FULL PRODUCT LINEUP CATALOGUE 2016
CITY MULTI SERIE
HEATING SERIE
VENTILATION SERIE
CONTROL SYSTEMS SERIE
Mitsubishi Electric in the world
II
Founded in 1921, Mitsubishi Electric is now a global reality with a consolidated net
turnover of 39.3 billion US$*, a network of sites in 34 countries worldwide and a workforce
of over 124,000. But numbers aside, Mitsubishi Electric – from the Japanese “mitsu bishi”,
meaning “three diamonds” – has always been synonymous with quality.
The undisputed leader in the manufacture, marketing and sale
of electric and electronic devices and equipment, in its over 90
years of history Mitsubishi Electric has supplied high technology,
extraordinarily reliable products to major companies and
private consumers alike all over the globe. Mitsubishi Electric
products and components are used in a huge variety of different
applications: IT and telecommunications, space research and
satellite communications, consumer electronics, and technology
for industrial, energy, transport and construction applications.
Mitsubishi Electric has had operations in Europe since 1969, and
now has sites in 15 European countries: Czech Republic,
France, Germany, Netherlands, Italy, Ireland, Belgium, Poland,
Portugal, Russia, Spain, Sweden, UK, Turkey and Hungary. The
group’s European operations also include 6 production plants
(France, UK, Netherlands and Czech Republic) and 2 research
and development centres (France and UK).
Established in 1985, Mitsubishi Electric’s Italian subsidiary
operates through four commercial divisions: Air Conditioning
(air conditioners for residential, commercial and industrial
applications); Factory Automation (devices and systems for
industrial automation); Semiconductors (electronic componentry)
and Automotive (control systems and components for automobile
and motorcycle systems). In particular, the Air Conditioning
division handles products manufactured in the group’s 5
production plants in Japan, which were joined in 1993 by the
factories in Livingston (Scotland) and Bangkok (Thailand).
Improving energy efficiency and comfort is the primary goal of
Mitsubishi Electric, a company that has always been committed
to developing environmentally sustainable, forward-looking
technological solutions. For Mitsubishi Electric, constant research
into solutions catering for the health and comfort of the user goes
hand in hand with environmental awareness. Through continuous
investments in research and development, the company has
developed pioneering products and systems which substantially
reduce energy consumption, operating costs and CO2 emissions.
Mitsubishi Electric develops complete solutions for every possible
application: from autonomous and centralised residential
systems to hotels, restaurants and health spas, and from small
condominiums and residential complexes to museums, banks,
offices, etc. Mitsubishi Electric offers a comprehensive range of
air conditioners for residential and commercial applications with
DC Inverter technology, in Mono and Multisplit configurations
(for wall-mounted, floor standing, cassette ceiling or ducted
installations) for 2 to 8 rooms. We also offer air conditioning
systems for medium-sized to large factories and for tertiary sector
applications. With its innovative hydronic heat pumps, Mitsubishi
Electric brings its proven know-how in the air conditioning sector
to the heating market, offering integrated green solutions catering
for every possible need. And to ensure the perfect climate for
health and wellbeing in every possible space, the Japanese
company has also developed an extensive range of outdoor air
treatment products to renew air, restore correct oxygen levels and
contribute to controlling temperature and humidity. For Mitsubishi
Electric, creating the perfect climate for health and comfort means
ensuring the ideal air quality with impeccable solutions.
* at an exchange rate of 103 Yen per 1 US$ listed by the Tokyo Foreign Exchange Market on 31/03/2014.
1
Mitsubishi Electric
new products and features for 2016
RMI – Remote Monitoring Interface
The RMI system lets you control your air conditioning, heating and domestic hot water production
system remotely from a smartphone, tablet or PC. The system may be used to monitor the
performance of your appliances, programme functions, check consumption and view operating states
to optimise the efficiency of the system.
Small Y Series outdoor units
NEW
SIZE
8HP
CITY MULTI 2.0. The new SMALL Y series of CITY MULTI VRF outdoor units offers best in class
energy efficiency. Outstanding performance, connectability to DESIGN indoor units, state of the art VRF
technology and heating hot water production capability: these are just some of the advantages of the
new PUMY.
•ConnectabletoresidentialseriesDESIGNindoorunitsusingtheLEVKIT.
•Mixedindoorunitconfiguration(VRFandRAC).
•Increasedgeometriclimitsforpiping.
•7sizesavailable:4.5HP, 5HP, 6HP (offered as single-phase and three-phase models), and 8HP
three-phase.
•Maybeconnectedtoupto12indoorunits.
•200%connectionwithEcodanATWhydronicmodule.
•TechnicalinnovationssuchastheincreaseddensityDXcoil,formaximisedheatexchangesurfacearea.
•compatiblewithRMI.
YKA Ecostandard Series outdoor units
NEW
2
CITY MULTI 2.0. The new CITY MULTI VRF Y range of outdoor units sets new technological standards
for the industry. Featuring a new design, compact dimensions and a host of advanced technological
features, these units offer outstanding, class-beating efficiency and performance.
•Compactdimensionsandsinglemoduleformatupto20HP.
•NewDCScrollInvertercompressor.
•ETCcontrol:Newautomaticevaporationtemperaturecontrolfunction,increasingenergyefficiency
byupto20%.
•NewDCinverterfanandflangedductshrouddesignreducingpowerabsorptionandperceptible
noise.
•Broadoperatingtemperaturerange:-20°Cto+52°C.
•compatibileconRMI.
3DT WEB Server centralized control unit
The new 3D TOUCH Controller represents the state of the art in control systems by Mitsubishi Electric,
which invented the industry’s first WEB Server centralized controller, the G-50A, in 2003.
•10.4” backlit, colour SVGA-LCD touch screen.
•230VACmainspower.
•Independentorcollectivecontrolof50groups,forupto50unitsoverall,instand-alonemode.
•EthernetinterfaceandintegratedWEBServersoftware.
•Directinterfacingwithelectricpowerconsumptionmeters(Wattmeter).
•Integrated2GBSDmemorycardforstoringsystemdata.
•Powerconsumptiondataforbillingdownloadableviainternetconnection.
•compatiblewithRMI.
ADVANCED Remote Control
NEW
New ADVANCED remote control unit with large monochrome LCD touch screen with white backlight.
New energy saving functions with occupancy, light, temperature and humidity sensors.
•Usabletomanage1groupofupto16indoorunits.
•Integratedtemperature,humidity,occupancyandlightsensors.
•SMARTenergysavingandcomfortfunctions.
•ContextualcolourLEDindicatingoperatingstatusofindoorunits(heat,cool,error,etc.).
•Temperaturesettableandviewablewithaprecisionof0.5°C.
•Internalweeklytimer.
•NewfunctionsforuseinconjunctionwithAHCProgrammableController(PLCM-Net),forcreating
operating strategies with generic devices.
4-way cassette type Indoor Unit
NEW
New Design. The straight-line shape introduced has resulted in a stylish and modern 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. New model P50 has been introduced to expand line-up.
•NewsizeP50.
•Horizontalairflow,5vanepositionpatternsandindividualsettablevane.
•Lownoisecomparetopreviousmodel.
•3DI-seesensor.
•Compactforsimplifiedinstallation.
3
Mitsubishi Electric
for air conditioning
A commitment to research and pioneering technological solutions
make Mitsubishi Electric the leading name in air conditioning. Poor
air quality in urban environments, sudden changes in the weather
and large differences in maximum and minimum temperatures
can have a profound effect on the comfort and wellbeing of the
individual. Ensuring that air quality, temperature and humidity
parameters are kept strictly within an ideal range in the home and
in the workplace is extremely important - not merely for perceived
comfort but even for the health of the individual. Guaranteeing
a better quality of life through the best possible air quality is, in
essence, the corporate mission of Mitsubishi Electric, which
continuously develops pioneering new technologies to apply in its
products to reach this goal.
Direct expansion systems with variable refrigerant flow (VRF) have
become an important option as a solution for air conditioning
systems.
The innovative VRF CITY MULTI systems by Mitsubishi Electric are
increasingly becoming the first choice for designers, installers and
end clients alike, due to their superior efficiency and modularity,
simple, quick installation and extraordinarily economical operating
costs.
With a wide range of outdoor units available in a multitude of
sizes and formats, with air or water heat source condensers,
with heat pump functionality or simultaneous heating and cooling
function with heat recovery, and optimised for nominal or seasonal
performance, the perfect solution can be found for any application
problem, while in its commitment to the environment, Mitsubishi
Electric also offers the exclusive REPLACE MULTI system for
replacing old R22 VRF systems.
To provide a complete solution, Mitsubishi Electric also offers a
wide range of technologically advanced remote and centralised
control systems to allow integrated control and adjustment, with
the same superior reliability and innovation as VRF CITY MULTI
systems. Using one of the wide choice of controller options
available will ensure that the air conditioning system functions both
correctly and efficiently, and maximises comfort.
4
Mitsubishi Electric
for air treatment
Treating outdoor air and ducting it into a building is necessary
to restore the correct oxygen levels and remove pollution, and
contributes to effectively controlling temperature and humidity.
An air conditioning system with no air renewal system cannot
ensure even the most basic requirements for health and comfort,
as they do not prevent the proliferation of bacteria and other
microorganisms.
Mitsubishi Electric offers a wide choice of extremely compact
machines conceived to cater for every possible application
and demand for outdoor air treatment capacity, with a family
of products covering a broad range of air flow rates from 50 to
15,000 m³/h.
The secret behind the unparalleled comfort attainable with the
Lossnay heat recovery modules used in Mitsubishi Electric
outdoor air treatment products lies in the unique structure of
the heat exchange elements, which consist of a membrane in
special treated paper that keeps the flow of incoming outdoor
air and outgoing exhaust air separate, ensuring that only new
EA
Outdoor
OA
SA
outdoor air is fed to the indoor space. The superior heat and
humidity exchange properties and absolute impermeability to air
of the special treated paper ensures that there is no cross-flow
between the two air flows, and allows these units to reach such
extraordinarilyhighlevelsoftotalheatrecovery(sensible+latent
heat).
Outdoor air
delivered to indoor
ambient (pre-cooled
or pre-heated)
Ambient
RA
Stale air (hot or old) intake
Outdoor fresh air
STRUCTURE OF INTERNAL HEAT EXCHANGER
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Mitsubishi Electric
for heating
Mitsubishi Electric boasts the largest range of heat pump heating
solutions available on the market: Ecodan® is a new family of
hydronic heat pumps for heating, cooling and domestic hot water
production using renewable energy. The heat pump transfers heat
from the outdoor environment to the indoor space using water as
the thermal medium, which means that it offers the same comfort
as a conventional combustion heating system. An exclusive
temperature control system, which is extremely sophisticated but
easy to use, maintains thermal stability while maximising energy
efficiency. Furthermore, the extraordinary quietness typical of these
units also improves acoustic comfort. Ecodan® can cater for any
need and application, from autonomous residential installations
(with split and packaged systems) all the way up to large
installations (with VRF systems), while offering unparalleled design
flexibility, comfort and energy efficiency, together with lower energy
consumption and zero CO2 emissions.
Ecodan® hydronic heat pumps are totally integrable with VRF
CITY MULTI systems to respond to any need for air conditioning,
heating water production and domestic hot water production.
The Ecodan® – Split ATW 55 system consists of a Y / WY series
VRF CITY MULTI heat pump outdoor unit and an ATW hydronic
module for the production of medium temperature hot water up to
55°Candrefrigeratedwater.
The scalability, flexibility and modularity of the Ecodan® – VRF
HWS & ATW system represent the state of the art in Mitsubishi
Electric technology. Exclusive two-stage technology is used to
producemediumtohightemperaturehotwater(from30°Cto
70°C)withasingleproducer–theVRFoutdoorunit–allowingthe
system to deliver heating water, cooling water and domestic hot
water simultaneously.
The Ecodan® – Packaged HWHP (Hot Water Heat Pump) system
consists of a monoblock outdoor unit, capable of functioning at
outdoortemperaturesaslowas-20°C,whichproducesveryhigh
volumesofhightemperaturehotwaterupto70°C.
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Mitsubishi Electric
for energy efficiency
The heat pump
Air/air and water/air heat pumps for air conditioning and air/water or water/water heat pumps for heating: all the units of the VRF CITY
MULTI systems by Mitsubishi Electric are based on heat pump technology – the most efficient solution available for air conditioning and
heating.
PREVENTING GLOBAL WARMING
Heat pump technology allows Mitsubishi Electric to design air conditioners which match comfort with care for the environment.
The operating principle of the heat pump (in this example, a heating unit with a COP of 5.0) Refrigerant and heat flows
Refrigerant and heat flows
The thermal power delivered to the room is five times greater
than the power absorbed from the mains electricity grid
“1kW”
Absorbed
electrical power
80oC
10oC
Compressor
o
o
20
60 C
Outdoor
unit
The compressor compresses
the refrigerant, which increases
in temperature
o
60 C
Indoor
unit
“4kW”
“5kW”
“4kW”
Heat absorbed
by air
“1kW”
Absorbed electrical power
Evaporator
Expansion
valve
Condenser
Thermal power absorbed
from outdoor air
Heat released
into room
più
+7%
7%
7%
o
40 C
o
30 C
5oC
50oC
Heat
“5kW”
Thermal power delivered
to room
The compressor
compresses the refrigerant, which increases in temperature
EER e COP
più
+2%
2%
2%
YGM
The energy efficiency of heat pump systems for cooling and
heating operation respectively is indicated by the two performance
coefficients EER (Energy Efficiency Ratio) and COP (Coefficient
Of Performance), which express the ratio between the thermal
power delivered and the electrical power absorbed. The higher the
ratio, the more efficient the system and, as a result, the lower the
consumption.
EER
COOLING
più
+7%
7%
7%
YHM
YJM systems have among the
Mitsubishi Electric VRF CITY MULTI
highest performance coefficients in their class, as they incorporate
the latest technological solutions available as soon as they are
developed. These systems are also eligible for government
incentives for projects to rationalise energy consumption in
buildingsand,specifically,fora50%rebatewhenusedtoreplace
winter air conditioning systems with high efficiency heat pumps.
COP
HEATING
più
+2%
2%
2%
più
+4%
2%
2%
più
+1%
7%
7%
YGM
YHM
YGM
YJM
YHM
YJM
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Mitsubishi Electric
for renewable energy
The heat pump and thermal energy of the air
In response to global warming, the European Union has issued the
RES directive (Renewable Energy Sources), which defines goals
for energy production from renewable sources which each EU
member state must attain by 2020. The quota set for Italy, relative
tototalgrossend-userenergyconsumption,is17%.Legislative
Decree 28/2011 was passed to ensure that the measures
necessary to attain this target are implemented in Italy, which
introduces the following limits for new buildings and significant
renovation projects: the thermal energy production systems must
useatleast50%energyfromrenewablesourcesfortheproduction
of domestic hot water, and also meet the following minimum
percentages for renewable energy for heating and cooling:
a)20%,iftheapplicationfortherespectivebuildingpermitis
submitted between 31 May 2012 and 31 December 2013;
PRIMARY ENERGY CONSUMPTION PER 100 kWh THERMAL
POWER DELIVERED
b)35%,iftheapplicationfortherespectivebuildingpermitis
submitted between 1 May 2016 and 31 December 2016;
c)50%,iftheapplicationfortherespectivebuildingpermitis
submittedafter1January2017.
As renewable thermal energy sources, heat pumps contribute
significantly to attaining these goals for both heating and cooling
applications, as they:
• are60%moreenergyefficientthanconventionalcombustion
systems and therefore allow buildings to achieve a higher energy
classification;
• donotemitCO2 in the place of installation;
• userenewableenergycontainedinair.
ANNUAL CO2 EMISSIONS
125
100
100
80
75
50
125
kWh
25
0
Fuel oil fired boiler
60
105
kWh
Gas fired boiler
54
kWh
Heat pump
COP 4*
* Using a power efficiency value of 0.46 for the national thermoelectric
power network
40
100%
68%
20
0
Fuel oil fired boiler
Gas fired boiler
45%
Heat pump
COP 4
Source: emissions coefficient published by Japanese Ministry of the Environment
Photovoltaic and solar power
Photovoltaic panels convert renewable energy radiated by the
sun directly into electrical energy.
Photovoltaic modules not only produce clean energy, but are
also manufactured with minimal environmental impact, while
the life cycle of these products is subject to stringent monitoring
processes. Installing a photovoltaic system therefore:
• offersameanstousecleanenergywithzeroCO2 emissions;
• significantlyreduceselectricitybills,iftheenergyproducedis
consumed directly;
8
• allowsthebuildingtoattainahigherenergyclassratingduring
energy certification;
• contributestoachievingthequotaforrenewableenergysources
required by the RES directive mentioned above.
Integrating the heat pump with photovoltaic panels means
that the renewable electric energy generated by the modules
is used as efficiently as possible: with both air conditioning
and heating powered by solar energy and the thermal energy
of the ambient air – both renewable sources.
Mitsubishi Electric
for comfort
Air distribution
Correct air distribution prevents stratification, directing treated air towards less easily accessible zones and creating a uniform environment.
The ability to change the orientation of the horizontal and vertical vanes from a remote control prevents air flow from being directed at
persons.
Horizontal
Fixed
Downwards
Adjustable
Quietness
Mitsubishi Electric equips its air conditioners with every technical solution offered by advanced research to minimise noise. Quietness
contributes substantially to the perceived sense of comfort, and has always been a key priority for Mitsubishi Electric.
Standard Mitsubishi Electric indoor units are among the
quietest on the market
80dB(A)
80dB(A)
60dB(A)
40dB(A)
20dB(A)
10dB(A)
60dB(A)
20dB(A)
40dB(A)
10dB(A)
Noise level in a train
Inside a quiet passenger car (at 40 Km/h)
Inside a library
Sound of rustling leaves
Limit of human hearing (extremely quiet)
with indoor sound emissions of just 21dB(A).
Silent Mode
This function further reduces the noise produced by the outdoor
unit by reducing the maximum fan speed and compressor
frequency to comply with night time noise limiting regulations.*
Low turbulence fan
The special profile of the outdoor unit fan blades suppresses
turbulence caused by moving air currents, maximising both
quietness and efficiency.
50%
less perceived
noise
Day
56dB
lower
Night
44dB
* In Silent Mode, the thermal and/or cooling capacity of the outdoor unit
is limited.
9
Mitsubishi Electric
for comfort
Functions for optimising the function and efficiency of the VRF CITY MULTI system
RMI - Remote Monitoring Interface
A new way to define comfort - remotely. The main operating
parameters of a VRF CITY MULTI system can now be set and
modified remotely from a smartphone, tablet or PC, using
dedicated apps for iOS and Android devices. The user can set
room temperatures for heating and cooling modes, on/off times,
domestic hot water temperature etc. according to weather
conditions (using geolocation) and personal preferences.
Available on
Android Apps, on
Integrated occupancy sensor
The sophisticated occupancy sensor integrated in the new
Advanced remote control recognises when the room is occupied
on the basis of 2 parameters: movement detected in the room
and differences in temperature between the room itself and the
persons in the room. The sensor makes it possible to manage the
indoor units linked to the controller automatically. This optimises
comfort depending on the effective number of people in the room,
eliminating waste and maximising energy savings.
Occupancy sensor
Fresh air quality
The range of Mitsubishi Electric VRF CITY MULTI systems offers
the best possible air quality in complete compliance with antismoke regulations defined by the Ministry of Health and enforced
by specific legislation in all public areas, workplaces and schools
in Italy.
Featuring the exclusive LOSSNAY enthalpic heat recovery module,
the outdoor air treatment products offered ensure the necessary
air exchange for both non-residential environments, as required
bytheregulationUNIEN13779,andresidentialenvironments.
These products also fully meet the requisites for incoming air
flow necessary for energy certification, in compliance with the
regulation UNI/TS 11300-1:2008.
Broad operating temperature range
Extended comfort: the new extended temperature range function
allows systems supporting the function to be set with maximum
setpointsupto35°Cincoolingmode,andminimumsetpointsas
lowas4.5°Cinheatingmode.
Cooling mode, max. 35°C
35°C
28°C
30°C
17°C
19°C
4.5°C
Heating mode, min. 4.5°C
10
Mitsubishi Electric
for design
Design and comfort
With Mitsubishi Electric, comfort and energy efficiency come together with design, in elegant products that are easy to integrate into any
type of interior, and designed and built to deliver unparalleled performance with total respect for the environment.
3D TOUCH Controller - WEB Server centralised controller
The WEB Server centralised controller combines impressive processing power, which makes it the first and only controller to display
a graphic representation of the layout of the system, with impeccable design, with modern, square lines and a polished glass-effect
front panel.
ADVANCED Remote Control
Alasplit is an innovative automated device which caters for
the cosmetic needs of air conditioning systems installed in a
home, office or store. This innovative system brings an end
to unsightly grey cover grilles and permanently visible air
conditioner units.
The new ADVANCED remote control by Mitsubishi Electric
boasts an impeccable design with square, modern lines and
a glass-effect polished front panel. With sophisticated looks
and impressive versatility, this remote control is intuitive
to use, pleasant to look at and a pleasure to show off. The
new remote control has a large monochromatic LCD touch
screen display with white backlighting that is clearly legible in all
conditions and from any angle.
11
Mitsubishi Electric for the environment
“Technology & Action”
contributing positively to protect planet Earth and its population.
Prevent
global warming
Create a society
based on
recycling
Ensure harmony with nature
Promote an environmental conscience
Mitsubishi Electric
Environmental Vision 2021
Eco Changes
Environmental Vision 2021 is Mitsubishi Electric’s long term
This far-reaching environmental vision also introduces
environmental management programme aiming to achieve
Mitsubishi Electric’s new motto for the environment: Eco
significant and specific environmental goals by 2021 – the
Changes – for a greener tomorrow. In keeping with the
centenary of the foundation of the company. The programme
Mitsubishi Electric company motto “Changes for the better”,
is based on the principle “Technology & Action”, and is
which embodies the group’s continuous commitment to
intended to contribute positively to protecting the Earth and its
researching and putting improvements into practice, Eco
population. The goals of this programme are:
Changes expresses Mitsubishi Electric’s dedication to correct
• Preventglobalwarming
• Createasocietybasedonrecycling
• Ensureharmonywithnature
• Promoteanenvironmentalconscience
12
environmental management, and conveys the ongoing,
extensive efforts of the group towards a greener tomorrow,
putting pioneering environmental technologies and superior
manufacturing know-how to use to achieve an environmentally
sustainable society.
The global scenario: Accelerating global warming
The increasing levels of carbon dioxide (CO 2 ) in the earth’s
atmosphere are considered one of the main factors causing global
warming.
The average temperature of our planet has increased by more
than0.8°Coverthepastcentury,causingseriousupheavalsin
the climate. It has been estimated that global temperatures could
increaseby1.1°Cto6.4°Cbytheyear2100.
Fig. 1 Average global temperatures from 700 to 2100 (recorded and
forecast values).
Source: “The Fourth Assessment Report” published by the Intergover nmental Panel on
Climate Change (IPCC) (http://www.ipcc.ch/)
The global scenario: The largest sources of CO2 emissions
The increasing levels of carbon dioxide (CO 2) in the earth’s
atmosphere are considered one of the main factors causing global
warming.
As can be seen in the graph, the energy, transport and civil sectors
(residential, tertiary etc.) are among the largest producers of CO 2
emissionsinItaly.Inparticular,thecivilsectoraccountsfor20%of
all CO2 emissions.
With so many people spending time at home or in their workplace,
it is no surprise at all that buildings account for such a large
percentage of emissions. In buildings, the energy expended on
air conditioning (summer and winter) and on hot water production
represents the largest percentage of the total primary energy
expenditure. In this global scenario, it is clear that more energy
efficient buildings and homes offer enormous potential for reducing
energy usage, especially if in conjunction with equally high
performance air conditioning and hot water production systems.
Mitsubishi Electric plays a crucial role in this sector by offering a
host of highly efficient solutions for air conditioning, heating and air
treatment.
Industry
18%
Agriculture
2%
Energy
33%
Civil
20%
27%
Transport
The replacement of air conditioning systems using R22
TheEUregulation2037/2000/EChasbannedtheuseofvirgin
HCFC refrigerants (R22) since 1/1/2010. As a result, in the event
of a fault or even just a refrigerant leak in an air conditioning system
using R22, it is no longer possible to recharge the system.
Mitsubishi Electric’s solution for the VRF R22 system replacement
market is founded on the 3 Rs: Reuse, Replace and Renew.
The innovative Mitsubishi Electric Replace Multi solution makes
it possible to reuse components and structural elements of the
existing system instead of completely replacing all units and
refrigerant pipelines.
Reasons for choosing REPLACE MULTI:
• Newgenerationoutdoor
u n i t s w i t h R 4 1 0 A a re
much more efficient,
with lower electric power
consumption.
• Quickerinstallationtimes,byminimisingtheworkrequiredon
infrastructure, and a smaller financial outlay compared with the
existing VRF R22 system.
• Takingadvantageofthe50%taxrebateforbuildingrenovation
projects,orthe65%rebateofferedforreplacingwinterair
conditioning systems, will minimise the time necessary to
recoup the initial outlay.
13
Mitsubishi Electric
for quality and safety
Certified quality
Mitsubishi Electric Quality, or MEQ
for short, stands for many things. It is
a testimony of 90 years of excellence in
technology, design and production.
It stands for the highest possible standards for comfort,
efficiency and durability. And it is a mark of the best air
conditioners money can buy today.
A guarantee of the most advanced technology and highest
possible quality , the MEQ logo represents Mitsubishi Electric’s
pride and commitment to retaining its position as the leader in the
air conditioning world.
O u r p ro d u c t s a re t h e re s u l t o f p a i n s t a k i n g re s e a rc h ,
rigorous testing and a steadfast dedication to continuous
improvement. Offering unparalleled reliability and functionality,
our air conditioners ensure indoor ideal air quality and create a
comfortable environment in the home or workplace.
Air conditioners are subject to safety standards
defined by specific European directives.
The CE mark is a guarantee of conformity with
these standards, and all the models in the vast range of Mitsubishi
Electric air conditioners meet the requisites for carrying this
important certification.
Our Lossnay enthalpic heat recovery modules
have recently attained certification which
guarantees their specified performance.
ISO 14001 certification testifies that a company
implements specific management systems for its
products and/or services which effectively safeguard
the environment and the health of citizens.
ISO 9001 is synonymous with total quality. This is the
most important quality system acknowledgement
that a company can aspire to, and is only granted to
industrial concerns which, like Mitsubishi Electric, can ensure
excellence in every stage of the production cycle, from design to
the after-sales service.
Recycling
Mitsubishi Electric has chosen to subscribe to the ReMedia Consortium, a leading collective organisation
with the goals of ensuring that consumers handle and recycle WEEE material (Waste Electrical and Electronic
Equipment) correctly, and promoting environmental protection policies.
The primary objective of Italian Legislative Decree 151/05 is to protect the environment, in particular, through the implementation of policies
and practices to prevent the production of Waste Electrical and Electronic Equipment (WEEE) and to promote the recycling of these
materials to reduce the quantity of waste subject to waste treatment.
In particular, consumers will be required to not dispose of WEEE materials as normal urban refuse, and to take active part instead in
separate waste collection in accordance with the practices specified by the aforementioned Legislative Decree.
14
VRF Systems Serie
INDEX
CITY MULTI Unique, exclusive characteristics ........................................................................ 18
17
Unique, exclusive characteristics
RMI Remote Monitoring Interface.
An energy management and monitoring system
What is RMI?
Your perfect climate in an App!
RMI is an all new cloud computing based system for the remote
management, energy monitoring and maintenance of Mitsubishi
Electric Air Conditioning solutions from smartphones, tablets and
PCs.
RMI may be used to monitor the performance of your appliances,
programme functions, check consumption and view operating
states to optimise the efficiency of the system.
Available on
Control your air conditioner, adjust temperature and air flow
settings, view and manage hot and cold water production status
and check for system faults.
All from an app
on your smartphone or tablet.
Android Apps, on
Control systems simply and intuitively
Set weekly programmes and special events, and view and analyse
the operating parameters of your system remotely from a mobile
device with a graphic interface that lets you change settings
instantaneously when needed.
Who can use RMI?
Because of its many different functions, the RMI system is suitable
for all types of installation, from centralised residential systems to
commercial applications and large scale installations. The remote
management and monitoring functions are intended for end users
(e.g. tenants), owners, administrators, energy/building managers,
global service providers and installing and maintenance technicians.
Manage, view detailed information and analyse
Manage multiple installations with different sizes and architectures
conveniently from the application on your PC, view function
parameters in a summarised dashboard interface, and analyse
specifically created reports to make your installation work even
more efficiently. RMI is also the ideal solution for the centralised
management and supervision of multiple installations in different
locations.
The choice
RMI is offered in the following packages:
Real time remote, mobile control, view active faults, weekly (x2)
and annual timer functions, and geolocalised weather function.
Multi-installation management, alarm log, standard monthly
reports, standard monthly graphs, fault notification and reset via
e-mail and SMS.
Upgrade feature (applicable for ADVANCED packages only) for
creating sub-users with customisable functions.
18
Total
connection
points
Total
connection
points
Total
connection
points
Unique, 20
exclusive
20characteristics
Total
connection
points
58
58
R2 Series: The world’s first and only two-pipe heat recovery VRF system with simultaneous heating
and cooling capability
Comparison between different systems with different pipe connection points
CITY MULTI R2
3 PIPE SYSTEM
Total
connection
points
Total
connection
points
20
Outdoor unit
58
Outdoor unit
Outdoor unit
Outdoor unit
Solenoid
valve box
Indoor unit
Outdoor unit
Outdoor unit
Solenoid
valve box
Indoor unit
Indoor unit
MITSUBISHI ELECTRIC
MITSUBISHI ELECTRIC
OTHER
Outdoor unit
Indoor unit
OTHER = 2 points
Outdoor unit
Outdoor unit
= 3 points
= 2 points
= 3 points
How does the R2 / WR2 heat recovery system work with two pipes?
The secret of the VRF CITY MULTI heat recovery system lies in the BC controller. The BC controllerSolenoid
contains a liquid/gas separator which
valve box
allows the outdoor unit to produce a two-phase mixture of hot gas for heating and liquid for cooling delivered through the same pipe. Three
unit
Indoor unit
pipe systems use one Indoor
pipe for
each of these two phases. The mixture is separated when it reaches the BC
controller, and the correct phase
(gas or liquid) is sent to each indoor unit in relation to individual demand for heating or cooling.
MITSUBISHI ELECTRIC
OTHER
= 2 points
Heating = gas refrigerant
Cooling = liquid refrigerant
2 R2/RW2 REFRIGERATION CIRCUIT
The two-phase gas-liquid refrigerant from the outdoor unit is split
into gaseous refrigerant and liquid refrigerant by the gas-liquid
separator in the BC controller.
1 The high pressure and low pressure
values determine the compressor activation
frequency and heat exchanger operating
mode, and also control the thermal
exchange volume.
BC controller
Gaseous refrigerant
High pressure
two-phase gas-liquid
refrigerant mixture
External unit
Liquid refrigerant
Gaseous
refrigerant
The BC controller separates the refrigerant correctly for each indoor unit in
relation to operating mode of the unit
itself.
Liquid
refrigerant
Internal unit
Heating
Heating
Cooling
Cooling
25°C
26°C
22°C
24°C
3 Refrigerant flow regulation in relation to
temperature difference between intake air
and delivery air.
19
= 3 points
Unique, exclusive characteristics
R2 Series: The world’s first and only two-pipe heat recovery VRF system with simultaneous heating
and cooling capability
Heat recovery system
With the heat recovery system, the more often the simultaneous cooling and heating function is used, the greater the energy savings.
}
Outdoor units in heating mode
System
functional
diagram
CITY MULTI R2/
WR2
(
15HP
Indoor units for a total of 15HP
connected to a 10HP outdoor unit
)
A Predominant mode: heating
10HP
7,5HP
B Total heat recovery
5HP
C
5HP
7,5HP
10HP
15HP
Indoor units in cooling mode
Why use heat recovery?
Flexibility and efficacy are decisive factors when choosing a
system with heat recovery capability. For instance, while a heat
pump system is suitable for an office with a large open space
plan, in an office space subdivided into more units, a system is
needed that can simultaneously heat and cool different zones
in accordance with the preferences of each individual user.
The efficacy of these systems stems from their ability to use
by-products of cooling and heating to transfer energy where it
20
is needed, therefore functioning as a balanced heat exchanger
offering savings of up to 20% in operating costs compared with
a conventional heat pump system. Moreover, the number of
connection points needed for an R2 / WR2 system is significantly
lower than the number required by a three pipe system. This
reduces installation costs, further adding to the savings offered by
using the VRF CITY MULTI system.
Unique, exclusive characteristics
M-Net Power: Uninterrupted operation system for VRF indoor units
M-Net Power
With the M-Net transmission line and the use of separate power
and control circuits for indoor units, the following states can be
identified automatically:
• indoorunitmalfunction
• powerlosstoindoorunit.
In the event of one of these conditions, the outdoor unit isolates
the malfunctioning indoor unit or indoor unit receiving no power to
ensure the continued electrical and refrigeration functionality of the
system with no action required from a technician and/or a system
administrator. This allows total flexibility in planning and laying
out 220V AC power circuits, without the need for shared main
lines and without requiring any additional devices to attain
compliance with legislation for electrical systems. This circuit
configuration is essential for situations where the system itself is
shared by multiple owners or tenants, and where each must be
able to electrically isolate their respective indoor terminal sections
when required.
Contunuous operation
In the event of power loss or partial malfunction of one or more indoor units, the system continues to function uninterruptedly and without requiring any action from a technician and/or system administrator.
21
Unique, exclusive characteristics
200% extended connectivity system
200% extended connectivity system
The innovative Ecodan® HWS & ATW unified VRF system by Mitsubishi Electric for cooling, heating and domestic hot water production
brings VRF technology to the heating market.
To ensure correct power usage in applications such as centralised residential systems and hotels, where permitted by the coincidence
factor, Mitsubishi Electric offers a system allowing up to 200% extended connectivity.
The 200% extended connectivity system offers the advantage of simplified, intuitive and, most importantly, automated operation
comparable to a conventional centralised heating system (e.g. gas boiler), meaning that the professional installer is no longer required to
include complicated, redundant management and adjustment systems.
System architecture
EXAMPLE OF 200% EXTENDED CONNECTIVITY SYSTEM WITH R2 SERIES
BC controller
PURY-P200YM-A
HWS P100
ATW P100
U.I. P50
U.I. P50
U.I. P50
U.I. P50
For example, in a hypothetical installation with a P200 outdoor unit, this system permits the connection of units with a total power index
equal to 200% that of the outdoor unit (P400), subdivided according to the following rules:
• Maximumpowerindexforhydronicmodules=P200(100%ofoutdoorunitpowerindex)
• Maximumpowerindexforindoormodules=P200(100%ofoutdoorunitpowerindex)
A VRF Ecodan®installationwiththisconfigurationwillensuresimultaneousoperationuptoapowerindexof130%,inthecaseofaYheat
pump system, and up to 150% in the case of an R2 heat recovery simultaneous heating and cooling system.
The right power for the right application
The 200% extended connectivity system conceived by
Mitsubishi Electric is applicable only for mixed configurations
with simultaneous production functions: Heating with standard
VRF indoor units, primary heating function with ATW hydronic
modules and domestic hot water production with HWS modules
(in this case, only with R2 heat recovery simultaneous cooling and
heating systems). This system requires that a precise operating
limit is defined that will ensure that the outdoor unit power drawn
is appropriate for the ambient loads effectively to be satisfied in
all operating conditions and at all times. As a consequence, it
is always important to evaluate maximum simultaneous power
demand in the different operating modes possible.
22
Operation with heat pump systems (Small Y (PUMY) and Y (PUHY))
Application
WINTER
AUTUMN/SPRING
SUMMER
ATW Hydronic Module
Indoor Units
Primary Heating
Air Cooling and Heating
ON
OFF
OFF
OFF
ON
ON
Operation with simultaneous cooling and heating heat recovery systems
(R2 (PURY))
ATW Hydronic Module ATW Hydronic Module
Application
WINTER
AUTUMN/SPRING
SUMMER
Indoor Units
DHW
Production
Primary
Heating
Air Cooling
and Heating
ON(365days/year)
ON(365days/year)
ON(365days/year)
ON
OFF
OFF
OFF
ON
ON
Unique, exclusive characteristics
Y Series: Automatic hot/cold switching function: “Reference group” method
Functions
ThisfunctionisactivatedfromasettingmadeviaacentralisedWEBServercontroller(3DTOUCHController,3DBLINDController)orthe
TG-2000 controller. The selected group is enabled in AUTO mode, and used as the “Reference group”.
COOL
HEAT
HEAT
HEAT
COOL mode
request
HEAT
AUTO
The reference group requests a change in operating MODE
for the respective outdoor unit.
Temperature
Ambient
temperature
Set
temperature
NOTE:
HEAT = “Heating” mode
COOL = “Cooling” mode
Time
COOL mode command
COOL
COOL
COOL
COOL
COOL mode
request
COOL
Temperature
Ambient
temperature
Set
temperature
Time
The outdoor unit switches to the required operating
MODE, and then transmits the respective information to
all connected indoor units.
NOTE:
HEAT = “Heating” mode
COOL = “Cooling” mode
23
Unique, exclusive characteristics
Y Series: Automatic hot/cold switching function: “Reference group” method
Functions
ThisfunctionisactivatedfromasettingmadeviaacentralisedWEBServercontroller(3DTOUCHController,3DBLINDController)orthe
TG-2000 controller. The selected group is enabled in AUTO mode, and used as the “Reference group”.
COOL mode command
WEB
Browser
TG-2000
HEAT
HEAT
HEAT
HEAT
Size 63
Size 40
Size 50
Size 25
AE-200
EB-50
HEAT
The capacities of the indoor units requiring COOL functionality and those requiring HEAT functionality are calculated
from the difference between ambient
temperature and set temperature. The
operating MODE is switched accordingly
for the unit with the greatest capacity.
Set temperature
Ambient temperature
NOTE:
HEAT = “Heating” mode
COOL = “Cooling” mode
COOL mode command
WEB
Browser
TG-2000
COOL
COOL
COOL
COOL
Size 63
Size 40
Size 50
Size 25
AE-200
EB-50
COOL
Set temperature
NOTE:
HEAT = “Heating” mode
COOL = “Cooling” mode
24
Ambient temperature
Unique, exclusive characteristics
Indoor units
Multi-refrigerant
The indoor units of VRF CITY MULTI systems are the first and only products on the market with multi-refrigerant capability. These units can
operatewithR22,R407CandR410Asystemswithnolossinperformance,irrespectiveofthedifferentpipesizes.
This allows unparalleled freedom for installation, as well as offering total reverse compatibility in the event of replacing indoor units with an
R22 or R407C VRF CITY MULTI system.
Extended settable temperature range in cooling mode, with minimum temperature of 14°C
Where the ability to cool to temperatures lower than the standard
lowestcomfortvalueof19°C(typicallyforsportscentres,laboratories etc.) is necessary, the settable temperature range in cooling
modemaybeextendedtoofferalowesttemperatureof14°Con
the following models:
• Floor-standing
• Built-infloorunits
• 2-waycassette
• Ducted
The indoor unit fan is run at a higher speed in this configuration
(except with the SMALL Y model outdoor unit of the PUMY series).
Intelligent Terminal Boards
Intelligent indoor unit terminal boards are a unique feature of
Mitsubishi Electric VRF systems.
These intelligent terminal boards make it possible to use the air
conditioning system and the M-NET communication network,
via the indoor units, as a vehicle for collecting, transferring and
monitoring field signals from generic appliances such as lighting,
power, access management, intelligent alarm systems etc. Using
the intelligent terminal boards of the indoor units together with the
existing infrastructure drastically reduces the number of cables
needed to collect these field signals and the amount of labour
required to route the cables to the centralised units. Typically, each
indoor unit supports the following signals and functions:
INDOOR UNIT
SYSTEMS
NO TIMER
Lights
Power
Digital output
ON/OFF COMMAND
UTA
Fan
Humidification
Pumps
Digital input
ON/OFF STATUS
Access barriers
Occupancy sensing
Intelligent alarms
Digital input
FAULT
Generic appliances
etc.
25
Unique, exclusive characteristics
Indoor units
The LEV Kit system
The LEV Kit makes it possible to use the residential indoor units
of the Family series – which represent the state of the art in
Mitsubishi Electric air conditioning system design – together with
VRF CITY MULTI systems. Mixed installations can therefore be
created with complete freedom, using the MSZ-EF and MSZ-SF
wall-mounted units and MFZ-KJ floor-standing units.
LEV KIT
VRF Outdoor Unit
AG-150A
M-NET
data transmission bus
VRF Indoor Units
M-NET for centralised system
LEV Kit
LEV Kit
MA transmission line
to other Outdoor
Units
NEW
MSZ-EF Series (ZEN)
MFZ-KJ Series
MA
Remote control
Wireless remote control
The following Mitsubishi Electric outdoor units are compatible with the LEV Kit:
• Small Y
• R2 Series Nominal
• Y Series Ecostandard
• R2 Series Seasonal
• Y Series Nominal
• WY/WR2 Series
• Y Series Seasonal
• Y Series/R2 Replace Multi
• Y Series Zubadan
SERIE
SMALL Y
SERIE
Family ser ies indoor units
MSZ-EF
15
20
22
25
35
42
50
-
-
✓
✓
✓
✓
✓
Y
ZUBADAN
Wireless remote
control
SERIE
Y
ECOSTANDARD
SERIE
Y
REPLACE MULTI
SERIE
Y
MSZ-SF
✓
✓
-
✓
✓
✓
✓
MFZ-KJ
-
-
-
✓
✓
-
✓
NEW
26
REPLACE MULTI
SERIE
WY
Y
NOMINAL
SEASONAL
SERIE
R2
R2
NOMINAL
SERIE
R2
SERIE
SERIE
WR2
SERIE
SEASONAL
Unique, exclusive characteristics
Control Systems
3D TOUCH Controller
WEB Server centralised control unit
The3DTOUCHController(AE-200E)ismorethanjustacentralisedsystemcontroller,aswithits
augmented processing power and memory, it now offers the same capabilities and functions as a
supervisorsystem.JustlikeaBMS(BuildingManagementSystem),the3DTOUCHControllerisnot
necessarily constrained to the infrastructure where the system is installed. Supervision has never been
so easy.
The3DTOUCHControllerdoesnotneedadedicatedPCstation,andthenativewebpagesofthe
controller can be browsed from any PC to control up to 200 indoor units – offering the capability to
superviseevenverylarge,complexinstallations.3DTOUCHControlleristhefirstandonlycentralised
airconditioningsystemcontrollerinitsclasswithalargeformat10.4”touchscreen,meaningthatitcan
also display custom graphic layouts of the installation as standard.
PAR-U02MEDA – ADVANCED Remote Control
ADVANCED Remote Control for Standard Indoor Units
The new range-topping PAR-U02MEDA remote control by Mitsubishi Electric boasts an impeccable
design with square, modern lines and a glass-effect polished front panel. With sophisticated looks and
impressive versatility, this remote control is intuitive to use, pleasant to look at and a pleasure to show
off. The new PAR-U02MEDA remote control has a large monochromatic LCD touch screen display with
white backlighting that is clearly legible in all conditions and from any angle. Complete with a weekly
timer function (7 days x 8 cycles per day) and simplified timer functions (ON/OFF, Auto OFF and Auto
Return), the new remote control may be used together with all standard indoor units of VRF CITY MULTI
systems.
The new ADVANCED PAR-U02MEDA remote control measures ambient temperature and humidity
and, with its integrated occupancy and light sensors, optimises performance for maximum comfort
whilereducingenergyconsumption.Theambienttemperatureisdisplayedandsetin0.5°C
increments, while the Dual Setpoint function lets the user set different setpoint temperatures for Heat
and Cool modes. A LED indicator at the bottom of the PAR-U02MEDA indicates the operating status of
the indoor units with colour coded light (e.g. ORANGE for Heat mode, BLUE for Cool mode, GREEN for
Dehumidification/Fan mode). PAR-U02MEDA uses ME M-Net addressing technology and can control a
groupofupto16indoorunits.
AHC – Advanced HVAC controller PLC
M-NET AHC PLC
Mitsubishi Electric has drawn from its experience in industrial automation to develop this sophisticated
programmable controller system, which enables the Mitsubishi Electric air conditioning system to be
integrated with third party installations. This allows the installation to interact with security, lighting and
access control systems, etc., creating bespoke control and operating strategies for maximum energy
savings and comfort.
27
Outdoor units
OUTDOOR UNITS
INDEX
CITY MULTI The typologies ..................................................................................................
30
CITY MULTI Outdoor units lineup .........................................................................................
34
Small Y Heat pump outdoor units ........................................................................................
38
Y Ecostandard Heat pump outdoor units .............................................................................
47
Y Heat pump and R2 Heat recovery outdoor units...............................................................
48
Y Zubadan outdoor units .....................................................................................................
87
WY and R2 Water source outdoor units ...............................................................................
90
Y and R2 Replace Multi outdoor units ..................................................................................
97
BC controllers for R2-WR2 series ........................................................................................ 100
WCB connection box for R2-WR2 series ............................................................................. 104
CITY MULTI Model code ...................................................................................................... 106
Refrigerant piping lenght ...................................................................................................... 107
The typologies
Y Series: The two-pipe zoned system designed for Heat Pump Operation
The CITY MULTI Small series (for small applications) and Y series (for large applications) make use of a two-pipe refrigerant system, which
allows for system changeover from cooling to heating, ensuring that a constant indoor climate is maintained in all zones.
The compact outdoor unit utilizes R410A refrigerant and an INVERTER-driven compressor to use energy effectively.
With a wide line-up of indoor units in connection with a flexible piping system, the CITY MULTI series can be configured for all applications.
Up to 11 (Small series) or 50 (Y series) indoor units can be connected with up to 130% connected capacity to maximize engineer’s design
options. This feature allows easy air conditioning in each area with convenient individual controllers.
SMALL SYSTEM (SMALL Y SERIE)
LARGE SYSTEM (Y SERIE)
30
OUTDOOR UNITS
Y ZUBADAN Series: Bringing a year round comfort solutions to extreme climates
CITY MULTI ZUBADAN series combines the ultimate in application flexibility and powerful cooling and heating capabilities to deliver precise
comfort even in the coldest days of the year down to -25°C. The technology behind this is a Flash Injection circuit which provides optimum
amount of refrigerant to the system via a compressor through a specially designed injection port to ensure a particularly stable operation.
With this, ZUBADAN can provide a full heating performance even at -15°C and continuous heating for up to 250 minutes in one continuous
cycle, ensuring a phenomenal heating performance at low temperatures.
R2 Series: The world’s first two-pipe system that Simultaneously Cools and Heats
CITY MULTI R2 series offers the ultimate in freedom and flexibility. Cool one zone while heating another. Our exclusive BC controller makes
two-pipe simultaneous cooling and heating possible. The BC controller is the technological heart of the CITY MULTI R2 series. It houses a
liquid and gas separator, allowing the outdoor unit to deliver a mixture of hot gas for heating and liquid for cooling, all through the same pipe.
This innovation results in virtually no energy wasted by being expelled outdoors. Depending on capacity, up to 50 indoor units can be
connected with up to 150% connected capacity.
31
The typologies
WY Series: Water energy source system allows switching between cooling and heating
The WY-Series has all the benefits of the Y-Series using water source condensing units.
Condensing units can be situated indoors allowing greater design flexibility and no limitation on building size. Depending on capacity, up
to 17 to 50 indoor units can be connected to a single condensing unit with individualized and/or centralized control. The two-pipe system
allows all CITY MULTI solutions to switch between cooling and heating while maintaining a constant indoor temperature.
WR2 Series: Advanced water heat source unit enjoying the benefits of R2 series
The CITY MULTI WR2 series provides all of the advantages of the R2 series with the added advantages of a water heat source system,
making it suitable for wider range of applications in high rises, frigid climates, coastal areas,etc.
Not only does it produce heat recovery from the indoor units on the same 2-pipe refrigerant circuit, it also produces heat recovery via the
water circuit between heat source units, making it a very economical system.
Double heat recovery (WR2)
Heat
source unit
Indoor units
BC controller
Heat recovery
Heat recovery
Indoor units
Heat recovery
Refrigerant Circuit
Water
circuit
32
Heating
Cooling
OUTDOOR UNITS
Replace Multi Series: 3-R of the new system dedicated to the replacement of VRF R22 systems
The Mitsubishi Electric solution for the replacement market of VRF R22 systems is characterized by the 3-R: Re-use, Re-placement and
Re-newal. The innovative Replace Multi solution of Mitsubishi Electric makes it possible to reuse components and structural elements
of existing plant rather than completely replace all units and refrigerant lines. This raises the owner from discomforts of the complete
replacement of the air conditioning system (for example, new pipes, the destruction walls and stopping of the activities and business during
the renovations).
Short and quick construction process and time
Compared to the installation process and time to install a complete new system, REPLACE MULTI offers shorter and quicker installation.
The key cause of this is because with REPLACE MULTI, without any use of special kit, existing piping can be reused and works at rooftop or
walls for new piping are not required. This results in reduced installation time and system downtime which is an attractive factor to minimize
the effect on business working hours.
✓…Reusable ✕…Not reusable
Reuse
Refrigerant
pipes
Power
circuits
Switches
Trasmission
lines
Remote controls
trasmission circuit
Outdoor
unit
Indoor
unit
✓
✓
✓
✓
✓
✕
✕*
NOTE: The actual reusability of components depends upon the condition of the plant and the existing infrastructure.
* The actual reusability of indoor units depends on the model. For further clarification please contact the sales office nearest you.
Complete replacement of the plant
Replacement of components by Multi Replace
Reuse of existing pipes
Demolition of walls and openings
suspended ceilings that amplify
installation time
Drastic reduction
of materials to be
disposed in landfills
due to demolitions
Not necessary
external works
Short and quick construction process and time
Compared to the installation process and time to install a complete
new system, REPLACE MULTI offers shorter and quicker
installation.
The key cause of this is because with REPLACE MULTI, without
any use of special kit, existing piping can be reused and works
at rooftop or walls for new piping are not required. This results
in reduced installation time and system downtime which is an
attractive factor to minimize the effect on business working hours.
Renewal for top performance
The installation of a Replace Multi system allows to achieve
the state of the art of VRF technology from Mitsubishi Electric
which it reached levels of energy efficiency (COP) more than 40%
compared to a R22 VRF system of 10 years ago. The greater
energy efficiency also means lower noise levels and reduced
installation space compared to a VRF R22.
33
Outdoor units lineup
SERIES
SMALL Y
CITY MULTI SMALL Y
SYSTEM
Compact heat pump systems.
PUMY-P YKM1 THREE-PHASE - HP 4,5~8
PUMY-P VKM1 MONO-PHASE - HP 4,5~6
NEW
SERIES
Y
CITY MULTI Y SYSTEM
Heat pump systems.
ECOSTANDARD
SINGLE Y
PUHY-P YKA - HP 8~20
DOUBLE Y
PUHY-P YSKA - HP 22~40
LARGE Y
PUHY-P YSKA - HP 42~60
SERIES
Y
NOMINAL
CITY MULTI Y SYSTEM
Heat pump systems with continuous heating
optimized for maximum performance
at nominal load conditions.
SINGLE Y
PUHY-P YKB-A1 (-BS) - HP 8~14
DOUBLE Y
PUHY-P YSKB-A1 (-BS) - HP 16~36
LARGE Y
PUHY-P YSKB-A1 (-BS) - HP 38~54
SERIES
Y
SEASONAL
CITY MULTI Y SYSTEM
Heat pump systems with continuous heating
optimized for high performance
seasonal.
SINGLE Y
PUHY-EP YLM-A1 (-BS) - HP 8~20
DOUBLE Y
PUHY-EP YSLM-A1 (-BS) - HP 22~24
LARGE Y
PUHY-EP YSLM-A1 (-BS) - HP 26~54
SERIES
Y
ZUBADAN
CITY MULTI
Y ZUBADAN SYSTEM
Heat pump systems optimized
for cold climates.
PUHY-HP YHM-A (-BS) - HP 8~10
PUHY-HP YSHM-A (-BS) - HP 16~20
OUTDOOR UNITS
SERIES
Y
REPLACE MULTI
REPLACE MULTI Y
SYSTEM
Heat pump systems for the
replacement of VRF R22 / R407C
Heat pumps.
PUHY-RP YJM-B (-BS) - HP 8~14
SERIES
R2
NOMINAL
CITY MULTI R2 SYSTEM
Two-pipes Cooling / Heating simultaneous
systems with heat recovery and
continuous heating optimized for
maximum performance at rated load
conditions.
SINGLE R2
PURY-P YLM-A1 (-BS) - HP 8~14
DOUBLE R2
PURY-P YSLM-A1 (-BS) - HP 16~36
SERIES
R2
SEASONAL
CITY MULTI R2 SYSTEM
Two-pipes Cooling / Heating
simultaneous systems with heat recovery
and continuous heating
optimized for seasonal high performance.
SINGLE R2
PURY-EP YLM-A1 (-BS) - HP 8~20
DOUBLE R2
PURY-EP YSLM-A1 (-BS) - HP 22~36
SERIES
R2
REPLACE MULTI
REPLACE MULTI R2
SYSTEM
Heat recovery systems for the
replacement of VRF R22 / R407C
heat recovery systems.
PURY-RP YJM-B (-BS) - HP 8~12
SERIES
WR2
SERIES
WY
CITY MULTI WR2/WY
SYSTEM
Heat recovery systems
condensated / evaporated by water.
SINGLE WR2/WY
PQRY/PQHY-P YHM-A - HP 8~12
DOUBLE WR2/WY
PQRY/PQHY-P YSHM-A - HP 16~24
TRIPLE WY
PQHY-P YSHM-A - HP 26~36
35
System
Air Condensed
HP
4,5
5
6
8
10
12
14
16
18
20
P200
P250
P300
P350
P400
P450
P500
10
12
14
16
18
20
Serie
Model name
Model
P112
P125
P140
Compact
heat pump
SMALL Y Series
PUMY-P YKM2(-BS)
PUMY-P VKM2(-BS)
1-PHASE
4,5
5
6
3-PHASE
4,5
5
6
NEW
SMALL Y
Heat-pump
NEW
Y Ecostandard Series
PUHY-P YKA(-BS)
PUHY-P YSKA(-BS)
SINGLE
8
8
1
DOUBLE
Y
NEW
ECOSTANDARD
Nominal conditions
heat-pump
Y Series
PUHY-P YKB-A1(-BS)
PUHY-P YSKB-A1(-BS)
TRIPLE
SINGLE
8
10
12
14
DOUBLE
Y
16
18
20
8+8
8+10
10+10
16
18
20
Y Series
PUHY-EP YLM-A1(-BS)
PUHY-EP YSLMA1(-BS)
SINGLE
8
10
12
14
1
DOUBLE
Y
TRIPLE
SEASONAL
Zubadan
heat-pump
Y
Y Series
PUHY-HP YHM-A(-BS)
PUHY-HP YSHM-A(-BS)
R2
R2 Series
PURY-P YLM-A1(-BS)
PURY-P YSLM-A1(-BS)
R2
R2 Series
PURY-EP YLM-A1(-BS)
PURY-EP YSLM-A1(-BS)
Heat-pump
10
8+8
SINGLE
8
10
12
SINGLE
8
10
12
14
14
WY Series
PQHY-P YHM-A
PQHY-P YSHM-A
WY
For R22/407
systems
replacement
Heat-pump
Replace Multi
SINGLE
8
10
WR2 Series
PQRY-P YHM-A
PQRY-P YSHM-A
SINGLE
8
10
Y Series
PUHY-RP YJM-B(-BS)
PUHY-RP YSJM-B(-BS)
Y
REPLACE MULTI
36
16
18
20
1
8+8
8+10
10+10
1
8+8
8+10
10+10
1
8+8
8+10
10+10
1
12
DOUBLE
SINGLE
8
10
12
TRIPLE
REPLACE MULTI
R2
10+10
12
DOUBLE
Heat recovery
Replace Multi
8+10
TRIPLE
WR2
Air condensed
8+8
1
DOUBLE
Heat recovery
10+10
DOUBLE
SEASONAL
Water
condensed
8
DOUBLE
NOMINAL
Heat recovery
Seasonal conditions
SINGLE
DOUBLE
ZUBADAN
Heat recovery
Nominal conditions
1
TRIPLE
NOMINAL
Seasonal conditions
heat-pump
20
R2 Series
PURY-RP YJM-B(-BS)
PURY-RP YSJM-B(-BS)
SINGLE
8
10
12
14
10
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
P550
P600
P650
P700
P750
P800
P850
P900
P950
P1000
P1050
P1100
P1150
P1200
P1250
P1300
P1350
P1400
P1450
P1500
10+12
10+14
10+16
10+18
12+18
16+16
16+18
18+18
18+20
20+20
NEW
NEW
NEW
12+12
+18
12+14
+18
14+16
+16
16+16
+16
16+16
+18
16+18
+18
18+18
+18
18+18
+20
18+20
+20
20+20
+20
20
10+12
10+12
10+14
12+14
14+14
14+16
14+18
16+18
18+18
10+12
+16
12+12
+16
12+14
+16
14+14
+16
14+14
+18
14+16
+18
14+18
+18
16+18
+18
18+18
+18
12+12
+14
12+12
+16
12+14
+16
14+14
+16
14+14
+18
14+16
+18
14+18
+18
16+18
+18
18+18
+18
12+12
8+8
+10
8+8
+12
8+10
+12
8+12
+12
10+12
+12
12+12
+12
10
10
10
10+12
12+12
12+14
14+14
14+16
16+16
16+18
18+18
10+12
12+12
12+14
14+14
14+16
16+16
16+18
18+18
10+12
12+12
10+8
+8
10+10
+8
10+10
+10
12+10
+10
12+12
+10
12+12
+12
8+10
+10
10+10
+10
10+10
+12
10+12
+12
12+12
+12
10
10+12
12+12
10
10+12
12+12
12+14
37
OUTDOOR UNITS
0
22
Outdoor units
Small Y serie
More quietness thanks to the new fan
Connectable to
water production*1
ATW modules for hot
Geometric piping limitations increased
H.I.C. Circuit (heat inter charger)
for the subcooling control
Heating operation range extended up
to -20°C outdoor temperature
*1
38
Available on 4.5-5-6 Hp
Power range extended with the introduction
of the new 8 HP three-phase size
NEW
New chassis with increased heat exchange
surface
Increased reliability
Top performance and COP> 4 on the entire range
Connectable to residential indoor units series
by LEV Kit
Native Replace Technology function
for the replacement of R22 systems
39
OUTDOOR UNITS
SERIES
SMALL Y
Characteristics of
SMALL Y outdoor units serie
New PUMY Y(V)KM – The smallest, but with all the technology and efficiency of our bigger units
The Small Y (PUMY) series of outdoor units by Mitsubishi Electric,
which now offers 7 different variants (with single and three-phase
4.5, 5 and 6 HP versions and a three-phase 8 HP version), is the
ideal solution for large homes and medium-sized offices. These
outdoor units may be connected to up to 12 indoor units of
different type and power rating. This system offers exceptional
savings in operating costs and is suitable for both residential and
commercial applications.
Class-beating energy efficiency
The new Small Y (PUMY) series has been designed to offer
extraordinary levels of energy efficiency in both summer (EER)
and winter (COP) operation. The entire range scores COP values
above 4, making these units usable even in regions where
legislation sets more restrictive performance limitations.
Total comfort. Even at -20°C
The new Small Y (PUMY) series is now capable of operating in
heating mode over an even broader temperature range (from -20
to +15 °C).
New chassis with larger heat exchange surface area
The new design of the Small Y (PUMY) series has made it
possible to use a direct expansion coil with greater heat exchange
surface area and density. Together with the introduction of the
Heat Inter Charger overcooling circuit – a technological solution
now appearing for the first time in units of this series – these
improvements ensure superlative performance and extraordinary
energy efficiency in cooling mode. The flat fin configuration of the
coil and special Blue Fin treatment protect the coil itself against
corrosion, ensuring that the unit continues to function with the
same outstanding thermal exchange efficiency and performance
over time.
40
The power of a VRF, the elegance of a residential Multi-Split
With the LEV KIT and the new dedicated Branch Box*1 (available as 3 and 5 connection versions), the outdoor units of the Small Y series
can now be connected to the entire range of residential and commercial*2 indoor units, with looks that are perfectly suited to applications
(such as residential buildings and hotels) where design and elegance are decisive factors in the choice of indoor units.
PUMY
V(Y)KM1
VRF Outdoor Unit
Branch Box
PAC-MK30BC
MSZ-EF
Wireless remote
control
AE-200
MSZ-SF
Wireless remote
control
to other
Outdoor Units
MSZ-FH
Wireless remote
control
MFZ-KJ
LEV KIT
Wireless remote
control
VRF indoor unit
PAR-31
VRF indoor unit
PAR-31
*1
*2
The PUMY P200 is not compatible with the Branch Box.
Except for MSZ-HJ.
New Branch Boxes (3 or 5 connections) – Total flexibility
The new Branch Boxes are designed to offer the greatest
configuration flexibility possible for the system. This makes it
possible to create systems consisting entirely of CITY MULTI VRF
units, systems with Residential/Commercial series indoor units
only, or mixed systems with both types of unit.
1 Branch Box
Model
PUMY-P112
PUMY-P125
PUMY-P140
Branch Box
ways
CITY MULTI
Indoor units
Max. 5
Max. 5
Max. 5
Max. 5
2 Branch Boxes
Branch Box
ways
CITY MULTI
Indoor units
Max. 7
Max. 3
Max. 8
Max. 2
Max. 8
Max. 3
41
OUTDOOR UNITS
SERIES
SMALL Y
Characteristics of
SMALL Y outdoor units serie
Mixed systems – Heating/cooling and hot water production
The Small Y (PUMY) range, available as 4.5, 5 and 6 HP versions, may be used together with Ecodan® ATW hydronic modules, making it
possible to create mixed systems providing radiant panel heating and air cooling.
Small Y (PUMY) series units may be connected to Ecodan® ATW hydronic modules to produce hot water up to 50 °C. An installation
consisting of hydronic modules and indoor air conditioner units is capable of managing the two distribution systems (WATER and AIR)
independently. For example, this means that the installation can cover heating demand in winter with an underfloor heating system, and
activate the indoor air conditioner units in summer, spring and autumn to heat or cool rooms as necessary.
SMALL Y Series
Ecodan® ATW
Indoor Unit 1
Indoor Unit 2
Indoor Unit 3
Indoor Unit 4
Unparalleled silence
The new fans cut through the air more effectively and minimise
turbulence, for superlative static overpressure with minimum
noise impact. These fans generate a 10% higher outdoor air
flow than the previous version while operating at the same noise
levels. Small Y (PUMY) is also capable of operating in “low noise”
mode, reducing sound pressure levels by 2 dB. By connecting an
external timer or switch to the fan, this mode can be set for specific
time brackets during the day.
New fan
Diameter increased from 490 mm to 550 mm.
The new fan has longer, differently shaped blades to direct air more
effectively, reduce turbulence and increase efficiency.
LONGER BLADE
DEEPER PROFILE
42
AC PRE-HEATING compressor pre-heating system
An AC pre-heating system is used for the compressor. The pre-heat routine is based on the temperature of the refrigerant and of the
compressor.
AC control reduces power absorption in stand-by state, increasing seasonal efficiency.
Total flexibility for installation and maintenance
With increased geometric limits for piping, the Small Y (PUMY) series offers unparalleled flexibility for installation. No additional refrigerant
charge is necessary, provided that the length of the refrigerant line does not exceed 50 m.
NEW
INCREASED GEOMETRICAL LIMITS FOR PIPING
PUMY Y(V)HM
PUMY P112-P125-P140 Y(V)KM
Total effective length
120 m
300 m
Effective length of a single circuit
80 m
150 m
Maximum vertical difference between indoor units
12 m
15 m
“Maximum vertical difference between indoor and outdoor units (with
outdoor unit in lower position)”
20 m
40 m
New PUMY Y(V)KM with Replace Technology – Absolute simplicity, even when replacing systems
The EU regulation 2037/2000/EC has banned the use of virgin
HCFC refrigerants (R22) since 1/1/2010. As a result, in the event
of a fault or even just a refrigerant leak in an air conditioning system
using R22, it is no longer possible to recharge the system. With
small to medium-sized installations in particular, the most cost
effective solution is to replace the entire air conditioning system.
This is because of the following reasons:
• New generation outdoor units with R410A are much more
efficient, with lower electric power consumption;
• They are quieter and offer more effective air filtration;
• Taking advantage of tax rebates offered for replacing winter air
conditioning systems will minimise the time necessary to recoup
the initial outlay.
The main problem in replacing an existing air conditioner using
R22 fluid with a system using new R410A refrigerant is posed by
the residue of chlorine and mineral oils remaining in the existing
piping onto which the air conditioner system containing R22
was connected. This residue is extremely harmful for the new
air conditioner, and unless the circuit is flushed out extremely
thoroughly, may degrade the new oil and/or cause obstructions in
the refrigerant circuit and, as a result, lead to system malfunctions.
Moreover, the diameters and thickness of the existing piping may
not be compatible with the new units.
The Small Y (PUMY) series of outdoor units features Mitsubishi
Electric Replace Technology, which allows the existing piping
to be used without modification, even with piping with different
diameters and wall thicknesses. By using exclusive HAB oil and
special low friction technology for the compressor, the majority of
our air conditioners may operate with the original piping, cutting
installation times and costs and material costs while minimising
environmental impact.
43
OUTDOOR UNITS
SERIES
SMALL Y
Series
Small Y
SERIES
SMALL Y
OUTDOOR UNITS
PUMY-P V(Y)KM2
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PUMY-P112VKM2(-BS)
4.5
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Heating mode
Cooling mode
Total capacity
Connectable
indoor units
Model/Quantity
Liquid
External diameter of
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
°C
°C
kW
kW
°C
°C
dB(A)
dB(A)
PUMY-P125VKM2(-BS)
PUMY-P140VKM2(-BS)
5.0
6.0
Single phase 220-230-240V 50Hz
12.5
14.0
15.5
2.79
3.46
4.52
4.48
4.05
3.43
15.0~24.0
15.0~24.0
15.0~24.0
-5.0~46.0
-5.0~46.0
-5.0~46.0
14.0
16.0
18.0
3.04
3.74
4.47
4.61
4.28
4.03
15.0~27.0
15.0~27.0
15.0~27.0
-20.0~15.0
-20.0~15.0
-20.0~15.0
51
52
53
49
50
51
50 to 130% of capacity of O.U.
mm
mm
m3/min
mm
kg
kg
P15~P140 / 1~9
P15~P140 / 1~10
9.52
9.52
P15~P140 / 1~11
9.52
15.88
15.88
15.88
110
110
110
1338x1050x330
1338x1050x330
1338x1050x330
123
123
123
4.8
4.8
4.8
PUMY-P112YKM2(-BS)
PUMY-P125YKM2(-BS)
PUMY-P140YKM2(-BS)
5.0
6.0
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
4.5
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Heating mode
Cooling mode
Total capacity
Connectable
indoor units
Model/Quantity
Liquid
External diameter of
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
*1
*2
*3
°C
°C
kW
kW
°C
°C
dB(A)
dB(A)
3-phase, 380-400-415V, 50Hz
12.5
14.0
15.5
2.79
3.46
4.52
4.48
4.05
3.43
15.0~24.0
15.0~24.0
15.0~24.0
-5.0~46.0
-5.0~46.0
-5.0~46.0
14.0
16.0
18.0
3.04
3.74
4.47
4.61
4.28
4.03
15.0~27.0
15.0~27.0
15.0~27.0
-20.0~15.0
-20.0~15.0
-20.0~15.0
51
52
53
49
50
51
50 to 130% of capacity of O.U.
mm
mm
m3/min
mm
kg
kg
P15~P140 / 1~9
P15~P140 / 1~10
9.52
9.52
9.52
15.88
15.88
15.88
110
110
110
1338x1050x330
1338x1050x330
1338x1050x330
125
125
125
4.8
4.8
4.8
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
44
P15~P140 / 1~11
SERIES
SMALL Y
8HP
The power and performance of a VRF with the compact dimensions of a multisplit
The new PUMY-P200YKM 8HP is the ideal solution for all applications where there can be no compromise in efficiency, power and
installation flexibility – even where installation space is limited.
Superior power with compact dimensions
The new PUMY 8HP offers heating and cooling capacities which, until now, were the sole preserve of larger, more powerful systems. The
outdoor units of the PUMY range have a very compact chassis, making them ideal for installation in situations with limited space, such as
balconies and small patios.
8HP COMPARED
Misure in mm
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
PUMY-P200YKM(-BS)
8.0
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature range
Nominal capacity*2
Power absorption
COP
Operating temperature range
Heating mode
Cooling mode
Total capacity
Connectable
indoor units
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
*1
*2
*3
V/Hz/n°
kW
kW
3-phase, 380-400-415V, 50Hz
22.4
6.05
3.70
Indoor WB
Outdoor DB
°C
°C
kW
kW
15~24.0
-5~46.0
25.0
5.84
4.28
Indoor DB
Outdoor WB
°C
°C
dB(A)
dB(A)
15.0~27.0
-20.0~15.0
61
56
50 to 130% of capacity of O.U.
P15~P250 / 1~12
mm
mm
m3/min
mm
kg
kg
9.52
19.05
141
1338x1050x330
138
7.3
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB - Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
45
OUTDOOR UNITS
Characteristics of
SMALL Y Series, 8HP
Y Ecostandard
heat pump outdoor units
NEW
Outdoor unit optimised
for cooling performance (EER)
Single module system for installations up to 20HP,
for minimised space usage and extreme simplicity
of installation
Extended operating range in cooling mode,
with maximum temperatures up to 52°C
Max size up to 60 HP
Evaporating temperature control system (E.T.C.)
46
Y
ECOSTANDARD
New flanged duct and new DC inverter fan motor
More compact and lighter than YHA outdoor
unit series
Conventional bi-metal (copper/aluminium)
heat exchanger
Extended piping lenght
47
OUTDOOR UNITS
SERIES
Y heat pump outdoor units
R2 heat recovery outdoor units
SERIES
Y
NOMINAL
SERIES
R2
NOMINAL
Outdoor unit optimised
for nominal performance
(COP, EER)
New flanged duct and new
DC inverter fan motor
Single module system for
installations up to 20HP,
for minimised space usage
and extreme simplicity of
installation
More compact and lighter
than YJM outdoor unit
series
Evaporation temperature
control system (ETC)
Extended piping lenght
Extended operating range
in cooling mode, with
maximum temperatures up
to 52°C*1
*1 For Y Series Nominal only.
*2 For R2 Series Nominal only.
48
Continuous heating,
with new heat exchange
coil with adjustable flow
system
Conventional bi-metal
(copper/aluminium) heat
exchanger
New Scroll compressor
with DC Inverter motor
and induction pre-heating
system*2
OUTDOOR UNITS
Y heat pump outdoor units
R2 heat recovery outdoor units
SERIES
Y
SEASONAL
SERIES
R2
SEASONAL
Outdoor unit optimised
for seasonal performance
(SCOP, SEER)
New flanged duct and new
DC inverter fan motor
Single module system for
installations up to 20HP,
for minimised space usage
and extreme simplicity of
installation
More compact and lighter
than YJM outdoor unit
series
Evaporation temperature
control system (ETC)
New Bottom SubCool
Circuit (BSCC)
refrigeration circuit
Continuous heating, with
new heat exchange coil
using split operation
technology
All aluminium FLAT TUBE
heat exchanger with
high thermal exchange
efficiency micro-channels
A world
first
for VRF systems
Extended operating range
in cooling mode, with
maximum temperatures up
to 52°C*
New Scroll compressor
with DC Inverter motor
and induction pre-heating
system
* For Y Series Seasonal only.
49
Y heat pump outdoor units
R2 heat recovery outdoor units
SERIES
SERIES
ECOSTANDARD
NOMINAL
Y
Y
SERIES
SERIES
NOMINAL
SEASONAL
R2
Y
SERIES
R2
SEASONAL
Evaporation
g
temperatu
re Incremen
t
Thermostat
ON
Temperature
The new Evaporation Temperature Control (ETC) function for
cooling mode reduces the energy consumption of the system by
up to 20% by controlling the refrigerant temperature in relation
to load and increasing the evaporation temperature. Increasing
efficiency means, above all, eliminating waste. A conventional
air conditioner system functions effectively as long as it can
deliver thermal energy (heating or cooling) in relation to external
conditions (which depend on thermal loads) to maintain optimum
comfort conditions in the environment. In addition to maintaining
optimum comfort conditions in the environment, a Mitsubishi
Electric air conditioning system also ensures that the least energy
possible is used to do so, by adapting in real time to the effective
operating conditions. The new Y Series (Ecostandard, Nominal
and Seasonal) and R2 Series (Nominal and Seasonal) outdoor
units continuously monitor ambient parameters and adapt to the
effective thermal load, so that the entire system functions in the
ideal conditions in terms of efficiency and, as a result, economy.
The evaporation temperature is raised in relation to operating load,
reducing the power absorbed by the compressor and increasing
the efficiency of the system, cutting energy consumption.
Pressure
Evaporation Temperature Control (ETC)
Enthalp
y
Average value
alue
temperature
between thermostat
ON and OFF
Ambient
temperature
Thermostat
OFF
Target
Evaporat
ing Tempe
rature
Time
The ETC function increases the SHF (Sensible Heat Factor), allowing for higher delivery air temperatures and, as a result, greater
comfort.
Target evaporation
temperature
Delivery air
temperature
Sensible
Heat Factor
Total capacity
System
efficiency
Standard
0
9°C
0.78
100%
100%
Hi 1
6
12°C
0.87
75%
105%
Hi 2
9
14°C
0.92
60%
110%
Hi 3
14
16°C
0.96
50%
115%
Option
Notes:
Operating parameters calculated for a PEFY-P63VMA indoor unit e PURY-EP200YLM-A outdoor unit. Indoor temperature conditions: 21 °C DB, 15 °C WB, at high fan speed setting.
Outdoor temperature conditions: 27 °C DB, 19 °C WB.
50
SERIES
NOMINAL
Y
Y
SERIES
SERIES
NOMINAL
SEASONAL
R2
Y
SERIES
R2
SEASONAL
Fan: new geometry and DC Inverter motor
The new Y Series (Ecostandard, Nominal and Seasonal) and R2 Series (Nominal and Seasonal) outdoor units are equipped with
an innovative flanged air duct. This new geometry takes advantage of the Venturi effect, allowing the fan rotor to rotate at lower speeds,
reducing electrical power absorption, while increasing the residual overpressure at the outlet of the duct itself.
NEW
NEWFLANGED
FLANGEDAIR
AIRDUCT
DUCT
CONVENTIONAL
CONVENTIONALAIR
AIRDUCT
DUCT
High
High
Static pressure
pressure
Static
Static pressure
pressure
Static
High
High
Low
Low
Low
Low
Fan: effective static pressure for outdoor units of up to 60Pa
On both Y Series and R2 Series units, a static pressure of 30Pa
or 60Pa may be selected, to cater for the air ducting needs of the
outdoor unit more flexibly.
Extended operating temperature range
Y Series (Ecostandard, Nominal and Seasonal) and R2 Series (Nominal and Seasonal) outdoor units offer an extended operating
temperature range, from a minimum temperature of -20 °C DB (in heating mode) to a maximum of +52 °C WB (in cooling mode). In
comparison, the previous YJM series offered a range from -20°C DB to +46°C WB.
YHM Zubadan
Y Series
-25°C
YKB/YLM
Series
Heating mode
In heating mode
Outdoor temp. (dry bulb)
15,5°C
Cooling mode
-5°C
-20°C
-10°C
In Coolin
Outdoor tempe g mode
rature (wet bulb)
0°C
10°C
20°C
Outdoor Temperature
30°C
52°C
40°C
51
OUTDOOR UNITS
SERIES
ECOSTANDARD
Y heat pump outdoor units
R2 heat recovery outdoor units
SERIES
SERIES
ECOSTANDARD
NOMINAL
Y
Y
SERIES
SERIES
NOMINAL
SEASONAL
R2
Y
SERIES
R2
SEASONAL
Increased geometric limits
The new Y Series (Ecostandard, Nominal and Seasonal) and R2 (Nominal and Seasonal) outdoor units are subject to less restrictive
geometric limitations for connections. By using larger diameter piping, the maximum distance between the first joint to the farthest indoor
unit can now be extended. This measure may also be used to increase the maximum vertical difference between indoor units.
*1 If > 15m, larger diameter
liquid piping must be used
*2 If > 40m, larger diameter
liquid piping must be used
Operating mode
For unparalleled flexibility, Y Series (Ecostandard, Nominal and
Seasonal) and R2 Series (Nominal and Seasonal) outdoor units
offer two different operating modes to cater for all possible needs:
• Capacity Mode
• Efficiency Mode (COP)
In Capacity Mode, the outdoor units deliver a HEATING capacity
on average 15% higher than in Efficiency Mode (COP).
The P200 variant (8HP), for example, is capable of delivering
Single module systems up to 20HP
The new design makes it possible to use single module
configurations for 45 (16HP), 50 (18HP) and 56 kW (20HP)
systems, reducing space usage by 30%.
S Module
52
L Module
XL Module
100% capacity in heating mode to outdoor air temperatures as
low as -2.5°C. Conversely, in Efficiency Mode (COP), the outer
units maintain the ideal balance between capacity and power
absorption throughout the entire outdoor air temperature
operating range. The two modes are selectable from a dip switch
on the outdoor unit.
The units are set to “Capacity Mode” by default.
Smaller, lighter design
The new design optimises dimensions and weight, and the new
units are significantly more compact and lighter than the previous
outdoor unit series (YJM). Weight savings of up to 126 Kg have been
achieved for 45 (16HP), 50 (18HP) and 56 kW (20HP) systems.
SERIES
NOMINAL
Y
Emergency backup function
Y Series (Ecostandard, Nominal and Seasonal) and R2 Series
(Nominal and Seasonal) combined modules offer unparalleled
reliability with the new emergency backup function, which is easily
activated from the remote control of any indoor unit in the event of
a system malfunction.
The backup function allows the system to continue operating in
heating and cooling mode for an average period of 4 hours.
.
Y
SERIES
SERIES
NOMINAL
SEASONAL
R2
Y
SERIES
R2
SEASONAL
Rotation function
Y Series (Ecostandard, Nominal and Seasonal) and R2 Series
(Nominal and Seasonal) combined modules use an automatic
“Rotation Function” routine which optimises the usage of indoor
and outdoor units to extend the lifespan of all system components.
&
Easy maintenance
With the exclusive Uninterrupted Operation System of M-Net
Power indoor units, if any of the indoor units is subject to
maintenance, the other units in the installation continue to function
without the system stopping.
Self-diagnosis of VRF CITY MULTI system
For even simpler maintenance, CITY MULTI systems have
a self-diagnostic function which is capable of communicating
malfunctions on different levels using fault codes. With the special
Maintenance Tool software developed by Mitsubishi Electric, the
user can connect to any point in the transmission line to acquire all
technical operating information interactively.
No central heating boilers necessary
The modularity of VRF CITY MULTI systems means that it is not
necessary to include dedicated central heating boilers in the
planning stage. These systems make it possible to use all the
space available efficiently and rationally. Using a VRF CITY MULTI
system also exempts the designer and installer from I.S.P.E.S.L.
compliance requisites, while the client, administrator or building
manager is not required to have periodic combustion tests
performed. As an added advantage, the owner or user is not
subject to legislative seasonal usage limitations (especially in
winter), meaning that the installation can be used whenever
required for total comfort.
53
OUTDOOR UNITS
SERIES
ECOSTANDARD
Y heat pump outdoor units
R2 heat recovery outdoor units
SERIES
Y
NOMINAL
SERIES
SERIES
NOMINAL
SEASONAL
R2
Y
SERIES
R2
SEASONAL
Continuous Heating
The new Y Series (Nominal and Seasonal) and R2 Series (Nominal and Seasonal) outdoor units deliver continuous heating during
defrost mode, resolving a typical shortcoming of heat pumps: interrupted heat delivery while the unit is operating in defrost mode. In a
conventional unit, the defrost cycle – the duration of which depends on external weather conditions – inevitably affects indoor comfort.
Mitsubishi Electric has implemented specific technology to achieve this, enabling split operation of the thermal exchange coil.
Hot Gas Defrost – This is an uninterrupted heating system based on split coil operation, which allows the unit to perform the defrost cycle in
parallel while maintaining up to 50% of the nominal heating capacity of the system at outdoor air temperatures as low as -5°C.
CONVENTIONAL DEFROST SYSTEM
UNINTERRUPTED HEATING SYSTEM WITH HOT GAS DEFROST TECHNOLOGY
In double or triple module configurations, the continuous heating function is split between the modules, depending on the number of
outdoor units in the system.
Continuous heating – single module
• The thermal exchange coil is split into 2 sections
• One section defrosts
• The other section continues to heat the indoor space via the
indoor units
• The Hot Gas Defrost function is operative at outdoor air
temperatures as low as 1°C
• At lower temperatures, the conventional Reverse Defrost
function is implemented.
54
Continuous heating – modular system
• Double or triple modules
• One module defrosts
• The other modules continue to heat the indoor space via the
indoor units
• In modular configuration systems, the Hot Gas Defrost
function is operative at outdoor air temperatures as low as -5°C
• At lower temperatures, the conventional Reverse Defrost
function is implemented.
SERIES
SERIES
Y
R2
SEASONAL
SEASONAL
Class-beating performance all year round
The new Y Seasonal and R2 Seasonal series outdoor units
have been conceived to achieve the highest possible SCOP
(Seasonal-COP) and SEER (Seasonal-EER) values.
These two parameters express the efficiency of a system over
an entire season, and offer a very accurate picture of the realworld performance of the machine throughout its life cycle. In its
commitment to continuously advancing technology, Mitsubishi
Electric has created the new Y Seasonal and R2 Seasonal series
of outdoor units, redefining yet again the state of the art in VRF
technology and going beyond the concept of performance and
efficiency in nominal conditions only to offer a highly evolved
system whose true strength is its real-world performance.
NEW
Efficiency
YLM
YJM
Frequen
cy (Hz)
New BSCC refrigeration circuit
The new Y Seasonal and R2 Seasonal range of outdoor units
introduces the new, higher performance Bottom SubCool Circuit
(BSCC) refrigeration circuit.
The new circuit transfers R410A gas from the top of the heat
exchanger to the bottom, causing large volumes of refrigerant to
flow through the upper portion of the outdoor unit. As this is where
the air speed is higher, the result is improved thermal exchange.
To Indoor Units
The circuit has been optimised to favour the
distribution of hot gas in the upper zone
55
OUTDOOR UNITS
Exclusive characteristics of the Y and R2
Seasonal ranges of outdoor units
Exclusive characteristics of the Y and R2
Seasonal ranges of outdoor units
SERIES
Y
SEASONAL
SERIES
R2
SEASONAL
FLAT TUBE thermal exchange coil
With the new Y Seasonal and R2 Seasonal series of outdoor
units, Mitsubishi Electric has also introduced the new FLAT TUBE
all-aluminium thermal exchange coil. The new solution, which is
covered by global patents, sets new standards for heating and
cooling performance while also reducing the overall size of the
machine.
The FLAT TUBE technology coil – also known as a “micro-channel
heat exchanger” – consists of three components: the flat tubing,
the internal fins forming the micro-channels, and two refrigerant
fluid collector boxes.
This type of heat exchanger was used for the first time in around
2008 in the automotive industry. With its globally patented FLAT
TUBE system, Mitsubishi Electric has further developed this
technology to offer even more advantages.
Unparalleled quality, efficiency and product integrity are the
tangible results of a production process based on a single
brazing stage instead of the 200-300 manually brazed individual
connections necessary with a conventional copper/aluminium
coil. Moreover, the FLAT TUBE heat exchanger requires a smaller
charge volume than a conventional bi-metal coil, as the microchannels limit the available volume for the refrigerant fluid while
also creating a larger thermal exchange surface area.
STANDARD COIL
FLAT TUBE COIL
+30% more piping
+17% more Contact with Piping
+26% more Contact with Refrigerant
Smaller Pitch and Pipe Chamber
Reduced Refrigerant Volume
A world
first
for VRF systems
Weather resistance is a key factor for the heat exchanger coil, as
it is perhaps the component that is most exposed to the harmful
effects of the atmosphere.
Here too, the FLAT TUBE coil outperforms other solutions:
the single component in aluminium only is far less susceptible
to corrosion than a conventional bi-metal coil in copper and
aluminium. As if that were not already enough, the direct
expansion coil of the new Y Seasonal and R2 Seasonal series
outdoor units receive a special galvanic treatment with sacrificial
zinc anodes to further prevent any possibility of corrosion, while a
waterproofing treatment protects the copper pipes connecting
the heat exchanger coil to the refrigeration circuit against
electrolytic corrosion. A special version (denominated -BS) may
be ordered for installations in highly saline conditions or coastal
zones, which is specifically designed for these applications.
56
Y
SERIES
R2
SEASONAL
Compressor: “Poki Poki” DC Inverter electric motor
Mitsubishi Electric has created an extremely compact and highly
efficient DC Inverter electric motor. Named “Poki Poki”, this motor
equips the compressors in Y Series (Nominal and Seasonal)
and R2 Series (Nominal and Seasonal) outdoor units. The
Mitsubishi Electric Poki Poki motor has a very high coil density
which significantly increases efficiency.
Instead of a single core structure (as in the prior YHM series
of outdoor units), the stator of the Poki Poki motor consists of
multiple core segments. The coil is wound around each individual
core segment (hence the denomination “High Density Winding”) to
minimise dead space.
With a 20% higher volumetric density of the copper coil than a
conventional electric motor, this motor is 4% more efficient.
The Poki Poki motor saves energy and reduces CO2 emissions
while offering greater durability and reliability. This technology
is used on a massive scale by Mitsubishi Electric in automotive
applications, elevators and escalators.
Compressor: new induction heating technology
The new Y Seasonal and R2 Seasonal outdoor units employ a
pre-heating system for the scroll compressor based on induction
technology. This solution is used to warm the compressor
housing to minimise energy absorption in stand-by state. Yet
another solution contributing to reducing energy consumption.
Compressor: new DC Scroll Inverter compressor
The new DC Scroll Inverter compressor represents the state of
the art in scroll compressor technology and is the jewel in the
crown of the new ranges introduced by Mitsubishi Electric. The
technical improvements implemented to the new compressor
increase efficiency, especially at low operating frequencies, offering
a significant advantage in terms of energy consumption in the
real-world operation of the machine (SEER, SCOP), and not just in
nominal conditions.
57
OUTDOOR UNITS
SERIES
SEASONAL
Series
Y Ecostandard single
PUHY-P YKA OUTDOOR UNITS
OPTIMISED FOR COOLING PERFORMANCE
SERIES
Y
ECOSTANDARD
SINGLE
E.T.C.
NEW
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PUHY-P200YKA(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
°C
°C
kW
kW
°C
°C
dB(A)
mm
mm
m3/min
mm
kg
kg
PUHY-P250YKA(-BS)
8
10
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
22.4
28.0
5.19
6.89
4.31
4.06
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
22.4
28.0
5.05
6.33
4.43
4.42
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
57
58
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/1~17
P15~P250/1~21
9.52
9.52
22.2
22.2
175
175
1650 x 920 x 740
1650 x 920 x 740
195
195
8.0
8.0
PUHY-P300YKA(-BS)
PUHY-P350YKA(-BS)
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
°C
°C
kW
kW
°C
°C
dB(A)
mm
mm
m3/min
mm
kg
kg
12
14
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
33.5
40.0
8.86
11.69
3.78
3.42
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
33.5
40.0
8.11
9.61
4.13
4.16
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
61
61
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/1~26
P15~P250/1~30
9.52
12.7
22.2
28.58
185
210
1650 x 920 x 740
1650 x 1220 x 740
211
256
8.0
11.5
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
58
Series
Y Ecostandard single
Y
ECOSTANDARD
SINGLE
E.T.C.
NEW
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PUHY-P400YKA(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
PUHY-P450YKA(-BS)
16
18
3-phase 4-wire 380-400-415 V 50/60 Hz
3-phase 4-wire 380-400-415 V 50/60 Hz
45.0
48.0
13.55
15.78
3.32
3.04
°C
°C
kW
kW
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
4.12
3.60
°C
°C
dB(A)
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
mm
mm
m3/min
mm
kg
kg
45.0
48.0
10.92
13.33
63
63
50~130% of outdoor unit capacity
50~130% of outdoor unit capacity
P15~P250/1~34
P15~P250/1~39
12.7
15.88
28.58
28.58
210
210
1650 x 1220 x 740
1650 x 1220 x 740
253
253
11.5
11.5
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PUHY-P500YKA
20
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
3-phase 4-wire 380-400-415 V 50/60 Hz
55.0
18.39
2.99
Indoor WB
Outdoor DB
°C
°C
kW
kW
15.0~24.0
°C
°C
dB(A)
15.0~27.0
-5.0~52.0
55.0
15.71
3.50
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
-20.0~15.5
65
50~130% of outdoor unit capacity
P15~P250/1~43
mm
mm
m3/min
mm
kg
kg
15.88
28.58
360
1650 x 1750 x 740
288
11.8
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
59
OUTDOOR UNITS
PUHY-P YKA OUTDOOR UNITS
OPTIMISED FOR COOLING PERFORMANCE
SERIES
Series
Y Ecostandard double
PUHY-P YSKA OUTDOOR UNITS
OPTIMISED FOR COOLING PERFORMANCE
SERIES
Y
ECOSTANDARD
DOUBLE
E.T.C.
NEW
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PUHY-P550YSKA(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
PUHY-P600YSKA(-BS)
PUHY-P650YSKA(-BS)
22
24
26
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
63.0
68.0
73.0
16.07
18.18
19.78
3.92
3.74
3.69
°C
°C
kW
kW
15.0~24.0
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
-5.0~52.0
63.0
68.0
73.0
15.51
16.70
18.02
4.06
4.07
4.05
°C
°C
dB(A)
15.0~27.0
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
-20.0~15.5
63
63
64.5
50~130% of outdoor unit capacity
50~130% of outdoor unit capacity
50~130% of outdoor unit capacity
P15~P250/2~47
P15~P250/2~50
P15~P250/2~50
15.88
15.88
15.88
28.58
28.58
mm
mm
m3/min
mm
kg
kg
28.58
PUHY-P250YKA
PUHY-P300YKA
PUHY-P250YKA
PUHY-P350YKA
PUHY-P250YKA
PUHY-P400YKA
175
185
175
210
175
210
1650 x 920 x 740 1650 x 920 x 740 1650 x 920 x 740 1650 x 1220 x 740 1650 x 920 x 740 1650 x 1220 x 740
195
211
195
256
195
253
8.0
8.0
8.0
11.5
8.0
11.5
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PUHY-P700YSKA(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
PUHY-P800YSKA(-BS)
28
30
32
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
76.0
81.5
90.0
21.40
23.90
27.10
3.55
3.41
3.32
°C
°C
kW
kW
15.0~24.0
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
-5.0~52.0
76.0
81.5
90.0
20.00
22.20
23.01
3.80
3.67
3.91
°C
°C
dB(A)
15.0~27.0
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
-20.0~15.5
64.5
65.5
66
50~130% of outdoor unit capacity
50~130% of outdoor unit capacity
50~130% of outdoor unit capacity
P15~P250/2~50
P15~P250/2~50
P15~P250/2~50
19.05
19.05
19.05
34.93
34.93
mm
mm
m3/min
mm
kg
kg
34.93
PUHY-P250YKA
PUHY-P450YKA
PUHY-P300YKA
PUHY-P450YKA
PUHY-P400YKA
PUHY-P400YKA
175
210
185
210
210
210
1650 x 920 x 740 1650 x 1220 x 740 1650 x 920 x 740 1650 x 1220 x 740 1650 x 1220 x 740 1650 x 1220 x 740
195
253
211
253
253
253
8.0
11.5
8.0
11.5
11.5
11.5
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
60
PUHY-P750YSKA(-BS)
Series
Y Ecostandard double
Y
ECOSTANDARD
DOUBLE
E.T.C.
NEW
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PUHY-P850YSKA(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
PUHY-P900YSKA(-BS)
34
36
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
93.0
96.0
29.24
31.57
3.18
3.04
°C
°C
kW
kW
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
3.66
3.42
°C
°C
dB(A)
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
96.0
25.40
28.07
66
66
50~130% of outdoor unit capacity
50~130% of outdoor unit capacity
P15~P250/2~50
P15~P250/2~50
19.05
19.05
mm
mm
m3/min
mm
kg
kg
93.0
41.28
41.28
PUHY-P400YKA
PUHY-P450YKA
PUHY-P450YKA
210
210
210
PUHY-P450YKA
210
1650 x 1220 x 740
1650 x 1220 x 740
1650 x 1220 x 740
1650 x 1220 x 740
253
253
253
253
11.5
11.5
11.5
11.5
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PUHY-P950YSKA(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
38
40
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
103.0
110.0
34.21
36.78
°C
°C
kW
kW
°C
°C
dB(A)
3.01
2.99
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
103.0
110.0
30.56
33.13
3.37
3.32
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
67.5
68
50~130% of outdoor unit capacity
50~130% of outdoor unit capacity
P15~P250/2~50
P15~P250/2~50
19.05
19.05
mm
mm
m3/min
mm
kg
kg
PUHY-P1000YSKA(-BS)
41.28
41.28
PUHY-P450YKA
PUHY-P500YKA
PUHY-P500YKA
210
360
360
PUHY-P500YKA
360
1650 x 1220 x 740
1650 x 1750 x 740
1650 x 1750 x 740
1650 x 1750 x 740
253
288
288
288
11.5
11.8
11.8
11.8
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
61
OUTDOOR UNITS
PUHY-P YSKA OUTDOOR UNITS
OPTIMISED FOR COOLING PERFORMANCE
SERIES
Series
Y Ecostandard triple
PUHY-P YSKA OUTDOOR UNITS
OPTIMISED FOR COOLING PERFORMANCE
SERIES
Y
ECOSTANDARD
TRIPLE
E.T.C.
NEW
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PUHY-P1050YSKA(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
42
44
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
115.0
121.5
32.57
35.63
°C
°C
kW
kW
°C
°C
dB(A)
3.53
3.41
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
115.0
121.5
31.50
33.80
3.65
3.59
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
66.5
66.5
50~130% of outdoor unit capacity
50~130% of outdoor unit capacity
P15~P250/2~50
P15~P250/2~50
19.05
19.05
mm
mm
m3/min
mm
kg
kg
PUHY-P1100YSKA(-BS)
41.28
41.28
PUHY-P300YKA
PUHY-P300YKA
PUHY-P450YKA
PUHY-P300YKA
PUHY-P350YKA
PUHY-P450YKA
185
185
210
185
210
210
1650 x 920 x 740 1650 x 920 x 740 1650 x 1220 x 740 1650 x 920 x 740 1650 x 1220 x 740 1650 x 1220 x 740
211
211
253
211
256
253
8.0
8.0
11.5
8.0
11.5
11.5
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PUHY-P1150YSKA(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
46
48
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
130.0
135.0
38.80
40.66
°C
°C
kW
kW
°C
°C
dB(A)
3.35
3.32
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
130.0
135.0
35.51
37.70
3.66
3.58
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
67.5
68
50~130% of outdoor unit capacity
50~130% of outdoor unit capacity
P15~P250/2~50
P15~P250/2~50
19.05
19.05
mm
mm
m3/min
mm
kg
kg
41.28
41.28
PUHY-P350YKA
PUHY-P400YKA
PUHY-P400YKA
PUHY-P400YKA
PUHY-P400YKA
PUHY-P400YKA
210
210
210
210
210
210
1650 x 1220 x 740 1650 x 1220 x 740 1650 x 1220 x 740 1650 x 1220 x 740 1650 x 1220 x 740 1650 x 1220 x 740
256
253
253
253
253
253
11.5
11.5
11.5
11.5
11.5
11.5
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
62
PUHY-P1200YSKA(-BS)
Series
Y Ecostandard triple
Y
ECOSTANDARD
TRIPLE
E.T.C.
NEW
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PUHY-P1250YSKA(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
50
52
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
138.0
141.0
43.12
45.77
°C
°C
kW
kW
°C
°C
dB(A)
3.20
3.08
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
138.0
141.0
40.35
42.98
3.42
3.28
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
68
68
50~130% of outdoor unit capacity
50~130% of outdoor unit capacity
P15~P250/2~50
P15~P250/2~50
19.05
19.05
mm
mm
m3/min
mm
kg
kg
PUHY-P1300YSKA(-BS)
41.28
41.28
PUHY-P400YKA
PUHY-P400YKA
PUHY-P450YKA
PUHY-P400YKA
PUHY-P450YKA
PUHY-P450YKA
210
210
210
210
210
210
1650 x 1220 x 740 1650 x 1220 x 740 1650 x 1220 x 740 1650 x 1220 x 740 1650 x 1220 x 740 1650 x 1220 x 740
253
253
253
253
253
253
11.5
11.5
11.5
11.5
11.5
11.5
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PUHY-P1350YSKA(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
54
56
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
144.0
151.0
48.64
52.24
°C
°C
kW
kW
°C
°C
dB(A)
2.96
2.89
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
144.0
151.0
46.15
49.50
3.12
3.05
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
68
68.5
50~130% of outdoor unit capacity
50~130% of outdoor unit capacity
P15~P250/2~50
P15~P250/2~50
19.05
19.05
mm
mm
m3/min
mm
kg
kg
PUHY-P1400YSKA(-BS)
41.28
41.28
PUHY-P450YKA
PUHY-P450YKA
PUHY-P450YKA
PUHY-P450YKA
PUHY-P450YKA
PUHY-P500YKA
210
210
210
210
210
360
1650 x 1220 x 740 1650 x 1220 x 740 1650 x 1220 x 740 1650 x 1220 x 740 1650 x 1220 x 740 1650 x 1750 x 740
253
253
253
253
253
288
11.5
11.5
11.5
11.5
11.5
11.8
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
63
OUTDOOR UNITS
PUHY-P YSKA OUTDOOR UNITS
OPTIMISED FOR COOLING PERFORMANCE
SERIES
Series
Y Ecostandard triple
PUHY-P YSKA OUTDOOR UNITS
OPTIMISED FOR COOLING PERFORMANCE
SERIES
Y
ECOSTANDARD
TRIPLE
E.T.C.
NEW
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PUHY-P1450YSKA(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
58
60
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
158.0
165.0
55.83
59.56
°C
°C
kW
kW
°C
°C
dB(A)
2.83
2.77
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
158.0
165.0
52.49
56.12
3.01
2.94
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
69.5
70
50~130% of outdoor unit capacity
50~130% of outdoor unit capacity
P15~P250/2~50
P15~P250/2~50
19.05
19.05
mm
mm
m3/min
mm
kg
kg
41.28
41.28
PUHY-P450YKA
PUHY-P500YKA
PUHY-P500YKA
PUHY-P500YKA
PUHY-P500YKA
PUHY-P500YKA
210
360
360
360
360
360
1650 x 1220 x 740 1650 x 1750 x 740 1650 x 1750 x 740 1650 x 1750 x 740 1650 x 1750 x 740 1650 x 1750 x 740
253
288
288
288
288
288
11.5
11.8
11.8
11.8
11.8
11.8
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
64
PUHY-P1500YSKA(-BS)
OUTDOOR UNITS
65
Series
Y Nominal single
PUHY-P YKB-A1 OUTDOOR UNITS
OPTIMISED FOR NOMINAL PERFORMANCE
SERIES
Y
NOMINAL
SINGLE
E.T.C.
CONTINUOUS
HEATING
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PUHY-P200YKB-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
°C
°C
kW
kW
°C
°C
dB(A)
mm
mm
m3/min
mm
kg
kg
PUHY-P250YKB-A1(-BS)
8
10
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
22.4
28.0
5.19
6.88
4.31
4.06
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
25.0
31.5
5.81
7.34
4.30
4.29
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
57
59
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/1~17
P15~P250/1~21
9.52
9.52
22.2
22.2
175
175
1710 x 920 x 740
1710 x 920 x 740
190
199
6.5
8.0
PUHY-P300YKB-A1(-BS)
PUHY-P350YKB-A1(-BS)
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
12
14
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
33.5
40.0
8.56
11.69
3.91
3.42
°C
°C
kW
kW
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
4.13
4.04
°C
°C
dB(A)
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
mm
mm
m3/min
mm
kg
kg
37.5
45.0
9.07
11.13
61
61
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/1~26
P15~P250/1~30
9.52
12.7
22.2
28.58
210
210
1710 x 1220 x 740
1710 x 1220 x 740
251
251
11.5
11.5
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
66
Series
Y Nominal double
Y
NOMINAL
DOUBLE
E.T.C.
CONTINUOUS
HEATING
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PUHY-P400YSKB-A1(-BS) PUHY-P450YSKB-A1(-BS) PUHY-P500YSKB-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
16
18
20
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
45.0
50.0
56.0
11.0
12.59
14.54
4.09
3.97
3.85
°C
°C
kW
kW
15.0~24.0
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
-5.0~52.0
50.0
56.0
63.0
12.24
13.72
15.46
4.08
4.08
4.07
°C
°C
dB(A)
15.0~27.0
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
-20.0~15.5
60
61.5
62.0
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/1~34
P15~P250/1~39
P15~P250/1~43
12.7
15.88
15.88
28.58
28.58
mm
mm
m3/min
mm
kg
kg
28.58
PUHY-P200YKB-A1
PUHY-P200YKB-A1
PUHY-P200YKB-A1
PUHY-P250YKB-A1
PUHY-P250YKB-A1
PUHY-P250YKB-A1
175
175
175
175
175
175
1710 x 920 x 740 1710 x 920 x 740 1710 x 920 x 740 1710 x 920 x 740 1710 x 920 x 740 1710 x 920 x 740
190
190
190
199
199
199
6.5
6.5
6.5
8.0
8.0
8.0
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PUHY-P550YSKB-A1(-BS) PUHY-P600YSKB-A1(-BS) PUHY-P650YSKB-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
22
24
26
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
69.0
73.0
19.43
20.97
3.78
3.55
3.48
15.0~24.0
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
-5.0~52.0
69.0
76.5
81.5
17.29
19.36
21.0
3.99
3.95
3.88
15.0~27.0
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
-20.0~15.5
63.5
63.5
64
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/2~47
P15~P250/2~50
P15~P250/2~50
15.88
15.88
15.88
28.58
28.58
°C
°C
kW
kW
°C
°C
dB(A)
mm
mm
m3/min
mm
kg
kg
63.0
16.66
28.58
PUHY-P250YKB-A1
PUHY-P300YKB-A1
PUHY-P250YKB-A1
PUHY-P350YKB-A1
PUHY-P300YKB-A1
PUHY-P350YKB-A1
175
210
175
210
210
210
1710 x 920 x 740 1710 x 1220 x 740 1710 x 920 x 740 1710 x 1220 x 740 1710 x 1220 x 740 1710 x 1220 x 740
199
251
199
251
251
251
8.0
11.5
8.0
11.5
11.5
11.5
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
67
OUTDOOR UNITS
PUHY-P YSKB-A1 OUTDOOR UNITS
OPTIMISED FOR NOMINAL PERFORMANCE
SERIES
Series
Y Nominal double
PUHY-P YSKB-A1 OUTDOOR UNITS
OPTIMISED FOR NOMINAL PERFORMANCE
SERIES
Y
NOMINAL
DOUBLE
CONTINUOUS
HEATING
E.T.C.
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PUHY-P700YSKB-A1(-BS) PUHY-P750YSKB-A1(-BS) PUHY-P800YSKB-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
°C
°C
kW
kW
°C
°C
dB(A)
28
30
32
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
80.0
85.0
90.0
24.69
26.56
27.86
3.24
3.20
3.23
15.0~24.0
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
-5.0~52.0
88.0
95.0
100.0
22.97
24.93
27.62
3.83
3.81
3.62
15.0~27.0
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
-20.0~15.5
64
65.5
67.5
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/2~50
P15~P250/2~50
P15~P250/2~50
19.05
19.05
19.05
34.93
34.93
mm
mm
PUHY-P350YKB-A1
PUHY-P350YKB-A1
PUHY-P350YKB-A1
34.93
PUHY-P400YKB-A1
PUHY-P350YKB-A1
PUHY-P450YKB-A1
210
210
210
210
210
360
m3/min
1710 x 1220 x 740 1710 x 1220 x 740 1710 x 1220 x 740 1710 x 1220 x 740 1710 x 1220 x 740 1710 x 1750 x 740
mm
251
251
251
251
251
304
kg
11.5
11.5
11.5
11.5
11.5
11.8
kg
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PUHY-P850YSKB-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
34
36
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
96.0
101.0
30.18
31.46
°C
°C
kW
kW
°C
°C
dB(A)
3.18
3.21
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
108.0
113.0
29.90
33.0
3.61
3.42
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
68
69
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/2~50
P15~P250/2~50
19.05
19.05
mm
mm
m3/min
mm
kg
kg
41.28
41.28
PUHY-P400YKB-A1
PUHY-P450YKB-A1
PUHY-P450YKB-A1
210
360
360
360
1710 x 1220 x 740
1710 x 1750 x 740
1710 x 1750 x 740
1710 x 1750 x 740
PUHY-P450YKB-A1
251
304
304
304
11.5
11.8
11.8
11.8
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
68
PUHY-P900YSKB-A1(-BS)
Series
Y Nominal triple
SERIES
PUHY-P YSKB-A1 OUTDOOR UNITS
OPTIMISED FOR NOMINAL PERFORMANCE
E.T.C.
CONTINUOUS
HEATING
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PUHY-P950YSKB-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
38
40
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
108.0
113.0
30.25
32.10
°C
°C
kW
kW
°C
°C
dB(A)
3.57
3.52
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
119.5
127.0
30.40
32.70
3.93
3.88
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
66.5
66.5
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/2~50
P15~P250/2~50
19.05
19.05
mm
mm
m3/min
mm
kg
kg
PUHY-P1000YSKB-A1(-BS)
41.28
41.28
PUHY-P250YKB-A1
PUHY-P300YKB-A1
PUHY-P400YKB-A1
PUHY-P300YKB-A1
PUHY-P300YKB-A1
PUHY-P400YKB-A1
175
210
210
210
210
210
1710 x 920 x 740 1710 x 1220 x 740 1710 x 1220 x 740 1710 x 1220 x 740 1710 x 1220 x 740 1710 x 1220 x 740
199
251
251
251
251
251
8.0
11.5
11.5
11.5
11.5
11.5
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PUHY-P1050YSKB-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
PUHY-P1100YSKB-A1(-BS)
42
44
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
118.0
124.0
35.01
38.62
°C
°C
kW
kW
°C
°C
dB(A)
3.37
3.21
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
132.0
140.0
34.25
36.60
3.85
3.82
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
66.5
66.5
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/2~50
P15~P250/2~50
19.05
19.05
mm
mm
41.28
PUHY-P300YKB-A1
PUHY-P350YKB-A1
41.28
PUHY-P400YKB-A1
PUHY-P350YKB-A1
PUHY-P350YKB-A1
PUHY-P400YKB-A1
210
210
210
210
210
210
m3/min
1710 x 1220 x 740 1710 x 1220 x 740 1710 x 1220 x 740 1710 x 1220 x 740 1710 x 1220 x 740 1710 x 1220 x 740
mm
251
251
251
251
251
251
kg
11.5
11.5
11.5
11.5
11.5
11.5
kg
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
69
OUTDOOR UNITS
Y
NOMINAL
TRIPLE
Series
Y Nominal triple
PUHY-P YSKB-A1 OUTDOOR UNITS
OPTIMISED FOR NOMINAL PERFORMANCE
SERIES
Y
NOMINAL
TRIPLE
E.T.C.
CONTINUOUS
HEATING
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PUHY-P1150YSKB-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
PUHY-P1200YSKB-A1(-BS)
46
48
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
130.0
136.0
40.24
44.10
°C
°C
kW
kW
°C
°C
dB(A)
3.23
3.08
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
145.0
150.0
39.29
40.76
3.69
3.68
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
68.5
69.0
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/2~50
P15~P250/2~50
19.05
19.05
mm
mm
41.28
PUHY-P350YKB-A1
PUHY-P350YKB-A1
41.28
PUHY-P450YKB-A1
PUHY-P350YKB-A1
PUHY-P400YKB-A1
PUHY-P450YKB-A1
210
210
360
210
210
360
m3/min
1710 x 1220 x 740 1710 x 1220 x 740 1710 x 1750 x 740 1710 x 1220 x 740 1710 x 1220 x 740 1710 x 1750 x 740
mm
251
251
304
251
251
304
kg
11.5
11.5
11.8
11.5
11.5
11.8
kg
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PUHY-P1250YSKB-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
50
52
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
140.0
146.0
43.80
47.80
°C
°C
kW
kW
°C
°C
dB(A)
3.19
3.05
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
156.5
163.0
44.08
46.04
3.55
3.54
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
70
70
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/2~50
P15~P250/2~50
19.05
19.05
mm
mm
41.28
PUHY-P350YKB-A1
PUHY-P450YKB-A1
41.28
PUHY-P450YKB-A1
PUHY-P400YKB-A1
PUHY-P450YKB-A1
PUHY-P450YKB-A1
210
360
360
210
360
360
m3/min
1710 x 1220 x 740 1710 x 1750 x 740 1710 x 1750 x 740 1710 x 1220 x 740 1710 x 1750 x 740 1710 x 1750 x 740
mm
251
304
304
251
304
304
kg
11.5
11.8
11.8
11.5
11.8
11.8
kg
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
70
PUHY-P1300YSKB-A1(-BS)
Series
Y Nominal triple
SERIES
PUHY-P YSKB-A1 OUTDOOR UNITS
OPTIMISED FOR NOMINAL PERFORMANCE
E.T.C.
CONTINUOUS
HEATING
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PUHY-P1350YSKB-A1(-BS)
54
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
3 phase 380-400-415V 50Hz
150.0
47.40
3.16
Indoor WB
Outdoor DB
°C
°C
kW
kW
15.0~24.0
°C
°C
dB(A)
15.0~27.0
-5.0~52.0
168.0
49.12
3.42
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
-20.0~15.5
71
50 to 130% of capacity of O.U.
P15~P250/2~50
mm
mm
19.05
41.28
m3/min
mm
kg
kg
PUHY-P450YKB-A1
PUHY-P450YKB-A1
360
360
PUHY-P450YKB-A1
360
1710 x 1750 x 740
1710 x 1750 x 740
1710 x 1750 x 740
304
304
304
11.8
11.8
11.8
PUHY-P400YKB-A1
PUHY-P450YKB-A1
PUHY-P500YKB-A1
16
18
20
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
Series
Y Nominal single
LINE-UP EXTENSION
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
45
50
55
13,55
14,79
18,39
3,32
3,38
2,99
°C
°C
kW
kW
15.0~24.0
15.0~24.0
15.0~24.0
-5~52
-5~52
-5~52
50
56
63
12,50
15,55
18,52
4
3,60
3,40
°C
°C
dB(A)
15.0~27.0
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
-20.0~15.5
63
66
-20.0~15.5
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250 / 1~34
P15~P250 / 1~39
P15~P250 / 1~43
12,7
15,88
15,88
28,58
28,58
28,58
210
360
360
1710x1220x740*
1710x1750x740*
1710x1750x740*
mm
mm
m3/min
mm
kg
kg
251
304
304
11,5
11,8
11,8
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
71
OUTDOOR UNITS
Y
NOMINAL
TRIPLE
Series
Y Seasonal single
PUHY-P YSKB-A1 OUTDOOR UNITS
OPTIMISED FOR NOMINAL PERFORMANCE
SERIES
Y
SEASONAL
SINGLE
CONTINUOUS
HEATING
E.T.C.
FLAT TUBE
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PUHY-EP200YLM-A1(-BS) PUHY-EP250YLM-A1(-BS) PUHY-EP300YLM-A1(-BS)
8
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEER*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
°C
°C
kW
kW
°C
°C
dB(A)
mm
mm
m3/min
mm
kg
kg
10
12
3 phase 380-400-415V 50Hz
22.4
28.0
33.5
5.19
6.89
8.56
4.31
4.06
3.91
6.52
6.70
5.98
7.30
7.22
6.47
15.0~24.0
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
-5.0~52.0
25.0
31.5
37.5
5.73
7.68
9.16
4.36
4.10
4.09
3.90
3.66
3.47
15.0~27.0
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
-20.0~15.5
57
60
61
P15~P250 / 1~17
50 to 130% of capacity of O.U.
P15~P250 / 1~21
P15~P250 / 1~26
9.52
9.52
9.52
22.2
22.2
28.58
175
175
200
1710x920x740
1710x920x740
1710x1220x740
208
208
252
7.5
7.5
10.3
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEER*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
°C
°C
kW
kW
°C
°C
dB(A)
PUHY-EP350YLM-A1(-BS)
PUHY-EP400YLM-A1(-BS)
14
16
3 phase 380-400-415V 50Hz
40.0
45.0
11.69
12.26
3.42
3.67
5.70
5.79
5.73
5.84
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
45.0
50.0
12.53
13.15
3.59
3.80
3.29
3.36
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
61
P15~P250 / 1~30
mm
mm
m3/min
mm
kg
kg
*2
*3
72
P15~P250 / 1~34
12.7
12.7
28.58
28.58
200
320
1710x1220x740
1710x1750x740
252
318
10.3
11.8
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
*4 Values calculated according to EN14825 for AVERAGE (STRASBOURG) area.
5
* Value calculated according to EUROVENT formula.
*1
62.5
50 to 130% of capacity of O.U.
Series
Y Seasonal single
Y
SEASONAL
SINGLE
E.T.C.
CONTINUOUS
HEATING
FLAT TUBE
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEER*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
°C
°C
kW
kW
°C
°C
dB(A)
PUHY-EP450YLM-A1(-BS)
PUHY-EP500YLM-A1(-BS)
18
20
3 phase 380-400-415V 50Hz
50.0
56.0
14.79
18.72
3.38
2.99
5.67
5.49
5.71
5.46
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
56.0
63.0
16.09
19.68
3.48
3.20
3.22
3.04
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
63
63.5
50 to 130% of capacity of O.U.
mm
mm
m3/min
mm
kg
kg
P15~P250 / 1~39
P15~P250 / 1~43
15.88
15.88
28.58
28.58
370
370
1710x1750x740
1710x1750x740
318
332
11.8
11.8
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
*4 Values calculated according to EN14825 for AVERAGE (STRASBOURG) area.
5
* Value calculated according to EUROVENT formula.
*1
*2
*3
73
OUTDOOR UNITS
PUHY-EP YLM-A1 OUTDOOR UNITS
OPTIMIZED FOR SEASONAL PERFORMANCE
SERIES
Series
Y Seasonal double
PUHY-EP YSLM-A1 OUTDOOR UNITS
OPTIMIZED FOR SEASONAL PERFORMANCE
E.T.C.
SERIES
Y
SEASONAL
DOUBLE
CONTINUOUS
HEATING
FLAT TUBE
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEE*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
PUHY-EP550YSLM-A1(-BS)
PUHY-EP600YSLM-A1(-BS)
22
24
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable indoor Total capacity
units
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
3 phase 380-400-415V 50Hz
°C
°C
kW
kW
°C
°C
dB(A)
63.0
69.0
16.62
18.59
3.79
3.71
6.17
5.82
5.99
5.85
15.0~24.0
15.0~24.0
-5.0~52.0
-5.0~52.0
69.0
76.5
17.73
19.66
3.89
3.89
3.57
3.47
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
63.5
64
50 to 130% of capacity of O.U.
P15~P250 / 2~47
P15~P250 / 2~50
15.88
15.88
mm
mm
m3/min
mm
kg
kg
28.58
28.58
PUHY-EP250YLM-A1
PUHY-EP300YLM-A1
PUHY-EP300YLM-A1
175
200
200
200
1710x920x740
1710x1220x740
1710x1220x740
1710x1220x740
208
252
252
252
7.5
10.3
10.3
10.3
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
*4 Values calculated according to EN14825 for AVERAGE (STRASBOURG) area.
5
* Value calculated according to EUROVENT formula.
*1
*2
*3
74
PUHY-EP300YLM-A1
Series
Y Seasonal triple
Y
SEASONAL
TRIPLE
E.T.C.
CONTINUOUS
HEATING
FLAT TUBE
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEE*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
Heating
Sound pressure
Connectable indoor
units
External diameter of
refrigerant connectors
Model
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
°C
°C
kW
kW
Indoor DB
Outdoor WB
°C
°C
dB(A)
*3
Total capacity
Model/Quantity
Liquid
Gas
mm
mm
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
m3/min
mm
kg
kg
PUHY-EP650YSLM-A1(-BS)
PUHY-EP700YSLM-A1(-BS)
26
28
3 phase 380-400-415V 50Hz
73.0
18.15
4.02
6.40
6.29
15.0~24.0
-5.0~52.0
81.5
20.07
4.06
3.82
15.0~27.0
-20.0~15.5
63
80.0
20.15
3.97
6.17
6.49
15.0~24.0
-5.0~52.0
88.0
21.67
4.06
3.76
15.0~27.0
-20.0~15.5
63.5
50 to 130% of capacity of O.U.
P15~P250 / 2~50
P15~P250 / 2~50
15.88
19.05
28.58
34.93
PUHY-EP200YLM-A1 PUHY-EP200YLM-A1 PUHY-EP250YLM-A1 PUHY-EP200YLM-A1 PUHY-EP200YLM-A1 PUHY-EP300YLM-A1
175
175
175
175
175
200
1710x920x740
1710x920x740
1710x920x740
1710x920x740
1710x920x740
1710x1220x740
208
208
208
208
208
252
7.5
7.5
7.5
7.5
7.5
10.3
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable indoor
units
External diameter of
refrigerant connectors
Model
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEE*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
°C
°C
kW
kW
Indoor DB
Outdoor WB
°C
°C
dB(A)
Total capacity
Model/Quantity
Liquid
Gas
mm
mm
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
m3/min
mm
kg
kg
PUHY-EP750YSLM-A1(-BS)
PUHY-EP800YSLM-A1(-BS)
30
32
3 phase 380-400-415V 50Hz
85.0
21.85
3.89
6.23
6.63
15.0~24.0
-5.0~52.0
95.0
23.92
3.97
3.68
15.0~27.0
-20.0~15.5
64.5
90.0
23.43
3.84
5.99
6.23
15.0~24.0
-5.0~52.0
100.0
25.18
3.97
3.61
15.0~27.0
-20.0~15.5
65
50 to 130% of capacity of O.U.
P15~P250 / 2~50
P15~P250 / 2~50
19.05
19.05
34.93
34.93
PUHY-EP200YLM-A1 PUHY-EP250YLM-A1 PUHY-EP300YLM-A1 PUHY-EP200YLM-A1 PUHY-EP300YLM-A1 PUHY-EP300YLM-A1
175
175
200
175
200
200
1710x920x740
1710x920x740
1710x1220x740
1710x920x740
1710x1220x740 1710x1220x740
208
208
252
208
252
252
7.5
7.5
10.3
7.5
10.3
10.3
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
*4 Values calculated according to EN14825 for AVERAGE (STRASBOURG) area.
5
* Value calculated according to EUROVENT formula.
*1
*2
*3
75
OUTDOOR UNITS
PUHY-EP YSLM-A1 OUTDOOR UNITS
OPTIMIZED FOR SEASONAL PERFORMANCE
SERIES
Series
Y Seasonal triple
PUHY-EP YSLM-A OUTDOOR UNITS
OPTIMIZED FOR SEASONAL PERFORMANCE
SERIES
Y
SEASONAL
TRIPLE
E.T.C.
CONTINUOUS
HEATING
FLAT TUBE
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEE*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
Heating
Sound pressure
Connectable
indoor units
External diameter of
refrigerant connectors
Model
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
°C
°C
kW
kW
Indoor DB
Outdoor WB
°C
°C
dB(A)
*3
Total capacity
Model/Quantity
Liquid
Gas
mm
mm
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
m3/min
mm
kg
kg
PUHY-EP850YSLM-A1(-BS)
PUHY-EP900YSLM-A1(-BS)
34
36
3 phase 380-400-415V 50Hz
96.0
25.53
3.76
6.05
5.97
15.0~24.0
-5.0~52.0
108.0
27.76
3.89
3.53
15.0~27.0
-20.0~15.5
65.5
50 to 130% of capacity of O.U.
P15~P250 / 2~50
P15~P250 / 2~50
19.05
19.05
41.28
41.28
PUHY-EP250YLM-A1 PUHY-EP300YLM-A1 PUHY-EP300YLM-A1 PUHY-EP300YLM-A1 PUHY-EP300YLM-A1 PUHY-EP300YLM-A1
175
200
200
200
200
200
1710x920x740
1710x1220x740 1710x1220x740 1710x1220x740 1710x1220x740 1710x1220x740
208
252
252
252
252
252
7.5
10.3
10.3
10.3
10.3
10.3
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
*4 Values calculated according to EN14825 for AVERAGE (STRASBOURG) area.
5
* Value calculated according to EUROVENT formula.
*1
*2
*3
76
101.0
27.22
3.71
5.82
5.89
15.0~24.0
-5.0~52.0
113.0
29.04
3.89
3.47
15.0~27.0
-20.0~15.5
Series
Y Seasonal triple
Y
SEASONAL
TRIPLE
E.T.C.
CONTINUOUS
HEATING
FLAT TUBE
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
External diameter of
refrigerant connectors
Model
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEE*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
°C
°C
kW
kW
Indoor DB
Outdoor WB
°C
°C
dB(A)
Total capacity
Model/Quantity
Liquid
Gas
mm
mm
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
m3/min
mm
kg
kg
PUHY-EP950YSLM-A1(-BS)
PUHY-EP1000YSLM-A1(-BS)
38
3 phase 380-400-415V 50Hz
108.0
30.33
3.56
40
3 phase 380-400-415V 50Hz
113.0
31.04
3.64
5,73
15.0~24.0
-5.0~52.0
119.5
32.03
3.73
5,76
15.0~24.0
-5.0~52.0
127.0
33.50
3.79
3,41
3,43
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
66
66.5
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/2~50
P15~P250/2~50
19.05
19.05
41.28
41.28
PUHY-EP300YLM-A1 PUHY-EP300YLM-A1 PUHY-EP350YLM-A1 PUHY-EP300YLM-A1 PUHY-EP300YLM-A1 PUHY-EP400YLM-A1
200
200
200
200
200
320
1710x1220x740 1710x1220x740 1710x1220x740 1710x1220x740 1710x1220x740 1710x1750x740
252
252
252
252
252
318
10.3
10.3
10.3
10.3
10.3
11.8
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
External diameter of
refrigerant connectors
Model
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEE*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
°C
°C
kW
kW
Indoor DB
Outdoor WB
°C
°C
dB(A)
Total capacity
Model/Quantity
Liquid
Gas
mm
mm
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
m3/min
mm
kg
kg
PUHY-EP1050YSLM-A1(-BS)
PUHY-EP1100YSLM-A1(-BS)
42
3 phase 380-400-415V 50Hz
118.0
34.40
3.43
44
3 phase 380-400-415V 50Hz
124.0
38.15
3.25
5,67
15.0~24.0
-5.0~52.0
132.0
36.87
3.58
5,58
15.0~24.0
-5.0~52.0
140.0
41.17
3.40
3,37
3,31
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
66.5
66.5
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/3~50
P15~P250/3~50
19.05
19.05
41.28
41.28
PUHY-EP300YLM-A1 PUHY-EP350YLM-A1 PUHY-EP400YLM-A1 PUHY-EP350YLM-A1 PUHY-EP350YLM-A1 PUHY-EP400YLM-A1
200
200
320
200
200
320
1710x1220x740 1710x1220x740 1710x1750x740 1710x1220x740 1710x1220x740 1710x1750x740
252
252
318
252
252
318
10.3
10.3
11.8
10.3
10.3
11.8
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
*4 Values calculated according to EN14825 for AVERAGE (STRASBOURG) area.
5
* Value calculated according to EUROVENT formula.
*1
*2
*3
77
OUTDOOR UNITS
PUHY-EP YSLM-A1 OUTDOOR UNITS
OPTIMIZED FOR SEASONAL PERFORMANCE
SERIES
Series
Y Seasonal triple
PUHY-EP YSLM-A1 OUTDOOR UNITS
OPTIMIZED FOR SEASONAL PERFORMANCE
SERIES
Y
SEASONAL
TRIPLE
E.T.C.
CONTINUOUS
HEATING
FLAT TUBE
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
External diameter of
refrigerant connectors
Model
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEE*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
°C
°C
kW
kW
Indoor DB
Outdoor WB
°C
°C
dB(A)
Total capacity
Model/Quantity
Liquid
Gas
mm
mm
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
m3/min
mm
kg
kg
PUHY-EP1150YSLM-A1(-BS)
PUHY-EP1200YSLM-A1(-BS)
46
3 phase 380-400-415V 50Hz
130.0
41.53
3.13
48
3 phase 380-400-415V 50Hz
136.0
42.76
3.18
5,54
15.0~24.0
-5.0~52.0
145.0
44.47
3.26
5,57
15.0~24.0
-5.0~52.0
150.0
45.45
3.30
3,27
3,29
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
66.5
67
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/3~50
P15~P250/3~50
19.05
19.05
41.28
41.28
PUHY-EP350YLM-A1 PUHY-EP350YLM-A1 PUHY-EP450YLM-A1 PUHY-EP350YLM-A1 PUHY-EP400YLM-A1 PUHY-EP450YLM-A1
200
200
370
200
320
370
1710x1220x740 1710x1220x740 1710x1750x740 1710x1220x740 1710x1750x740 1710x1750x740
252
252
318
252
318
318
10.3
10.3
11.8
10.3
11.8
11.8
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
External diameter of
refrigerant connectors
Model
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEE*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
°C
°C
kW
kW
Indoor DB
Outdoor WB
°C
°C
dB(A)
Total capacity
Model/Quantity
Liquid
Gas
mm
mm
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
m3/min
mm
kg
kg
PUHY-EP1250YSLM-A1(-BS)
PUHY-EP1300YSLM-A1(-BS)
50
3 phase 380-400-415V 50Hz
140.0
45.90
3.05
52
3 phase 380-400-415V 50Hz
146.0
46.94
3.11
5,53
15.0~24.0
-5.0~52.0
156.5
49.36
3.17
5,56
15.0~24.0
-5.0~52.0
163.0
50.62
3.22
3,24
3,27
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
67.5
68
50 to 130% of capacity of O.U.
50 to 130% of capacity of O.U.
P15~P250/3~50
P15~P250/3~50
19.05
19.05
41.28
41.28
PUHY-EP350YLM-A1 PUHY-EP450YLM-A1 PUHY-EP450YLM-A1 PUHY-EP400YLM-A1 PUHY-EP450YLM-A1 PUHY-EP450YLM-A1
200
370
370
320
370
370
1710x1220x740 1710x1750x740 1710x1750x740 1710x1750x740 1710x1750x740 1710x1750x740
252
318
318
318
318
318
10.3
11.8
11.8
11.8
11.8
11.8
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
*4 Values calculated according to EN14825 for AVERAGE (STRASBOURG) area.
5
* Value calculated according to EUROVENT formula.
*1
*2
*3
78
Series
Y Seasonal triple
Y
SEASONAL
TRIPLE
E.T.C.
CONTINUOUS
HEATING
FLAT TUBE
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
External diameter of
refrigerant connectors
Model
PUHY-EP1350YSLM-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEE*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
54
3 phase 380-400-415V 50Hz
150
50.0
3.00
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
°C
°C
kW
kW
Indoor DB
Outdoor WB
°C
°C
dB(A)
Total capacity
Model/Quantity
Liquid
Gas
mm
mm
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
m3/min
mm
kg
kg
5,52
15.0~24.0
-5.0~52.0
168.0
54.36
3.09
PUHY-EP450YLM-A1
370
1710x1750x740
318
11.8
3,22
15.0~27.0
-20.0~15.5
68
50 to 130% of capacity of O.U.
P15~P250/3~50
19.05
41.28
PUHY-EP450YLM-A1
370
1710x1750x740
318
11.8
PUHY-EP450YLM-A1
370
1710x1750x740
318
11.8
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
*4 Values calculated according to EN14825 for AVERAGE (STRASBOURG) area.
5
* Value calculated according to EUROVENT formula.
*1
*2
*3
79
OUTDOOR UNITS
PUHY-EP YSLM-A1 OUTDOOR UNITS
OPTIMIZED FOR SEASONAL PERFORMANCE
SERIES
Series
R2 Nominal single
PURY-P YLM-A1 OUTDOOR UNITS
OPTIMISED FOR NOMINAL PERFORMANCE
SERIES
R2
NOMINAL
SINGLE
E.T.C.
CONTINUOUS
HEATING
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PURY-P200YLM-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
°C
°C
kW
kW
°C
°C
dB(A)
mm
mm
m3/min
mm
kg
kg
PURY-P250YLM-A1(-BS)
8
10
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
22.4
28.0
5.29
6.98
4.23
4.01
15.0~24.0
15.0~24.0
-5.0~46.0
-5.0~46.0
25.0
31.5
5.49
7.32
4.55
4.30
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
59
60
50 to 150% of capacity of O.U.
50 to 150% of capacity of O.U.
P15~P250/1~20
P15~P250/1~25
15.88
19.05
19.05
22.2
185
185
1710x920x740
1710x920x740
205
205
9.5
9.5
PURY-P300YLM-A1(-BS)
PURY-P350YLM-A1(-BS)
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of High pressure
refrigerant connectors Low pressure
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
12
14
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
33.5
40.0
9.10
11.76
3.68
3.40
°C
°C
kW
kW
15.0~24.0
15.0~24.0
-5.0~46.0
-5.0~46.0
4.00
3.88
°C
°C
dB(A)
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
mm
mm
m3/min
mm
kg
kg
37.5
45.0
9.37
11.59
62.5
62.5
50 to 150% of capacity of O.U.
50 to 150% of capacity of O.U.
P15~P250/1~30
P15~P250/1~35
19.05
19.05
22.2
28.58
230
230
1710 x 1220 x 740
1710 x 1220 x 740
248
248
10.3
10.3
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
80
Series
R2 Nominal double
E.T.C.
R2
NOMINAL
DOUBLE
CONTINUOUS
HEATING
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PURY-P400YSLM-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
PURY-P450YSLM-A1(-BS)
16
18
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
45.0
50.0
10.97
12.50
4.10
4.00
°C
°C
kW
kW
15.0~24.0
15.0~24.0
-5.0~46.0
-5.0~46.0
4.55
4.43
°C
°C
dB(A)
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
56.0
10.98
12.64
62
62.5
50 to 150% of capacity of O.U.
50 to 150% of capacity of O.U.
P15~P250/1~40
P15~P250/1~45
mm
mm
m3/min
mm
kg
kg
50.0
22.2
22.2
28.58
28.58
PURY-P200YLM-A1
PURY-P200YLM-A1
PURY-P200YLM-A1
185
185
185
PURY-P250YLM-A1
185
1710x920x740
1710x920x740
1710x920x740
1710x920x740
205
205
205
205
9.5
9.5
9.5
9.5
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PURY-P500YSLM-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
PURY-P550YSLM-A1(-BS)
20
22
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
56.0
63.0
14.39
16.89
3.89
3.73
°C
°C
kW
kW
15.0~24.0
15.0~24.0
-5.0~46.0
-5.0~46.0
4.30
4.15
°C
°C
dB(A)
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
69.0
14.65
16.62
63
64.5
50 to 150% of capacity of O.U.
50 to 150% of capacity of O.U.
P15~P250/1~50
P15~P250/2~50
22.2
28.58
mm
mm
m3/min
mm
kg
kg
63.0
28.58
28.58
PURY-P250YLM-A1
PURY-P250YLM-A1
PURY-P250YLM-A1
185
185
185
PURY-P300YLM-A1
230
1710x920x740
1710x920x740
1710x920x740
1710x1220x740
205
205
205
248
9.5
9.5
9.5
10.3
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
81
OUTDOOR UNITS
PURY-P YSLM-A1 OUTDOOR UNITS
OPTIMISED FOR NOMINAL PERFORMANCE
SERIES
Series
R2 Nominal double
PURY-P YSLM-A1 OUTDOOR UNITS
OPTIMISED FOR NOMINAL PERFORMANCE
E.T.C.
SERIES
R2
NOMINAL
DOUBLE
CONTINUOUS
HEATING
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PURY-P600YSLM-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
PURY-P650YSLM-A1(-BS)
24
26
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
69.0
73.0
19.32
21.28
3.57
3.43
°C
°C
kW
kW
15.0~24.0
15.0~24.0
-5.0~46.0
-5.0~46.0
4.00
3.94
°C
°C
dB(A)
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
81.5
19.12
20.68
65.5
65.5
50 to 150% of capacity of O.U.
50 to 150% of capacity of O.U.
P15~P250/2~50
P15~P250/2~50
28.58
28.58
mm
mm
m3/min
mm
kg
kg
76.5
28.58
28.58
PURY-P300YLM-A1
PURY-P300YLM-A1
PURY-P300YLM-A1
230
230
230
PURY-P350YLM-A1
230
1710x1220x740
1710x1220x740
1710x1220x740
1710x1220x740
248
248
248
248
10.3
10.3
10.3
10.3
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PURY-P700YSLM-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
28
30
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
80.0
85.0
24.24
26.23
3.30
3.24
°C
°C
kW
kW
15.0~24.0
15.0~24.0
-5.0~46.0
-5.0~46.0
3.88
3.91
°C
°C
dB(A)
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
90.0
22.68
23.01
65.5
65.5
50 to 150% of capacity of O.U.
50 to 150% of capacity of O.U.
P15~P250/2~50
P15~P250/2~50
28.58
28.58
mm
mm
m3/min
mm
kg
kg
88.0
34.93
34.93
PURY-P350YLM-A1
PURY-P350YLM-A1
PURY-P350YLM-A1
230
230
230
230
1710x1220x740
1710x1220x740
1710x1220x740
1710x1220x740
PURY-P400YLM-A1
248
248
248
246
10.3
10.3
10.3
10.3
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
82
PURY-P750YSLM-A1(-BS)
Series
R2 Nominal double
E.T.C.
R2
NOMINAL
DOUBLE
CONTINUOUS
HEATING
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PURY-P800YSLM-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
32
34
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
°C
°C
kW
kW
°C
°C
dB(A)
90.0
96.0
28.30
29.26
3.18
3.28
15.0~24.0
15.0~24.0
-5.0~46.0
-5.0~46.0
90.0
101.0
22.84
26.23
3.94
3.85
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
65.5
65.5
50 to 150% of capacity of O.U.
50 to 150% of capacity of O.U.
P15~P250/2~50
P15~P250/2~50
28.58
28.58
mm
mm
m3/min
mm
kg
kg
PURY-P850YSLM-A1(-BS)
34.93
41.28
PURY-P400YLM-A1
PURY-P400YLM-A1
PURY-P400YLM-A1
230
230
230
PURY-P450YLM-A1
320
1710x1220x740
1710x1220x740
1710x1220x740
1710x1750x740
246
246
246
321
10.3
10.3
10.3
11.8
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PURY-P900YSLM-A1(-BS)
36
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
3 phase 380-400-415V 50Hz
101.0
29.79
3.39
Indoor WB
Outdoor DB
°C
°C
kW
kW
15.0~24.0
°C
°C
dB(A)
15.0~27.0
-5.0~46.0
113.0
30.13
3.75
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
-20.0~15.5
65.5
50 to 150% of capacity of O.U.
P15~P250/2~50
mm
mm
28.58
41.28
PURY-P450YLM-A1
m3/min
mm
kg
kg
PURY-P450YLM-A1
320
320
1710x1750x740
1710x1750x740
321
321
11.8
11.8
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
*3 Values measured in anechoic chamber.
83
OUTDOOR UNITS
PURY-P YSLM-A1 OUTDOOR UNITS
OPTIMISED FOR NOMINAL PERFORMANCE
SERIES
Series
R2 Seasonal single
PURY-EP YLM-A1 OUTDOOR UNITS
OPTIMIZED FOR SEASONAL PERFORMANCE
SERIES
R2
SEASONAL
SINGLE
CONTINUOUS
HEATING
E.T.C.
FLAT TUBE
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PURY-EP200YLM-A1(-BS) PURY-EP250YLM-A1(-BS) PURY-EP300YLM-A1(-BS)
8
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEER*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
°C
°C
kW
kW
°C
°C
dB(A)
mm
mm
m3/min
mm
kg
kg
10
12
3 phase 380-400-415V 50Hz
22.4
28.0
33.5
5.48
7.25
9.20
4.08
3.86
3.64
6.52
6.24
5.66
7.16
7.06
5.52
15.0~24.0°C
15.0~24.0°C
15.0~24.0°C
-5.0~46.0°C
-5.0~46.0°C
-5.0~46.0°C
25.0
31.5
37.5
6.41
8.45
9.97
3.90
3.72
3.76
3.91
3.60
3.52
15.0~27.0°C
15.0~27.0°C
15.0~27.0°C
-20.0~15.5°C
-20.0~15.5°C
-20.0~15.5°C
59
60
62.5
50 to 150% of capacity of O.U.
50 to 150% of capacity of O.U.
50 to 150% of capacity of O.U.
P15~P250/1~20
P15~P250/1~25
P15~P250/1~30
15.88
19.05
19.05
19.05
22.2
22.2
185
185
230
1710x920x740
1710x920x740
1710x1220x740
218
218
260
8.5
8.5
9.3
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEER*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
V/Hz/n°
kW
kW
Indoor DB
Outdoor WB
Indoor WB
Outdoor DB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
°C
°C
kW
kW
°C
°C
dB(A)
mm
mm
m3/min
mm
kg
kg
PURY-EP350YLM-A1(-BS)
PURY-EP400YLM-A1(-BS)
14
16
3 phase 380-400-415V 50Hz
40.0
45.0
12.57
12.56
3.18
3.58
5.47
5.41
5.22
5.54
15.0~24.0°C
15.0~24.0°C
-5.0~46.0°C
-5.0~46.0°C
45
50.0
12.93
13.40
3.48
3.73
3.25
3.40
15.0~27.0°C
15.0~27.0°C
-20.0~15.5°C
-20.0~15.5°C
62.5
62.5
50 to 150% of capacity of O.U.
50 to 150% of capacity of O.U.
P15~P250/1~35
P15~P250/1~40
19.05
22.2
28.58
28.58
230
320
1710x1220x740
1710x1750x740
260
338
9.3
11.8
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
*4 Values calculated according to EN14825 for AVERAGE (STRASBOURG) area.
5
* Value calculated according to EUROVENT formula.
*1
*2
*3
84
Series
R2 Seasonal single
E.T.C.
R2
SEASONAL
SINGLE
CONTINUOUS
HEATING
FLAT TUBE
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEER*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
°C
°C
kW
kW
°C
°C
dB(A)
mm
mm
m3/min
mm
kg
kg
PURY-EP450YLM-A1(-BS)
PURY-EP500YLM-A1(-BS)
18
20
3 phase 380-400-415V 50Hz
50.0
56.0
14.83
18.30
3.37
3.06
5.26
5.19
5.27
5.34
15.0~24.0°C
15.0~24.0°C
-5.0~46.0°C
-5.0~46.0°C
56.0
63.0
15.86
19.54
3.53
3.22
3.18
3.04
15.0~27.0°C
15.0~27.0°C
-20.0~15.5°C
-20.0~15.5°C
62.5
63.5
50 to 150% of capacity of O.U.
50 to 150% of capacity of O.U.
P15~P250/1~45
P15~P250/1~50
22.2
22.2
28.58
28.58
320
380
1710x1750x740
1710x1750x740
338
351
11.8
11.8
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
*4 Values calculated according to EN14825 for AVERAGE (STRASBOURG) area.
5
* Value calculated according to EUROVENT formula.
*1
*2
*3
85
OUTDOOR UNITS
PURY-EP YLM-A1 OUTDOOR UNITS
OPTIMIZED FOR SEASONAL PERFORMANCE
SERIES
Series
R2 Seasonal double
PURY-EP YSLM-A1 OUTDOOR UNITS
OPTIMIZED FOR SEASONAL PERFORMANCE
E.T.C.
CONTINUOUS
HEATING
SERIES
R2
SEASONAL
DOUBLE
FLAT TUBE
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEER*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
Heating
Sound pressure
Connectable
indoor units
External diameter of
refrigerant connectors
Model
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
°C
°C
kW
kW
Indoor DB
Outdoor WB
°C
°C
dB(A)
*3
Total capacity
Model/Quantity
Liquid
Gas
mm
mm
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
m3/min
mm
kg
kg
PURY-EP550YSLM-A1(-BS)
PURY-EP600YSLM-A1(-BS)
22
3 phase 380-400-415V 50Hz
63.0
17.35
3.63
5.79
5.58
15.0~24.0°C
-5.0~46.0°C
69.0
18.44
3.74
3.56
15.0~27.0°C
-20.0~15.5°C
64.5
50 to 150% of capacity of O.U.
P15~P250/2~50
28.58
28.58
PURY-EP250YLM-A1
PURY-EP300YLM-A1
185
230
1710x920x740
1710x1220x740
218
260
8.5
9.3
24
3 phase 380-400-415V 50Hz
69.0
19.54
3.53
5.51
4.95
15.0~24.0°C
-5.0~46.0°C
76.5
20.34
3.76
3.52
15.0~27.0°C
-20.0~15.5°C
65.5
50 to 150% of capacity of O.U.
P15~P250/2~50
28.58
28.58
PURY-EP300YLM-A1
PURY-EP300YLM-A1
230
230
1710x1220x740
1710x1220x740
260
260
9.3
9.3
PURY-EP650YSLM-A1(-BS)
PURY-EP700YSLM-A1(-BS)
26
3 phase 380-400-415V 50Hz
73.0
22.12
3.30
5.41
4.92
15.0~24.0°C
-5.0~46.0°C
81.5
22.51
3.62
3.39
15.0~27.0°C
-20.0~15.5°C
65.5
50 to 150% of capacity of O.U.
P15~P250/2~50
28.58
28.58
PURY-EP300YLM-A1
PURY-EP350YLM-A1
230
230
1710x1220x740
1710x1220x740
260
260
9.3
9.3
28
3 phase 380-400-415V 50Hz
80.0
25.97
3.08
5.32
5.01
15.0~24.0°C
-5.0~46.0°C
88.0
25.28
3.48
3.25
15.0~27.0°C
-20.0~15.5°C
65.5
50 to 150% of capacity of O.U.
P15~P250/2~50
28.58
34.93
PURY-EP350YLM-A1
PURY-EP350YLM-A1
230
230
1710x1220x740
1710x1220x740
260
260
9.3
9.3
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
External diameter of
refrigerant connectors
Model
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEER*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
°C
°C
kW
kW
Indoor DB
Outdoor WB
°C
°C
dB(A)
Total capacity
Model/Quantity
Liquid
Gas
mm
mm
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
m3/min
mm
kg
kg
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
*4 Values calculated according to EN14825 for AVERAGE (STRASBOURG) area.
5
* Value calculated according to EUROVENT formula.
*1
*2
*3
86
Series
R2 Seasonal double
R2
SEASONAL
DOUBLE
CONTINUOUS
HEATING
E.T.C.
FLAT TUBE
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PURY-EP750YSLM-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEER*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
30
32
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
°C
°C
kW
kW
°C
°C
dB(A)
85.0
90.0
25.99
25.93
3.27
3.47
5.29
5.26
5.16
5.32
15.0~24.0°C
15.0~24.0°C
-5.0~46.0°C
-5.0~46.0°C
95.0
100.0
26.38
26.80
3.60
3.33
3.73
3.40
15.0~27.0°C
15.0~27.0°C
-20.0~15.5°C
-20.0~15.5°C
65.5
65.5
50 to 150% of capacity of O.U.
50 to 150% of capacity of O.U.
P15~P250/2~50
P15~P250/2~50
28.58
28.58
mm
mm
m3/min
mm
kg
kg
PURY-EP800YSLM-A1(-BS)
34.93
34.93
PURY-EP350YLM-A1
PURY-EP400YLM-A1
PURY-EP400YLM-A1
230
320
320
PURY-EP400YLM-A1
320
1710x1220x740
1710x1750x740
1710x1750x740
1710x1750x740
260
338
338
338
9.3
11.8
11.8
11.8
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
*4 Values calculated according to EN14825 for AVERAGE (STRASBOURG) area.
5
* Value calculated according to EUROVENT formula.
*1
*2
*3
87
OUTDOOR UNITS
PURY-EP YSLM-A1 OUTDOOR UNITS
OPTIMIZED FOR SEASONAL PERFORMANCE
SERIES
Series
R2 Seasonal double
PURY-EP YSLM-A1 OUTDOOR UNITS
OPTIMIZED FOR SEASONAL PERFORMANCE
SERIES
R2
SEASONAL
DOUBLE
CONTINUOUS
HEATING
E.T.C.
FLAT TUBE
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PURY-EP850YSLM-A1(-BS)
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
SEER*4
ESEER*5
Operating temperature
range
Nominal capacity*2
Power absorption
COP
SCOP*4
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
34
36
3 phase 380-400-415V 50Hz
3 phase 380-400-415V 50Hz
°C
°C
kW
kW
°C
°C
dB(A)
96.0
101.0
28.48
30.98
3.37
3.26
5.19
5.12
5.17
5.17
15.0~24.0°C
15.0~24.0°C
-5.0~46.0°C
-5.0~46.0°C
108.0
113.0
29.75
32.01
3.63
3.53
3.29
3.18
15.0~27.0°C
15.0~27.0°C
-20.0~15.5°C
-20.0~15.5°C
65.5
65.5
50 to 150% of capacity of O.U.
50 to 150% of capacity of O.U.
P15~P250/2~50
P15~P250/2~50
28.58
28.58
mm
mm
m3/min
mm
kg
kg
41.28
41.28
PURY-EP400YLM-A1
PURY-EP450YLM-A1
PURY-EP450YLM-A1
320
320
320
320
1710x1750x740
1710x1750x740
1710x1750x740
1710x1750x740
*2
*3
88
PURY-EP450YLM-A1
338
338
338
338
11.8
11.8
11.8
11.8
Nominal cooling conditions: Indoor: 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
*4 Values calculated according to EN14825 for AVERAGE (STRASBOURG) area.
5
* Value calculated according to EUROVENT formula.
*1
PURY-EP900YSLM-A1(-BS)
OUTDOOR UNITS
Y Zubadan
Heat pump outdoor units
Y ZUBADAN Series
CITY MULTI ZUBADAN series combines the ultimate in application
flexibility and powerful cooling and heating capabilities to deliver
precise comfort even in the coldest days of the year down
to -25°C. The technology behind this is a Flash Injection circuit
which provides optimum amount of refrigerant to the system
via a compressor through a specially designed injection port to
ensure a particularly stable operation. With this, ZUBADAN can
provide a full heating performance even at -15°C and continuous
heating for up to 250 minutes in one continuous cycle, ensuring a
phenomenal heating performance at low temperatures.
Stable Heating Performance even at -15°C
Using an industry first “Flash-injection Circuit”, the ZUBADAN
System is able to provide FULL heating performance in ambient
temperatures as low as -15°C.
Full heating capacity even at -15°C
(kW)
PUHY-HP400 YSHM-A
45
TI
MUL
CITI SHM-A
dard
0Y
Stan -HP40
Y
PUH
28
PUHY-HP250 YHM
-A
ULTI
ITI M
ard C
HM-A
Stand P250 Y
Y-H
PUH
0 -25
-20
-15
-10
-5
Capacity improvement
ement
by about 40%
0
3
Outdoor temp. °C (W.B.)
Expanded Heating Operation down to -25°C
Furthermore, from a previous LOWEST operating ambient
temperature of -20°C, the ZUBADAN System pushes the
boundaries of technology to give heating in ambient temperatures
as low as -25°C.
Expanded
to -25°C
Y standard System
PUHY-P YHM
-20°C
-25°C
-25°C
Outdoor temperature
Y ZUBADAN System
15,5°C
Outdoor temperat
ure
-20°C
15,5°C
YHM Series
-10°C
0°C
10°C
20°C
Outdoor temp. °C (W.B.)
89
Y Zubadan
Heat pump outdoor units
Shorter Warm-up in about 20 Min.
With its new improved startup performance, the ZUBADAN
system achieves full heating capacity even when outdoor
temperature is as low as -15°C. Heating capacity, about
20 minutes after startup is improved by 40% compared to
the conventional model; ensuring occupants an immediate
comfortable air solution.
EVEN AT -15°C,IT REACHES THE RATED HEATING CAPACITY IN ABOUT
20 MINUTES
ZUBADAN System
(kW)
31.5
Stability
Capacity
improvement
by about 40%
19
Conventional CITY MULTI
PUHY-P YJM
0
0
10HP when the outdoor
temperature is -15°C
20
Time (minutes)
Heating capacity
Flash Injection Circuit
One of the key factors of the units newly designed Flash Injection
Circuit is that the optimal amount of refrigerant can be provided
to the system via the compressor through a specially designed
injection port to ensure a particularly stable operation. In simple
terms, the system allows a quick startup time and continuous
heating; even in low ambient conditions.
Flash Injection Circuit
Outdoor unit
Indoor
unit
J Compressor
B
A
(confluence)
H
Accumulator
HIC
G
E' D
F
I
LEV 2
C
C
Indoor
LEV
E
LEV 1
REFRIGERANT IS BYPASSED FROM INJECTION PORT
TO THE COMPRESSOR
Constant Comfort
With its new highly effective defrost feature (which prevents automatic defrosting when it is not required), the ZUBADAN System can deliver
conditioned heating operation up to 250 minutes in one continuous cycle!
HEATING CAPACITY IS MAINTAINED BY THE FLASH-INJECTION CIRCUIT.
Heating efficiency improved by HIC
C
Discharged Pressure
Middle pressure
F
Injection pressure
Suction pressure
G
Indoor LEV
E D
E'
LEV 1
J
I
LEV 2
B
Discharged pressure is maintained at high level.
A
H
Secures sufficient refrigerant by Flash-injection circuit.
PRESSURE ENTHALPY DIAGRAM SHOWING HIC
90
Series
Y Zubadan
SERIES
PUHY-HP YHM-A/YSHM-A OUTDOOR UNIT
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
PUHY-HP200YHM-A(-BS)
PUHY-HP250YHM-A(-BS)
8
10
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable indoor Total capacity
units
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
3 phase 380-400-415V 50Hz
°C
°C
kW
kW
°C
°C
dB(A)
22.4
28.0
6.40
9.06
3.50
3.09
15.0~24.0
15.0~24.0
-5.0~43.0
-5.0~43.0
25.0
31.5
6.52
8.94
3.83
3.52
15.0~27.0
15.0~27.0
-25.0~15.5
-25.0~15.5
56
57
50 to 130% of capacity of O.U.
mm
mm
m3/min
mm
kg
kg
P15~P250 / 1~17
P15~P250 / 1~21
12.7
12.7
19.05
22.2
225
225
1710x920x760*
1710x920x760*
220
220
9.0
9.0
PUHY-HP400YSHM-A(-BS)
PUHY-HP500YSHM-A(-BS)
16
20
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating temperature
range
Nominal capacity*2
Power absorption
COP
Operating temperature
range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable indoor Total capacity
units
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Model
Fan air flow rate
External dimensions (HxLxW)
Net weight
Liquid
External diameter
of refrigerant connectors
Gas
R410A refrigerant charge quantity
*
*1
*2
*3
3 phase 380-400-415V 50Hz
45.0
56.0
12.86
18.16
3.49
3.08
°C
°C
kW
kW
15.0~24.0
15.0~24.0
-5.0~43.0
-5.0~43.0
3.74
3.49
°C
°C
dB(A)
15.0~27.0
15.0~27.0
-25.0~15.5
-25.0~15.5
50.0
63.0
13.35
18.04
59
60
50 to 130% of capacity of O.U.
P15~P250 / 1~34
P15~P250 / 1~43
15.88
15.88
mm
mm
m3/min
mm
kg
mm
mm
kg
28.58
28.58
PUHY-HP200YHM-A
PUHY-HP200YHM-A
PUHY-HP250YHM-A
225
225
225
PUHY-HP250YHM-A
225
1710x920x760*
1710x920x760*
1710x920x760*
1710x920x760*
220
220
220
220
9.52
9.52
9.52
9.52
19.05
19.05
22.2
22.2
9.0
9.0
9.0
9.0
Without removable support feet, A=1650 mm.
Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
91
OUTDOOR UNITS
Y
ZUBADAN
WY and WR2 water source
outdoor units
Advantages
SERIES
WY
WR2
Geothermal applications
WY and WR2 series VRF CITY MULTI systems have all the
benefits of the Y series, using water evaporation condensing
units. Water heat source condensing units offer the advantage of
being installable inside the building, for even greater installation
flexibility with practically no limitations for the dimensions of the
infrastructure. Depending on the capacity of the outdoor unit,
up to 26 indoor units can be connected to a single condensing
unit, while up to 50 indoor units can be connected to a modular
system with individual user and/or centralised control. The twopipe system allows the system to transition from heating to cooling
mode and vice versa, for superior comfort in all zones.
WY and WR2 series outdoor units are perfectly suited for
geothermal applications as they use water as the thermal medium
fluid which, at depths from 10 m below ground, maintains a
practically constant temperature with no significant excursions all
year round.
A geothermal installation uses the ground as a heat source in
winter and as a heat sink in summer. Using geothermal probes
(heat exchangers) together with VRF CITY MULTI WY and WR2
systems, heat may be extracted from the ground to warm in
winter, and dissipated into the ground to cool in summer.
GEOTHERMAL SYSTEM COMBINED WITH VRF CITY MULTI WY WATER SOURCE SYSTEM
Water evaporation/
condensation VRF
outdoor units
Thermal Store
ATW Hydronic
Module
Environmentally
friendly R410A refrigerant gas
Radiator units heated by ATW hydronic modules
VRF system indoor unit
VRF system indoor unit
Domestic hot water produced by HWS hydronic modules
Underfloor heating
92
SERIES
Series
WY Single
SERIES
SINGLE
PQHY-P YHM-A OUTDOOR UNIT
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PQHY-P200YHM-A
PQHY-P250YHM-A
PQHY-P300YHM-A
10
12
8
Voltage/Freq./Phases
Nominal capacity*2
Power absorption
EER
Operating temperature
range*3
Nominal capacity*2
Power absorption
COP
Operating temperature
range*3
V/Hz/n°
kW
kW
Indoor WB
°C
Circulating water °C
kW
kW
Indoor DB
°C
Circulating water °C
dB(A)
Sound pressure*4
Connectable indoor Total capacity
units
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Range
Water in circuit
Pressure drop
Volume in heat exchanger
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
3 phase 380-400-415V 50Hz
22.4
28.0
33.5
3.92
5.45
7.36
5.71
5.13
4.55
15.0~24.0
15.0~24.0
15.0~24.0
10.0~45.0
10.0~45.0
10.0~45.0
25.0
31.5
37.5
4.12
5.80
8.15
6.06
5.43
4.60
15.0~27.0
15.0~27.0
15.0~27.0
10.0~45.0
10.0~45.0
10.0~45.0
47
49
50
50 to 130% of capacity of O.U.
mm
mm
m3/h
kPa
l
mm
kg
kg
P15~P250 / 1~17
P15~P250 / 1~21
P15~P250 / 1~26
9.52
9.52
9.52
19.05
22.2
22.2
5.76
5.76
5.76
17
17
17
5.0
5.0
5.0
1160x880x550*
1160x880x550*
1160x880x550*
195
195
195
5.0
5.0
5.0
*
*1
*2
*3
Without removable support feet, A=1100 mm.
Nominal cooling conditions: Indoor 27°C DB / 19°C WB, Water temperature 30°C. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB, Water temperature 20°C. Piping length 7.5 m, vertical difference 0 m.
For geothermal applications, specific software is required (contact head office) to extend the operating temperature range:
Cooling: Indoor 15°C WB to 24°C WB – Water in circuit: -5°C to 45°C.
Heating: Indoor 15°C WB to 27°C WB – Water in circuit: -5°C to 45°C.
*4 Values measured in anechoic chamber.
93
OUTDOOR UNITS
WY
Series
WY Double
SERIES
WY
DOUBLE
PQHY-P YSHM-A OUTDOOR UNIT
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PQHY-P400YSHM-A
PQHY-P450YSHM-A
16
Voltage/Freq./Phases
Nominal capacity*2
Power absorption
EER
Operating temperature
range*3
Nominal capacity*2
Power absorption
COP
Operating temperature
range*3
V/Hz/n°
kW
kW
18
3 phase 380-400-415V 50Hz
45.0
50.0
8.25
9.84
5.45
5.08
Indoor WB
°C
Circulating water °C
kW
kW
15.0~24.0
15.0~24.0
10.0~45.0
10.0~45.0
5.78
5.37
Indoor DB
°C
Circulating water °C
dB(A)
15.0~27.0
15.0~27.0
10.0~45.0
10.0~45.0
Sound pressure*4
Connectable indoor Total capacity
units
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Range
Water in circuit
Pressure drop
Volume in heat exchanger
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
External diameter of
Liquid
refrigerant connectors
Gas
R410A refrigerant charge quantity
50.0
56.0
8.65
10.42
50
51
50 to 130% of capacity of O.U.
mm
mm
m3/h
kPa
l
mm
kg
kg
mm
mm
kg
P15~P250 / 1~34
P15~P250 / 1~39
12.7
15.88
28.58
28.58
PQHY-P200YHM-A
PQHY-P200YHM-A
PQHY-P250YHM-A
PQHY-P200YHM-A
5.76
5.76
5.76
5.76
17
17
17
17
5.0
5.0
5.0
5.0
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
195
195
195
195
9.52
9.52
9.52
9.52
19.05
19.05
22.2
22.2
5.0
5.0
5.0
5.0
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Voltage/Freq./Phases
Nominal capacity*2
Power absorption
EER
Operating temperature
range*3
Nominal capacity*2
Power absorption
COP
Operating temperature
range*3
PQHY-P500YSHM-A
PQHY-P550YSHM-A
PQHY-P600YSHM-A
20
22
24
V/Hz/n°
kW
kW
3 phase 380-400-415V 50Hz
63.0
69.0
13.46
15.48
4.89
4.68
4.45
Indoor WB
°C
Circulating water °C
kW
kW
15.0~24.0
15.0~24.0
15.0~24.0
10.0~45.0
10.0~45.0
10.0~45.0
63.0
69.0
76.5
12.06
14.65
17.12
5.22
4.70
4.46
Indoor DB
°C
Circulating water °C
dB(A)
15.0~27.0
15.0~27.0
15.0~27.0
10.0~45.0
10.0~45.0
10.0~45.0
52
52.5
53
Sound pressure*4
Connectable indoor Total capacity
units
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Range
Water in circuit
Pressure drop
Volume in heat exchanger
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
External diameter of
Liquid
refrigerant connectors
Gas
R410A refrigerant charge quantity
50 to 130% of capacity of O.U.
mm
mm
m3/h
kPa
l
mm
kg
kg
mm
mm
kg
P15~P250 / 1~43
P15~P250 / 2~47
P15~P250 / 2~50
15.88
15.88
15.88
28.58
28.58
28.58
PQHY-P250YHM-A
PQHY-P250YHM-A
PQHY-P300YHM-A
PQHY-P250YHM-A
PQHY-P300YHM-A
PQHY-P300YHM-A
5.76
5.76
5.76
5.76
5.76
5.76
17
17
17
17
17
17
5.0
5.0
5.0
5.0
5.0
5.0
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
195
195
195
195
195
195
9.52
9.52
12.7
12.7
12.7
12.7
22.2
22.2
22.2
22.2
22.2
22.2
5.0
5.0
5.0
5.0
5.0
5.0
* Without removable support feet, A=1100 mm.
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB, Water temperature 30°C. Piping
length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB, Water temperature 20°C. Piping length 7.5 m,
vertical difference 0 m.
94
56.0
11.45
*3 For geothermal applications, specific software is required (contact head office) to extend the
operating temperature range:
Cooling: Indoor 15°C WB to 24°C WB – Water in circuit: -5°C to 45°C.
Heating: Indoor 15°C WB to 27°C WB – Water in circuit: -5°C to 45°C.
*4 Values measured in anechoic chamber.
Series
WY Triple
SERIES
TRIPLE
PQHY-P YSHM-A OUTDOOR UNIT
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PQHY-P650YSHM-A
PQHY-P700YSHM-A
26
Voltage/Freq./Phases
Nominal capacity*2
Power absorption
EER
Operating temperature
range*3
Nominal capacity*2
Power absorption
COP
Operating temperature
range*3
V/Hz/n°
kW
kW
28
3 phase 380-400-415V 50Hz
73.0
80.0
13.96
15.58
5.22
5.13
Indoor WB
°C
Circulating water °C
kW
kW
15.0~24.0
15.0~24.0
10.0~45.0
10.0~45.0
5.52
5.33
Indoor DB
°C
Circulating water °C
dB(A)
15.0~27.0
15.0~27.0
10.0~45.0
10.0~45.0
Sound pressure*4
Connectable indoor Total capacity
units
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Range
Water in circuit
Pressure drop
Volume in heat exchanger
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
External diameter of
Liquid
refrigerant connectors
Gas
R410A refrigerant charge quantity
81.5
88.0
14.74
16.51
53
53.5
50 to 130% of capacity of O.U.
mm
mm
m3/h
kPa
l
mm
kg
kg
mm
mm
kg
P15~P250 / 2~50
P15~P250 / 2~50
19.05
19.05
34.93
34.93
PQHY-P250YHM-A
PQHY-P200YJM-A
PQHY-P200YJM-A
PQHY-P250YHM-A
PQHY-P250YJM-A
PQHY-P200YJM-A
5.76
5.76
5.76
5.76
5.76
5.76
17
17
17
17
17
17
5.0
5.0
5.0
5.0
5.0
5.0
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
195
195
195
195
195
195
12.7
12.7
12.7
12.7
12.7
12.7
22.2
19.05
19.05
22.2
22.2
19.05
5.0
5.0
5.0
5.0
5.0
5.0
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PQHY-P750YSHM-A
PQHY-P800YSHM-A
30
Voltage/Freq./Phases
Nominal capacity*2
Power absorption
EER
Operating temperature
range*3
Nominal capacity*2
Power absorption
COP
Operating temperature
range*3
V/Hz/n°
kW
kW
Indoor WB
°C
Circulating water °C
kW
kW
Indoor DB
°C
Circulating water °C
dB(A)
Sound pressure*4
Connectable indoor Total capacity
units
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Range
Water in circuit
Pressure drop
Volume in heat exchanger
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
External diameter of
Liquid
refrigerant connectors
Gas
R410A refrigerant charge quantity
32
3 phase 380-400-415V 50Hz
85.0
90.0
17.19
19.18
4.94
4.69
15.0~24.0
15.0~24.0
10.0~45.0
10.0~45.0
95.0
100.0
18.27
20.74
5.19
4.82
15.0~27.0
15.0~27.0
10.0~45.0
10.0~45.0
54
54
50 to 130% of capacity of O.U.
mm
mm
m3/h
kPa
l
mm
kg
kg
mm
mm
kg
P15~P250 / 2~50
P15~P250 / 2~50
19.05
19.05
34.93
34.93
PQHY-P250YHM-A
PQHY-P250YJM-A
PQHY-P250YJM-A
PQHY-P300YHM-A
PQHY-P250YJM-A
PQHY-P250YJM-A
5.76
5.76
5.76
5.76
5.76
5.76
17
17
17
17
17
17
5.0
5.0
5.0
5.0
5.0
5.0
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
195
195
195
195
195
195
12.7
12.7
12.7
12.7
12.7
12.7
22.2
22.2
22.2
22.2
22.2
22.2
5.0
5.0
5.0
5.0
5.0
5.0
* Without removable support feet, A=1100 mm.
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB, Water temperature 30°C. Piping
length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB, Water temperature 20°C. Piping length 7.5 m,
vertical difference 0 m.
*3 For geothermal applications, specific software is required (contact head office) to extend the
operating temperature range:
Cooling: Indoor 15°C WB to 24°C WB – Water in circuit: -5°C to 45°C.
Heating: Indoor 15°C WB to 27°C WB – Water in circuit: -5°C to 45°C.
*4 Values measured in anechoic chamber.
95
OUTDOOR UNITS
WY
Series
WY Triple
SERIES
WY
TRIPLE
PQHY-P YSHM-A OUTDOOR UNIT
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PQHY-P850YSHM-A
34
Voltage/Freq./Phases
Nominal capacity*2
Power absorption
EER
Operating temperature
range*3
Nominal capacity*2
Power absorption
COP
Operating temperature
range*3
V/Hz/n°
kW
kW
36
3 phase 380-400-415V 50Hz
Indoor WB
°C
Circulating water °C
kW
kW
Indoor DB
°C
Circulating water °C
dB(A)
Sound pressure*4
Connectable indoor Total capacity
units
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Range
Water in circuit
Pressure drop
Volume in heat exchanger
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
External diameter of
Liquid
refrigerant connectors
Gas
R410A refrigerant charge quantity
*
*1
*2
*3
PQHY-P900YSHM-A
96.0
101.0
21.20
23.22
4.52
4.34
15.0~24.0
15.0~24.0
10.0~45.0
10.0~45.0
108.0
113.0
23.21
25.67
4.65
4.40
15.0~27.0
15.0~27.0
10.0~45.0
10.0~45.0
54.5
55
50 to 130% of capacity of O.U.
mm
mm
m3/h
kPa
l
mm
kg
kg
mm
mm
kg
P15~P250 / 2~50
P15~P250 / 2~50
19.05
19.05
41.28
41.28
PQHY-P300YHM-A
PQHY-P300YJM-A
PQHY-P250YJM-A
PQHY-P300YHM-A
PUHY-EP300YJM-A
PUHY-EP300YJM-A
5.76
5.76
5.76
5.76
5.76
5.76
17
17
17
17
17
17
5.0
5.0
5.0
5.0
5.0
5.0
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
195
195
195
195
195
195
12.7
12.7
12.7
12.7
12.7
12.7
22.2
22.2
22.2
22.2
22.2
22.2
5.0
5.0
5.0
5.0
5.0
5.0
Without removable support feet, A=1100 mm.
Nominal cooling conditions: Indoor 27°C DB / 19°C WB, Water temperature 30°C. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB, Water temperature 20°C. Piping length 7.5 m, vertical difference 0 m.
For geothermal applications, specific software is required (contact head office) to extend the operating temperature range:
Cooling: Indoor 15°C WB to 24°C WB – Water in circuit: -5°C to 45°C.
Heating: Indoor 15°C WB to 27°C WB – Water in circuit: -5°C to 45°C.
4
* Values measured in anechoic chamber.
96
Series
WR2 Single
SERIES
SINGLE
PQRY-P YHM-A OUTDOOR UNIT
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PQRY-P200YHM-A
PQRY-P250YHM-A
PQRY-P300YHM-A
10
12
8
Voltage/Freq./Phases
Nominal capacity*2
Power absorption
EER
Operating temperature
range*3
Nominal capacity*2
Power absorption
COP
Operating temperature
range*3
V/Hz/n°
kW
kW
Indoor WB
°C
Circulating water °C
kW
kW
Indoor DB
°C
Circulating water °C
dB(A)
Sound pressure*4
Connectable indoor Total capacity
units
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Range
Water in circuit
Pressure drop
Volume in heat exchanger
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
3 phase 380-400-415V 50Hz
22.4
28.0
33.5
3.96
5.51
7.44
5.65
5.08
4.50
15.0~24.0
15.0~24.0
15.0~24.0
10.0~45.0
10.0~45.0
10.0~45.0
25.0
31.5
37.5
4.12
5.80
8.15
6.06
5.43
4.60
15.0~27.0
15.0~27.0
15.0~27.0
10.0~45.0
10.0~45.0
10.0~45.0
47
49
50
50 to 150% of capacity of O.U.
mm
mm
m3/h
kPa
l
mm
kg
kg
P15~P250 / 1~20
P15~P250 / 1~25
P15~P250 / 1~30
15.88
19.05
19.05
19.05
22.2
22.2
5.76
5.76
5.76
17
17
17
5.0
5.0
5.0
1160x880x550*
1160x880x550*
1160x880x550*
181
181
181
5.0
5.0
5.0
*
*1
*2
*3
Without removable support feet, A=1100 mm.
Nominal cooling conditions: Indoor 27°C DB / 19°C WB, Water temperature 30°C. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB, Water temperature 20°C. Piping length 7.5 m, vertical difference 0 m.
For geothermal applications, specific software is required (contact head office) to extend the operating temperature range:
Cooling: Indoor 15°C WB to 24°C WB – Water in circuit: -5°C to 45°C.
Heating: Indoor 15°C WB to 27°C WB – Water in circuit: -5°C to 45°C.
*4 Values measured in anechoic chamber.
97
OUTDOOR UNITS
WR2
Series
WR2 Double
SERIES
WR2
DOUBLE
PQRY-P YSHM-A OUTDOOR UNIT
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
PQRY-P400YSHM-A
PQRY-P450YSHM-A
16
Voltage/Freq./Phases
Nominal capacity*2
Power absorption
EER
Operating temperature
range*3
Nominal capacity*2
Power absorption
COP
Operating temperature
range*3
V/Hz/n°
kW
kW
18
3 phase 380-400-415V 50Hz
45.0
50.0
8.32
9.94
5.40
5.03
Indoor WB
°C
Circulating water °C
kW
kW
15.0~24.0
15.0~24.0
10.0~45.0
10.0~45.0
5.78
5.37
Indoor DB
°C
Circulating water °C
dB(A)
15.0~27.0
15.0~27.0
10.0~45.0
10.0~45.0
Sound pressure*4
Connectable indoor Total capacity
units
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Range
Water in circuit
Pressure drop
Volume in heat exchanger
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
External diameter of
Liquid
refrigerant connectors
Gas
R410A refrigerant charge quantity
50.0
56.0
8.65
10.42
50
51
50 to 150% of capacity of O.U.
P15~P250 / 1~40
mm
mm
m3/h
kPa
l
mm
kg
kg
mm
mm
kg
P15~P250 / 1~45
22.2
22.2
28.58
28.58
PQRY-P200YHM-A
PQRY-P200YHM-A
PQRY-P250YHM-A
PQRY-P200YHM-A
5.76
5.76
5.76
5.76
17
17
17
17
5.0
5.0
5.0
5.0
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
181
181
181
181
19.05
19.05
19.05
19.05
-
22.2
-
22.2
5.0
5.0
5.0
5.0
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Voltage/Freq./Phases
Nominal capacity*2
Power absorption
EER
Operating temperature
range*3
Nominal capacity*2
Power absorption
COP
Operating temperature
range*3
PQRY-P500YSHM-A
PQRY-P550YSHM-A
PQRY-P600YSHM-A
20
22
24
V/Hz/n°
kW
kW
3 phase 380-400-415V 50Hz
63.0
69.0
13.60
15.62
4.84
4.63
4.41
Indoor WB
°C
Circulating water °C
kW
kW
15.0~24.0
15.0~24.0
15.0~24.0
10.0~45.0
10.0~45.0
10.0~45.0
63.0
69.0
76.5
12.06
14.65
17.12
5.22
4.70
4.46
Indoor DB
°C
Circulating water °C
dB(A)
15.0~27.0
15.0~27.0
15.0~27.0
10.0~45.0
10.0~45.0
10.0~45.0
52
52.5
53
Sound pressure*4
Connectable indoor Total capacity
units
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Range
Water in circuit
Pressure drop
Volume in heat exchanger
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
External diameter of
Liquid
refrigerant connectors
Gas
R410A refrigerant charge quantity
50 to 150% of capacity of O.U.
mm
mm
m3/h
kPa
l
mm
kg
kg
mm
mm
kg
P15~P250 / 1~50
P15~P250 / 2~50
P15~P250 / 2~50
22.2
28.58
28.58
28.58
28.58
28.58
PQRY-P250YHM-A
PQRY-P250YHM-A
PQRY-P300YHM-A
PQRY-P250YHM-A
PQRY-P300YHM-A
PQRY-P300YHM-A
5.76
5.76
5.76
5.76
5.76
5.76
17
17
17
17
17
17
5.0
5.0
5.0
5.0
5.0
5.0
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
1160x880x550*
181
181
181
181
181
181
19.05
19.05
19.05
19.05
19.05
19.05
-
22.2
-
22.2
-
22.2
5.0
5.0
5.0
5.0
5.0
5.0
* Without removable support feet, A=1100 mm.
*1 Nominal cooling conditions: Indoor 27°C DB / 19°C WB, Water temperature 30°C. Piping
length 7.5 m, vertical difference 0 m.
*2 Nominal heating conditions: Indoor 20°C DB, Water temperature 20°C. Piping length 7.5 m,
vertical difference 0 m.
98
56.0
11.57
*3 For geothermal applications, specific software is required (contact head office) to extend the
operating temperature range:
Cooling: Indoor 15°C WB to 24°C WB – Water in circuit: -5°C to 45°C.
Heating: Indoor 15°C WB to 27°C WB – Water in circuit: -5°C to 45°C.
*4 Values measured in anechoic chamber.
SERIES
Y
REPLACE MULTI
SERIES
R2
REPLACE MULTI
Replace Multi Series: 3-R of the new system dedicated to the replacement of plant VRF R22
The Mitsubishi Electric solution for the replacement market of VRF R22 systems is characterized by the 3-R: Re-use, Re-placement and
Re-newal. The innovative Replace Multi solution of Mitsubishi Electric makes it possible to reuse components and structural elements
of existing plant rather than completely replace all units and refrigerant lines. This raises the owner from discomforts of the complete
replacement of the air conditioning system (for example, new pipes, the destruction walls and stopping of the activities and business during
the renovations).
Short and quick construction process and time
Compared to the installation process and time to install a complete new system, Replace Multi offers shorter and quicker installation.
The key cause of this is because with Replace Multi, without any use of special kit, existing piping can be reused and works at rooftop or
walls for new piping are not required. This results in reduced installation time and system downtime which is an attractive factor to minimize
the effect on business working hours.
✓…Reusable ✕…Not reusable
Reuse
Refrigerant
pipes
Power
circuits
Switches
Trasmission
lines
Remote controls
trasmission circuit
Outdoor
unit
Indoor
unit
✓
✓
✓
✓
✓
✕
✕*
NOTE: The actual reusability of components depends upon the condition of the plant and the existing infrastructure.
* The actual reusability of indoor units depends on the model. For further clarification please contact the sales office nearest you.
Complete replacement of the plant
Replacement of components by Multi Replace
Reuse of existing pipes
Demolition of walls and openings
suspended ceilings that amplify
installation time
Drastic reduction
of materials to be
disposed in landfills
due to demolitions
Not necessary
external works
Short and quick construction process and time
Compared to the installation process and time to install a complete
new system, Replace Multi offers shorter and quicker installation.
The key cause of this is because with Replace Multi, without
any use of special kit, existing piping can be reused and works
at rooftop or walls for new piping are not required. This results
in reduced installation time and system downtime which is an
attractive factor to minimize the effect on business working hours.
Renewal for top performance
The installation of a Replace Multi system allows to achieve
the state of the art of VRF technology from Mitsubishi Electric
which it reached levels of energy efficiency (COP) more than 40%
compared to a R22 VRF system of 10 years ago. The greater
energy efficiency also means lower noise levels and reduced
installation space compared to a VRF R22.
99
OUTDOOR UNITS
Y and R2 Replace Multi
outdoor units
Series
Y Replace Multi single
SERIES
Y
REPLACE MULTI
SINGLE
PUHY-RP YJM-B OUTDOOR UNIT
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating
temperature range
Nominal capacity*2
Power absorption
COP
Operating
temperature range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Sound pressure*3
Connectable
indoor units
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
°C
°C
kW
kW
°C
°C
dB(A)
PUHY-RP200YJM-B(-BS)
PUHY-RP250YJM-B(-BS)
8
10
3 phase 380-400-415V 50Hz
22.4
28.0
5.68
7.62
3.94
3.67
15.0~24.0
15.0~24.0
-5.0~43.0
-5.0~43.0
25.0
31.5
5.69
7.22
4.39
4.36
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
56
57
50 to 130% of capacity of O.U.
P15~P250 / 1~17
mm
mm
m3/min
mm
kg
kg
P15~P250 / 1~21
12.7
12.7
28.58
28.58
185
185
1710x920x760*
1710x920x760*
230
255
6.5
9.0
PUHY-RP300YJM-B(-BS)
PUHY-RP350YJM-B(-BS)
12
14
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating
temperature range
Nominal capacity*2
Power absorption
COP
Operating
temperature range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
*
*1
*2
*3
3 phase 380-400-415V 50Hz
33.5
40.0
8.98
11.79
3.73
3.39
°C
°C
kW
kW
15.0~24.0
15.0~24.0
-5.0~43.0
-5.0~43.0
3.98
3.57
°C
°C
dB(A)
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
37.5
45.0
9.42
12.60
59
mm
mm
m3/min
mm
kg
kg
P15~P250 / 1~26
P15~P250 / 1~30
12.7
15.88
28.58
34.93
185
185
1710x920x760*
1710x920x760*
255
255
9.0
9.0
Without removable support feet, A=1650 mm.
Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
100
60
50 to 130% of capacity of O.U.
Series
R2 Replace Multi single
SERIES
PURY-P YJM-B OUTDOOR UNIT
TECHNICAL SPECIFICATIONS
MODEL
HP
Power
Cooling
Heating
Sound pressure*3
Connectable
indoor units
PURY-RP200YJM-B(-BS)
8
Voltage/Freq./Phases
Nominal capacity*1
Power absorption
EER
Operating
temperature range
Nominal capacity*2
Power absorption
COP
Operating
temperature range
V/Hz/n°
kW
kW
Indoor WB
Outdoor DB
Indoor DB
Outdoor WB
Total capacity
Model/Quantity
External diameter of Liquid
refrigerant connectors Gas
Fan air flow rate
External dimensions (HxLxW)
Net weight
R410A refrigerant charge quantity
*
*1
*2
*3
°C
°C
kW
kW
°C
°C
dB(A)
PURY-RP250YJM-B(-BS)
PURY-RP300YJM-B(-BS)
10
12
3 phase 380-400-415V 50Hz
22.4
28.0
33.5
4.95
6.82
8.35
4.52
4.10
4.01
15.0~24.0
15.0~24.0
15.0~24.0
-5.0~43.0
-5.0~43.0
-5.0~43.0
25.0
31.5
37.5
5.50
7.22
8.70
4.54
4.36
4.31
15.0~27.0
15.0~27.0
15.0~27.0
-20.0~15.5
-20.0~15.5
-20.0~15.5
56
57
59
50 to 130% of capacity of O.U.
mm
mm
m3/min
mm
kg
kg
P15~P250 / 1~20
P15~P250 / 1~25
P15~P250 / 1~30
19.05
19.05
19.05
28.58
28.58
28.58
225
225
225
1710x1220x760*
1710x1220x760*
1710x1220x760*
275
290
290
11.8
11.8
11.8
Without removable support feet, A=1650 mm.
Nominal cooling conditions: Indoor 27°C DB / 19°C WB. Outdoor 35°C DB. Piping length 7.5 m, vertical difference 0 m.
Nominal heating conditions: Indoor 20°C DB. Outdoor 7°C DB / 6°C WB. Piping length 7.5 m, vertical difference 0 m.
Values measured in anechoic chamber.
101
OUTDOOR UNITS
R2
REPLACE MULTI
SINGLE
BC controllers for
R2-WR2 series
SERIES
SERIES
SERIES
R2
R2
R2
REPLACE MULTI
SEASONAL
NOMINAL
SERIES
WR2
The BC controller, the heart of the R2/WR2 series
The BC controller of the CMB-P-V-G connects up to 16 indoor
units to the outdoor unit and ensures optimum distribution of the
refrigerant depending on the operating mode of the indoor units
(heating or cooling). The controller contains the high efficiency gas/
liquid separator developed by Mitsubishi Electric and precisely separates the gas phase used for heating from the liquid phase used
for cooling.
To allow for greater height differences and increase the maximum
possible piping length, the controller uses an overcooling heat
exchanger which further cools the refrigerant liquid delivered to the
indoor units in cooling mode.
Design and production
New technology used in the design and production of refrigeration
circuits has made it possible to achieve superior performance
together with simpler pipeline layouts. Simpler configurations for
the refrigeration circuit contribute to increasing the overall reliability
R2 SOLENOID VALVES
of the system. The new approach used for construction limits
pressure losses and reduces the overall weight of the indoor units,
as well as simplifying the configuration of the entire circuit.
R2 CHECK VALVES
Outdoor
unit
CMY-R160-J connection
accessory (OPTIONAL)
CMY-Y102S-G2 branch
BC controller
Standard
adapter
Unità
intern
a
Models
from
P15
to P50
102
Unità
intern
a
Models
from
P63
to P80
Unità
intern
a
Models
from
P100
to P250
Unità
intern
a
Unità
intern
a
Unità
intern
a
Max. 3 indoor units
max. total power 80
(in same cooling/heating
operating mode).
SERIES
SERIES
SERIES
R2
NOMINAL
SEASONAL
SERIES
WR2
REPLACE MULTI
TECHNICAL SPECIFICATIONS
MODEL
Number of branches
Power
50Hz
Power absorption Cooling
Heating
50Hz
Cooling
60Hz
Heating
60Hz
Cooling
50Hz
Current
Heating
50Hz
Cooling
60Hz
Heating
60Hz
External finish
Capacity of indoor unit connectable to 1 branch*1
Connectable outdoor units
Height
Width
Depth
Drain pipe
Net weight
Accessories
CMBP104V-G1
CMBP105V-G1
CMBP106V-G1
CMBP108V-G1
CMBP1010V-G1
CMBP1013V-G1
CMBP1016V-G1*2
4
5
6
8
10
13
16
~220/230/240V 50Hz/60Hz
kW
kW
kW
kW
A
A
A
A
0.067/0.076/0.085 0.082/0.093/0.104 0.097/0.110/0.123 0.127/0.144/0.161 0.156/0.177/0.198 0.201/0.288/0.255 0.246/0.279/0.312
0.030/0.034/0.038 0.038/0.043/0.048 0.045/0.051/0.057 0.060/0.068/0.076 0.075/0.085/0.095 0.097/0.110/0.123 0.119/0.135/0.151
0.054/0.061/0.067 0.066/0.074/0.082 0.078/0.088/0.097 0.102/0.115/0.127 0.126/0.141/0.156 0.162/0.182/0.201 0.198/0.222/0.246
0.024/0.027/0.030 0.030/0.034/0.038 0.036/0.041/0.045 0.048/0.054/0.060 0.060/0.068/0.075 0.078/0.088/0.097 0.096/0.108/0.119
0.31/0.34/0.36
0.38/0.41/0.44
0.45/0.48/0.52
0.58/0.63/0.68
0.71/0.77/0.83
0.92/1.00/1.07
1.12/1.22/1.30
0.14/0.15/0.16
0.18/0.19/0.20
0.21/0.23/0.24
0.28/0.30/0.32
0.35/0.37/0.40
0.45/0.48/0.52
0.55/0.59/0.63
0.25/0.27/0.28
0.30/0.33/0.35
0.36/0.39/0.41
0.47/0.50/0.53
0.58/0.62/0.65
0.74/0.80/0.84
0.90/0.97/1.03
0.11/0.12/0.13
0.14/0.15/0.16
0.17/0.18/0.19
0.22/0.24/0.25
0.28/0.30/0.32
0.36/0.39/0.41
0.44/0.47/0.50
Galvanised
R2 / WR2: P80 model or smaller
See table of permissible combinations for R2/RW2 series BC controller
mm
mm
mm
284
648
1098
432
VP-25
kg
24
27
28
33
38
45
52
• Drain connection pipe (with flexible pipe and insulation)
• Adapter
CONNECTIONS
Refrigerant pipe
diameter
To outdoor unit
To indoor unit
See table of permissible combinations for R2/RW2 series BC controller
High press. pipe.
Low press. pipe.
Liquid pipe
Gas pipe
P200
P250, P300
P350
ø15.88 mm, brazed
ø19.05 mm, brazed
ø19.05 mm, brazed
ø19.05 mm, brazed
ø22.2 mm, brazed
ø28.58 mm, brazed
ø9.52 mm, swaged (ø6.35 mm using connected standard adapter, ø12.7 using optional pipe joint)
ø15.88 mm, swaged (ø12.7 mm using connected standard adapter, ø19.05 using optional pipe joint)
*1 Use the optional pipe joint to join 2 branches if the total capacity of the unit exceeds P140.
Use the adapter (standard accessory) when connecting a P50 or smaller indoor unit.
*2 CMB-P1016V SOLO per P700-P800.
• Additional pipes must be used to connect with P300 or smaller outdoor units.
103
OUTDOOR UNITS
R2
R2
BC controller
SERIES
SERIES
SERIES
R2
R2
R2
REPLACE MULTI
SEASONAL
NOMINAL
SERIES
WR2
TECHNICAL SPECIFICATIONS
MODEL
CMB-P108V-GA1
Number of branches
Power
50Hz
Power absorption Cooling
Heating
50Hz
Cooling
60Hz
Heating
60Hz
Cooling
50Hz
Current
Heating
50Hz
Cooling
60Hz
Heating
60Hz
External finish
Capacity of indoor unit connectable to 1 branch*1
Connectable outdoor units
Height
Width
Depth
Drain pipe
Net weight
Accessories
CMB-P1010V-GA1 CMB-P1013V-GA1 CMB-P1016V-GA1 CMB-P1016V-HA1*2
8
10
13
16
~220/230/240V 50Hz/60Hz
kW
kW
kW
kW
A
A
A
A
0.127/0.144/0.161
0.156/0.177/0.198
0.201/0.228/0.255
0.246/0.279/0.312
0.060/0.068/0.076
0.075/0.085/0.095
0.097/0.110/0.123
0.119/0.135/0.151
0.102/0.115/0.127
0.126/0.141/0.156
0.162/0.182/0.201
0.198/0.222/0.246
0.048/0.054/0.060
0.060/0.068/0.075
0.078/0.088/0.097
0.096/0.108/0.119
0.58/0.63/0.68
0.71/0.77/0.83
0.92/1.00/1.07
1.12/1.22/1.30
0.28/0.30/0.32
0.35/0.37/0.40
0.45/0.48/0.52
0.55/0.59/0.63
0.47/0.50/0.53
0.58/0.62/0.65
0.74/0.80/0.84
0.90/0.97/1.03
0.22/0.24/0.25
0.28/0.30/0.32
0.36/0.39/0.41
0.44/0.47/0.50
Galvanised
Galvanized steel plate
R2 / WR2: P80 model or smaller
See table of permissible combinations for R2/RW2 series BC controller
mm
mm
mm
289
1,110
520
VP-25
kg
43
48
55
62
69
• Drain connection pipe (with flexible pipe and insulation)
• Adapter
CONNECTIONS
Refrigerant pipe
diameter
To outdoor unit
To indoor unit
High pressure gas pipe
Low pressure gas pipe
Liquid pipe
Drain pipe
To another BC
controller
P200
P250~300
P550~P650
P700~P800*1
ø15.88 brazed
ø19.05 brazed
ø19.05 brazed
ø22.2 brazed
ø28.58 brazed
ø28.58 brazed
ø22.2 brazed
ø28.58 brazed
ø28.58 brazed
ø28.58 brazed
ø34.93 brazed
ø19.05 brazed
ø9.52 mm, swaged (ø6.35 mm using connected standard adapter, ø12.7 using optional pipe joint)
ø15.88 mm, swaged (ø12.7 mm using connected standard adapter, ø19.05 using optional pipe joint)
Total capacity of indoor units connected to secondary BC controller
High pressure
gas pipe
Low pressure
gas pipe
Liquid pipe
Drain pipe
Net weight
Accessories
~P200
ø15.88 brazed
P201~P300
ø19.05 brazed
P301~P350
P351~P400
P401~P450
ø19.05 brazed
ø22.2 brazed
ø22.2 brazed
ø19.05 brazed
ø22.2 brazed
ø28.58 brazed
ø28.58 brazed
ø28.58 brazed
ø9.52 brazed
ø9.52 brazed
ø12.7 brazed
ø12.7 brazed
ø15.88 brazed
62
69
VP-25
43
*1 Use the optional pipe joint to join 2 branches if the total capacity of the unit exceeds P140.
Use the adapter (standard accessory) when connecting a P50 or smaller indoor unit.
*2 CMB-P1016V for P700-P800 ONLY.
• Additional pipes must be used to connect with P300 or smaller outdoor units.
104
Capacity of connectable outdoor unit
P350
P400~P500
48
55
• Drain connection pipe (with flexible pipe and insulation)
• Adapter
SERIES
SERIES
SERIES
R2
REPLACE MULTI
SEASONAL
NOMINAL
SERIES
WR2
TECHNICAL SPECIFICATIONS
MODEL
CMB-P104V-GB1
Number of branches
POWER
50Hz
Power absorption Cooling
Heating
50Hz
Cooling
60Hz
Heating
60Hz
Cooling
50Hz
Current
Heating
50Hz
Cooling
60Hz
Heating
60Hz
External finish
Capacity of indoor unit connectable to 1 branch*1
Connectable outdoor units
Height
Width
Depth
Drain pipe
Net weight
Accessories
CMB-P108V-GB1
CMB-P1016V-HB1*2
8
16
4
~220/230/240V 50Hz/60Hz
kW
kW
kW
kW
A
A
A
A
0.060/0.068/0.076
0.119/0.135/0.151
0.237/0.269/0.301
0.030/0.034/0.038
0.060/0.068/0.076
0.119/0.135/0.151
0.048/0.054/0.060
0.096/0.108/0.119
0.192/0.216/0.237
0.024/0.027/0.030
0.048/0.054/0.060
0.096/0.108/0.120
0.28/0.30/0.32
0.55/0.59/0.63
1.08/1.17/1.26
0.14/0.15/0.16
0.28/0.30/0.32
0.55/0.59/0.63
0.22/0.24/0.25
0.44/0.47/0.50
0.88/0.94/0.99
0.11/0.12/0.13
0.22/0.24/0.25
0.44/0.47/0.50
Galvanized steel plate
R2 / WR2: P80 model or smaller
See table of permissible combinations for R2/RW2 series BC controller
mm
mm
mm
284
284
648
1,098
432
432
VP-25
kg
22
32
57
• Drain connection pipe (with flexible pipe and insulation)
• Adapter
CONNECTIONS
Refrigerant pipe
diameter
Total capacity of indoor units connected to secondary BC controller
To main BC controller
To indoor unit
High pressure gas pipe
Low pressure gas pipe
Liquid pipe
Liquid pipe
gas pipe
~P200
P201~P300
P301~P350
P351~P400
P401~P450
ø15.88 brazed
ø19.05 brazed
ø19.05 brazed
ø22.2 brazed
ø22.2 brazed
ø19.05 brazed
ø22.2 brazed
ø28.58 brazed
ø28.58 brazed
ø28.58 brazed
ø9.52 brazed
ø9.52 brazed
ø12.7 brazed
ø12.7 brazed
ø15.88 brazed
ø9.52 mm, swaged (ø6.35 mm using connected standard adapter, ø12.7 using optional pipe joint)
ø15.88 mm, swaged (ø12.7 mm using connected standard adapter, ø19.05 using optional pipe joint)
Table of permissible combinations for BC controllers for
R2 series
MODELLO
P200,250,300,350
CMB-P V-G
CMB-P V-GA
CMB-P V-HA
CMB-P V-GB
CMB-P V-HB


P400-650








P700-900





Table of permissible combinations for BC controllers for
WR2 series
MODELLO
P200,250,300,350
P400-650
CMB-P V-G
CMB-P V-GA
CMB-P V-HA
CMB-P V-GB
CMB-P V-HB










*1 Use the optional pipe joint to join 2 branches if the total capacity of the unit exceeds P140.
Use the adapter (standard accessory) when connecting a P50 or smaller indoor unit.
*2 CMB-P1016V for P700-P800 ONLY.
• Additional pipes must be used to connect with P300 or smaller outdoor units.
105
OUTDOOR UNITS
R2
R2
SERIES
SERIES
R2
WCB water-refrigerant
connection box for R2-WR2 series
NOMINAL
R2
SEASONAL
SERIES
WR2
WCB refrigerant – water connection box
The WCB refrigerant-water connection box is effectively a
simplified BC controller. The WCB has 2 branches only (standard
indoor units / PWFY) and is specifically intended to permit air
cooling functionality via the ‘indoor unit’ branch and domestic and
heating hot water production functionality via the ‘PWFY’ branch.
While the WCB does not permit simultaneous heating and cooling
operation of the indoor units connected to the ‘indoor unit’ branch,
it does allow heat recovery in summer between the two branches,
for practically free domestic hot water production.
The WCB water connection box may be used to feed a mixed R2 system (HWS and ATW hydronic modules in combination with
standard indoor units), allowing the following scenarios:
ATW
HWS
Indoor Units
Primary heating
with underfloor system
Domestic hot water
production
Air cooling
or heating
WINTER
ON
ON
OFF
AUTUMN/SPRING
OFF
ON
ON
SUMMER
OFF
ON
ON
Application
Notes: HWS and ATW hydronic modules may have a capacity
index of up to 100% relative to the outdoor unit, and have priority
over the indoor units. Normally, in systems with an IU/OU ratio
exceeding 100%, when the hydronic modules are operating, it will
only be possible for the indoor units to function which, combined
with the hydronic modules, will not exceed a capacity of 130% that
of the outdoor unit (130% OU – 100% HWS & ATW = max. 30%
for IUs). To facilitate summer operation, with opposing loads such
106
as simultaneous DHW production and indoor cooling via the IUs,
the 200% extended capacity function of the outdoor unit may be
activated on request:
Heat to be removed from ambient → 100% UI in cooling mode +
heat to be produced → 100% HWS = 100% EU with cooling and
practically free DHW production.
SERIES
SERIES
R2
SERIES
WR2
SEASONAL
NOMINAL
TECHNICAL SPECIFICATIONS
MODEL
CMB-PW202V-J
Number of branches
Power
Power absorption
Current
2
1 phase 220/230/240VAC 50/60 Hz
Cooling
Heating
Cooling
Heating
kW
kW
A
A
External finish
Connectable outdoor units
Capacity of connec- Total
Indoor unit branch
table indoor unit
PWFY branch
Dimensions
HxLxW
Drain pipe
Net weight
50Hz
60Hz
0.019/0.020/0.021
0.018/0.019/0.019
0.020/0.022/0.024
0.019/0.020/0.021
0.09/0.09/0.09
0.09/0.09/0.09
0.10/0.10/0.10
0.09/0.09/0.09
Galvanized
PURY-(E)P200/250/300/350YHM-A (-BS), PQRY-P200/250/300YHM-A (-BS)
50 to 130% of outdoor unit capacity
Up to 130% of outdoor unit capacity
Up to 100% of outdoor unit capacity
mm
284 x 648 x 432
ø28.58 brazed
kg
O.D. 32 mm
CONNECTIONS
Refrigerant pipe
diameter
To outdoor unit
See capacity of connectable outdoor unit
High press. pipe.
Low press. pipe.
P200
P250~300
P350
ø15.88 brazed
ø19.05 brazed
ø19.05 brazed
ø22.2 brazed
ø28.58 brazed
ø19.05 brazed
See total capacity of subsequent indoor units
To indoor unit
Liquid pipe
Gas pipe
~ P140
P141~P200
P201~P300
P301~P400
P401~
ø9.52 brazed
ø9.52 brazed
ø9.52 brazed
ø15.88 brazed
ø15.88 brazed
ø15.88 brazed
ø19.05 brazed
ø22.2 brazed
ø28.58 brazed
ø28.58 brazed
107
OUTDOOR UNITS
R2
Model code
CITY MULTI outdoor units
P=Packaged
Y=Inverter
U=Air
Q=Water
P=Nominal
EP=Seasonal
HP=Zubadan
RP=Replace
S=Modular systems
PUHY-EP600YSLM
H=Heat pump
R=Heat recovery
M=SMALL heat pump
YLM=Line
600=Capacity index
(capacity index of 25 = 1 hp)
600
= 24hp
25
CITY MULTI Indoor units
P=Packaged
F=VRF
Y=Inverter
P=R22/R407C/R410A VRF
PEFY-P25VMA
E=Built-in ceiling
L=Ceiling cassette
C=Ceiling-suspended
K=Wall-mounted
F=Floor unit
M=Ceiling cassette
W=Ecodan hydronic
modules
VMA=Sub Name
25=Capacity index
(capacity index of 25 = 1hp)
25
= 1hp
25
BC Controller
CMB=BC Controller
P=R407C/R410A VRF
CMB-P1013GA1
1013= Number of ports
(in this example 13)
108
G1=BC Controller
GA1/HA1=Main BC Controller
GB1/HB1=Sub BC Controller
OUTDOOR UNITS
Refrigerant piping lenght
109
Series SMALL Y (PUMY-P-YKM2/VKM2)
GEOMETRIC LIMITS OF REFRIGERATION PIPELINES
SERIES
Total effective length
max. 300 m
Effective length of a single circuit
max. 150 m
Effective length after first branch
max. 30 m
SMALL Y
Outdoor unit *1
VERTICAL DIFFERENCE BETWEEN UNITS
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
Indoor/outdoor (indoor unit in higher position)
max. 40 m
Indoor/Indoor
max. 15 m
Longest circuit:
150 m
Max. vertical
difference:
50 m
Indicative values only – See technical handbook for installation details.
Indoor Unit
*1 Use optional deflectors if the outdoor unit is installed in a location subject to high winds.
Max. vertical
difference between
indoor units: 15 m
Series SMALL Y (PUMY-P-YKM)
GEOMETRIC LIMITS OF REFRIGERATION PIPELINES
SERIES
Total effective length
max. 150 m
Effective length of a single circuit
max. 80 m
Effective length after first branch
max. 30 m
Outdoor unit *1
VERTICAL DIFFERENCE BETWEEN UNITS
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
Indoor/outdoor (indoor unit in higher position)
max. 40 m
Indoor/Indoor
max. 15 m
SMALL Y
8HP
Longest circuit:
150 m
Max. vertical
difference:
50 m
Indoor Unit
Indicative values only – See technical handbook for installation details.
Max. vertical
difference between
indoor units: 15 m
*1 Use optional deflectors if the outdoor unit is installed in a location subject to high winds.
Series Y ECOSTANDARD SINGLE (PUHY-P200-500YKA)
SERIES
Y
GEOMETRIC LIMITS OF REFRIGERATION PIPELINES
Total effective length
max. 1000 m
Effective length of a single circuit
max. 165 m
Equivalent length of a single circuit
max. 190 m
Effective length after first branch
max. 90 m
*1
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
*2
Indoor/outdoor (indoor unit in higher position)
max. 40 m
*3
Indoor/Indoor
max. 30 m
*4
Outdoor unit
VERTICAL DIFFERENCE BETWEEN UNITS
Indicative values only – See technical handbook for installation details.
*1 For lengths exceeding 40 m, a larger diameter liquid pipe must be used.
*2 A max. length of 90 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*3 A max. length of 60 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*4 For vertical differences exceeding 15 m, a larger diameter liquid pipe must be used
110
Max. vertical
difference: 50 m
Indoor units
Effective (equivalent) length
of a single circuit:
165 m (max. 190 m)
Max. vertical difference
between indoor units: max. 30 m
ECOSTANDARD
SINGLE
Series Y ECOSTANDARD DOUBLE (PUHY-P550-1000YKA)
Total effective length
max. 1000 m
Y
Effective length of a single circuit
max. 165 m
Equivalent length of a single circuit
max. 190 m
Effective length after first branch
max. 90 m
Effective length between outdoor units
max. 10 m
ECOSTANDARD
DOUBLE
Outdoor unit
*1
Max. vertical
difference: 50 m
VERTICAL DIFFERENCE BETWEEN UNITS
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
*2
Indoor/outdoor (indoor unit in higher position)
max. 40 m
*3
Indoor/Indoor
max. 30 m
*4
Between outdoor units
max. 0,1 m
Indoor units
Effective (equivalent) length
of a single circuit:
165 m (max. 190 m)
Max. vertical difference
between indoor units: max. 30 m
Indicative values only – See technical handbook for installation details.
*1 For lengths exceeding 40 m, a larger diameter liquid pipe must be used.
*2 A max. length of 90 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*3 A max. length of 60 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*4 For vertical differences exceeding 15 m, a larger diameter liquid pipe must be used.
Series Y ECOSTANDARD TRIPLE (PUHY-P1050-1500YSKA)
SERIES
Y
GEOMETRIC LIMITS OF REFRIGERATION PIPELINES
Total effective length
max. 1000 m
Effective length of a single circuit
max. 165 m
Equivalent length of a single circuit
max. 190 m
Effective length after first branch
max. 90 m
Effective length between outdoor units
max. 10 m
ECOSTANDARD
TRIPLE
Outdoor unit
*1
Max. vertical
difference: 50 m
VERTICAL DIFFERENCE BETWEEN UNITS
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
*2
Indoor/outdoor (indoor unit in higher position)
max. 40 m
*3
Indoor/Indoor
max. 30 m
*4
Between outdoor units
max. 0,1 m
Indoor units
Effective (equivalent) length
of a single circuit:
165 m (max. 190 m)
Max. vertical difference
between indoor units: max. 30 m
Indicative values only – See technical handbook for installation details.
*1 For lengths exceeding 40 m, a larger diameter liquid pipe must be used.
*2 A max. length of 90 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*3 A max. length of 60 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*4 For vertical differences exceeding 15 m, a larger diameter liquid pipe must be used.
Series Y STANDARD SINGLE (PUHY-P200-350YKB-A1)
Series Y STANDARD SINGLE (PUHY-EP200-500YLM-A)
optimised for nominal performance
optimised for seasonal performance
GEOMETRIC LIMITS OF REFRIGERATION PIPELINES
SERIES
SERIES
NOMINAL
SINGLE
SEASONAL
SINGLE
Y
Total effective length
max. 1000 m
Effective length of a single circuit
max. 165 m
Equivalent length of a single circuit
max. 190 m
Effective length after first branch
max. 90 m
*1
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
*2
Indoor/outdoor (indoor unit in higher position)
max. 40 m
*3
Indoor/Indoor
max. 30 m
*4
Outdoor unit
VERTICAL DIFFERENCE BETWEEN UNITS
Indicative values only – See technical handbook for installation details.
*1 For lengths exceeding 40 m, a larger diameter liquid pipe must be used.
Max. vertical
difference: 50 m
Indoor units
Y
Effective (equivalent) length
of a single circuit:
165 m (max. 190 m)
Max. vertical difference
between indoor units: max. 30 m
*2 A max. length of 90 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*3 A max. length of 60 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*4 For vertical differences exceeding 15 m, a larger diameter liquid pipe must be used
111
OUTDOOR UNITS
SERIES
GEOMETRIC LIMITS OF REFRIGERATION PIPELINES
Series Y DOUBLE (PUHY-P400-900YSKB-A1)
optimised for nominal performance
Series Y DOUBLE (PUHY-EP550-600YSLM-A)
optimised for seasonal performance
GEOMETRIC LIMITS OF REFRIGERATION PIPELINES
Total effective length
max. 1000 m
Effective length of a single circuit
max. 165 m
Equivalent length of a single circuit
max. 190 m
Effective length after first branch
max. 90 m
Effective length between outdoor units
max. 10 m
Outdoor unit
SERIES
SERIES
NOMINAL
DOUBLE
SEASONAL
DOUBLE
Y
Y
*1
Effective (equivalent) length
of a single circuit:
165 m (max. 190 m)
Max. vertical
difference: 50 m
VERTICAL DIFFERENCE BETWEEN UNITS
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
*2
Indoor/outdoor (indoor unit in higher position)
max. 40 m
*3
Indoor/Indoor
max. 30 m
*4
Between outdoor units
max. 0,1 m
Max. vertical difference
between indoor units: max. 30 m
Indoor units
Indicative values only – See technical handbook for installation details.
*1 For lengths exceeding 40 m, a larger diameter liquid pipe must be used.
*2 A max. length of 90 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*3 A max. length of 60 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*4 For vertical differences exceeding 15 m, a larger diameter liquid pipe must be used.
Series Y TRIPLE (PUHY-P950-1350YSKB-A1)
optimised for nominal performance
Series Y TRIPLE (PUHY-EP650-1350YSLM-A)
optimised for seasonal performance
Total effective length
max. 1000 m
Effective length of a single circuit
max. 165 m
Equivalent length of a single circuit
max. 190 m
Effective length after first branch
max. 90 m
Effective length between outdoor units
max. 10 m
SERIES
SERIES
NOMINAL
TRIPLE
SEASONAL
TRIPLE
Y
GEOMETRIC LIMITS OF REFRIGERATION PIPELINES
Outdoor unit
Y
*1
Max. vertical
difference: 50 m
VERTICAL DIFFERENCE BETWEEN UNITS
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
*2
Indoor/outdoor (indoor unit in higher position)
max. 40 m
*3
Indoor/Indoor
max. 30 m
*4
Between outdoor units
max. 0,1 m
Indoor units
Effective (equivalent) length
of a single circuit:
165 m (max. 190 m)
Max. vertical difference
between indoor units: max. 30 m
Indicative values only – See technical handbook for installation details.
*1 For lengths exceeding 40 m, a larger diameter liquid pipe must be used.
*2 A max. length of 90 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*3 A max. length of 60 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*4 For vertical differences exceeding 15 m, a larger diameter liquid pipe must be used.
Series Y ZUBADAN SINGLE (PUHY-HP200,250YHM-A)
GEOMETRIC LIMITS OF REFRIGERATION PIPELINES
SERIES
Total effective length
max. 300 m
Effective length of a single circuit
max. 150 m
Equivalent length of a single circuit
max. 175 m
Effective length after first branch
max. 40 m
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
Indoor/outdoor (indoor unit in higher position)
max. 40 m
Indoor/Indoor
max. 15 m
112
Y
ZUBADAN
SINGLE
Max. vertical
difference: 50 m
VERTICAL DIFFERENCE BETWEEN UNITS
Indicative values only – See technical handbook for installation details.
Outdoor unit
Indoor units
Effective (equivalent) length
of a single circuit:
150 m (175 m max.)
Max. vertical difference
between indoor units: 15 m max.
Series Y ZUBADAN DOUBLE (PUHY-HP400-500YSHM-A)
SERIES
max. 300 m
Effective length of a single circuit
max. 150 m
Equivalent length of a single circuit
max. 175 m
Effective length after first branch
max. 40 m
Effective length between outdoor units
max. 10 m
Y
Outdoor unit
ZUBADAN
DOUBLE
Effective (equivalent) length
of a single circuit:
150 m (175 m max.)
Max. vertical
difference: 50 m
VERTICAL DIFFERENCE BETWEEN UNITS
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
Indoor/outdoor (indoor unit in higher position)
max. 40 m
Indoor/Indoor
max. 15 m
Between outdoor units
max. 0,1 m
Indoor units
Max. vertical difference
between indoor units: 15 m max.
Indicative values only – See technical handbook for installation details.
Series Y Replace Multi (PUHY-RP200~350YJM-B)
GEOMETRIC LIMITS OF REFRIGERATION PIPELINES
SERIES
Total effective length
max. 300 m
Effective length of a single circuit
max. 120 m
Equivalent length of a single circuit
max. 150 m
Effective length after first branch
max. 40 m
REPLACE MULTI
Effective (equivalent)
length of a single circuit:
120 m (150 m max.)
Max. vertical
difference: 50 m
VERTICAL DIFFERENCE BETWEEN UNITS
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
Indoor/outdoor (indoor unit in higher position)
max. 40 m
Indoor/Indoor
max. 15 m
Between outdoor units
max. 0,1 m
Y
Outdoor unit
Indoor units
Max. vertical difference
between indoor units: 15 m max.
Indicative values only – See technical handbook for installation details.
Series WY SINGLE (PQHY-P200~300YHM-A)
GEOMETRIC LIMITS OF REFRIGERATION PIPELINES
SERIES
Total effective length
max. 300 m
Effective length of a single circuit
max. 165 m
Equivalent length of a single circuit
max. 190 m
Effective length after first branch
max. 40 m
WY
SINGLE
VERTICAL DIFFERENCE BETWEEN UNITS
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
Indoor/outdoor (indoor unit in higher position)
max. 40 m
Indoor/Indoor
max. 15 m
Indicative values only – See technical handbook for installation details.
Indoor units
Effective (equivalent)
length of a single circuit:
165 m (max. 190 m)
Max. vertical difference between
indoor units: max. 15 m
Max. vertical
difference: 40 m
113
OUTDOOR UNITS
GEOMETRIC LIMITS OF REFRIGERATION PIPELINES
Total effective length
Series WY DOUBLE (PQHY-P400~900YSHM-A)
GEOMETRIC LIMITS OF REFRIGERATION PIPELINES
SERIES
Total effective length
max. 500 m
Effective length of a single circuit
max. 165 m
Equivalent length of a single circuit
max. 190 m
Effective length after first branch
max. 40 m
Effective length between outdoor units
max. 10 m
WY
DOUBLE
VERTICAL DIFFERENCE BETWEEN UNITS
Indoor units
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
*1
Indoor/outdoor (indoor unit in higher position)
max. 40 m
*2
Indoor/Indoor
max. 15 m
Between outdoor units
max. 0,1 m
Effective (equivalent)
length of a single circuit:
165 m (max. 190 m)
Max. vertical difference between
indoor units: max. 15 m
Max. vertical
difference: 40 m
Indicative values only – See technical handbook for installation details.
*1 A max. length of 90 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*2 A max. length of 60 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
Series R2 SINGLE (PURY-P200-350YLM-A1)
optimised for nominal performance
Series R2 SINGLE (PURY-EP200-500YLM-A)
optimised for seasonal performance
SERIES
R2
GEOMETRIC PIPING LIMITATIONS WITH ONE OR MORE BC CONTROLLERS
Total effective length
300~600 m.
*
Effective length of a single circuit
max. 165 m
Equivalent length of a single circuit
max. 190 m
Effective length between outdoor unit and BC controller
max. 110 m
Effective length between BC controller and indoor unit
40~60 m.
*
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
*1
Indoor/outdoor (indoor unit in higher position)
max. 40 m
*
Indoor/BC Controller
max. 15 m (10m)
*3
Indoor/Indoor
max. 15 m (10m)
*3
Effective length between outdoor unit and BC controller
max. 15 m (10m)
*3
NOMINAL
SINGLE
SERIES
R2
SEASONAL
SINGLE
Connection between outdoor unit/main
BC controller and between BC
controllers/indoor units: 2-pipe
Outdoor unit
VERTICAL DIFFERENCE BETWEEN UNITS
Max. vertical
BC
difference: Secondary
controller
50 m
2
Vertical difference
between
indoor units
and BC
controller:
max. 15 m
Length of 2-pipe connection
between outdoor unit and
master BC controller: max. 110 m
Three-pipe connection
between BC controllers
Master BC
Controller
Vertical difference between
master BC controller and secondary
BC controller: max. 15 m
BC controllers are connected to each other with three-pipe connections.
* Indicative values only – See technical handbook for installation details.
*1 A max. length of 90 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
Length of 2-pipe connection
between indoor unit and
BC controller: max. 40 m
*2 A max. length of 60 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*3 Values between brackets ( ) are for P200/P250 indoor units.
P100/250 type indoor units and indoor units of any other type must never be connected to the
same branch line.
Table of combinations
CMB-P V-G
CMB-P V-GA
CMB-P V-HA
CMB-P V-GB
CMB-P V-HB
✓ = YES
114
✗ = NO
P 200-250-300-350
P 400-650
✓
✓
✗
✓
✓
✗
✓
✗
✓
✓
Series R2 DOUBLE (PURY-P400-700YSLM-A)
optimised for nominal performance
optimised for seasonal performance
SERIES
R2
GEOMETRIC PIPING LIMITATIONS WITH ONE OR MORE BC CONTROLLERS
Total effective length
500~950 m.
Effective length of a single circuit
max. 165 m
Equivalent length of a single circuit
max. 190 m
Effective length between outdoor unit and BC controller
max. 110 m
Effective length between BC controller and indoor unit
40~60 m.
Effective length between outdoor units
max. 15 m
*
NOMINAL
DOUBLE
Max. vertical
BC
difference: Secondary
controller
50 m
VERTICAL DIFFERENCE BETWEEN UNITS
max. 50 m
*
Indoor/outdoor (indoor unit in higher position)
max. 40 m
*2
Indoor/BC Controller
max. 15 m (10m)
*3
Indoor/Indoor
max. 15 m (10m)
*3
Effective length between outdoor unit and BC controller
max. 15 m (10m)
*
Between outdoor units
max. 0,1 m
R2
SEASONAL
DOUBLE
Connection between outdoor unit/main
BC controller and between BC
controllers/indoor units: 2-pipe
Outdoor unit
*
Indoor/outdoor (outdoor unit in higher position)
SERIES
1
Vertical difference
between
indoor units
and BC
controller:
max. 15 m
3
Length of 2-pipe connection
between outdoor unit and
master BC controller: max. 110 m
Three-pipe connection
between BC controllers
Master BC
Controller
Vertical difference between
master BC controller and secondary
BC controller: max. 15 m
Length of 2-pipe connection
between indoor unit and
BC controller: max. 40 m
BC controllers are connected to each other with three-pipe connections.
* Indicative values only – See technical handbook for installation details.
*1 A max. length of 90 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*2 A max. length of 60 m is possible for certain models and in certain installation conditions.
Contact head office for more details.
*3 Values between brackets ( ) are for P200/P250 indoor units.
P100/250 type indoor units and indoor units of any other type must never be connected to the
same branch line.
Table of combinations
CMB-P V-G
CMB-P V-GA
CMB-P V-HA
CMB-P V-GB
CMB-P V-HB
✓ = YES
Series R2 Replace Multi (PURY-RP200~300YJM-B)
P 400-650
P 700-800
✗
✓
✗
✓
✓
✗
✗
✓
✓
✓
✗ = NO
with one or more BC Controllers
GEOMETRIC LIMITS OF REFRIGERATION PIPELINES
SERIES
Total effective length
max. 220 m
Effective length of a single circuit
max. 100 (90) m
Equivalent length of a single circuit
max. 125 (115) m
Effective length between outdoor unit and BC controller
max. 70 (60) m
Effective length between BC controller and indoor unit
max. 30 m
VERTICAL DIFFERENCE BETWEEN UNITS
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
Indoor/outdoor (indoor unit in higher position)
max. 40 m
Indoor/BC Controller
max. 15 (10) m
Indoor/Indoor
max. 15 (10) m
Effective length between outdoor unit and BC controller
max. 15 (10) m
Values shown in bracket ( ) in the table are applicable if the total capacity of the IUs exceeds
130% of the nominal capacity of the outdoor unit
R2
REPLACE MULTI
Outdoor unit
Max. vertical Secondary
difference:
BC Controller
50 m
Vertical difference
between
indoor units
and BC
controller:
max. 15 m
Length of 2-pipe connection
between outdoor unit and
master BC controller: max. 70 m
Vertical difference between indoor
units and BC controller: max. 15 m
Vertical difference between master
BC controller and BC controller:
Master BC Secondary distributor
Controller
Length of 2-pipe connection
between indoor unit and
BC controller: max. 30 m
115
OUTDOOR UNITS
Series R2 DOUBLE (PURY-EP550-900YSLM-A)
Series WR2 SINGLE (PQRY-P200~300YHM-A)
optimised for nominal performance
GEOMETRIC PIPING LIMITATIONS WITH ONE OR MORE BC CONTROLLERS
Total effective length
300~550 m.
Effective length of a single circuit
max. 165 m
Equivalent length of a single circuit
max. 190 m
Effective length between outdoor unit and BC controller
max. 110 m
Effective length between BC controller and indoor unit
40~60 m.
SERIES
WR2
*
SINGLE
*
Secondary
BC controller
VERTICAL DIFFERENCE BETWEEN UNITS
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
Indoor/outdoor (indoor unit in higher position)
max. 40 m
Indoor/BC Controller
max. 15 m (10m)
*1
Indoor/Indoor
max. 15 m (10m)
*1
Effective length between outdoor unit and BC controller
max. 15 m (10m)
*1
Vertical difference
between indoor
units and
controller: BC:
max. 15 m
Length of 2-pipe connection
between indoor unit and
BC controller: max. 40 m
BC controllers are connected to each other with three-pipe connections.
*1 Values between brackets ( ) are for P200/P250 indoor units.
Three-pipe connection
between BC controllers
Vertical difference between master
BC controller and secondary
BC controller: max. 15 m
Master BC
Controller
40 m
Length of 2-pipe connection
between outdoor unit and
master BC controller: max. 110 m
* Indicative values only – See technical handbook for installation details.
P100/250 type indoor units and indoor units of any other type must never be connected to the
same branch line.
Table of combinations
CMB-P V-G
CMB-P V-GA
CMB-P V-HA
CMB-P V-GB
CMB-P V-HB
✓ = YES
P 200-250-300-350
P 400-650
✓
✓
✗
✓
✗
✗
✓
✗
✓
✗
✗ = NO
Series WR2 DOUBLE (PQRY-P400~600YSHM-A)
GEOMETRIC PIPING LIMITATIONS WITH ONE OR MORE BC CONTROLLERS
Total effective length
500~750 m.
Effective length of a single circuit
max. 165 m
Equivalent length of a single circuit
max. 190 m
Effective length between outdoor unit and BC controller
max. 110 m
Effective length between BC controller and indoor unit
40~60 m.
Effective length between outdoor units
max. 10 m
SERIES
WR2
*
DOUBLE
Secondary
BC controller
*
Vertical difference
between indoor
units and
controller: BC:
max. 15 m
VERTICAL DIFFERENCE BETWEEN UNITS
Indoor/outdoor (outdoor unit in higher position)
max. 50 m
Indoor/outdoor (indoor unit in higher position)
max. 40 m
Indoor/BC Controller
max. 15 m (10m)
*1
Indoor/Indoor
max. 15 m (10m)
*1
Effective length between outdoor unit and BC controller
max. 15 m (10m)
*1
Between outdoor units
0.1 m max.
Length of 2-pipe connection
between indoor unit and
BC controller: max. 40 m
Three-pipe connection
between BC controllers
Vertical difference between master
BC controller and secondary
BC controller: max. 15 m
Master BC
Controller
40 m
Length of 2-pipe connection
between outdoor unit and
master BC controller: max. 110 m
BC controllers are connected to each other with three-pipe connections.
*1 Values between brackets ( ) are for P200/P250 indoor units.
* Indicative values only – See technical handbook for installation details.
P100/250 type indoor units and indoor units of any other type must never be connected to the
same branch line.
Table of combinations
CMB-P V-G
CMB-P V-GA
CMB-P V-HA
CMB-P V-GB
CMB-P V-HB
✓ = YES
116
✗ = NO
P 200-250-300-350
P 400-650
✓
✓
✗
✓
✗
✗
✓
✗
✓
✗
OUTDOOR UNITS
Indoor units
INDOOR UNITS
INDEX
NEW
PLFY-P VFM-E ........................................................................................................ 124
PLFY-P VBM-E ....................................................................................................... 126
PLFY-P VLMD-E ..................................................................................................... 128
PMFY-P VBM-E ...................................................................................................... 130
PEFY-P VMR-E-L .................................................................................................... 132
PEFY-P VMS1-E ..................................................................................................... 134
PEFY-P VMA-E ....................................................................................................... 136
PEFY-P VMH-E ....................................................................................................... 138
PEFY-P VMHS-E ..................................................................................................... 140
PCFY-P VKM-E ....................................................................................................... 142
PKFY-P VBM-E – PKFY-P VHM-E – PKFY-P VKM-E............................................... 144
ALASPLIT® ............................................................................................................. 146
PAC-LV11-E - Wall mounted indoor unit ................................................................ 148
NEW
PAC-LV11-E - Floor Standing indoor unit ............................................................... 150
PFFY-P VKM-E........................................................................................................ 152
PFFY-P VLEM-E ...................................................................................................... 154
PFFY-P VLRM-E – PFFY-P VLRMM-E ..................................................................... 156
VRF HP DXE – VRF HP R DXE................................................................................ 158
TYPE
CEILING
CASSETTE
4-way flow
MODEL NAME
PLFY-P-VFM-E
NEW
PLFY-P-VBM-E
CEILING
CONCEALED
INDOOR UNITS
2-way flow
PLFY-P-VLMD-E
1-way flow
PMFY-P VBM-E
Low static pressure
PEFY-P VMR-E-L/R
Middle-low static
pressure
PEFY-PVMS1(L)-E
Middle-high static
pressure
PEFY-P VMA(L)-E
High static pressure
PEFY-P VMH-E
High static pressure
PEFY-P VMHS-E
CEILING
SUSPENDED
INDOOR UNITS
PCFY-P VKM-E
WALL MOUNTED
INDOOR UNITS
PKFY-P VBM
PKFY-P VHM
PKFY-P VKM
Wall mounted design
with LEV-KIT
LEV KIT MSZ-EF
(KIRIGAMINE ZEN WHITE,
BLACK, SILVER)
LEV KIT MSZ-SF
FLOOR STANDING
INDOOR UNITS
Floor standing indoor
units with LEV-KIT
LEV KIT WITH MFZ-KJ
NEW
PFFY-P VKM-E
PFFY-P VLEM-E
AIR CURTAIN
120
Concealed type
PFFY-P VLRM-E
PFFY-P VLRMM-E
Exposed type
VRF HP DXE
Recessid type
VRF HP R DXE
MODEL
P15
P20
P25
P32
P40
1,7 kW*1
2,2 kW*1
2,8 kW*1
3,6 kW*1
4,5 kW*1
P50
P63
P71
P80
P100
P125
P140
P200
P250
5,6 kW*1
7,1 kW*1
8,0 kW*1
9,0 kW*1
11,2 kW*1
14,0 kW*1
16,0 kW*1
22,4 kW*1
28,0 kW*1
INDOOR UNITS
121
Style
“PURE WHITE” COLOUR
This is the colour adopted by Mitsubishi Electric for
many of its indoor units. It is a colour suitable for
virtually all interior spaces.
AUTOMATIC VANE
The vane adjusts automatically to the optimum
angle in relation to operating mode and output air
temperature.
Air
distribution
VANE POSITIONS
Number of possible positions for the air
deflector vane.
SWING VANE
A continuous swinging motion of the vane ensures
that air is distributed ideally throughout the room.
1
ALASPLIT® COMPATIBLE
The indoor unit may be installed in the Alasplit®
concealed built-in mounting system
Air Quality
OUTDOOR AIR INTAKE
The air quality in the indoor space may be
improved using the outdoor fresh air intake.
STANDARD FILTER
A honeycomb or synthetic fibre filter with high
dust holding capacity.
LONG-LIFE FILTER
The special surface of the long-life filter requires
less maintenance than a conventional filter.
CATECHIN FILTER
Filter based on a bioflavonoid derived from green
tea, which deodorises the indoor space and
prevents the propagation of viruses and bacteria.
“DIRTY FILTERS” INDICATOR SIGNAL
Filter usage is monitored to indicate when
maintenance is necessary.
“NANO PLATINUM” FILTER
Filter with a platinum nano-particle coating with
potent oxidant properties. Neutralises viruses,
allergens and unpleasant odours.
ANTI-ALLERGY ENZYME FILTERS
Allergens, spores and bacteria are trapped by the
filter and broken down by enzymes in the filter itself.
122
GROUP CONTROL
Up to 16 indoor units of the same series can be
controlled from a single remote control.
2
3
4
FAN SPEED
Number of fan speeds available.
M-NET CONNECTION
The unit may be integrated in an M-NET control
system and configured, monitored and supervised from centralised controller units.
ULTRA-QUIET
These indoor units produce extraordinarily low
sound pressure levels.
Special functions
AUTOMATIC FAN
Fan speed is adjusted automatically to attain the
level of comfort required.
HIGH CEILING
For installations on high ceilings, the air flow may
be augmented to improve air distribution.
LOW CEILING
For installations on low ceilings, the air flow may
be reduced to prevent unpleasant draughts.
AUTO RESTART
In the event of a temporary power loss, the unit
automatically restarts when power is restored
(this function must be enabled for all indoor units
during initial configuration and is disabled by
default).
LOW TEMPERATURE COOLING
Where the ability to cool to lower temperatures
is necessary, the settable temperature range in
cooling mode may be extended to offer a lowest
temperature of 14°C.
Offset -4°
AIR INTAKE ON UNDERSIDE
As an option during installation, the unit may be
configured with the air intake on the underside.
Functions
TIMER
Annual, weekly, daily or simplified timer functions
may be used to switch the unit on and off as
desired.
AUTOMATIC MODE SWITCHING
The indoor unit automatically (AUTO) switches
operating mode (COOL/HEAT) in relation to the
temperature setting.
REMOTE CONTROL
The indoor unit may be linked to a remote control with a timer, which allows access to numerous functions.
AIR STRATIFICATION COMPENSATION
To compensate for air stratification phenomena,
in HEAT mode, the inlet air temperature reading
is adjusted by an offset of -4°C (function enabled
by default, and must be disabled, if required,
during initial configuration).
Installation and
Maintenance
CONDENSATE DRAIN PUMP
The condensate drain pump facilitates installation.
SELF-DIAGNOSTICS
A self-diagnostic system makes troubleshooting
and correcting malfunctions easier by recording
a log of faults.
Special functions
Auto Restart
Low Temperature Cooling
This function extends the operating temperature range in cooling mode to offer a lowest settable
temperature of 14°C. Where the ability to cool to temperatures lower than the standard lowest
comfort value of 19°C (typically for sports centres, laboratories etc.) is necessary, the settable
temperature range in cooling mode may be extended to offer a lowest temperature of 14°C on the
following models:
This function may be enabled during installation and is available on the following models:
• PLFY-PVLMD-2-waycassette
• PEFY-PVMR-Ducted
• PEFY-PVMS1(L)-Ducted
• PEFY-PVMAL-Ducted
• PEFY-PVMH-Ducted
• PEFY-PVMHS-Ducted
• PFFY-PVLEM-Floor-standing
• PFFY-PVLRM-Built-infloorunit
• PFFY-PVLRMM-Built-infloorunit
The indoor unit fan is run at a higher speed in this configuration (except with the SMALL Y model
outdoor unit of the PUMY series).
Stratification compensation
Offset -4°
The automatic heat stratification compensation function in HEAT mode is implemented by adjusting
the ambient temperature read by a probe on the indoor unit, to obtain a value that more closely
reflects the true temperature of the air conditioned space.
Anoffsetof-4°Cisapplied,sothat,forinstance,iftheinlettemperaturemeasuredis24°C,the
systemautomaticallydisplaysanadjustedvalueof20°C,whichshouldmorecloselyreflectthetrue
ambient temperature. The Mitsubishi Electric CITY MULTI VRF system bases the thermal power
actually delivered on this value.
The stratification compensation function is available on all Mitsubishi Electric indoor unit types with
the exception of floor-standing units and certain specific cases (such as with units with underside air
intakes), and may be disabled on request.
123
INDOOR UNITS
The auto restart function may be used to configure the indoor units to restart automatically after a
power outage, minimising interruptions in the operation of the system to maintain thermal comfort
levels in the air conditioned spaces.
This function must be enabled as an option as it is not enabled by default. A choice of two automatic
start configurations is available:
- restart only the indoor units which were on before the power outage;
- restart all indoor units, irrespective of on/off state before the power outage.
CASSETTE
DUCTED
CEILING
DESIGN
NEW
PLFY-P
VFM-E
PLFY-P
VBM-E
PLFY-P
VLMD-E
PMFY-P
VBM-E
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
AIR DISTRIBUTION
AIR QUALITY
✓
1
2
3
4
PEFY-P
VMR-E-L/R
PEFY-P
VMS1-E
✓
✓
✓
✓
✓
✓
5
5
4
4
5
✓
✓
✓
✓
✓
3
4
3
4
3 (P125)
3
3
3
2
✓
3
4
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
FUNCTIONS
PCFY-P
VKM-E
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓*
✓*
✓
✓
✓
FUNCTIONS
MAINTENANCE
PEFY-P
VMHS-E
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
* Available also without pump (VMS1L) (VMAL).
124
PEFY-P
VMH-E
✓
✓
Offset -4°
PEFY-P
VMA-E
✓
✓*
✓
✓
✓
✓
WALL MOUNTED
FLOOR STANDING
AIR CURTAIN
NEW
PKFY-P
VBM-E
PKFY-P
VHM-E
PKFY-P
VKM-E
✓
✓
✓
✓
✓
✓
LEV KIT
MSZ-EF
✓
✓
LEV KIT
MFZ-KJ
PFFY-P
VKM-E
✓
✓
✓
✓
✓
✓
PFFY-P
VLEM-E
PFFY-P
VLRM-E
PFFY-P
VLRMM-E
VRF HP DXE
VRF HP R DXE
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
2
2
3
3
3
✓
✓
✓
✓
✓
4
4
✓
✓
✓
✓
✓
✓
✓
✓
✓
5
4
5
5
4
4
✓
✓
✓
✓
✓
✓
3
2
5
5
5
4
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
✓
125
INDOOR UNITS
✓
LEV KIT
MSZ-SF
PLFY-P VFM-E
NEW
INDOOR UNIT – 4-WAY CASSETTE
The straight-line shape introduced has resulted
in a stylish and modern 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.
1
2
3
4
5
Offset -4°
Simplified installation
The height above ceiling of 245 mm is top class in the industry.
The height above ceiling of 245 mm enables fitting into narrow
ceiling space. Installation is simple, even when the ceiling spaces
are narrow to make the ceilings higher.
245
mm
Superior air flow control
The new airflow control completely eliminates that uncomfortable
drafty-feeling with the introduction of a horizontal airflow that
spreads across the ceiling, maximizing the Coanda effect.
Furthermore, 5 patterns for vane position (on previous VCM was 4)
and individual settable vane and ways ensure higher comfort.
The ideal airflow for offices and restaurants.
126
Light weight (max 15kg) and temporary hanging hooks for grille
allow to make installation easier and quicker.
New size 5kW (P50)
3D i-see Sensor
New model has been introduced to expand line-up.
Newadvanced3Di-seesensordetectspeople’spositionand
number. Once a person is detected, the angle of the vane is
automatically adjusted. Each vane can be indenpendently set to
“Direct Airflow” or “Indirect Airflow” according to taste.
The3Di-seeSensordetectsthenumberofpeopleintheroom
and adjusts the power accordingly. This makes automatic powersaving operation possible in places where the number of people
changes frequently.
MODEL
1.5 kW
2.0 kW
2.5 kW
3.2 kW
4.0 kW
✓
✓
✓
✓
✓
✓
✓
✓
✓
PLFY-P VCM
5.0 kW
➔
PLFY-P VFM
NEW
✓
✓
Quitness
Bythemeansofanew3DTurboFanandDCinvertermotor,
soundlevelhasbeenreducedby2-4dB(A)forquieterandmore
comfortable air conditioning.
INDOOR UNITS
PLFY-P-VFM Cooling
SLP [Lo]
33 dB
Previous model
New model
Additionally, when the area is continuously unoccupied, the
system switches to a more enhanced power-saving mode.
Depending on the setting, it can also stop the operation.
28 dB
30 dB
29 dB
28 dB
26 dB
1.5 kW
26 dB
2.0 kW
29 dB
26 dB
2.5 kW
28 dB
26 dB
3.2 kW
4.0 kW
5.0 kW
TECHNICAL SPECIFICATIONS
MODEL
Power
Capacity in cooling
mode *1
Current
External finish
Dimensions (HxLxW)
Net weight
Heat exchanger
Fan
Air filter
Refrigerant pipe
diameter
Sound pressure*2*3
PLFYP20VFM-E
PLFYP25VFM-E
PLFYP32VFM-E
PLFYP40VFM-E
PLFYP50VFM-E
1,7
2,2
2,8
3,6
4,5
5,6
5800
7500
9600
12300
15400
19100
Singlephase,220-240VAC50Hz
Capacity in heating
mode*1
Power consumption
PLFYP15VFM-E
Cooling
Heating
Cooling
Heating
Unit
Grille
Unit
Grille
Unit
Grille
kW
Btu/h
kW
Btu/h
kW
kW
A
A
1,9
2,5
3,2
4
5
6,3
6500
8500
10900
13600
17100
21500
0,02
0,02
0,02
0,02
0,03
0,04
0,02
0,02
0,02
0,02
0,03
0,04
0,19
0,21
0,22
0,23
0,28
0,4
0,19
0,21
0,22
0,23
0,28
0,4
Galvanised steel sheet with uncoated thermal insulation
Pure White
mm
mm
kg
kg
245x570x570
10x625x625
14
15
3
Cross fins
Type x Quantity
Air flow*2
Ext. Static pressure
3DTurbofanx1
m3/min
Pa
6,5-7,5-8
6,5-7,5-8,5
6,5-8-9
7-8-9,5
7,5-9-11
9-11-13
28-33-39
33-39-43
0
Polypropylen honeycomb (long life)
Gas (swaged)
Liquid (swaged)
mm
mm
dB(A)
12,7
6,35
26-28-30
26-29-31
26-30-33
26-30-34
*1 For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given.
Cooling:indoor27°C(81°F)DB/19°C(66°F)WB,outdoor35°C(95°F)DB.Heating:indoor20°C(68°F)DB,outdoor7°C(45°F)DB/6°C(43°F)WB.
*2 Air flow/noise levels given for operation in low-medium-high modes.
*3Measuredinanechoicchamberwith230Vmainspower.
127
PLFY-P VBM-E
INDOOR UNIT – 4-WAY CASSETTE
The VBM 4-way cassette model offers 72
different selectable air flow configurations and
is the ideal solution for applications with high
ceilingsupto4.2m.
1
2
3
4
5
Offset -4°
Wide air flow
Individually settable vanes
The ability to set the optimum position
for each air distribution vane ensures
superlative comfort throughout the
whole room.
Air flow distributed over a wide
area
The wide-angle outlet vents distribute
air effectively into every corner of the
room.
As well as offering different air flow delivery
modes(2,3or4-way),thisfunctionalso
makes it possible to select the vertical air flow
independently for each vane, to maintain a
comfortable and uniformly distributed ambient
temperature.
The outlet vents are larger than on previous
models, while the shape of the vents has
been optimised to improve ventilation over a
broader area.
▲
✚
* An air shutter (not supplied by
Mitsubishi Electric) must be installed
to permit 2 and 3-way operation.
New 4-way ceiling-mounted cassette unit
Horizontal
Fixed
Downwards
72 settable air flows
128
Individually
settable
vanes
Wide Airflow
Previous
model
Selectable 2, 3 or 4-way
operating modes
The direction of the air
flow from each individual
vane is controllable from a
wired remote control.
Illustration of multi-directional air-conditioning
Adjustable
The ability to set each single air vane to
achieve the ideal air flow for the layout
of the individual room, combined with
the wide angle outlet air flow function,
ensures uniform temperature distribution
in every room. The result is homogeneous,
comfortable air conditioning.
Automatic fan speed adjustment
Draught-free air distribution
The innovative new horizontal stream mode distributes air
horizontally without directing cooled/heated air directly onto the
persons in the air conditioned space, avoiding the perceived sense
of discomfort caused by overexposure to the air flow.
The automatic fan speed adjustment mode ensures fast,
comfortable heating as soon as heating mode is activated.
Automatic fan speed control is included in the four standard
modes“Low”,“Medium1”,“Medium2”and“High”,andensures
faster, comfortable air conditioning by increasing the air flow speed
on activation and then reducing speed once stable comfort levels
are attained.
DRAUGHT-FREE AIR DISTRIBUTION MADE POSSIBLE WITH A
HORIZONTAL AIR STREAM
Low
Medium2
Medium1
High
Automatic
INDOOR UNITS
Condensate drain pump
The VBM series features a built-in condensate drain pump.
TECHNICAL SPECIFICATIONS
PLFYPLFYPLFYPLFYPLFYPLFYPLFYPLFYPLFYP20VBM-E P25VBM-E P32VBM-E P40VBM-E P50VBM-E P63VBM-E P80VBM-E P100VBM-E P125VBM-E
MODEL
Power
Capacity in cooling
mode *1
Asinglephase,220-240V50Hz/asinglephase,200V60Hz
Capacity in heating
mode*1
Power consumption
Current
External finish
(Munsel No.)
Dimensions (HxLxW)
Net weight
Heat exchanger
Fan
Motor
Air filter
Refrigerant pipe
diameter
Cooling
Heating
Cooling
Heating
Unit
Grille
Unit
Grille
Unit
Grille
kW
Btu/h
kW
Btu/h
kW
kW
A
A
2,2
2,8
3.6
4.5
5.6
7.1
9.0
11.2
14.0
7500
9600
12,300
15,400
19,100
24,200
30,700
38,200
47,800
2,5
3,2
4.0
5.0
6.3
8.0
10.0
12.5
16.0
8500
10900
13,600
17,100
21,500
27,300
34,100
42,700
54,600
0,03
0,03
0.03
0.04
0.04
0.05
0.07
0.15
0.16
0,02
0,02
0.02
0.03
0.03
0.04
0.06
0.14
0.15
0,26
0,26
0.22
0.29
0.29
0.36
0.51
1.00
1.07
0,19
0,19
0.14
0.22
0.22
0.29
0.43
0.94
1.00
Galvanised steel sheet
White(6.4Y8.9/0.4)
mm
mm
kg
kg
258x840x840
298x840x840
35x950x950
22
23
27
6
Cross fins (sheet aluminium fins and copper piping)
Type x Quantity
Air flow*2
Static ext.l pressure
Type
Power output
Turbo fan x 1
m3/min
l/s
cfm
Pa
12.5-12-11.5-11
11-12-13-14
12-13-14-16
208-200-192-183
183-200-217-233
200-217-233-267
441-424-406-388
388-424-459-494
424-459-494-565
14-15-16-18
16-18-20-22
21-24-27-29
22-25-28-30
233-250-267-300 267-300-333-367 350-400-450-483 367-417-467-500
494-530-565-636 565-636-706-777 742-848-953-1024 777-883-989-1059
0
DC motor
kW
0.050
0.120
Polypropylene honeycomb
Gas (swaged)
mm
ø12.7
ø12.7/ø15.88
(Compatible)
Liquid (swaged)
mm
ø6.35
ø6.35/ø9.52
(Compatible)
Local drain pipe diameter
Sound pressure*2*3
ø15.88
ø15.88/ø19.05
(Compatible)
ø9.52(ø3/8)
O.D32(1-1/4)<VP-25>
dB(A)
30-29-28-27
27-28-29-31
27-28-30-31
28-29-30-32
30-32-35-37
34-37-39-41
35-38-41-43
*1 For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given.
Cooling:indoor27°C(81°F)DB/19°C(66°F)WB,outdoor35°C(95°F)DB.Heating:indoor20°C(68°F)DB,outdoor7°C(45°F)DB/6°C(43°F)WB.
*2Airflow/noiselevelsgivenforoperationinlow-medium1-medium2-highmodes.
*3Measuredinanechoicchamberwith230Vmainspower.
129
PLFY-P VLMD-E
INDOOR UNIT – 2-WAY CASSETTE
The slimline design of this unit – which
measures just 290 mm in height – makes it
the ideal solution for installations with limited
ceiling space and for replacing obsolete units
in old buildings.
1
2
3
4
4
Offset -4°
General characteristics
Condensate lift pump
Terminal board
The terminal board is located on the exterior of the main unit to
make wiring connections easier.
Direct inlet for external air
Pure fresh air may be fed directly into the main unit (requires
optional accessories).
Long-life filter fitted as standard
The long-life antibacterial filter requires no maintenance
whatsoever for intervals of approximately one year.
The standard version is equipped with a condensate lift pump
mechanism.Thisallowsthedrainoutlettobesituatedupto583
mm from the level of the ceiling, allowing for greater freedom of
movement with longer transverse sections of piping, and greater
flexibility in the layout of the piping itself.
Maximum lift
height: 583 mm
Unit housing height: 290 mm
Surface of double ceiling
Compact unit with low noise levels
Noselevelsat15Pa(standardstaticpressure).
dB(A)
130
Fan Speed
NOISE LEVEL
dB(A)
Capacity
P20
P25
P32
583
P40
P50
P63
P80 P100 P125
High
33
36
37
39
39
42
46
Medium
30
33
34
37
36
39
42/44
Low
27
29
31
32
33
36
40
Easier installation
The possibility of using a lighter panel and of placing the electrical
board near the panel make installation and maintenance simpler.
Moreover, the heat exchanger can be washed easily by simply
moving the central panel, filter and fan.
TECHNICAL SPECIFICATIONS
MODEL
PLFY-P20VLMD-E
Power
Capacity in cooling
mode *1
Current
External finish
(Munsel No.)
Dimensions (HxLxW)
Net weight
Motor
PLFY-P40VLMD-E
Cooling
Heating
Cooling
Heating
Unit
Grille
Unit
Grille
Unit
Grille
kW
Btu/h
kW
Btu/h
kW
kW
A
A
2.2
2.8
3.6
4.5
7,500
9,600
12,300
15,400
2.5
3.2
4.0
5.0
8,500
10,900
13,600
17,100
0.072/0.075
0.072/0.075
0.072/0.075
0.081/0.085
0.065/0.069
0.065/0.069
0.065/0.069
0.074/0.079
0.36/0.37
0.36/0.37
0.36/0.37
0.40/0.42
0.30/0.32
0.30/0.32
0.30/0.32
0.34/0.37
Galvanised steel sheet
White(0.7Y8.59/0.97)
mm
mm
kg
kg
290x776x634
20x1080x710
23
24
6.5
Cross fin
Type x Quantity
Air flow*2
Static ext.l pressure
Type
Power output
Air filter
Refrigerant pipe
diameter
Turbo fan x 1
m3/min
l/s
cfm
Pa
6.5-8.0-9.5
7.0-8.5-10.5
108-133-158
117-142-175
230-283-335
INDOOR UNITS
Heat exchanger
Fan
PLFY-P32VLMD-E
Asinglephase,220-240V50Hz/asinglephase,220-230V60Hz
Capacity in heating
mode*1
Power consumption
PLFY-P25VLMD-E
247-300-371
0
DC motor
kW
0.015(at240V)
Polypropylene honeycomb (long life)
Gas (swaged)
Liquid (swaged)
Local drain pipe diameter
220V, 240V
Sound pressure*2*3
230V
mm
mm
ø12.7
ø6.35
O.D.32
dB(A)
dB(A)
27-30-33
29-33-36
28-31-34
30-34-37
TECHNICAL SPECIFICATIONS
PLFYP50VLMD-E
MODEL
Power
Capacity in cooling
mode *1
Current
External finish
(Munsel No.)
Dimensions (HxLxW)
Net weight
Heat exchanger
Fan
Motor
Cooling
Heating
Cooling
Heating
Unit
Grille
Unit
Grille
Unit
Grille
kW
Btu/h
kW
Btu/h
kW
kW
A
A
PLFYP100VLMD-E
PLFYP125VLMD-E
5.6
7.1
9.0
4.5
14.0
19,100
24,200
30,700
15,400
47,800
6.3
8.0
10.0
5.0
16.0
21,500
27,300
34,100
17,100
54,600
0.082/0.086
0.101/0.105
0.147/0.156
0.081/0.085
0.28/0.28
0.075/0.080
0.094/0.099
0.140/0.150
0.074/0.079
0.27/0.27
0.41/0.43
0.49/0.51
0.72/0.74
0.40/0.42
1.35/1.35
0.35/0.38
0.43/0.46
0.66/0.69
0.34/0.37
1.33/1.33
Galvanised steel sheet
White(0.7Y8.59/0.97)
mm
mm
kg
kg
290x946x634
290x1446x634
20x1250x710
20x1750x710
23
28
44
290x1708x606
20x2010x710
47
7.5
12.5
56
13.0
Cross fin
Type x Quantity
Air flow*2
Static ext.l pressure
Type
Power output
Turbo fan x 1
m3/min
l/s
cfm
Pa
Gas (swaged)
Liquid (swaged)
Local drain pipe diameter
220V, 240V
Sound pressure*2*3
230V
Turbofanx2
Scirocco fan x 4
6.5-8.0-9.5
11.0-13.0-15.5
15.5-18.5-22.0
17.5-21.0-25.0
108-133-158
167-217-258
258-308-367
292-350-417
400-450-500-550
230-283-335
353-459-547
547-653-777
618-742-883
848-953-1,059-1,165
24.0-27.0-30.0-33.0
0
Single-phase induction motor
kW
0.020(a240V)
Air filter
Refrigerant pipe
diameter
PLFYP80VLMD-E
Asinglephase,220-240V50Hz/asinglephase,220-230V60Hz
Capacity in heating
mode*1
Power consumption
PLFYP63VLMD-E
0.020(a240V)
0.030(a240V)
Polypropylene honeycomb (long life)
mm
mm
ø12.7
0.078x2(a240V)
Synthetic fiber unwowen
cloth filter (long life)
ø15.88
ø6.35
ø9.52
O.D.32(1-1/4)
dB(A)
dB(A)
31-34-37
32-37-39
33-36-39
36-39-42
40-42-44-46
32-35-38
33-38-40
34-37-40
37-41-43
40-42-44-46
*1 For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given.
Cooling:indoor27°C(81°F)DB/19°C(66°F)WB,outdoor35°C(95°F)DB.Heating:indoor20°C(68°F)DB,outdoor7°C(45°F)DB/6°C(43°F)WB.
*2Airflow/noiselevelsgivenforoperationinlow-medium1-medium2-highmodes.
*3Measuredinanechoicchamberwith230Vmainspower.
131
PMFY-P VBM-E
INDOOR UNIT – 1-WAY CASSETTE
Compact, lightweight design ideal for applications in rooms with limited ceiling space.
4
1
2
3
4
Offset -4°
Easier installation and maintenance
Quiet operation
Allmodelssharethesamestandardsizeof854mmforfacilitated
installation. With the main unit weighing just 14 kg and the panel
just3kg,thisisoneofthelightestunitsavailableonthemarket
today.
Condensate lift pump
Improved Coanda effect
Thecondensatedrainoutletmaybesituatedanywhereupto600
mm from the level of the ceiling.
max.
402
(15-7/8)
max.
600*
230
(9-11/16)
PMFY-VBM
198
(7-13/16)
dimensions in mm
132
Newairflowcontroltechnologyreducesnoiselevelstojust27dB
(P20VBM),makingtheseamongthequietestunitsintheirclass.
This effect gives the air flow a specific trajectory which contributes
to creating more uniform circulation in the air conditioned room.
TECHNICAL SPECIFICATIONS
MODEL
PMFY-P20VBM-E
Power
Capacity in cooling
mode *1
Current
External finish
(Munsel No.)
Dimensions (HxLxW)
Net weight
Motor
Air filter
Refrigerant pipe
diameter
PMFY-P40VBM-E
Cooling
Heating
Cooling
Heating
Unit
Grille
Unit
Grille
Unit
Grille
kW
Btu/h
kW
Btu/h
kW
kW
A
A
2.2
2.8
3.6
4.5
7,500
9,600
12,300
15,400
2.5
3.2
4.0
5.0
8,500
10,900
13,600
17,100
0.042
0.044
0.054
0.042
0.044
0.054
0.20
0.21
0.26
0.20
0.21
0.26
Galvanised steel sheet
Panel(0.98Y8.99/0.63)
mm
mm
kg
kg
230x812x395
30x1000x470
14
3
Cross fins (sheet aluminium fins and copper piping)
Type x Quantity
Air flow*2
Static ext.l pressure
Type
Power output
Gas (swaged)
Liquid (swaged)
Local drain pipe diameter
Sound pressure*2*3
Linear flow fan x 1
m3/min
l/s
cfm
Pa
6.5-7.2-8.0-8.7
7.3-8.0-8.6-9.3
7.7-8.7-9.7-10.7
108-120-133-145
122-133-143-155
128-145-162-178
230-254-283-307
258-283-304-328
272-307-343-378
INDOOR UNITS
Heat exchanger
Fan
PMFY-P32VBM-E
Asingle-phase,220-240V50Hz/asingle-phase,220-230V60Hz
Capacity in heating
mode*1
Power consumption
PMFY-P25VBM-E
0
Single-phase induction motor
kW
0.028
Polypropylene honeycomb fabric
mm
mm
ø12.7
ø6.35
I.D.26<VP-20>
dB(A)
27-30-33-35
32-34-36-37
33-35-37-39
*1 For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given.
Cooling:indoor27°C(81°F)DB/19°C(66°F)WB,outdoor35°C(95°F)DB.Heating:indoor20°C(68°F)DB,outdoor7°C(45°F)DB/6°C(43°F)WB.
*2Airflow/noiselevelsgivenforoperationinlow-medium1-medium2-highmodes.
*3Measuredinanechoicchamberwith230Vmainspower.
133
PEFY-P VMR-E-L
INDOOR UNIT – BUILT-IN FOR DOUBLE CEILINGS
LOW STATIC PRESSURE
Offers the perfect solution to the specific needs
of hotels, museums, libraries and hospitals,
where quietness is an indispensable requisite.
1
2
3
4
Offset -4°
Ultra-low noise
AIR
AIR INTAKE
INTAKE
ACCESS
ACCESS
HATCH
HATCH
These units may be used to achieve a silent environment, with
21dBintheareanearthebedand22dBintheareanearthedesk.
KEY CARD SYSTEM NOISE LEVEL
SWITCH
MEASUREMENT POINT 1
*Noise levels may vary depending on the dimensions of the room and the
settings of the unit itself.
•22dB
NOISE
NOISE LEVEL
LEVEL
MEASUREMENT
MEASUREMENT POINT
POINT 22
•21dB
Simplified maintenance
The condensate collection tray and heat exchangers may be
cleaned via an access hatch in the utility space. This makes
maintenance both simpler and less expensive.
Key card system activation
The unit may be switched on and off by inserting a key card.
Energy savings
The centralised system offers significant savings by preventing
units from operating continuously in unoccupied rooms.
Note: Each room may also be furnished with simplified, compact controllers, with
only on/off and fan speed and temperature setting functions, to let the occupants
of each room create their own ideal comfort conditions.
134
Installation layouts for different applications and locations
Air intake on underside of unit
(mounted directly on panel)
Air intake on underside of unit
(with fabric duct)
Total duct system
Connection flange
Service panel
Panel with air inlet vent
Double ceiling system (1)
Suspended ceiling installation
Double ceiling system (2)
Configuration with inlet
on underside of unit also possible
Configuration with
inlet at back of unit
also possible
Service panel
Connection flange
Double ceiling
INDOOR UNITS
TECHNICAL SPECIFICATIONS
MODEL
PEFY-P20VMR-E-L
Power
Capacity in cooling
mode *1
Current
External finish
Dimensions (HxLxW)
Net weight
Heat exchanger
Fan
Motor
Air filter
Refrigerant pipe
diameter
PEFY-P32VMR-E-L
Asinglephase,220-230-240V50Hz/asinglephasefase,220-230V60Hz
Capacity in heating
mode *1
Power consumption
PEFY-P25VMR-E-L
Cooling
Heating
Cooling
Heating
Rear air intake
Air intake under unit
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
mm
kg
2.2
2.8
3.6
7,500
9,600
12,300
2.5
3.2
4.0
8,500
10,900
13,600
0.06/0.06
0.06/0.06
0.07/0.08
0.06/0.06
0.06/0.06
0.07/0.08
0.29/0.29
0.29/0.29
0.34/0.38
0.29/0.29
0.29/0.29
0.34/0.38
Galvanised
292x640x580
300x640x570
18
Cross fins (sheet aluminium fins and copper piping)
Type x Quantity
Air flow
(low-medium-high)
Scirocco fan x 1
m3/min
Static extern. pressure Pa
Type
Power output
kW
Gas
Liquid
Local drain pipe diameter
220V
Sound pressure
(low-medium-high)*2 230V
240V
4.8-5.8-7.9
4.8-5.8-9.3
5
Single-phase induction motor
0.018
0.023
Polypropylene honeycomb fabric (washable)
mm
mm
ø12.7brazed
ø6.35brazed
O.D.26
dB(A)
dB(A)
dB(A)
20-25-30
20-25-33
21-26-32
21-26-35
22-27-30
22-27-33
*1 For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given.
Cooling:indoor27°C(81°F)DB/19°C(66°F)WB,outdoor35°C(95°F)DB.Heating:indoor20°C(68°F)DB,outdoor7°C(45°F)DB/6°C(43°F)WB.
*2 Measured in anechoic chamber. Noise levels for unit with rear air intake (noise levels are higher than with an air intake on underside of unit).
135
PEFY-P VMS1-E
INDOOR UNIT – BUILT-IN FOR DOUBLE CEILINGS
MEDIUM TO LOW STATIC PRESSURE
This ultra-slim 200 mm unit offers extraordinary
flexibility and is particularly suitable for use in
rooms where low noise and compact vertical
dimensions are essential.
1
2
3
4
Offset -4°
Optional
Ultra-slim
Adjustable static pressure
Theseunitsareextremelythin,atjust200mminheight.
Extremely compact width and lengths of:
7790
mm for P15 and P32 models
990
mm for P40 and P50 models
1190
mm for P63 models
With4selectablestaticpressuresettings(5,15,25and50Pa),this
unit is ideal for a variety of different applications.
May be installed easily in cramped spaces such as ceiling
recesses or double ceilings.
Three different fan speed settings - “low”, “medium” and “high” –
ensure the desired levels of comfort.
Adjustable air flow
Low noise
The new design of the centrifugal fan and coil reduces noise levels.
dB(A)
Access hatch
Access hatch situated in recommended position for
easier maintenance.
Condensate lift pump
The VMS1 is equipped with a condensate lift pump as standard.
136
Capacity
Fan speed
Ceiling surface
NOISE LEVEL
More than 20 mm
More than 10 mm
790mm
P15
P20
P25
P32
P40
P50
P63
High
28
32
33
35
36
Medium
24
27
30
32
33
Low
22
24
28
30
30
TECHNICAL SPECIFICATIONS
MODEL
Power
Capacity in
cooling mode *1
Current
External finish
Dimensions HxLxW
Net weight*3
Heat exchanger
Fan
Air filter
Refrigerant pipe
diameter
PEFYP25VMS1-E
PEFYP32VMS1-E
PEFYP40VMS1-E
PEFYP50VMS1-E
PEFYP63VMS1-E
Cooling*3
Heating*3
Cooling*3
Heating*3
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
kg
1.7
2.2
2.8
3.6
4.5
5.6
7.1
5,800
7,500
9,600
12,300
15,400
19,100
24,200
1.9
2.5
3.2
4.0
5.0
6.3
8.0
6,500
8,500
10,900
13,600
17,100
21,500
27,300
0.05[0.03]
0.05[0.03]
0.06[0.04]
0.07[0.05]
0.07[0.05]
0.09[0.07]
0.09[0.07]
0.03[0.03]
0.03[0.03]
0.04[0.04]
0.05[0.05]
0.05[0.05]
0.07[0.07]
0.07[0.07]
0.42[0.31]
0.47[0.36]
0.50[0.39]
0.50[0.39]
0.56[0.45]
0.67[0.56]
0.72[0.61]
0.31[0.31]
0.36[0.36]
0.39[0.39]
0.39[0.39]
0.45[0.45]
0.56[0.56]
0.61[0.61]
Galvanised
200x790x700
19[18]
200x990x700
200x1,190x700
24[23]
28[27]
20[19]
Cross fins (sheet aluminium fins and copper piping)
Type x Quantity
Air flow
(low-medium-high)
Sciroccofanx2
m3/min
5-6-7
5.5-6.5-8
Sciroccofanx3
5.5-7-9
Static external press. *2 Pa
Type
Power output
kW
Gas
Liquid
Local drain pipe diameter
Sound pressure
(low-medium-high)
6-8-10
8-9.5-11
9.5-11-13
Ventil. Scirocco x 4
12-14-16.5
5-15-35-50
Brushless DC motor
0.096
Polypropylene honeycomb fabric (washable)
mm
mm
ø12.7,brazed
ø15.88,brazed
ø6.35,brazed
ø9.52,brazed
O.D.32
dB(A)
22-24-28
23-25-29
24-26-30
24-27-32
28-30-33
30-32-35
30-33-36
*1 For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given.
Cooling:indoor27°CDB/19°CWB,outdoor35°CDB.
Heating:indoor20°CDB(68°FDB),outdoor7°CDB(45°FDB/43°FWB).Pipelength:7.5m(24-9/16feet).
Heightdifference:0m(0feet).
*2Staticexternalpressureissetto15Pabydefault.
*3[]incaseofPEFY-P15-63VMS1L-E.
137
INDOOR UNITS
Motor
PEFYP20VMS1-E
Asingle-phase,220-240V,50Hz/asingle-phase,200V,60Hz
Capacity in
heating mode *1
Power consumption
PEFYP15VMS1-E
PEFY-P VMA-E
INDOOR UNIT – BUILT-IN FOR DOUBLE CEILINGS
MEDIUM TO HIGH STATIC PRESSURE
Featuring very precise ambient temperature
control, the VMA(L) series ducted unit offers
unparalleled energy efficiency.
1
2
3
4
Offset -4°
Compact unit
The entire VMA(L) series offers extraordinarily compact
dimensions:measuringjust250mminheight,thistheperfect
solution for installation in cramped spaces.
Condensate lift pump
Static pressure
Static external pressure is adjustable to suit the system
configuration and installation conditions. The static pressure may be
modified to cater for all types of ducting and to allow for functional
upgrades such as installing high performance filters, etc. To cater for
different layouts and configurations, the static pressure is adjustable
withinarangefrom35Pato150Pa*.
*Defaultsetting50Pa.
The VMA is equipped with a condensate lift pump.
Intake on underside of unit
During installation, the unit may be configured with the air intake on
the underside.
Air inlet
Air inlet
Air outlet
138
Air outlet
TECHNICAL SPECIFICATIONS
MODEL
Power
Capacity in
cooling mode *1
Current
External finish
Dimensions HxLxW
Net weight
Heat exchanger
Fan
PEFYP32VMA-E
PEFYP40VMA-E
PEFYP50VMA-E
PEFYP63VMA-E
Cooling
Heating
Cooling
Heating
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
kg
2.2
2.8
3.6
4.5
5.6
7.1
7,500
9,600
12,300
15,400
19,100
24,200
2.5
3.2
4.0
5.0
6.3
8.0
8,500
10,900
13,600
17,100
21,500
27,300
0.06
0.06
0.07
0.09
0.11
0.12
0.04
0.04
0.05
0.07
0.09
0.10
0.53
0.53
0.55
0.64
0.74
1.01
0.42
0.42
0.44
0.53
0.63
0.90
Galvanised steel plate
250x700x732
250x900x732
250x1,100x732
23
26
32
Cross fins (sheet aluminium fins and copper piping)
Type x Quantity
Air flow
(low-medium-high)
Static external press.
Type
Power output
Air filter
Refrigerant pipe
diameter
Scirocco fan x 1
m3/min
l/s
cfm
Pa
Sciroccofanx2
6.0-7.5-8.5
6.0-7.5-8.5
7.5-9.0-10.5
10.0-12.0-14.0
12.0-14.5-17.0
100-125-142
100-125-142
125-150-175
167-200-233
200-242-283
13.5-16.0-19.0
225-267-317
212-265-300
212-265-300
265-318-371
353-424-494
424-512-600
477-565-671
35/50/70/100/150
Single-phase brushless DC motor
kW
0.085
0.121
Polypropylene honeycomb fabric (washable)
Gas (swaged)
Liquid (swaged)
Local drain pipe diameter
Sound pressure (low-medium-high)*2
mm
mm
ø6.35
ø9.52
ø12.7
ø15.88
O.D.32(1-1/4)
dB(A)
26-28-29
26-28-29
28-30-34
28-30-34
28-32-35
29-32-36
TECHNICAL SPECIFICATIONS
MODEL
Power
Capacity in
cooling mode *1
Current
External finish
Dimensions HxLxW
Net weight
Heat exchanger
Fan
Motor
Air filter
Refrigerant pipe
diameter
PEFYP80VMA-E
PEFYP100VMA-E
PEFYP125VMA-E
8.0
9.0
11.2
14.0
16.0
27,300
30,700
38,200
47,800
54,600
PEFYP140VMA-E
Asingle-phase,220-240V,50Hz
Capacity in
heating mode *1
Power consumption
PEFYP71VMA-E
Cooling
Heating
Cooling
Heating
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
kg
9.0
10.0
12.5
16.0
18.0
30,700
34,100
42,700
54,600
61,400
0.14
0.14
0.24
0.34
0.36
0.12
0.12
0.22
0.32
0.34
1.15
1.15
1.47
2.05
2.21
1.04
1.04
1.36
1.94
2.10
Galvanised steel plate
250x1,100x732
250x1,400x732
250x1,600x732
32
42
46
Cross fins (sheet aluminium fins and copper piping)
Type x Quantity
Air flow
(low-medium-high)
Static external pres.
Type
Power output
Gas (swaged)
Liquid (swaged)
Local drain pipe diameter
Sound pressure (low-medium-high)*2
Sciroccofanx2
m3/min
l/s
cfm
Pa
14.5-18.0-21.0
14.5-18.0-21.0
23.0-28.0-33.0
28.0-34.0-40.0
242-300-350
242-300-350
383-467-550
467-567-667
29.5-35.5-42.0
492-592-700
512-636-742
512-636-742
812-989-1,165
989-1,201-1,412
1,042-1,254-1,483
35/50/70/100/150
Single-phase brushless DC motor
kW
0.121
0.244
Polypropylene honeycomb fabric (washable)
mm
mm
ø9.52
ø15.88
O.D.32(1-1/4)
dB(A)
30-34-38
30-34-38
32-37-41
35-40-44
36-41-45
*1 For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given.
Cooling:indoor27°C(81°F)DB/19°C(66°F)WB,outdoor35°C(95°F)DB.
Heating:indoor20°C(68°F)DB,outdoor7°C(45°F)DB/6°C(43°F)WB.
2
* Measured in anechoic chamber.
139
INDOOR UNITS
Motor
PEFYP25VMA-E
Asingle-phase,220-240V,50Hz
Capacity in
heating mode *1
Power consumption
PEFYP20VMA-E
PEFY-P VMH-E
INDOOR UNIT – BUILT-IN FOR DOUBLE CEILINGS
HIGH STATIC PRESSURE
The greater flexibility offered by the capability of
setting different static external pressure levels
makes creating a true ducted air conditioning
system possible without compromising the
style of an elegant interior design.
1
2
3
4
Offset -4°
Optional
Simplified maintenance
All maintenance operations for the unit, including checking the
fan and removing the relative motor, are performed via a specific
service access aperture on one side.
Maximum static external pressure 200 Pa
The augmented static external pressure capacity offers greater
flexibility in terms of ducting length, the use of two-way branch
pipes and air outlet configuration.
dB(A)
Condensate lift pump with maximum lift
The additional of the optional condensate lift pump makes it
possibletoplacethedrainconnectionupto550mabovetheunit,
for superlative freedom in defining pipe layouts and reducing the
need for horizontal pipes.
Static external
pressure
(Pa)
P40
P50
P63
P71
P80
220V
50/100/200
230/240V
100/150/200
380V
-
400/415V
-
P100 P125 P140
Low noise
The new design of the centrifugal fan and motor coil further
reduces noise levels.
328mm
328mm
140
Capacità
Fan speed
222mm
222mm
MAX.
MAX.
550mm
550mm
Noise level
dB(A)
P40
P50
P63
P71
P80
P100 P125 P140
High
34
34
38
39
41
42
42
42
Low
27
27
32
32
35
34
34
34
TECHNICAL SPECIFICATIONS
MODEL
Power
Capacity in
cooling mode *1
Capacity in
heating mode *1
Power consumption Cooling
Heating
Current
Cooling
Heating
External finish
Dimensions HxLxW
Net weight
Heat exchanger
Type x Quantity
Fan
Air flow
(low-high)
PEFY-P40VMH-E
PEFY-P50VMH-E
PEFY-P63VMH-E
PEFY-P71VMH-E
Asingle-phase,220-240V,50Hz/asingle-phase,220-240V,50Hz
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
kg
4.5
5.6
7.1
8.0
15,400
19,100
24,200
27,300
5.0
6.3
8.0
9.0
17,100
21,500
27,300
30,700
0.19/0.23
0.24/0.30
0.26/0.33
0.19/0.23
0.24/0.30
0.26/0.33
0.88/1.06
1.12/1.38
1.20/1.51
0.88/1.06
1.12/1.38
1.20/1.51
Galvanised
380x750x900
380x1,000x900
44
45
50
Cross fins (aluminium fins and copper piping)
Scirocco fan x 1
10.0-14.0
13.5-19.0
15.5-22.0
167-233
225-317
258-367
353-494
477-671
547-777
INDOOR UNITS
m3/min
l/s
cfm
Pa
Static external 220V
pressure*2
230,240 V Pa
Type
Motor
Power output
kW
Gas (swaged)
mm
Refrigerant pipe
diameter
Liquid (swaged)
mm
Local drain pipe diameter
220V
dB(A)
Sound pressure
(low-high)*3
230,240 V
dB(A)
50·100·200
100·150·200
Single-phase induction motor
0.08
0.12
0.14
ø12.7
ø15.88
ø15.88
ø9.52
ø9.52
ø6.35
O.D.32
27-34
32-38
32-39
31-37
36-41
35-41
PEFY-P125VMH-E
PEFY-P140VMH-E
TECHNICAL SPECIFICATIONS
PEFY-P80VMH-E
MODEL
Power
Capacity in
cooling mode *1
Capacity in
heating mode *1
Power consumption Cooling
Heating
Current
Cooling
Heating
External finish
Dimensions HxLxW
Net weight
Heat exchanger
Type x Quantity
Fan
Air flow
(low-high)
PEFY-P100VMH-E
Asingle-phase,220-240V,50Hz/asingle-phase,220-240V,50Hz
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
kg
m3/min
l/s
cfm
Pa
Static external 220V
pressure*2
230,240 V Pa
Type
Motor
Power output
kW
Gas (swaged)
mm
Refrigerant pipe
diameter
Liquid (swaged)
mm
Local drain pipe diameter
220V
dB(A)
Sound pressure
(low-high)*3
230,240 V
dB(A)
9.0
11.2
14.0
16.0
30,700
38,200
47,800
54,600
10.0
12.5
16.0
18.0
34,100
42,700
54,600
61,400
0.32/0.40
0.48/0.58
0.48/0.59
0.32/0.40
0.48/0.58
0.48/0.59
1.47/1.83
2.34/2.66
2.35/2.70
1.47/1.83
2.34/2.66
2.35/2.70
Galvanised
380x1,000x900
380x1,200x900
50
70
Cross fins (aluminium fins and copper piping)
Scirocco fan x 1
18.0-25.0
26.5-38.0
300-417
442-633
28.0-40.0
467-667
636-883
936-1342
989-1413
50·100·200
100·150·200
Single-phase induction motor
0.18
0.26
ø15.88
ø9.52
O.D.32
35-41
34-42
38-43
38-44
*1 For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given.
Cooling:indoor27°C(81°F)DB/19°C(66°F)WB,outdoor35°C(95°F)DB.Heating:indoor20°C(68°F)DB,outdoor7°C(45°F)DB/6°C(43°F)WB.
*2Staticpressureissetto100Pa(for220Vmains)/150Pa(for230and240Vmains)bydefault.
*3 Measured in anechoic chamber.
141
PEFY-P VMHS-E
INDOOR UNIT – BUILT-IN FOR DOUBLE CEILINGS
HIGH STATIC PRESSURE
The new VMHS series: improved installation
flexibility and superior performance.
2
1
3
4
Offset -4°
Optional
DC Inverter motor
The new VMHS ducted indoor units are equipped with a singlephase DC Inverter electric motor, a solution that offers more
precise electronic control and less noise.
Remotely settable static overpressure
The static overpressure may be modified from a remote control.
In addition to a dip switch on the unit, the PAR-30MAA remote
control may also be used to modify static external pressure,
making installation significantly simpler.
A choice of up to five different settings is available: 50, 100, 150,
200 or 250 Pa.
142
Automatic fan speed adjustment
The automatic fan speed adjustment mode ensures fast,
comfortable heating as soon as heating mode is activated.
Automatic fan speed control is included in the three standard
modes “Low”, “Medium” and “High”, and ensures faster,
comfortable air conditioning by increasing the air flow speed on
activation and then reducing speed once stable comfort levels are
attained.
Quieter
The VMHS series is 15% quieter than the previous VMH model.
TECHNICAL SPECIFICATIONS
MODEL
PEFY-P200VMHS-E
Power
Capacity in
cooling mode *1
A single-phase, 220-240V, 50Hz
Capacity in
heating mode *1
Power consumption
Current
External finish
Dimensions (HxLxW)
Net weight
Heat exchanger
Fan
Air filter
Refrigerant pipe
diameter
Heating
Cooling
Heating
Cooling
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
kg
22.4
28.0
76,000
95,500
25.0
31.5
72,300
90,400
0.63/0.63/0.63
0.82/0.82/0.82
0.63/0.63/0.63
0.82/0.82/0.82
3.47/3.32/3.18
4.72/4.43/4.14
3.47/3.32/3.18
4.72/4.43/4.14
Galvanised
470 x 1250 x 1120
97
100
Cross Fin
Type x Quantity
Air flow
(low-medium-high)
Scirocco x 2
m3/min
50-61-72
Static external pres.*2 Pa
Type
Power output
kW
Gas
Liquid
Local drain pipe diameter
Sound pressure (low-medium-high)*3
58-71-84
(50)/(100)/150/(200)/(250)
INDOOR UNITS
Motor
PEFY-P250VMHS-E
Single-phase induction motor
0.87
-
mm
mm
19.05
22.2
9.52
9.52
32
dB(A)
36-39-43
39-42-46
*1 For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given:
Cooling: 27°C DB / 19°C WB, outdoor 35°C DB. Heating: 27°C DB, outdoor 7°C DB / 6°C WB.
*2 Static pressure is set to 150 Pa by default.
*3 Measured in anechoic chamber.
143
PCFY-P VKM-E
INDOOR UNIT – CEILING-SUSPENDED
Designed and built for quiet operation and
simple maintenance, these units deliver
efficient, comfortable air conditioning
performance.
1
2
3
4
5
Offset -4°
Optimised air flow
Air flow speed is optimised for the height of the ceiling. The ideal
air flow setting may be selected for ceilings up to 4.2m in height,
maximising both air conditioning efficacy and comfort.
Extra-slim
Extremely slim and with elegant curves, the PCFY series is
perfectly suited to any interior. The unit also features a single air
outlet, meaning that the automatic swing vane also doubles as a
shutter when the unit is off.
Extremely simple installation
With the direct mount system, it is not necessary to remove the
mounting from the main unit, cutting installation times.
The condensate drain pipes may be connected on the left or right
of the unit.
Automatic fan speed adjustment
As well as the 4 manual fan speed settings, the PCFY series may
also be set to automatically adjust fan speed in relation to ambient
conditions: the fan speed is always set to the highest setting when
the unit is switched on, to reach the desired conditions more
quickly, and is reduced automatically near the setpoint for stable
comfort.
144
Automatic swing vane
The automatic swing vane mode
distributes air more uniformly.
The vane swings upwards and
downwards automatically to
distribute air effectively into every
corner of the room.
Swing
vane
Automatic
action
TECHNICAL SPECIFICATIONS
MODEL
Power
Capacity in
cooling mode *1
Current
External finish
Dimensions (HxLxW)
Net weight
Heat exchanger
Fan
Air filter
Refrigerant pipe
diameter
PCFY-P100VKM-E
PCFY-P125VKM-E
Heating
Cooling
Heating
Cooling
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
kg
4.5
7.1
11.2
14.0
15,400
24,200
38,200
47,800
5.0
8.0
12.5
16.0
17,100
27,300
42,700
54,600
0.04
0.05
0.09
0.11
0.04
0.05
0.09
0.11
0.28
0.33
0.65
0.76
0.28
0.33
0.65
0.76
230x960x680
230x1,280x680
24
32
Munsell 6.4Y 8.9/ 0.4
230x1,600x680
36
38
Cross fins (aluminium fins and copper piping)
Type x Quantity
Air flow*2
Static external pres.
Type
Power output
Gas (swaged)
Liquid (swaged)
Local drain pipe diameter
Sound pressure*2*3
m3/min
l/s
cfm
Pa
Scirocco fan x 2
Scirocco fan x 3
10-11-12-13
14-15-16-18
21-24-26-28
Scirocco fan x 4
21-24-27-31
167-183-200-217
233-250-267-300
350-400-433-467
350-400-450-517
353-388-424-459
494-530-565-636
742-847-918-989
742-847-953-1,095
0
Single-phase DC motor
kW
0.090
0.095
0.160
Polypropylene honeycomb fabric (long life)
mm
mm
ø6.35
dB(A)
29-32-34-36
ø12.7
ø15.88
ø15.88 / ø19.05 (compatible)
ø9.52
O.D. 26 (1)
31-33-35-37
36-38-41-43
36-39-42-44
*1 For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given.
Cooling: indoor 27°C (81°F) DB/19°C (66°F) WB, outdoor 35°C (95°F) DB. Heating: indoor 20°C (68°F) DB, outdoor 7°C (45°F) DB/6°C (43°F) WB.
*2 Air flow/noise levels given for operation in low-medium1-medium2-high modes.
*3 Measured in anechoic chamber.
145
INDOOR UNITS
Motor
PCFY-P63VKM-E
A single-phase, 220-240V, 50Hz
Capacity in
heating mode *1
Power consumption
PCFY-P40VKM-E
PKFY-P VBM-E
PKFY-P VHM-E
PKFY-P VKM-E
PKFY-P VHM
PKFY-P VBM
INDOOR UNIT – WALL-MOUNTED
PKFY-P VKM
An elegant design with simple, clean lines,
compact dimensions and a distinctly
recognisable family look: the ideal solution
for residential applications, offices and
large stores.
VHM (P32~P50)
5
1
2
3
4
Offset -4°
VBM (P15~P25)
VKM (P63~P100)
4
1
2
3
4
1
2
3
4
4
Offset -4°
Offset -4°
A choice of 5 installation configurations
A choice of 5 different piping configurations offers extraordinary installation flexibility.
All the pipes, including the condensate drain line, may be connected to the back, left or right hand sides or base of the unit, for total flexibility
in routing the pipelines and choosing the ideal location for the installation.
Smooth front panel with pure white finish
All the models of the PKFY series now feature a smooth front
panel instead of the mesh used on the previous version. The units
themselves are now finished in pure white instead of standard
appliance white to fit in perfectly with the style of practically any
interior space.
146
Capacity
P15
P20
P25
VBM
●
●
●
VHM
VKM
P32
P40
P50
●
●
●
P63
P100
●
●
TECHNICAL SPECIFICATIONS
MODEL
Power
Capacity in
cooling mode *1
Current
External finish
Dimensions (HxLxW)
Net weight
Heat exchanger
Fan
PKFY-P25VBM-E
PKFY-P32VHM-E
PKFY-P40VHM-E
Heating
Cooling
Heating
Cooling
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
kg
1.7
2.2
2.8
3.6
4.5
5,800
7,500
9,600
15,400
15,400
1.9
2.5
3.2
4.0
5.0
6,500
8,500
10,900
13,600
17,100
0.04
0.04
0.04
0.04
0.20
0.40
0.20
0.30
Munsell plastic (1.0Y 9.2/0.2)
2,295x815x225
295x898x249
10
13
Cross fins (aluminium fins and copper piping)
Type x Quantity
Air flow*2
Static external pres.
Type
Power output
Air filter
Refrigerant pipe
diameter
Linear flow fan x 1
m3/min
l/s
cfm
Pa
4.9-5.0-5.2-5.3
4.9-5.2-5.6-5.9
9-10-11
9-10.5-11.5
82-83-87-88
82-87-93-98
150-167-183
150-175-192
173-177-184-187
173-184-198-208
318-353-388
318-371-406
0
Single-phase induction motor
DC motor
0.017
0.030
kW
Polypropylene honeycomb fabric (washable)
Gas (swaged)
Liquid (swaged)
Local drain pipe diameter
Sound pressure*2*3
mm
mm
ø12.7
ø6.35
I.D. 16 (5/8)
dB(A)
29-31-32-33
29-31-34-36
34-37-41
34-38-41
TECHNICAL SPECIFICATIONS
MODEL
PKFY-P50VHM-E
Power
Capacity in
cooling mode *1
Current
External finish
Dimensions (HxLxW)
Net weight
Heat exchanger
Fan
Motor
Air filter
Refrigerant pipe
diameter
PKFY-P100VKM-E
A single-phase, 220-240V, 50Hz
Capacity in
heating mode *1
Power consumption
PKFY-P63VKM-E
Heating
Cooling
Heating
Cooling
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
kg
5.6
7.1
11.2
19,100
24,200
38,200
6.3
8.0
12.5
21,500
27,300
42,600
0.04
0.05
0.08
0.03
0.04
0.07
0.40
0.37
0.58
0.30
0.30
0.51
Munsell plastic (1.0Y 9.2/0.2)
295x898x249
365x1170x295
13
21
Cross fins (aluminium fins and copper piping)
Type x Quantity
Air flow*2
Static external pres.
Type
Power output
Gas (swaged)
Liquid (swaged)
Local drain pipe diameter
Sound pressure*2*3
Linear flow fan x 1
m3/min
l/s
cfm
Pa
9-10.5-12
16-20
20-26
150-175-200
267-333
333-433
318-371-424
565-706
706-918
0
DC motor
kW
0.030
0.056
Polypropylene honeycomb fabric (washable)
mm
mm
ø12.7
dB(A)
34-39-43
ø15.88
ø6.35
ø15.88 / 19.05
ø9.52
I.D. 16 (5/8)
39-45
41-49
*1 For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given.
Cooling: indoor 27°C (81°F) DB/19°C (66°F) WB, outdoor 35°C (95°F) DB. Heating: indoor 20°C (68°F) DB, outdoor 7°C (45°F) DB/6°C (43°F) WB.
*2 Air flow/noise levels given for operation in low-medium1-medium2-high modes, in low-medium-high modes or in low-high modes, depending on model.
*3 Measured in anechoic chamber.
147
INDOOR UNITS
Motor
PKFY-P20VBM-E
A single-phase, 220-240V, 50Hz
Capacity in
heating mode *1
Power consumption
PKFY-P15VBM-E
INDOOR UNITS – CONCEALED SYSTEM
Design innovation
Alasplit ®
is an innovative automated device for creating
concealed built-in installations with wall-mounted CITY MULTI
indoor units of the PKFY series. Alasplit® is the ideal solution to
minimise the visual impact of air conditioner systems in residential,
office and commercial applications. This innovative system brings
an end to unsightly grey cover grilles and permanently visible air
conditioner units.
Alasplit ® is compatible with MITSUBISHI ELECTRIC VRF
SYSTEMS series air conditioners.
Easy installation
Alasplit® consists of two parts: Alabox-C, the housing for the air
conditioner unit, and Alapanel-S, the automated front panel. The
housing for the air conditioner unit may be installed in a wall recess,
in a stepped ceiling, over a door or in a dedicated compartment in a
bookshelf or double ceiling. After creating the suitably sized aperture
in the double ceiling, Alabox-C is installed in the space and the
Mitsubishi Electric air conditioner is then fitted into the housing. The
Alapanel-S automated front panel covering the air conditioner unit
is then simply fastened to the Alabox-C housing with screws.
Create your own style
The panels making up the front cover of the Alasplit® system are
completely personalisable with the finish and colour of the user’s
choice, to fit in perfectly with the style and decor of any interior.
Controlled with a simple push of a button
The front of the Alasplit® system consists of three aluminium panels
- a fixed centre panel and two automatically opened and closed
mobile panels which function as vanes. When the air conditioner
is switched on from the remote control (with PAR-FL32MA remote
control only – ordered separately), the vanes of the Alasplit ®
system open automatically, allowing air into the unit and treated
air into the room. When the air conditioner is switched off, the two
vanes close, concealing the unit behind a simple panel with a pure,
linear design to minimise the impact on the style of the interior.
Class-beating performance and looks
The Alasplit ® system has no effect on the performance of the
Mitsubishi Electric air conditioner. The upper panel allows ambient
air into the unit, while the lower panel allows treated air to circulate
freely into the indoor space without impediment. Alasplit® also
ensures superior energy efficiency, as each air conditioner unit
may be set individually to optimise usage in relation to the specific
needs of the surrounding space with no energy wastage. For
quicker, simpler cleaning, Alasplit ® features a simple manual
opening system for the front cover.
Compatible CITY MULTI Indoor units
The following CITY MULTI indoor units of PKFY series are
compatible with Alasplit®:
• PKFY-P15VBM-E
• PKFY-P20VBM-E
• PKFY-P25VBM-E
148
Alapanel-S
Alabox-C
Built-in housing for wall-mounted indoor units
3,40
Motorised front panel
11,60
INDOOR UNITS
435
420
933
266
1,50
1,50
930
TECHNICAL SPECIFICATIONS
MODEL
Power
consumption
Alabox-C
Alapanel-S
Colour
ALASPLIT®
Voltage/Freq./Phases V/Hz/n°
W
HxLxW
mm
Weight
kg
HxLxW
mm
Weight
kg
RAL
230/50/1
3
420 x 930 x 266
8,1
435 x 933 x 3
8,6
White 3025
149
PAC-LV11-E
WALL-MOUNTED DESIGN INDOOR UNIT - LEV KIT
The new LEV Kit may be used to connect both
standard VRF indoor units and Family series
indoor units in the same CITY MULTI VRF
system.
The new LEV Kit makes it possible to connect stylish residential indoor units, with looks that are perfectly suited for large installations in
applications such as residential buildings and hotels, where design is a decisive factor in the choice of indoor units.
Easy installation and maintenance
Unparalleled comfort and air quality
The new LEV Kit is easy to install in double ceilings or dedicated
niches not only because of its compact size (183 mm H x 355 mm
L x 142 mm W), but also and especially because it can be installed
vertically or horizontally with no condensate drain.
Additionally, a maximum permissible piping length of 15 m
between indoor units and the LEV Kit offers the freedom to install
the kit in the most effective position possible.
The quality of an environment also depends on perceived noise
levels. Mitsubishi Electric air conditioners connected to a VRF CITY
MULTI system using the LEV Kit offer the highest levels of acoustic
comfort available today on the market.
Interior
of a train
Interior
of a quiet car
(40 km/h)
Inside
a library
Sound
of rustling
leaves
Limit of human
hearing
80dB(A)
60dB(A)
40dB(A)
21dB(A)
MSZ-EF
10dB(A)
Family series residential indoor units
The following residential indoor units of the Family series may
be connected to the LEV Kit:
Family series indoor units
15
20
22
25
35
42
50
MSZ-EF
-
-
✓
✓
✓
✓
✓
MSZ-SF
✓
✓
-
✓
✓
✓
✓
150
The residential indoor units of the Family series also contribute to
higher air quality levels with the superior filtration power of air filters
with nanoplatinum treatment.
System configuration
VRF Outdoor Unit
AG-150A
M-NET data
transmission bus
LEV Kit
INDOOR UNITS
VRF Indoor Units
M-NET for
centralised
system
LEV Kit
MA transmission line
To other
Outdoor Units
MSZ-EF Series (ZEN)
MA
transmission line
MA Remote control
MSZ-SF Series
Wireless remote
control
TECHNICAL SPECIFICATIONS
PAC-LV11-E
MODEL
Power
Compatible Family series
residential indoor units
Number of branches
Maximum distance between indoor unit
and LEV Kit
A single-phase, 220-240V AC, 50Hz
MSZ-EF (Kirigamine zen)
MSZ-SF - MFZ-KJ
1 way
m
Compatible CITY MULTI outdoor units
Dimensions (HxLxW)
Net weight
Condensate drain
Installation
15
Small Y Series - Y Series (Ecostandard/Nominal/Seasonal) - Y Series Zubadan (YHM) - Y Series Replace Multi (YJM),
R2 Series (Nominal/Seasonal) - R2 Series Replace Multi (YJM),
WY Series (YHM) - WR2 Series (YHM)
mm
kg
180x355x142
3,5
Not necessary
Vertical
Horizontal
Liquid
Gas
Compatible remote controls
Refrigeration pipe
diameter
mm
mm
6,35 (brazed)
Standard: Remote control included with optional residential indoor units
of Family units (purchased separately):
1. MA wired remote control interfaced via MAC-397IF board (optional, for installation in indoor units - purchased separately).
2. ME wired remote control, interfaced via LEV Kit terminal board.
151
PAC-LV11-E
NEW
FLOOR STANDING DESIGN INDOOR UNIT - LEV KIT
The new LEV Kit may be used to connect both
standard VRF indoor units and Family series
indoor units in the same VRF CITY MULTI
system.
Easy installation and maintenance
The new LEV Kit is easy to install in double ceilings or dedicated niches not only because of its compact size (183 mm H x 355 mm L x 142 mm
W), but also and especially because it can be installed vertically or horizontally with no condensate drain. Additionally, a maximum permissible
piping length of 15 m between indoor units and the LEV Kit offers the freedom to install the kit in the most effective position possible.
Unparalleled comfort and air quality
The quality of an environment also depends on perceived noise
levels. Mitsubishi Electric air conditioners connected to a VRF CITY
MULTI system using the LEV Kit offer the highest levels of acoustic
comfort available today on the market.
Family series residential indoor units
The following variants of the MFZ-KJ floor-standing Family series
indoor units may now be connected with the LEV Kit:
Family series indoor units
25
35
50
✓
✓
✓
MFZ-KJ
Multi-flow vane
The air delivery vent has three deflector vanes, each with a specifically designed profile to optimise the outgoing air flow and maximise
comfort in both cooling and heating mode.
Heating
Cooling
The outgoing air flow
may be set freely
by the user
Quick heating
When the unit is
switched on, part of
the heated air is directed downwards,
near the intake, so
that it recirculates
back into the unit and
contributes to warming the outgoing air
flow more quickly..
152
System configuration
VRF Outdoor Unit
AG-150A
M-NET data
transmission bus
LEV Kit
INDOOR UNITS
VRF Indoor Units
M-NET for centralised system
LEV Kit
MA transmission line
To other
Outdoor Units
MA
transmission line
MFZ-KJ Series
Wireless
remote
control
MFZ-KJ Series
Wireless
remote
control
TECHNICAL SPECIFICATIONS
PAC-LV11-E
MODEL
Power
Compatible Family series residential
indoor units
Number of branches
Maximum distance between indoor unit
and LEV Kit
A single-phase, 220-240V AC, 50Hz
MSZ-EF (Kirigamine zen)
MSZ-SF - MFZ-KJ
1 way
m
Compatible CITY MULTI outdoor units
Dimensions (HxLxW)
Net weight
Condensate drain
Installation
15
Small Y Series - Y Series (Ecostandard/Nominal/Seasonal) - Y Series Zubadan (YHM) - Y Series Replace Multi (YJM),
R2 Series (Nominal/Seasonal) - R2 Series Replace Multi (YJM),
WY Series (YHM) - WR2 Series (YHM)
mm
kg
180x355x142
3,5
Not necessary
Vertical
Horizontal
Liquid
Gas
Compatible remote controls
Refrigeration pipe
diameter
mm
mm
6,35 (brazed)
Standard: Remote control included with optional residential indoor units of Family units (purchased separately):
1. MA wired remote control interfaced via MAC-397IF board (optional, for installation in indoor units - purchased separately).
2. ME wired remote control, interfaced via LEV Kit terminal board.
153
PFFY-P VKM-E
INDOOR UNIT – DESIGN FLOOR-STANDING UNIT
A high performance floor-standing air
conditioner unit with an elegant design for
lounges, bedrooms or offices where style is
imperative.
4
1
2
3
4
Sophisticated design
A floor-standing air conditioner unit by Mitsubishi Electric boasting
an innovative design and combining simple, linear lines with a wide
choice of functions. Conceived to leave the walls free, a unit that
delivers comfortable cooling performance in summer and pleasant
heat in winter. The gloss pure white finish lends the unit a premium
look suitable for any interior space. Both the upper and lower air
vents are closed when the air conditioner is switched off, giving
the unit an elegantly stylish feel. A beautifully stylish and innovative
air conditioner from Mitsubishi that suits your most elegant interior
spaces to perfection.
Slim but powerful
600 mm
The slimline housing of the unit expresses the essence of
compactness. The ideal size for a lounge, bedroom and many
other rooms. The front panel is removable and washable, making
the unit extremely simple to clean. Cleaning your air conditioner
simply and regularly will keep it looking great and working perfectly
for maximum energy efficiency.
700 mm
154
200
mm
Ideal air distribution
Air is distributed powerfully and effectively via the upper and
lower air vents, ensuring a comfortable temperature throughout
the room. The angle of the upper vent is settable into 5 different
positions (+ swing and automatic modes) from a remote control,
while 4 different air speed settings are available. Setting the vane to
an almost vertical position prevents undesirable draughts, for even
greater comfort.
The air delivered from the upper and lower vents is controlled for
optimum comfort and distributed evenly into every corner of the
room. In heating mode, the warm air flow is controlled intelligently
to reach floor level, making cold feet a thing of the past!
INDOOR UNITS
14 16 18 20 22 24 26 ˚C
TECHNICAL SPECIFICATIONS
MODEL
Power
Capacity in
cooling mode *1
Current
External finish
Dimensions (HxLxW)
Net weight
Heat exchanger
Fan
Motor
Air filter (optional)
Refrigerant pipe
diameter
PFFY-P25VKM-E
PFFY-P32VKM-E
PFFY-P40VKM-E
2.2
2.8
3.6
4.5
7,500
9,600
12,300
15,400
A single-phase, 220-240V, 50Hz
Capacity in
heating mode *1
Power consumption
PFFY-P20VKM-E
Heating
Cooling
Heating
Cooling
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
kg
2.5
3.2
4.0
5.0
8,500
10,900
13,600
17,100
0.025
0.025
0.025
0.028
0.025
0.025
0.025
0.028
0.20
0.20
0.20
0.24
0.20
0.20
0.20
0.24
Plastic (pure white)
600x700x200
15
Cross fins (aluminium fins and copper piping)
Type x Quantity
Air flow (low-medium- m3/min
high-extra high)
Static external pres.
Type
Power output
Gas (swaged)
Liquid (swaged)
Local drain pipe diameter
Sound pressure
(low-medium-high-extra high)*2
Linear flow fan x 2
5.9-6.8-7.6-8.7
6.1-7.0-8.0-9.1
Pa
6.1-7.0-8.0-9.1
8.0-9.0-9.5-10.7
0
DC motor
kW
0.03x2
Polypropylene honeycomb fabric (catechin filter)
mm
mm
ø12.7
ø6.35
D.I. 16 (PVC pipe connectable to VP-16)
dB(A)
27-31-34-37
28-32-35-38
28-32-35-38
35-38-42-44
*1 For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given.
Cooling: indoor 27°C (81°F) DB/19°C (66°F) WB, outdoor 35°C (95°F) DB. Heating: indoor 20°C (68°F) DB, outdoor 7°C (45°F) DB/6°C (43°F) WB.
*2 Measured in anechoic chamber.
155
PFFY-P VLEM-E
INDOOR UNIT – FLOOR STANDING UNIT
A free floor standing unit ideal for perimeter
zones.
1
2
3
4
4
Compact unit
A compact unit offering a simple solution for conditioning
perimeter zones. The compact unit, measuring just 220 mm in
depth (8-11/16”), is easily installable in perimeter areas to ensure
effective conditioning performance in these zones too.
Cooling dehumidification function
The electronic dehumidifier function uses cooling to dehumidify
the air. The compact unit, measuring just 220 mm in depth, is
easily installable in perimeter areas to ensure effective conditioning
performance in these zones too.
156
Characteristics of PFFY-P VLEM-E
• Standardised design with simple lines.
• Suitable for all spaces, from offices and shops to hospitals.
• May be equipped with a water vapour impermeable membrane
humidifier system.
• Features a specific concealed housing for stowing a remote
control unit out of sight.
TECHNICAL SPECIFICATIONS
MODEL
Power
Capacity in
cooling mode *1
Power consumption
Heating
Cooling
Current
Heating
Cooling
External finish (Munsel number)
Dimensions (HxLxW)
Net weight
Heat exchanger
Type x Quantity
Fan
Air flow*2
PFFYP32VLEM-E
PFFYP40VLEM-E
PFFYP50VLEM-E
PFFYP63VLEM-E
Static external pres.
Type
Power output
Gas (swaged)
Liquid (swaged)
Local drain pipe diameter
Sound pressure*2*3*4
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
kg
2.2
2.8
3.6
4.5
5.6
7.1
7,500
9,600
12,300
15,400
19,100
24,200
2.5
3.2
4.0
5.0
6.3
8.0
8,500
10,900
13,600
17,100
21,500
27,300
0.04 / 0.06
0.06 / 0.07
0.065 / 0.075
0.085 / 0.09
0.1 / 0.11
0.04 / 0.06
0.06 / 0.07
0.065 / 0.075
0.085 / 0.09
0.1 / 0.11
0.19 / 0.25
0.29 / 0.30
0.32 / 0.33
0.40 / 0.41
0.46 / 0.47
0.19 / 0.25
0.29 / 0.30
0.32 / 0.33
0.40 / 0.41
0.46 / 0.47
Acrylic paint (5Y 8/1)
630x1,050x220
630x1,170x220
23
25
630x1,410x220
26
30
32
Cross fins (aluminium fins and copper piping)
Scirocco fan x 1
m3/min
l/s
cfm
Pa
Scirocco fan x 2
5.5-6.5
7.0-9.0
9.0-11.0
12.0-14.0
12.0-15.5
92-108
117-150
150-183
200-233
200-258
194-230
247-318
318-388
424-494
424-547
0.035
0.050
0
Single-phase induction motor
kW
0.015
0.018
0.030
Polypropylene honeycomb fabric (washable)
mm
mm
ø12.7
ø15.88
ø6.35
ø9.52
D.I. 26 (1) <Accessory pipe O.D. 27 (upper end: O.D. 20)>
dB(A)
34-40
35-40
38-43
40-46
*1 For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given.
Cooling: indoor 27°C (81°F) DB/19°C (66°F) WB, outdoor 35°C (95°F) DB. Heating: indoor 20°C (68°F) DB, outdoor 7°C (45°F) DB.
*2 Air flow/noise levels given for operation in low-high modes.
*3 Measurement point: 1m x 1m, Power: 240V AC/50Hz:
1dB(A) less with 230V AC/50Hz.
2dB(A) less with 220V AC/50Hz.
3dB(A) less with measurement point at 1.5 m x 1.5 m.
*4 Measured in anechoic chamber.
157
INDOOR UNITS
Air filter
Refrigerant pipe
diameter
PFFYP25VLEM-E
A single-phase, 220-240V, 50Hz / a single-phase, 208-230V, 60Hz
Capacity in
heating mode *1
Motor
PFFYP20VLEM-E
PFFY-P VLRM-E
PFFY-P VLRMM-E
INDOOR UNIT – BUILT-IN FLOOR UNIT
Built-in floor units: simplified installation for
effective air conditioning performance.
VLRM
1
2
3
2
3
4
4
VLRMM
1
4
4
Compact unit
A compact unit offering a simple solution for conditioning
perimeter zones. The compact unit, measuring just 220 mm in
depth, is easily installable in perimeter areas to ensure effective
conditioning performance even in these zones.
The delivery air flow may also be set horizontally.
Cooling dehumidification function
The electronic dehumidifier function uses cooling to dehumidify the
air. Superlative temperature-based dehumidification function to
prevent overcooling, for a cooling dehumidification effect.
Automatic fan speed adjustment
The automatic fan speed adjustment mode – a standard feature
on the VLRMM series – ensures fast, comfortable heating as
soon as heating mode is activated. Automatic fan speed control
is included in the three standard modes “Low”, “Medium” and
“High” (two modes available with VLRM series), and ensures faster,
comfortable air conditioning by increasing the air flow speed on
activation and then reducing speed once stable comfort levels are
attained.
Selectable static external pressure
The VLRMM series may be configured with a choice of three
different static external pressure settings: 20, 40 and 60 Pa.
158
TECHNICAL SPECIFICATIONS
MODEL
Power
Capacity in
cooling mode *1
PFFYP25VLRM-E
PFFYP32VLRM-E
PFFYP40VLRM-E
PFFYP50VLRM-E
PFFYP63VLRM-E
2.2
2.8
3.6
4.5
5.6
7.1
7,500
9,600
12,300
15,400
19,100
24,200
A single-phase, 220-240V, 50Hz / a single-phase, 208-230V, 60Hz
Capacity in
heating mode *1
Power consumption
Heating
Cooling
Current
Heating
Cooling
External finish (Munsel number)
Dimensions (HxLxW)
Net weight
Heat exchanger
Type x Quantity
Fan
Air flow*2
Static external pres.
Type
Power output
Air filter
Refrigerant pipe
diameter
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
kg
2.5
3.2
4.0
5.0
6.3
8.0
8,500
10,900
13,600
17,100
21,500
27,300
0.04 / 0.06
0.06 / 0.07
0.065 / 0.075
0.085 / 0.09
0.1 / 0.11
0.04 / 0.06
0.06 / 0.07
0.065 / 0.075
0.085 / 0.09
0.1 / 0.11
0.19 / 0.25
0.29 / 0.30
0.32 / 0.33
0.40 / 0.41
0.46 / 0.47
0.19 / 0.25
0.29 / 0.30
0.32 / 0.33
0.40 / 0.41
0.46 / 0.47
Acrylic paint (5Y 8/1)
639x886x220
639x1,006x220
23
639x1,246x220
25
26
30
32
Cross fins (aluminium fins and copper piping)
Scirocco fan x 1
m3/min
l/s
cfm
Pa
Scirocco fan x 2
5.5-6.5
7.0-9.0
9.0-11.0
12.0-14.0
12.0-15.5
92-108
117-150
150-183
200-233
200-258
194-230
247-318
318-388
424-494
424-547
0.035
0.050
0
Single-phase induction motor
kW
0.015
0.018
0.030
Polypropylene honeycomb fabric (washable)
Gas (swaged)
Liquid (swaged)
Local drain pipe diameter
Sound pressure*2*3*4
mm
mm
ø12.7
ø15.88
ø6.35
ø9.52
D.I. 26 (1) <Accessory pipe O.D. 27 (upper end: O.D. 20)>
dB(A)
34-40
35-40
38-43
40-46
*1 For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given.
Cooling: indoor 27°C (81°F) DB/19°C (66°F) WB, outdoor 35°C (95°F) DB. Heating: indoor 20°C (68°F) DB, outdoor 7°C (45°F) DB.
*2 Air flow/noise levels given for operation in low-high modes.
3
* Measurement point: 1m x 1m, Power: 240V AC/50Hz,
1dB(A) less with 230V AC/50Hz.
2dB(A) less with 220V AC/50Hz.
3dB(A) less with measurement point at 1.5 m x 1.5 m.
4
* Measured in anechoic chamber.
TECHNICAL SPECIFICATIONS
MODEL
Power
Capacity in
cooling mode *1
Power consumption
Heating
Cooling
Current
Heating
Cooling
External finish (Munsel number)
Dimensions (HxLxW)
Net weight
Heat exchanger
Type x Quantity
Fan
Air flow
(low-medium-high)
Air filter
Refrigerant pipe
diameter
PFFYP25VLRMM-E
PFFYP32VLRMM-E
PFFYP40VLRMM-E
PFFYP50VLRMM-E
PFFYP63VLRMM-E
2.2
2.8
3.6
4.5
5.6
7.1
7,500
9,600
12,300
15,400
19,100
24,200
A single-phase, 220-240V, 50Hz / a single-phase, 220-240V, 60Hz
Capacity in
heating mode *1
Motor
PFFYP20VLRMM-E
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
kg
2.5
3.2
4.0
5.0
6.3
8.0
8,500
10,900
13,600
17,100
21,500
27,300
0.04
0.04
0.05
0.05
0.07
0.04
0.04
0.05
0.05
0.07
0.34
0.38
0.43
0.48
0.59
0.34
0.38
0.43
0.48
0.59
Galvanised steel sheet
639x886x220
20
639x1,246x220
21
25
27
Cross fins (aluminium fins and copper piping)
Scirocco fan x 1
m3/min
l/s
cfm
Pa
Scirocco fan x 2
4.5-5.5-6.5
6.5-7.5-9.0
8.0-9.5-11.0
10.0-12.0-14.0
11.0-13.0-15.5
75-92-108
108-125-150
133-158-183
167-200-233
183-217-258
159-194-230
230-265-318
282-335-388
353-424-494
388-459-547
Static external pres.*2
Type
Power output
kW
Gas (swaged)
Liquid (swaged)
Local drain pipe diameter
20Pa
Sound pressure
(low-medium-high)*3 40Pa
60Pa
639x1,006x220
18.5
20/40/60
Brushless DC Motor
0.096
Polypropylene honeycomb fabric (washable)
mm
mm
ø12.7, brazed
ø15.88, brazed
ø6.35, brazed
ø9.52, brazed
D.I. 26 (1) <Accessory pipe O.D. 27 (upper end: O.D. 20)>
dB(A)
dB(A)
dB(A)
31-36-40
27-32-37
30-36-40
32-37-41
35-40-44
34-39-42
30-35-41
32-38-42
35-40-44
36-42-47
35-40-43
32-37-42
3.5-39-44
36-41-45
38-43-48
*1For heating/cooling capacity, the maximum value with the unit operating in the following conditions is given.
Cooling: indoor 27°C (81°F) DB/19°C (66°F) WB, outdoor 35°C (95°F) DB. Heating: indoor 20°C (68°F) DB, outdoor 7°C (45°F) DB/6°C (43°F) WB.
*2 Static external pressure is set to 20 Pa by default.
*3 Operating noise level measured at a distance of 1m from front side and from rear side in an anechoic chamber (sound pressure meter, A scale). Connect the 1m long duct to the air outlet.
159
INDOOR UNITS
Motor
PFFYP20VLRM-E
VRF HP DXE (exposed)
VRF HP R DXE (recessed)
VRF HP DXE
INDOOR UNIT – AIR CURTAINS
VRF HP R DXE
The air curtain, is the ideal solution for creating
a barrier effect between an indoor space and
the outdoor environment. Placed in the ideal
position over the doorway, the curtain stops
polluted outdoor air from entering, maintaining
a healthy and comfortable environment in the
indoor space.
1
2
3
4
The air curtain is an indoor unit which keeps out dust, exhaust
fumes, smoke, unpleasant odours and insects (such as flies and
mosquitoes) without impeding access. The unit protects the
indoor environment while letting customers come and go freely.
The air curtain is invisible, and makes it extremely simple to bring in
and handle stock and goods on the premises.
3 speed fan
The PAR-30MAA, PAR-21MAA or PAR- F27MEA remote controls
may be used to select from a choice of 3 different fans speeds
(selected from an initial choice of 6 during initial installation).
Uniform delivery air
Tested in accordance with ISO 27327 standards, VRF air curtains
by Mitsubishi Electric offer class-beating delivery air uniformity
levels (92%).
EcoPower Air technology
VRF air curtains feature EcoPower Air technology,
which increases air flow speed and uniformity
and maximises the energy efficiency of the unit.
EcoPower Air technology employs a specifically
designed air plenum, a converging delivery nozzle and an active
cellular air outlet grille to ensure a more effective barrier action and
increase performance.
160
Air plenum
Converging
nozzle
Cellular grille
Centrifugal fan
Correct installation
When choosing an air curtain, it is very important to ensure that the air barrier is wider than the door it protects and is not installed at a height
of more than 3.8 m. These requisites must be met for the barrier to function effectively.
NO
YES
INDOOR UNITS
h 3,8 metres
NO
h 3,8 metres
YES
TECHNICAL SPECIFICATIONS
EXTERNAL MODEL
Power*1
Capacity in heating mode *2
Capacity in cooling mode *2
Power index
Current
Door width
Sheltered installation*4
Maximum door
height
Exposed installation*4
Maximum air speed*5
Dimensions (HxLxW)
Net weight
Air flow
Fan
Static external pres.
ISO 27327
Uniformity of
delivery air
Sound pressure
kW
kW
A
mm
mm
mm
m/s
mm
kg
m3/min
Pa
%
dB(A)
BUILT-IN MODEL
Power*1
Capacity in heating mode *2
Capacity in cooling mode *2
Power index
Current
Door width
Sheltered installation*4
Maximum door
height
Exposed installation*4
Maximum air speed*5
Dimensions (HxLxW)
Net weight
Air flow
Fan
Static external pres.
ISO 27327
Uniformity of
delivery air
Sound pressure
kW
kW
A
mm
mm
mm
m/s
mm
kg
m3/min
Pa
%
dB(A)
VRF HP1000 DXE
VRF HP1500 DXE
VRF HP2000 DXE
A single-phase, 220-240V AC, 50Hz
A single-phase, 220-240V AC, 50Hz
A single-phase, 220-240V AC, 50Hz
8,3
13,2
15,7
7,4
11,8
14,0
P71
P125
P140
0,8 (7,3)*3
1,2 (12,1)*3
1,4 (14,1)*3
1000
1500
2000
3800
3800
3800
3300
3300
3300
~9
~9
~9
306x1300x468
306x1825x468
306x2350x468
46
67
84
16,1-19,5-21,8
24,2-30,0-34,5
29,8-35,7-39,3
0
0
0
90
92
90
50-55-58
49-54-58
50-55-58
VRF HP1000 R DXE
VRF HP1500 R DXE
VRF HP2000 R DXE
A single-phase, 220-240V AC, 50Hz
A single-phase, 220-240V AC, 50Hz
A single-phase, 220-240V AC, 50Hz
8,3
13,2
15,7
7,4
11,8
14,0
P71
P125
P140
0,8 (7,3)*3
1,2 (12,1)*3
1,4 (14,1)*3
1000
1500
2000
3800
3800
3800
3300
3300
3300
~9
~9
~9
354x1250x485
354x1750x485
354x2340x485
46
67
84
16,1-19,5-21,8
24,2-30,0-34,5
29,8-35,7-39,3
0
0
0
90
92
90
50-55-58
49-54-58
50-55-58
*1 If the barrier is equipped with an electrical heating element (which, if enabled, only operates during outdoor unit defrost cycle), the element requires a separate, specific 380-415V AC, 50Hz
three-phase power supply.
2
* In the following nominal conditions for heating mode: indoor 20°C DB, outdoor 7°C DB/6°C
WB. In the following nominal conditions for cooling mode: indoor 20°C DB, outdoor 35°C
DB/27°C WB.
*3 Value in brackets indicates current absorption during activation of electrical heating element, if
connected (during outdoor unit heating cycle)
*4 Sheltered location’ indicates an air barrier protecting a door that does not open directly onto
the outdoor environment and which is itself protected by an outer door. ‘Exposed installation’
indicates an air barrier protecting a door that opens directly onto the outdoor environment.
*5 At air delivery outlet at maximum fan speed.
161
Ventilation serie
INDEX
VENTILATION
PEFY-P VMH-E-F .................................................................................................... 164
NEW
LGH-RVX ................................................................................................................ 166
LGF-100GX-E ......................................................................................................... 170
GUF-RDH4 ............................................................................................................ 174
..................................................................................................................... 178
163
TYPE
All fresh air
(AFA)
MODEL NAME
PEFY-P80VMH-E-F
PEFY-P140VMH-E-F
PEFY-P200VMH-E-F
PEFY-P250VMH-E-F
Lossnay
Enthalpy heat
recovery (LGH)
LGH-50RVX-E
NEW
LGH-65RVX-E
LGH-80RVX-E
LGH-100RVX-E
LGH-150RVX-E
LGH-200RVX-E
Floor standing
Lossnay (LGF)
LGF-100GX-E
Outdoor
air treatment
indoor units (GUF)
GUF-50RDH4
GUF-100RDH4
Outdoor
air treatment
machines
FAU-AE(S)5000
FAU-AE(S)7500
FAU-AE(S)10000
FAU-AE(S)12500
FAU-AE(S)15000
164
MODEL
Air flow (mc/h)
500
650
800
1000
Air flow (mc/h)
1500
2000
5000
7500
10000
12500
1500
VENTILATION
165
PEFY-P VMH-E-F
OUTDOOR FRESH AIR DELIVERY UNIT
For feeding temperature-controlled fresh
outdoor air into the building.
The ideal solution for offices, large stores and
restaurants.
Install anywhere
The indoor purified air delivery unit may be installed anywhere. The
purified air delivery unit may be used to feed fresh, purified outdoor
air into any building, in any place and at any time.
INSTALLATION OF
INDOOR FRESH
OUTDOOR AIR
TREATMENT UNIT
OFFICE, FOYER, LABORATORY,
REST ROOM, HEALTHCARE CLINIC,
SMOKING AREA, RESTAURANT KITCHEN
Capacity limits for connection to outdoor unit
Max. 110% of capacity of outdoor unit, except in case of heating mode at outdoor temperatures below -5°C (23°F), where a limit of 100% applies.
EXAMPLE
Note: The fan keeps running
even when the thermostat
is off. We recommend using
this model with other indoor
unit models to prevent cold
draughts of incoming outdoor
air.
1. Hospital recovery rooms
166
2. Laboratories
TECHNICAL SPECIFICATIONS
MODEL
PEFY-P80VMH-E-F
Power
Capacity in
cooling mode *1
A single-phase, 220-240V 50Hz/ A single-phase 208-230V 60Hz
kW
Btu/h
kW
Btu/h
kW
kW
A
A
kg
mm
kg
Capacity in
cooling mode *1
Power
consumption
Current
Cooling mode
Cooling
Cooling mode
Cooling
External finish
Dimensions (HxLxW)
Net weight
Heat exchanger
Type x Quantity
Fan
Air flow *2
Static external
pressure
(low-mediumhigh)
Static external
pressure
Motor
Air filter
Refrigerant pipe
diameter
PEFY-P140VMH-E-F
Type
Power output
3N – 380-415V 50 Hz / 3N – 380-415V 60 Hz
16.0
22.4
28.0
30,700
54,600
76,400
95,500
8.5
15.1
21.2
26.5
29,000
51,500
72,300
90,400
0.16 / 0.21
0.29 / 0.33
0.34 / 0.42
0.39 / 0.50
0.16 / 0.21
0.29 / 0.33
0.34 / 0.42
0.39 / 0.50
0.67 / 0.91
1.24 / 1.48
0.58 / 0.74
0.68 / 0.86
0.67 / 0.91
1.24 / 1.48
0.58 / 0.74
0.68 / 0.86
Galvanised
Galvanised
380x1000x900
380x1200x900
50
70
470x1250x1120
100
Cross fins (aluminium fins and copper piping)
Scirocco fan x 1
Scirocco fan x 2
9.0
18.0
28
Scirocco fan x 2
35
150
300
467
583
18
636
989
35 - 85 - 170
35 - 85 - 170
40 - 115 - 190
50 - 115 - 190
-
50 - 130 - 210
60 - 130 - 220
-
80 - 170 - 220
100 - 170 - 240
-
-
140 / 200
-
-
150 / 210
120 / 200
-
-
160 / 220
130 / 210
0.14 (a 220V)
0.20
-
Single-phase induction motor
kW
1236
-
0.09 (a 220V)
Coated non-woven synthetic fibre filter (long life)
mm
mm
ø15.88
Three-phase induction motor
0.23
Coated non-woven synthetic fibre filter (long life)
ø19.05
ø9.52
ø22.2
ø9.52
O.D.32
dB(A)
dB(A)
dB(A)
dB(A)
dB(A)
110 / 190
O.D.32
27 - 38 - 43
28 - 38 - 43
-
33 - 43 - 45
34 - 43 - 45
-
-
39 / 42
40 / 44
-
40 / 43
40 / 45
-
40 / 44
41 / 46
The cooling and heating capacities indicated above are the maximum capacities measured in the
air conditions described above and with a refrigerant pipe approximately 7.5 m in length.
Actual capacity characteristics vary in relation to the combination of indoor and outdoor units
used. See technical information.
• Theoperatingnoiselevelsindicatedarethesoundpressurevaluesmeasuredat1.5mfromthe
base of the unit in an anechoic chamber. (sound pressure meter, A scale value)
• Valuegivenisforoperationwith240V50Hz/230V60Hzelectricalpower(PEFY-P80,type
140VHM-E-F).
• Whenconnectingpurifiedfreshairdeliveryindoorunitsinasystem,themaximumquantityof
indoor units connected to an outdoor unit varies as follows:
1
2
Heat pump models
110% (100% in case of heating operation at outdoor temperatures below -5°C (23°F))
Cooling only
110%
• Operatingtemperaturerange:
Cooling:from21°C(70°F)DB/15.5°C(60°F)WBto43°C(109°F)DB/35°C(95°F)WB.
Heating: from -10°C (14°F) DB to 20°C (68°F) DB.
* The fan is activated automatically with the thermostat off at temperatures below 21°C (70°F) DB
in cooling mode, and at temperatures above 20°C (68°F) DB in heating mode.
• Astheambienttemperatureismeasuredbyathermostatontheremotecontrollerorinstalled
VENTILATION
Gas (swaged)
Liquid (swaged)
Local drain pipe diameter
208, 220V
Sound pressure
(low-medium-high)*2 230, 240V
Sound pressure *2 380V
400V
415V
208V
220V
230V
240V
380V
400V
415V
PEFY-P250 VMH-E-F
9.0
Cross fins (aluminium fins and copper piping)
m3/min
l/s
cfm
Pa
Pa
Pa
Pa
Pa
Pa
Pa
PEFY-P200VMH-E-F
inside the room, ensure that a remote controller or thermostat is used within the room itself.
• TheautomaticconversionanddehumidifyingfunctionsareNOTavailable.Theunitfunctionsin
fan mode when the thermostat is off in cooling or heating mode.
• Inallsituations,theairflowmustbekeptbelow110%,asshowninthetableabove.See“Fan
curves” for more details.
• Whenthisunitisusedasthesoleairconditioningsystem,notethatcondensationmayformon
the air outlet vent grilles of the outdoor unit when in cooling mode.
• Untreatedoutdoorair,whichmaybehumidorcold,willentertheindoorspacewhentheunitis
operating with the thermostat off. Choose the location of the indoor unit air outlets carefully, takingallpossibleprecautionstopreventtheentryofcoldairandtoinsulatetheroomadequately
to prevent condensation.
• Theairfiltermustbeinstalledontheairintakeside.Whenusingathirdpartyorexistingfilter,it
must be installed in an easily accessible location to permit maintenance.
• Thelonglifemodelcannotbeusedtogetherwiththehighfiltrationefficiencyfilter(PEFY-P80,
type 140VMH-E-F).
167
NEW
CERTIFIED PERFORMANCE
LGH-RVX
LOSSNAY – Heat recovery ventilation units
The importance of adequate air exchange
Airqualityisaprimaryparameterforcomfort.
Poorairqualityintheofficeorathomehasbeenproventohave
a significantly detrimental influence on productivity and on the
healthiness of the environment, and contribute to fatigue. This is
due to increasing concentrations of CO 2causedbyinadequate
air exchange. To live comfortably, every individual needs 400l of
fresh air per hour.
Ensuring adequate ventilation in residential and commercial
buildings is necessary to offer a healthy, comfortable
environment for all occupants.
Oxygen Concentration (%)
0%
10%
30%
20%
Normal concentration
in air
21%
owest safe limit
Lowest
18%
ased heart rate,
Laboured breathing, increased
che and nausea
headache
16%
uscle weakness
Vertigo, nausea, muscle
(potentially fatal)
12%
Pallor, loss off consciousness,
vomiting
10%
8%
h within 8 minutes
Coma and death
Respiratory arrest,
ulsions and death
convulsions
6%
ACTIVITY OF MICRO-ORGANISMS IN RELATION TO HUMIDITY
Micro-organism
Ideal zone for human health
Ventilazione e cambio della quantità
dii CO2 in ambiente
proliferation
Bacteria
Prima di
fumare 1
Dopo aver
2 fumato 10
20
30
40
Tempo con sigaretta accesa (min)
50
70
60
80
90
4000
Finestre chiuse
3500
Viruses
3000
Moulds
2500
Mites
1500
2000
10 20 30 40 50
Humidity (%)
60
70
80
90
Finestre aperte
Source: ASHRAE Trans. 91 - 1B (1985)
1000
500
0
Simple construction
As shown in the figure, the Lossnay exchanger consists of a structure
in special treated paper allowing two different air flows to cross one
another and exchange thermal energy. Partitions separating the inlet
and outlet channels prevent incoming fresh air from ever mixing with
outgoing air.
Indoor delivery vent
Indoor
Outdoor
(for delivery of heated/cooled
fresh air)
Partitions
(specially
treated paper)
External stale
air vent
(for venting stale indoor air)
Outdoor air intake
Indoor air intake
(heated/cooled
stale air)
Operating principle
The Lossnay exchanger performs a highly effective total exchange
action for both temperature (sensible heat) and humidity (latent
heat) – the system uses moisture permeable partitions in specially
treated paper to allow stale air to be vented externally and fresh
outdoor air to be fed to the indoor space with absolutely no mixing
between the two air flows.
168
(fresh air)
Inner fins
(specially treated paper)
(ppm)
The importance of correctly controlled humidity
A dry environment offers the ideal conditions for the proliferation
of bacteria and viruses, and the survival rate of these microorganisms drops rapidly at relative humidity levels above 50%.
Excessively humid environments, on the other hand, encourage
the proliferation of mould and mites. Precise humidity control
is therefore an important factor in maintaining ideal, healthy
conditions.
OXYGEN CONCENTRATIONS
AND
THE EFFECTS
Densità
di Ossigeno
e disturbi dovuti alla sua mancanza
OF INADEQUATE OXYGEN LEVELS
Energy recovery
Comfort and energy savings
Withuniversallyrecognisedefficiency,Lossnayheatexchanger
ventilation units use energy recovery to offer significant energy
savings.
A conventional ventilation system vents treated indoor air into the
outdoor environment and replaces this air with outdoor air, causing
the room to lose heat in winter and heat up in summer. This loss of
heated/cooled air means that energy must be expended to restore
comfortable temperature conditions in the indoor space. The
result of this is notably higher air conditioning costs. To solve this
problem while still ensuring the necessary air exchange, Mitsubishi
Electric offers a range of thermal energy recovery ventilation
systems, which minimise air conditioning costs.
AllLossnayunitsareequippedwithclass“G3”airfilter.LGH
modelsmayalsobeequippedwithaclass“F7”highefficiency
filter.
Units must be oversized
to compensate and deliver
adequate performance
Energy wasted when
ventilating the room
Increased operating and
maintenance costs
The indoor space
has to be aired
Pollution levels increase in
the indoor air
Inadequate
air exchange
Comfortable air exchange action, in either cold or hot outdoor conditions
Summer - Difference in temperature between new fresh air and
air already in room of only 1.7°C.
•Incomingfreshairisbroughttothesameconditionsasthe
cooled (and dehumidified) air in the room.
Room temperature 26°C
Relative humidity 50% - (absolute humidity 10.5g/kg)
Fresh
air
Stale
air
•Incomingfreshairisbroughttothesameconditionsasthe
warmed (and humidified) air in the room.
Room temperature 20°C
Relative humidity 50% - (absolute humidity 7.3g/kg)
Inlet air temperature
27.7°C
The delivery
air reduces the
temperature by
approximately 6°C
Relative humidity
58% (absolute
humidity 13.4g/kg)
Vented air
Air delivered
into room
Fresh
air
Stale
air
Atmospheric
temperature 33°C
Relative humidity
63% (absolute
humidity 20.1g/kg)
Low noise
Precise control over the flow of treated air significantly reduces the
sound pressure values of the LOSSNAY unit by up to 18 dB(A).
All LGH-RVX units ensure ideal acoustic comfort, including for
residential applications, libraries, offices etc.
Inlet air temperature
16°C
Relative humidity
46% (absolute
humidity 5.2g/kg)
Atmospheric
temperature 0°C
Relative humidity
50% (absolute
humidity 1.9g/kg)
Weekly timer
InadditiontothepreciseairflowcontrolofthenewLGH-RVX
units,aweeklytimerfunctionalsoincreasesenergysavings.
169
VENTILATION
Vented air
Air delivered
into room
Winter - 4kg/hhumidityrecovered
NEW
LGH-RVX
LOSSNAY for energy savings
New DC FAN Motor
The new DC motor used throughout the new LGH-RVX series
offers a number of advantages:
• Very low electric power consumption, especially at low
speeds
• Lowernoiseemissions
• Increasedflexibilityandfineairflowadjustmentfromremote
control.
Power absorption (W)
ELECTRICAL POWER CONSUMPTION, LGH-50*
300
250
200
Bypass shutter
TheLGH-RVXseriesisequippedwithabypassshutter:
Whentheshutterisopen,freshairisfedtotheinteriorspacewith
no heat recovery, passing through the filter only.
The bypass shutter may be activated manually from the remote
control, or automatically in specific thermal conditions (FreeCooling).
LGH-RVX
100
50
0
*
LGH-RX5
150
SP4
SP3
Extra-high Low
SP2
Extra-low
SP1
-
Electrical power absorption of LGH-RVX and LGH-RX5 models at different speeds
with 50 version recovery module.
By-pass
Ambient
air intake
Stale air
vent
Fresh air
delivery
Fresh air
intake
Lossnay
exchanger
EXAMPLEOFBYPASSFUNCTIONINFREE-COOLINGMODE
New PZ-61DR-E dedicated remote control
PZ-60DR-E
Aria viziata
Aria di rinnovo
Utilizzando
Lossnay
•Possibilityofmanagingagroupofupto15units
•Simpleandintuitive
•BacklitLCDscreen
•Internalweeklytimer
•Customventilationstrategiesformodeswitching(Auto/
recovery/bypass)
•Nightpurgefunctionforactivenight-timeventilationinsummer.
Aria viziata
The new wired remote control unit specifically for LGH-RVX heat
recoveryunitsboastsafreshnewlookandnewfeatures.
PZ-61DR-E
Compliant with ErP Directive, Lot 11
EU Regulation 327/2011, effective from 1 January 2015, implements
the conditions specified in Directive ErP 2009/125 to encourage
the design and manufacture of environmentally compatible energy
consuming products with the goal of reducing CO2 emissions and
energy consumption by 20% by 2020.
All fans and ventilation units with electric motors with a rated power
absorptionbetween125Wand500Wfallwithinthescopeof
application of this regulation. The Mitsubishi Electric LGH-RVX-E
Lossnay enthalpic recovery unit is compliant with this directive.
170
The European Union has set a series of very challenging environmental
targets which must be attained by 2020.
These targets are grouped together and described with the general
title “20/20/20 Package”, indicating an increase of 20% in the use of
renewable energy sources over 1990 together with a reduction of 20% in
primary energy source consumption and CO2 emissions.
20 %
less consumption of primary
energy sources
20 %
increase in renewable
energy sources
20 %
iless CO 2 emissions
TECHNICAL SPECIFICATIONS
MODEL
Speed
Treated air volume
Static pressure
Sensible heat exchange efficiency
Enthalpic exchange Heating
efficiency
Cooling
Sound pressure
Weight
Power
Power absorption
No. and diameter of channels
HxLxW
Dimensions
Outd. Temp.
Operating
temperature range Max. outd. RH
guaranteed
Max. ind. Temp
(Continuous operation range)* Max. ind. RH
LGH-50RVX-E
m3/h
Pa
%
%
%
dB(A)
kg
V/Fase/Hz
W
mm
mm
°C
%
°C
%
Extra High
High
Low
Extra Low
Extra High
High
Low
Extra Low
500
375
250
125
650
488
325
163
120
68
30
8
120
68
30
8
78,0
81,0
83,5
87,0
77,0
81,0
84,0
86,0
66,5
68,0
72,5
82,0
66,0
69,5
74,0
81,0
69,0
71,0
75,0
82,5
68,5
71,0
76,0
82,0
34-35
28-29
19-20
18
34,5-35,5
29
22
18
49-47
15-17
33
m3/h
Pa
%
%
%
dB(A)
kg
V/Fase/Hz
W
mm
mm
°C
%
°C
%
32-35
12-14
252-262
131
4 x 200
4 x 200
331x1016x888
404x954x908
-10 ~ +40
-10 ~ +40
80
80
40
40
80
80
LGH-80RVX-E
LGH-100RVX-E
Extra High
High
Low
Extra Low
Extra High
High
Low
800
600
400
200
1000
750
500
250
150
85
37,5
10
170
95,6
42,5
10,6
Extra Low
79,0
82,5
84,0
85,0
80,0
83,0
86,5
89,5
70,0
72,5
78,0
81,0
71,0
73,0
77,0
85,5
71,0
73,5
78,0
81,0
72,5
74,0
78,0
87,0
34,5-36,0
30,0
23
18
37-38
31-32
23-24
18
75
21
48
54
220-240 / Single-phase /50
335-340
MODEL
Speed
Treated air volume
Static pressure
Sensible heat exchange efficiency
Enthalpic exchange Heating
efficiency
Cooling
Sound pressure
Weight
Power
Power absorption
No. and diameter of channels
HxLxW
Dimensions
Outd. Temp.
Operating
temperature range Max. outd. RH
guaranteed
Max. ind. Temp
(Continuous operation range)* Max. ind. RH
78-81
151
60-64
18-20
420
200
4 x 250
4 x 250
404x1004x1144
404x1231x1144
-10 ~ +40
-10 ~ +40
80
80
40
40
80
80
LGH-150RVX-E
LGH-200RVX-E
Extra High
High
Low
Extra Low
Extra High
High
Low
Extra Low
1500
1125
750
375
2000
1500
1000
500
175
98,4
43,8
10,9
150
84,4
37,5
9,5
80,0
82,5
84,0
85,0
80,0
83,0
86,5
89,5
70,5
72,5
78,0
81,0
71,0
73,0
77,0
85,5
72,0
73,5
78,0
81,0
72,5
74,0
78,0
87,0
39,0-40,5
32-33
24-26
18
40-41
36
28-27
18-19
153-150
42-49
98
110
220-240 / Single-phase /50
670-698
311
123-124
38-44
850-853
400-372
8 x 250
8 x 250
808x1004x1144
808x1231x1144
-10 ~ +40
-10 ~ +40
80
80
40
40
80
80
*Attemperatures<10°C,thefanfunctionsintermittently.Intheseconditions,werecommendusingaheaterunitthatmaybecontrolledbytheLOSSNAYunit
171
VENTILATION
m3/h
Pa
%
%
%
dB(A)
kg
V/Fase/Hz
W
mm
mm
°C
%
°C
%
38
220-240 / Single-phase /50
165-173
MODEL
Speed
Treated air volume
Static pressure
Sensible heat exchange efficiency
Enthalpic exchange Heating
efficiency
Cooling
Sound pressure
Weight
Power
Power absorption
No. and diameter of channels
HxLxW
Dimensions
Outd. Temp.
Operating
temperature range Max. outd. RH
guaranteed
Max. ind. Temp
(Continuous operation range)* Max. ind. RH
LGH-65RVX-E
A+++
A++
A+
A
B
C
D
ErP
LGF-100GX-E
The new Mitsubishi Electric LGF-100GX-E
Lossnay enthalpic heat recovery unit for
basement installations delivers up to 1000
m³/h of fresh air and offers extraordinary
installation and operational flexibility, complying
with the most stringent air hygiene standards
and with the latest regulations regarding air
exchange in non-residential environments.
Easy installation and maintenance
The LGF-100GX-E is installed in a dedicated service area in the
basement, allowing inspection without disturbing the occupants
of the treated indoor space and eliminating undesirable noise. All
air passage sections are easily accessible for maintenance and
cleaning by simply removing all the main components and partition
trays. This, combined with the potent filtration capacity, has made
172
itpossibletoattainGermanVDI(VereinDeutscher
Ingenieure)6022certification–oneofthemost
stringentqualificationsforindustrialhygiene.
Hygiene-Institut
des Ruhrgebiets
LGF-1000GX-E – Front view
Removing front panels
Removing filters and Lossnay recovery module
Cleaning partitions
Cleaning partitions
Removing ventilation section
Lossnay technology
The Lossnay total heat recovery module has a cross-flow plate fin
structure and heat transfer diaphragms in special treated paper.
The excellent thermal transfer properties and permeability to
moisture of this special paper ensure the highly efficient exchange
of both sensible and latent heat between the two air flows
passing through the recovery core. The result is a ventilation
system with outstanding characteristics ensuring extremely high
levels of comfort and wellbeing in the environment treated, which
can also cut operating costs substantially.
The diaphragm pores, which were already microscopic in previous
generations, have been further reduced in size to reduce the
possibility of the passage of waterborne soluble gases such as
ammonia and hydrogen from the exhausted stale air to the fresh
air delivered to the indoor space.
To increase heat and moisture exchange, a special treatment is
applied to the paper used for the diaphragms.
These improvements have increased moisture permeability while
reducing permeability to harmful gases, resulting in an overall
increase in recovery efficiency and a more effective barrier action
against the transfer of these gases.
CONSTRUCTION AND OPERATING PRINCIPLE OF LOSSNAY UNIT
Stale air exhaust
SA
EA
Outdoor
Outdoor air
delivered to
indoor ambient
(pre-cooled or pre-heated)
Ambient
RA
OA
Outdoor fresh air
Stale air
(hot or cold) intake
VENTILATION
Superior performance
Increased energy savings due to greater thermal exchange efficiency
HYPER ECO ELEMENT
The Mitsubishi Electric enthalpic heat recovery unit offers unparalleled thermal
exchange efficiency. The significant energy savings offered are due to the
extraordinarily efficient latent and sensible heat recovery.
Outdoor
EA
(Stale air exhaust)
Ambient
SA
Core structure
(Outdoor
Delivery air)
Improved efficiency with RX5 technology
*Cooling
RX4
RX5
74%
OA
(Outdoor fresh air)
73%
RA
(Stale air)
72%
Hyper Element
Hyper Eco Element
Low latent
heat recovery.
High latent
heat recovery
71%
70%
69%
68%
Improved
permeability
67%
66%
65%
Low
permeability
core
Humidity
High
permeability
core
64%
Model
15RX
Model
25RX
Model
35RX
Model
50RX
Model
65RX
Model
80RX
Model
100RX
Model
150RX
Model
200RX
173
LGF-100GX-E
Total management
Bypass shutter
The LGF-100GX Lossnay unit may be managed from the
dedicated PZ-60DR-E remote controller, which lets the user
control a number of different parameters, choose between 3
operating modes (Heat recovery, Bypass and Automatic), and
offers access to numerous functions devised for maximum
comfortandenergysavings(dailyandweeklytimer,nightpurge
function). The LGF-100GX Lossnay unit may also be integrated
into the architecture of a Mitsubishi Electric VRF CITY MULTI
system,interlockedwiththeVRFindoorunitsofthesystem.
The bypass shutter diverts the inlet air flow from the indoor space
directly to the outdoor vent and allows suitably filtered fresh
outdoor air directly into the indoor space.
Inadditiontooperationinautomaticormanualmode,thebypass
may also be operated remotely via an external contact, controlled
in turn by a temperature sensor, a hygrometer sensor or a timer.
Night Purge function
Thebypassshutterisalsousedtoimplementthe“NightPurge”energysavingfunction.Thisfunctionisactivatedatnight-timeinsummer,
and uses the free thermal power of the cooler outdoor air to reduce the thermal load of the indoor space.
When the air conditioning
and ventilation system is
switched off, the internal
ambient temperature
increases as a result of the
heat accumulated by the
outer shell of the building
and of the residual heat
emitted by electrical devices.
At night, the
external air
temperature drops
significantly.
174
When the external air
temperature is lower than
the internal ambient
temperature, the Night
Purge function activates
the LGF in automatic
ventilation mode.
The accumulated
heat is transferred
out of the interior
by this ventilation
action.
Once the external air
temperature and internal
ambient temperature are
equal, the Night Purge
function of the LGF is
deactivated, stopping
ventilation.
The following day, the heat
load of the internal
ambience that must be
neutralised to attain the
required setpoint is
drastically reduced, which
in turn reduces the energy
“Multi-Ventilation” Mode
The PZ-60DR remote control unit may be used to select 9 different
deliveryairandintakeairfanspeedcombinationstocaterfor
different needs and ambient thermal loads.
MULTI-VENTILATION MODE
Balanced flows
Energy saving ventilation
Normal offices, etc.
Small offices,
apartments etc.
Provide effective ventilation,
maintaining balanced delivery
and intake flows
LOSSNAY unit used to
compensate for extractor fans
Balanced flows
Positive pressure
Smoking areas etc.
Positive pressure
Priority given to air exchange
Negative pressure
Negative pressure
DELIVERY AIR
INTAKE AIR
Extra High
Extra High
High
High
Low
Low
Extra High
High
Extra High
Low
High
Low
High
Extra High
Low
Extra High
Low
High
Note: the default setting is with balanced flows in High / High configuration.
High effective static pressure
Selectingthe“Extrahigh”fanspeedsettingmakesitpossibletoproduceeffectivestaticpressurevaluesupto200 Pa for applications
requiringlongairductlengths.
High Performance Filtration
EquippedwithtwohighefficiencyF7 filters – with one installed
ontheoutdoorintakeandoneontheindoorairintake–theLGF100GX-E may be used in all the building types specified in the
latest regulations concerning ventilation and air exchange.
VENTILATION
Compliant with ErP Directive, Lot 11
EU Regulation 327/2011, effective from 01.01.15, implements the
conditions specified in Directive ErP 2009/125 to encourage the
design and manufacture of environmentally compatible energy
consuming products with the goal of reducing CO2 emissions and
energy consumption by 20% by 2020.
All fans and ventilation units with electric motors with a rated power
absorption between 125 W and 500 W fall within the scope of
application of this regulation. The Mitsubishi Electric LGF-100GX-E
Lossnay enthalpic recovery unit is compliant with this directive.
The European Union has set a series of very challenging environmental
targets which must be attained by 2020.
These targets are grouped together and described with the general
title “20/20/20 Package”, indicating an increase of 20% in the use of
renewable energy sources over 1990 together with a reduction of 20% in
primary energy source consumption and CO2 emissions.
20 %
less consumption of primary
energy sources
20 %
increase in renewable
energy sources
20 %
less CO 2 emissions
TECHNICAL SPECIFICATIONS
MODEL
Speed
Air flow
Static pressure
Temp. Exchange Effic.
Enthalpic exchange Heating
efficiency
Cooling
Sound pressure
Weight
Power
Power absorption
HxLxW
Dimensions
LGF-100GX-E
m3/h
Pa
%
%
%
dB(A)
kg
Extra High
High
Low
995
995
890
200
150
119
80
80
81
72.5
72.5
74
71
71
72
49
47
44
164
A single-phase 220-240VAC 50Hz
W
mm
922
790
785
1095x1760x674
175
A+++
A++
A+
A
B
C
D
ErP
GUF-RDH4
Monoblockindoorunitwithfreshairintakefan,
stale air exhaust fan, filtration system, Lossnay
total heat recovery module, bypass shutter,
permeable film humidifier and direct expansion
coil.
RDH4 Series
GUF-50RDH4
Cooling capacity 5.46 (DX coil: 3.63, Lossnay core: 1.83) kW Heating capacity
6.18 (DX coil: 4.17, Lossnay core: 2.01) kW 500 m³/h 220-240V 50Hz singlephase
1. OA (Outdoor air)
The outdoor air flow
necessary for ventilation
is aspirated by
the delivery fan
12. EA (Exhaust air)
Stale indoor air is vented after
the sensible and latent heat contained
in the air has been recovered
by the Lossnay core
GUF-100RDH4
Cooling capacity 11.17 (DX coil: 3.63, Lossnay core: 3.85) kW Heating capacity
12.50 (DX coil: 8.30, Lossnay core: 4.20) kW 500 m³/h 220-240V 50Hz singlephase
11. Intake fan
10. Optional high efficiency filter
9. Delivery fan
2. Heat recovery unit
(Lossnay core) Heat and
humidity exchanged between
incoming outdoor air and
outgoing stale air
8. RA (Intake air)
The intake fan aspirates
stale air from the indoor
space, which is then exhausted
3. Maintenance
access hatch
4. Air filter
Prevents Lossnay
core from fouling
5. Direct expansion coil
Heats or cools outdoor air flow
176
7. SA (Air delivered to indoor space)
Appropriately treated outdoor air
delivered to indoor space
6. Permeable film humidifier
If necessary, humidifies outdoor
air flow to ensure comfort
Lossnay technology
The Lossnay total heat recovery module has a cross-flow plate
fin structure and heat transfer diaphragms in special treated
paper. The excellent thermal transfer properties and permeability
to moisture of this special paper ensure the highly efficient
exchange of both sensible and latent heat between the two air
flows passing through the recovery core. The result is a ventilation
system with outstanding characteristics ensuring extremely high
levels of comfort and wellbeing in the environment treated, which
can also cut operating costs substantially.
The incoming fresh air and outgoing stale air cannot mix within
the core. The diaphragm pores, which were already microscopic
in previous generations, have been further reduced in size to
reduce the possibility of the passage of waterborne soluble gases
such as ammonia and hydrogen. To increase heat and moisture
exchange, a special treatment is applied to the paper used for
the diaphragms. These improvements have increased moisture
permeability while reducing permeability to harmful gases,
resulting in an overall increase in recovery efficiency and a more
effective barrier action against the transfer of these gases.
CONSTRUCTION AND OPERATING PRINCIPLE OF LOSSNAY UNIT
Stale air exhaust
EA
Outdoor
OA
SA
Ambient
RA
Outdoor fresh air
Stale air
(hot or cold) intake
Total comfort
Adirectexpansioncoilincorporatedintheunitmakesitpossibleto
cover approximately 25% of the load of the system with the GUF
unit. This also means that the terminal units installed in the indoor
space can be smaller. Moreover, as the GUF unit covers the entire
thermal load attributable to ventilation, this means that this load and
the ambient load can be managed completely separately, simplifying
the design process of the installation. The treated air heats the
humidifier as it passes through it, further increasing humidification
efficiency.
Maintaining the correct humidity levels in an indoor space ensures
the ideal conditions for comfort and prevents the unpleasant sideeffects typical of an environment with insufficient humidity such as
dry eyes and throat.
The evaporation surface area is approximately 8.5 times larger
than in a comparably sized natural evaporation humidifier, while
performance is 6 times greater.
IN GENERAL
GUF – For optimum indoor air quality
GUF = (Lossnay) + (heating & cooling)
Lossnay energy recovery
IMAGE OF GUF MODEL
DX coil
(heating & cooling)
177
VENTILATION
Heat exchanger
Outdoor air
delivered to
indoor ambient
(pre-cooled or pre-heated)
GUF-RDH4
Humidification
The innovative permeable film humidification system, which uses a
natural evaporation process, is a particularly intelligent solution.
The efficiency with which the air is humidified has been significantly
increased by reducing the resistance of the material used. A threelayer film ensures that only the necessary moisture is transferred
to the air without any limescale dust release – a problem of certain
conventional humidifiers.
Maintaining the correct humidity levels in an indoor space ensures
the ideal conditions for comfort and prevents the unpleasant sideeffects typical of an environment with insufficient humidity such as dry
eyes and throat.
The evaporation surface area is approximately 8.5 times larger
than in a comparably sized natural evaporation humidifier, while
performance is 6 times greater.
Note: Use a demineraliser if residual total salt levels exceed 100 mg/l.
Increased efficiency of humidification process
Optimised air flows within the unit together with a water
injectionsystemhavesignificantlyincreasedtheefficiencyofthe
humidification process. The system also controls the humidity in the
outgoing stale air to effectively improve the air quality of the outdoor
environment as well. This solution prevents limescale and silica dust
from being carried in the air, so purer, less dusty air is vented into the
outdoor environment.
Moisture
transfer filter
based on
ultra-water
repellent
cells
Three dimensional fabric
Humidity
All-new
filter
Water
Automatic free cooling
Whentheairconditioningisoperatingincoolingmodeandthe
outdoor temperature is lower than the indoor ambient temperature
(as normally occurs at night-time in summer), the GUF indoor unit
recognises this condition and automatically bypasses the recovery
core. The cooler outdoor air fed into the indoor space contributes
to reducing the cooling demand sustained by the system.
“By-pass”
Bypass shutter
Exhaust air
Stale air
Air delivered into room
Outdoor air
LOSSNAY core
Dust suppression
An optional high efficiency filter may be used for up to 3,000 hours
while maintaining a filtration efficiency (evaluated with colorimetric
testing) of over 65%. The filter may also be fitted in the GUF unit
afterinitialinstallationandtakesupnoadditionalpreciousspace.
178
Automatic regulation
GUF ventilation and recovery units may be integrated into
a Melans control and regulation system for Mitsubishi Electric
air conditioner installations, as they use the same bus used for
connecting indoor units.
Installazione flessibile
Advantages
The positions of air duct connections may be changed as needed
tocaterfordifferentinstallationrequirements.
Std. installation
EA
OA
• Reducedenergyconsumption
• Reducedthermalpowernecessarytotreatoutdoorair,equatingto
lower rated power
• Healthierenvironment
• Quieteroperation(noisebafflesininletandoutlet)
• FreeCoolingfunctionusingexclusivelyexternalair
• Humidificationwithfilmpermeabletowatervapouronly
• Totalairtreatment(neutralairreturnedtooutdoorenvironment)
• Customtemperatureandhumiditycontrol
• Compactdimensions
• Installableindoubleceilingswithlimitedverticalspace.
Possible alternative configurations for special cases
EA
OA
EA
OA
* Changing the installation configuration causes no any additional pressure loss.
Compliant with ErP Directive, Lot 11
EU Regulation 327/2011, effective from 01.01.15, implements the
conditions specified in Directive ErP 2009/125 to encourage the
design and manufacture of environmentally compatible energy
consuming products with the goal of reducing CO2 emissions and
energy consumption by 20% by 2020.
All fans and ventilation units with electric motors with a rated power
absorptionbetween125Wand500Wfallwithinthescopeof
application of this regulation. Mitsubishi Electric GUF-50RDH4 and
GUF-100RDH4 outdoor air treatment units are compliant with this
directive.
The European Union has set a series of very challenging environmental
targets which must be attained by 2020.
These targets are grouped together and described with the general
title “20/20/20 Package”, indicating an increase of 20% in the use of
renewable energy sources over 1990 together with a reduction of 20% in
primary energy source consumption and CO2 emissions.
20 %
20 %
less consumption of primary
energy sources
increase in renewable
energy sources
20 %
less CO 2 emissions
VENTILATION
TECHNICAL SPECIFICATIONS
MODEL
Communication system
Heat exchanger
Exchange process
Lossnay core
(heat recovery core)
Exchange material
Casing
Heat insulation material
Motors
Fans
Filtration material
Ambient operating conditions
Functions
Dimensions, HxLxW
Weight
Power
Ventilation modes
Fan speed
Current consumption
Power absorption
Air flow
GUF-50RDH4
GUF-100RDH4
SerialcommunicationviaM-NETnetwork:MitsubishiElectricAirConditionerNetworkSystem
Cross fin
Total (sensible + latent) air-air heat recovery
Special treated paper for partitions and spacers
Galvanised sheet steel
Self-extinguishing polyurethane foam
2 totally enclosed 4-pole permanent-capacitor induction motors
Delivery:Centrifugal,ø220mm-Intake:Centrifugal,ø220mm
Delivery:Centrifugal,ø245mm-Intake:Centrifugal,ø245mm
Synthetic fabric
From 0 to 40 °C with max. 80% RH
Lossnay recovery / Free cooling / High-Low speed switching
mm (in.)
317 x 1.016 x 1.288 (12-1/2” x 40” x 50-3/4”)
398 x 1.231 x 1.580 (15-11/16” x 48” x 62-1/4”)
57kg(61kgwhenfilledwithwater)
98kg(106kgwhenfilledwithwater)
Single-phase, 220-240 V, 50 Hz
A
W
m3/h
(l/s)
Pa
%
Effective overpressure
Sensible heat recovery efficiency
Sensible heat recovery In heating mode
efficiency
In cooling mode
Heating power
kW
Cooling power
kW
Equivalent indoor unit power
Humidification
Humidifier
Humidification capacity in
heating mode
Water supply pressure
Sound pressure at 1.5 m below centre
dB(A)
Peak current
Insulation resistance
Dielectric strength
Lossnay recovery
Free Cooling bypass
Lossnay recovery
High / Low
High / Low
High / Low
Free Cooling bypass
High / Low
1.15 / 0.70
1.15 / 0.70
2.20 / 1.76
2.25 / 1.77
235-265 / 150-165
235-265 / 150-165
480-505 / 385-400
490-515 / 385-410
500 / 400
500 / 400
1000 / 800
1000 / 800
139 / 111
139 / 111
278 / 222
278 / 222
125 / 80
125 / 80
135 / 86
135 / 86
77 / 80
-
79 / 81.5
-
66 / 71
-
70 / 74
-
61.5 / 66
-
64.5 / 68.5
-
6.42 (4.17 direct expansion coil / 2.25 Lossnay core)
13.00 (8.30 direct expansion coil / 4.70 Lossnay core)
5.29 (3.63 direct expansion coil / 1.66 Lossnay core)
10.81 (7.32 direct expansion coil / 3.49 Lossnay core)
P 32
P 63
Permeable film
2,7kg/h
5,4kg/h
min.20kPa–max.490kPa
33.5-34.5 / 29.5-30.5
35-36 / 29.5-30.5
38-39 / 34-35
Less than 2.8 A
38-39 / 35-36
Less than 6.0 A
Min. 10 MOhm. (measured with 500 V DC megohmmeter)
500 V AC Hz for 1 minute
179
A+++
A++
A+
A
B
C
D
Outdoor air
treatment units
ErP
Fresh Air Unit
The FAU series of outdoor air treatment units, with Lossnay
enthalpic energy recovery module, direct expansion coil and
integrated regulation, is now in its third generation, testifying to
the commitment of Mitsubishi Electric to continuously improving its
air treatment products.
The new FAU3 (Fresh Air Unit) may be used to create high capacity
airrenewalsystemswhich,unlikeconventionalsystemsfed
with hot and cold fluids, employ more efficient direct expansion
technology and ecological R410A refrigerant gas.
The Mitsubishi Electric technological solutions used in direct
expansion heat pumps, LOSSNAY total heat recovery modules
and in the MELANS control system are integrated in the FAU3
series,makingthesethemostadvancedexternalairtreatment
units available today in terms of content and function.
180
Characteristics and features such as superlative energy efficiency,
class-topping total heat recovery efficiency for medium and high
capacityapplicationsandthesamecontrolsystemusedforCITY
MULTIVRFairconditioningsystemssetFAU3unitsapartfrom
conventional air treatment units.
The new generation of the FAU3 series gains two additional
product lines:
• FAU3 High Efficiency
• FAU3Standard
Fresh Air Unit
One of the most distinctive characteristics of FAU external air
treatment units by Mitsubishi Electric is that they are packaged
units ready to be installed and run, as all the basic control,
regulating and safety components have been installed, tested and
validated in the factory.
The heart of the unit is the Lossnay LU-125 static enthalpic
heat recovery module – one of the most efficient systems for
medium/large capacity applications available today – which is
complemented by the superior dehumidifying capacity in both
total and partial load conditions, and superior heating efficiency of
a direct expansion system.
To allow consultants, clients and end users choosing FAU3
external air treatment units to extend and personalise the
functionality of the units themselves to cater for specific needs, the
design of these units already includes provisions for the installation
of a series of accessories in situ.
AVAILABLE MODELS
FAU3 High Efficiency
FAU3-AE5000 FAU3-AE7500 FAU3-AE10000 FAU3-AE12500 FAU3-AE15000
m³/h
5.000
7.500
10.000
FAU3-S5000
FAU3-S7500
FAU3-S10000
5.000
7.500
10.000
12.500
15.000
FAU3 Standard
m³/h
FAU3-S12500 FAU3-S15000
12.500
15.000
High Efficiency
To further accentuate the superior energy efficiency of FAU3
units achieved through the use of a Lossnay total heat recovery
module and direct expansion heat pump technology, Mitsubishi
Electric presents the FAU3 High Efficiency product line, for use
inconjunctionwiththeVRFCITYMULTIexternalunitswithhigh
efficiency Y series heat pumps.
As standard, the filtration section of FAU3 High Efficiency units
consistsofhighlyefficientClassF9(EUF9)rigidpocketfilters.
FAU3-AE(HighEfficiency)unitsareintendedforuseinconjunction
with Y Ecostandard, Y Nominal or WYVRFCITYMULTIoutdoor
units in the combinations indicated in the following table:
SERIE
Y
ECOSTANDARD
SERIE
Y
NOMINAL
SERIE
WY
OUTDOOR UNITS
FAU3AE5000
FAU3AE7500
PUHY YKB-A1
N°
N°
P200 (8HP)
1
P250 (10HP)
FAU3FAU3AE10000 AE12500
N°
N°
2
1
1
FAU3AE15000
N°
1
2
Standard
The new FAU3 Standard product line is intended for use in
conjunctionwith“StandardInverter”directexpansionoutdoor
units from the Commercial Line. The new FAU3 Standard product
line has been conceived to deliver the same heating and cooling
capacity as the FAU2, but with different levels of energy efficiency
than the FAU3 High Efficiency.
As standard, the filtration section of FAU3 Standard units consists
ofhighlyefficientClassF7(EUF7)rigidpocketfilters.
FAU3-Sunits(Standard)areintendedforuseinconjunction
with PUHZ-P external units from the Commercial line in the
combinations indicated in the following table:
STANDARD
INVERTER
8-10 HP
OUTDOOR UNITS
FAU3S5000
FAU3S7500
FAU3S10000
FAU3S12500
FAU3S15000
PUHZ-P YKA
N°
N°
N°
N°
N°
P200 (8HP)
1
2
1
P250 (10HP)
1
1
2
181
VENTILATION
8-10 HP
Outdoor air treatment units
Lossnay technology
The Lossnay total heat recovery module has a cross-flow plate fin
structure and heat transfer diaphragms in special treated paper.
The excellent thermal transfer properties and permeability to
moisture of this special paper ensure the highly efficient exchange
of both sensible and latent heat between the two air flows passing
through the recovery core. The result is a ventilation system with
outstanding characteristics ensuring extremely high levels of
comfort and wellbeing in the environment treated, which can also
cut operating costs substantially. The diaphragm pores, which
were already microscopic in previous generations, have been
further reduced in size to reduce the possibility of the passage
of waterborne soluble gases such as ammonia and hydrogen
from the exhausted stale air to the fresh air delivered to the indoor
space.
To increase heat and moisture exchange, a special treatment
is applied to the paper used for the diaphragms. These
improvements have increased moisture permeability while
reducing permeability to harmful gases, resulting in an overall
increase in recovery efficiency and a more effective barrier action
against the transfer of these gases.
Integrated electronic regulation
The functional heart of the FAU3 is the electronic controller, which
isconstructedusingFR4classmaterialandsuperiorqualitySMD
components. This controller is responsible for all regulation and
control functions of the FAU3 and its optional accessories as well
as all safety functions of the system.
Thecontrollerisequippedwithadisplaybacklitwithbluelight
visualising operating parameters and errors for system diagnosis
by the maintenance service provider.
High efficiency ventilation section
Thedeliveryandintakefansarereversepitchfanswithafreewheel
rotor and a high output electronically switched motor. These
are plug-fan components, with the motor integrated in the
rotor structure. The fans are designed and built for unparalleled
silence, with rotor and motor housings in technopolymer or
aluminium, while a shaft and stator in steel, for lower internal
motor temperatures than a conventional motor, and an absence of
currentspikesensureextendedlifespan.
Direct expansion coil
Thedirectexpansioncoil,madefrom‘InnerGrooved’copper
tubingandwithBlu-FinVWaffleLouverFinsincorrosion-resistant
aluminium for direct expansion applications using R410A
refrigerant,featuresauniquedesign.
• Innergroovedpipe–groovedepth:0.34mm
• Metalstructurein15/10FeZn
• Coppercollectorboxes–thickness1.5mm
• Ratedpressure:46Bar
• Vwafflelouverfinsinaluminium–thickness0.1mm
182
High Performance Filtration
EquippedwithhighefficiencyClassF7 / F9 filters, FAU3 outdoor
air treatment units may be used in all the categories of building
indicated in the most recent legislation concerning ventilation and
air exchange.
Large variety of accessories and configuration options available
A wide choice of accessories (which may also be installed after initial installation of the system) and configuration options (which must be
specified when ordering) significantly extends the range of applications possible for the FAU3.
Vapour Humidification System
The vapour humidification system consists of a supplementary
section built within the same structure as the base unit and
comprising a condensate collector tray and a vapour distributor.
ThissystemisonlyenabledinHEATINGmodeandactivates
when a relative humidity of less than 50% is measured in the
interior ambience. The vapour humidification section maintains
relative ambient humidity at approximately 50% with outdoor
temperatures as low as -5°C and at nominal capacity.
Two Speed System and alarm and status notification
Two Speed Board
Alarm and Status Notification Board
Antifreeze Pre-heat Systems
Two different antifreeze pre-heat systems are possible, which may be used independently or in combination, for extremely cold climates:
• Modulatingelectricantifreezebattery
• Externalbypassantifreezesystem:Thissystembypasses1/5ofthenominaloutgoingairflowfromthedirectexpansioncoilandreturnsit
upstream of the delivery fan/s, mixing it with outdoor air at the inlet of the Lossnay enthalpic recovery core.
High overpressure fan configuration
The delivery and return fans are factory set for a rated capacity and
maximum effective overpressure of 250 Pa. The FAU3 may also be
configured to allow the installation of high overpressure fans (400
Pa).
Unit subdivided into 6 sections
As an option, the FAU3-5000, 7500, 10000 12500 and 15000
may be supplied in a configuration subdivided into six sections,
for situations where mechanical constraints and architectural
limitationsmakeitdifficulttohandleandmanoeuvrethe
assembled FAU3.
Compliant with ErP Directive, Lot 11
EU Regulation 327/2011, effective from 01.01.15, implements the
conditions specified in Directive ErP 2009/125 to encourage the
design and manufacture of environmentally compatible energy
consuming products with the goal of reducing CO2 emissions and
energy consumption by 20% by 2020.
All fans and ventilation units with electric motors with a rated power
absorptionbetween125Wand500Wfallwithinthescopeof
application of this regulation. Mitsubishi Electric FAU3 air treatment
machines, available as High Efficiency and Standard variants with
capacities from 5000 to 15000 m³/h, are compliant with this directive
The European Union has set a series of very challenging environmental
targets which must be attained by 2020.
These targets are grouped together and described with the general
title “20/20/20 Package”, indicating an increase of 20% in the use of
renewable energy sources over 1990 together with a reduction of 20% in
primary energy source consumption and CO2 emissions.
20 %
less consumption of primary
energy sources
20 %
increase in renewable
energy sources
20 %
less CO 2 emissions
183
VENTILATION
The Two Speed system allows the delivery and return fans to be
switched between two speeds by an external switch (not supplied
by Mitsubishi Electric). The system has been designed to allow
a third party BMS (Building Management System) to control the
output capacity of the FAU3 on the basis of, for example, a CO 2
sensorindicatingpercentageoccupancy.Whenoperatingatlow
speed, the FAU3 functions at reduced capacity and further lowers
consumption.
The Alarm and Status Notification system allows a total of eight
alarms and statuses relative to the functions and operation of the
FAU3 to be exported to a third party BMS (Building Management
System).
Outdoor air treatment units
FAU3 High Efficiency
SERIE
Y
NOMINAL
SERIE
WY
TECHNICAL SPECIFICATIONS
MODEL
Rated air flow
Air flow range
Max effective overpressure (default configuration)
Max effective overpressure (High Overpressure Version)*1
DX Coil Power, Cooling
Recovery core power, Cooling
Total power, Cooling
DX coil power, Heating
Recovery core power, Heating
Total power, Heating
Sensible heat recovery efficiency
Total heat recovery efficiency Cooling
Total heat recovery efficiency Heating
Number of Recovery Modules
Filter Section
Humidification Section (optional accessory)
Sound pressure
EER of system with PUHY-P*2 (Y Nominal)
COP of system with PUHY-P*2 (Y Nominal)
EER of system with PQHY-P*2
COP of system with PQHY-P*2
m³/h
m³/h
Pa
%
kW
kW
kW
kW
kW
kW
%
%
%
No.
FAU3-AE5000
FAU3-AE7500
FAU3-AE10000
FAU3-AE12500
5000
7.500
10.000
12.500
FAU3-AE15000
15.000
3.500~5.000
250
5.500~7.500
250
8.000~10.000
250
10.500~12.500
250
13.000~15.000
250
400
400
400
400
400
22,40
28,00
44,80
50,40
56,00
25,90
38,85
51,80
64,75
77,70
48,30
66,85
96,60
115,15
133,70
25,00
31,50
50,00
56,50
63,00
20,40
30,60
40,80
51,00
61,20
45,40
62,10
90,80
107,50
124,20
10
12
72
62
67
4
6
8
Rigidpocket,ClassF9(EU9)
kg/h
dB(A)
15
18
25
35
45
73
77.9
78.3
79.9
80.9
5.34
5.80
5.62
5.65
5.47
4.70
5.18
4.93
5.01
4.89
6.22
6.62
6.60
6.52
6.19
5.70
5.94
6.04
5.90
5.57
*1 Configuration option specifiable in order. Contact head office for more details.
*2 Innominalconditions,seenotesbelow.
The values given are for the following nominal conditions:
SUMMER
WINTER
Indoor
27°C DB.
50% RH
Indoor
20°C DB
50% RH
Outdoor
35°C DB
50% RH
Outdoor
7°C DB
85% RH
Operating temperature range: 0°C to 43°C DB
184
FAU3 Standard
STANDARD
INVERTER
VENTILATION
TECHNICAL SPECIFICATIONS
FAU3-S5000
MODEL
Rated air flow
Air flow range
Max effective overpressure (default configuration)
Max effective overpressure (High Overpressure Version)*1
DX Coil Power, Cooling
Recovery core power, Cooling
Total power, Cooling
DX coil power, Heating
Recovery core power, Heating
Total power, Heating
Sensible heat recovery efficiency
Total heat recovery efficiency Cooling
Total heat recovery efficiency Heating
Number of Recovery Modules
Filter Section
Humidification Section (optional accessory)
Sound pressure
EER of system with PUHZ*2
COP of system with PUHZ*2
m³/h
m³/h
Pa
%
kW
kW
kW
kW
kW
kW
%
%
%
No.
FAU3-S7500
FAU3-S10000
FAU3-S12500
FAU3-S15000
5000
7.500
10.000
12.500
15.000
3.500~5.000
250
5.500~7.500
250
8.000~10.000
250
10.500~12.500
250
13.000~15.000
250
400
400
400
400
400
22,40
28,00
44,80
50,40
56,00
25,90
38,85
51,80
64,75
77,70
48,30
66,85
96,60
115,15
133,70
25,00
31,50
50,00
56,50
63,00
20,40
30,60
40,80
51,00
61,20
45,40
62,10
90,80
107,50
124,20
10
12
72
62
67
4
6
8
Rigidpocket,ClassF7(EU7)
kg/h
dB(A)
15
18
25
35
45
72.8
77.9
78.2
80.0
80.9
3.39
3.85
3.50
3.67
3.70
3.49
3.55
3.61
3.54
3.41
*1 Configuration option specifiable in order. Contact head office for more details.
*2 Innominalconditions,seenotesbelow.
The values given are for the following nominal conditions:
SUMMER
WINTER
Indoor
27°C DB.
50% RH
Indoor
20°C DB
50% RH
Outdoor
35°C DB
50% RH
Outdoor
7°C DB
85% RH
Operating temperature range: 0°C to 43°C DB
185
Heating Serie
186
INDEX
ECODAN® - VRF HWS & ATW ............................................................................................. 188
ECODAN® - PACKAGED HWHP CAHV (Air to Water) .......................................................... 198
ECODAN® - PACKAGED HWHP CRHV (Water to Water) ..................................................... 203
HEATING
187
Hybrid system
VRF HWS & ATW
TE
R
WA
TE
R
HE
WA
AT
REC
R
AI
R
RY
AI
VE
W
O
DH
The scalability, flexibility and modularity of the Ecodan® – VRF HWS & ATW system represents the state of
the art in Mitsubishi Electric technology. This solution makes it possible to use a single producer – the VRF
outdoor unit – to deliver heating water, cooling water and domestic hot water simultaneously.
1
2
3
7
6
5
LEGENDA
1 R2 Outdoor Units
2 Photovoltaic solar panels
3 BC controller
4 HWS Hydronic Module
5 ATW Hydronic Module
6 Domestic hot water accumulator
tank fed from HWS
7 Hot water inertial accumulator
tank fed by ATW
Ecodan® heat pump technology has been used in conjunction
with hydronic modules to create systems for the production of
domestic hot water (HWS) and heating water for radiator panels
(ATW) which are perfectly compatible with the inclusion of both
thermal and photovoltaic solar panels in the installation. Systems
with electric heat pumps may be used all year round, as their use is
not restricted by legislation.
The added comfort of being able to use the air conditioning
system in spring and autumn is yet another advantage of these
VRF systems. The indoor units of the VRF CITY MULTI system
gently cool and dehumidify the interior space in spring, cool and
dehumidify in summer, transferring the extracted heat to both the
HWS and ATW hydronic modules, and heat the interior gently at
cooler times of day in autumns.
188
4
Green refrigerant circuit
Orange heating hot water circuit
Red domestic hot water circuit
Black power circuit
HWS hydronic modules are ideal for the production of domestic
hot water all year round. They make use of the energy drawn from
indoor spaces by the VRF indoor units, as well as supplementary
energy provided by solar panels in summer and spring.
ATW hydronic modules provide hot water for radiant panel
heating in winter and deliver warm water to heat a pool in summer,
contributing to maintaining comfortable temperature conditions
and making use of the energy drawn from the indoor space by the
VRF indoor units supplemented by heat supplied by thermal solar
panels.
In systems with this capability, ATW hydronic modules may also be
used to deliver refrigerated water to radiant panels in summer.
HWS Hydronic Module – Hot Water Supply
Mitsubishi Electric was the first to introduce VRF systems for the
production of high temperature hot water (up to 70°C), usable
for domestic hot water production. The HWS hydronic module
represents a significant, innovative technological breakthrough
that uses the most advanced refrigeration technology, and has
been conceived to be easily integrable with R2/WR2 series VRF
CITY MULTI simultaneous cooling / heating systems.
Heat recovery plays a crucial role in these systems, as the HWS
hydronic module may be used to extract heat from rooms where
High pressure gas refrigerant
High pressure fluid refrigerant Two-phase
High pressure liquid refrigerant
Low pressure gas refrigerant
TYPICAL APPLICATIONS: HOTEL (ROOMS)
HEATING
Red
Orange
Green
Blue
cooling is required, which would otherwise be vented into the
outdoor atmosphere, and then use this heat to contribute to hot
water production, adding only the supplementary heat necessary
to reach the desired temperature.
The HWS hydronic module can produce hot water at temperatures
up to 70°C in the return line, with a heating capacity of up to 12.5
kW per module which, however, is scalable in relation to internal
demand.
TYPICAL APPLICATIONS: CENTRALISED RESIDENTIAL SYSTEMS
189
Operating principle of two-stage technology
The HWS hydronic module employs a variant of the two-stage
compression principle – a principle that has been known and used
for many years, but which, until now, has only been applied in
refrigeration systems to reach very low temperatures (as low as
-60°C). Mitsubishi Electric has redesigned the two-stage circuit to
achieve the opposite effect, for units intended to produce heating
power at medium to high temperatures, from 30°C to 70°C. This
solution combines superior energy efficiency with high hot water
temperatures that are not attainable with the conventional heat
pumps currently on the market. As illustrated previously, the
HWS hydronic module uses the “free” heat extracted from the air
conditioned interior by the heat recovery circuit of the CITY MULTI
R2 outdoor units and raises the temperature to the desired value
to deliver usable hot water. This double process recovers energy
from the system, increasing its overall efficiency, and raises the
temperature of the water with minimal energy expenditure.
Advantages of two-stage technology
The two-stage technology employed in the HWS hydronic module
offers a number of significant advantages:
• R134arefrigerantinhightemperaturestage.R134aisapure
HFC refrigerant which is harmless for the stratospheric ozone
layer and contributes only marginally to the greenhouse effect.
This refrigerant is particularly suitable for high temperature
applications.
• R410Arefrigerantinlowtemperaturestage.ThisisalsoanHFC
refrigerant that is harmless to stratospheric ozone, which offers
extraordinary efficiency in air conditioning applications.
• Minimalexternalenergydemand,evenwhenthesystemis
operating in air conditioning mode. The heat drawn from the air
is used to heat water.
• Whenthesystemfunctionspredominantlyinairconditioning
mode – in summer, for example – hot water is produced with
extremely low energy consumption. This makes it possible for
the system to attain very high COP values.
• Continuouslyvariableheatingpowerinrelationtodemand,
made possible by the inverter motor scroll compressor, which
reduces energy consumption proportionally.
Hybrid systems
The HWS hydronic module may be used to create hybrid systems,
with both hydronic modules and VRF direct expansion units.
For instance, this makes it possible for the system to produce
domestic hot water and heat or cool the air in the indoor space
using the most suitable indoor units of the Mitsubishi Electric range
(cassette units, ceiling-suspended units, ducted units etc.).
As well as superior energy efficiency, a hybrid system also offers
the extraordinary flexibility needed to cater for very diverse
situations, which a conventional air conditioner system simply
does not.
190
• Compactdimensionsandverylightweight.Thesemodulesmay
be mounted on walls, even in intermediate positions. Practically
zero floor space usage.
• Individualthermalenergyconsumptionbillingwithfielddevices.
Control and Adjustment System
The HWS hydronic module can be configured for the following
operating modes and hot water temperatures:
OPERATING MODE
Hot wate
Heating
ECOheating
Antifreeze
TEMPERATURE RANGE
30 - 70°C
30 - 50°C
30-45°C
10-45°C
TECHNICAL SPECIFICATIONS - HWS HYDRONIC MODULE
PWFY-P100VM-E-BU
Power
Heating power output
(nominal)
Temp. range
in heating mode
Single-phase,220-230-240V,50Hz/60Hz
Power absorption
Current consumption
PURY Series
PQRY Series
PQRY Series
kW *1
kcal/h *1
Btu/h *1
kW
A
Outdoor temp. DB
Water temp. in circuit
Temp. in water/glycol circuit
(for geothermal applications)
PWFY-P VM-E1-BU
Return line water temp.
Total capacity
Series
Sound pressure in anechoic chamber
dB <A>
Refrigerant circuit
Liquid
mm (inches)
piping diameter
Gas
mm (inches)
Water piping
Inlet
mm (inches)
diameter
Delivery
mm (inches)
Drain pipe diameter
mm (inches)
External finish
External dimensions HxLxW
mm
Dry weight
kg
Compressor
Type
Manufacturer
Starter method
Power
kW
Lubricant
Water in circuit
Nominal
m3/h
(entire operating volume)
Connectable
outdoor units
Internal circuit
protection (R134a)
Refrigerant
Rated pressure
Standard equipment
Overpressure protection
Inverter circuit (COMP)
Compressor
Type / original charge
Controller
R410a
MPa
R134A
MPa
Water
MPa
Manuals
Accessory
Note:
* Nominalconditions*1and2*aresubjecttoEN14511-2:2004(E)
* Install the module in an environment with a wet bulb temperature
not exceeding 32°C
* Due to continuous improvements made to these products, the
specifications given above are subject to modification without
prior notification.
* The module is not designed to be installed outdoors.
*1 Nominal heating conditions Outdoor temp.: 7°C DB/6°C WB
12,5
10,800
42,700
2,48
11,63 - 11,12 - 10,66
-20~32°C
10~45°C
-5~45°C
10~70°C
50-100% of external unit capacity
R2 (Nominal (P), Seasonal (EP))
44
ø 9,52 (ø 3/8”) brazed
ø 15,88 (ø 5/8”) brazed
ø19,05(R3/4”)screw-onconnection
ø19,05(R3/4”)screw-onconnection
ø32(1-1/4”)
Galvanised sheet steel
800(785withoutfeet)x450x300
60
Hermetic scroll compressor with inverter
MITSUBISHI ELECTRIC CORPORATION
Inverter
1
NEO22
0,6 ~ 2,15
Overpressure sensor, pressure switch calibrated to 3.60 Mpa (601 psi)
Overcurrent protection, overheat protection
Outlet temperature protection, overheat protection
R134ax1.1kg(0,50lb)
LEV
4,15
3,60
1
Installation manual, Instruction manuals
Water filter, insulating material
*1 NominalheatingconditionsOutdoortemp.:7°CDB/6°CWB(45°FDB/43°FWB)
PipeLength7.5m(24-9/16feet)–Verticaldifference:0m(0feet)
HEATING
191
ATW Hydronic Module – Air To Water
Mitsubishi Electric has developed the ATW reversible air-water
heat pump hydronic module specifically for hydronic heating and
air conditioning systems. The refrigeration side of the module may
be connected to VRF CITY MULTI SMALL Y and Y Series outdoor
heat pump units, or to R2 heat recovery units. The hydronic side of
the module may feed heated underfloor systems or other similar
utilities, to provide heating in winter in heat pump mode, or cooling
in summer in conditioning mode.
Red
Purple
High pressure gas refrigerant
High pressure fluid refrigerant (two-phase)
TYPICAL APPLICATIONS: HOTEL (COMMON AREAS)
192
Connecting these modules to R2 Series VRF CITY MULTI heat
recovery outdoor units offers extraordinarily levels of efficiency,
especially in spring and autumn, with extremely high COP values.
The HWS hydronic module can produce hot water at temperatures
upto40°Cinthereturnline(45°Cindeliveryline),withaheating
capacity of up to 12.5 kW per module which, however, is scalable
in relation to internal demand.
TYPICAL APPLICATIONS: CENTRALISED RESIDENTIAL SYSTEMS
(RADIANT PANEL HEATING)
Operating principle
The ATW reversible heat pump hydronic module consists
essentially of a brazed plate stainless steel refrigerant-water heat
exchanger connected to the VRF CITY MULTI outdoor unit on
the refrigeration side, and to the hydronic circuit of the system
(radiant panels, radiator units etc.) on the water side. The module
is equipped with an electronic expansion valve which modulates
the flow of refrigerant in the heat exchanger in response to heating
or cooling demand and the demand required by the electronic
management and control circuit. The entire system is encased
in a housing with compact dimensions and very limited weight
comparable to a wall-mounted boiler. The high COP value attained
by the ATW hydronic module means that it delivers superior
comfort with minimal operating costs, contributing to reducing
the CO2 emissions produced for energy production at the power
plant. This offers a two-sided advantage as emissions are not only
reduced, but also delocalised away from populated areas.
Control and Adjustment System
Like the HWS module, the ATW hydronic module is equipped
with a sophisticated control system offering a wide choice of
functions, selectable in relation to the needs of the installation and
the preferences of the user.
The ATW module may be associated with its own independent
remote controller (PAR-W21MAA), allowing the user to configure
all operating settings, including water temperature, which may be
displayed either for the delivery circuit or for the return circuit.
The water temperature reading displayed depends on the type
of installation and on the auxiliary controller devices used. The
return circuit reading configuration is the most widely used of the
two, and allows precise control over the water temperature in the
inertial accumulator tank (which is recommended) as a means
to balance flows. Once the set temperature is reached, the ATW
continues to operate to maintain a constant value.
Note that with this configuration, the delivery temperature is
normallyhigher(max.45°C)thanthesettemperatureuntiltheset
temperature itself is reached.
In installations operating in summer, the ATW produces cold water
Hybrid systems
MODE
Heating
ECOheating
Antifreeze
Cooling
TEMPERATURE RANGE
30-45°C
30-45°C
10-45°C
10 - 30°C
Main features
The functional characteristics of the ATW hydronic module cater
for the needs of a very wide variety of different installations:
•nominalheatingcapacity:12.5kW;
•nominalcoolingcapacity:11.2kW;
•outdooroperatingtemperaturerange,heatingmode:-20°Cto
+32°C(R2heatrecoveryseries);-20to+15.5°C(Yheatpump
series);
•outdooroperatingtemperaturerange,conditioningmode:-5°C
to+46°C(R2andYseries);
•returnhotwatertemperaturerange:10°Cto40°C;
•mainspower:single-phase,230VAC;
•individualthermalenergyconsumptionbillingwithfielddevices.
193
HEATING
Like the HWS module, the ATW hydronic module may be used to
create hybrid systems, with both hydronic modules and VRF direct
expansion units. For instance, this makes it possible to create a
system that can heat certain rooms with radiant panels (a heating
solution that is now very popular, as it offers uniform temperatures
and quietness) and heat other rooms using appropriate Mitsubishi
Electric indoor units (cassette units, wall-mounted units, ducted
units etc.). Similarly, conditioning in summer may be performed
with a heated underfloor system in rooms where this is installed,
and with cooled air in other rooms, via standard VRF indoor units.
This makes it possible to use the most effective treatment solution
possible for each interior space, catering for both the requisites
of the specific application and the preferences of the user. As
well as superior energy efficiency, a hybrid system also offers the
extraordinary flexibility needed to cater for very diverse situations,
which a conventional conditioning system simply does not.
at a temperature regulated with the same method, based on the
primary delivery circuit reading or the return circuit reading.
As the cooling action of the radiant panels only reduces the
sensible heat of the interior space, suitable dehumidification
systems may also be included in the installation.
The ATW hydronic module can be configured for the following
operating modes and hot water temperatures:
TECHNICAL SPECIFICATIONS - ATW HYDRONIC MODULE
NEW
Power
Heating power output
(nominal)
Temp. range
in heating mode
Power absorption
Current consumption
Serie PUMY
Serie PUHY (Nominal/Seasonal)
Serie PURY (Nominal/Seasonal)
Serie PQHY - PQRY
Serie PQHY - PQRY
Cooling output
(nominal)
Temp. range
in cooling mode
PWFY-EP100VM-E2-AU
Single-phase,220-230-240V50/60Hz
Power absorption
Current consumption
PUMY Series
PUHY Series (Nominal/Seasonal)
PURY Series (Nominal/Seasonal)
PQHY - PQRY Series
PQHY - PQRY Series
kW *1
kcal/h *1
Btu/h *1
kW
A
Outdoor temp. DB
Outdoor temp. DB
Outdoor temp. DB
Water temp. in circuit
Temp. in water/glycol circuit
(for geothermal applications)
Return line water temp
kW *2
kcal/h *2
Btu/h *2
kW
A
Outdoor temp. B.S.
Outdoor temp. B.S.
Outdoor temp. B.S.
Water temp. in circuit
Temp. in water/glycol circuit
(for geothermal applications)
Total capacity
Series
12,5
12,5
10,800
10,800
42,700
42,700
0,025
0,025
0,138
0,138
-
-20~15°C
-20~15,5°C
-
-20~32°C
-
10~45°C
-
-5~45°C
-
10~40°C
10~45°C
11,2
11,2
9,600
9,600
38,200
38,200
0,025
0,025
0,138
0,138
-
-
-5~46°C
-
-5~46°C
-
10~45°C
-
-5~45°C
-
10~35°C
10~35°C
50-100% of capacity of OU
50-100% of capacity of OU
Y (Ecostandard (P), Nominal (P),
Small Y (PUMY)
Return line water temp
Connectable outdoor
units
PWFY-P100VM-E2-AU
Single-phase,220-230-240V50/60Hz
Seasonal (EP)), Zubadan Y, WY, R2
(Nominal (P), Seasonal (EP)), WR2
Sound pressure in anechoic chamber
Refrigerant circuit
Liquid
piping diameter
Gas
Water piping diameter
Inlet
Delivery
Drain pipe diameter
External finish
External dimensions HxLxW
Dry weight
Water in circuit
Nominal
(entire operating volume)
dB <A>
mm (inches)
mm (inches)
mm (inches)
mm (inches)
mm (inches)
Rated pressure
MPa
MPa
Standard equipment
R410A
Water
Manuals
Accessory
Note:
* Nominalconditions*1and2*aresubjecttoEN14511-2:2004(E)
* Install the module in an environment with a wet bulb temperature
not exceeding 32°C
* Due to continuous improvements made to these products, the
specifications given above are subject to modification without
prior notification.
* The module is not designed to be installed outdoors.
194
mm
29
29
ø 9,52 (ø 3/8”) brazed
ø 9,52 (ø 3/8”) brazed
ø 15,88 (ø 5/8”) brazed
ø 15,88 (ø 5/8”) brazed
ø19,05(R3/4”)screw-onconnection
ø19,05(R3/4”)screw-onconnection
ø19,05(R3/4”)screw-onconnection
ø19,05(R3/4”)screw-onconnection
ø32(1-1/4”)
ø32(1-1/4”)
Galvanised sheet steel
Galvanised sheet steel
800(785withoutfeet)x450x300
800(785withoutfeet)x450x300
kg
m3/h
36
33
1,8-4,30
1,1-2,15
4,15
4,15
1
1
Installation manual, Instruction manuals
Water filter, insulating material, 2x external signal connectors,
plumbing fittings for filter, flow regulator
*1 Nominal heating conditions
Outdoor temp.: 7°C DB/6°C WB
(45°FDB/43°FWB)
Pipelength:7.5m(24-9/16feet)
Vertical difference: 0 m (0 feet)
Intake water temp.: 30°C
Water flow rate: 2.15 m³/h (P100)
4.30m³/h(P200)
*2 Nominal cooling conditions:
External temp: 35°C DB/(95°F DB)
Pipelength7.5m(24-9/16feet)
Vertical difference: 0 m (0 feet)
Intake water temp.: 23°C
Water flow rate: 1.93 m³/h (P100)
3.86 m³/h (P200)
Schematic: Ecodan® VRF HWS & ATW (simultaneous heating, cooling and domestic hot water production)
VRF INDOOR
UNIT
DOMESTIC HOT
WATER
THERMAL
FLYWHEEL
HEATING
REFRIGERANT
DOMESTIC
HOT WATER
ACCUMULATOR
COLD MAINS
WATER
REMOTE
CONTROL
195
200% extended connectivity function
SMALL Y SERIES HEAT PUMP UNITS
WA
AI
SMALL Y Series
Ecodan® ATW
Indoor unit 1
Indoor unit 2
R
Indoor unit 3
AI
TE
R
R
Indoor unit n
The 200% extended connectivity function with outdoor units of the SMALL Y series is only applicable in mixed installations and
allows the connection of indoor units (air heating or cooling) and an Ecodan® ATW hydronic module (water heating) with a total
capacity index up to 190% of the capacity of the outdoor unit.*
Y SERIES HEAT PUMP UNITS
WA
AI
Y / WY Series
Ecodan® ATW
Ecodan® ATW
Indoor unit 1
Indoor unit 2
R
Indoor unit 3
AI
TE
R
WA
TE
R
R
Indoor unit n
With Y Series outdoor units, this function is only applicable in mixed installations and allows the connection of indoor units (air heating
or cooling) and an Ecodan® ATW hydronic module (water heating) with a total capacity index up to 200% of the capacity of the
outdoor unit.*
*In the case of PUMY series outdoor units, a capacity index of 190% is possible with the PUMY P112 Y(V)KM.
196
200% extended connectivity function
R2 SERIES HEAT RECOVERY UNITS
TE
R
WA
TE
R
HE
WA
AT
REC
R
DH
RY
AI
W
VE
R
O
AI
BC Controller
Indoor unit 1
Ecodan® HWS
Indoor unit 2
Indoor unit 3
Indoor unit n
Ecodan® ATW
TE
R
HE
WA
AT
REC
R
DH
W
RY
AI
VE
R
O
AI
WCB
HEATING
Indoor unit 1
R2 / WR2 Series
Ecodan® HWS
Indoor unit 2
Indoor unit 3
Indoor unit n
Ecodan® ATW
With R2 Series outdoor units operating in different modes, the function is only applicable in mixed installations configured either with
the BC Controller or with the WCB refrigerant-water connection box, and permits the connection of indoor units (air heating and
cooling) and Ecodan® HWS&ATW hydronic modules (DHW production and water heating) with a total capacity index up to 200% of
the capacity of the outdoor unit.*
*Contact head office for more details.
197
System
PACKAGED HWHP
CAHV (Air to Water)
WA
TE
R
DH
W
The Ecodan® - Packaged HWHP (Hot Water Heat Pump) system consists of a monoblock air condensing
outdoor unit which produces very high volumes of high temperature hot water.
Packaged AtW heat pumps for hot water
Mitsubishi Electric has been designing and manufacturing
packaged heat pumps for hot water for the commercial sector
since 1970. Mitsubishi Electric was one of the first manufacturers
in Japan to use heat pump technology to produce hot water.
Mitsubishi Electric was also the first manufacturer to develop a
rangeofsolutionsoperatingwithR407C.Eventhefirstofthese
units were already capable of producing high temperature hot
water at up to 70°C, which is high enough to instantaneously
neutralise legionella bacteria.
Our products are still used today in industrial processes requiring
high volumes of high temperature water.
Our Hot Water Heat Pump systems are used in commercial
applications such as hotels and in hospitals and clinics, testifying to
their superior reliability.
As the leading manufacturer of domestic hot water production
systems, we are proud to present the efficient “Air to Water”
packaged heat pump system.
Technology
High efficiency DC
Inverter Scroll
compressor
WATER OUTLET
The “Flash-Injection Circuit” developed for the VRF CITY MULTI
ZUBADAN Y system (a heat pump system for very cold climates)
is installed in the new CAHV packaged Hot Water Heat Pump
system. By using this advanced injection system and highly
efficient compressors, the CAHV packaged system can deliver
high temperature hot water at up to 70°C, and ensures less
performance and capacity loss at very low outdoor temperatures.
*COP4.13–Outdoortemperature
7°C DB/ 6°C WB. Outlet water temperature 35°C.
198
AIR
PLATE
EXCHANGER
HEAT EXCHANGER
LEV
COMPRESSOR
LEV
HEAT
INTERCHANGE
CIRCUIT
Flash-Injection circuit
WATER INLET
Class beating heating capacity
Efficiency mode (COP)
Outdoor temperature °C DB -20 -10
0
7
20
Outlet water
temperature
35°C.
Capacity
kW 31.9 40.3 42.7 45.0 45.0
The CAHV packaged system offers unrivalled flexibility with 2
operating modes to cater for every possible need: “Efficiency Mode
(COP)” and “Capacity Mode”. The system is capable of delivering
a maximum capacity exceeding 70 kW in Capacity mode, while
Efficiency mode (COP) is extremely effective for maximising energy
efficiency in all operating conditions and, as a consequence,
reducing CO2 emissions.
* Outdoor temperature 20°C DB, Water outlet temperature 35°C.
Relative humidity 85%. In Capacity mode.
Capacity Mode
Outdoor temperature °C DB -20 -10
0
7
20
Outlet water
temperature
35°C.
Capacity
kW 31.9 40.3 42.7 63.4 73.9
Operation guaranteed at temperatures as low as -20 °C
-10°C / 70°C
-20°C / 65°C
The CAHV packaged system is capable of operating at outdoor
temperaturesfrom-20°Cto40°C.Thesystemproduceshigh
temperature hot water (65°C), even on the coldest days of the
year.
In the defrost cycle, the two compressors of the system operate in
alternation to limit the drop in delivery temperature.
Delivery temperature (°C)
80
70
60
50
40
30
20
10
0
-30
-20
-10
-0
10
20
Outdoor air temperature (°CDB)
30
40
50
Backup Function and Rotation Function
The “Backup*” function of the CAHV packaged system ensures superior reliability. If one of the two DC Scroll Inverter compressors
equipping the individual system fails, the other compressor continues to operate to prevent the discomfort caused by the system shutting
down completely. In this state, however, the thermal capacity of the system is obviously halved.
BACKUP FUNCTION
BACKUP
OPERATION
ROTATION FUNCTION
ALTERNATED
COMPRESSOR
OPERATION
199
HEATING
The “Rotation” function is another key solution ensuring uniform operation and maximising the life span of all the compressors in CAHV
packaged systems in multiple configurations. In an installation with two or more systems, the individual systems operate in alternation if the
thermal demand does not require the systems to function simultaneously.
High overpressure fans
The new fan technology employed in the CAHV packaged system means that it can also be used to create ducted installations, further
increasing the installation flexibility of the system. The static external pressure of the fans is settable from 0 Pa to 60 Pa.
Remote control via external contacts
The wide choice of analogue and digital inputs and digital outputs
available on the electronic board of the system makes it possible
to control the system remotely from a BMS, a timer or external
contacts.
• SelectON/OFFstateinrelationtosignalsreceivedfromflow
regulator switch and circulation pump, for increased protection
of the hydronic circuit and to ensure that the system functions
correctly.
The following are just some of the available input signals:
• Operatingmodeandhotwaterproductiontemperaturesetpoint
selection, choosing between “Heating Mode” and “ECO Heating
Mode”. The latter of these two modes is particularly advanced,
as it uses the outdoor air compensation curve to automatically
determine the water delivery setpoint.
• Operatingmodeandhotwaterproductiontemperature
setpoint selection, choosing between “Domestic Hot Water
Mode” and “Heating Mode”. This means that two different water
temperature setpoints are settable: a higher value for domestic
hot water production and lower value for heating. This improves
performance at partial loads, as DHW is only produced when
requested.
• Selectbetween“EfficiencyMode(COP)”and“CapacityMode”
for the unit. The operation of the system may be optimised
in relation to demand, increasing power or performance
depending on the specific case.
The following are just some of the available output signals:
• Adigitaloutputmaybeactivatedataselectableminimumwater
temperature to start a thermal power generator (boiler, thermal
solar panel etc.) to substitute the system when the system is in
OFF state.
• Unitdefrostsignal.
The result is extraordinary control flexibility either locally, using the
dedicated PAR-W21MAA remote controller, or remotely, using
external contacts.
Control and monitoring functionality with centralised WEB Server controllers
The CAHV packaged system is capable of interfacing via the
M-Net data transmission bus with the WEB Server 3D Touch and
3D Blind Controller centralised controllers of the VRF CITY MULTI
control system range.
Depending on the application, the CAHV packaged system
may be interfaced with a VRF CITY MULTI system to optimise
operation when catering for hot water, heating and air conditioning
demands, or, alternatively, to manage, monitor and supervise the
system in stand-alone configuration for applications requiring
solely the production of large volumes of hot water.
Inbothcases,thesystemmaybecontrolledeitherfromthe10.4”
backlit, touch screen colour display of the 3DT controller, or via the
internet using the Web pages of either centralised controller.
200
Cascade systems
For applications with demands for very large volumes of hot water production, a flexible, modular thermal power installation may be created
with up to 16 CAHV packaged systems, for a maximum output of up to 720 kW. This installation solution offers superlative modulability, as
each individual system is equipped with two DC Scroll Inverter compressors, ensuring that the thermal power is adjusted progressively and
with extreme precision in relation to the effective demand for hot water. This optimises the operation of the entire installation, with only a
portion of the CAHV packaged installation operating in mid-load conditions and during spring and autumn.
A malfunction of one or more CAHV packaged systems does not compromise the operation of the other systems in the installation, ensuring
safety and uninterrupted operativity.
TECHNICAL SPECIFICATIONS
MODEL
Power
Nominal heating
nominal*1
Nominal heating
nominal*2
Temperature range
Water pressure loss
Volume of water in circuit
Water piping diameters
A3phasee4cables380-400-415V50/60Hz
Power absorption
Current consumption
COP
Power absorption
Current consumption
COP
Power absorption
Current consumption
COP
Delivery water temperature
Outdoor air temperature
kW
kW
A
45
12.9
21.78-20.69-19.94
3.49
kW
kW
A
45
10.9
10.6
HEATING
Nominal heating
nominale*3
CAHV-P500YA-HPB (-BS)
4.13
kW
kW
A
45
25.6
43.17-41.01-39.53
1.76
25 ~ 70°C
°CBS
-20~40°C
12.9kPa
7.5 m3/h – 15.0 m3/h
Return
Delivery
Sound pressure *1 a 1 m
Sound pressure *1 a 10 m
External dimensions
HxLxP
Dry weight
R407C refrigerant charge quantity
mm
mm
dBA
dBA
mm
kg
kg
38.1 (Rc 1 ½”) threaded
38.1 (Rc 1 ½”) threadedx
59
51
1710 x 1978 x 759
526
5.5 x 2
Note:
*1
Nominalheatingconditions:outdoortemperature7°CDB/6°CWB;deliverywatertemperature45°C;returnwatertemperature40°C.
*2
Nominalheatingconditions:outdoortemperature7°CDB/6°CWB;deliverywatertemperature35°C;returnwatertemperature30°C.
*3
Nominalheatingconditions:outdoortemperature7°CDB/6°CWB;deliverywatertemperature70°C.
* The water circuit must be a closed circuit.
* Install the unit in a location where the outdoor wet bulb temperature does not exceed 32°C.
201
Schematic: Ecodan® Packaged HWHP CAHV (low and high temperature heating + DHW)
DOMESTIC
HOT WATER
COLD
MAINS
WATER
HYDRAULIC
SEPARATOR
REMOTE
CONTROL
202
DOMESTIC
HOT WATER
ACCUMULATOR
System
PACKAGED HWHP
CRHV (Water to Water)
WA
TE
R
DH
W
The Ecodan® - Packaged HWHP (Hot Water Heat Pump) system consists of a monoblock water condensing
outdoor unit which produces very high volumes of high temperature hot water.
Packaged WtW heat pumps for hot water
The new Hot Water Heat Pump Packaged Water to Water CRHV
completes the Mitsubishi Electric range of heat pumps for hot
water production, confirming its leadership in the production of
thesesystems.EquippedwithtwocompressorsusingR410A
refrigerant delivering a nominal capacity up to 60kW and drawing
energy from the ground, the CRHV packaged system is the
ideal solution for geothermal applications and applications using
borehole, river or lake water as a heat source to produce hot water
for heating or domestic hot water up to 65°C. The Hot Water Heat
Pump CRHV offers class beating innovation and efficiency.
HEAT SOURCES
Geothermal
field ►
◄ Geothermal
well
Borehole ►
◄ River, lake
Technology
The new CRHV packaged system is also equipped with “FlashInjection Circuit” developed for the VRF CITY MULTI ZUBADAN Y
system (a heat pump system for very cold climates). By using this
advanced injection system and highly efficient compressors, the
CRHV packaged system can deliver high temperature hot water at
up to 65°C, ensuring superior performance and capacity even at
very cold outdoor temperatures.
HEATING
HPCJ
R410A
Heat
exchanger
HEX
PSH
HP
S
S
Flash
Injection
Circuit
INJ
LEV
A
Compressor
HEX
PSL
LEV
LPCJ
*SCOP4.33–Outletwater/glycoltemperature-3°C.
Outlet water temperature 35°C.
203
Upgrading existing systems
The new CRHV packaged system can reuse existing geothermal
probes or wells, adapting to their effective thermal capacity.
The inverter-driven CRHV packaged system is capable of adjusting
itsthermalcapacitybetween45kWand60kWinrelationtothe
effective amount of heat deliverable by the existing geothermal well.
Capacity
60 kW
Capacity
45 kW
Operating temperatures
70
Delivery temperature (°C)
The new CRHV packaged system is capable of operating at
incoming source water temperatures between -8°C and 27°C
with a counterflow configuration, while the incoming source water
temperaturerangemaybeextendedtoupto45°Cusingaparallel
flow configuration.
The water delivery temperature range is from 30°C and 65°C
(in parallel flow configuration, the maximum water delivery
temperature is 60°C at incoming water temperatures above 27°C).
The CRHV packaged system is also suitable for indoor installation.
60
50
40
30
-20
-10
0
10
20
30
Water inlet temperature (°C)
Backup Function and Rotation Function
The “Backup*” function of the CRHV packaged system ensures superior reliability. If one of the two DC Scroll Inverter compressors
equipping the individual system fails, the other compressor continues to operate to prevent the discomfort caused by the system shutting
down completely. In this state, however, the thermal capacity of the system is obviously halved.
The “Rotation” function is another key solution ensuring uniform operation and maximising the life span of all the compressors in CRHV
packaged systems in multiple configurations. In an installation with two or more systems, the individual systems operate in alternation if the
thermal demand does not require the systems to function simultaneously.
BACKUP FUNCTION
BACKUP
OPERATION
204
ROTATION FUNCTION
ALTERNATED
COMPRESSOR
OPERATION
Remote control via external contacts
The wide choice of analogue and digital
inputs and digital outputs available on the
electronic board of the system makes it
possible to control the system remotely
from a BMS, a timer or external contacts.
The following are just some of the available input signals:
• Operatingmodeandhotwaterproductiontemperaturesetpoint
selection, choosing between “Heating Mode” and “ECO Heating
Mode”. The latter of these two modes is particularly advanced,
as it uses the outdoor air compensation curve to automatically
determine the water delivery setpoint.
• Operatingmodeandhotwaterproductiontemperaturesetpoint
selection, choosing between “Domestic Hot Water Mode” and
“Heating Mode”.
This means that two different water temperature setpoints are
settable: a higher value for domestic hot water production and
lower value for heating. This improves performance at partial
loads, as DHW is only produced when requested.
• Selectbetween“EfficiencyMode(COP)”and“CapacityMode”
for the unit. The operation of the system may be optimised
in relation to demand, increasing power or performance
depending on the specific case.
• SelectON/OFFstateinrelationtosignalsreceivedfromflow
regulator switch and circulation pump, for increased protection
of the hydronic circuit and to ensure that the system functions
correctly.
The following are just some of the available output signals:
• Adigitaloutputmaybeactivatedataselectableminimumwater
temperature to start a thermal power generator (boiler, thermal
solar panel etc.) to substitute the system in certain conditions
when the system is in OFF state.
• Manage3-wayvalveinrelationtodomestichotwaterorheating
water demand.
• Managepumpsoncircuithotwatersideandheatsourceside
(ON/OFF).
The result is extraordinary control flexibility either locally, using the
dedicated PAR-W21MAA remote controller, or remotely, using
external contacts.
Control and monitoring functionality with centralised WEB Server controllers
The CRHV packaged system is capable of interfacing via the
M-Net data transmission bus with the WEB Server 3D Touch
and 3D Blind Controller centralised controllers of the VRF CITY
MULTI control system range. Depending on the application, the
CRHV packaged system may be interfaced with a VRF CITY
MULTI system to optimise operation when catering for hot water,
heating and air conditioning demands, or, alternatively, to manage,
monitor and supervise the system in stand-alone configuration for
applications requiring solely the production of large volumes of hot
water. In both cases, the system may be controlled either from the
10.4”backlit,touchscreencolourdisplayofthe3DTcontroller,or
via the internet using the Web pages of either centralised controller.
Compact dimensions
Finish treatment
The module can also be ordered with an optional special
protective treatment for installation in particularly harsh or corrosive
environments.
MORE THAN 800 (780) MORE THAN 50
*footprint of one unit, not including service access space for maintenance.
MORE THAN 50
MORE THAN 50
UNTREATED
STANDARD
TREATED
OPTIONAL
SERVICE ACCESS
SPACE
UNIT
SERVICE ACCESS
SPACE
VENTILATION
SPACE
(934)
205
HEATING
The compact footprint of the units has been made possible by a
new, highly efficient, low pressure loss heat exchanger. Installation
footprint 0.73 m²*
Cascade systems
For applications with demands for very large volumes of hot water production, a flexible, modular thermal power installation may be created
with up to 16 CRHV packaged systems, for a maximum output of up to 960 kW, with integrated cascade control. This installation solution
offers superlative modulability, as each individual system is equipped with two DC Scroll Inverter compressors, ensuring that the thermal
power is adjusted progressively and with extreme precision in relation to the effective demand for hot water.
This optimises the operation of the entire installation, with only a portion of the CRHV packaged installation operating in mid-load conditions
and during spring and autumn.
A malfunction of one or more CRHV packaged systems does not compromise the operation of the other systems in the installation, ensuring
safety and uninterrupted operativity.
TECHNICAL SPECIFICATIONS
MODEL
Power
SCOP (power 60 kW) EN14825 Heat source water/glycol 0/-3°C, Hot water 30/35°C
Ave. climate conditions
Heat source water/glycol 0/-3°C, Hot water 47/55°C
Nominal heating
kW
capacity 1 *1
Power absorption
kW
Current consumption 380-400-415V
A
COP
Flow rate of water in circuit
m3/h
Flow rate of heat source water/glycol
m3/h
Nominal heating
kW
capacity 2 *1
Power absorption
kW
Current consumption 380-400-415V
A
COP
Flow rate of water in circuit
m3/h
Flow rate of heat source water/glycol
m3/h
Heat source liquid
Water pressure loss
Hot water side*3
kPa
Heat source water/glycol side*3
kPa
Temperature range
Hot water side
°C
Heat source water/glycol side
°C
Hot water/heat source piping Return
mm (int)
diameter
Delivery
mm (int)
Flow rate of water in circuit
Hot water side
m3/h
Heat source water/glycol side
m3/h
AInstallation environment *4
Sound pressure (measured in anechoic chamber) at 1 m *3
Sound pressure (measured in anechoic chamber) *3
Dimensions
HxLxW
Dry weight
R410A refrigerant charge quantity
CRHV-P600YA-HPB
A3-phaseand4cables380-400-415V50/60Hz
4.33
2.86
60
14.2
24.0-22.8-22.0
4.23
10.3
14.7
45.0
10.2
17.2-16.4-15.8
4.41
7.7
11.2
Ethylene glycol 35 WT% (freezing point -18°C)
14
38
Hot water delivery 30 ~ 65
(at inlet from source) -8 ~ 27
50.8 (Rc 2”) threaded
50.8 (Rc 2”) threaded
3.2 – 15.0
4.5–16.0
indoor
50
66
1561x934x780
395
4.5x2
Note:
*1Nominalheatingconditions:Hotwaterdeliverytemperature35°C;water/glycoloutlettemperature-3°C;hotwaterreturntemperature30°C;water/glycolinlettemperature0°C.
*2IncludespowerabsorptionofpumpinaccordancewithEN14511.
*3Nominalheatingconditions:Hotwaterdeliverytemperature35°C;water/glycoloutlettemperature-3°C;hotwaterreturntemperature30°C;water/glycolinlettemperature0°C.Power60kW,
hotwaterflowrate10.3m³;water/glycolflowrate14.7m³.
*4 The unit is for indoor installation only. Do not install outdoors.
206
Schematic: Ecodan® Packaged HWHP CRHV (low and high temperature heating + DHW)
HEATING
DOMESTIC
HOT WATER
HYDRAULIC
SEPARATOR
REMOTE
CONTROL
DOMESTIC
HOT WATER
ACCUMULATOR
COLD MAINS
WATER
GEOTHERMAL
WELL
207
Control systems serie
208
INDEX
Energy saving functions ....................................................................................................... 211
Remote controls................................................................................................................... 213
Centralized controls ............................................................................................................. 217
Centralized WEB Server controls ......................................................................................... 218
Cloud remote control system – RMI - Remote Monitoring Interface ..................................... 222
Supervision systems ............................................................................................................ 225
Integration of external signals ............................................................................................... 227
B.M.S. Integration ................................................................................................................ 228
CONTROL SYSTEMS
209
DESIGN REMOTE CONTROL
PAC-YT52CRA
DELUXE REMOTE CONTROL
PAR-31MAA
ADVANCED REMOTE CONTROL
WIRELESS REMOTE CONTROL
PAR-U02MEDA
PAR-FL32MA
NEW
ECODAN REMOTE CONTROL
LOSSNAY REMOTE CONTROL
PAR-W21MAA
PZ-61DR
NEW
ON/OFF CENTRALIZED CONTROL
SYSTEM CENTRALIZED CONTROL
PAC-YT40ANRA
AT-50B
WEB SERVER CENTRALIZED CONTROL
WEB SERVER CENTRALIZED CONTROL
AE-200E
EW-50
3D TOUCH Controller
NEW
3D BLIND Controller
NEW
ENERGY MONITORING CLOUD SYSTEM
SUPERVISOR SYSTEM
RMI
TG-2000A
INTEGRATION OF EXTERNAL SIGNALS
B.M.S. INTEGRATION
M-NET-AHC-24VDC
INTERFACE
B.M.S.
Remote Monitoring Interface
Energy Saving Functions
Dual Set Point
The new Dual Setpoint function makes it possible to preset
setpoint temperatures for cooling and heating mode in a single
operation.
On Y series heat pump models, this functions means that it is no
longer necessary to reset setpoint temperatures each time the
operating mode of the unit is switched from Heating to Cooling
mode and vice versa.
In R2 heat recovery systems, it is also possible to set an “energy
saving” temperature band for AUTO mode, within which the
system ventilates only and performs no thermal air treatment
(thermo off).
Setting a broader band increases energy savings, but permits
larger temperature variations in the indoor space. Setting the two
setpoint temperatures closer together creates a narrower thermo
off band, prioritising maximum comfort in the indoor space over
energy savings.
CONVENTIONAL SYSTEM
23°C
DUAL SETPOINT SYSTEM
Function in AUTO mode (Dual Setpoint)
The temperature in the indoor space
varies in relation to variations in
outdoor temperature
Average of setpoint temperatures
in cooling and heating modes
Thermo On/Off differential
in Cooling mode
Setpoint T
(Cooling
Dead band (Thermo Off)
+0,5°C
-0,5°C
Thermo On/Off differential
in Heating mode
Setpoint T (Heating)
+1,5°C
-1,5°C
-1°C
T Setpoint
(Heating)
Heat
Cool
Heat
Cool
The width of the “thermo off” bad depends on the setpoint temperatures set for the two operating modes (Cooling and Heating)
CONTROL SYSTEMS
211
Energy Saving Functions
View and set setpoint temperatures in 0.5°C increments
The goal of Mitsubishi Electric is to offer a better quality of life
though innovative products. Mitsubishi Electric was the first
manufacturer to introduce the capability of viewing and setting
setpoint temperatures in 0.5°C increments, for unparalleled
comfort calibrated with decimal precision by the user.
This function gives the user a greater sense of control and,
therefore, comfort, by offering a wider and more precise choice of
settable temperatures.
Downloadable consumption data via internet
With the 3D TOUCH and BLIND Controller centralised WEB Server controllers, consumption data can be downloaded directly from the
internet. These centralised controllers are equipped with 2Gb SD internal memory cards, making it possible to store up to two years of
operating data for the system and consumption data for all the users in the conditioning system. This data is downloadable in CSV format
from a dedicated web page, while activating the “AE-200 Charge” and “EB-50 Charge” PIN code licenses adds functions to proportionally
calculate individual electric power and energy consumption for air conditioning, heating and domestic hot water utility usage.
RMI Ready
The VRF CITY MULTI system must be equipped with a WEB Server centralised controller to be able to interface with the RMI remote
management, supervision and energy monitoring platform. The 3D TOUCH and BLIND Controller WEB Server centralised controllers are
RMI Ready and already support all the functions of the RMI system.
Previous generation Web Server centralised controllers are also RMI Ready, but only allow remote management of the installation (RMI
Smart).
212
Remote controls
PAC-YT52CRA Design remote control
M-Net
M-Net
TB5
TB5
12V
TB15
•Displaywithwhitebacklighting.
•Simplewall-mountedinstallation.
•Easyandintuitivewithicon-basedinterface.
•Operatingmodeselectionfunction.
•Vanepositionselectionfunction(forcompatibleindoorunits).
•Usabletomanage1groupofupto16indoorunits.
•Simpleconnectionwithsinglenon-polarisedtwo-corewire.
•MA self-addressing technology.
•Suitableforalltypesofindoorunit.
•Recommended for hotels and public spaces, as ambient air
temperature display can be disabled.
•Integrated temperature sensor usable instead of indoor unit
sensor.
•Configurabletemperaturerangesettablefromlocalkeypad.
TB5
TB15
PAC YT52
12V
PAC YT52
Groups of 2 indoor units
PAR-31MAA Deluxe remote control unit
M-Net
M-Net
TB5
TB5
PAR-31
TB15
12V
PAR-31
Groups of 2 indoor units
213
CONTROL SYSTEMS
12V
TB15
TB5
•Displaywithwhitebacklightingandadjustablecontrast.
•Simplewall-mountedinstallation.
•NightSet-backfunctionforsettingminimumwintertemperature
or maximum summer temperature in temperature maintenance
mode.
•Effectivestaticoverpressureselectionfunctionforductedindoor
units (PEFY-P VMHS only).
•Internal weekly timer function and simplified internal timers
(Auto-off, etc.).
•Usabletomanage1groupofupto16indoorunits.
•Easy and intuitive, with icon based graphic interface, direct
control buttons and function buttons.
•Simpleconnectionwithsinglenon-polarisedtwo-corewire.
•MA self-addressing technology.
•Suitableforalltypesofindoorunit,includingGUF.
•Recommendedforgroupswithonlyoneindoorunit.
•Integrated temperature sensor usable instead of indoor unit
sensor.
•Configurabletemperaturerangesettablefromlocalkeypad.
•Viewandsetsetpointtemperaturesin0.5°Cincrements.
PAR-U02MEDA Advanced remote control
M-Net
M-Net
TB5
TB5
TB5
PAR-U02
PAR-U02
The Mitsubishi Electric Advanced remote control may be used
to control up to 16 indoor units. While advanced, this controller
also offers basic functions such as monitoring and controlling the
status of the units in the system, and a weekly hour timer. Four
integrated sensors (temperature, humidity, occupancy and light)
allow a series of advanced adjustment and control functions. For
example, the occupancy sensor can be used to save energy by
configuring different modes based on the occupied/vacant status
of each room.
•Large monochrome LCD touch screen display with white
backlighting.
•Usabletomanage1groupofupto16indoorunits.
•Integratedtemperature,humidity,occupancyandlightsensors.
•SMARTenergysavingandcomfortfunctions.
•ContextualcolourLEDindicatingoperatingstatusofindoorunits.
•Viewandsetsetpointtemperaturesin0.5°Cincrements
•DualSetpointfunction.
•Internalweeklytimer.
•MEM-Netaddressingtechnology.
•Extended setting ranges for setpoints (Cool: 19-35°C; Heat:
5-28°C).
•New functions for use in conjunction with AHC Programmable
Controller (PLC M-Net), for creating operating strategies with
generic devices.
Groups of 2 indoor units
Occupancy Sensor
The occupancy sensor detects if a room is vacant and enables automatic control of the indoor units to implement energy saving strategies
based on the effective occupancy of each room. The occupancy sensor enables the following energy saving functions:
•SwitchindoorunitsON/OFFbasedonoccupied/vacantstateofroom;
•Fanspeedcontrol;
•SwitchindoorunitfromThermoONtoThermoOFFstate;
•Configuretemperaturedeviationbasedonoccupied/vacantstatus.
RADIAL MEASUREMENT UP TO 10 m
10 m
5m
PAR-U02
EXTENDED SPATIAL MEASUREMENT
5m
10 m
10 m
110°
Upwards: 11.2°
PAR-U02
1,2 m
o
1,5 m
31°
Downwards: 19.8°
Light Sensor
The light sensor measures the light levels in the conditioned
room and adjusts the brightness of the remote control display
accordingly.
Bright/dark thresholds may be set directly from the remote control
over an extended luminosity range (1 to 65535 lx).
The light sensor is also used in low light conditions to confirm the
occupied/vacant status of the room.
LIGHT SENSOR
Luminosity (lx)
Bright
Dark
Bright
Deap zone
Dark
Dead
zone Bright
threshold
Brightness sensor
Monitor
Dead
zone Dark
threshold
Time
214
Thereshold
adjustment
Menu
------ lx
Threshold value
30 lx
Bright
5 lx
Dark
Back
Test
Confirms
Temperature and Humidity Sensor
LED status indicator
The integrated temperature and humidity sensor may be used to
increase perceived comfort levels,
while the ability to adjust the temperature with a precision of
0.5°C gives the user an even greater sense of control. The relative
humidity sensor, combined with the ability to interlock the remote
control with a programmable AHC controller, makes it possible to
control humidity with external devices connected to the system
via the AHC.
The LED status indicator indicates the status of active functions
on the remote control. Each colour is associated with a status or
function:
e.g. Red=Heating, Blue=Cooling etc.
The LED indicator may be temporarily or permanently disabled.
Blue
Light bIue
Green
Yellow
Orange
Red
Light green
Purple
Pink
White
PAR-FL32MA wireless remote controller
•Usabletomanage1groupofupto16indoorunits.
•Easyandintuitivewithicon-basedinterface.
•Receiver connected simply with single non-polarised two-core
wire.
•MA self-addressing technology.
•Suitableforalltypesofindoorunit.
•Recommendedforgroupswithonlyoneindoorunit.
•Genericreceiverforallindoorunittypes:PAR-FA32MA.
•Specific corner receiver for 4-way PLFY-P VBM-E cassette
units:PAR-SA9FA.
PAR-FA32MA
PAR-FL32MA
M-Net
M-Net
TB5
TB5
12V
TB15
PAR-SA9FA
TB15
12V
CONTROL SYSTEMS
PAC YT52
TB5
PAC YT52
Groups of 2 indoor units
215
PAR-W21MAA remote control for hydronic modules and HWHP units
•Remotecontrolforhydronicmodules,HWSandATWunitsand
Hot Water Heat Pump package systems (HWHP).
•Usabletomanage1groupofupto16indoorunits.
•Easyandintuitivewithicon-basedinterface.
•Simpleconnectionwithsinglenon-polarisedtwo-corewire.
•MAself-addressingtechnology.
•Operating mode selection (Heating, Heating ECO, Hot water,
etc.).
•Internalweeklytimer.
•Customisablewatertemperaturerangesforswitchingoperating
mode from local keypad.
•On-displayservicemessages.
HWS & ATW
Centralised
controller
Power supply
unit
ME remote control
MA Remote control
PZ-61DR remote control for Lossnay
•SpecificremotecontrolforLossnayheatrecoveryunits.
•Usabletomanageonegroupofupto15Lossnayunits.
•Easyandintuitivewithicon-basedinterface.
•Simpleconnectionwithsinglenon-polarisedtwo-corewire.
•Internalweeklytimer.
•Customventilationstrategiesformodeswitching(Auto/recovery/
bypass).
•Nightpurgefunctionforactivenight-timeventilationinsummer.
•On-displayservicemessages.
•BacklitLCDscreen.
•Energymanagement.
Lossnay
Centralised
controller
Power supply
unit
ME remote control
216
MA Remote control
Centralised controllers
PAC-YT40ANRA centralised ON/OFF controller
•Usabletomanage16groupsforatotalofupto50indoorunits.
•Individualorcollectivegroupcontrol.
•Simpleandintuitive.
•Simpleconnectionwithsinglenon-polarisedtwo-corewire.
•ME M-Net addressing technology.
•Groupconfigurationfromkeypad.
•External power supply is necessary for controlling more than
one system.
•Mustalwaysbeusedincombinationwithremoteorcentralised
controllers.
Lossnay
Centralised
controller
ON/OFF
Power
supply unit
ME remote control
MA Remote control
AT-50B centralised system controller
•5”backlitLCDtouchscreen.
•Usabletomanage50groupsofupto50indoorunits.
•Individual or collective group control, with groups displayed in
grid, list or group format.
•Dual-Setpoint function.
•Viewandsetsetpointtemperaturesin0.5°Cincrements.
•Twoweeklytimers(forseasonalswitching)andonedailytimer.
•Simpleconnectionwithsinglenon-polarisedtwo-corewire.
•MEM-Netaddressingtechnology.
•Twofunctionbuttonsprogrammabletoaccessanyofachoice
of functions (Night Set-back, weekly hour timer setting, switch
operatingmode,adjustabletemperaturerangerestriction,local
restrictions).
•Recommendedforcontrollingasinglesystem.
M-Net
bus
M-Net
bus
TB7
TB3
Outdoor
unit
PAC-SC51KUA-J
TB5
CONTROL SYSTEMS
AT-50A-J
TB5
217
Centralised controllers WEB Server
AE-200 3D TOUCH Controller WEB Server centralised controller
NEW
•Generouslysizedbacklit10.4”SVGAtouchscreenwithgraphic
layout display function.
•Built-in240VAC50/60Hzpowersupply.
•Standaloneconfiguration:managementofupto50indoorunits.
•Extendedconfiguration:managementofupto200indoorunits
(with 3 expansion controllers EW-50).
•Individualorcollectivecontrolofgroups,blocksorzones.
•EthernetinterfaceforconnectiontoBMSsupervisorsystems.
•IntegratedWEBserversoftwareformanagementusingInternet
Explorer®.
•Integrated2GBSDmemorycardforstoringsystemdata.
•Direct management of 4 impulse meters with no external
interface.
•Power consumption data for billing downloadable via internet
connection.
•CompletesupportforalladvancedRMIplatformfunctions
for energy consumption monitoring and for multi-installation and
multi-user management.
•Temperaturesetpointssettableandviewablewithaprecisionof
0.5°C.
•Energy saving functions: Maintenance temperature, Sliding
temperature, Optimised start, Dual Setpoint.
•M-NetinterfacingwithEcodanpackageHotWaterHeatPump
systems (CAHV and CRHV).
PC
Router
Hub
M-NET
M-NET
LAN1
GROUP 1
GROUP 2
AE-200E
M-NET
GROUP 3
CO2 sensor
218
Humidifier
GROUP 4
Heater
Power and flexibility in a compact device
WhilemeasuringpracticallythesameasthepreviousAG-150,
the new 3D TOUCH Controller WEB Server centralised controller
offers a larger screen area, greater processing power and
expandable flexibility for future applications.
POWER
ON/OFF
STATUS
AE-200E
AG-150A
AE-200
Superior management, functional and monitoring capabilities with new Mitsubishi Electric controller systems
The 3D TOUCH Controller supports the management, operational
and monitoring capabilities of all the new functions offered by the
new ADVANCED remote control.
Information concerning occupancy, light levels, relative humidity in
the indoor space and dual setpoints is accessible directly from the
display and via the WEB.
RMI Ready
The 3D TOUCH Controller WEB Server centralised controller performs the crucial role of acquiring and monitoring data via the M-Net data
transmission bus linking all the components of the VRF CITY MULTI, Mr. Slim or Residential system.
A router (available as wired ADSL or 3G Mobile versions) creates a secure, protected communication channel with the RMI Server. The
modular flexibility of the RMI Server makes it possible to store enormous volumes of data, which is acquired, processed and archived for
access from portable devices.
This infrastructural complexity, combined with superior processing, management and security capabilities, is encapsulated in an extremely
user friendly concept, to help users optimise the energy usage of their systems.
CONTROL SYSTEMS
219
Centralised controllers WEB Server
EW-50 3D BLIND Controller WEB Server centralised controller
NEW
•“BlackBox”version(nodisplay).
•Compactdimensions(external230VACpowersupply).
•Usabletomanage50groupsforatotalofupto50indoorunits.
•Individualorcollectivegroupcontrol.
•Ethernetinterfaceforconnectiontosupervisorsystems.
•IntegratedWEBserversoftwareformanagementusingInternet
Explorer®.
•Simplifiedconnection,withsinglenon-polarisedtwo-corewire,
using ME technology.
•Integrated2GBSDmemorycardforstoringsystemdata.
•Direct management of 4 impulse meters with no external
interface.
•StatusindicatorLEDindicatingdatatransmissionstatusand/or
errors.
•Consumption data for billing downloadable via internet
connection.
•Awidechoiceofenergysavingfunctionsofferedasstandard,with
additional optional functions accessible with PIN code licenses.
•CompletesupportforalladvancedRMIplatformfunctions
for energy consumption monitoring and for multi-installation and
multi-user management.
•ExpansioncontrollerforAE-200.
TYPICAL CONNECTION LAYOUT
EW-50
M-Net bus - TB7
Outdoor
unit
TB3
M-Net bus
TB5
TB5
Indoor unit
RJ45 Cable
220
TB5
Consumption metering and apportioning system
“Charge”systemforWEBServercentralisedcontrollers.
The Charge consumption monitoring and apportioning system
may be used to meter the consumption of electric power, thermal
power and water for air conditioning, air and/or water heating and
domestic hot water production with a Mitsubishi Electric VRF CITY
MULTI system, and calculate individual usage values.
The AE-200 and EW-50 CHARGE systems use proprietary
Mitsubishi Electric calculation and apportioning methods. This
consumption apportioning method indicates the consumption
parameters of each user as percentages of the total consumption
of the system. Consumption values, as percentages and kWh,
may be calculated separately for:
• OutdoorUnits
• IndoorUnits
• EcodanHWSHydronicModules
• EcodanATWHydronicModules
TYPICAL CONNECTION LAYOUT
kWh
230VAC
PAC-YG60MCA
230VAC
kWh
Ecodan
HWS
230VAC
230VAC
Indoor Units,
apart. 1
Indoor Units,
apart. 2
kWh
Ecodan
ATW
AE-200
DHW tank
Thermal flywheel
From water mains
PAC-YG60MCA
m3
kcal/h
kcal/h
CONTROL SYSTEMS
221
Cloud based
remote management system
RMI – Remote Monitoring Interface
The Cloud system by Mitsubishi Electric for large installations
The RMI system lets you control your air conditioning, heating and domestic hot water production system remotely from a smartphone,
tablet or PC. The system may be used to monitor the performance of your appliances, programme functions, check consumption and view
operating states to optimise the efficiency of the system.
Your perfect climate in an App!
Controlyourairconditioner,adjusttemperatureandairflow
settings, view and manage hot and cold water production status
and check for system faults.
All from an app
on your smartphone
or tablet.
222
Simplified control for all of your systems
Set weekly programmes and special events, and view and analyse
the operating parameters of your system remotely from a mobile
device with a graphic interface that lets you change settings
instantaneously when needed.
Manage your systems with detailed information and analytical functions
Manage multiple installations with different sizes and architectures
conveniently from the application on your PC, view function
parameters in a summarised dashboard interface, and analyse
specifically created reports to make your installation work even
more efficiently.
RMI is also the ideal solution for the centralised management and
supervision of multiple installations in different locations.
Who can use RMI?
Because of its many different functions, the RMI system is suitable for all types of installation, from centralised residential systems to
commercial applications and large scale installations.
The remote management and monitoring functions are intended for end users (e.g. tenants), owners, administrators, energy/building
managers, global service providers and installing and maintenance technicians.
The project
TheRMIprojectistheresultofaforwardthinkingideabyMitsubishi
Electric to offer its customers the capability of managing their
installations from portable devices, adding a significant new
advantage offered by these systems. The all-new RMI system is the
FIRST system of its kind based on CloudComputing technology,
which lets you interface with your system via a simple yet secure
internet connection. RMI makes it possible to manage Mitsubishi
Electric air conditioning solutions, with energyconsumption
monitoringandmaintenancefunctions, fromsmartphone and
tablet apps for the iOS and Android operating systems, and via a
private WEBClientarea fromaPC. The RMI system is based on a
dedicated infrastructure (RMI Server), which may be described as a
container for installation data that is collected and made accessible
simplyandintuitively, and filtered and represented appropriately
for the type of user analysing and using the data.
Theprojectwasdesignedfromthestartwithsecurityinmind,to
protect the installation and the client against unauthorised access
with a secure VPN connection (Virtual Private Network).
CONTROL SYSTEMS
223
Cloud based remote management system
RMI – Remote Monitoring Interface
System architecture
The 3D TOUCH Controller WEB Server centralised controller performs the crucial role of acquiring and monitoring data via the M-Net data
transmission bus linking all the components of the VRF CITY MULTI, Mr. Slim or Residential system.
A router (available as wired ADSL or 3G Mobile versions) creates a secure, protected communication channel with the RMI Server. The
modular flexibility of the RMI Server makes it possible to store enormous volumes of data, which is acquired, processed and archived for
access from portable devices. This infrastructural complexity, combined with superior processing, management and security capabilities, is
encapsulated in an extremely user friendly concept, to help users optimise the energy usage of their systems.
RMI Service packages
RMI can also be applied to an existing VRF CITY MULTI system,
by interfacing through the installation’s existing WEB Server
centralised controllers. Contact head office to check compatibility
between hardware and available functions
SeeDEMORMIat:
http://rmidemo.mitsubishielectric.it
224
RMI IS AVAILABLE IN THE FOLLOWING PACKAGES
Supervisor system
TG-2000A supervisor system
The TG-2000A supervisor system uses the digital network connectivity of the 3DTOUCHandBLINDControllerWEBServercontrollers
(AE-200E/EW-50) to offer advanced system management solutions. The TG-2000A is capable of managing up to 2000airconditioners,
with complete control over all functions. The system is based on interactive software installed on a Personal Computer running Windows.
The different zones of the installation are represented as graphic layouts to allow immediate identification of the individual air conditioners.
For each individual zone, these screens contain interactive icons representing the different air conditioners in the installation. Each of these
icons displays information on the operating status of the relative air conditioner. The graphic interface of the software is extremely clear and
intuitive.
Adjustingairconditionersettings
Clicking the icon for an air conditioner displays a virtual control panel for the air conditioner itself, for setting the desired functions. For
optimised management, different levels of the installation may be controlled collectively and simultaneously as groups. For instance, the user
maychoosetoadjustalltheairconditionersinthezonedisplayed,inasystemblockorintheentireinstallationinasingleoperationwithjust
one click.
CONTROL SYSTEMS
225
Supervisor system
TYPICAL CONNECTION LAYOUT
TG-2000A SYSTEM CONNECTION
HUB - LAN
TG-2000A
AE-200
AE-200
TG-2000ATechnicalspecifications
•TG-2000ATechnicalspecifications
•Interactive software for Windows® OS installed on Personal
Computer (not supplied by Mitsubishi Electric).
•InteractiveiconsforadjustingairconditionersinAutocadbased
graphic area.
•Usabletomanage2000groupsforatotalofupto2000indoor
units.
•Individualorcollectivegroupcontrol.
•Groupconfiguration.
•Easyandintuitivewithgraphiclayouts,icon-basedinterfaceand
descriptive text.
•Direct connection to WEB Server 3D centralised controllers
(AE-200E/EB-50GU) via Ethernet.
226
•Weeklyanddailytimers,andannualcalendar.
•Consumptionmonitoringandapportioning(Charge).
•Dynamicconsumptioncontrol(Energysaving/Peakcut).
•Functionmeter.
•Graphs.
•Separatehistorylogsforfaultsandnormaloperation.
•Individualand/orcollectivecontrol.
•Auto-changeoverforYsystems.
•ProgrammableNightmode.
•PLC management for generic appliances and energy
consumption meters.
•“Widearea”geographicmanagementforcentralisedsupervision
of multiple installations on a geographic scale.
External signal integration
AHC – Advanced HVAC controller
NEW
•Solution consists of an ALPHA2 PLC and an M-Net interface,
both by Mitsubishi Electric.
•Intuitiveobject-basedgraphicprogrammingfunction.
•Create control strategies using either physical signals (inputs
and outputs) or logical signals (via M-Net data transmission
bus).
•Receivesignalsfrom2Groupsforatotalofupto32indoorunits
for each PLC.
•Programme synchronised energy saving strategies between
power consuming utilities (such as lighting) and the air
conditioning system.
•15inputsand9outputs.
•Numberofphysicalinputsandoutputsmaybeincreasedwith
dedicated expansion modules.
•Large backlit LCD display for programming functions and
viewing graphics, text and values.
•Directprogrammingwith8functionkeysonfrontcontrolpanel
without using auxiliary devices.
•SuperiorinstallationflexibilitywithintegratedDINrailadapter.
•Systemmaybepassword-protected.
Total integration
The AHC programmable controller uses Mitsubishi Electric know-how acquired in industrial automation applications to integrate air
conditioning, heating and domestic hot water production systems with third party systems, such as access control, security, lighting control
systems etc., allowing communication between the systems via the M-Net data communication bus.
This makes it possible, for example, to use data acquired via the M-Net communication bus to control external devices instead of
interlocking the operation of air conditioner units and external systems connected to the AHC Programmable Controller, or using other
similar measures.
Flexible programming…
Up to 200 function blocks can be used in a single application (Set/
Reset, Timer, Service messages etc.), offering extraordinary scope
for controlling the entire installation.
Extensive operating temperature range
Designed to operate in a temperature range from 25°C to 55°C
and with an IP20 protection rating, these devices are ideal for both
indoor and outdoor installation.
… and safe data!
The application is stored permanently in an EEPROM memory
module. This means that active data (such as meter counts) are
backed up without requiring power.
Digital and analogue expansion modules
Dedicated expansion modules offer the possibility of increasing
the number of both analogue and digital inputs and outputs.
Analogue
AL2-2PT-ADP:
offers 2 analogue inputs
AL2-2DA:
offers 2 analogue outputs
227
CONTROL SYSTEMS
Digital
AL2-4EX:
offers4digitalinputs
AL2-4EYT:
offers4digitaloutputs
B.M.S. integration
LMAP04 BMS interface for LonWorks® networks
TheLMAP04interfaceallowsMitsubishiElectricairconditionersto
communicate with third party BMS supervisor and management
systems through the LonWorks® network system. The hardware
of the interface consists of an electronic board with software
integrated in the board itself which needs no configuration.
TheLMAP04interfacemaybeinstalledwithanyremotecontrol
or centralised controller of the Mitsubishi Electric range. The
LMAP04interfacecanalsobeusedinamixedsystem,whichalso
includestheTG-2000Asupervisor.EachLMAP04interfacecan
control up to 50 indoor units, each with its own unique address.
In installations with AE-200E or EB-50GU WEB Server centralised
controllers,theLMAP04interfaceoffersthesamemodularityas
the controllers themselves. In these cases, a separate interface
must be installed for each centralised controller.
LMAP04
TYPICAL CONNECTION LAYOUT
BMS INTEGRATION OVER LONWORKS NETWORK
M-NET
AE-200
LMAP04
LONWORKS
BMS
M-NET
AE-200
LMAP04
228
XML BMS interface for Ethernet networks
XML is an innovative new communication system developed
specifically for exchanging data over the web. XML makes it
possible to create custom software extremely simply, which can
even be used with a standard internet browser. The XML protocol
makes it possible to integrate with a BMS system using the AE200E or EB-50GU WEB Server centralised controllers, with no
additional dedicated hardware interfaces. As all the information
necessary for the BMS system is available in XML format directly
over the Ethernet communication port of the AE-200E / EB-50GU
controller, all that needs to be done is to connect both the AE200E / EB-50GU WEB Server centralised controllers and the BMS
computer system to the same network. Connecting to a BMS
system with the XML protocol is extremely simple, as the Ethernet
network platform is used. No dedicated conversion or interface
hardware is needed, as shown in the typical layout schematic.
AE-200
EW-50
TYPICAL CONNECTION LAYOUT
BMS INTEGRATION OVER ETHERNET (XML)
BMS
HUB - LAN
M-NET
AE-200
M-NET
AE-200
CONTROL SYSTEMS
229
B.M.S. integration
BACnet® BMS interface for BACnet® networks
The BACnet ® protocol was originally developed by ASHRAE
in North America specifically for HVAC applications (Heat,
Ventilation, Air Conditioning). It was subsequently also adopted
in Europe as one of the standard communication solutions for
air conditioning systems, together with LonWorks® and other
protocols. One of the greatest advantages of this protocol is the
extraordinary degree of cross-compatibility it offers, allowing
systems from different manufacturers to be integrated with each
other. The capabilities of the BACnet® protocol make it the ideal
system for large installations and for complex, multi-level building
management processes. Mitsubishi Electric has developed an
interface allowing its air conditioners to be integrated with a BMS
system with the BACnet®protocol.EachBAC-HD150interface
can control up to 50 indoor units, each with its own unique
address. In installations with AE-200A / EB-50GU WEB Server
centralisedcontrollers,theBAC-HD150interfaceoffersthesame
modularity as the centralised controllers themselves.
BAC-HD150
BMS INTERFACES FOR THE FOLLOWING NETWORK
PROTOCOLS ARE ALSO AVAILABLE:
– MODBUS®
– KONNEX®
CONTACT HEAD OFFICE FOR MORE DETAILS
TYPICAL CONNECTION LAYOUT
BMS INTEGRATION OVER BACNET NETWORK
HUB - LAN
BMS
M-NET
BACNET
BAC-HD150
M-NET
BAC-HD150
230
ME-AC-MBS-100 – BMS interface for Modbus® networks
The Modbus communication protocol was initially used for
PLC networks. Mitsubishi Electric offers an interface capable of
controlling up to 100 indoor units (ME-AC-MBS-100) for managing
a VRF CITY MULTI installation with a BMS system.
The interface is connected to the Modbus supervisor system either
by an RS232/RS485 serial connection or a TCP/IP over Ethernet
connection, and is connected to the Mitsubishi Electric VRF CITY
MULTI installation by Ethernet.
TYPICAL CONNECTION LAYOUT
Bus M-Net
AE-200
Ethernet
cable
Bus M-Net
AE-200
Switch
Outdoor
unit
RS232/RS485 or Ethernet
Modbus®
supervisor
systemus
ME-AC-MBS-100
interface
CONTROL SYSTEMS
231
B.M.S. integration
ME-AC-KNX-100 – BMS interface for KNX® networks
KNX is one of the global standards for automated household and
building control. This open protocol ensures cross-compatibility
between products from different manufacturers.
Mitsubishi Electric offers an interface capable of controlling up to
100indoorunits(MEACKNX–100)formanagingaVRFCITY
MULTI installation with a BMS system.
The interface is connected directly to the EIB bus linked to the KNX
network, and to the Mitsubishi Electric VRF CITY MULTI installation
by Ethernet.
TYPICAL CONNECTION LAYOUT
Ethernet
M-Net
AE-200
XML
M-Net
Ethernet
Switch
AE-200
ME AC KNX
interface
Mitsubishi Electric
Device 1
EIB/KNX Bus
Power
232
Device 2
Centro Direzionale Colleoni
Viale Colleoni, 7 - Palazzo Sirio
20864AgrateBrianza(MB)
tel.039.60531-fax039.6053348
e-mail: clima@it.mee.com
climatizzazione.mitsubishielectric.it/en/prodotti/
Eco Changes is the Mitsubishi Electric Group’s environmental statement, and
expresses the Group’s stance on environmental management. Through a wide range
of businesses, we are helping contribute to the realization of a sustainable society.
The equipments described in this catalogue contain fluorinated gasses such as HFC-410A, HFC-134A and HFC-407C. Installation of those equipment must be executed by professional installer
based on EU reg. 842/2006 and 303/2008.
CITY MULTI
FULLPRODUCTLINEUPCATALOGUE2015-2016
E-1509205 (13990)
Specifications are subject to change without notice
E-1509205
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