ECODAN
143
ECODAN
“ECODAN” can heat rooms and supply domestic
hot water, realising greater comfort and energy saving.
“ECODAN” – Economic, eco conscious next generation heating system
Both energy-saving and safe for the environment, the Mitsubishi Electric ECODAN incorporates a highly efficient heat pump
system that captures “the heat in the air”, a renewable energy resource. Equipped with advanced inverter control, meticulous
temperature control assures comfortable heating, and its space-saving “All-in-one” indoor unit is easy to install. These energysaving, high comfort and simple installation characteristics have drawn the ECODAN heating system into the spotlight centre
stage.
Excellent ECODAN’s heating performance, even at low outdoor temperature!
INDOOR UNIT
Hydro box, cylinder unit
OUTDOOR UNIT
Packaged type Small capacity ( Under 5kW )*
Medium capacity ( 7.5kW –14kW )*
Large capacity ( >
= 16kW)*
PUHZ-HW112/140
PUHZ-W50
Split type
Small capacity ( Under 5kW )*
PUHZ-W85
PUHZ-W112
Medium capacity ( 7.5kW –14kW )*
Large capacity*
Reversible hydro box,
Reversible cylinder unit
PUHZ-SW50
PUHZ-SW75
PUHZ-SHW80/112/140
PUHZ-SHW230
PUHZ-SW100/120
PUHZ-SW160/200
Eco
Inverter
SUHZ-SW45
PUHZ-FRP71
* Rated capacity is at conditions A2W35. (according to EN14511)
144
New eco-design directive
What is the ErP Directive?
The Ecodesign Directive for Energy-related Products (ErP Directive) established a framework to set mandatory standards for ErPs sold in the European Union (EU). The ErP Directive introduces new energy efficiency ratings across various product categories. It affects how products such as
computers, vacuum cleaners, boilers and even windows are classified in terms of environmental performance. Labelling regulations that apply to
our ATW heat pumps come into effect as of September 26, 2015.
New energy label and measurements
Product label
Under directive 2009/125/EC, ATW heat pumps of up to
70kW are required to show their heating efficiency on the
energy label. The purpose of the energy label is to inform
customers about the energy efficiency of a heating unit.
The efficiency for space heating is ranked from A++ to G.
In the case of domestic hot water, it is from A to G.
A package label is also required if the ECODAN heat pump
is installed with a controller and/or a solar system or additional heater. All ECODAN units* are already rated as A++
for heating at both 55°C and 35°C and A for domestic hot
water, which are the highest efficiency ranks.
This label is for individual heating units, such as an ECODAN heat pump. Typically, the space
heater label is used for ECODAN systems with a hydro box, and the combination heater label
is used for ECODAN systems with a cylinder unit.
Heat pump space heater label
Combination heater label
Manufacturer
Outdoor and indoor unit
model name
Symbol for
domestic hot water
Symbol for space heating
DHW efficiency during
medium-temperature
operation
Heating efficiency in
low-flow temperature operation
Heating efficiency in
medium-flow temperature operation
Indoor and outdoor unit
operating sound power level values
*Except for our ATA/ATW hybrid system Mr. SLIM+
Rated heat output (kW)
under average,
colder and warmer conditions
European temperature
climate map
These labels are delivered with all ECODAN outdoor units.
What is the package label?
Package label
A heating system can use several energy-related products, such as a controller or solar thermal system. Therefore, a label showing the efficiency of the total heating
system is required. The category range is defined from
A+++ to G.
Creating the package label is the responsibility of the installers and distributors. A useful tool on the Mitsubishi
Electric website is available to easily create the labels for
ECODAN products and controllers.
This label is for heating systems that use several energy-related products, such as a controller
or a solar thermal system.
erp.mitsubishielectric.eu/erp/options
Package space heater label
Sample
Package combination heater label
Sample-1
Sample
Sample-2
A ++
A
++
A+++
A
+++
+
A+
X
A
with hot-water storage tank
B
+
X
+
X
+
X
C
D
with temperature controller
E
F
with auxiliary heating units
G
2015
A
with solar thermal system
A++
811/2013
L
+
X
+
X
+
X
+
X
A+++
A++
A+
A
B
C
D
E
F
G
L
A+++
A++
A+
A
B
C
D
E
F
G
2015
A +++
A +++
811/2013
Customised package labels including ECODAN heat pumps and FTC5 controller
can be created on the Mitsubishi Electric website.
Designed for Optimal Heating
ZUBADAN New Generation (Split type)
Reliable performance in low-temperature outdoor air
● Benefits ZUBADAN
New Generation
Example:
PUHZ-SHW140YHA
Approx. 22% higher than
our previous model !
Integrated
capacity (kW)
ZUBADAN New Generation provides powerful
heating in cold regions where most heat pumps
cannot perform very well. Its rated heating capacity
is maintained even in outdoor temperatures as low
as –15°C, even when flow temperature needs to
be higher. That means it can be trusted to provide
comfortable heating during severe winter months.
W45 (according to EN 14511)
Mitsubishi Electric’s
Flash Injection Technology
The key to high heating
performance at low
outdoor temperatures
ZUBADAN New Generation
A
Heat interchanger (HIC)
B
Injection compressor
145
ZUBADAN New Generation
Previous model
-28°C
-20°C
-15°C
-7°C
Outdoor-air temperature at intake duct
0°C
The Flash Injection Circuit is an original technology. A heat exchange process at point A
(heat interchanger) transforms liquid refrigerant into a two-phase, gas-liquid state and
then compresses the gas-liquid refrigerant
at point B (injection compressor). This circuit
Outdoor
Indoor
Power
HEX
HEX
secures a sufficient flow rate of refrigerant
receiver
B
for heating when outdoor temperatures are
LEVA
LEVB
very low. Thanks to improving the heat interLEVC
Heat
A
interchanger (HIC) changer and introducing a new injection comRefrigerant flow
pressor, the Flash Injection Circuit is now
Flash Injection Circuit
more powerful.
Flash Injection Circuit
Flash Injection Circuit
15
14
13
12
11
10
9
Nominal capacity can
be kept at -15ºC !
Injection compressor
(injection port)
Indoor units
New all-in-one compact indoor unit
Easy to install and low maintenance
• All-in-one: Key functional components are incorporated
• Compact cylinder unit: Just 1600mm in height
• Compact hydro box: Only 600×600mm footprint
• Easy installation: Factory fitted pressure relief valve
• Easy service: Relevant parts are located at the front of
the unit for easy maintenance
• Easy transport: Handles attached on front and back
(cylinder unit)
Cylinder unit (Split type)
Hydro box (Split type)
Expansion vessel*
Manometer
Expansion vessel*
Booster heater*
3-way valve
Booster heater*
Water pump
Tank
Plate heat
exchanger
Domestic
hot water pump
Manometer
Strainer
Scale trap
Strainer
Water pump
Larger capacity system
Domestic hot water
plate heat exchanger
Plate heat
exchanger
Outdoor units
Adjustable feet
*Depending on model
PUHZ-SW160/200YKA
SHW230YKA2
Indoor units
EHSE-YM9EC, EHSE-MEC, ERSE-YM9EC, ERSE-MEC
Our 8–10HP ECODAN heat pumps, only available with a hydro box connection,
are suitable for large houses and small businesses where a high heating load
is necessary. Our latest generation of 8–10HP Power Inverter outdoor units
can now reach 60°C maximum flow temperature instead of 53°C previously.
The new 8–10HP hydro box is available in both heating only and reversible and
can be connected to a customised capacity domestic hot water tank.
High-performance for domestic hot water re-charge
External plate heat exchanger – more energy savings using ECODAN’s unique and
innovative technologies
Save energy in domestic hot water operations
Thanks to an external plate heat exchanger, ECODAN offers much higher domestic
hot water efficiency. Compared to our previous model, domestic hot water recharge
efficiency is improved by approximately 17%*1, thereby reducing operating costs.
Avoid performance loss due to scale
A scale trap is incorporated after the plate heat exchanger to capture calcium scale
particles, thus maintaining the high performance of the external plate heat exchanger. (Just a 3% reduction during 15 years*2).
Lighter weight
Compared to our previous model, the cylinder unit is up to 15kg lighter*.
This is thanks to the coil incorporated in the tank which has been removed and replaced by a much lighter plate heat exchanger.
*Comparison between EHST20C-VM2C and EHST20C-VM2B.
Optimised stratification for better comfort
<Our test result>
COP
(recharging)
140%
Our new model (External heat exchanger with scale trap)
120%
100%
Initial performance level of previous model (Coil in tank)
80%
60%
40%
20%
0%
0
2
<*1, *2>
4
6
8
10
12
14 year
Usage condition Tank temperature: 10 degree to 60 degree
Heating up time: 1 hour per 1 day
Supersaturation of CaCO3: 50
*15 years accelerated testing
Thanks to the L-shaped inlet pipe from the plate heat exchanger, stratification is well maintained after re-charge.
You do not need to worry about running out of hot water the same as with a conventional coil in tank.
Supply water temperature can be kept high until all the hot water in the tank has been used.
The secret behind our external plate heat exchanger system
Thanks to the unique plate heat exchanger and scale trap technology, a more efficient
performance is achieved. In conventional systems, there is a risk of calcium scale building
up on the heat-exchange plate if it is exposed to tap water directly. Therefore, it is difficult
to use plate-based heat exchangers to heat tap water. To resolve this problem, ECODAN
is equipped with a “scale trap” that catches homogeneous calcium nuclei in the tap water
before it has a chance to grow into large scales, thereby inhibiting build-up in the external
heat exchanger. ECODAN can use a plate heat exchanger to heat tap water, resulting in
much higher domestic hot water performance.
Circulating Water
Tap Water
Hot Water
Pump
Scale Trap
Notice: In the case of the special conditions such as very hard tap water, please consult with a specialist
before installation.
Fresh Water
P-HEX
External P-HEX circuit
DHW Storage Tank
146
Unique technology of ECODAN
Settings can be
performed using
an SD card.
Auto Adaptation
Maximize energy savings while retaining comfort at all times
*SD logo is a trademark
of SD-3C, LLC
Regarding the relation of flow temperature and unit performance, a 1°C drop
in the flow temperature improves the coefficient of performance (COP) of the
ATW system by 2%. This means that energy savings are dramatically affected
by controlling the flow temperature in the system.
■ Heat curve setting (Example)
In a conventional system controller, the flow temperature is determined based
on the pre-set heat curve depending on the actual outdoor temperature. However, this requires a complicated setting to achieve the optimal heat curve.
60°C
Flow temp.
If flow
temperature is
lowered 1°C
COP is
improved 2%
30°C
-15°C
10°C
Outdoor temp.
Mitsubishi Electric’s Auto Adaptation function automatically tracks changes in the actual room temperature
and outdoor temperature and adjusts the flow temperature accordingly.
Aiming to realise further comfort and energy savings, Mitsubishi Electric is proud to introduce a revolutionary new controller. Our advanced Auto
Adaptation function measures the room temperature and outdoor temperature, and then calculates the required heating capacity for the room.
Simply stated, the flow temperature is automatically controlled according to the required heating capacity, while optimal room temperature is
maintained at all times, ensuring the appropriate heating capacity and preventing energy from being wasted. Furthermore, by estimating future
changes in room temperature, the system works to prevent unnecessary increases and decreases in the flow temperature.
Accordingly, Auto Adaptation maximises both comfort and energy savings without the need for complicated settings.
■ Future room temperature estimation
Room temp.
Target temp.
(a) Higher than the target room temp.
lower the flow temp.
(b) Approximately same as the target temp.
keep the flow temp.
(c) Lower than the target room temp.
raise the flow temp.
Modify the flow temperature by comparing
actual and estimated room temperature.
3 points
Future
T0 T1 Current
Time
Settings can be
performed using
an SD card.
Two-zone control (for heating/cooling)
Simultaneously control two different zones
*SD logo is a trademark
of SD-3C, LLC
Using ECODAN, it is possible to control two different flow temperatures, thereby managing two different heating load requirements. The system
can adjust and maintain two flow temperatures when different temperatures are required for different rooms; for example, controlling a flow
temperature of 40°C for the bedroom radiators and another flow temperature of 30°C for the living room floor heating.
Another feature of this model is that two-zone cooling control is now possible. Using these functions it is easy to maintain the most comfortable
temperature in each room and to save energy too.
■ Two temperature zones
Wireless remote controller
as thermistor
40°C
Hydro Box
Pump
FTC
Mixing control
Flow Switch
Radiator
Mixing
valve
Pump
Mixing tank
30°C
Flow Switch
Underfloor heating
*Items such as mixing tank, mixing valve flow switch and pumps are not included and need to be purchased locally.
147
Multiple unit control
Settings can be
performed using
an SD card.
Connect up to 6 units – Automatic control of multiple units
for bigger capacity and better efficiency
*SD logo is a trademark
of SD-3C, LLC
A maximum of 6 units* can be configured according to the heating/cooling load of the building. The most efficient number of operating units is
determined automatically based on heating/cooling load. This enables ECODAN to provide optimal room temperature control, and thus superior
comfort for room occupants. Also incorporated is a rotation function that enables each unit to run for an equal time period.
If one of the units malfunctions when using the Multiple Unit Control, another unit can be automatically operated for back-up, thereby preventing
the system operation from stopping completely.
*Only same models (same capacity) can be used.
■ Multiple unit control
COP ratio (%)
1 unit
2 units
3 units
4 units
5 units
6 units
Multiple unit control
100
One large unit control
Always high efficient operation !
Inefficient operation
at low capacity.
ON/OFF control
Total Capacity
Up to
23kW
+
FTC
FTC
+
23kW
FTC
slave
master
+
23kW
FTC
slave
+
23kW
slave
+
23kW
FTC
FTC
slave
slave
138kW!!
23kW
FTC
slave
Multiple unit control
Main RC
Settings can be
performed using
an SD card.
Intelligent boiler interlock
An existing boiler can be used for extra heating capacity in an efficient way
*SD logo is a trademark
of SD-3C, LLC
The flexibility of ECODAN’s intelligent control allows the system to be combined with the boiler currently in use. Additionally, this control can judge
which heating source to use either ECODAN or the existing boiler, based on various conditions*.
In the event of one heating unit not working due to some unforeseen problem, the other heating system can be used as a back-up, thereby
preventing the heating system operation from stopping completely.
*Please check below “Heat source switchover”.
Intelligent system combining a boiler with ECODAN
■ Intelligent boiler interlock systen
Hydro box
Room temperature
wireless remote controller (option)
FTC
* Thermostat (field supply) also can be used.
Electricity
Radiator
Turning boiler on/off
according to operational
conditions.
Radiator
Pump
Other source
(Gas, Oil, etc)
Mixing tank
Boiler
* Items such as a mixing tank, and pump are not included and need to be purchased locally.
Heat source switchover - Choose appropriate system based on needs
4 types of heat source switchover logic
Switchover based on actual outdoor temperature
• Heat source switchover occurs when the outdoor temperature
drops below a pre-set temperature.
2 Switchover based on running cost
• Heat source switchover occurs by judging optimal operation
based on running cost.
*Pre-registration of the energy price of electricity,
and gas or oil per 1kWh is necessary.
1
Switchover based on CO2 emission level
• Heat source switchover occurs to minimise CO2 emission.
*Pre-registration of CO2 emission amount from electricity and gas
or oil is necessary.
4 Switchover can also be activated via external input
• For example, the peak cut signal from electric power company.
3
148
Remote controllers
Smart user-friendly controller with stylish design
Main remote controller
• Large screen and backlight for excellent visibility, even in dark environment
• Multi-language support (supports 15 languages)
• Can be removed from main unit and installed in a remote location (up to 500m)
• Quick reading of operation data (7.5 times faster than previous model)
• Wide range of convenient functions in response to user demand
Function settings
– Floor drying mode
NEW – Energy monitoring
– Weekly timer
NEW – Two-zone control (cooling and heating)
– Holiday mode
NEW – Two separate schedules
NEW – Summer time setting
– Legionella prevention
– Error codes
– Built-in room temperature sensors
– Hybrid control (boiler interlock)
13 Jun 2015
13:41
PAR-WR51R-E (Option)
Receiver
Main controller
Wireless remote controller (optional)
• Built-in room temperature sensor; easy to place in the best position to detect room temperature
• Wiring work eliminated
• Simple design that is easy to operate
• Remote control from any room without needing to choose an installation location
• Backlight and big buttons that are easy to operate
• Domestic hot water boost and cancellation
• Simplified holiday mode
PAR-WT50R-E (Option)
Wireless remote controller
Settings can be
performed using
an SD card.
Energy monitoring
View electricity consumption and heat output on the remote controller
*SD logo is a trademark
of SD-3C, LLC
Every end user can now easily check the
energy data of the ECODAN heat pump.
Other features
– Daily, monthly and yearly data are stored and can be displayed using the main
remote controller.
– External power meter and heat meter can be connected for accurate measurement.
– SD card is also available for storing data.
Heating capacity
produced
Electric energy
used
2 Jan 2015 23:59
CONSUMED ELECTRICAL ENERGY
Jan 2015
57kW
–DHW
7kW
–Heatin
50kW
–Coolin
0kW
*Using pre-set values on the main remote controller, estimated energy consumption/output can be shown without external power
and a heat meter.
Depending on operating condition and system configuration, there is some possibility to show different data from the reality.
*This function is available depending on the version of the outdoor unit model.
Summer time setting
Settings can be
performed using
an SD card.
Easy adjustment for
summer time
*SD logo is a trademark
of SD-3C, LLC
Just switch the summer time mode ‘on’ using the main remote
controller and the clock in the main remote controller is adjusted to
summer time hours.
This function can release the end user from clock setting tasks.
Two separate schedules
Settings can be
performed using
an SD card.
Pre-setting two different schedules
is a trademark
for winter and summer seasons *SD logo
of SD-3C, LLC
Two different schedule settings are available for use via the main
remote controller.
These schedules can be pre-set and changed depending on the season.
For example, from November to March, space heating and domestic
hot water are used; however, during warm months such as from April
to October, only domestic hot water is used.
<Example>
29
2015
23:59
6kWh
6kWh
15kWh
15kWh
30
Summer time
2015
0:00
1 Sep 2015
7
Schedule timer
Schedule timer
Jan
1 Apr
2 Nov
12:30
Oct
Mar
Dec
Schedule 1
Winter time
Space heating
daytime
Domestic hot water early morning
Schedule 2
Summer time
Domestic hot water any time
149
Easy commissioning
Pump for primary water circuit* speed setting possible using ECODAN’s main remote controller
Even when the system is running, pump output can be set to one of five different settings using
the main remote controller.
The person commissioning the system can adjust this speed much more easily.
*Speed setting of pump for domestic hot water is not available through the main remote controller
when the system is running.
Flow sensor newly incorporated
The flow sensor is key for monitoring energy output and can also be used to detect flow error as well.
– Flow rate can be checked on the main remote controller.
– Flow rate can also be shown as graphs using the SD card tool.
Run indoor unit* without outdoor unit
During installation or situations such as an outdoor unit malfunction, the indoor unit can be operated using a heater.
While using this mode, flow and tank temperature are selectable.
Fixing and maintenance of the outdoor unit can be done without stopping heating and domestic hot water operation*.
*Models with electric heater only.
*When the indoor unit operation stops, please check all settings after the outdoor unit is connected.
Settings can be
performed using
an SD card.
SD* card
For easier settings and data logging
The initial setting for ECODAN is now simpler than ever
before. The special software enables the required initial
settings to be saved to an SD card using a personal
computer. The system set-up is as easy as moving the SD
card from the computer to the SD card slot in the indoor
unit. Compared to the previous procedure of inputting
settings using the main controller at the installation site,
a remarkable reduction in set-up time has been achieved.
Thus, it is ideal for busy installers.
*SD logo is a trademark
of SD-3C, LLC
Hydro box operation panel
Settings can be performed easily
and the logging of operation data saved
to an SD card can be confirmed via
a personal computer.
Printed circuit board
Control and electric box
SD card slot
SD card
SD card
*SD card function is only used at the time of installation.
Items that can be pre-set
Data that can be stored
Simply copying pre-set data to an SD card,
the same settings can input into another unit using the SD card.
• Initial settings (time display, contact number, etc.)
• Heating settings
– Auto adaptation
– Heat curve
– Two different temperature zones (heating and cooling)
• Interlocked boiler operation settings
• Holiday mode settings
• Schedule timer settings (two separate schedules)
• Domestic hot water settings
• Legionella prevention settings
Operation data up to a month long can be stored on a single
SD card (2GB).
• Consumed electrical energy
• Delivered energy
• Flow rate
• Operation time
• Defrost time
• Actual temperature
– Room temperature
– Flow temperature
– Return temperature
– Domestic hot water temperature
– Outdoor temperature
• Error record
• Input signal
• Etc.
All items that are set by the main controller can be set via a personal
computer.
150
Split type specifications
Indoor unit
<Cylinder unit>
Model name
EHST20C- EHST20C- EHST20C- EHST20C- EHST20C- EHST20C- EHST20C- EHST20C- EHST20D- EHST20D- EHST20D- EHST20D- EHST20D- EHST20C- EHST20DVM2C
VM6C
YM9C
TM9C
VM2EC
VM6EC
YM9EC
MEC
VM2C
YM9C
VM2EC
MHC
MEC
MHCW*2 MHCW*2
Type
Dimensions
Heating only
Immersion heater
–
–
–
–
–
–
–
–
–
–
–
×
–
×
×
Expansion vessel
×
×
×
×
–
–
–
–
×
×
–
×
–
×
×
Booster heater
×
×
×
×
×
×
×
–
×
×
×
–
–
–
–
103
105
97
103
96
110
103
H×W×D
mm
kg
Weight (empty)
1600×595×680
110
111
112
112
104
105
106
Power supply (V / Phase / Hz)
Heater
Booster
heater
Immersion
heater
Power supply (V / Phase / Hz)
400/Three/50 230/Three/50
230/Single/50
Capacity
kW
Current
A
9
26
13
Breaker size
A
16
32
16
2
6 (2/4/6)
9 (3/6/9)
400/Three/50
–
2
6 (2/4/6)
9 (3/6/9)
–
23
9
26
13
32
16
32
16
9 (3/6/9)
230/Single/50
Power supply (V / Phase / Hz)
230/Single/50 400/Three/50 230/Single/50
–
2
9 (3/6/9)
–
–
9
13
9
–
16
16
16
2
–
–
–
230/Single/50
–
230/Single/50
Capacity
kW
–
3
–
3
Current
A
–
13
–
13
A
–
16
–
16
Breaker size
Domestic
hot water tank
103
230/Single/50
Volume / Material
Guaranteed
operating
range*1
Ambient
Target
temperature
range
Heating
Outdoor
L/–
200 / Stainless steel
0~35*1
°C
Heating
°C
Cooling
°C
–
Room temperature
°C
10~30
Flow temperature
°C
25~60
Room temperature
°C
–
Flow temperature
°C
–
DHW
°C
40~60
Legionella prevention
°C
60~70
dB (A)
28
Cooling
Sound pressure level (SPL)
See outdoor unit spec table
*1 The environment must be frost-free *2 UK model
<Hydro box>
Model name
EHSDMEC
EHSDMC
EHSDVM2C
EHSDYM9C
EHSCMEC
EHSCVM2C
EHSCVM2EC
Type
EHSCYM9EC
EHSCTM9C
EHSEMEC
EHSEYM9EC
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
×
×
×
–
×
–
×
–
×
–
×
–
–
Booster heater
–
–
×
×
–
×
×
×
×
×
×
×
–
×
38
43
44
45
42
48
49
44
49
44
49
60
62
mm
kg
800×530×360
950×600×360
43
230/Single/50
Power supply (V / Phase / Hz)
Booster
heater
EHSCYM9C
Expansion vessel
Weight (empty)
Heater
EHSCVM6EC
Immersion heater
H×W×D
Dimensions
EHSCVM6C
Heating only
–
–
230/Three/50
–
400/Three/50
Capacity
kW
–
–
2
9 (3/6/9)
–
2
2
6 (2/4/6)
6 (2/4/6)
9 (3/6/9)
9 (3/6/9)
9 (3/6/9)
–
9 (3/6/9)
Current
A
–
–
9
13
–
9
9
26
26
13
13
23
–
13
Breaker size
A
–
–
16
16
–
16
16
32
32
16
16
32
–
16
Power supply (V / Phase / Hz)
Guaranteed
operating
range*1
Ambient
Target
temperature
range
Heating
Outdoor
Cooling
230/Single/50 400/Three/50
–
230/Single/50
0~35*1
°C
Heating
°C
Cooling
°C
–
Room temperature
°C
10~30
Flow temperature
°C
25~60
Room temperature
°C
Flow temperature
See outdoor unit spec table
–
°C
–
dB (A)
Sound pressure level (SPL)
400/Three/50
28
30
*1 The environment must be frost-free
<Reversible cylinder unit>
<Reversible hydro box>
Model name
ERST20D- ERST20D- ERST20C- ERST20CVM2C
MEC
VM2C
MEC
Dimensions
–
–
–
–
Immersion heater
–
–
–
–
–
×
–
Expansion vessel
×
–
×
–
–
Booster heater
×
–
×
–
Booster heater
×
–
×
–
×
mm
1600×595×680
103
Power supply (V / Phase / Hz)
Target
temperature
range
Dimensions
103
mm
kg
800×530×360
43
61
63
230/Single/50
–
–
230/Single/50
–
Heater
Booster
heater
49
230/Single/50
–
400/Three/50
230/Single/50
Power supply (V / Phase / Hz)
230/Single/50
950×600×360
45
Power supply (V / Phase / Hz)
kW
2
–
2
–
Capacity
kW
2
–
2
–
9 (3/6/9)
Current
A
9
–
9
–
Current
A
9
–
9
–
13
Breaker size
A
16
–
16
–
Breaker size
A
16
–
16
–
16
–
–
–
–
Power supply (V / Phase / Hz)
Capacity
kW
–
–
–
–
Current
A
–
–
–
–
A
–
–
–
–
Volume / Material
L/–
200 / Stainless steel
°C
0~35*1
Heating
°C
See outdoor unit spec table
Cooling
°C
See outdoor unit spec table (minimum 10°C*2)
Room temperature
°C
10~30
Flow temperature
°C
25~60
Room temperature
°C
Flow temperature
°C
5~25
DHW
°C
40~60
Legionella prevention
°C
60~70
dB (A)
28
Ambient
Outdoor
Heating
Cooling
Sound pressure level (SPL)
Guaranteed
operating
range*1
Ambient
Target
temperature
range
Heating
Outdoor
Cooling
0~35*1
°C
Heating
°C
See outdoor unit spec table
Cooling
°C
See outdoor unit spec table (minimum 10°C*2)
Room temperature
°C
10~30
Flow temperature
°C
25~60
Room temperature
Flow temperature
Sound pressure level (SPL)
°C
–
°C
dB (A)
5~25
28
30
*1 The environment must be frost-free
*2 If you use our system in cooling mode at the low ambient temperature (10°C or below),
there are some risks of plate heat exchanger breaking by frozen water.
–
*1 The environment must be frost-free
*2 If you use our system in cooling mode at the low ambient temperature (10°C or below),
there are some risks of plate heat exchanger breaking by frozen water.
151
H×W×D
Weight (empty)
–
Capacity
Breaker size
Guaranteed
operating
range*1
110
96
230/Single/50
Power supply (V / Phase / Hz)
Domestic
hot water tank
ERSEYM9EC
ERSEMEC
Heating and cooling
×
kg
Immersion
heater
ERSCVM2C
ERSCMEC
Expansion vessel
H×W×D
Booster
heater
ERSDVM2C
Type
Immersion heater
Weight (empty)
Heater
Model name
Heating and cooling
Type
Outdoor unit
Model name
SUHZPUHZPUHZPUHZPUHZPUHZPUHZSW45VA (H)*1 SW50VKA (-BS) SW75VHA (-BS) SW100V/YHA (-BS) SW120V/YHA (-BS) SW160YKA (-BS) SW200YKA (-BS)
Dimensions
H×W×D
mm
880×840×330
630×809×300
kg
54
43
Product weight (empty)
75
118/130
Heating
(A2/W35)
Cooling
(A35/W7)
Cooling
(A35/W18)
136
118/130
VHA : 230/Single/50
Capacity
kW
COP
Power input
kW
Capacity
kW
COP
Power input
kW
Capacity
PUHZSHW112V/YHA
PUHZSHW140YHA
PUHZSHW230YKA2
943×950×330 1350×950×330 1350×950×330 1338×1050×330 1338×1050×330 1350×950×330 1350×950×330 1350×950×330 1338×1050×330
Power supply (V / Phase / Hz)
Heating
(A7/W35)
PUHZSHW80VHA
136
120
120/134
134
149
23.00
YHA, YKA : 400/Three/50
4.50
5.50
8.00
11.20
16.00
22.00
25.00
8.00
11.20
14.00
5.06
4.42
4.40
4.45
4.10
4.20
4.00
4.65
4.46
4.22
3.65
0.889
1.244
1.818
2.517
3.902
5.238
6.250
1.720
2.511
3.318
6.301
23.00
3.50
5.00
7.50
10.00
12.00
16.00
20.00
8.00
11.20
14.00
3.40/3.04
2.97
3.40
3.32
3.24
3.11
2.80
3.55
3.34
2.96
2.37
1.029/1.151
1.684
2.206
3.009
3.704
5.145
7.143
2.254
3.353
4.730
9.705
9.10
12.50
16.00
20.00
7.10
10.00
12.50
20.00
kW
4.00
2.73
2.76
2.82
2.75
2.32
2.76
2.25
3.31
2.83
2.17
2.22
Power input
kW
1.465
1.630
2.340
3.309
5.388
5.797
8.889
2.145
3.534
5.760
9.009
Capacity
kW
3.80
5.00
7.10
10.00
14.00
18.00
22.00
7.10
10.00
12.50
20.00
4.28
4.60
4.43
4.35
4.08
4.56
4.10
4.52
4.74
4.26
3.55
kW
0.888
1.087
1.603
2.299
3.431
3.947
5.366
1.571
2.110
2.934
5.634
59
EER
EER
Power input
4.50
6.60
Sound pressure
level (SPL)
Heating
dB (A)
52
46
51
54
54
62
62
51
52
52
Sound power
level (PWL)
Heating
dB (A)
61
63
68
70
72
78
78
69
70
70
75
A
12.0
13.0
17.0
29.5/13.0
29.5/13.0
19.0
21.0
29.5
35.0/13.0
13.0
26.0
Operating current (max)
A
20
16
25
32/16
32/16
25
32
32
40/16
16
32
mm
6.35/12.7
6.35/12.7
9.52/15.88
9.52/15.88
9.52/15.88
9.52/25.4
12.7/25.4
9.52/15.88
9.52/15.88
9.52/15.88
12.7/25.4
Max. length Out-In
m
30
40
40
75
75
80
80
75
75
75
80
Max. height Out-In
m
30
30
30
30
30
30
30
30
30
30
30
Heating
°C
–15 to +24
–15 to +21
–20 to +21
–20 to +21
–20 to +21
–20 to +21
–20 to +21
–28 to +21
–28 to +21
–28 to +21
–25 to +21
DHW
°C
–15 to +35
–15 to +35
–20 to +35
–20 to +35
–20 to +35
–20 to +35
–20 to +35
–28 to +35
–28 to +35
–28 to +35
–25 to +35
Cooling*2
°C
–10 to +46
–15 to +46
–15 to +46
–15 to +46
–15 to +46
–15 to +46
–15 to +46
–15 to +46
–15 to +46
–15 to +46
–15 to +46
Breaker size
Piping
Guaranteed
operating
range
Diameter Liquid/Gas
Note: based on EN 14511 (Input to circulation pump is not included.) It may differ according to the system configuration.
*1 SUHZ-SW45VAH incorporates base heater.
*2 Optional air protection guide is required where ambient temperature is lower than –5°C.
Optional parts
<Indoor unit>
Parts name
Model name
Wirelss remote
controller
PAR-WT50R-E
Wirelss receiver
PAR-WR51R-E
Thermistors
PAC-SE41TS-E
Specification
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
For room temp.
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
PAC-TH011-E
For buffer and zone
(flow and return temp.)
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
PAC-TH011TK-E
For tank temp. (5m)
×
×
×
×
×
–
–
–
–
–
–
–
–
–
–
–
×
×
×
×
×
×
×
–
–
–
–
–
–
–
–
–
–
–
×
×
For boiler
(flow and return temp.)
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
1Ph 3kW
×
×
×
×
×
×
×
×
×
×
×
×
–
–
–
×
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
×
×
–
–
–
PAC-TH011HT-E
Immersion heater PAC-I03V2-E
Joint pipe
Hydro box
E✽SD or E✽SC E✽SE
models
models
×
PAC-TH011TKL-E For tank temp. (30m)
EHPT accessories
for UK
Cylinder unit
EHST20C- EHST20C- EHST20C- EHST20C- EHST20C- EHST20C- EHST20C- EHST20C- EHST20D- EHST20D- EHST20D- EHST20D- EHST20D- EHST20C- EHST20D- ERST
VM2C
VM6C
YM9C
TM9C
VM2EC VM6EC YM9EC
MEC
VM2C
YM9C
VM2EC
MEC
MHC
MHCW MHCW models
PAC-WK01UK-E
PAC-SG73RJ-E
Wi-Fi interface
PAC-WF010-E
Drain pan stand
PAC-DP01-E
For PUHZ-SW200YKA/
SHW230YKA2 (-BS)
ø9.52ø12.7
D665mm H270mm W595mm
N/W: 14.5kg
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
× *1
–
–
*1 PAC-DP01-E is necessary when you use ERST units. If you use ERST units without this parts, drain will be flowed from the base of units, in cooling mode.
<Outdoor unit>
Parts name
Model name
Eco
Inverter
Power Inverter
ZUBADAN
SUHZSW45VA (H)
PUHZPUHZPUHZPUHZPUHZPUHZSW50VKA (-BS) SW75VHA (-BS) SW100V/YHA (-BS) SW120V/YHA (-BS) SW160YKA (-BS) SW200YKA (-BS)
PUHZPUHZPUHZPUHZSHW80VHA SHW112V/YHA SHW140YHA SHW230YKA2
Connector for drain hose heater
signal output
PAC-SE60RA-E
–
–
×
×
×
×
×
×
×
×
×
PAC-SE61RA-E
–
×
–
–
–
–
–
–
–
–
–
Air discharge guide
MAC-886SG-E
×
–
–
–
–
–
–
–
–
–
–
PAC-SJ07SG-E
–
×
–
–
–
–
–
–
–
–
–
PAC-SG59SG-E
–
–
×
×
×
–
–
×
×
×
–
PAC-SG96SG-E
–
–
–
–
–
×
×
–
–
–
×
PAC-SJ06AG-E
–
×
–
–
–
–
–
–
–
–
–
PAC-SH63AG-E
–
–
×
×
×
–
–
×
×
×
–
PAC-SH95AG-E
–
–
–
–
–
×
×
–
–
–
×
PAC-SG61DS-E
–
–
×
×
×
×
×
–
–
–
–
PAC-SJ08DS-E
–
×
–
–
–
–
–
–
–
–
–
PAC-SG63DP-E
–
×
–
–
–
–
–
–
–
–
–
PAC-SG64DP-E
–
–
×
×
×
–
–
–
–
–
–
PAC-SH97DP-E
–
–
–
–
–
×
×
–
–
–
–
PAC-SK52ST
–
×
×
×
×
×
×
×
×
×
×
Air protection guide
Drain socket
Centralised drain pan
Control / Service tool
152
Packaged type specifications
Indoor unit
<Cylinder unit>
Model name
EHPT20X-VM2C
EHPT20X-VM6C
Type
–
–
–
–
×
Expansion vessel
×
×
×
×
×
Booster heater
×
×
×
×
–
100
98
mm
kg
1600×595×680
98
99
100
Power supply (V / Phase / Hz)
Booster
heater
230/Single/50
Power supply (V / Phase / Hz)
400/Three/50
230/Three/50
–
Capacity
kW
2
6 (2/4/6)
9 (3/6/9)
9 (3/6/9)
–
Current
A
9
26
13
23
–
Breaker size
A
16
32
16
32
–
–
–
–
–
230/Single/50
Immersion Power supply (V / Phase / Hz)
heater
Capacity
kW
Current
Breaker size
Domestic
hot water tank
Volume / Material
230/Single/50
–
–
–
–
3
A
–
–
–
–
13
A
–
–
–
–
16
L/–
Ambient
Guaranteed
operating range*1
Outdoor
Target
temperature
range
200 / Stainless steel
0~35*1
°C
°C
See outdoor spec table
Room temperature
°C
10~30
Flow temperature
°C
25~60
DHW
°C
40~60
Legionella prevention
°C
60~70
dB (A)
28
Heating
EHPT20X-MHCW*2
Immersion heater
Weight (empty)
Heater
EHPT20X-TM9C
Heating only
H×W×D
Dimensions
EHPT20X-YM9C
Sound pressure level (SPL)
*1 The environment must be frost-free *2 UK model
<Hydro box>
Model name
EHPX-VM2C
EHPX-VM6C
Type
Immersion heater
–
–
–
Expansion vessel
×
×
×
×
×
Booster heater
×
H×W×D
Dimensions
800×530×360
mm
kg
Weight (empty)
37
38
Booster
heater
Power supply (V / Phase / Hz)
230/Single/50
230/Single/50
400/Three/50
Capacity
kW
2
6 (2/4/6)
9 (3/6/9)
Current
A
9
26
13
Breaker size
A
16
32
16
Guaranteed
Ambient
operating range*1
Outdoor
Target temperature range
Heating
38
230/Single/50
Power supply (V / Phase / Hz)
Heater
EHPX-YM9C
Heating only
0~35*1
°C
°C
See outdoor spec table
Room temperature
°C
10~30
Flow temperature
°C
25~60
dB (A)
28
Sound pressure level (SPL)
*1 The environment must be frost-free
Outdoor unit
Model name
Dimensions
H×W×D
Product weight (empty)
PUHZ-W50VHA2 (-BS)
PUHZ-W85VHA2 (-BS)
PUHZ-W112VHA (-BS)
mm
740×950×330
943×950×330
1350×1020×330
1350×1020×330
1350×1020×330
kg
64
79
133
148
134
148
230/Single/50
230/Single/50
230/Single/50
400/Three/50
230/Single/50
400/Three/50
5.00
9.00
11.20
11.20
14.00
14.00
4.50
4.18
4.47
4.42
4.25
4.25
Power supply (V / Phase / Hz)
Heating
(A7/W35)
Heating
(A2/W35)
Capacity
kW
COP
PUHZ-HW112YHA2 (-BS) PUHZ-HW140VHA2 (-BS) PUHZ-HW140YHA2 (-BS)
Power input
kW
1.111
2.153
2.506
2.534
3.294
3.294
Capacity
kW
5.00
8.50
11.20
11.20
14.00
14.00
3.50
3.17
3.34
3.11
3.11
3.11
kW
1.429
2.681
3.353
3.601
4.502
4.502
46
48
53
53
53
53
COP
Power input
Sound pressure
level (SPL)
Heating
dB (A)
Sound power
level (PWL)
Heating
dB (A)
61
66
69
67
67
67
A
13.0
23.0
29.5
13.0
35.0
13.0
Operating current (max)
Breaker size
Guaranteed
operating range
A
16
25
32
16
40
16
Heating
°C
–15 to +21
–20 to +21
–20 to +21
–25 to +21
–25 to +21
–25 to +21
DHW
°C
–15 to +35
–20 to +35
–20 to +35
–25 to +35
–25 to +35
–25 to +35
Cooling*1
°C
–15 to +46
–15 to +46
–15 to +46
–15 to +46
–15 to +46
–15 to +46
Note: based on EN 14511 (Input to circulation pump is included.) It may differ according to the system configuration.
*1 Optional air protection guide is required where ambient temperature is lower than –5°C.
153
1350×1020×330
Optional parts
<Indoor unit>
Parts name
Model name
Specification
Cylinder unit
Hydro box
EHPT20X-VM2C EHPT20X-VM6C EHPT20X-YM9C EHPT20X-TM9C EHPT20X-MHCW EHPX-VM2C
EHPX-VM6C
EHPX-YM9C
Wireless remote controller
PAR-WT50R-E
×
×
×
×
×
×
×
×
Wireless receiver
PAR-WR51R-E
×
×
×
×
×
×
×
×
Thermistors
PAC-SE41TS-E
For room temp.
×
×
×
×
×
×
×
×
PAC-TH011-E
For buffer and zone
(flow and return temp.)
×
×
×
×
×
×
×
×
PAC-TH011TK-E
For tank temp.
×
×
×
×
×
×
×
×
PAC-TH011TKL-E For tank temp. (longer)
×
×
×
×
×
×
×
×
PAC-TH011HT-E
For boiler
(flow and return temp.)
×
×
×
×
×
×
×
×
Immersion heater
PAC-I03V2-E
1Ph 3kW
×
×
×
×
–
–
–
–
EHPT accessories for UK
PAC-WK01UK-E
–
–
–
–
×
–
–
–
Wi-Fi interface
PAC-WF010-E
×
×
×
×
×
×
×
×
<Outdoor unit>
Parts name
Model name
Power Inverter
PUHZW50VHA2(-BS)
PUHZW85VHA2(-BS)
ZUBADAN
PUHZPUHZPUHZPUHZW112VHA (-BS) HW112YHA2(-BS) HW140VHA2(-BS) HW140YHA2(-BS)
Connector for drain hose heater signal output
PAC-SE60RA-E
×
×
×
×
×
×
Air discharge guide
PAC-SG59SG-E
×
×
×
×
×
×
Air protection guide
PAC-SH63AG-E
×
×
×
×
×
×
Drain socket
PAC-SG61DS-E
×
×
×
–
–
–
Centralised drain pan
PAC-SG64DP-E
×
×
–
–
–
–
Control / Service tool
PAC-SK52ST
–
–
–
–
–
–
Interface/Flow temperature controller
Parts name
Model name
Description
Capacity step control interface
PAC-IF011B-E
1 PC Board w/ Case
Flow temperature controllers
PAC-IF032B-E
1 PC Board w/ Case
System controllers
PAC-IF061B-E
1 PC Board w/ Case
PAC-IF062B-E
1 PC Board w/ Case
PAC-SIF051B-E
1 PC Board w/ Case
Note: SUHZ CANNOT be connected to these IFs.
154
Combination table
Type
Package type
Model name
PUHZW50VHA2
Split type
Eco
Inverter
Power Inverter
ZUBADAN
PUHZW85VHA2
PUHZSUHZPUHZPUHZPUHZW112VHA HW112YHA2 HW140VHA2 HW140YHA2 SW45VA(H)
Power Inverter
PUHZSW50VKA
EHST20C-VM2C
●
EHST20C-VM6C
●
EHST20C-YM9C
●
EHST20C-TM9C
●
EHST20C-VM2EC
●
EHST20C-VM6EC
●
EHST20C-YM9EC
●
EHST20C-MEC
●
●
EHST20C-MHCW
Cylinder unit
EHST20D-VM2C
●
●
EHST20D-MEC
●
●
EHST20D-MHC
●
●
EHST20D-MHCW
●
●
EHST20D-VM2EC
●
●
EHST20D-YM9C
●
●
ERST20C-MEC
●
ERST20C-VM2C
●
ERST20D-MEC
●
●
ERST20D-VM2C
●
●
EHPT20X-VM2C
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EHPT20X-VM6C
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EHPT20X-YM9C
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EHPT20X-TM9C
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EHPT20X-MHCW
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EHSC-VM2C
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EHSC-VM2EC
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EHSC-VM6C
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EHSC-VM6EC
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EHSC-YM9C
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EHSC-YM9EC
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EHSC-TM9C
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EHSC-MEC
Hydro box
EHSD-VM2C
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EHSD-YM9C
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EHSD-MEC
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EHSD-MC
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ERSC-VM2C
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ERSC-MEC
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ERSD-VM2C
EHPX-VM2C
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EHPX-VM6C
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EHPX-YM9C
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EHSE-YM9EC
EHSE-MEC
ERSE-YM9EC
ERSE-MEC
155
PUHZSW75VHA
●
P
SW1
ZVHA
Split type
Power Inverter
Mr. SLIM+
ZUBADAN
PUHZPUHZPUHZPUHZPUHZPUHZSW100VHA SW100YHA SW120VHA SW120YHA SW160YKA SW200YKA
PUHZFRP71VHA
PUHZPUHZPUHZPUHZPUHZSHW80VHA SHW112VHA SHW112YHA SHW140YHA SHW230YKA2
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Blank : Combination is NOT available.
156
Mr.SLIM+
A smart air conditioning and hot water supply system conceived from
eco-conscious ideas
Mr. SLIM+ has a heat recovery function, which uses waste heat from air conditioners to heat water.
Thanks to heat recovery, Mr. SLIM+ model can achieve a COP of 7.0*, resulting in intelligent systems
with amazing efficiency.
*Conditions for air-to-air cooling: Indoor 27°C (dry bulb) 19°C (wet bulb); Outdoor 35°C (dry bulb)
1 unit, 2 roles – Total comfort year-round
Air conditioning and hot water supply matching the needs of each room
All-in-one outdoor unit (air conditioning, domestic hot
water supply and hot water heating)
Mr. SLIM for Air-to-Air
Mr. SLIM+ utilizes a duct system that enables the air conditioning or
heating of multiple rooms, and other indoor unit type systems that is
possible to fit various applications.
ECODAN for Air-to-Water
✓ Domestic hot water supply
✓ Heating for multiple rooms
Various operations
Mr. SLIM / Air to Air (Air Cooling)
Air-to-Air cooling using Air-to-Air indoor unit
ECODAN / Air to Water (Hot-water heating + DHW)
Air-to-Water operation using Air-to-Water indoor unit
157
Mr. SLIM / Air to Air (Air Heating)
Air-to-Air heating using Air-to-Air indoor unit
Mr. SLIM + ECODAN / Air to Air (Air Cooling) + DHW
Heat recovery using both Air-to-Air and Air-to-Water indoor units
Specifications
Indoor unit
PLA-ZRP71BA
Outdoor unit
PKA-RP71KAL
PCA-RP71KA
Refrigerant
Power supply
Air-to-Air Cooling
(ATA)
Capacity
Rated
kW
7.1
7.1
7.1
7.1
7.1
7.1
7.1
Min-Max
kW
3.3-8.1
3.3-8.1
3.3-8.1
3.3-8.1
3.3-8.1
3.3-8.1
3.3-8.1
Rated
kW
1.85
1.88
1.90
2.26
1.97
2.10
2.08
3.84
3.78
3.74
3.14
3.60
3.38
3.41
kW
7.1
7.1
7.1
7.1
7.1
7.1
7.1
kWh/a
382
393
387
462
408
459
441
5.6
Design load
Annual electricity consumption *1
SEER *3
Energy-efficiency class
Capacity
Total input
6.3
6.4
5.4
6.1
5.4
A++
A++
A
A++
A
A+
kW
8.0
8.0
8.0
8.0
8.0
8.0
8.0
Min-Max
kW
3.5-10.2
3.5-10.2
3.5-10.2
3.5-10.2
3.5-10.2
3.5-10.2
3.5-10.2
Rated
kW
2.05
2.26
2.26
2.42
2.28
2.09
2.09
3.90
3.54
3.54
3.14
3.33
3.83
3.83
4.7
4.7
4.7
4.7
4.7
4.9
4.9
at reference design temperature kW
4.7 (–10°C)
4.7 (–10°C)
4.7 (–10°C)
4.7 (–10°C)
4.7 (–10°C)
4.9 (–10°C)
4.9 (–10°C)
at bivalent temperature
kW
4.7 (–10°C)
4.7 (–10°C)
4.7 (–10°C)
4.7 (–10°C)
4.7 (–10°C)
4.9 (–10°C)
4.9 (–10°C)
at operation limit temperature
kW
3.5 (–20°C)
3.5 (–20°C)
3.5 (–20°C)
3.5 (–20°C)
3.5 (–20°C)
3.7 (–20°C)
3.7 (–20°C)
kW
0
0
0
0
0
0
0
kWh/a
1,510
1,569
1,555
1,787
1,709
1,799
1,799
4.4
4.2
4.2
3.7
3.9
3.8
3.8
A+
A+
A+
A
A
A
A
kW
Design load
Declared
capacity
6.5
A++
Rated
COP
Back-up heating capacity
Annual electricity consumption *1
SCOP *3
Energy-efficiency class
Air-to-Water Nominal flow rate (for heating)
(ATW)
Heating *4 A7W35
Capacity
Input
L/min
22.90
kW
8.00
kW
1.96
4.08
COP
A2W35
Capacity
kW
7.50
Input
kW
2.65
2.83
COP
Heat
W45
recovery
(ATA
cooling &
ATW) *5
W55
Capacity (ATA cooling + ATW)
kW
7.1+8.0
7.1+8.0
7.1+8.0
7.1+8.0
7.1+8.0
7.1+8.0
7.1+8.0
Input
kW
1.90
1.93
1.95
2.31
2.02
2.15
2.13
7.95
7.82
7.74
6.54
7.48
7.02
7.09
COP
Capacity (ATA cooling + ATW)
kW
7.1+9.0
7.1+9.0
7.1+9.0
6.4+9.0
7.1+9.0
7.1+9.0
7.1+9.0
Input
kW
2.97
3.00
3.02
3.25
3.09
3.22
3.20
5.42
5.37
5.33
4.74
5.21
5.00
5.03
COP
Cylinder unit or Hydro box (see previous page)
ATW indoor unit
Dimensions
HxWxD
73
73
73
73
73
73
73
Cooling
m3/min
55
55
55
55
55
55
55
Heating
m3/min
55
55
55
55
55
55
55
Sound pressure Cooling
dB(A)
47
47
47
47
47
47
47
level (SPL)
Heat recovery
dB(A)
47
47
47
47
47
47
47
ATA Heating
dB(A)
48
48
48
48
48
48
48
ATW Heating
dB(A)
48
48
48
48
48
48
48
Sound power
Cooling
dB(A)
67
67
67
67
67
67
67
level (PWL)
Heat recovery
dB(A)
67
67
67
67
67
67
67
ATA Heating
dB(A)
68
68
68
68
68
68
68
ATW Heating
dB(A)
68
68
68
68
68
68
68
A
19.0
19.0
19.0
19.0
19.0
19.0
19.0
Air volume
Operating current (max)
A
25
25
25
25
25
25
25
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
m
20
20
20
20
20
20
20
Cooling *2
°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
ATW
°C
-20~+35
-20~+35
-20~+35
-20~+35
-20~+35
-20~+35
-20~+35
Heat recovery
°C
+7~+46
+7~+46
+7~+46
+7~+46
+7~+46
+7~+46
+7~+46
Breaker size
Diameter
Liquid/Gas
Max. length
Out-In
m
Max. height
Out-In
Guaranteed operating range
(outdoor)
*1
*2
*3
*4
*5
943-950-330 (+30)
mm
kg
Weight
Ext.piping
PEAD-RP71JAQ PEAD-RP71JALQ
R410A
Total input
Outdoor unit
PSA-RP71KA
230 / Single / 50
Outdoor (V / Phase / Hz)
EER
Heating
(average
season)
PCA-RP71HA
PUHZ-FRP71VHA PUHZ-FRP71VHA PUHZ-FRP71VHA PUHZ-FRP71VHA PUHZ-FRP71VHA PUHZ-FRP71VHA PUHZ-FRP71VHA
30 (for ATA) + 30 (for ATW)
Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located.
Optional air protection guide is required where ambient temperature is lower than –5°C.
SEER/SCOP values are measured based on EN14825.
Air-to-Water values are measured based on EN14511 (Circulation pump input is not included.).
Conditions for Air-to-Air cooling: Indoor 27°C (dry bulb) /19°C (wet bulb); Outdoor 35°C (dry bulb).
158
MELCloud (WiFi interface) for ECODAN
MELCloud for fast, easy remote control and monitoring of your ECODAN
MELCloud is a new Cloud-based solution for controlling ECODAN either locally or remotely by computer, tablet or smartphone via the Internet.
Setting up and remotely operating your ECODAN heating system via MELCloud is simple and straight forward. All you need is wireless
computer connectivity in your home or the building where the ECODAN is installed and an Internet connection on your mobile or fixed terminal.
To set up the system, the router and the ECODAN WiFi interface must be paired, and this is done simply and quickly using the WPS button found
on all mainstream routers.
You can control and check ECODAN via MELCloud from virtually anywhere an Internet connection is available.
That means, thanks to MELCloud, you can use ECODAN much more easily and conveniently.
MELCloud
✽
✽ MELCloud uses the PAC-WF010-E interface
Key control and monitoring features
1 Turn system on/off
2 See status of each of your heating zones & adjust set points
3 See the status of your hot water cylinder & boost remotely
4 Live weather feed from ECODAN location
Holiday mode - Set system parameters while away
Schedule timer - Set 7 day weekly schedule
Frost protection - Set system to run at minimum temperature
Error status
5 Check energy usage report*
159
*Additional measuring hardware is required.
All A++ line-up!!
Seasonal space heating
energy efficiency class
Water heating energy
efficiency class
%
dB
dB
kW
%
%
dB
dB
A++
A
4.6
126
109
40
61
A++
A
5.0
170
109
40
61
ERST20D-****
A++
A
4.6
128
109
40
61
A++
A
5.0
174
109
40
61
EHSD-****
A++
–
4.6
126
–
40
61
A++
–
5.0
170
–
40
61
ERSD-****
A++
–
4.6
128
–
40
61
A++
–
5.0
174
–
40
61
EHST20D-****
A++
A
4.3
125
98
40
63
A++
A
4.5
163
98
40
63
ERST20D-****
A++
A
4.3
128
98
40
63
A++
A
4.5
167
98
40
63
EHSD-****
A++
–
4.3
125
–
40
63
A++
–
4.5
163
–
40
63
ERSD-****
A++
–
4.3
128
–
40
63
A++
–
4.5
167
–
40
63
EHST20C-****
A++
A
7.1
127
103
40
68
A++
A
7.2
165
103
40
68
ERST20C-****
A++
A
7.1
129
103
40
68
A++
A
7.2
167
103
40
68
EHSC-****
A++
–
7.1
127
–
40
68
A++
–
7.2
165
–
40
68
ERSC-****
A++
–
7.1
129
–
40
68
A++
–
7.2
167
–
40
68
EHST20C-****
A++
A
10.0
125
103
40
70
A++
A
10.4
164
103
40
70
ERST20C-****
A++
A
10.0
127
103
40
70
A++
A
10.4
166
103
40
70
EHSC-****
A++
–
10.0
125
–
40
70
A++
–
10.4
164
–
40
70
ERSC-****
A++
–
10.0
127
–
40
70
A++
–
10.4
166
–
40
70
EHST20C-****
A++
A
12.0
125
99
40
72
A++
A
12.9
162
99
40
72
ERST20C-****
A++
A
12.0
127
99
40
72
A++
A
12.9
164
99
40
72
EHSC-****
A++
–
12.0
125
–
40
72
A++
–
12.9
162
–
40
72
ERSC-****
A++
–
12.0
127
–
40
72
A++
–
12.9
164
–
40
72
EHSE-****
A++
–
13.5
125
–
45
78
A++
–
15.3
161
–
45
78
ERSE-****
A++
–
13.5
126
–
45
78
A++
–
15.3
163
–
45
78
EHSE-****
A++
–
15.5
128
–
45
78
A++
–
17.3
162
–
45
78
ERSE-****
A++
–
15.5
129
–
45
78
A++
–
17.3
164
–
45
78
EHST20C-****
A++
A
9.0
131
103
40
69
A++
A
9.6
171
103
40
69
ERST20C-****
A++
A
9.0
133
103
40
69
A++
A
9.6
174
103
40
69
EHSC-****
A++
–
9.0
131
–
40
69
A++
–
9.6
171
–
40
69
ERSC-****
A++
–
9.0
133
–
40
69
A++
–
9.6
174
–
40
69
EHST20C-****
A++
A
12.7
128
103
40
70
A++
A
13.9
167
103
40
70
ERST20C-****
A++
A
12.7
130
103
40
70
A++
A
13.9
169
103
40
70
EHSC-****
A++
–
12.7
128
–
40
70
A++
–
13.9
167
–
40
70
ERSC-****
A++
–
12.7
130
–
40
70
A++
–
13.9
169
–
40
70
EHST20C-****
A++
A
15.8
127
103
40
70
A++
A
17.0
164
103
40
70
ERST20C-****
A++
A
15.8
128
103
40
70
A++
A
17.0
165
103
40
70
EHSC-****
A++
–
15.8
127
–
40
70
A++
–
17.0
164
–
40
70
ERSC-****
A++
–
15.8
128
–
40
70
A++
–
17.0
165
–
40
70
EHSE-****
A++
–
23.0
127
–
45
75
A++
–
25.0
164
–
45
75
ERSE-****
A++
–
23.0
128
–
45
75
A++
–
25.0
165
–
45
75
EHPT20X-****
A++
A
5.0
127
99
40
61
A++
A
5.0
162
99
40
61
EHPX-****
A++
–
5.0
127
–
40
61
A++
–
5.0
162
–
40
61
EHPT20X-****
A++
A
8.5
128
97
40
66
A++
A
8.5
162
97
40
66
EHPX-****
A++
–
8.5
128
–
40
66
A++
–
8.5
162
–
40
66
EHPT20X-****
A++
A
10.0
125
100
40
67
A++
A
10.0
164
100
40
67
EHPX-****
A++
–
10.0
125
–
40
67
A++
–
10.0
164
–
40
67
EHPT20X-****
A++
A
12.7
126
100
40
67
A++
A
12.7
155
100
40
67
EHPX-****
A++
–
12.7
126
–
40
67
A++
–
12.7
155
–
40
67
EHPT20X-****
A++
A
15.8
126
96
40
67
A++
A
15.8
157
96
40
67
EHPX-****
A++
–
15.8
126
–
40
67
A++
–
15.8
157
–
40
67
EHST20C-****
A+
A
7.5
123
98
40
68
A++
A
7.5
163
98
40
68
EHSC-****
A+
–
7.5
123
–
40
68
A++
–
7.5
163
–
40
68
PUHZ-SW75VHA (-BS)
PUHZ-SW100VHA/YHA (-BS)
PUHZ-SW120VHA/YHA (-BS)
PUHZ-SW160YKA (-BS)
PUHZ-SW200YKA (-BS)
PUHZ-SHW80VHA (-BS)
PUHZ-SHW112VHA/YHA (-BS)
PUHZ-SHW140YHA (-BS)
PUHZ-SHW230YKA2
PUHZ-W50VHA2 (-BS)
PUHZ-W85VHA2 (-BS)
PUHZ-W112VHA (-BS)
PUHZ-HW112YHA2 (-BS)
PUHZ-HW140VHA2/YHA2 (-BS)
PUHZ-FRP71VHA
ATA & ATW hybrid system, Mr. SLIM+
Sound power level LWA
outdoor
Sound power level LWA
outdoor
%
EHST20D-****
Sound power level LWA
indoor
Sound power level LWA
indoor
kW
SUHZ-SW45VA
PUHZ-SW50VKA (-BS)
Water heating energy
efficiency under average
climate conditions
Indoor unit
Water heating energy
efficiency under average
climate conditions
Seasonal space heating
energy efficiency under
average climate conditions
Outdoor unit
Water heating energy
efficiency class
Seasonal space heating
energy efficiency under
average climate conditions
For low-temperature application
Seasonal space heating
energy efficiency class
Rated heat output under
average climate conditions
For medium-temperature application
Rated heat output under
average climate conditions
*except for ATA & ATW hybrid system, Mr. SLIM+
✽ Based on COMMISSION DELEGATED REGULATION (EU) No 811/2013, average climate conditions
160
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