Toshiba MMY-MAP1202FT8, MMY-MAP1002FT8, MMY-MAP0802FT DATA BOOK

Super-HRM

Engineering

(2 series)

Super Heat Recovery Multi System

Data Book

1

Foreword

The engineering data book details all specific data, charts

and drawings to enable you to get the best performance

from the Toshiba Super Heat Recovery Multi System (2 Se-

ries) for the various different applications.

The information is aimed to assist you with greater detail of

the system and the wider applications that the system will

Foreword

1

cover.

It is recommended the use of the data book is used in accor-

dance with the following as references.

Design manual : File No.A04-017

Installation manual : File No.A05-018

1

2

Contents

Foreword

2

1 Forward

2 Contents

3 Introduction

4 System overview

5 Capacity compensation chart

6 Piping requirements

7 Refrigerant cycle diagram

8 Sensible capacity table

9 Part load performance

10 Wiring guideline

11 Wiring diagram

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1

2

3

7

17

25

31

43

69

81

89

12 Controls

13 Fan characteristics

14 Sound characteristics (NC curve)

15 Dimensional drawing

1. Indoor units

2. Outdoor units

3. FS units

4. Branch header/Branch joint

16 Specifications

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Appendix

High Wall Type (2 series)

.............................

107

129

139

155

191

1-Way Air Discharge Cassette Type (2 series)

Slim Duct Type

2

3

Introduction

3

4

3

Introduction

Foreword

The World's Best Technology for Energy Saving, Heat Recovery VRF

Toshiba is proud to introduce the Super HRM system, 3pipe heat recovery VRF operating
on R410A. Incorporating advanced technology in all aspects of efficiency,
durability, flexibility and comfort. Super HRM will meet various different site applications.

3

System Outline

Outdoor unit

Indoor unit

(Heating)

Suction gas

Discharge gas

Liquid

(Discharge gas / Suction gas / Liquid)

Energy saving

No.1 COP in heat recovery VRF industry.
DC twin rotary compressors are most congenial with R410A
and are used within the outdoor units. All compressors are
driven by a High-speed Calculation Vector Control Inverter.

3 pipe

FS unit

(Flow Selector unit)

Indoor unit

(Cooling)

Outdoor unit

High-speed Calculation
Vector Control Inverter

Average COP

8HP System
10HP System

Super-HRM(R410A)

3.83

3.45

DC Twin Rotary
Compressor

Simultaneous Operation

By control of the FS unit, Super HRM enables simultaneous operation of cooling and heating.
Super HRM also improves the energy efficiency by the recycling of exhaust heat.

Ex. Mainly Cooling, Partly Heating Operation

FS unit

Indoor unit

Heating

Cooling Cooling Cooling

Main Heat
Exchanger Sub-Heat

Exchanger

Outdoor unit

Compressor

5

Design Flexibility

3

Piping flexibility

Equivalent piping length
Up to 125m

50m (from 1st branching)

35m (elevation between FCU)

50m (Elevation between CDU and FCU)

Elevation between indoor units = 35m(No.1!)
Furthest piping length from 1st branch
= 50m(No.1!)

Flexibile Joint Combination

Y Branch after header branch

(Toshiba unique technology)

Header branch after Y joint

Header after header branch

(Toshiba unique technology)

FS Unit Design

The compact and light weight design of the FS unit(Flow Selector Unit)allows it to be easily
installed within a limited space.

190H x 250W x 160D

5kg

Easy of hanging
(Only 2 hangers)

Easy maintenance
(Valve coil and P.C. board are
on the same side)

Centralized Control System

By using the central control devices, individual control of indoor units is possible throughout
multiple systems. Centralized control systems with Super MMS can also be integrated with Build­ing Management System (BMS).

Super MMS Super HRM

Central remote
controller

6

4

System overview

7

8

4

System overview

Foreword

1. OUTLINE OF TOSHIBA SUPER HRM
(Super Heat Recovery Multi System)

Shortest route design by free branching

The Combination of line and header branching is highly flexible.
This follows for the shortest design route possible, thereby saving
on installation time and cost. Line/header branching after the
header branching is only available with TOSHIBA Super HRM.

Line branching

Outdoor unit

4

Branching joint

FS unit

Indoor unit

Header branching

Outdoor unit

Branching

header

FS unit

Indoor unit

Line + Header branching

Outdoor unit

Branching joint

Indoor
unit

Header

Line branching after header branching

Outdoor unit

8F

7F

2F

FS
unit

1F

Branching joint

Super HRM

MMS Only

Only

Indoor unit

Header

Header branching after header branching

Outdoor unit

Header

Super HRM

Only

Header

FS unit

Indoor unit

FS unit

9

4

Non-polarized control wiring
between outdoor and indoor units

8F

7F

Outdoor unit

Indoor unit

FS unit

Indoor

unit

Heating Cooling Cooling Cooling

Simultaneous operation

U1 U2

U1 U2 U1 U2 U1 U2

main heat exchanger

Sub heat exchanger

Outdoor unit

Compressor

10

2F

1F

Outdoor
unit

Height difference between indoor

Height difference between indoor

unit and indoor unit : 35m

unit and outdoor unit : 50m

From 1st branching to the
furthest indoor unit : 50m

Allowable pipe length :
150m equivalent length

1st branching
section

Energy saving

No.1 COP in heat recovery VRF industry.Compared with the conventional chiller fan coil system,
a large energy saving can be achieved.

Advanced bus communication system

Wiring between indoor and outdoor units is a simple 2 core wire system.
Communication of addresses is also automatically configured.
A default test mode operation is available.

Self diagnostics system

Comprehensive troubleshooting codes allows for a timely identification of possible problems arising.

High lift and flexible piping design

Equivalent pipe length of 150m and vertical lift of 50m is possible with TOSHIBA Super HRM.
Vertical lift between indoor units of 35m is the highest in the industry.
Also the maximum piping length from the 1st branch is 50m.
This allows for greater flexibility within the building design of the system.

Simultaneous operation

By controlling the FS unit, Super HRM enables simultaneous operation of cooling and heating.
This operation meets the various requirements of modern buildings that are highly airtight or have
an increasing heat load due to the use of computers. Super HRM also improves energy efficiency by
recycling of the exhaust heat.

Extended outdoor temperature operating range

By use of sophisticated system control with inverter driven compressors, the operating range
in cooling has been increased from -5

to -10 .

4

Compact FS unit design

The compact and light weight design of the FS unit (Flow selector unit) allows it to be easily
installed with in a limited space.

Group control by one FS unit

Up to 8 indoor units can be group controlled by the use of only one FS unit, this gives greater flexibility for
various different types and sizes of rooms.

Intelligent control

TOSHIBA Super HRM intelligent controls and modulating valves deliver the required capacity
according to the load variation from 50% to 100%.
The intelligent controls and modulating valves limit or increase the cooling capacity dynamically so
humidity and temperature are kept within the comfort zone.

Conforms to building control law

IAQ (Indoor Air Quality) is also achieved by combining various accessories required by the Building
Control Law.

Wide control applications

Artificial Intelligence Network system.
Central control and monitoring system available.
Weekly schedule operation through weekly timer.

Integration with Building Management System (BMS) is available.

11

4

2. SUMMARY OF SYSTEM EQUIPMENTS

Equipment

1. Outdoor units

Corresponding HP

Model name MMY-

Cooling capacity (kW)

Heating capacity (kW)

8HP

MAP0802FT8

22.4

25.0

2. Outdoor units (Combination of outdoor units)

Corresponding HP

Combined model

Cooling capacity (kW)
Heating capacity (kW)

Combined outdoor units

No. of connectable indoor units

MMY-

8HP 10HP

MAP0802FT8

22.4
25

8HP

13

Inverter unit

10HP

MAP1002FT8

28.0

31.5

MAP1002FT8

28

31.5

10HP

16

MAP1202FT8

12HP

MAP1202FT8

33.5

35.5

12HP

16

12HP

33.5

35.5

16HP

AP1602FT8

45

50
8HP
8HP

27

Appearance

18HP

AP1802FT8

50.4

56.5

10HP

8HP

30

Corresponding HP

Combined model

Cooling capacity (kW)
Heating capacity (kW)

Combined outdoor units

No. of connectable indoor units

MMY-

20HP 24HP

AP2002FT8

56

63
10HP
10HP

33

AP2402FT8

68

76.5
8HP
8HP
8HP

40

26HP

AP2602FT8

73

81.5

10HP

8HP
8HP

43

3. FS units (Flow selector units)

Model name

RBM-Y1122FE

RBM-Y1802FE

RBM-Y2802FE

Total capacity for indoor unit : Below 11.2 kw

Total capacity for indoor unit : 11.2 to below 18.0 kw

Total capacity for indoor unit : 18.0 to 28.0 kw or less

*Accessory part (Sold separately): Connection cable kit (RBC-CBK15FE) up to 15m.

Usage Appearance

4. Branching joints and headers

Model name Usage

Y-shape
branching
joint (*3)

4-branching
header (*4) (*5)

8-branching
header (*4) (*5)

T-shape
branching
joint (For
connection
of outdoor
units)

RBM-BY53FE
RBM-BY103FE
RBM-BY203FE
RBM-BY303FE

RBM-BY53E
RBM-BY103E
RBM-BY203E
RBM-BY303E

RBM-HY1043FE
RBM-HY2043FE

RBM-HY1043E

RBM-HY2043E
RBM-HY1083FE
RBM-HY2083FE

RBM-HY1083E

RBM-HY2083E

RBM-BT13FE

Indoor unit capacity code (*1) : Total below 6.4
Indoor unit capacity code (*1) : Total 6.4 or more and below 14.2
Indoor unit capacity code (*1) : Total 14.2 or more and below 25.2
Indoor unit capacity code (*1) : Total 25.2 or more
Indoor unit capacity code (*1) : Total below 6.4
Indoor unit capacity code (*1) : Total 6.4 or more and below 14.2
Indoor unit capacity code (*1) : Total 14.2 or more and below 25.2
Indoor unit capacity code (*1) : Total 25.2 or more
Indoor unit capacity code (*1) : Total below 14.2
Indoor unit capacity code (*1) : Total 14.2 or more and below 25.2
Indoor unit capacity code (*1) : Total below 14.2
Indoor unit capacity code (*1) : Total 14.2 or more and below 25.2
Indoor unit capacity code (*1) : Total below 14.2
Indoor unit capacity code (*1) : Total 14.2 or more and below 25.2
Indoor unit capacity code (*1) : Total below 14.2
Indoor unit capacity code (*1) : Total 14.2 or more and below 25.2

1 set 4 types T-shape joint pipes as described below:
The required quantity is arranged and they are combined on site.

Connection piping
Balance pipe
Piping at liquid side
Piping at discharge gas side
Piping at suction gas side

Corresponded dia. (mm)

9.5

12.7 to 22.2

19.1 to 28.6

22.2 to 38.1

28HP

AP2802FT8

78.5
88

10HP
10HP

8HP

47

Q'ty

1
1
1
1

AP3002FT8

For 3

piping

For 2

piping (*6)

For 3
piping
For 2

piping (*6)

For 3
piping

For 2

piping (*6)

30HP

84

95
10HP
10HP
10HP

48

Appearance

*1 ``Capacity code`` can be obtained from page 8. (Capacity code is not actual capacity)
*2 If total capacity code value of indoor unit exceeds that of outdoor unit, apply capacity code of outdoor unit.
*3 When using Y-shape branching joint for 1st branching, select according to the capacity code of outdoor unit.
*4 Max. capacity code of 6.0 in total can be connected.
*5 If capacity code of outdoor unit is 26 or more, it is not used for the 1st branching.
*6 This is used for branching to ``cooling only`` indoor unit.
*7 Model names for outdoor and indoor units described in this guide are shortened because of the space constraint.

12

Super Heat Recovery Multi System Outdoor Unit

50Hz

HP (Capacity

code)

8HP ( 8)

10HP (10)

12HP (12)

16HP (16)

18HP (18)

20HP (20)

24HP (24)

26HP (26)

28HP (28)

30HP (30)

*

Model name

MMY-

MAP0802HT8

MAP1002HT8

MAP1202HT8

No. of

combined

units

1

1

1

2

2

2

12HP unit is for stand-alone use only.

Inverter

8 HP

MMY-

MAP0802FT8

MAP0802FT8

MAP0802FT8

MAP0802FT8

MAP0802FT8

MAP0802FT8

Outdoor unit combination with a 12HP unit is not available.

1. Allocation standard of model name

MMY- M AP T 8F

Used

Qty

1

2

1

3

2

1

Power supply specifications, 3 380-415 V, 50Hz ....... 8

T : Capacity variable unit

F : Heat recovery

Development series No.

Capacity rank HP x 10

New refrigerant R410A

M : Single module unit, No mark : Combined Model name

Modular Multi

Inverter

10 HP
MMY-

MAP1002FT8

MAP1002FT8

MAP1002FT8

MAP1002FT8

MAP1002FT8

MAP1002FT8

Used

Qty

1

1

2

1

2

3

Inverter

12 HP
MMY-

MAP1202FT8*

Used

Qty

1

4

2. Rated conditions (Rated mode : Condition)

Cooling : Indoor air temperature 27 DB/19 WB, Outdoor air temperature 35 DB
Heating : Indoor air temperature 20

DB, Outdoor air temperature 7 DB/6 WB

3. Compatibility with 1 Series

Oudoor unit MMY-

1 Series

-MAP**1FT8

FS unit

1 Series

RBM-Y***1E

2 Series

RBM-Y***2E

OK

OK

* 2 series outdoor units cannot be used with 1 series outdoor units.

2 Series*

-MAP**2FT8

NG

OK

13

4

4. Indoor unit

*1) China market only *2) European market only *3) Korea market only

Type Appearance Model name Capacity rank Capacity code

009 type
012 type
015 type
018 type
024 type
027 type
030 type
036 type
048 type
056 type
007 type
009 type
012 type
015 type
018 type
024 type
027 type
030 type

1)

048 type
007 type
009 type
012 type
015 type
018 type
024 type
015 type
018 type
024 type
007 type
009 type
012 type
015 type
018 type

1)

007 type

*

1)

009 type

*

1)

012 type

*

1)

015 type

*

1)

018 type

*

007 type
009 type
012 type
015 type
018 type
007 type
009 type
012 type
015 type
018 type
024 type
027 type
030 type
036 type
048 type
056 type
018 type
024 type
027 type
036 type
048 type
072 type
096 type
015 type
018 type
024 type
027 type
036 type
048 type

4-way Air Discharge
Cassette Type

2-way Air Discharge
Cassette Type

1-way Air Discharge
Cassette Type

Slim Duct Type

Concealed Duct
Standard Type

Concealed Duct
High Static
Pressure Type

Under Ceilling Type

MMU-AP0091H
MMU-AP0121H
MMU-AP0151H
MMU-AP0181H
MMU-AP0241H
MMU-AP0271H
MMU-AP0301H
MMU-AP0361H
MMU-AP0481H
MMU-AP0561H
MMU-AP0071WH
MMU-AP0091WH
MMU-AP0121WH
MMU-AP0151WH
MMU-AP0181WH
MMU-AP0241WH
MMU-AP0271WH
MMU-AP0301WH
MMU-AP0481WH*
MMU-AP0071YH
MMU-AP0091YH
MMU-AP0121YH
MMU-AP0151SH
MMU-AP0181SH
MMU-AP0241SH
MMU-AP0152SH
MMU-AP0182SH
MMU-AP0242SH
MMD-AP0071SPH
MMD-AP0091SPH
MMD-AP0121SPH
MMD-AP0151SPH
MMD-AP0181SPH
MMD-AP0071SPH(SH)-C
MMD-AP0091SPH(SH)-C
MMD-AP0121SPH(SH)-C
MMD-AP0151SPH(SH)-C
MMD-AP0181SPH(SH)-C
MMD-AP0071SPH-K
MMD-AP0091SPH-K
MMD-AP0121SPH-K
MMD-AP0151SPH-K
MMD-AP0181SPH-K

3)

*

3)

*

3)

*

3)

*

3)

*
MMD-AP0071BH
MMD-AP0091BH
MMD-AP0121BH
MMD-AP0151BH
MMD-AP0181BH
MMD-AP0241BH
MMD-AP0271BH
MMD-AP0301BH
MMD-AP0361BH
MMD-AP0481BH
MMD-AP0561BH
MMD-AP0181H
MMD-AP0241H
MMD-AP0271H
MMD-AP0361H
MMD-AP0481H
MMD-AP0721H
MMD-AP0961H
MMC-AP0151H
MMC-AP0181H
MMC-AP0241H
MMC-AP0271H
MMC-AP0361H
MMC-AP0481H

1.00

1.25

1.70

2.00

2.50

3.00

3.20

4.00

5.00

6.00

0.8

1.00

1.25

1.70

2.00

2.50

3.00

3.20

5.00

0.80

1.00

1.25

1.70

2.00

2.50

1.70

2.00

2.50

0.80

1.00

1.25

1.70

2.00

0.80

1.00

1.25

1.70

2.00

0.80

1.00

1.25

1.70

2.00

0.80

1.00

1.25

1.70

2.00

2.50

3.00

3.20

4.00

5.00

6.00

2.00

2.50

3.00

4.00

5.00

8.00

10.00

1.70

2.00

2.50

3.00

4.00

5.00

Cooling

capacity (kW)

2.8

3.6

4.5

5.6

7.1

8.0

9.0

11.2

14.0

16.0

2.2

2.8

3.6

4.5

5.6

7.1

8.0

9.0

14.0

2.2

2.8

3.6

4.5

5.6

7.1

4.5

5.6

7.1

2.2

2.8

3.6

4.5

5.6

2.2

2.8

3.6

4.5

5.6

2.2

2.8

3.6

4.5

5.6

2.2

2.8

3.6

4.5

5.6

7.1

8.0

9.0

11.2

14.0

16.0

5.6

7.1

8.0

11.2

14.0

22.4

28.0

4.5

5.6

7.1

8.0

11.2

14.0

Heating

capacity (kW)

3.2

4.0

5.0

6.3

8.0

9.0

10.0

12.5

16.0

18.0

2.5

3.2

4.0

5.0

6.3

8.0

9.0

10.0

16.0

2.5

3.2

4.0

5.0

6.3

8.0

5.0

6.3

8.0

2.5

3.2

4.0

5.0

6.3

2.5

3.2

4.0

5.0

6.3

2.5

3.2

4.0

5.0

6.3

2.5

3.2

4.0

5.0

6.3

8.0

9.0

10.0

12.5

16.0

18.0

6.3

8.0

9.0

10.0

16.0

25.0

31.5

5.0

6.3

8.0

9.0

12.5

16.0

14

4. Indoor unit

*1) China market only *2) European market only

Type Appearance Model name Capacity rank Capacity code

007 type
009 type
012 type
015 type
018 type
024 type
007 type
009 type
012 type
007 type
009 type
012 type
015 type
018 type
024 type
007 type
009 type
012 type
015 type
018 type
024 type
015 type
018 type
024 type
027 type
036 type
048 type
056 type

High Wall Type
(1 series)

High Wall Type
(2 series)

Floor Standing
Cabinet Type

Floor Standind
Concealed Type

Floor Standind Type

MMK-AP0071H
MMK-AP0091H
MMK-AP0121H
MMK-AP0151H
MMK-AP0181H
MMK-AP0241H
MMK-AP0072H*
MMK-AP0092H*
MMK-AP0122H*
MML-AP0071H
MML-AP0091H
MML-AP0121H
MML-AP0151H
MML-AP0181H
MML-AP0241H
MML-AP0071H
MML-AP0091H
MML-AP0121H
MML-AP0151H
MML-AP0181H
MML-AP0241H
MMF-AP0151H
MMF-AP0181H
MMF-AP0241H
MMF-AP0271H
MMF-AP0361H
MMF-AP0481H
MMF-AP0561H

2)

2)

2)

0.80

1.00

1.25

1.70

2.00

2.50

0.80

1.00

1.25

0.80

1.00

1.25

1.70

2.00

2.50

0.80

1.00

1.25

1.70

2.00

2.50

1.70

2.00

2.50

3.00

4.00

5.00

6.00

*3) Korea market only

Cooling

capacity (kW)

2.2

2.8

3.6

4.5

5.6

7.1

2.2

2.8

3.6

2.2

2.8

3.6

4.5

5.6

7.1

2.2

2.8

3.6

4.5

5.6

7.1

4.5

5.6

7.1

8.0

11.2

14.0

16.0

Heating

capacity (kW)

2.5

3.2

4.0

5.0

6.3

8.0

2.5

3.2

4.0

2.5

3.2

4.0

5.0

6.3

8.0

2.5

3.2

4.0

5.0

6.3

8.0

5.0

6.3

8.0

9.0

10.0

16.0

18.0

4

15

5. Remote controller

4

Name

Model

name

Appearance Application Function

SET DATA

UNIT No.

SETTING

R.C. No.

TEST

CL

SET

Wired remote controllerSimple wired remote controllerWireless remote controller kit

TEST

SETTING

UNIT

ûC
ûF

CODE No.

Connected to indoor unit

Wired remote

controller

Wired remote controller
(In case of control by
2 remote controllers)

Connected to indoor unit

Start / Stop
Mode Change
Temperature setting
Change of air flow
Timer function

1

On or off timer operation, setting in 30 minute
increments.
Automatic Off function.
Combined with the weekly timer, weekly

2

schedule operation can be operated.

Filter sign
Displays automatically maintenance time of
indoor filter.
Filter sign flashes.
Self-diagnosis function
Pressing ``CHECK`` button displays cause of
fault on the check code.
Control by 2 remote controllers is available.
Two remote controllers can be connected to
one indoor unit. The indoor unit can be
separately operated from a different location.

Start / Stop
Temperature setting
Change of air flow
Check code display

RBC-AS21E/RBC-AS21E2 RBC-AMT21E/RBC-AMT31E

TCB-AX21U(W)-E

TCB-AX21U(W)-E2

RBC-AX22CE

RBC-AX22CE2

Simple remote controller

Connected to indoor unit

Start / Stop
Mode change
Temperature setting
Change of air flow
Timer function
On or off timer operation, setting in 30 minute
increments.
Automatic Off function.
Control by 2 remote controllers is available.
Two wireless remote controllers can operate
one indoor unit. The indoor unit can be
separately operated from a different location.
Check code display
TCB-AX21U(W)-E2
(for 4-way airdischarge cassette)
RBC-AX22CE2
(for under ceiling)
TCB-AX21-E2
(for other units except for the concealed duct
high static pressure)

16-1

16

TCB-AX21E

TCB-AX21E2

Name

Model

name

Appearance Application Performance

Weekly timer

RBC-EXW21E

RBC-EXW21E2

PROGRAM1

PROGRAM2

PROGRAM3

WEEKLY TIMER

SuMoTuWeTh FrSa

ERROR

Connected to central

remote controller or

wired remote controller

Wired

remote controller

Outdoor unit

Central

remote controller

Weekly

timer

Weekly

timer

Weekly schedule operation

1

Setting different start / stop time for each
day of the week

2

ON / OFF can be set 3 times
a day.

ON

8:00 12:00 13:00 18:00 19:00 21:00

3

``CHECK`` ``PROGRAM`` ``DAY``

OFF ON OFF ON OFF

button copying of settings easy.

4

Two different schedules for a
week can be specified.
(Summer schedule and winter
schedule, etc.)

5

``CANCEL`` ``DAY`` button enables
holiday setting.

6

If power supply fails, the setting
contents are stored in the memory for
100 hours.

4

ZONE

ALL
ZONE
GROUP

1234

SET DATA

SETTING

SELECT ZONE

TCB-SC642TLE

TCB-SC642TLE2

TEST

UNIT No.

R.C.

No.

SET

CL

Central remote controller

GROUP

CODE

No.

Connected to outdoor unit,

indoor unit

Outdoor

unit

Central

remote controller

Central
remote

controller

Indoor

remote controller

Individual control up to 64 indoor units.

Individual control for max. 64 indoor
units divided into 4 zones.

Up to 16 indoor units for each
zone

Up to 16 outdoor header units are
connectable.

Four selectable central control settings to
restrict individual remote controller
operations.

Setting for one of 1 to 4 zones is
available.

Can be used with other central control
devices (Up to 10 central control
devices with in one control circuit)

Two selectable control modes

Central controller mode
Remote controller mode

Setting of simultaneous ON/OFF 3
times for each day of the week
combined with a weekly timer.

16-2

17

Name

Model

name

Appearance Application Performance

TCB-CC163TLE2

ON-OFF controller

Connected to outdoor unit,

indoor unit

Header

ON-OFF
controller

ON-OFF

controller

Outdoor unit

remote controller

Follower

Outdoor unit

Indoor

Individual control up to 16 indoor units.

Setting of simultaneous ON-OFF 3
times for each day of the week when
combined with a weekly timer.

Connected to 2 remote controllers is
possible.

16-3

18

5

Capacity compensation chart

17

18

5

Capacity compensation chart

Foreword

Cooling/heating capacity characteristics

1. Cooling capacity calculation method :
Required cooling capacity = Cooling capacity x Factor ( ) kW

1

Indoor air wet bulb temperature vs. capacity correction value

1.2

1.1

1.0

0.9

5

0.8
15

Capacity correction value

20 24

Indoor air wet bulb temp. ( )

2

Outdoor air dry bulb temperature vs.capacity correction value

1.2

1.1

1.0

0.9

-

50 5 1015202530354043

Capacity correction value

Outdoor air dry bulb temp. ( )

3

Air flow variation ratio of indoor unit vs. capacity correction (For concealed duct type only)

1.1

1.0

0.9
80 90 100 110 120

Capacity correction value

1: Coefficient to use for the correction of the outdoor unit capacity when the total capacity of

*

Air flow variation ratio (%)

the indoor units are not equal to the outdoor unit capacity.

19

5

4

Connecting pipe length and lift difference between indoor and outdoor units vs. capacity correction value

Outdoor unit (8 to 30HP)

50
40
30
20

%100

10

0

-

10

-

20

-

30

Height of outdoor unit H (m)

98

20 30 40 50 60 70 80 90

100

Pipe length (Equivalent length) L (m)

96

94

92

908488

ho l

86

Outdoor unit

,

L

is the longest one of

,

(l

,

o

H = ho +
(Largest one of ha, hb, and hc)

82

80

78

100 110 120 130 140 150

o + l,a, l,o + l,b, l,o + l,c)

76

5

Correction of outdoor unit diversity

hb

hc

120

100

80

60

40

Correction (%)

20

20 40 60 80 100 120 135

0

ha

,

a

l

A

,

b

l

B

,

l

c

C

Standard capacity ratio

Indoor units total capacity ratio (%)

Indoor unit

1: Coefficient to use for the correction of the outdoor unit capacity when the total capacity of

*

the indoor units are not equal to the outdoor unit capacity.

20

2. Heating capacity calculation method :
Required heating capacity = Heating capacity x Factor ( ) kW

1

Indoor air dry bulb temperature vs. capacity correction value

1.2

1.1

1.0

0.9

0.8
15 20 24

Capacity correction value

Indoor air dry bulb temp. ( )

2

Outdoor air wet bulb temperature vs. capacity correction value

5

1.2

1.1

1.0

0.9

0.8

0.7

0.6

0.5

-

15

Capacity correction value

3

Air flow variation ratio of indoor unit vs. capacity correction (For concealed duct type only)

-

10

-

50 5 1015

Outdoor air wet bulb temp. (

)

1.1

1.0

0.9
80 90 100 110 120

Capacity correction value

1: Coefficient to use for the correction of the outdoor unit capacity when the total capacity of

*

Air flow variation ratio (%)

the indoor units are not equal to the outdoor unit capacity.

2: Refer to item 3 on the next page.

*

21

0

80

60

40

20

20 40 60 80 100 120 135

120

100

Outdoor unit

Indoor unit

L, is the longest one of
(l,o + l,a, l,o + l,b, l,o + l,c)

H = ho +
(Largest one of ha, hb, and hc)

A

ha

hb

hc

ho l,o

l,a

l,b

l,c

B

C

100 2030405060708090

100 110 120 130 140 150

-

20

-

10

0

10

20

30

40

50

-

30

100%

92

93

94

96

97

98

99

91

95

5

4

Connecting pipe length and lift difference between indoor and outdoor units vs. capacity correction value

Outdoor unit (8 to 30HP)

Height of outdoor unit H (m)

Pipe length (Equivalent length) L (m)

5

Correction of outdoor unit diversity

*

the indoor units are not equal to the outdoor unit capacity.

1: Coefficient to use for the correction of the outdoor unit capacity when the total capacity of

Correction (%)

Indoor units total capacity ratio (%)

Standard capacity ratio

3. Capacity correction in case of frost on the outdoor heat exchanger when in heating

Correct the heating capacity when frost can be found on the outdoor heat exchanger.
Heating capacity =Capacity after correction of outdoor unit Correction value of capacity resulted from frost
(Capacity after correction of outdoor unit : Heating capacity calculated in the above item 2.)

22

6

Capacity correction in case of frost on the outdoor heat exchanger

1.0

0.9

0.8

Capacity correction value

-

15

-

10

Outdoor air wet bulb temp. (

-

50 5 10

)

4. Capacity calculation for each indoor unit

Capacity for each indoor unit
= Capacity after correction of outdoor unit x

Required standard capacity of indoor unit
Total value of standard indoor unit capacity

5. Operating temperature range

In cooling time

45

40

35

30

25

20

15

10

5

0

Outdoor air dry bulb temp. ( )

-

5

-

10

Continuously

operable

range

Usable range

(in pull down)

3025 28201510

Indoor air wet bulb temp. ( )

)

-

Outdoor air wet bulb temp. (

-

-

In heating time

20

15

10

5

0

-

5

10

15

20

5 1015202530

Indoor air dry bulb temp. ( )

Continuously

operable

Usable range

(in warming-up)

range

* The unit can be operated even if the outdoor temperature goes below -20 , however you must note that the war­ ranty only covers down to -15
* When outdoor air temperature falls to below -15
* When outdoor temperature goes out of the specified range

this is because operation beyond this temperature is outside of specification.

, it may shorten the lifespan of the product.

`` or `` mark is indicated on the remote control-

ler display and the required operation will stop.

`` & `` : When heating operation
`` `` : When cooling operation

5

[Notice]

This indication is not a failure.
When outdoor temperature goes back to within the specified range,

`` or `` disappear and normal operation

will start.
Operation stops because the concurrent operation can not be kept in the condition, as it is out of specification
for Super HRM.
(Outdoor temp.(DB) <-10
>21

: Cooling,

: Heating)
* Do not use ``Super HRM`` other than for personal usage where the ambient temperature may go down
below -10

. (For example, fresh air intake equipment/Electric device/Food/Animals and plants/Art object)

6. Rated conditions

Cooling :
Indoor air temperature 27

Heating :
Indoor air temperature 20

DB/19.0 WB, Outdoor air temperature 35 DB

DB, Outdoor air temperature 7 DB/6 WB

23

24

6

Piping requirements

25

26

6

Piping requirements

Foreword

1. Allowable length/height difference of refrigerant piping

Height
difference
between
outdoor
units

H3 5m

Height
difference
between
outdoor
and indoor
units

H1 50m

Outdoor Unit

T-shape

branching

Main piping

L1

1st branching
section

Follower Unit

C

Header Unit Follower Unit

A

Branching piping

Connecting piping of
indoor unit

L3

a

ghi j

Indoor unit

Equivalent length corresponded to farthest piping

Equivalent length corresponded to farthest piping after 1st branching

L4 L5 L6 L7LhL8

def

FS unit

lmn

Indoor unit

B

La Lb Lc

LA

Main connecting piping between outdoor units
Length corresponded to farthest piping
between outdoor units

L2

bc

Branching

header

FS unit

LO 25m

L9

FS unit

< Cooling only > < Cooling only >

o

(Header)

k

Lj

Note:
In case of connecting method Ex.2, a large
amount of refrigerant and refrigerant oil may
return to the head unit. Therefore, set the T-shape
joint so that oil does not enter directly

<Ex.1> Header UnitFollower UnitFollower Unit.

<Ex.2> Header UnitFollower UnitFollower Unit

L 150m

pq

Li 50m

(q)

A B C

A B C

Height difference
between
indoor
units

H2 35m

(Upper outdoor unit)

Height difference
between indoor units
in group control by
one FS unit

H4 0.5 m

6

* Allowable length and height difference of refrigerant piping

Total extension of pipe (Liquid pipe, real length)

Farthest piping length L (*1)

Real length

Equivalent length

Max. equivalent length of main piping

Pipe

Length

Equivalent length of farthest piping from 1st branching Li (*1)

Max. real length of indoor unit connecting piping

Max. real length between FS unit and indoor unit (*2)

Max. Equivalent length of outdoor unit connecting piping LO (*1)

Max. real length of outdoor unit connecting piping

Max. equivalent length between FS unit and indoor unit Lj

Max. real length between FS unit and header indoor unit Lh (*2)

Upper outdoor unit

Lower outdoor unit

Upper outdoor unit

Lower outdoor unit

Height

Difference

Height between indoor
and outdoor units H1

Height between indoor units H2

Height between outdoor units H3

Height difference between indoor units in group control by one
FS unit H4

1 : The furthest outdoor unit from 1st branch is to be named C, and furthest indoor unit from 1st branch to be named (q).

*

2 : The supplied connection cable can be used up to 5 m in pipe length between the indoor and FS unit. When the pipe length

*

Allowable value

300 m

125 m

150 m

LA+La+Lb+Lc+L1+L2+L3+L4+L5+L6+L7+L8+9
+a+b+c+d+e+f+g+h+i+j+k+l+m+n+o+p+q

LA+Lc+L1+L3+L4+L5+L6+L7+L8+q

85 m L1

50 m L3+L4+L5+L6+L7+L8+q

30 m a+g, b+h, c+i, d+l, e+m, f+n, j, k

15 m g, h, i, l, m, n, L7+o, L7+L8+p, L7+L8+q

25 m LA+Lc (LA+Lb)

10 m La, Lb, Lc

30 m

15 m

50 m

30 m

35 m

15 m

5 m

0.5 m

L7+L8+q, L7+L8+p

L7+o

-

-

-

-

-

-

between the indoor and FS unit exceeds 5 m, you must use the connection cable kit (RBC-CBK15FE).

* System restrictions

Max. No. of combined outdoor units
Max. capacity of combined outdoor units

Max. No. of connected indoor units

Max. capacity of combined indoor units

1 : MMY-MAP1201HT8 : UP to 120 %

*

84.0 kW
48 units

H2 15m
H2

>

15m

3 units

135% (*1)
105%

Note 1) Combination of outdoor units : Header unit (1 unit) +
Follower unit (0 to 2 units). Header unit is outdoor unit
nearest to the connected indoor units
Note 2) Install the outdoor units in order of capacity.
(Header unit Follower unit 1 Follower unit 2)
Note 3) Refer to outdoor unit combination table in page.6.
Note 4) Piping to indoor units shall be perpendicular to piping to
the head outdoor unit as Ex.1.
Do not connect piping to indoor units in the same
direction of head outdoor unit as Ex.2.

Piping section

27