toshiba vrf catalogue

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Introduction

Industry leading energy saving

New intelligent VRF control

Industry leading pipe length for greater flexibility

Other featuresOutdoor units

Indoor units

Outdoor Units Specifications65Refrigerant piping design

Indoor Units Accessories

Remote Controller

Central Controller

Advance Controller systems

76Open Network systems

78Application Controls

83SMMS-i selection Tools

85Conversion Table

Outdoor units line-up

Outdoor units specifications

Indoor units line-up

4-way Air Discharge Cassette Type

Compact 4-way Cassette (600x600) Type



Concealed Duct TypeConcealed Duct High Static Pressure Type

Slim Duct Type

Ceiling Type

High-wall Type (3 series)Floor Standing Concealed Type

Floor Standing Cabinet Type

BI-flow Console Type

Floor Standing TypeAHU DX Connectivity Kit

Air to Air Heat ExchangerAir to Air Heat Exchanger with DX-coil & HumidifierFresh Air Intake Indoor Unit Type

Mini-SMMS

Super Heat Recovery Multi System-i (SHRM-i)

SHRM-i Outdoor units lineup

544

As relative newcomers in the evolution of the Earth, its undeniable that humankind has had a greater impact on our planets eco-system than any other life form. All organisms to some extent affect change on our global environment, but none quite as quickly and drastically as humans. Many scientists agree that human activity has accelerated pollution and climatic changes beyond the natural evolutionary process.

Globally, levels of carbon dioxide and average regional temperatures rise at alarming rates, impacting nature and civilization. And the quality of air we breathe continues to deteriorate in the cities we live in.

Whatever the causes, the message is clear: the future is up to us all, and we can do more to make things better.

The core of Toshiba Air Conditionings philosophy is a profound respect for our global environment and the passionate pursuit toward improving the quality of life for our customers worldwide.

As part of that global commitment, we develop cutting-edge technologies and advancements that serve the benefit of people everywhere, by offering an ideal balance of comfort and ecologically superior products.

We advance R&D in the field of super energy-efficient, cleaner technologies and innovative products that not only use significantly less energy but help maintain air quality through state-of-the-art air purification systems for the home and business.

We endeavour to lead by example by delivering the highest quality environmental systems that give added value, and contribute responsibly to the advancement of humankind.

Toshiba offers a solution for all applications: residential, light commercial and larger commercial buildings. Residential indoor units are designed to blend perfectly with all interiors and incorporate advanced filtration systems to deliver optimum indoor air quality. For small commercial premises, products are designed to deliver top performance combined with energy efficiency.For larger applications, VRF systems combine flexibility, energy efficiency and respect for the environment, with a wide choice of stylish indoor units.

Toshibas commitment to society drives a company-wide focus on attention to the details through every stage of the development process, from design to user field tests. Installations using our products and systems therefore feature a higher standard of indoor air quality, sound levels, energy savings, and environmental awareness.

Advancing the eco-evolution

Toshiba solutions

Absolute comfort

We call this vision, Advancing the eco-evolution.

5

5 54

As relative newcomers in the evolution of the Earth, its undeniable that humankind has had a greater impact on our planets eco-system than any other life form. All organisms to some extent affect change on our global environment, but none quite as quickly and drastically as humans. Many scientists agree that human activity has accelerated pollution and climatic changes beyond the natural evolutionary process.

Globally, levels of carbon dioxide and average regional temperatures rise at alarming rates, impacting nature and civilization. And the quality of air we breathe continues to deteriorate in the cities we live in.

Whatever the causes, the message is clear: the future is up to us all, and we can do more to make things better.

The core of Toshiba Air Conditionings philosophy is a profound respect for our global environment and the passionate pursuit toward improving the quality of life for our customers worldwide.

As part of that global commitment, we develop cutting-edge technologies and advancements that serve the benefit of people everywhere, by offering an ideal balance of comfort and ecologically superior products.

We advance R&D in the field of super energy-efficient, cleaner technologies and innovative products that not only use significantly less energy but help maintain air quality through state-of-the-art air purification systems for the home and business.

We endeavour to lead by example by delivering the highest quality environmental systems that give added value, and contribute responsibly to the advancement of humankind.

Toshiba offers a solution for all applications: residential, light commercial and larger commercial buildings. Residential indoor units are designed to blend perfectly with all interiors and incorporate advanced filtration systems to deliver optimum indoor air quality. For small commercial premises, products are designed to deliver top performance combined with energy efficiency.For larger applications, VRF systems combine flexibility, energy efficiency and respect for the environment, with a wide choice of stylish indoor units.

Toshibas commitment to society drives a company-wide focus on attention to the details through every stage of the development process, from design to user field tests. Installations using our products and systems therefore feature a higher standard of indoor air quality, sound levels, energy savings, and environmental awareness.

Advancing the eco-evolution

Toshiba solutions

Absolute comfort

We call this vision, Advancing the eco-evolution.

5

566

The new SMMS-i offers innovations in every savings with highly efficient DC twin rotary compressors and advanced vector-controlled invert-ers boasting COP of 6.41* at 50% partial Load.

*8HP outdoor unitCalculated based on JRA4048:2006 specification.

The intelligent VRF ensures precise control over cooling on a room by room basis, delivering consistent temperature to even the furthest room from the unit.

With flexible layout variations beyond imagination, this extremely versatile system can accomodate up to an impressive 235 metres in length and maximum height of 40 metres between indoor units.

Innovation

Intelligence

Imagination

5 7

6.41

5.50

COP

EER

2 3 4 5 6 7

4.52

3.52

6.26

4.15

3.28

5.60

Industry leading energy savings

6

DC Twin Rotary Compressor :

Twin Rotary Compressor Operation :

New DC Twin-Rotary Compressor

The compression ratio in the cylinder is variable A change of the driving compression ratio of the outer refrigerant cycle The compression ratio in the cylinder accords with driving compression ratio Over compression and lack of compression are very small in the cylindersmall in the cylinder

Three new DC Twin-Rotary compressors that feature outstanding capacity under partial load drive for 14HP and 16HP outdoor unit models, while two are used by other outdoor unit models ( 8HP-12HP).

6

Adopting the highly efficient new DC twin-rotary compressors and advanced vector-controlled inverters realizes a COP of 6.41 (under 50% partial load). Greater operatingperformance is now possible when operating under a constant load.

Energy-effient performance for greater eco-consciousness

Thus resulting into Higher Efficiency.

Toshiba has continuously improved its compressor technology, arriving at a solution called DC Twin Rotary Compressor. It is a double cam rotary compressor which has several features which increases its performance and reliability. The opposed double blade design yields mechanical stability and less vibration that could cause stress on other components. In fact being able to reduce the rpm without causing instability enables improved temperature control when less capacity is required. An added benefit offered by the DC Twin rotary compressors, and with refrigerant R410a, is that it is more efficient than scroll compresors.

58


Introducing high-performance outdoor units with 3 compressors and 3 inverters*1

Fast-calculating vector-controlled inverter

control over operation to match the load on the system

Toshiba SMMS-i leads the industry in controlling all 3 compressors with a dedicated inverter board that taps the compressors full potential to provide smoother operation.

*1 14 and 16HP models

(14HP, 16HP)

Circuit boardThe vector-controlled inverter quickly converts current into a smooth sine curve to achieve smoother operation of the compressors DC motor.

Smooth sine curveThe fast-calculating vector-controlled inverter produces a smooth sine curve that

2 1

7


Increase of magnetic flux densit

Improved Motor Eciency : Surface area of the rotor magnet (magnetic material Neodymium, Iron and Boron increased and the slits aded, resulting higher effiency.

Newly Designed Compression Path : The optimization of discharge port positioning reduces compression loss and dead volume, resulting into higher energy efficiency as well as comfort levels.

More Precise Components : The Blade thickness is reduced. The Back side are of blade is reduced.

7

Which reduces the pressing load and friction resistance and helps to achieve bettor motor efficiency and higher product efficiency.

6.41

5.50

COP

EER

2 3 4 5 6 7

4.52

3.52

6.26

4.15

3.28

5.60


6

DC Twin Rotary Compressor :

Twin Rotary Compressor Operation :

New DC Twin-Rotary Compressor

The compression ratio in the cylinder is variable A change of the driving compression ratio of the outer refrigerant cycle The compression ratio in the cylinder accords with driving compression ratio Over compression and lack of compression are very small in the cylindersmall in the cylinder

Three new DC Twin-Rotary compressors that feature outstanding capacity under partial load drive for 14HP and 16HP outdoor unit models, while two are used by other outdoor unit models ( 8HP-12HP).

6

Adopting the highly efficient new DC twin-rotary compressors and advanced vector-controlled inverters realizes a COP of 6.41 (under 50% partial load). Greater operatingperformance is now possible when operating under a constant load.

Energy-effient performance for greater eco-consciousness

Thus resulting into Higher Efficiency.

Toshiba has continuously improved its compressor technology, arriving at a solution called DC Twin Rotary Compressor. It is a double cam rotary compressor which has several features which increases its performance and reliability. The opposed double blade design yields mechanical stability and less vibration that could cause stress on other components. In fact being able to reduce the rpm without causing instability enables improved temperature control when less capacity is required. An added benefit offered by the DC Twin rotary compressors, and with refrigerant R410a, is that it is more efficient than scroll compresors.

5 98

Toshiba twin rotary compressor have variable discharge pressure which minimising energy loss as compared to other compression tecnology e.g in below figure, Toshiba compressor deliver the capacity at that level where ever it is required.

Toshiba SMMS-i leads the industry in controlling all 3 compressors with a dedicated inverter board that taps the compressors full potential to provide smoother operation.

*1 14,16HP models

*1

All-inverter control realizes finer control over operation to match the load on the system

Smooth sine curve Circuit boardThe fast calculating vector controlled inverter produces a smooth sine curve that improves operating efficiency.

The vector controlled inverter quickly converts current into a smooth sine curve to achieve smoother operation of the compressors DC motor.

90 degree opening(Part load condition)

180 degree opening(Part load condition)

0 degree opening

270 degree opening(Rated condition)

Variable compression ratio

Fast-calculating vector-controlled inverter

510 9

Sequencing of individual compressors

A B C

Rotation between outdoor units

(Header unit)

2 98765431

heat

exc

hang

ers

Operate Stop Operate Operate

Conventionalsystem

System with controlledreliability and savings

2 4312 431

ONON ON OFFOFF OFF ON OFF

Each SMMS-i uses

comp

Sna

Asui

8

Run Time Equalization for compressors :

low-load conditions, there is the advantage of the system running at low capacity and yielding stable operation even under low temperature conditions.

64 steps for condenser fanall the compressors can be run at low speeds, and the overall level of noise from the outdoor units is reduced approx by 10dB(A).

Active Oil Management system :can get oil and refrigerant from other compressor or modular quickly without any additional power consumption.

Every outdoor unit incorporates three new DC twin-rotary compressors* and three inverter drives this is unique to Toshiba and the air conditioning industry.

Vector-controlled inverter

* 14,16 HP Outdoor units

Outdoor units are fitted with three DC twin-rotary compressors* (switch to all-inverter models)

DC fan motor

With dual-rotation, the load is distributed more evenly this means that the operating sequence of the outdoor units and the individual compressors is rotated to spread the operating hours more evenly.

As the compressors are all inverter driven, power surges are eliminated. Over or under-utilisation of power, typical for non-inverter compressors is eliminated, and there is no on/off power surge as the system adjusts to the demand required by the occupant or system. The use of inverter compressors reduces the risk of compressor failure, more common in standard non-inverter systems.

During operation the system determines which heat exchanger can be used most efficiently and selects the compressor to deliver the power required. Inverter systems save energy as continuous operation offers the same capacity with lower power consumption. This benefits all occupants by maintaining even room temperatures, as well as the environment by reducing energy consumption.

Incase of 1 system, 1 compressor broken, SMMSi can output 67% of capacity.

High-efficiency DC twin-rotary compressors

Reliability

Energy savings

Backup operation

Com

pres

sor

Com

pres

sor

Com

pres

sor

Com

pres

sor

Com

pres

sor

Com

pres

sor

Com

pres

sor

Com

pres

sor

Com

pres

sor

Using greater heat exchangervolume is more efficient

Invertercompressor

Fixed-speedcompressor



Invertercompressor

Invertercompressor

Invertercompressor

Invertercompressor

NO.1 NO.2 NO.3

10

Each SMMS-i uses twin-rotary inverter compressors that feature more stable energy efficiency through their full range of compressor rotation than do scroll type compressors.

Scroll compressors can achieve high- efficiency operation, but only within in a narrow range.

As VRF systems require a wide range of capacity, the twin-rotary compressor is best suited for use.

Run Time Equalization for compressors : The SMMS-i systems operation combines a highly efficient running speed and highly efficient compressors. The operating time of the compressors is equalized. Under low-load conditions, there is the advantage of the system running at low capacity and yielding stable operation even under low temperature conditions.

Active Oil Management system : As a system, it has more than 1 compressor. This running compressor can get oil and refrigerant from other compressor or modular quickly without any additional power consumption.

64 steps for condenser fan : reduced noise level : By making it possible to control the fan inverter in 64 steps, all the compressors can be run at low speeds, and the overall level of noise from the outdoor units is reduced approx by 10dB(A).

Inverter + Fixed Speed

Efficiency

Reliability

All Inverter twin - rotary

System operates in high efficientcompressor combination and rpm.


Inverter compressor has to run all the time. Limited condition in compressor backup operation.

Comfort Min. output can meet Min. capacity indoor units demand Stable opera-tion in low temperature condition.

Output capacity fluctuation by fixed compressor ON/OFF operation.

Low efficiency in operation with FIX compressors.

Discharge

Discharge

Comp.1 Comp.2

Comp.3

RUN Oil Flow

Oil Balancecircuit

Stop

Stop

Oil tank

Oil from other two compressors

DC twin-rotary compressor advantage

Outdoornoise (dB)

Auto silent operationApprox.

10 dB (A)

Outdoor temperature C

Time (h/year)

55

50

45

40

3517 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38

300

250

200

150

100

50

0

5 1110

Each SMMS-i uses twin-rotary inverter compressors that feature more stable energy efficiency through their full range of compressor rotation than do scroll type compressors.

Scroll compressors can achieve high- efficiency operation, but only within in a narrow range.

As VRF systems require a wide range of capacity, the twin-rotary compressor is best suited for use.

Run Time Equalization for compressors : The SMMS-i systems operation combines a highly efficient running speed and highly efficient compressors. The operating time of the compressors is equalized. Under low-load conditions, there is the advantage of the system running at low capacity and yielding stable operation even under low temperature conditions.

Active Oil Management system : As a system, it has more than 1 compressor. This running compressor can get oil and refrigerant from other compressor or modular quickly without any additional power consumption.

64 steps for condenser fan : reduced noise level : By making it possible to control the fan inverter in 64 steps, all the compressors can be run at low speeds, and the overall level of noise from the outdoor units is reduced approx by 10dB(A).

Inverter + Fixed Speed

Efficiency

Reliability

All Inverter twin - rotary



Inverter compressor has to run all the time. Limited condition in compressor backup operation.

Comfort Min. output can meet Min. capacity indoor units demand Stable opera-tion in low temperature condition.

Output capacity fluctuation by fixed compressor ON/OFF operation.

Low efficiency in operation with FIX compressors.

Discharge

Discharge

Comp.1 Comp.2

Comp.3

RUN Oil Flow

Oil Balancecircuit

Stop

Stop

Oil tank

Oil from other two compressors

DC twin-rotary compressor advantage

Outdoornoise (dB)

Auto silent operationApprox.

10 dB (A)

Outdoor temperature C

Time (h/year)

55

50

45

40

3517 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38

300

250

200

150

100

50

0

512


Undersupplied

Oversupplied

10

Differing pipe lengths result in inconsistent performance levels when several indoor units are connected to a system. This imbalance is caused by pressure loss and thermal leaks that inhibit the supply of the right amount of refrigerant to each indoor unit.

Without intelligent VRF control

Can be adjusted to maintainconsistent temperature

With intelligent VRF control

Total system control and consistentroom-to-room temperatureIntelligent VRF control provides precise control over each indoor unit. For example, the upper floor indoor units of VRF systems without intelligent of refrigerant, causing a delay before indoor units on lower floors would reach efficient operating levels.

Toshibas SMMS-i monitors the flow of refrigerant to each indoor unit, while also tracking the model of the indoor unit, the pipe length between it and the outdoor unit, as well as data on operating conditions. The system computers the amount of refrigerant required by each indoor unit and controls the units pulse motor valve to ensure optiomal supply across the system.

5 13


Undersupplied

Oversupplied

10

Differing pipe lengths result in inconsistent performance levels when several indoor units are connected to a system. This imbalance is caused by pressure loss and thermal leaks that inhibit the supply of the right amount of refrigerant to each indoor unit.

Without intelligent VRF control

Can be adjusted to maintainconsistent temperature

With intelligent VRF control

Total system control and consistentroom-to-room temperatureIntelligent VRF control provides precise control over each indoor unit. For example, the upper floor indoor units of VRF systems without intelligent of refrigerant, causing a delay before indoor units on lower floors would reach efficient operating levels.

Toshibas SMMS-i monitors the flow of refrigerant to each indoor unit, while also tracking the model of the indoor unit, the pipe length between it and the outdoor unit, as well as data on operating conditions. The system computers the amount of refrigerant required by each indoor unit and controls the units pulse motor valve to ensure optiomal supply across the system.

11

Current-SMMS New-SMMSi

Com

pres

sor

Hz

Capacity

0.1Hz

Worlds

best in

its class*

12

Infinity variable control adjusts compressor rotation speed in near-seamless 0.1 Hz steps. Responding precisely to the capacity needs of the moment, this fine control minimizes energy loss when changing frequencies, and also creates a comfortable environment subject to minimal temperature variations.

Ultra-precise 0.1 Hz control over compressor rotation speed

Advanced I/F Technology : Microprocessor has been improved by replacing conventional single MCU with dual MCU system consisting of a main and a sub MCU, which significantly enhanced the capacity of the interface PC board (I/F). The dual MCU system enables high-speed operation by parallel processing and fast handling of a wide variety of capacity requirements from each indoor unit.

High speed data transmission - Operated control data in I/F is transmitted to four IPDUs at high speed so that excellent load following capability with finer capacity control is provided in no time.

Ultra Precise IPDU technology - The intelligent power The intelligent power drive unit (IPDU) receives instructions from I/F and executes appropriate and precise control over all compressors and fans. RISC (a reduced instruction set computer which adopts simplified instructions to provide high-speed performance, for short, RISC) type 32bit CPU processor is introduced which enables amazing ultra precise drive control of 0.1 Hz per one step and realize stable temperature environment.

Infinity variable control

SMMS-i

*As of december 2009 (according to independent Toshiba testing)

51412

Target capacity

(A) (B) (D)(C)

Capa

city

D

TCJTC2 TC1

Pulse motor valve

Heatexchanger

Indoor unit Refrigerantsensor (In)

Refrigerantsensor (Out)

A B C

Outdoor unit

The surplus represented by (A) is diminished and the deficiency represented by (D) is compensated for.

The surplus represented by (B) is dimin-ished and the deficiency represented by (C) is compensated for.

When a multiple number of indoor units are connected, an insuficient or excess amount of refrigerant may be supplied to indoor units depending on the difference in length of the connection pipe from the outdoor unit.

This is caused by pressure loss and heat leaks as the refrigerant travels through the pipes, resulting in incorrect amounts of refrigerant being supplied to the indoor units.

Optimal refrigerant flow control featuring intelligent control over the refrigerant sensors and opening rate of individual pulse motor valves realizes stable indoor temperatures throughout a building with height differences of up to 40m between indoor units.

Optimal refrigerant control

13

System layouts can use a maximum equivalent distance of up to 235 metres. This makes it much easier to design f ny small rooms, or for tenants who often rear ayouts.

Current SMMScoverage requires

two systems

175m60m

Conventional VRF

Farthest equivalent length

1st branching piping length

Main piping length

90m

120m

Worlds

best in its clas

s*

235m*

SMMS-i

14

System layouts can use a maximum equivalent distance of up to 235 metres. This makes it much easier to design for floors with many small rooms, or for tenants who often rearrange their floor layouts.

coverage achievedby a single system

*As of December 2009 (According to independent TOSHIBA testing)


Layout flexibility with few design limitations

5 1512

Target capacity

(A) (B) (D)(C)

Capa

city

D

TCJTC2 TC1

Pulse motor valve

Heatexchanger

Indoor unit Refrigerantsensor (In)

Refrigerantsensor (Out)

A B C

Outdoor unit

The surplus represented by (A) is diminished and the deficiency represented by (D) is compensated for.

The surplus represented by (B) is dimin-ished and the deficiency represented by (C) is compensated for.

When a multiple number of indoor units are connected, an insuficient or excess amount of refrigerant may be supplied to indoor units depending on the difference in length of the connection pipe from the outdoor unit.

This is caused by pressure loss and heat leaks as the refrigerant travels through the pipes, resulting in incorrect amounts of refrigerant being supplied to the indoor units.

Optimal refrigerant flow control featuring intelligent control over the refrigerant sensors and opening rate of individual pulse motor valves realizes stable indoor temperatures throughout a building with height differences of up to 40m between indoor units.

Optimal refrigerant control

13

System layouts can use a maximum equivalent distance of up to 235 metres. This makes it much easier to design f ny small rooms, or for tenants who often rear ayouts.

Current SMMScoverage requires

two systems

175m60m

Conventional VRF

Farthest equivalent length

1st branching piping length

Main piping length

90m

120m

Worlds

best in its clas

s*

235m*

SMMS-i

14

System layouts can use a maximum equivalent distance of up to 235 metres. This makes it much easier to design for floors with many small rooms, or for tenants who often rearrange their floor layouts.

coverage achievedby a single system

*As of December 2009 (According to independent TOSHIBA testing)


Layout flexibility with few design limitations

51614

Single system

10F

9F

8F

7F

6F

5F

4F

3F

2F

40m70m

16

Height between outdoor Height betweenindoor units *1& indoor units *2

------------------------ --------

A change from T-shape to Y-shape branching joints on the gas pipes between SMMS-i outdoor units results in equalized flow to each branch that enables more reliable operation.

*1 Calculated at 3.5 meters per floor*2 40 meters incase of Indoor unit above outdoor unit

To indoor units

To indoor units

Liquid piping

Gas piping

Modification point

(RBM-BT14E, RBM-BT24E)Outdoor unit connection piping kit

Toshiba SMMS-i leads the industry with support for height differences of up to 40 meters between indoor units on a single system. For instance, in an 11-story building, this is enough height to fully cover the entire floor as well as the elevator halls.

----------------------1F

11F

Greater support for height differences

Piping

5 1715

Max

Mid

Mini

Stop

Gas refrigerant

SMMS-i

15C0C-15C-20C

SMMS-i

18

Toshibas own PMV (pulse motor valve) control prevents unneeded refrigerant from flowing to indoor units that are not operating at any given time. Benefits include the prevention of by-pass loss and finer control over the compressor capacity of the outdoor unit.

SMMS-i extends the high end of its cooling functions outdoor temperature operating range up to 43C. This enables wider applications and use of the system in hot regions.

Refrigerant flow

Operating temperature range

Outdoor unit

Liquidrefrigerant

Heat exchanger

Temprerature sensor

*Cooling: CDB, Heating: CWB

Outdoor temp. range when cooling* -5C to 43C

-20C to 15COutdoor temp. range when heating*

PMV

Indoor unit

Other Features

51816

19

Other features

The SMMS-i inverter box window enables easier maintenance. The window opens quickly to allow inspection of the PCB, test run operations, repairs, and control over address settings.

Square holes added to the lower cornersof the SMMS-i outdoor units facilitate safer and surer lifting by a crane. Belts passed through the dedicated corner holes maintain their position and the balance of the load throughout the lifting operation.

Inverter box inspection window

Square carrying holes

5 19

Outdoor units

Standard model

Capacity 5HP 6HP 8HP 10HP 12HP 14HP 16HP

Model Name (MMY-) MAP0501HT8P-E MAP0601HT8-PE MAP0804HT8P-E MAP1004HT8P-E MAP1204HT8P-E MAP1404HT8P-E MAP1604HT8P-E

Cooling capacity (kW) 14.0 16.0 22.4 28.0 33.5 40.0 45.0

Heating capacity (kW) 16.0 18.0 25.0 31.5 37.5 45.0 50.0

Capacity 18HP 20HP 22HP 24HP 26HP 28HP 30HP 32HP

Model Name (MMY-) AP1814HT8P-E AP2014HT8P-E AP2214HT8P-E AP2414HT8P-E AP2614HT8P-E AP2814HT8P-E AP3014HT8P-E AP3214HT8P-E

Units in combination (MMY-)

MAP1004HT8P-EMAP0804HT8P-E








Cooling capacity (kW) 50.4 56.0 61.5 68.0 73.0 78.5 85.0 90.0

Heating capacity (kW) 56.5 63.0 69.0 76.5 81.5 88.0 95.0 100.0

Capacity 34HP 36HP 38HP 40HP 42HP 44HP 46HP 48HP

Model Name (MMY-) AP3414HT8P-E AP3614HT8P-E AP3814HT8P-E AP4014HT8P-E AP4214HT8P-E AP4414HT8P-E AP4614HT8P-E AP4814HT8P-E


MAP1204HT8P-EMAP1204HT8P-EMAP1004HT8P-E








Cooling capacity (kW) 96.0 101.0 106.5 112.0 118.0 123.5 130.0 135.0

Heating capacity (kW) 108.0 113.0 119.5 127.0 132.0 138.0 145.0 150.0

* Power: 3-phase 50 Hz 400V (380 - 415V)* The source voltage must not uctuate more than 10% .* Rated conditions Cooling: Indoor air temperature 27C DB/19C WB, outdoor air temperature 35C DB Heating: Indoor air temperature 20C DB, outdoor air temperature 7C DB/6C WB

20

17

520

Capacity 16HP 24HP 26HP 28HP 30HP

Model Name (MMY-) AP1624HT8P-E AP2424HT8P-E AP2624HT8P-E AP2824HT8P-E AP3024HT8P-E







Cooling capacity ( kW) 45.0 68.0 73.0 78.5 85.0

Heating capacity ( kW) 50.0 76.5 81.5 88.0 95.0

Capacity 32HP 34HP 36HP 38HP 40HP 42HP 44HP 46HP 48HP

Model Name (MMY-) AP3224HT8P-E AP3424HT8P-E AP3624HT8P-E AP3824HT8P-E AP4024HT8P-E AP4224HT8P-E AP4424HT8P-E AP4624HT8P-E AP4824HT8P-E


MAP0804HT8P-EMAP0804HT8P-EMAP0804HT8P-EMAP0804HT8P-E









Cooling capacity (kW) 90.0 96.0 101.0 106.5 112.0 118.0 123.5 130.0 135.0

Heating capacity (kW) 100.0 108.0 113.0 119.5 127.0 132.0 138.0 145.0 150.0

Y-shape branching joint Branch headers Outdoor unit connection piping kit

Appearance

(4-branch headers)

Model name RBM-BY55E RBM-BY105E RBM-BY205E RBM-BY305E RBM-HY1043E RBM-HY2043E RBM-HY1083E RBM-HY2083E RBM-BT14E RBM-BT24E

Usage (Classi cation according to indoor unit capacity code )

Total below 6.4

Total 6.4 or more and below 14.2

Total 14.2 or more

and below 25.2

Total 25.2 or more

Max.4 branches Max.8 branches

Total below 26.0 Total 26.0 or moreTotal below

14.2

Total 14.2 or more and below 25.2

Total below 14.2

Total 14.2 or more

and below 25.2

212118

High efficiency model

Standard model (Single unit)

22

Equivalent HP 5HP 6HP 8HP 10HP 12HP 14HP 16HP

Model nameHeat Pump (MMY-) MAP0501HT8P-E MAP0601HT8P-E MAP0804HT8P-E MAP1004HT8P-E MAP1204HT8P-E MAP1404HT8P-E MAP1604HT8P-ECooling Only (MMY-) MAP0501T8P-E MAP0601T8P-E MAP0804T8P-E MAP1004T8P-E MAP1204T8P-E MAP1404T8P-E MAP1604T8P-E

Outdoor unit type InverterCooling capacity (*1) (kW) 14.0 16.0 22.4 28.0 33.5 40.0 45.0 Heating capacity (*1) (kW) 16.0 18.0 25.0 31.5 37.5 45.0 50.0 Power supply (*2) 3phase 4wires 50Hz 400V (380-415V)

Electrical characteristics

(*1)

CoolingPower consumption (kW) 3.65 4.64 5.40 7.41 9.55 11.50 13.70 EER (Energy E ciency Ratio) 3.84 3.45 4.15 3.78 3.51 3.48 3.28

Heating Power consumption (kW) 3.84 4.56 5.53 7.50 10.20 11.20 14.20 COP (Coe cient of Performance) 4.17 3.95 4.52 4.20 3.68 4.02 3.52

External dimensions (Height / Width / Depth) (mm) 1,800 / 990 / 750 1,800 / 990 / 750 1,830 / 990 / 780 1,830 / 990 / 780 1,830 / 990 / 780 1,830 / 1,210 / 780 1,830 / 1,210 / 780

Total weightHeat Pump (kg) 228 228 242 242 242 330 330Cooling only (kg) 227 227 241 241 241 329 329

Compressor Motor output (kW) 1.1 x 2 1.4 x 2 2.3 x 2 3.1 x 2 4.2 x 2 3.0 x 3 3.6 x 3

Fan unit Motor output (kW) 0.6 0.6 1.0 1.0 1.0 1.0 1.0Air volume (m3/h) 9,000 9,000 9,900 10,500 11,600 12,000 13,000

Refrigerant pipingMain pipe

diameter

Gas side (mm) 15.9 19.1 22.2 22.2 28.6 28.6 28.6Liquid side (mm) 9.5 9.5 12.7 12.7 12.7 15.9 15.9Balance pipe (mm) 9.5 9.5 9.5 9.5 9.5 9.5 9.5

Sound pressure level (Cooling/Heating) (dB(A)) 55 / 55 56 / 56 55 / 56 57 / 58 59 / 62 60 / 62 62 / 64Sound power level (Cooling/Heating) (dB(A)) 87 / 77 78 / 79 82 / 83 82 / 83 83 / 84

Technical specifications

Equivalent HP 18HP 20HP 22HP 24HP

Model name Heat Pump MMY- AP1814HT8P-E AP2014HT8P-E AP2214HT8P-E AP2414HT8P-ECooling Only MMY- AP1814T8P-E AP2014T8P-E AP2214T8P-E AP2414T8P-E

Outdoor unit type InverterOutdoor unit model

Heat Pump MMY- MAP1004HT8P-E MAP0804HT8P-E MAP1004HT8P-E MAP1004HT8P-E MAP1204HT8P-E MAP1004HT8P-E MAP1204HT8P-E MAP1204HT8P-ECooling Only MMY- MAP1004T8P-E MAP0804T8P-E MAP1004T8P-E MAP1004T8P-E MAP1204T8P-E MAP1004T8P-E MAP1204T8P-E MAP1204T8P-E

Cooling capacity (*1) (kW) 50.4 56.0 61.5 68.0Heating capacity (*1) (kW) 56.5 63.0 69.0 76.5Power supply (*2) 3phase 4wires 50Hz 400V (380-415V)

Electrical characteristics (*1)

CoolingPower consumption (kW) 12.81 14.82 16.96 19.66EER (Energy E ciency Ratio) 3.93 3.78 3.63 3.46

Heating Power consumption (kW) 13.03 15.00 17.70 21.13COP (Coe cient of Performance) 4.34 4.20 3.90 3.62

Total weight Heat Pump (kg) 242 242 242 242 242 242 242 242Cooling only (kg) 241 241 241 241 241 241 241 241Compressor Motor output (kW) 3.1 x 2 2.3 x 2 3.1 x 2 3.1 x 2 4.2 x 2 3.1 x 2 4.2 x 2 4.2 x 2

Fan unitMotor output (kW) 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0Air volume (m3/h) 10,500 9,900 10,500 10,500 11,600 10,500 11,600 11,600

Refrigerant piping Main pipe diameterGas side (mm) 28.6 28.6 34.9 34.9Liquid side (mm) 15.9 15.9 19.1 19.1Balance pipe (mm) 9.5 9.5 9.5 9.5

Sound pressure level (Cooling/Heating) (dB(A)) 59.5 / 60.5 60.0 / 61.0 61.5 / 63.5 62.0 / 65.0


Equivalent HP 26HP 28HP 30HP

Model name Heat Pump MMY- AP2614HT8P-E AP2814HT8P-E AP3014HT8P-ECooling Only MMY- AP2614T8P-E AP2814T8P-E AP3014T8P-E


Heat Pump MMY- MAP1604HT8P-E MAP1004HT8P-E MAP1604HT8P-E MAP1204HT8P-E MAP1604HT8P-E MAP1404HT8P-ECooling Only MMY- MAP1604T8P-E MAP1004T8P-E MAP1604T8P-E MAP1204T8P-E MAP1604T8P-E MAP1404T8P-E

Cooling capacity (*1) (kW) 73.0 78.5 85.0Heating capacity (*1) (kW) 81.5 88.0 95.0 Power supply (*2) 3phase 4wires 50Hz 400V (380-415V)


CoolingPower consumption (kW) 21.11 23.25 25.20EER (Energy E ciency Ratio) 3.46 3.38 3.37

Heating Power consumption (kW) 21.70 24.65 25.40COP (Coe cient of Performance) 3.76 3.57 3.74

Total weight Heat Pump (kg) 330 242 330 242 330 330Cooling only (kg) 329 241 329 241 329 329Compressor Motor output (kW) 3.6 x 3 3.1 x 2 3.6 x 3 4.2 x 2 3.6 x 3 3.0 x 3

Fan unitMotor output (kW) 1.0 1.0 1.0 1.0 1.0 1.0Air volume (m3/h) 13,000 11,500 13,000 11,600 13,000 12,000

Refrigerant piping Main pipe diameterGas side (mm) 34.9 34.9 34.9Liquid side (mm) 19.1 19.1 19.1Balance pipe (mm) 9.5 9.5 9.5

Sound pressure level (Cooling/Heating) (dB(A)) 63.5 / 65.0 64 / 66.5 64.5 / 66.5

19


Outdoor unit specications

Standard model (Combination)


5 21


22

Equivalent HP 5HP 6HP 8HP 10HP 12HP 14HP 16HP

Model nameHeat Pump (MMY-) MAP0501HT8P-E MAP0601HT8P-E MAP0804HT8P-E MAP1004HT8P-E MAP1204HT8P-E MAP1404HT8P-E MAP1604HT8P-ECooling Only (MMY-) MAP0501T8P-E MAP0601T8P-E MAP0804T8P-E MAP1004T8P-E MAP1204T8P-E MAP1404T8P-E MAP1604T8P-E

Outdoor unit type InverterCooling capacity (*1) (kW) 14.0 16.0 22.4 28.0 33.5 40.0 45.0 Heating capacity (*1) (kW) 16.0 18.0 25.0 31.5 37.5 45.0 50.0 Power supply (*2) 3phase 4wires 50Hz 400V (380-415V)

Electrical characteristics

(*1)

CoolingPower consumption (kW) 3.65 4.64 5.40 7.41 9.55 11.50 13.70 EER (Energy E ciency Ratio) 3.84 3.45 4.15 3.78 3.51 3.48 3.28

Heating Power consumption (kW) 3.84 4.56 5.53 7.50 10.20 11.20 14.20 COP (Coe cient of Performance) 4.17 3.95 4.52 4.20 3.68 4.02 3.52

External dimensions (Height / Width / Depth) (mm) 1,800 / 990 / 750 1,800 / 990 / 750 1,830 / 990 / 780 1,830 / 990 / 780 1,830 / 990 / 780 1,830 / 1,210 / 780 1,830 / 1,210 / 780

Total weightHeat Pump (kg) 228 228 242 242 242 330 330Cooling only (kg) 227 227 241 241 241 329 329

Compressor Motor output (kW) 1.1 x 2 1.4 x 2 2.3 x 2 3.1 x 2 4.2 x 2 3.0 x 3 3.6 x 3

Fan unit Motor output (kW) 0.6 0.6 1.0 1.0 1.0 1.0 1.0Air volume (m3/h) 9,000 9,000 9,900 10,500 11,600 12,000 13,000

Refrigerant pipingMain pipe

diameter

Gas side (mm) 15.9 19.1 22.2 22.2 28.6 28.6 28.6Liquid side (mm) 9.5 9.5 12.7 12.7 12.7 15.9 15.9Balance pipe (mm) 9.5 9.5 9.5 9.5 9.5 9.5 9.5

Sound pressure level (Cooling/Heating) (dB(A)) 55 / 55 56 / 56 55 / 56 57 / 58 59 / 62 60 / 62 62 / 64Sound power level (Cooling/Heating) (dB(A)) 87 / 77 78 / 79 82 / 83 82 / 83 83 / 84


Equivalent HP 18HP 20HP 22HP 24HP

Model name Heat Pump MMY- AP1814HT8P-E AP2014HT8P-E AP2214HT8P-E AP2414HT8P-ECooling Only MMY- AP1814T8P-E AP2014T8P-E AP2214T8P-E AP2414T8P-E



Cooling capacity (*1) (kW) 50.4 56.0 61.5 68.0Heating capacity (*1) (kW) 56.5 63.0 69.0 76.5Power supply (*2) 3phase 4wires 50Hz 400V (380-415V)


CoolingPower consumption (kW) 12.81 14.82 16.96 19.66EER (Energy E ciency Ratio) 3.93 3.78 3.63 3.46

Heating Power consumption (kW) 13.03 15.00 17.70 21.13COP (Coe cient of Performance) 4.34 4.20 3.90 3.62



Refrigerant piping Main pipe diameterGas side (mm) 28.6 28.6 34.9 34.9Liquid side (mm) 15.9 15.9 19.1 19.1Balance pipe (mm) 9.5 9.5 9.5 9.5

Sound pressure level (Cooling/Heating) (dB(A)) 59.5 / 60.5 60.0 / 61.0 61.5 / 63.5 62.0 / 65.0





Heat Pump MMY- MAP1604HT8P-E MAP1004HT8P-E MAP1604HT8P-E MAP1204HT8P-E MAP1604HT8P-E MAP1404HT8P-ECooling Only MMY- MAP1604T8P-E MAP1004T8P-E MAP1604T8P-E MAP1204T8P-E MAP1604T8P-E MAP1404T8P-E





Total weight Heat Pump (kg) 330 242 330 242 330 330Cooling only (kg) 329 241 329 241 329 329Compressor Motor output (kW) 3.6 x 3 3.1 x 2 3.6 x 3 4.2 x 2 3.6 x 3 3.0 x 3

Fan unitMotor output (kW) 1.0 1.0 1.0 1.0 1.0 1.0Air volume (m3/h) 13,000 11,500 13,000 11,600 13,000 12,000


Sound pressure level (Cooling/Heating) (dB(A)) 63.5 / 65.0 64 / 66.5 64.5 / 66.5

19


Outdoor unit specications



522 2323

*1 Rated conditions Cooling : Indoor air temperature 27C DB/19C WB, Outdoor air temperature 35C DB Heating : Indoor air temperature 20C DB, Outdoor air temperature 7C DB/6C WB The standard piping means that main pipe length is 5m, branching pipe length is 2.5m of branch piping connected with a 0 meter height. *2 The source voltage must not ucture more than 10% .










Fan unit Motor output (kW) 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0Air volume (m3/h) 13,000 13,000 11,600 11,600 10,500 11,600 11,600 11,600


Sound pressure level (Cooling/Heating) (dB(A)) 65.0 / 67.0 63.5 / 66.0 64.0 / 67.0




Heat Pump MMY- MAP1604HT8P-E MAP1204HT8P-E MAP1004HT8P-E MAP1604HT8P-E MAP1204HT8P-E MAP1204HT8P-E MAP1604HT8P-E MAP1404HT8P-E MAP1204HT8P-ECooling Only MMY- MAP1604T8P-E MAP1204T8P-E MAP1004T8P-E MAP1604T8P-E MAP1204T8P-E MAP1204T8P-E MAP1604T8P-E MAP1404T8P-E MAP1204T8P-E





Total weight Heat Pump (kg) 330 242 242 330 242 242 330 330 242Cooling only (kg) 329 241 241 329 241 241 329 329 241Compressor Motor output (kW) 3.6 x 3 4.2 x 2 3.1 x 2 3.6 x 3 4.2 x 2 4.2 x 2 3.6 x 3 3.0 x 3 4.2 x 2

Fan unitMotor output (kW) 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0Air volume (m3/h) 13,000 11,600 10,500 13,000 11,600 11,600 13,000 12,000 11,600









CoolingPower consumption (kW) 36.95 38.90 41.10 EER (Energy E ciency Ratio) 3.34 3.34 3.28




Refrigerant piping Main pipe diameterGas side (mm) 41.3 41.3 41.3Liquid side (mm) 22.2 22.2 22.2 Balance pipe (mm) 9.5 9.5 9.5


20




24
















Heat Pump MMY- MAP1004HT8P-E MAP1004HT8P-E MAP0804HT8P-E MAP1004HT8P-E MAP1004HT8P-E MAP1004HT8P-E MAP0804HT8P-E MAP0804HT8P-E MAP0804HT8P-E MAP0804HT8P-ECooling Only MMY- MAP1004T8P-E MAP1004T8P-E MAP0804T8P-E MAP1004T8P-E MAP1004T8P-E MAP1004T8P-E MAP0804T8P-E MAP0804T8P-E MAP0804T8P-E MAP0804T8P-E





Total weight Heat Pump (kg) 242 242 242 242 242 242 242 242 242 242Cooling only (kg) 241 241 241 241 241 241 241 241 241 241Compressor Motor output (kW) 3.1 x 2 3.1 x 2 2.3 x 2 3.1 x 2 3.1 x 2 3.1 x 2 2.3 x 2 2.3 x 2 2.3 x 2 2.3 x 2

Fan unitMotor output (kW) 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0Air volume (m3/h) 10,500 10,500 9,900 10,500 10,500 10,500 9,900 9,900 9,900 9,900



Equivalent HP 34HP 36HP

Model name Heat Pump MMY- AP3424HT8P-E AP3624HT8P-ECooling Only MMY- AP3424T8P-E AP3624T8P-E



Cooling capacity (*1) (kW) 96.0 101.0Heating capacity (*1) (kW) 108.0 113.0 Power supply (*2) 3phase 4wires 50Hz 400V (380-415V)


CoolingPower consumption (kW) 24.00 25.72EER (Energy E ciency Ratio) 4.00 3.93

Heating Power consumption (kW) 24.70 26.06COP (Coe cient of Performance) 4.37 4.34



Refrigerant piping Main pipe diameterGas side (mm) 34.9 41.3Liquid side (mm) 19.1 22.2Balance pipe (mm) 9.5 9.5

Sound pressure level (Cooling/Heating) (dB(A)) 62.0 / 63.0 62.5 / 63.5

21

High efciency model (Combination)






Standard model

Standard model

Standard model

5 232323











Fan unit Motor output (kW) 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0Air volume (m3/h) 13,000 13,000 11,600 11,600 10,500 11,600 11,600 11,600





















CoolingPower consumption (kW) 36.95 38.90 41.10 EER (Energy E ciency Ratio) 3.34 3.34 3.28




Refrigerant piping Main pipe diameterGas side (mm) 41.3 41.3 41.3Liquid side (mm) 22.2 22.2 22.2 Balance pipe (mm) 9.5 9.5 9.5


20







24
















Heat Pump MMY- MAP1004HT8P-E MAP1004HT8P-E MAP0804HT8P-E MAP1004HT8P-E MAP1004HT8P-E MAP1004HT8P-E MAP0804HT8P-E MAP0804HT8P-E MAP0804HT8P-E MAP0804HT8P-ECooling Only MMY- MAP1004T8P-E MAP1004T8P-E MAP0804T8P-E MAP1004T8P-E MAP1004T8P-E MAP1004T8P-E MAP0804T8P-E MAP0804T8P-E MAP0804T8P-E MAP0804T8P-E





Total weight Heat Pump (kg) 242 242 242 242 242 242 242 242 242 242Cooling only (kg) 241 241 241 241 241 241 241 241 241 241Compressor Motor output (kW) 3.1 x 2 3.1 x 2 2.3 x 2 3.1 x 2 3.1 x 2 3.1 x 2 2.3 x 2 2.3 x 2 2.3 x 2 2.3 x 2

Fan unitMotor output (kW) 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0Air volume (m3/h) 10,500 10,500 9,900 10,500 10,500 10,500 9,900 9,900 9,900 9,900















21







5242525














Model name Heat Pump MMY- AP4224HT8P-E AP4424HT8P-ECooling Only MMY- AP4224T8P-E AP4424T8P-EOutdoor unit type InverterOutdoor unit model























22







26

Model : MMY-MAP0501, MAP0601 (SMMS)Applied model A BMMY-MAP0501 15.9 9.5 MMY-MAP0601 15.9 9.5

990

1800

1640

165

700

*1 241

500

280

280

88

750

610

100

8080

630

100

4-15x20(Long hole)

Refrigerant pipeconnecting port(Gas side) A

Refrigerant pipeconnecting port(Liquid side) B

Balance pipeconnecting port 9.5

*1 Cutting position of L-shape pipe when pipe at gas side is connected (Recommended pipe connecting position)(Note)

1. If there is an obstacle at the upper side of the outdoor unit, set the top end of the outdoor unit 2000mm apart from the obstacle.2. Limit the height of the obstacle surrounding the outdoor unit to 800mm or less from the bottom end of the outdoor unit.3. Draw out the pipe procured locally to the front of the outdoor unit horizontally and keep 500mm or more between the outdoor unit and traversing pipe if placing pipe transversely.

2-60x150 square hole(for freight handling)

Mounting surface of bottom plate

Foundation

Foundation

700(Anchor bolt hole pitch)


755

(Anc

hor

bolt

pit

ch)

755

(Anc

hor

bolt

pit

ch)

790

(Incl

udin

g st

eady

leg)

Refrigerant pipe connecting port(Gas side) A


Refrigerant pipe connecting port(Liquid side) B

687

273

284

(22

0)*1

(75)*11595

500


(Note)1. If there is an obstacle at the upper side of the outdoor unit, set the top end of the outdoor unit 2000mm apart from the obstacle.2. Limit the height of the obstacle surrounding the outdoor unit to 800mm or less from the bottom end of the outdoor unit.3. Draw out the pipe procured locally to the front of the outdoor unit horizontally and keep 500mm or more between the outdoor unit and traversing pipe if placing pipe transversely.

L-shape pipe

*1 Recommended cutting position of L-shape pipe


990

C

610

100

6060

670

100


Foundation

Foundation700

(Anchor bolt hole pitch)

755

(Anc

hor

bolt

pit

ch)

50

790

(Incl

udin

g st

eady

leg)

755

(Anc

hor

bolt

pit

ch)

780

4-15x20(Long hole)

Model: MMY-MAP0804, MAP1004, MAP1204Applied model A BMMY-MAP0804 22.2 12.7MMY-MAP1004 22.2 12.7 MMY-MAP1204 28.6 12.7

Applied model CMMY-MAP -E 1,830

Other models 1,800

(Unit: mm)

(Unit: mm)

23

5 2526

Model : MMY-MAP0501, MAP0601 (SMMS)Applied model A BMMY-MAP0501 15.9 9.5 MMY-MAP0601 15.9 9.5

990

1800

1640

165

700

*1 241

500

280

280

88

750

610

100

8080

630

100

4-15x20(Long hole)

Refrigerant pipeconnecting port(Gas side) A

Refrigerant pipeconnecting port(Liquid side) B


*1 Cutting position of L-shape pipe when pipe at gas side is connected (Recommended pipe connecting position)(Note)

1. If there is an obstacle at the upper side of the outdoor unit, set the top end of the outdoor unit 2000mm apart from the obstacle.2. Limit the height of the obstacle surrounding the outdoor unit to 800mm or less from the bottom end of the outdoor unit.3. Draw out the pipe procured locally to the front of the outdoor unit horizontally and keep 500mm or more between the outdoor unit and traversing pipe if placing pipe transversely.



Foundation

Foundation



755

(Anc

hor

bolt

pit

ch)

755

(Anc

hor

bolt

pit

ch)

790

(Incl

udin

g st

eady

leg)

Refrigerant pipe connecting port(Gas side) A


Refrigerant pipe connecting port(Liquid side) B

687

273

284

(22

0)*1

(75)*11595

500



L-shape pipe



990

C

610

100

6060

670

100


Foundation

Foundation700


755

(Anc

hor

bolt

pit

ch)

50

790

(Incl

udin

g st

eady

leg)

755

(Anc

hor

bolt

pit

ch)

780

4-15x20(Long hole)

Model: MMY-MAP0804, MAP1004, MAP1204Applied model A BMMY-MAP0804 22.2 12.7MMY-MAP1004 22.2 12.7 MMY-MAP1204 28.6 12.7


Other models 1,800

(Unit: mm)

(Unit: mm)

23

526 2727

Model: MMY-MAP1404, MAP1604

(75)*1

L-shape pipe620

920 (Anchor bolt hole pitch)4-15x20 (Long hole)

1210

755

(Anc

hor

bolt

pit

ch)

780

790

(Inc

ludi

ng s

tead

y le

g)


1595

5068

785

221

284

(22

0)*1


Refrigerant pipe connecting port(Gas side) 28.6 Balance pipe

connecting port 9.5 Refrigerant pipe connecting port(Liquid side) 15.9

610

100

6060

670

100


Foundation

Foundation920


755

(Anc

hor

bolt

pit

ch)

C


Applied model A BMMY-MAP1404 28.6 15.9MMY-MAP1604 28.6 15.9


Other models 1,800

(Unit: mm)

24

5 272727

Model: MMY-MAP1404, MAP1604

(75)*1

L-shape pipe620

920 (Anchor bolt hole pitch)4-15x20 (Long hole)

1210

755

(Anc

hor

bolt

pit

ch)

780

790

(Inc

ludi

ng s

tead

y le

g)


1595

5068

785

221

284

(22

0)*1


Refrigerant pipe connecting port(Gas side) 28.6 Balance pipe

connecting port 9.5 Refrigerant pipe connecting port(Liquid side) 15.9

610

100

6060

670

100


Foundation

Foundation920


755

(Anc

hor

bolt

pit

ch)

C


Applied model A BMMY-MAP1404 28.6 15.9MMY-MAP1604 28.6 15.9


Other models 1,800

(Unit: mm)

2429

VRF Indoor Units Range

Type

4-way air dischargecassette type

Compact 4-way cassette (600 x 600) type



Concealed duct type

Concealed ducthigh static pressure type

Slim duct type

Ceiling type - 7 series

MMU-AP0094HP-E 1.00 2.80 3.20MMU-AP0124HP-E 1.25 3.60 4.00MMU-AP0154HP-E 1.70 4.50 5.00MMU-AP0184HP-E 2.00 5.60 6.30MMU-AP0244HP-E 2.50 7.10 8.00

MMU-AP0074MH-E 0.80 2.20 2.50MMU-AP0094MH-E 1.00 2.80 3.20MMU-AP0124MH-E 1.25 3.60 4.00MMU-AP0154MH-E 1.70 4.50 5.00MMU-AP0184MH-E 2.00 5.60 6.30

MMU-AP0274HP-E 3.00 8.00 9.00

MMK-AP0073H 0.80 2.20 2.50MMK-AP0093H 1.00 2.80 3.20MMK-AP0123H 1.25 3.60 4.00MMK-AP0153H 1.70 4.50 5.00MMK-AP0183H 2.00 5.60 6.30MMK-AP0243H 2.50 7.10 8.00

MML-AP0074H-E 0.80 2.20 2.50MML-AP0094H-E 1.00 2.80 3.20MML-AP0124H-E 1.25 3.60 4.00MML-AP0154H-E 1.70 4.50 5.00MML-AP0184H-E 2.00 5.60 6.30

MML-AP0074NH-E 0.80 2.20 2.50MML-AP0094NH-E 1.00 2.80 3.20MML-AP0124NH-E 1.25 3.60 4.00MML-AP0154NH-E 1.70 4.50 5.00MML-AP0184NH-E 2.00 5.60 6.30

MML-AP0244H-E 2.50 7.10 8.00

MML-AP0074BH-E 0.80 2.20 2.50MML-AP0094BH-E 1.00 2.80 3.20MML-AP0124BH-E 1.25 3.60 4.00MML-AP0154BH-E 1.70 4.50 5.00MML-AP0184BH-E 2.00 5.60 6.30MML-AP0244BH-E 2.50 7.10 8.00

MMF-AP0154H-E 1.70 4.50 5.00MMF-AP0184H-E 2.00 5.60 6.30MMF-AP0244H-E 2.50 7.10 8.00MMF-AP0274H-E 3.00 8.00 9.00MMF-AP0364H-E 4.00 11.20 12.50MMF-AP0484H-E 5.00 14.00 16.00

VN-M150HE 150Air Flow in CMH

VN-M250HE 250VN-M350HE 350VN-M500HE 500VN-M650HE 650VN-M800HE 800VN-M1000HE 1000VN-M1500HE 1500VN-M2000HE 2000

MMF-AP0564H-E 6.00 16.00 18.00

MMU-AP0304HP-E 3.20 9.00 10.00MMU-AP0364HP-E 4.00 11.20 12.50MMU-AP0484HP-E 5.00 14.00 16.00MMU-AP0564HP-E 6.00 16.00 18.00

MMU- AP0072WH 0.80 2.20 2.50MMU-AP0092WH 1.00 2.80 3.20MMU-AP0122WH 1.25 3.60 4.00

MMU-AP0074YH-E 0.80 2.20 2.50MMU-AP0094YH-E 1.00 2.80 3.20MMU-AP0124YH-E 1.25 3.60 4.00

MMU-AP0154SH-E 1.70 4.50 5.00MMU-AP0184SH-E 2.00 5.60 6.30MMU-AP0244SH-E 1.25 7.10 8.00

MMU-AP0152WH 1.70 4.50 5.00MMU-AP0182WH 2.00 5.60 6.30MMU-AP0242WH 2.50 7.10 8.00MMU-AP0272WH 3.00 8.00 9.00MMU-AP0302WH 3.20 9.00 10.00MMU-AP0362WH 4.00 11.20 12.50MMU-AP0482WH 5.00 14.00 16.00MMU-AP0562WH 6.00 16.00 18.00

MMD-AP0076BHP-E 0.80 2.20 2.50MMD-AP0096BHP-E 1.00 2.80 3.20MMD-AP0126BHP-E 1.25 3.60 4.00MMD-AP0156BHP-E 1.70 4.50 5.00MMD-AP0186BHP-E 2.00 5.60 6.30MMD-AP0246BHP-E 2.50 7.10 8.00MMD-AP0276BHP-E 3.00 8.00 9.00

MMD-AP0074SPH-E 0.80 2.20 2.50MMD-AP0054SPH-E 0.6 2.20 2.50

MMD-AP0094SPH-E 1.00 2.80 3.20MMD-AP0124SPH-E 1.25 3.60 4.00MMD-AP0154SPH-E 1.70 4.50 5.00MMD-AP0184SPH-E 2.00 5.60 6.30MMD-AP0244SPH-E 2.50 7.10 8.00

MMC-AP0157HP-E 1.70 4.50 5.00MMC-AP0187HP-E 2.00 5.60 6.30MMC-AP0247HP-E 2.50 7.10 8.00MMC-AP0277HP-E 3.00 8.00 9.00MMC-AP0367HP-E 4.00 11.20 12.50MMC-AP0487HP-E 5.00 14.00 16.00MMC-AP0567HP-E 6.00 16.00 18.00

MMD-AP0274SPH-E 3.00 8.00 9.00

MMD-AP0306BHP-E 3.20 9.00 10.00MMD-AP0366BHP-E 4.00 11.20 12.50MMD-AP0486BHP-E 5.00 14.00 16.00MMD-AP0566BHP-E 6.00 16.00 18.00

MMD-AP0184H-E 2.00 5.60 6.30MMD-AP0244H-E 2.50 7.10 8.00MMD-AP0274H-E 3.00 8.00 9.00MMD-AP0364H-E 4.00 11.20 12.50MMD-AP0484H-E 5.00 14.00 16.00MMD-AP0724H-E 8.00 22.40 25.00MMD-AP0964H-E 1.000 28.00 31.50

Model Name EquivalentHPCooling

capacity (kW)Heating

capacity (kW) Type Model NameEquivalent

HPCooling

capacity (kW)Heating

capacity (kW)

High wall type 3 series

Floor standingcabinet type

Bi Flow Console type

Floor standingconcealed type

Floor standing type

Air-to-Air Heat Exchangers

MMD-VN(K)502HEXE 500Air Flow in CMH

MMD-VN(K)802HEXE 800MMD-VN(K)1002HEXE 950

Air-to-Air Heat Exchangers with DX-coil + Humidifier

MM-DXC010MM-DXC012

MM-DXV080

New AHU DXCoil Interface

AHU DX Valve Kit

MM-DXV140MM-DXV280

MMD-AP0481HFE 5.00 14.20 8.90MMD-AP0721HFE 8.00 22.40 13.90MMD-AP0961HFE 10.00 28.00 17.40

Fresh air intake indoor unit type

52830

(1) Standard swing (2) Diagonally opposite swing

(3) Turn-around swing

REMOTE CONTROLS

RBC-AX32U(W)-ERBC-AX32U(WS)-E

RBC-AMS41E RBC-AMS51E

RBC-U31PGP(W)-E

MMU-AP*** 4HP

The angles of each of the four louver can be set individually* Enables airflow to be adapted to user preferences.

Condensate drain pump included.

The panel is attached using the bolt already installed on the indoor unit.


Model name

Cooling/Heating capacity*1

Appearance (Ceiling panel)

Total weight: Main unit (Ceiling panel)*

Fan unit

Connectingpipe

Sound pressure level*2 (High/Mid/Low)

Externaldimensions:Main unit(Ceiling panel)*

Power requirements

Power consumption50 Hz/60 Hz (kW)

Height

Width

Depth

Standard air flow(High/Mid/Low)

Motor output

Gas side

Liquid side

Drain port 25 (Polyvinyl chloride tube)

Electricalcharacteristics

MMU

(kW)

Model

(mm)

(mm)

(mm)

(kg)

(m3/h)

(W) 14 20 68 72

(mm) 9.5 12.7 15.9

9.5(mm) 6.4

(nominaldia.)

(dB(A)) 30/29/27

AP0094HP-E AP0124HP-E AP0154HP-E AP0184HP-E AP0244HP-E AP0274HP-E AP0304HP-E AP0364HP-E AP0484HP-E AP0564HP-E

0.021/0.021

18 (4)*

800/730/680 930/830/790

31/29/27 32/29/27 35/31/28 38/33/30 43/38/32 46/38/33 46/40/33

1050/920/800

0.023/0.023 0.026/0.026

256 (30)*

0.036/0.036

1290/920/800 1320/1110/850 1970/1430/1070 2130/1430/1130 2130/1520/1230

840 (950)*

840 (950)*

20 (4)*

0.043/0.043 0.088/0.088 0.112/0.112

319 (30)*

25 (4)*

0.112/0.112

2.8/3.2 3.6/4.0 4.5/5.0 5.6/6.3 7.1/8.0 8.0/9.0

1-phase 50 Hz 230 V (220240 V)/1-phase 60 Hz 220 V (Separate power supply for indoor units required.)

RBC-U31PGP(W)-E/RBC-U31PGSP(W)-E*/RBC-U31PGSP(WS)-E* (Thailand)

9.0/10.0 11.2/12.5 14.0/16.0 16.0/18.0


* Preliminary *Figures in parentheses are for ceiling panels.*1 This reference piping consists of 5 m of main piping and 2.5 m of branch piping connected at the same height level.*2 The actual values in an external operating environment are generally higher than the indicated values due to the contribution from ambient noise.

Easy installation

Individual louver control

5 29

Options

200

Check port( 450)

MMU-AP0094HP to MMU-AP0564HP

Air discharge direction kit

TCB-BC1602UE

Auxiliary fresh air flange

Fresh air filter chamber

Fresh air inlet box

TCB-GB1602UE2

Ceiling panel

Air inlet grill

Spacer for height adjustment

TCB-SP1602UERBC-U31PG(W)-ERBC-U31PGS(W)-E*RBC-U31PGS(WS)-E*

TCB-FF101URE2

TCB-GFC1602E

3261

64

269

323

416.5

196.5

Bottom faceof ceiling

Bottom face of ceiling

Drain standing-up size

*The figure shows the RBC-U31PG(W)-E panel (Unit: mm)

480 163.5Hanging bolt M10 orW3/8 procured locally

Ceiling panel (Sold separately)

For branch duct knockoutsquare hole 150

223.5

384

16.5

129

77 132

256

189

112

44

172

*(31

9)

*(13

7)74

30

Stan

d-up

850

or

less

Stan

d-up

661

or le

ss

101

120

*(18

3)

35

105

105 351

256.5

690 20 Hanging bolt pitch

950 Panel external dimension

300 or less

*( ): AP0364 to AP0564

Z View

Knockout forfresh air intake 100

Bottom faceof ceiling

Z 45

155

187

28.5 57

408 Electric parts box

Wireless sensor mounting section(RBC-AX31U can be connected four corners)

Air outlet 518

860 to 910 ceiling open dimension

41.5

337.5 105

30

397.5

263 157

72 106.5

For branch duct knockout squarehole 150 (Also located on the back) Refrigerant pipe

connecting port(Gas side)

Drain pipeconnecting port

Refrigerant pipeconnecting port(Liquid side)

860

to 9

10 c

eilin

g op

en d

imen

sion

950

Pane

l ext

erna

l dim

ensi

on

780

Han

ging

bol

t pi

tch

Wiring connection port

53032

3.5m

The slim design is only 268 mm in height even when an electrical box is located inside the unit.

Easy installation is also possible using the panel adjust pocket. Use the adjust pocket function for fine adjustments after installation.

Available for ceilings up to 3.5 m in height.

The drain-checking hole makes it possible to check the drain pan through the side case.

Compact 4-way Cassette (600 x 600) Type

Perfect for grid system ceiling Designed for simple & easyinstallation and maintenance

MMU-AP***4MH-E

RBC-UM11PG(W)E

TCB-AX32E2 RBC-AMS41E RBC-AMS51E

Drain-checking hole Maximum height

Model name

Cooling/Heating capacity*1

Appearance (Ceiling panel)

Total weight: Main unit (Ceiling panel)*

Fan unit

Connectingpipe

Sound pressure level*2 (High/Mid/Low)

Externaldimensions:Main unit(Ceiling panel)*

Power requirements

Power consumption50 Hz/60 Hz (kW)

Height

Width

Depth

Standard air flow(High/Mid/Low)

Motor output

Gas side

Liquid side

Drain port

Electricalcharacteristics

MMU

(kW)

Model

(mm)

(mm)

(mm)

(kg)

(m3/h)

(W) 60

6.4

25 (Polyvinyl chloride tube)

(mm) 9.5 12.7

(mm)

(nominaldia.)

(dB(A)) 36/32/28

AP0074MH-E AP0094MH-E AP0124MH-E AP0154MH-E AP0184MH-E

0.034/0.034

552/462/378

37/33/28 37/33/29 40/35/30 44/39/34

0.036/0.036 0.038/0.038

RBC-UM11PG(W)-E

268 (27)*

575 (700)*

575(700)*

17 (3)*

594/504/402 762/642/522660/552/468570/468/378

0.041/0.041 0.052/0.052

2.2/2.5 2.8/3.2 3.6/4.0

1-phase 50 Hz 230 V (220240 V)/1-phase 60 Hz 220 V (Separate power supply for indoor units required.)

4.5/5.0 5.6/6.3


*Figures in parentheses are for ceiling panels.*1 This reference piping consists of 5 m of main piping and 2.5 m of branch p

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