
<5> - 25 - <35> - <50>
30 - 34 - 37
30 - 34 - 38
29 - 33 - 36
29 - 33 - 37
57
58
630-809-300
943-950-330(+25)
46
67
45
55
45
55
44
47
46
49
65
67
13
19
16
25
6.35 / 12.7
9.52 / 15.88
50
55
30
30
-15 ~ +46
-15 ~ +46
-11 ~ +21
-20 ~ +21
SEZ-M71DA(L)2 PUZ-ZM71VHA2
7.1 3.3 - 8.1
1.918 3.70 7.1 440 5.6 A+ 8.0 3.5 - 10.2 2.051 3.90 4.7 4.7 (-10°C) 4.7 (-10°C) 3.5 (-20°C) 0.0 1633 4.0 A+ 20.0 0.102 1.00 200 - 1190 - 700 25.5 12 - 16 - 20 <5> - 25 - <35> - <50> 30 - 35 - 40 29 - 34 - 39 60 943-950-330(+25) 67 55 55 47 49 67 19 25 9.52 / 15.88 55 30 -15 ~ +46 -20 ~ +21
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 550. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 550 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R32 is 675 in the IPCC 4th Assessment Report.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 Optional air protection guide is required where ambient temperature is lower than 5°C. *4 EER/COP and SEER/SCOP for M35-71 are measured at ESP 25Pa *5 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *6 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units. *7 The factory setting of ESP is shown without < >. *8 SPL measured at ESP 5Pa.
59
SEZ-M SERIES
Indoor Unit
Outdoor Unit
For Single
Heat Caulking Fixing Method
SEZ-M25/35/50/60/71DA2 (Requires Wired Remote Controller) SEZ-M25/35/50/60/71DAL2 (Wireless Remote Controller is enclosed)
SUZ-M25/35VA
SUZ-M50VA
Remote Controller
SUZ-M60/71VA
DA2 Optional
Optional
Enclosed in SEZ-M DAL2
Optional
Wi-Fi
Interface
Optional
*optional (for SEZ-M DA2)
Optional
*optional (for SEZ-M DA2)
*optional (for SEZ-M DA2)
Indoor Unit Combination
S Seires
Distribution Pipe
25 25×1
-
Outdoor Unit Capacity
For Single
35
50
60
35×1
50×1
60×1
-
-
-
71 71×1
-
Type
Indoor Unit
Outdoor Unit Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
EER(*4)
Design load
kW
Annual electricity consumption(*2)
kWh/a
SEER(*4)(*5)
Energy efficiency class
Heating Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
COP(*4)
Design load
kW
Declared Capacity
at reference design temperature kW
at bivalent temperature
kW
at operation limit temperature kW
Back up heating capacity
kW
Annual electricity consumption(*2)
kWh/a
SCOP(*4)(*5)
Energy efficiency class
Operating Current(Max)
A
Indoor Input [cooling / Heating ] Rated
kW
Unit
Operating Current(Max)
A
Dimensions
H*W*D
mm
Weight
kg
Air Volume (Lo-Mid-Hi) External Static Pressure(*6)
m3/min Pa
Sound Level (Lo-Mid-Hi) (SPL) Rated Pa(*7)
Sound Level (PWL)
dB(A) dB(A) dB(A)
Outdoor Dimensions
H*W*D
mm
Unit
Weight
kg
Air Volume
Cooling
m3/min
Heating
m3/min
Sound Level (SPL)
Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL)
Cooling
dB(A)
Operating Current(Max)
A
Breaker Size
A
Ext.Piping Diameter(*6)
Liquid/Gas
mm
Max.Length
Out-In
m
Max.Height
Out-In
m
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
Heating
°C
SEZ-M25DA(L)2 SUZ-M25VA
2.5 1.4 - 3.2
0.714 3.50 2.5 146 6.0 A+ 2.9 1.3 - 4.2 0.803 3.61 2.2 2.0 (-10°C) 2.0 (-7°C) 2.0 (-10°C) 0.2 769 4.0 A+ 7.4 0.043 0.62 200 - 790 - 700 18 5.5 - 7 - 9 <5> - 25 - <35> - <50> 23 - 26 - 30 22 - 25 - 29 50 550-800-285 30 36.3 34.6 45 46 59 6.8 10 6.35 / 9.52 20 12 -10 ~ +46 -10 ~ +24
SEZ-M35DA(L)2 SUZ-M35VA
3.5 0.7 - 3.9
1.000 3.50 3.5 202 6.0 A+ 4.2 1.1 - 5.0 1.076 3.90 2.6 2.3 (-10°C) 2.3 (-7°C) 2.3 (-10°C) 0.3 878 4.1 A+ 9.2 0.047 0.65 200 - 990 - 700 22 7 - 9 - 11 <5> - 25 - <35> - <50> 23 - 27 - 31 22 - 26 - 30 51 550-800-285 35 34.3 32.7 48 48 59 8.5 10 6.35 / 9.52 20 12 -10 ~ +46 -10 ~ +24
Inverter Heat Pump SEZ-M50DA(L)2 SUZ-M50VA R32
Outdoor power supply 230/Single/50 5.0 1.1 - 5.6 1.547 3.23 5.0 290 6.0 A+ 6.0 1.5 - 7.2 1.617 3.71 4.3 3.8 (-10°C) 3.8 (-7°C) 3.8 (-10°C) 0.5 1501 4.0 A+ 14.3 0.077 0.82 200 - 990 - 700 22 10 - 12.5 - 15
<5> - 25 - <35> - <50> 30 - 34 - 37 29 - 33 - 36 57 714-800-285 41 45.8 43.7 48 49 64 13.5 20 6.35 / 12.7 30 30 -15 ~ +46 -10 ~ +24
SEZ-M60DA(L)2 SUZ-M60VA
6.1 1.6 - 6.3
1.848 3.30 6.1 385 5.5
A 7.4 1.6 - 8.0 2.049 3.61 4.6 4.1 (-10°C) 4.1 (-7°C) 4.1 (-10°C) 0.5 1516 4.2 A+ 15.7 0.084 0.88 200 - 1190 - 700 25.5 12 - 15 - 18 <5> - 25 - <35> - <50> 30 - 34 - 38 29 - 33 - 37 58 880-840-330 54 50.1 50.1 49 51 65 14.8 20 6.35 / 15.88 30 30 -15 ~ +46 -10 ~ +24
SEZ-M71DA(L)2 SUZ-M71VA
7.1 2.2 - 8.1
2.151 3.30 7.1 451 5.5
A 8.0 2.0 - 10.2 2.285 3.50 5.8 5.2 (-10°C) 5.2 (-7°C) 5.2 (-10°C) 0.6 2030 3.9 A 15.8 0.102 1.00 200 - 1190 - 700 25.5 12 - 16 - 20 <5> - 25 - <35> - <50> 30 - 35 - 40 29 - 34 - 39 60 880-840-330 55 50.1 50.1 49 51 66 14.8 20 9.52 / 15.88 30 30 -15 ~ +46 -10 ~ +24
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R410A is 2088 in the IPCC 4th Assessment Report. *2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 SEER/SCOP are measured at ESP 25Pa. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units. *6 The factory setting of ESP is shown without < >. *7 SPL measured at ESP 5Pa.
60
SEZ-M SERIES
Indoor Unit
Outdoor Unit
For Single
Heat Caulking Fixing Method
SEZ-M25/35/50/60/71DA2 (Requires Wired Remote Controller) SEZ-M25/35/50/60/71DAL2 (Wireless Remote Controller is enclosed)
SUZ-KA25/35VA6
Remote Controller
SUZ-KA50/60/71VA6
Indoor Unit Combination
S series
Distribution Pipe
25 25×1
-
DA2 Optional
Optional
Enclosed in SEZ-M DAL2
Optional
Wi-Fi
Interface
Optional
Outdoor Unit Capacity
For Single
35
50
60
35×1
50×1
60×1
-
-
-
71 71×1
-
*optional (for SEZ-M DA2)
Optional
*optional (for SEZ-M DA2)
*optional (for SEZ-M DA2)
Type
Indoor Unit
Outdoor Unit
Refrigerant(*1)
Power Source
Supply Outdoor(V/Phase/Hz)
Cooling Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
EER(*4)
Design load
kW
Annual electricity consumption(*2)
kWh/a
SEER(*4)(*5)
Energy efficiency class
Heating Capacity
Rated
kW
Min-Max
kW
Total Input
Rated
kW
COP(*4)
Design load
kW
Declared Capacity
at reference design temperature kW
at bivalent temperature
kW
at operation limit temperature kW
Back up heating capacity
kW
Annual electricity consumption(*2)
kWh/a
SCOP(*4)(*5)
Energy efficiency class
Operating Current(Max)
A
Indoor Input [cooling / Heating ] Rated
kW
Unit
Operating Current(Max)
A
Dimensions
H*W*D
mm
Weight
kg
Air Volume (Lo-Mid-Hi)
m3/min
External Static Pressure(*6)
Pa
Sound Level (Lo-Mid-Hi) (SPL) Rated Pa(*7)
Sound Level (PWL)
dB(A) dB(A) dB(A)
Outdoor Dimensions
H*W*D
mm
Unit
Weight
kg
Air Volume
Cooling
m3/min
Heating
m3/min
Sound Level (SPL)
Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL)
Cooling
dB(A)
Operating Current(Max)
A
Breaker Size
A
Ext.Piping Diameter(*6)
Liquid/Gas
mm
Max.Length
Out-In
m
Max.Height
Out-In
m
Guaranteed Operating Range(Outdoor) Cooling(*3)
°C
Heating
°C
SEZ-M25DA(L)2 SUZ-KA25VA6
2.5 1.5 - 3.2
0.731 3.42 2.5 159 5.5
A 2.9 1.3 - 4.5 0.803 3.61 2.2 1.9 (-10°C) 1.9 (-7°C) 1.9 (-10°C) 0.3 789 3.9 A 7.6 0.043 0.62 200 - 790 - 700 18 5.5 - 7 - 9 <5> - 25 - <35> - <50> 23 - 26 - 30 22 - 25 - 29 50 550-800-285 30 32.6 34.7 47 48 58 7 10 6.35 / 9.52 20 12 -10 ~ +46 -10 ~ +24
SEZ-M35DA(L)2 SUZ-KA35VA6
3.5 1.4 - 3.9
1.012 3.46 3.5 203 6.0 A+ 4.2 1.7 - 5.0 1.132 3.71 2.8 2.5 (-10°C) 2.5 (-7°C) 2.5 (-10°C) 0.3 977 4.0 A+ 8.9 0.047 0.65 200 - 990 - 700 22 7 - 9 - 11 <5> - 25 - <35> - <50> 23 - 27 - 31 22 - 26 - 30 51 550-800-285 35 36.3 34.8 49 50 62 8.0 10 6.35 / 9.52 20 12 -10 ~ +46 -10 ~ +24
Inverter Heat Pump SEZ-M50DA(L)2 SUZ-KA50VA6 R410A
Outdoor power supply 230/Single/50 5.1 2.3 - 5.6 1.580 3.23 5.1 297 6.0 A+ 6.4 1.7 - 7.2 1.800 3.56 4.6 4.1 (-10°C) 4.1 (-7°C) 4.1 (-10°C) 0.5 1614 3.9 A 12.8 0.077 0.82 200 - 990 - 700 22 10 - 12.5 - 15
<5> - 25 - <35> - <50> 30 - 34 - 37 29 - 33 - 36 57 880-840-330 54 44.6 44.6 52 52 65 12 20 6.35 / 12.7 30 30 -15 ~ +46 -10 ~ +24
SEZ-M60DA(L)2 SUZ-KA60VA6
5.6 2.3 - 6.3
1.740 3.22 5.6 353 5.5
A 7.4 2.5 - 8.0 2.200 3.36 5.5 4.5 (-10°C) 4.8 (-7°C) 4.5 (-10°C) 1.0 1857 4.1 A+ 14.9 0.084 0.88 200 - 1190 - 700 25.5 12 - 15 - 18 <5> - 25 - <35> - <50> 30 - 34 - 38 29 - 33 - 37 58 880-840-330 50 40.9 49.2 55 55 65 14 20 6.35 / 15.88 30 30 -15 ~ +46 -10 ~ +24
SEZ-M71DA(L)2 SUZ-KA71VA6
7.1 2.8 - 8.3
2.210 3.21 7.1 449 5.5
A 8.1 2.6 - 10.4 2.268 3.50 6.0 5.3 (-10°C) 5.3 (-7°C) 5.3 (-10°C) 0.7 2147 3.9 A 17.1 0.102 1.00 200 - 1190 - 700 25.5 12 - 16 - 20 <5> - 25 - <35> - <50> 30 - 35 - 40 29 - 34 - 39 60 880-840-330 53 50.1 48.2 55 55 69 16.1 20 9.52 / 15.88 30 30 -15 ~ +46 -10 ~ +24
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance contains a refrigerant fluid with a GWP equal to 1975. This means that if 1 kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1 kg of CO2, over a period of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional. The GWP of R410A is 2088 in the IPCC 4th Assessment Report. *2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located. *3 SEER/SCOP are measured at ESP 25Pa. *4 SEER and SCOP are based on 2009/125/EC:Energy-related Products Directive and Regulation(EU) No206/2012. *5 Joint pipe is required depending on installed refrigerant pipes, outdoor units and indoor units. *6 The factory setting of ESP is shown without < >. *7 SPL measured at ESP 5Pa.
61
CONTROL TECHNOLOGIES
User-friendly Deluxe Remote Controller with Excellent Operability and Visibility
PAR-41MAA
2+1 Back-up rotation*
The use of a three-refrigerant air conditioning system enables you to utilize the back-up, rotation, and cut-in functions. This allows you to implement effective risk management for added peace of mind.
*Availability of this function is depending on outdoor unit, indoor unit and remote controller.
Back-up Function
In the unlikely event that one of the units stops operation due to an abnormality, the standby unit immediately starts back-up operation. Being fully prepared for a failure guarantees that and operation is always available and gives you the confidence that your system will be reliable in any situation.
Main-1
Run
Abnormal condition
Main-2
Run
Run
Sub
Stop
Run
Rotation Function
A single remote controller is used to operate three-refrigerant air conditioning system in a rotation pattern. Reducing the burden on the equipment allows you to maintain a longer time between maintenance and increases product life.
Main-1
Run
Stop
Run
Main-2
Run
Run
Stop
Sub
Stop
Run
Run
Cut-in Function
If the actual room temperature greatly differs from the set temperature and two-refrigerant air conditioning system is insufficient, the standby unit starts operation to provide support.
Main-1
Run
Main-2
Run
Sub
Stop
Run
Stop
The standby unit starts operation if the actual temperature deviates significantly from the set temperature.
62
CONTROL TECHNOLOGIES
Extended cooling set temperature range*
In environments such as gyms where people do strenuous exercise, even if the room is cooled to an appropriate temperature, people may feel that it is hot, and they need a cooler air. To satisfy such demands, we have extended the lower limit of the cooling set temperature range from 1930°C. to 1430°C.
*Insulation kit (PAC-SK36HK-E) is required when indoor unit is PLA series. *Availability of this function is depending on outdoor unit, indoor unit and remote controller.
14°C
19°C
30°C
Previous model 1930°C
New model 1430°C
Display of model names and serial numbers*
The model names and serial numbers of the indoor/outdoor units that are connected to the MA smart remote controller can be automatically acquired and displayed through one simple operation. This eliminates the need to directly check each unit and helps with inquiries in the case of an abnormality.
*Availability of this function is depending on outdoor unit, indoor unit and remote controller.
GModel name display (example)
GSerial number display (example)
Preliminary error history*
In addition to error history, the history of permissible abnormalities can be displayed. The feature enables the unit status check during inspection
and maintenance.
*Availability of this function is depending on outdoor unit, indoor unit and remote controller.
GError history (Sample)
GPreliminary error history (Sample)
Display of power consumption*
It is possible to measure, acquire, and display the amount of energy used by each air conditioning system.
*Availability of this function is depending on outdoor unit, indoor unit and remote controller.
< Data Collection Period > Time data: Every 30 minutes over the past month Monthly/daily data: Monthly over the past 14 months
Energy consumption values are calculated from estimated power consumption values according to the operating conditions. They may vary from the actual power consumption values. Please note that the power consumption of optional parts is not included except in the case of optional parts that have their power supplied directly by the outdoor unit.
GEvery 30 minutes (example)
GDaily (example)
GMonthly (example)
Horizontal airflow settings
The 4-way cassette model with 3D Total Flow system lets you easily set the horizontal airflow direction. This allows you to freely tailor the air conditioning performance according to your particular space and purpose.
*PLP-P160ELR-E is required to activate this function.
When 3D Total Flow is equipped
The horizontal airflow direction can be fixed for each outlet
Default
Left
Centre-left Front
Centre-right Right
63
Wi-Fi interface setting
When setting up a wireless LAN connection, it is now possible to switch between WPS and AP modes via the remote controller. You can configure a wireless network using the most convenient method according to the installation environment.
Easy To Read & Easy To Use
Inverted display screen
The screen background color can be set to black to suit the atmosphere of the installation location.
Full Dot Liquid-crystal Display Adopted
Easier to read thanks to use of a full dot liquid-crystal display with backlight, and easier to use owing to adopting a menu format that has reduced the number of operating buttons.
Display Example [Operation Mode]
Full Dot LCD
Temperature Control
Two preset temperatures
Dual
When the operation mode is set to the Auto (Dual
Set Point
Set Point) mode, two preset temperatures (one
each for cooling and heating) can be set. Depend-
ing on the room temperature, indoor unit will
automatically operate in either the COOL or HEAT mode and keep
the room temperature within the preset range.
Energy-efficient Control
Operation Control Functions
Energysaving Schedule
Precise control of power consumption
The amount of power consumed in each time period is managed so that the demand value is not exceeded. The demand control function can
be set to start and finish in 5-minute units.
Additionally, the level can be adjusted to 0, 50, 60, 70, 80 or 90% of
maximum capacity, and up to 4 patterns can be set per day. Air-
conditioning operation is automatically controlled to ensure that
electricity in excess of the contracted volume is not consumed.
Multi-language Display
MultiIanguage
Control panel operation in fourteen different languages
Choose the desired language, among the following languages.
English French German Hangarian
Spanish Greek Russian Dutch
Italian Portuguese
Polish
Turkish Swedish Czech
Operation pattern during Auto (Dual Set Point) mode
Preset temp. (COOL)
Preset temp. (HEAT)
The room temperature changes corresponding to the change in the outside temperature.
Room temperature
HEAT
COOL
HEAT
COOL
*Please refer to the function list on pages 193-200 for the combination of the available units.
I Setting pattern example
Start time
Finish time
8:15
12:00
12:00
13:00
13:00
17:00
17:00
21:00
Capacity savings 80% 50% 90% 50%
Auto-return
Prevents wasteful operation by automatically returning to the preset temperature after specified operating time
After adjusting the temperature for initial heating in winter or cooling on a hot summer day, it is easy to forget to return the temperature setting to its original value. The Auto-return function automatically resets the temperature back to the original setting after a specified period of time, thereby preventing overheating/overcooling. The Auto-return activation time can be set in 10-minute units, in a range between 30 and 120 minutes.
*Auto-return cannot be used when Temperature Range Restrictions is in use.
Auto-off Timer
Turns heating/cooling off automatically after preset time elapses
When using Auto-off Timer, even if one forgets to turn off the unit, operation stops automatically after the preset time elapses, thereby preventing wasteful operation. Auto-off Timer can be set in 10minute units, in a range between 30 minutes and 4 hours. Eliminates all anxiety about forgetting to turn off the unit.
Recommended for Meeting room
Changing room
64
CONTROL TECHNOLOGIES
Night Setback
Keep desired room temperatures automatically
This function monitors the room temperature and automatically activates the heating mode when the temperature drops below the preset minimal temperature setting. It has the same function for cooling, automatically activating the cooling mode when the temperature rises above the preset maximum temperature setting.
Operation Lock
Fixed temperature setting promotes energy savings
In addition to operation start/stop, the operation mode, temperature setting and airflow direction can be locked. Unwanted adjustment of temperature settings is prevented and an appropriate temperature is constantly maintained, leading to energy savings. This feature is also useful in preventing erroneous operation or tampering.
Recommended for Office
School
Public hall
Hospital Computer server facility
Temperature Range Restriction
Temperature Range Restriction prevents overheating/overcooling
Using a temperature that is 1°C lower/higher for heating/cooling results in a 10% reduction in power consumption.* Temperature Range Restriction limits the maximum and minimum temperature settings, contributing to the prevention of overheating/overcooling.
*In-house calculations
Cooling/Dry (Setting example of minimum temp. in 25°C)
19(°C)
Possible temperature range setting
30(°C)
Lower temperature limit
Lower temperatures cannot be selected
Recommended for
Office
25(°C)
30(°C)
To prevent excessive cooling
Restaurant
Weekly Timer
Weekly Timer with Two Types of Settings
Weekly schedule timer can save two different settings which can be easily switched according to different seasons. In addition, it offers eight different pattern setting per day. (on, off and temperature setting)
*Weekly Timer cannot be used when On/Off Timer is in use.
Temperature setting (°C)
I Setting Example (restaurant in summer time)
Preparation
26
1
Busy Set to lower temperature hours
Off-peak Set to higher temperature hours
25
Opening
time
24
2
4
7
8 Closing time
6
Lunch time
Dinner time
23
3
5
22
8-patterns setting
0
10:00 12:00 14:00 16:00 18:00 20:00
Necessary to change temperature settings for cooling/heating times.
*Joint research conducted with Japan Facility Solutions, Inc.
22:00
24:00 (Time)
Installation/Maintenance Support Functions
Smooth Maintenance
Outdoor unit data accessed immediately, enabling fast maintenance (only PUZ /PUHZ type)
Using the Stable Operation Control (fixed frequency) of the Smooth Maintenance function, the operating status of the inverter can be checked easily via the screen on the remote controller.
I Smooth Maintenance Function Operating Procedure
Select the service from menu
Activate Stable Operation
Data is displayed
65
Display information (11 items)
Compressor 1 COMP. current (A) 2 COMP. run time (Hr) 3 COMP. ON/OFF (times) 4 COMP. frequency (Hz)
Outdoor Unit 5 Sub cool (°C)
6 OU TH4 temp. (°C) 7 OU TH6 temp. (°C) 8 OU TH7 temp. (°C)
Indoor Unit 9 IU air temp. (°C) 10 IU HEX temp. (°C) 11 IU filter operating time* (Hr)
*IU filter operating time is the time elapsed since filter was reset.
Inspection Guidelines
The computed temperature difference is plotted as in the graph below and operating status is determined.
45
Cooling operation
40
35
Inspection C
30
9
10
(2°C5) Filter inspection
20
15
Normal
Inspection B
10
5 Inspection A
0 10 20 30 40 50 60 70 80
(°C) 67
Heating operation
10 9
45
Inspection C
40
35 Filter inspection
30
(2°C5 )
20
Normal
Inspection B
15
10
5 Inspection A
0 10 20 30 40 50 60 70 80
(°C) 6 10
Result
Cooling Heating
Temp. difference
Item ( 6 OU TH4 temp.) ( 7 OU TH6 temp.) ( 9 IU air temp.) ( 10 IU HEX temp.) ( 6 OU TH4 temp.) ( 10 IU HEX temp.) ( 10 IU HEX temp.) ( 9 IU air temp.)
Normal Filter inspection Inspection A Inspection B Inspection C
Normal operating status. Filter may be blocked.81 Capacity is reduced. Detailed inspection is necessary. Refrigerant level is low. Filter or indoor unit heat exchanger is blocked.
81: Due to indoor and outdoor temperatures, "Filter inspection" may be displayed even if the filter is not blocked.
8 The above graphs are based on trial data. Results may vary depending on installation/temperature conditions.
G Stable operation may not be possible under the following temperature conditions:a) In cooling mode when the outdoor induction temperature is over 40°C or the indoor induction temperature is below 23°C. b) In heating mode when the outdoor induction temperature is over 20°C or when the indoor induction temperature is over 25°C.
G If the above temperature conditions do not apply and stable operation is not achieved after 30 minutes has passed, please inspect the units. G The operating status may change due to frost on the outdoor heat exchanger.
Manual
Vane Angle
Setting
(4-way ceiling cassette)
Direction of vertical airflow for each vane can be set
Setting the vertical airflow direction for each individual vane can be performed simply via illustrated display. Seasonal settings such as switching between cooling and heating are easily changed as well.
Autodescending Panel Operation
Easily raise/lower panels using the remote controller
Auto-descending panel operation is available as an option. Panels can be raise/lower using a button on the wired remote controller. Filter cleaning can be performed easily.
Silent Mode Three outdoor noise level setting
The outdoor noise level can be reduced on demand according to the surrounding environment. Select from three setting mode: standard mode (rated), silent mode and ultra-silent mode.
Initial Password Setting
Password for initial settings
A password is required (default setting is "0000") for initial settings such as time and display language.
Simple MA Remote Controller
PAC-YT52CRA
Flat back
120mm (4-23/32 in)
Backlit LCD
Features a liquid-crystal display (LCD) with backlight for operation in dark conditions.
Flat Back
The slim and flat-back shape makes installation easier without requiring a hole in the wall. Thickness is 14.5mm or less.
Vane Angle Setting
The vane button has been added to allow users to change the airflow direction (ceiling-cassette and wall-mounted units).
Pressing the
button will switch
the vane direction.
Max 14.5mm (9/16 in)
Dual Set Point
70mm (2-3/4 in)
Two preset temperatures When the operation mode is set to the Auto (Dual Set Point) mode, two preset temperatures (one each for cooling and heating) can be set. Depending on the room temperature, indoor unit will automatically operate in either the COOL or HEAT mode and keep the room temperature within the preset range.
Operation pattern during Auto (Dual Set Point) mode
Preset temp. (COOL)
Preset temp. (HEAT)
The room temperature changes corresponding to the change in the outside temperature.
Room temperature
HEAT
COOL
HEAT
COOL
AUTO Setting 1 Setting 2 Setting 3 Setting 4 Setting 5 Swing
*Please refer to the function list on pages 193-200 for the combination of the available units.
* The settable vane directions vary depending on the indoor unit model to be connected. * If the unit has no vane function, the vane direction cannot be set. In this case, the vane icon flashes when the
button is pressed.
66
CONTROL TECHNOLOGIES
MA Touch Remote Controller
PAR-CT01MAA-SB PAR-CT01MAA-PB
PAC-CT01MAA-SB
User-friendly Visible big size icons on the full color touch panel display.
Full color touch panel display
Operation panels
3.5 inch/HVGA Full Color LCD
PAR-CT01MAA-PB
Temperature setting Operation mode
Fan speed
Touch Panel
Vane control
Ventilation
Louver control
Flexibility Customized display, color on parameter and background, editable parameter, logo image on the initial display.
Multiple color pattern 180 color patterns can be selected for control parameters or background on the display.
Control parameter customize Users can customize the panel todisplay the selected parameters only.
Logo image customization Logo image can be displayed on the initial screen.
G Control parameter customize Simple operation panel is liked by users, especially in hotels. It is available to display only ON/OFF, set temp., fan speed.
Available in a wide variety of colors to suit the decor of any room.
160 pixels
HOTEL
320 pixels
67
Expandability Smartphone / tablet App is available for setting, customize, and control.
Bluetooth® low energy technology Remote controller can communicate with smartphone or tablet device via Bluetooth Low Energy (BLE). Operation & Setting App are available on the App store.
<App screen image>
*The Bluetooth® word mark is trademark of Bluetooth SIG, Inc., USA.
*Contact the sales company for information on "Bluetooth" function.
User App
Setting App
Convenient BLE transmission functions for installation contractors Initial setup for the remote controller can be easily performed using BLE transmission via a smartphone.
G Previous model Previously, initial setup (selecting function parameters) was onlyavailable via the remote controller installed each room.
G New model The initial setup (selecting function parameters) can now be performed in advance on a smartphone, with the settings transmitted to the remote controller by enabling BLE transmission upon entry to the room.
Convenient BLE transmission functions for guests The remote controller has been further upgraded with hotels in mind, to allow smartphone connectivity and multilingual support.
Smartphone connectivity For example, hotel guests can operate the air conditioner via their smartphones, without getting out of bed.
Multilingual support The smartphone app can be displayed in the language that the guest's smartphone is set to.
Hello
Buon giorno Bonjour
guten tag
68
CONTROL TECHNOLOGIES
Wireless Remote Controller
PAR-SL101A-E
Extended cooling set temperature range*
In environments such as gyms where people do strenuous exercise, even if the room is cooled to an appropriate temperature, people may feel that it is hot, and they need a cooler air. To satisfy such demands, we have extended the lower limit of the cooling set temperature range from 1930°C. to 1430°C.
*Insulation kit (PAC-SK36HK-E) is required when indoor unit is PLA series. *Availability of this function is depending on outdoor unit, indoor unit and
remote controller.
14°C
19°C
Previous model 1930°C
30°C
188mm
New model 1430°C
Horizontal airflow settings
The 4-way cassette model complete with the Smart 360-degree Airflow system lets you easily set the horizontal airflow direction. This allows you to freely tailor the air conditioning performance according to your particular space and purpose.
Front Centre-right Right
Centre-left
Left
No setting
22mm
66mm
[Setting the horizontal airflow function]
Front
Swing Automatic
Weekly Timer
The Weekly Timer enables the setting of operation start and finish times and adjusting the temperature as standard features. Up to 4 patterns per day can be set, providing operation that matches the varying conditions of each period, such as the number of customers in the store.
Example Operation Pattern (Winter/Heating mode)
Mon. ON 20°C
Tues. ON 20°C
Wed.
Thurs.
Fri.
ON 20°C
ON 20°C
ON 20°C
Automatically changes to high-power operation at wake-up time
OFF
OFF
OFF
OFF
Automatically turned off during work hours
OFF
Sat. ON 20°C
Sun. ON 20°C
ON 18°C
ON 18°C
Midday is warmer, so the temperature is set lower
(during sleeping hours)
ON 20°C ON 18°C
ON 20°C
ON 20°C
ON 20°C
Automatically turns on, synchronized with arrival at home
ON 20°C
ON 20°C
ON 20°C
Automatically raises temperature setting to match time when outside-air temperature is low
ON 18°C
ON 18°C
ON 18°C
ON 18°C
ON 18°C
Automatically lowers temperature at bedtime for energy-saving operation at night
ON 18°C
*Weekly Timer cannot be used when On/Off Timer is in use. *Only for SLZ-KF25/35/50/60VA2, PLA-ZP/RP35/50/60/71/100/125/140EA
Backlight
Individual Vane Settings
Backlight function incorporated, making screen easy to read in the dark. Even in dimly lit rooms, the screen can be seen clearly for trouble-free remote controller operation.
The airflow directions of the four vanes can each be adjusted independently. Easily set the optimum airflow according to the room setting.
Horizontal
Adjustable
Downward
Fixed
69
Battery Replacement Sign
Previous wireless remote controllers were not easy to read, understand or use sometimes because the battery was low. Beginning with the PAR-SL101A-E, a battery charge indicator that shows the charge status is included in the LCD so it can be seen when the battery is low and needs to be changed.
Dual Set Point
When the operation mode is set to the Auto (Dual Set Point) mode, two preset temperatures (one each for cooling and heating) can be set. Depending on the room temperature, the indoor unit will automatically operate in either the COOL or HEAT mode and keep the room temperature within the preset range.
Operation pattern during Auto (Dual Set Point) mode
Preset temp. (COOL) Preset temp. (HEAT)
The room temperature changes corresponding to the change in the outside temperature.
Room temperature
HEAT * Only available for compatible models.
COOL
HEAT
COOL
3D i-see Sensor (Direct/Indirect Airflow)
Pressing the i-see button enables direct or indirect setting of all vanes.
Direct
Indirect
Cooling Heating
Direct horizontal swing
keep downward
Vane setting Indirect
keep horizontal downward horizontal
Direct Airflow
Indirect Airflow
Basic Functions
Functions OFF / ON
Button
*Only available for models equipped with 3D i-see Sensor.
Liquid crystal
Preset temperature
Mode Fan speed Vane angle Louver
*Dual Set Point function
not operational first use.
Cool Dry Heat
Fan
Auto Dual set point
4-Speed
Auto
5-step
Swing
Auto
Fixed
Swing
3D i-see Sensor Send sign
Direct Indirect
Battery replacement sign
Function setting
Test run
Self check
Not available
*This remote controller is only compatible with the following models: SLZ-M15/25/35/50/60FA, PLFY-P15/20/25/32/40/50VFM-E1, PLA-ZM/RP35/50/60/71/100/125/140EA, PLFY-P20/25/32/40/50/63/80/100/125VEM-E
*Functions available vary according to the model.
70
SYSTEM CONTROL
Versatile system controls can be realised using optional parts, relay circuits, control panels, etc.
MAJOR SYSTEM CONTROL
Indoor Unit Outdoor Unit
PAR-41MAA Control PAC-YT52CRA Control
M Series Indoor Unit M Series and MXZ Series Outdoor
Indoor unit
MAC-334IF-E
Outdoor unit
PAR-41MAA PAR-CT01MAA PAC-YT52CRA
System Examples S Series & P Series Indoor Unit S Series and MXZ Series Outdoor
S Series & P Series P Series Outdoor
Indoor unit
Outdoor unit
PAR-41MAA PAR-CT01MAA PAC-YT52CRA
Details
· Wired remote controller can be connected to indoor unit
Standard equipment (for indoor units compatible with wired remote controllers)
Major Optional Parts Required
· MAC-334IF-E (Interface) · PAR-41MAA (Wired remote controller) · PAR-CT01MAA (Wired remote controller) · PAC-YT52CRA (Wired remote controller)
· PAR-41MAA (Wired remote controller) · PAR-CT01MAA (Wired remote controller) · PAC-YT52CRA (Wired remote controller)
System Group Control
Indoor unit
Indoor unit MAC-334IF-E
Indoor unit
Indoor unit MAC-334IF-E
Outdoor unit
Outdoor unit
PAR-41MAA PAR-CT01MAA PAC-YT52CRA
Outdoor unit
Outdoor unit
PAR-41MAA PAR-CT01MAA PAC-YT52CRA
Indoor unit
Indoor unit
Outdoor unit
Outdoor unit
PAR-41MAA PAR-CT01MAA PAC-YT52CRA
Details
· One remote controller can control plural air conditioners with the same settings simultaneously. · One remote controller can control up to 16 refrigerant systems. (When connected to a MXZ unit, MAC-334IF-E is counted as one system.) · Up to two remote controller can be connected. · PAR-SL101A cannot be used when connected through the MAC-334IF-E or when group control is used.
Major Optional Parts Required
· MAC-334IF-E (Interface) · PAR-41MAA (Wired remote controller) · PAR-CT01MAA (Wired remote controller) · PAC-YT52CRA (Wired remote controller)
· PAR-41MAA (Wired remote controller) · PAR-CT01MAA (Wired remote controller) · PAC-YT52CRA (Wired remote controller)
M-NET Connections
Outdoor unit
Outdoor unit
Indoor unit
MAC-334IF-E ME remote controller (PAR-F27MEA)
City Multi indoor unit
MELANS system controller (AG-150A etc)
PAC-SC51KUA Power supply unit
Outdoor unit
Outdoor unit
Outdoor unit
Indoor unit
Indoor unit
PAR-41MAA PAR-CT01MAA PAC-YT52CRA
MAC-334IF-E
PAR-41MAA PAR-CT01MAA PAC-YT52CRA
City Multi indoor unit
MELANS system controller (AG-150A etc)
PAC-SC51KUA Power supply unit
PAC-SC51KUA Power supply kit
MELANS system controller (AG-150A etc)
Indoor unit
PAR-41MAA PAR-CT01MAA PAC-YT52CRA
Indoor unit
PAR-41MAA PAR-CT01MAA PAC-YT52CRA
Outdoor unit
Outdoor unit
M-NET adapter PAC-SJ95MA-E PAC-SJ96MA-E PAC-SK15MA-E
Details
· Group of air conditioners can be controlled by MELANS system controller (M-NET).
Major Optional Parts Required
· MAC-334IF-E (M-NET Interface) · MELANS System controller · PAC-SC51KUA (power supply unit)
· PAC-SJ95MA-E or PAC-SJ96MA-E (M-NET converter)
· MELANS System controller · PAC-SC51KUA (power supply unit)
71
OTHERS
For M Series Indoor Units (New A-control Models Only)
System Examples
Connection Details
Control Details
Major Optional Parts Required
1
Remote On/Off Operation
· Air conditioner can be started/ stopped remotely. ( 1 and 2 can be used in combination)
MAC-334IF-E
Indoor unit Outdoor unit
Switch
Remote control section (to be purchased locally)
Connect the interface to the air conditioner. Then connect the locally purchased remote controller to the terminal in the interface.
On/Off operation is possible from a remote location.
· MAC-334IF-E (Interface) · Parts for circuit such as relay
box, lead wire, etc. (to be purchased locally)
2
Remote Display of Operation Status
· The On/Off status of air
conditioners can be confirmed remotely. ( 1 and 2 can be used in combination)
MAC-334IF-E
Power supply
Indoor unit Outdoor unit
Resistance LED
Remote monitor section (to be purchased locally)
Connect the interface to the air conditioner. Then connect the locally purchased remote controller to the terminal in the interface.
The operation status (On/Off) or error signals can be monitored from a remote location.
· MAC-334IF-E (Interface) · Parts for circuit to be
purchased locally (DC power source needed) · External power source (12V DC) is required when using MAC-334IF-E.
For P Series and S Series Indoor Units
System Examples Wired remote controller Wireless remote controller
Details
Major Optional Parts Required
A
2-remote Controller Control
With two remote controllers, control can be performed locally and remotely from two locations.
PAR-41MAA PAC-YT52CRA
* Set "Main" and "Sub" remote controllers.
(Example of 1 : 1 system)
PAR-SL97/101A-E
PAR-41MAA PAC-YT52CRA
* When using wired and wireless remote controllers
(Example of Simultaneous Twin)
· Up to two remote controllers can be connected to one group.
· Both wired and wireless remote controllers can be used in combination.
· Wired Remote Controller PAR-41MAA PAC-YT52CRA (for PKA, PAC-SH29TC-E is required)
· Wireless Remote Controller PAR-SL97A-E / PAR-SL101A-E (only for SLZ)
· Wireless Remote Controller Kit for PCA PAR-SL94B-E
B
Operation Control by Level Signal
Air conditioner can be started/ stopped remotely. In addition, On/Off operation by local remote controller can be prohibited/permitted.
Relay box (to be purchased) locally)
Adapter for remote On/Off
Remote control panel
Wired remote controller
(Example of 1 : 1 system x 2)
Relay box (to be purchased locally)
Adapter for remote On/Off
Remote control panel
PAR-SL97/101A-E
(Example of 1 : 1 system x 2)
· Operation other than On/Off (e.g., adjustment of temperature, fan speed, and airflow) can be performed even when remote controller operation is prohibited.
· Timer control is possible with an external timer.
· Adapter for remote On/Off PAC-SE55RA-E
· Relay box (to be purchased locally) · Remote control panel (to be purchased
locally)
C
Operation Control by Pulse Signal
Relay box (to be purchased) locally)
Connector cable for remote display
Relay box (to be purchased locally)
Connector cable for remote display
· The pulse signal can be turned On/Off. · Operation/emergency signal can be
received at a remote location.
Remote control panel
Wired remote controller
(Example of 1 : 1 system x 2)
Remote control panel
PAR-SL97/101A-E
(Example of 1 : 1 system x 2)
· Connector cable for remote display PAC-SA88HA-E / PAC-725AD (10 pcs. x PAC-SA88HA-E)
· Relay box (to be purchased locally) · Remote control panel (to be purchased
locally)
D
Remote Display of Operating Status
Operating status can be displayed at a remote location.
E Timer Operation
Allows On/Off operation with timer *For control by an external
timer, refer to B Operation Control by Level Signal.
Remote operation adapter/ Connector cable for remote display + Relay box
Remote display panel
PAR-41MAA /PAR-CT01MAA / PAC-YT52CRA (Example of 1 : 1 system)
PAR-41MAA / PAR-CT01MAA (Example of 1 : 1 system)
Remote operation adapter/ Connector cable for remote display + Relay box
· Operation/emergency signal can be received at a remote location (when channeled through the PAC-SF40RM-E no-voltage signal, when channeled through the PAC-SA88HA-E DC 12V signal).
Remote display panel
PAR-SL97/101A-E
· Remote display panel (to be purchased locally)
· Connector cable for remote display PAC-SA88HA-E / PAC-725AD (10 pcs. x PAC-SA88HA-E)
· Relay box (to be purchased locally) · Remote operation adapter
PAC-SF40RM-E
*Unable to use with wireless remote controller
(Example of Simultaneous Twin)
· Weekly Timer: On/Off and up to 8 pattern temperatures can be set for each calendar day. (Initial setting)
· On/Off Timer: On/Off can be set once each within 72 hr in intervals of 5-minute units.
· Auto-off Timer: Operation will be switched off after a certain time elapse. Set time can be changed from 30 min. to 4 hr. at 10 min. intervals.
*Simple Timer and Auto-off Timer cannot be used at the same time.
Standard functions of PAR-41MAA / PAR-CT01MAA
72
FUNCTION LIST
Combination
Category
Icon
Indoor unit
Outdoor unit
SUZ-M
Function merit-up
3D Total Flow 2+1 Back-up rotation
Extended cooling set temperature range
Display of model names and serial numbers
Display of power consumption
Avoiding simmltaneous defrosting
Defrosting when people are absent
Defrosting when operation is stopped
Collection of operation data via MELCloud
Demand control via MELCloud
Notification of potential abnormality via MELCloud
Technology
DC Inverter
Joint Lap DC Motor
Magnetic Flux Vector Sine Wave Drive
Reluctance DC Rotary Compressor
Highly Efficient DC Scroll Compressor
Heating Caulking (Compressor)
DC Fan Motor
Vector-Wave Eco Inverter
PAM (Pulse Amplitude Modulation)
Power Receiver and Twin LEV Control
Grooved Piping
i-see Sensor Felt Temperature Control (3D i-see Sensor)
Opt
AREA Temperature Monitor
Opt
Energy Saving Demand Function
Attractive Pure White
Auto Vane
Air Quality Fresh-air Intake
High-efficiency Filter
Oil Mist Filter
Long-life Filter
Filter Check Signal
Air Distribution
Horizontal Vane Vertical Vane
High Ceiling Mode
Low Ceiling Mode
Auto Fan Speed Mode
Convenience On/off Operation Timer
Auto Changeover
Auto Restart
Low-temperature Cooling
Functions
Low-noise Operation (Outdoor Unit)
Ampere Limit Adjustment
Operation Lock
Rotation, Back-up and 2nd Stage Cut-in Functions
Dual Set Point *3
System
PAR-41MAA Control *1
Opt
Control
PAR-CT01MAA Control *1
Opt
PAC-YT52CRA Control *1
Opt
Centraliesd On/Off Control *1
Opt
System Group Control *1
Opt
M-NET Connection *1
Opt
COMPO *2
Installation Cleaning-free Pipe Reuse
Reuse of Existing Wiring
Wiring/Piping Correction Function
Drain Pump
Pump Down Switch
Flare Connection
Maintenance Self-Diagnosis Function (Check Code Display)
Failure Recall Function
*1 Please refer to "System Control" on pages for details. *2 Please refer to page 57 for details. *3 This function is only available with PAR-41MAA, PAC-YT52CRA, PAR-SL101A-E. *4 SLZ-M15 can be connected with R32 MXZ only. *5 PEAD-M JAL are not equipped with a drain pump.
73
SLZ-M15/25/35/50/60FA2 *4
SUZ-KA
PUZ-ZM
S SERIES PUHZ-ZRP
SEZ-M25/35/50/60/71DA(L)2
SUZ-M
SUZ-KA
PUZ-ZM
Opt
Opt
Opt
Opt
Opt
Opt
60-140V
60-140V
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
71-140
71-140
Opt
Opt
· If a numerical figure is listed, the feature is only available with the outdoor unit of that capacity. · Opt: Optional parts must be purchased.
PLA-ZM35/50/60/71/100/125/140EA2
PUHZ-SHW
PUZ-ZM
PUHZ-ZRP
PUHZ-SHW
PUZ-ZM
P SERIES PLA-M35/50/60/71/100/125/140EA2
PUHZ-ZRP
SUZ-M
SUZ-KA
PUZ-M
PUHZ-P
35-71
35-71 100-250
35-71
35-71
35-71 100-250
35-71
35-71
35-71 100-250
35-71
35-71
35-71 100-250
35-71
35-140 35-250
35-140 35-140
35-140 35-250
35-140 35-140
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
100
100-140 200-250
100
100
100-140 200-250
100
100-140V 100-250
100-140V 100-140
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
112/140
60-140V 200/250 60-140V 200/250
112/140
60-140V 200/250 60-140V 200/250
Opt Opt Opt Opt
Opt
Opt *5
Opt Opt Opt Opt
Opt 71-250
Opt
*5
Opt Opt Opt Opt
Opt 71-250
Opt
*5
Opt Opt Opt Opt
Opt
Opt *5
Opt Opt Opt Opt
Opt 71-250
Opt
*5
Opt Opt Opt Opt
Opt 71-250
Opt
*5
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
*5
*5
Opt Opt Opt Opt
Opt
Opt *5
Opt Opt Opt Opt
Opt
Opt *5
· If a numerical figure is listed, the feature is only available with the outdoor unit of that capacity. · Opt: Optional parts must be purchased.
74
FUNCTION LIST
Category
Icon
Combination
Indoor unit
PEAD-M35/50/60/71/100/125/140JA(L)2
Function merit-up
3D Total Flow 2+1 Back-up rotation
Outdoor unit
PUHZ -SHW
PUZ -ZM
PUHZ -ZRP
PUZ -M
PUHZ -P
SUZ -M
Extended cooling set temperature range
Display of model names and serial numbers
Display of power consumption
Avoiding simmltaneous defrosting
Defrosting when people are absent
Defrosting when operation is stopped
Collection of operation data via MELCloud
Demand control via MELCloud
Technology
Notification of potential abnormality via MELCloud DC Inverter
Joint Lap DC Motor Magnetic Flux Vector Sine Wave Drive
35-71
35-71
100
100
Reluctance DC Rotary Compressor Highly Efficient DC Scroll Compressor Heating Caulking (Compressor) DC Fan Motor
35-71 100-250
35-71
35-71 100-250
35-71
100-140 200/250
100
100-140 200/250
100
Vector-Wave Eco Inverter
PAM (Pulse Amplitude Modulation) Power Receiver and Twin LEV Control Grooved Piping
35-140 35-250
35-140 35-140
100-140V 100-140V 100-250 100-140
i-see Sensor Felt Temperature Control (3D i-see Sensor)
AREA Temperature Monitor
Energy Saving Demand Function
Opt
Opt
Opt
Opt
Opt
Attractive
Pure White
Auto Vane
Air Quality Fresh-air Intake
High-efficiency Filter
Oil Mist Filter
Long-life Filter
Filter Check Signal
Air Distribution
Horizontal Vane Vertical Vane
High Ceiling Mode
Low Ceiling Mode
Auto Fan Speed Mode
Convenience On/off Operation Timer
Auto Changeover
Auto Restart
Low-temperature Cooling
Functions
Low-noise Operation (Outdoor Unit) Ampere Limit Adjustment Operation Lock
112/140
60-140V
60-140V 200/250
Rotation, Back-up and 2nd Stage Cut-in Functions
Dual Set Point *4
System Control
PAR-41MAA Control *1 PAR-CT01MAA Control *1
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
PAC-YT52CRA Control *1
Opt
Opt
Opt
Opt
Opt
Opt
Centraliesd On/Off Control *1
Opt
Opt
Opt
Opt
Opt
Opt
System Group Control *1
Opt
M-NET Connection *1
Opt
Opt
Opt
Opt
Opt
Opt
Installation
COMPO *2 Cleaning-free Pipe Reuse
71-250
71-250
Reuse of Existing Wiring
Opt
Opt
Opt
Opt
Opt
Wiring/Piping Correction Function
Drain Pump Pump Down Switch
*3
*3
*3
*3
*3
*3
Flare Connection
Maintenance Self-Diagnosis Function (Check Code Display)
Failure Recall Function
*1 Please refer to "System Control" on pages for details. *2 Please refer to page 64 for details. *3 PEAD-M JAL are not equipped with a drain pump. *4 This function is only available with PAR-41MAA, PAC-YT52CRA, PAR-SL101A-E.
P SERIES SUZ -KA
Opt Opt Opt Opt Opt Opt
*3
PUZ -ZM
Opt Opt
Opt Opt Opt Opt Opt Opt
PEA-M200/250LA
PUHZ -ZRP
PUZ -M
PUHZ -P
PUZ -ZM
PKA-M35/50LA(L)2
PUHZ -ZRP
PUZ -M
35-71
35-71
100
35-71 100-200
35-71
35-71 100-200
35-71
35-140 35-200
35-140 100V-140V 35-140 100-140
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
71-140V
71-140V 200
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
71-200
71-200
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
75
PUHZ -P
PUHZ -SHW
PKA-M60/71/100KA(L)2
PUZ -ZM
PUHZ -ZRP
PUZ -M
PUHZ -P
PUZ -ZM
P SERIES
PCA-M35/50/60/71/100/125/140KA2
PUHZ -ZRP
PUZ -M
PUHZ -P
SUZ -M
SUZ -KA
PCA-M71HA2
PUZ -ZM
PUHZ -ZRP
PUHZ -ZRP
PSA-M71/100/125/140KA
PUZ -ZM
PUHZ -P
PUZ -M
SUZ -M
100 100-140
200
100V-140V 100-140
60/71
60/71
100
100
35-71
35-71
100
100
60/71 100-250
60/71
60/71 100-250
60/71
100-140 200/250
100
100-140 200/250
100
35-71 100-250
35-71
35-71 100-250
35-71
100-140 200/250
100
100-140 200/250
100
60-140 60-250
60-140 60-140
100-140V 100-140V 100-250 100-140
35-140 35-250
35-140 35-140
100-140V 100-140V 100-250 100-140
71
71
71
71
100
100
71 100-250
71
71 100-250
71
71 100-250
71
71 200-250
71
100-140 200/250
100
100-140 200/250
100
71-140 71-250
71-140 71-140
71-140 71-140
71-140 71-250
100-140V 100-140V 100-140 100-250
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
112/140
60-140V
60-140V 200/250
60-140V
60-140V 200/250
71-140V 200/250
71-140V 200/250
71-140V
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
71-250
71-250
71-250
71-250
71-250
71-250
71-250 71-250
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
Opt
· If a numerical figure is listed, the feature is only available with the outdoor unit of that capacity. · Opt: Optional parts must be purchased.
76
Optional Parts List <P series Outdoor>
P SERIES
Outdoor Unit
Power Inverter (R32)
Power Inverter (R410A)
Standard Inverter (R32)
Standard Inverter (R410A)
Option
PUZ-ZM35VKA2 PUZ-ZM50VKA2 PUZ-ZM60VHA2 PUZ-ZM71VHA2 PUZ-ZM100VKA2 PUZ-ZM100YKA2 PUZ-ZM125VKA2 PUZ-ZM125YKA2 PUZ-ZM140VKA2 PUZ-ZM140YKA2 PUZ-ZM200YKA2 PUZ-ZM250YKA2 PUHZ-ZRP35VKA2 PUHZ-ZRP50VKA2 PUHZ-ZRP60VHA2 PUHZ-ZRP71VHA2 PUHZ-ZRP100VKA3 PUHZ-ZRP100YKA3 PUHZ-ZRP125VKA3 PUHZ-ZRP125YKA3 PUHZ-ZRP140VKA3 PUHZ-ZRP140YKA3 PUHZ-ZRP200YKA3 PUHZ-ZRP250YKA3 PUZ-M100VKA2 PUZ-M125VKA2 PUZ-M140VKA2 PUZ-M100YKA2 PUZ-M125YKA2 PUZ-M140YKA2 PUZ-M200YKA2 PUZ-M250YKA2 PUHZ-P100VKA PUHZ-P125VKA PUHZ-P140VKA PUHZ-P100YKA PUHZ-P125YKA PUHZ-P140YKA PUHZ-P200YKA3 PUHZ-P250YKA3
Distribution Pipe
Joint Pipe
For Twin (50:50)
For Triple (33:33:33)
For Quadruple (25:25:25:25)
Unit ø6.35 -->
Pipe ø9.52
Unit Unit Unit Unit Unit Unit
Unit ø9.52 ø15.88 ø9.52 ø6.35 ø9.52 ø12.7 ø12.7
-->
--> --> --> --> --> -->
Pipe ø12.7 Pipe Pipe Pipe Pipe Pipe Pipe
ø19.05 ø15.88 ø9.52 ø12.7 ø9.52 ø15.88
MSDD- MSDD- MSDD- MSDD- MSDT50TR 50TR2 50WR 50WR2 111R
-E -E -E -E -E
MSDT111R3
-E
MSDF- MSDF1111R 1111R2
-E -E
PACSG72 RJ-E
PACSJ87 RJ-E
PACSG73 RJ-E
PACSJ88 RJ-E
PACSG75 RJ-E
PACSG76 RJ-E
PAC493 PI
Flare MAC- MACA454 A455 JP-E JP-E
MACA456 JP-E
Optional Parts List <S series Outdoor>
Outdoor Unit S SERIES
(R32)
P SERIES
(R410A)
Option
SUZ-M25VA SUZ-M35VA SUZ-M50VA SUZ-M60VA SUZ-M71VA SUZ-KA25VA6 SUZ-KA35VA6 SUZ-KA50VA6 SUZ-KA60VA6 SUZ-KA71VA6
Joint Pipe
Unit Unit Unit Unit Unit Unit Unit Unit ø6.35 ø9.52 ø15.88 ø9.52 ø6.35 ø9.52 ø12.7 ø12.7
--> --> --> --> --> --> --> --> Pipe Pipe Pipe Pipe Pipe Pipe Pipe Pipe ø9.52 ø12.7 ø19.05 ø15.88 ø9.52 ø12.7 ø9.52 ø15.88
Air Outlet Guide
PAC- PACSG72 SG73 RJ-E RJ-E
PACSG75 RJ-E
PACSG76 RJ-E
PAC493 PI
Flare MAC- MAC- MACA454 A455 A456 JP-E JP-E JP-E
MAC- MAC- MAC- MAC- MAC881 882 856 886 883 SG SG SG SG-E SG
PACSJ07 SG-E
PAC- PACSG59 SH96 SG-E SG-E
Liquid Refrigerant Dryer
For For For Air Outlet Guide pipe pipe pipe ø6.35 ø9.52 ø12.7
Air Protection Guide
Drain Socket
Centralized Drain Pan
M-NET Converter
Step
Control/ Service
Tool
Interface 1 PC board w / attach-
ment kit
High Static Fan Motor
PAC- PAC- PAC- PAC- PAC- PAC- PAC- PAC- PAC- PAC- PAC- PAC- PAC- PAC- PAC- PAC- PAC- PAC- PAC- PAC- PAC-(S) PACSG81 SG82 SG85 SJ07 SG59 SH96 SJ06 SH63 SH95 SJ08 SG60 SG61 SG63 SG64 SH97 SK15 SJ96 SJ95 SK52 IF012 IF013 SJ71 DR-E DR-E DR-E SG-E SG-E SG AG-E AG-E AG-E DS-E DS-E DS-E DP-E DP-E DP-E MA-E MA-E MA-E ST B-E B-E FM-E
Freezeprevention
Heater (for Drain Pan) MAC- MAC- MAC643 644 646 BH-E BH-E BH-E
77
78
Optional Parts List <Indoor>
Option
Filter
Indoor Unit
Oil Mist Long Filter Life
Element Filter
PACSG38 KF-E
PACKE85 LAF
High-efficiency Filter Element
*10 PACSH59 KF-E
*11 PACSH88 KF-E
*12 PACSH89 KF-E
*13 PACSH90 KF-E
*4 PACSK53 KF-E
PACSK54 KF-E
V Blocking Filter
*5 PACSK55 KF-E
*6 PACSK56 KF-E
*7 PACSK57 KF-E
MAC2470 FT-E
MAC1416 FT-E
4-way
SLZ-M15FA2
cassette
SLZ-M25FA2
SLZ-M35FA2
SLZ-M50FA2
SLZ-M60FA2
Ceiling conceald
SEZ-M25DA(L)2 SEZ-M35DA(L)2
S SERIES
SEZ-M50DA(L)2
SEZ-M60DA(L)2
SEZ-M71DA(L)2
4-way
PLA-ZM35EA2
Cassette
PLA-ZM50EA2
PLA-ZM60EA2
PLA-ZM71EA2
PLA-ZM100EA2
PLA-ZM125EA2
PLA-ZM140EA2
PLA-M35EA2
PLA-M50EA2
PLA-M60EA2
PLA-M71EA2
PLA-M100EA2
PLA-M125EA2
PLA-M140EA2
Ceiling conceald
PEAD-M35JA(L)2 PEAD-M50JA(L)2
PEAD-M60JA(L)2
PEAD-M71JA(L)2
PEAD-M100JA(L)2
PEAD-M125JA(L)2
PEAD-M140JA(L)2
PEA-M200LA
PEA-M250LA
Wall -
PKA-M35LA(L)2
mounted
PKA-M50LA(L)2
P SERIES
PKA-M60KA(L)2
PKA-M71KA(L)2
PKA-M100KA(L)2
Ceiling -
PCA-M35KA2
suspended
PCA-M50KA2
PCA-M60KA2
PCA-M71KA2
PCA-M100KA2
PCA-M125KA2
PCA-M140KA2
PCA-M71HA2
Floor standing
PSA-M71KA PSA-M100KA
PSA-M125KA
PSA-M140KA
*1 3D Total Flow unit(PLP-U160ELR-E) cannot be used with Plasma Quad Connect(PAC-SK51FT-E), Insulation kit(PAC-SK36HK-E), Shutter Plate(PAC-SJ37SP-E), Multi functional casement(PAC-SJ41TM-E) and High-efficiency filter element(PAC-SH59KF-E)
*2 Plasma Quad Connect(PAC-SK51FT-E) cannot be used with PLP-U160ELR-E(3D Total Flow unit), Insulation kit (PAC-SK36HK-E), Auto elevation panel(PLP-6EAJ, PLP-6EAJE), Multi functional casement(PAC-SJ41TM-E) and High-efficiency filter element(PAC-SH59KF-E).
*3 Insulation kit(PAC-SK36HK-E) cannot be used with 3D Total Flow unit(PLP-U160ELR-E), Plasma Quad Connect(PAC-SK51FT-E), Auto elevation panel(PLP-6EAJ, PLP-6EAJE), Shutter Plate(PAC-SJ37SP-E), Multi functional casement(PAC-SJ41TM-E) and High-efficiency filter element(PAC-SH59KF-E)
*4 V Blocking Filter(PAC-SK53KF-E) cannot be used with High-efficiency filter element(PAC-SH59KF-E). *5 V Blocking Filter(PAC-SK55KF-E) cannot be used with High-efficiency filter element(PAC-SH88KF-E). *6 V Blocking Filter(PAC-SK56KF-E) cannot be used with High-efficiency filter element(PAC-SH89KF-E). *7 V Blocking Filter(PAC-SK57KF-E) cannot be used with High-efficiency filter element(PAC-SH90KF-E). *8 Shutter Plate(PAC-SJ37SP-E) cannot be used with 3D Total Flow unit(PLP-U160ELR-E) and Insulation kit(PAC-SK36HK-E). *9 Multi functional casement(PAC-SJ41TM-E) cannot be used with 3D Total Flow unit(PLP-U160ELR-E), Plasma Quad Connect(PAC-SK51FT-E) and Insulation kit(PAC-SK36HK-E).
Filter Box
PACKE92 TB-E
PACKE93 TB-E
79
Filter Filter Box
PACKE94 TB-E
PACKE95 TB-E
PACKE250 TB-F
Plasma Quad Connect
MAC100 FT-E
*2 PACSK51 FT-E
Plasma Quad Connect
Attachment for Ducted
Box for Ducted
PACHA11 PAR
PACHA31 PAR
PACHA31 PAU
PAC- PAC- PAC- PAC- PACKE91 KE92 KE93 KE94 KE95 PTB-E PTB-E PTB-E PTB-E PTB-E
3D i-see Sensor Corner Panel
PACSF1 ME-E
PACSE1 ME-E
3D Total Flow unit
Shutter Plate
Insulation kit
Multifunctional Casement
*1 PLPU160 ELR-E
*8 PACSJ37 SP-E
*3 PACSK36 HK-E
*9 PACSJ41 TM-E
*10 High-efficiency filter element(PAC-SH59KF-E) cannot be used with 3D Total Flow unit(PLP-U160ELR-E), Plasma Quad Connect(PAC-SK51FT-E), Insulation kit (PAC-SK36HK-E) and V Blocking Filter(PAC-SK53KF-E).
*11 High-efficiency filter element(PAC-SH88KF-E) cannot be used with V Blocking Filter(PAC-SH88KF-E). *12 High-efficiency filter element(PAC-SH89KF-E) cannot be used with V Blocking Filter(PAC-SH89KF-E). *13 High-efficiency filter element(PAC-SH90KF-E) cannot be used with V Blocking Filter(PAC-SH90KF-E).
80
Optional Parts List <Indoor>
Option
Fresh-air Intake Duct
Flange
Space Panel
Drain Pump
MA &
System
Decorative
Contact Wi-Fi
Control
Cover
Terminal Interface
Interface
Interface
S SERIES
Indoor Unit 4-way cassette
Ceiling conceald
4-way Cassette
Ceiling conceald
Wall mounted
Ceiling suspended
Floor standing
SLZ-M15FA2 SLZ-M25FA2 SLZ-M35FA2 SLZ-M50FA2 SLZ-M60FA2 SEZ-M25DA(L)2 SEZ-M35DA(L)2 SEZ-M50DA(L)2 SEZ-M60DA(L)2 SEZ-M71DA(L)2 PLA-ZM35EA2 PLA-ZM50EA2 PLA-ZM60EA2 PLA-ZM71EA2 PLA-ZM100EA2 PLA-ZM125EA2 PLA-ZM140EA2 PLA-M35EA2 PLA-M50EA2 PLA-M60EA2 PLA-M71EA2 PLA-M100EA2 PLA-M125EA2 PLA-M140EA2 PEAD-M35JA(L)2 PEAD-M50JA(L)2 PEAD-M60JA(L)2 PEAD-M71JA(L)2 PEAD-M100JA(L)2 PEAD-M125JA(L)2 PEAD-M140JA(L)2 PEA-M200LA PEA-M250LA PKA-M35LA(L)2 PKA-M50LA(L)2 PKA-M60KA(L)2 PKA-M71KA(L)2 PKA-M100KA(L)2 PCA-M35KA2 PCA-M50KA2 PCA-M60KA2 PCA-M71KA2 PCA-M100KA2 PCA-M125KA2 PCA-M140KA2 PCA-M71HA2 PSA-M71KA PSA-M100KA PSA-M125KA PSA-M140KA
PACSH65 OF-E
PACSF28 OF-E
PACSJ65 AS-E
PACSK19 DM-E
PACSK01 DM-E
PACSJ92 DM-E
PACSJ93 DM-E
PACSJ94 DM-E
PACKE07 DM-E
PACKE06 DM-FI
PACSF81 KC-E
MAC334 IF-E
MAC397 IF-E
MAC587 IF-E
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
*1
P SERIES
81
Power Supply Terminal Kit
Wired Remote Controller
Wireless Remote Controller
Controller
Terminal Block kit for PKA
Signal Sender
Signal Receiver
Connector
Remote Remote
Controller Kit
Remote Sensor
On/Off
Operation
Cable for Remote
(Sender & Receiver)
Adapter Adapter Display
PACSK38 HR-E
PACSG94 HR-E
PACSG96 HR-E
PACSG97 HR-E
PACSJ39 HR-E
PAR41 MAA
PARCT01 MAA
PACYT52 CRA
PACSH29 TC-E
PARSL97 A-E
PARSL101
A-E
PARSA9 CA-E
PARSF9 FA
PARSE9 FA-E
PARSL94 B-E
PACSE41 TS-E
PACSE55 RA-E
PACSF40 RM-E
PACSA88 HA-E
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
DA2 DA2 DA2
*4
*2
DA2 DA2 DA2
*4
*2
DA2 DA2 DA2
*4
*2
DA2 DA2 DA2
*4
*2
DA2 DA2 DA2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*3
*3
*3
*4
*2
*3
*3
*3
*4
*2
*3
*3
*3
*4
*3
*3
*3
*4
*3
*3
*3
*4
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*4
*2
*1 P Series indoor units can be used in combination with SUZ or MXZ outdoor units. *2 Unable to use with wireless remote controller. *3 PAC-SH29TC-E is required for wireless model. *4 Group control cannot be used.
82
Acrobat 10.1.16 Acrobat 10.1.16