E10-331
Engineering
Data Book
3 compressors & 3 inverters Super Modular Multi System
< Digest version >
Notice: Toshiba is committed to continuously improving its products to ensure the highest
quality and reliability standard, and to meet local regulations and market requirements.
SMMS-i Data book
Contents
1
2
3
4
Foreword ........................................................................................ 1-1
Safety caution ................................................................................. 2-1
Introduction ..................................................................................... 3-1
System overview ............................................................................ 4-1
4.1.
4.2.
4.3.
4.4.
4.5.
5
OUTLINE OF TOSHIBA SMMS.......................................................................... 4-1
SUMMARY OF SYSTEM EQUIPMENTS........................................................... 4-2
List of product and combined model name......................................................... 4-3
Indoor unit........................................................................................................... 4-5
Remote controller ............................................................................................... 4-6
Basic system configuration ............................................................. 5-1
5.1. Basic systems..................................................................................................... 5-1
5.2. Fresh Air Intake Indoor Unit Type....................................................................... 5-3
6
Equipment selection procedure ...................................................... 6-1
6.1.
6.2.
6.3.
6.4.
6.5.
7
Refrigerant piping design .............................................................. 7-1
7.1.
7.2.
7.3.
7.4.
7.5.
8
Selection flow chart............................................................................................. 6-1
Operational temperature range........................................................................... 6-2
Combination conditions for indoor unit and outdoor unit .................................... 6-2
Cooling/heating capacity characteristics............................................................. 6-3
Selection procedure for fresh air intake indoor unit ............................................ 6-6
WARNINGS ON REFRIGERANT LEAKAGE ..................................................... 7-1
Free branching system ....................................................................................... 7-2
Allowable length/height difference of refrigerant piping ...................................... 7-3
Selection of refrigerant piping ............................................................................. 7-4
Charging requirement with additional refrigerant................................................ 7-5
Part Load performance ................................................................... 8-1
8.1. Single unit ........................................................................................................... 8-1
8.2. Combination........................................................................................................ 8-5
9
Wiring Design ................................................................................. 9-1
9.1.
9.2.
9.3.
9.4.
9.5.
General ............................................................................................................... 9-1
Summary of wiring design .................................................................................. 9-1
Electrical wiring design ....................................................................................... 9-1
Outdoor unit power supply.................................................................................. 9-1
Indoor unit power supply..................................................................................... 9-3
10 Controls ........................................................................................ 10-1
11 Sound characteristics (NC curve) ............................................... 11-1
11.1. Single unit ......................................................................................................... 11-1
11.2. Combination...................................................................................................... 11-3
12 Technical Specifications ............................................................. 12-1
12.1. Outdoor unit ...................................................................................................... 12-1
12.1.1
12.1.2
12.1.3
12.1.4
12.1.5
Specifications ........................................................................................................ 12-1
Dimensional drawing ............................................................................................. 12-9
Connecting diagram ............................................................................................ 12-10
Wiring diagram .................................................................................................... 12-11
Branch header / branch joint ............................................................................... 12-12
12.2. Indoor unit....................................................................................................... 12-13
12.2.1 Specifications ...................................................................................................... 12-13
1
SMMS-i Data book
Foreword
The engineering data book details all relevant data, charts
and drawings to enable you to get the best performance
from the Toshiba Super Modular Multi System i for the
various applications.
The information is aimed to assist you by providing greater
detail of the system and the wider applications that the
system will cover.
1 -1
2
SMMS-i Data book
Safety caution
• Before use, read carefully through the “Safety caution” section to ensure correct operation.
• The important contents concerned to the safety are described in the “Safety Cautions”.
Be sure to keep them. For Indications and their meanings, see the following description.
Explanation of indications
WARNING
Indicates possibilities that a death or serious injury of personnel is caused by an incorrect handling.
CAUTION
Indicates contents that an injury (*1) or property damage (*2) only may be caused when an incorrect work has been executed.
*1: “Injury” means a hurt, a burn, or an electric shock which does not require hospitalization or a long-term going to the hospital.
*2: “Property damage means an enlarged damage concerned to property, or breakage of materials.
• After installation work has finished, check there is no trouble by a test operation, and explain using method and
maintenance method to the customers based on the Owner’s Manual.
Please ask the customers to keep this Installation Manual together with the Owner’s Manual.
WARNING
Ask a shop or a professional dealer to install the air conditioner.
If you will install by yourself, a fire, an electric shock, or water leak is caused.
Take measures so that the refrigerant does not exceed the limit concentration even if it leaks when installing the air conditioner
in a small room.
For the measures not to exceed the limit of concentration, contact the dealer. If the refrigerant leaks and it exceeds the limit of
concentration, an accident of oxygen shortage is caused.
Install the air conditioner at a place which is satisfactorily bearable to weight.
If strength is insufficient, the unit may fall down resulting in human injury.
Perform a specified installation work against a strong wind such as typhoon or earthquake.
If the air conditioner is imperfectly installed, an accident by falling or dropping may be caused.
If refrigerant gas leaks during installation work, ventilate the room.
If the leaked refrigerant gas approaches to fire, noxious gas may generate.
After installation work, confirm that refrigerant gas does not leak.
If refrigerant gas leaks in the room, and approaches to fire such as fan heater, stove or kitchen range, generation of noxious gas may be
caused.
Never recover refrigerant in the outdoor unit.
Be sure to use a refrigerant recovery device to recover refrigerant in reinstallation or repair work.
Recovery of refrigerant in the outdoor unit is unavailable; otherwise a serious accident such as crack or human injury is caused.
A person qualified for the electric work should deal with the electric construction conforming to the regulations of the local
electric company and the Installation Manual. Be sure to use the exclusive circuit.
If there is capacity shortage of the power supply circuit or incomplete installation, a fire or an electric shock is caused.
For cabling, use the specified cables and connect them securely so that external force of cable does not transmit to the
terminal connecting section.
If connection or fixing is incomplete, a fire, etc. may be caused.
Be sure to connect earth wire.
Do not connect earth wire to gas pipe, water pipe, lightning rod, nor earth wire of telephone.
If grounding is incomplete, an electric shock is caused.
CAUTION
Do not install the air conditioner at a place where combustible gas may leak.
If gas leaks and is collected at surrounding the unit, the production of fire may be caused.
Be sure to attach an earth leakage breaker; otherwise an electric shock may be caused.
Using a torque wrench, tighten the flare nut in the specified method.
If the flare nut is exceedingly tightened, the flare nut is broken and a refrigerant leakage may be caused after a long time has passed.
2 -1
2 Safety caution
1. WARNINGS ON REFRIGERANT LEAKAGE
Check of Concentration Limit
The room in which the air conditioner is to be installed
requires a design that in the event of refrigerant gas
leaking out, its concentration will not exceed a set limit.
The refrigerant R410A which is used in the air
conditioner is safe, without the toxicity or combustibility
of ammonia, and is not restricted by laws to be imposed
which protect the ozone layer. However, since it
contains more than air, it poses the risk of suffocation if
its concentration should rise excessively.
Suffocation from leakage of R410A is almost
nonexistent. With the recent increase in the number of
high concentration buildings, however, the installation of
multi air conditioner systems is on the increase because
of the need for effective use of floor space, individual
control, energy conservation by curtailing heat and
carrying power etc.
Most importantly, the multi air conditioner system is able
to replenish a large amount of refrigerant compared
with conventional individual air conditioners. If a single
unit of the multi conditioner system is to be
installed in a small room, select a suitable model and
installation procedure so that if the refrigerant
accidentally leaks out, its concentration does not reach
the limit (and in the event of an emergency, measures
can be made before injury can occur).
In a room where the concentration may exceed the limit,
create an opening with adjacent rooms, or install
mechanical ventilation combined with a gas leak
detection device.
The concentration is as given below.
NOTE 2:
The standards for minimum room volume are as follows.
(1) No partition (shaded portion)
(2) When there is an effective opening with the adjacent
room for ventilation of leaking refrigerant gas
(opening without a door, or an opening 0.15% or
larger than the respective floor spaces at the top or
bottom of the door).
Outdoor unit
Refrigerant piping
Indoor unit
(3) If an indoor unit is installed in each partitioned room
and the refrigerant tubing is interconnected, the
smallest room of course becomes the object. But
when a mechanical ventilation is installed
interlocked with a gas leakage detector in the
smallest room where the density limit is exceeded,
the volume of the next smallest room becomes the
object.
Refrigerant piping
Total amount of refrigerant (kg)
Min. volume of the indoor unit installed room (m3)
dConcentration limit (kg/m3)
Outdoor unit
Very
small
room
The concentration limit of R410A which is used in multi
air conditioners is 0.3kg/m3.
e.g., charged
amount (10kg)
Room A Room B
Outdoor unit
e.g.,
charged amount (15kg)
Room C Room D Room E
Indoor unit
Small
room
Medium
room
Large room
Mechanical ventilation device - Gas leak detector
NOTE 3:
The minimum indoor floor area compared with the
amount of refrigerant is roughly as follows: (When the
ceiling is 2.7m high)
40
Min. indoor floor area
NOTE 1:
If there are 2 or more refrigerating systems in a single
refrigerating device, the amounts of refrigerant should
be as charged in each independent device.
Important
Room F
Indoor unit
For the amount of charge in this example:
The possible amount of leaked refrigerant gas in
rooms A, B and C is 10kg.
The possible amount of leaked refrigerant gas in
rooms D, E and F is 15kg.
m² 35
30
25
Range below the
density limit of
0.3 kg/m3
(countermeasur
es not needed)
20
Range above
the density limit
of 0.3 kg/m3
(countermeasur
es needed)
15
10
5
0
10
20
30
kg
Total amount of refrigerant
2 -2
3
SMMS-i Data book
Introduction
The next-generation ‘ -quality’ trio
Dedication to innovation and advanced intelligence fosters the imaginative
creativity with which we deliver total value in air conditioning systems.
innovation, intelligence and imagination
Industry-leading energy savings
(COP/EER)
Energy-efficient performance
for greater environmental
friendliness
6.38
COP
5.50
6.19
EER
5.60
7
6
5
4.42
Rated
4
4.06
3.44
50% load
3.21
8HP : MMY-MAP0804HT8-E
16HP : MMY-MAP1604HT8-E
(HP)
8HP
8HP
16HP
16HP
3
2
*European models
Industry-leading pipe length for greater flexibility
ry
Indust
No.1
Farthest equivalent length
* As of December 2009 (according to in-house studies)
Greater support for height differences between indoor units
ry
Indust
No.1
Single
system
Height between
indoor units
*Calculated at 3.5 meters per floor
3 -1
* As of December 2009 (according to in-house studies)
3 Introduction
The industry first!
Introducing high-performance outdoor units
with 3 compressors * 1 and 3 inverters
NEW
New DC twin-rotary compressor
Leading the world with Toshiba’s own new DC twin-rotary compressor
Improved motor
efficiency
Newly designed
compression path
Reduce 40%
Greater
parts precision
New DC twin-rotary compressor
(16HP Outdoor unit)
Compact and powerful magnetic rotor
Fast-calculating vector-controlled inverter
NEW
All-inverter control realizes finer control over operation to match the load
on the system
Smooth sine curve
Circuit board
(14HP, 16HP)
stry
The indu *2
1st!
Infinity variable control
Ultra-precise 0.1 Hz control over compressor
rotation speed
Current-SMMS
New-SMMSi
*1 14HP and 16HP models *2 As of December 2009 (according to in-house studies)
3 -2
4
SMMS-i Data book
System overview
1. OUTLINE OF TOSHIBA SUPER MMS
(Super Modular Multi System)
Shortest route design by free branching
The Combination of line and header branching is highly flexible.
Following 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 MMS.
Line branching
Outdoor unit
Branching joint
8F
Indoor unit
Header branching
Outdoor unit
Branching
header
7F
Indoor unit
Line + Header branching
Header
2F
Outdoor unit
Branching joint
Indoor
unit
Line branching after header branching
1F
Outdoor unit
Indoor unit
Header branching after header branching
Outdoor unit
Header
TOSHIBA
Only
Allowable pipe length:
235m equivalent length
1st branching
section
Height difference
between indoor
unit and indoor unit:
40m
TOSHIBA
Only
Outdoor
unit
Height difference between
indoor
unit and outdoor unit: 70m (*1)
Header
Branching joint
From 1st branching to the furthest
indoor unit: 90m (*2)
*1: If the height different between(H2) indoor
units exceeds 3m, set below 50m.
*2 : If the height different between(H1) indoor
and outdoor units exceeds 3m, set below
65m.
Header
Indoor unit
4 -1
4 System overview
2. SUMMARY OF SYSTEM EQUIPMENTS
Equipment
Outdoor units
* SMMS outdoor unit
Inverter unit
10HP
Corresponding HP
Appearance
5HP*
6HP*
8HP
12HP
14HP
16HP
Heat
MMY- MAP0501HT8-E MAP0601HT8-E MAP0804HT8-E MAP1004HT8-E MAP1204HT8-E MAP1404HT8-E MAP1604HT8-E
Model pump
name Cooling
MMY- MAP0501T8-E MAP0601T8-E MAP0804T8-E MAP1004T8-E MAP1204T8-E MAP1404T8-E MAP1604T8-E
only
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
No. of connectable
8
10
13
16
20
23
27
indoor units
Combination of outdoor units
Standard model
Corresponding HP
18HP
MMY- AP1814HT8-E
Combined
Model
MMY- AP1814T8-E
Cooling capacity (kW)
50.4
Heating capacity (kW)
56.5
10HP
8HP
Combined outdoor units
–
–
No. of connectable
30
indoor units
20HP
AP2014HT8-E
AP2014T8-E
56.0
63.0
10HP
10HP
–
–
Corresponding HP
34HP
MMY- AP3414HT8-E
Combined
Model
MMY- AP3414T8-E
Cooling capacity (kW)
96.0
Heating capacity (kW)
108.0
12HP
12HP
Combined outdoor units
10HP
–
No. of connectable
48
indoor units
36HP
AP3614HT8-E
AP3614HT8-E
101.0
113.0
12HP
12HP
12HP
–
22HP
AP2214HT8-E
AP2214T8-E
61.5
69.0
12HP
10HP
–
–
33
24HP
AP2414HT8-E
AP2414T8-E
68.0
76.5
12HP
12HP
–
–
37
38HP
AP3814HT8-E
AP3814T8-E
106.5
119.5
16HP
12HP
10HP
–
48
26HP
AP2614HT8-E
AP2614T8-E
73.0
81.5
16HP
10HP
–
–
40
43
40HP
AP4014HT8-E
AP4014T8-E
112.0
127.0
16HP
12HP
12HP
–
48
28HP
AP2814HT8-E
AP2814T8-E
78.5
88.0
16HP
12HP
–
–
47
42HP
AP4214HT8-E
AP4214T8-E
118.0
132.0
16HP
14HP
12HP
–
48
30HP
AP3014HT8-E
AP3014T8-E
85.0
95.0
16HP
14HP
–
–
44HP
AP4414HT8-E
AP4414T8-E
123.5
138.0
16HP
16HP
12HP
–
48
32HP
AP3214HT8-E
AP3214T8-E
90.0
100.0
16HP
16HP
–
–
48
46HP
AP4614HT8-E
AP4614T8-E
130.0
145.0
16HP
16HP
14HP
–
48
48
48HP
AP4814HT8-E
AP4814T8-E
135.0
150.0
16HP
16HP
16HP
–
48
48
High efficiency model
Corresponding HP
16HP
MMY- AP1624HT8-E
Combined
Model
MMY- AP1624T8-E
Cooling capacity (kW)
45.0
Heating capacity (kW)
50.0
8HP
8HP
Combined outdoor units
–
–
No. of connectable
27
indoor units
24HP
AP2424HT8-E
AP2424T8-E
68.0
76.5
8HP
8HP
8HP
–
Corresponding HP
38HP
MMY- AP3824HT8-E
Combined
Model
MMY- AP3824T8-E
Cooling capacity (kW)
106.5
Heating capacity (kW)
119.5
10HP
10HP
Combined outdoor units
10HP
8HP
No. of connectable
48
indoor units
40HP
AP4024HT8-E
AP4024T8-E
112.0
127.0
10HP
10HP
10HP
10HP
26HP
AP2624HT8-E
AP2624T8-E
73.0
81.5
10HP
8HP
8HP
–
40
28HP
AP2824HT8-E
AP2824T8-E
78.5
88.0
10HP
10HP
8HP
–
43
42HP
AP4224HT8-E
AP4224T8-E
118.0
132.0
12HP
10HP
10HP
10HP
48
30HP
AP3024HT8-E
AP3024T8-E
85.0
95.0
10HP
10HP
10HP
–
47
48
44HP
AP4424HT8-E
AP4424T8-E
123.5
138.0
12HP
12HP
10HP
10HP
48
32HP
AP3224HT8-E
AP3224T8-E
90.0
100.0
8HP
8HP
8HP
8HP
48
46HP
AP4624HT8-E
AP4624T8-E
130.0
145.0
12HP
12HP
12HP
10HP
48
34HP
AP3424HT8-E
AP3424T8-E
96.0
108.0
10HP
8HP
8HP
8HP
36HP
AP3624HT8-E
AP3624T8-E
101.0
113.0
10HP
10HP
8HP
8HP
48
48
48HP
AP4824HT8-E
AP4824T8-E
135.0
150.0
12HP
12HP
12HP
12HP
48
48
Branching joints and headers
Usage (Classification according to indoor unit capacity code (*1))
Model name
Y-shape branching joint
4-branching header
8-branching header
(*3)
(*4)
(*4) (*5)
Branching joint for connection
of outdoor units
(1set of 1type of Y-shape joint
pipe and 2types of T-joint pipes
as described right.)
*1
*2
*3
*4
*5
Appearance
RBM-BY55E
Total below 6.4
RBM-BY105E
Total 6.4 or more and below 14.2
(*2)
RBM-BY205E
Total 14.2 or more and below 25.2
(*2)
RBM-BY305E
Total 25.2 or more
(*2)
RBM-HY1043E Total below 14.2
Max.4 branches
RBM-HY2043E Total 14.2 or more and below 25.2
RBM-HY1083E Total below 14.2
Max.8 branches
RBM-HY2083E Total 14.2 or more and below 25.2
Usage
Piping at gas side (Y-shape)
RBM-BT14E
RBM-BT24E
Total below 26
Total 26 or more
ø31.8
ø38.1
ø28.6
ø25.4
Piping at liquid side (T-shape) Balance pipe (T-shape)
ø19.1
ø9.5
ø38.1
ø28.6
ø19.1
ø19.1
ø9.5
ø22.2
ø22.2
ø9.5
ø9.5
ø22.2
ø9.5
“Capacity code” can be obtained by the lists on next page and after the next page.(Capacity code is not actual capacity.)
If total capacity code value of indoor unit exceeds that of outdoor unit, apply capacity code of outdoor unit.
When using Y-shape branching joint for 1st branching, select according to the capacity code of the outdoor unit.
Max. capacity code of 6.0 in total can be connected.
If capacity code of outdoor unit is 26 or more, it is not used for 1st branching.
4 -2
ø9.5
4 System overview
3. List of product and combined model name
Heat Pump model
HP
No. of
Model name
Inverter 5HP Used Inverter 6HP Used Inverter 8HP Used Inverter 10HP Used Inverter 12HP Used Inverter 14HP Used Inverter 16HP Used
(Capacity
combined
MMYQty
MMYQty
MMYQty
MMYQty
MMYQty
MMYQty
MMYQty
MMYunits
code)
Standard model
5HP(5)*
MAP0501HT8-E
1
MAP0501HT8-E
1
6HP(6)*
MAP0601HT8-E
1
MAP0601HT8-E
1
8HP(8)
MAP0804HT8-E
1
MAP0804HT8-E
1
10HP(10)
MAP1004HT8-E
1
MAP1004HT8-E
1
12HP(12)
MAP1204HT8-E
1
MAP1204HT8-E
1
14HP(14)
MAP1404HT8-E
1
MAP1404HT8-E
1
16HP(16)
MAP1604HT8-E
1
MAP1604HT8-E
1
18HP(18)
AP1814HT8-E
2
MAP0804HT8-E
1
MAP1004HT8-E
1
20HP(20)
AP2014HT8-E
2
MAP1004HT8-E
2
22HP(22)
AP2214HT8-E
2
MAP1004HT8-E
1
MAP1204HT8-E
1
24HP(24)
AP2414HT8-E
2
MAP1204HT8-E
2
26HP(26)
AP2614HT8-E
2
MAP1004HT8-E
1
MAP1604HT8-E
1
28HP(28)
AP2814HT8-E
2
MAP1204HT8-E
1
MAP1604HT8-E
1
30HP(30)
AP3014HT8-E
2
MAP1404HT8-E
1
MAP1604HT8-E
1
32HP(32)
AP3214HT8-E
2
MAP1604HT8-E
2
34HP(34)
AP3414HT8-E
3
MAP1004HT8-E
1
MAP1204HT8-E
2
36HP(36)
AP3614HT8-E
3
MAP1204HT8-E
3
38HP(38)
AP3814HT8-E
3
MAP1004HT8-E
1
MAP1204HT8-E
1
MAP1604HT8-E
1
40HP(40)
AP4014HT8-E
3
MAP1204HT8-E
2
MAP1604HT8-E
1
42HP(42)
AP4214HT8-E
3
MAP1204HT8-E
1
MAP1404HT8-E
1
MAP1604HT8-E
1
44HP(44)
AP4414HT8-E
3
MAP1204HT8-E
1
MAP1604HT8-E
2
46HP(46)
AP4614HT8-E
3
MAP1404HT8-E
1
MAP1604HT8-E
2
48HP(48)
AP4814HT8-E
3
MAP1604HT8-E
3
High efficiency model
16HP(16)
AP1624HT8-E
2
MAP0804HT8-E
2
24HP(24)
AP2424HT8-E
3
MAP0804HT8-E
3
26HP(26)
AP2624HT8-E
3
MAP0804HT8-E
2
MAP1004HT8-E
1
28HP(28)
AP2824HT8-E
3
MAP0804HT8-E
1
MAP1004HT8-E
2
30HP(30)
AP3024HT8-E
3
MAP1004HT8-E
3
32HP(32)
AP3224HT8-E
4
MAP0804HT8-E
4
34HP(34)
AP3424HT8-E
4
MAP0804HT8-E
3
MAP1004HT8-E
1
36HP(36)
AP3624HT8-E
4
MAP0804HT8-E
2
MAP1004HT8-E
2
38HP(38)
AP3824HT8-E
4
MAP0804HT8-E
1
MAP1004HT8-E
3
40HP(40)
AP4024HT8-E
4
MAP1004HT8-E
4
42HP(42)
AP4224HT8-E
4
MAP1004HT8-E
3
MAP1204HT8-E
1
44HP(44)
AP4424HT8-E
4
MAP1004HT8-E
2
MAP1204HT8-E
2
46HP(46)
AP4624HT8-E
4
MAP1004HT8-E
1
MAP1204HT8-E
3
48HP(48)
AP4824HT8-E
4
MAP1204HT8-E
4
* : SMMS outdoor unit
1. Allocation standard of model name
MMY_ M
AP
H
T
8
_E
Power supply specifications, 3Ø 380-400-415V, 50Hz ....... 8
T: Capacity variable unit
H: Heat pump
Development series No.
0 : Single model, 1: Standard model, 2 : High efficiency model
Capacity rank HP
Refrigerant R410A
M: Single module unit, No mark: Combined Model name
Modular Multi
2. Rang of combined capacity
No. of combined units: 1 to 4 units
Capacity of combined units: 16 HP(16type) to 48 HP(48type)
3. Rated conditions
Cooling: Indoor air temperature 27ºC DB/19ºC WB, Outdoor air temperature 35ºC DB
Heating: Indoor air temperature 20ºC DB, Outdoor air temperature 7ºC DB/6ºC WB
4 -3
4 System overview
Cooling Only model
HP(Capacity Model name
code)
MMYStandard model
5HP(5)*
MAP0501T8-E
6HP(6)*
MAP0601T8-E
8HP(8)
MAP0804T8-E
10HP(10)
MAP1004T8-E
12HP(12)
MAP1204T8-E
14HP(14)
MAP1404T8-E
16HP(16)
MAP1604T8-E
18HP(18)
AP1814T8-E
20HP(20)
AP2014T8-E
22HP(22)
AP2214T8-E
24HP(24)
AP2414T8-E
26HP(26)
AP2614T8-E
28HP(28)
AP2814T8-E
30HP(30)
AP3014T8-E
32HP(32)
AP3214T8-E
34HP(34)
AP3414T8-E
36HP(36)
AP3614T8-E
38HP(38)
AP3814T8-E
40HP(40)
AP4014T8-E
42HP(42)
AP4214T8-E
44HP(44)
AP4414T8-E
46HP(46)
AP4614T8-E
48HP(48)
AP4814T8-E
High efficiency model
16HP(16)
AP1624T8-E
24HP(24)
AP2424T8-E
26HP(26)
AP2624T8-E
28HP(28)
AP2824T8-E
30HP(30)
AP3024T8-E
32HP(32)
AP3224T8-E
34HP(34)
AP3424T8-E
36HP(36)
AP3624T8-E
38HP(38)
AP3824T8-E
40HP(40)
AP4024T8-E
42HP(42)
AP4224T8-E
44HP(44)
AP4424T8-E
46HP(46)
AP4624T8-E
48HP(48)
AP4824T8-E
No. of
combined
units
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
3
Inverter 5HP Used Inverter 6HP Used Inverter 8HP Used Inverter 10HP Used Inverter 12HP Used Inverter 14HP Used Inverter 16HP Used
MMYQty
MMYQty
MMYQty
MMYQty
MMYQty
MMYQty
MMYQty
MAP0501T8-E
1
MAP0601T8-E
1
MAP0804T8-E
1
MAP1004T8-E
1
MAP1204T8-E
1
MAP1404T8-E
MAP0804T8-E
2
3
3
3
3
4
4
4
4
4
4
4
4
4
1
MAP0804T8-E
MAP0804T8-E
MAP0804T8-E
MAP0804T8-E
2
3
2
1
MAP0804T8-E
MAP0804T8-E
MAP0804T8-E
MAP0804T8-E
4
3
2
1
MAP1004T8-E
MAP1004T8-E
MAP1004T8-E
1
2
1
MAP1004T8-E
1
MAP1004T8-E
1
MAP1004T8-E
1
MAP1004T8-E
MAP1004T8-E
MAP1004T8-E
1
2
3
MAP1004T8-E
MAP1004T8-E
MAP1004T8-E
MAP1004T8-E
MAP1004T8-E
MAP1004T8-E
MAP1004T8-E
1
2
3
4
3
2
1
MAP1204T8-E
MAP1204T8-E
1
2
MAP1204T8-E
1
MAP1204T8-E
MAP1204T8-E
MAP1204T8-E
MAP1204T8-E
MAP1204T8-E
MAP1204T8-E
2
3
1
2
1
1
MAP1204T8-E
MAP1204T8-E
MAP1204T8-E
MAP1204T8-E
1
MAP1404T8-E
1
MAP1404T8-E
1
MAP1404T8-E
1
1
2
3
4
* : SMMS outdoor unit
1. Allocation standard of model name
MMY_ M
AP
T
8
_E
Power supply specifications, 3Ø 380-400-415V, 50Hz ....... 8
T: Capacity variable unit
Development series No.
0 : Single model, 1: Standard model, 2 : High efficiency model
Capacity rank HP
Refrigerant R410A
M: Single module unit, No mark: Combined Model name
Modular Multi
2. Rang of combined capacity
No. of combined units: 1 to 4 units
Capacity of combined units: 16 HP(16type) to 48 HP(48type)
3. Rated conditions
Cooling: Indoor air temperature 27ºC DB/19ºC WB, Outdoor air temperature 35ºC DB
4 -4
MAP1604T8-E
1
MAP1604T8-E
MAP1604T8-E
MAP1604T8-E
MAP1604T8-E
1
1
1
2
MAP1604T8-E
MAP1604T8-E
MAP1604T8-E
MAP1604T8-E
MAP1604T8-E
MAP1604T8-E
1
1
1
2
2
3
4 System overview
4. Indoor unit
Type
4-way Air Discharge
Cassette Type
Compact 4-way
Cassette (600 u 600)
Type
2-way Air Discharge
Cassette Type
1-way Air Discharge
Cassette Type
Concealed Duct
Standard Type
Concealed Duct
High Static
Pressure Type
Slim Duct Type
Under Ceiling Type
High-wall Type
1 series
High-wall Type
2 series
High-wall Type
3 series
Floor Standing
Concealed Type
Floor Standing
Cabinet Type
Floor Standing Type
Fresh Air Intake
Indoor Unit Type
Appearance
Model name
MMU-AP0092H
MMU-AP0122H
MMU-AP0152H
MMU-AP0182H
MMU-AP0242H
MMU-AP0272H
MMU-AP0302H
MMU-AP0362H
MMU-AP0482H
MMU-AP0562H
MMU-AP0071MH
MMU-AP0091MH
MMU-AP0121MH
MMU-AP0151MH
MMU-AP0181MH
MMU-AP0071WH
MMU-AP0091WH
MMU-AP0121WH
MMU-AP0151WH
MMU-AP0181WH
MMU-AP0241WH
MMU-AP0271WH
MMU-AP0301WH
MMU-AP0071YH
MMU-AP0091YH
MMU-AP0121YH
MMU-AP0152SH
MMU-AP0182SH
MMU-AP0242SH
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
MMD-AP0071SPH
MMD-AP0091SPH
MMD-AP0121SPH
MMD-AP0151SPH
MMD-AP0181SPH
MMC-AP0151H
MMC-AP0181H
MMC-AP0241H
MMC-AP0271H
MMC-AP0361H
MMC-AP0481H
MMK-AP0071H
MMK-AP0091H
MMK-AP0121H
MMK-AP0151H
MMK-AP0181H
MMK-AP0241H
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
007 type
009 type
012 type
015 type
018 type
024 type
027 type
030 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
027 type
030 type
036 type
048 type
056 type
018 type
024 type
027 type
036 type
048 type
072 type
096 type
007 type
009 type
012 type
015 type
018 type
015 type
018 type
024 type
027 type
036 type
048 type
007 type
009 type
012 type
015 type
018 type
024 type
1.00
1.25
1.70
2.00
2.50
3.00
3.20
4.00
5.00
6.00
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
0.80
1.00
1.25
1.70
2.00
2.50
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
0.80
1.00
1.25
1.70
2.00
1.70
2.00
2.50
3.00
4.00
5.00
0.80
1.00
1.25
1.70
2.00
2.50
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
2.2
2.8
3.6
4.5
5.6
7.1
8.0
9.0
2.2
2.8
3.6
4.5
5.6
7.1
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
2.2
2.8
3.6
4.5
5.6
4.5
5.6
7.1
8.0
11.2
14.0
2.2
2.8
3.6
4.5
5.6
7.1
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
2.5
3.2
4.0
5.0
6.3
8.0
9.0
10.0
2.5
3.2
4.0
5.0
6.3
8.0
2.5
3.2
4.0
5.0
6.3
8.0
9.0
10.0
12.5
16.0
18.0
6.3
8.0
9.0
10.0
16.0
25.0
31.5
2.5
3.2
4.0
5.0
6.3
5.0
6.3
8.0
9.0
12.5
16.0
2.5
3.2
4.0
5.0
6.3
8.0
MMK-AP0072H
007 type
0.80
2.2
2.5
MMK-AP0092H
009 type
1.00
2.8
3.2
MMK-AP0122H
012 type
1.25
3.6
4.0
MMK-AP0073H
MMK-AP0093H
MMK-AP0123H
MMK-AP0153H
MMK-AP0183H
MMK-AP0243H
MML-AP0071BH
MML-AP0091BH
MML-AP0121BH
MML-AP0151BH
MML-AP0181BH
MML-AP0241BH
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
MMD-AP0481HFE
MMD-AP0721HFE
MMD-AP0961HFE
007 type
009 type
012 type
015 type
018 type
024 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
048 type
072 type
096 type
0.80
1.00
1.25
1.70
2.00
2.50
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
5.00
8.00
10.00
2.2
2.8
3.6
4.5
5.6
7.1
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
14.0
22.4
28.0
2.5
3.2
4.0
5.0
6.3
8.0
2.5
3.2
4.0
5.0
6.3
8.0
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
8.9
13.9
17.4
4 -5
4 System overview
5. Remote controller
Name
Model
name
Appearance
Application
Function
RBC-AMT32E/RBC-AMT31E
Wired remote controller
Connected to indoor unit
TIMER SET
SET
•
•
•
•
Start/Stop
Temperature setting
Change of air flow
Check code display
•
•
•
•
•
•
•
Start/Stop
Mode change
Temperature setting
Change of air flow
Timer function
Control by 2 remote controllers is available.
Check code display
CL
Wired remote
controller
Wired remote controller
(In case of control by 2
remote controllers)
RBC-AS21E2
RBC-AX22CE2
RBC-AX31U(W)-E
RBC-AX31U(WS)-E
Simple remote controller
Connected to indoor unit
RBC-AX31U(W)-E
RBC-AX31U(WS)-E
(For 4-way Air Discharge Cassette)
RBC-AX22CE2
(For Under Ceiling, 1-way Air Discharge
Cassette SH)
TCB-AX21E2
Simple wired remote controller
Start/Stop
Mode change
Temperature setting
Change of air flow
Timer function
Filter sign
Self-diagnosis function
Control by 2 remote controllers is available.
TIME
FILTER
L
RESET TEST
Connected to indoor unit
Wireless remote controller kit
•
•
•
•
•
•
•
•
TCB-AX21E2
(For Compact 4-way Cassette, 2-way Air
Discharge Cassette, 1-way Air Discharge
Cassette YH, Concealed Duct Standard, Slim
Duct, Floor Standing Cabinet, Floor Standing)
Connected to outdoor unit,
indoor unit
Header
Follower
• Individual control up to 16 indoor units.
• Setting of simultaneous ON/OFF 3 times for
each day of the week when combined with
schedule timer.
TCB-CC163TLE2
ON-OFF controller
• Connected to 2 remote controllers is available.
Outdoor unit
ON-OFF
controller
ON-OFF
controller
Indoor
remote controller
4 -6
4 System overview
Name
Model
name
Appearance
Application
TCB-SC642TLE2
ZONE
ALL
ZONE
GROUP
CODE
No.
1234
SET DATA
SETTING
R.C.
UNIT No.
Connected to outdoor unit,
indoor unit
Header
No.
SELECT
ZONE
SET
Outdoor unit
Central
remote controller
BMS-CM1280TLE
• 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.
• 4 type central control setting to inhibit individual
operation by remote controller can be selected.
Follower
GROUP
CL
Central remote controller
TEST
Function
Central
remote
controller
Indoor
remote controller
4 -7
• 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 schedule
timer.
• Individual control of up to (64 indoor units) 2
TCC-LINK buses
• Individual control of up to (64 indoor units
divided 1 to 64 zone) 2 TCC-LINK buses (Up
to 64 indoor units for each zone)
• Up to 16 outdoor header units are connectable
per 1 TCC-LINK bus
• 4 types of central control settings of inhibit
individual operation by remote controller can be
selected.
• Setting for (one of 1 to 64 zones) 2ch is
available.
• Setting for (one of 1 to 64 groups) 2ch is
available.
• Usable with other central control devices
(Up to 10 central control devices in one TCCLINK bus).
• Two control mode selectively
(contral controller mode)
(Remote controller mode) by SW01 bit6.
• Combined with schedule timer.
• Return back setting
4 System overview
Name
Model
name
Appearance
Application
Function
Schedule timer mode
Outdoor unit
TCB-EXS21TLE
Schedule timer
Indoor unit
Schedule timer mode
• 6 programmings per day
• Enabling 8 groups to be programmed
• A maximum of 64 indoor units can be controlled
• A maximum of 100 hours back-up power supply
Weekly timer mode
• 7 types of weekly schedule and 3
programmings per day
• Can set ON/OFF by one-minute interval
Wekly timer mode
TCC-LINK
Connected to central remote controller or
wired remote controller
Central
remote controller
Schedule
timer
Connected to indoor unit
RBC-AMS41E
Remote controller with weekly timer
(7-day timer function)
Wired
remote controller
Simple remote controller
4 -8
Schedule
timer
• Clock display
• Schedule timer:
Possible to program schedule timer (7-day
timer) function
Possible to program 8 functions for each day of
the week
* The following items can be set in program:
Operation time, Operation start/stop, Operation
mode, Temperature setting, Restriction on
button operation.
5
SMMS-i Data book
Basic system configuration
1. Basic systems
8 HP system
Capacity code
• Max. indoor unit : 13 units
• Capacity code of indoor unit :
Total 10.4
Min. : 4
Max. : 10.8
8HP
10.4
No. of total units
Capacity code
over the branch
(0.8 + 0.8 = 1.6)
Outdoor unit
13
Indoor unit
designation
4.8
4.0
007
007
(0.8)
5.6
(0.8)
(0.8)
3.2
007
2.4
007
(0.8)
Capacity
Code
007
(0.8)
4.0
(0.8)
1.6
007
(0.8)
007
(0.8)
2.4
007
4.8
Indoor unit 007
Remote
controller
3.2
(0.8)
1.6
007
(0.8)
007
(0.8)
0.8
007
(0.8)
20 HP system
007
(0.8)
Capacity code
• Max. indoor unit : 33 units
• Capacity code of indoor unit :
Total 26.75
Min. : 10
Max. : 27
No. of total units
Outdoor unit
19
10HP 10HP
26.75
10.25
10
8.25
018
(2.0)
16.5
8.25
018
(2.0)
8.25
Indoor unit 018
Remote
controller
(2.0)
6.25
018
(2.0)
6.25
012
(1.25)
6.25
012
(1.25)
5.0
012
012
(1.25)
5.0
3.75
(1.25)
3.75
012
012
(1.25)
5.0
(1.25)
3.75
012
(1.25)
5 -1
012
(1.25)
012
(1.25)
2.5
012
(1.25)
2.5
012
(1.25)
012
(1.25)
2.5
012
(1.25)
012
(1.25)
012
(1.25)
5 Basic system configuration
40 HP system (Standard model)
• Max. indoor unit : 48 units
• Capacity code of indoor unit :
Capacity code
Total 53.75
Min. : 20
Max. : 54
No. of total units
32
Outdoor unit
16HP 12HP 12HP
40
53.75
14.0
28
13.0
009
39.75
13.25
13.25
12.25
009
(1)
13.25
Indoor unit 009
Remote
controller
(1)
(1)
012
(1)
11.25
009
(1.25)
10.25
009
(1)
12.25
012
(1)
11.25
009
(1.25)
10.25
009
(1)
9.75
012
(1)
11.25
009
(1)
11.0
009
(1)
12.25
009
26.5
12.0
009
(1)
16
(1.25)
10.25
009
(1)
012
(1.25)
5 -2
8.5
012
018
(1.25)
9.0
7.75
012
012
(1.25)
9.0
(1.25)
7.75
012
012
(1.25)
9.0
(2.0)
(1.25)
7.75
012
(1.25)
012
(1.25)
6.5
024
(2.5)
036
(4)
6.5
024
(2.5)
036
(4)
6.5
024
(2.5)
036
(4)
6.5
024
(2.5)
036
(4)
5 Basic system configuration
2. Fresh Air Intake Indoor Unit Type
34 HP system
Capacity code
Connecting limitation
• The total capacity of the fresh air intake units and the indoor units is restricted to 80
to 100% against the capacity of the outdoor units.
• Up to two fresh air intake units can be connected on one line of the multi system.
• The allowable total capacity of fresh air intake units shall be 30% or less against
the total capacity of the indoor units (including the fresh air intake units).
• The fresh air intake units only cannot connected.
Total 34
No. of total units
8
12HP 12HP 10HP
Outdoor unit
34
24
20
036
16
036
(4)
(4)
12
036
8
036
(4)
(4)
036
(4)
036
Indoor unit
(4)
Remote
controller
10
024
Fresh Air Intake Indoor unit
024
(5)
(5)
Remote
controller
5 -3
6
SMMS-i Data book
Equipment selection procedure
1. Selection flow chart
1 Determination of indoor air-conditioning load at each room.
2 Preliminary selection of indoor units in the standard capacity no less
than air-conditioning load at each room.
3 Calculate corrected capacity A of each indoor unit by correcting of
indoor temperature for the standard capacity of each indoor unit.(Refer
to Chart [1])
4 Preliminary selection of outdoor unit in the standard capacity no less
than total values of corrected capacity A in indoor units. At the same time,
check both connectable indoor units number and the outdoor unit
diversity(Connected ratio of indoor units to outdoor units) for the
specifications.
2’ Increase of indoor
unit capacity at object
room against airconditioning load
5 Calculate corrected capacity B of each indoor unit by following 2 steps.
Step1:Find the correction value of "Connecting pipe length and lift" by
both the longest length and the largest height with selected piping
condition at 4 or 4’.(Refer to Chatrt [3])
Step2:Calculate by multiplying the value of step1 by corrected capacity A.
6 Corrected capacity B of indoor
unit >= air-conditioning load (for All
rooms)
NG
YES
OK
7 Find correction values of below items for the standard capacity of
outdoor unit selected at 4 or 4’.
Then determination of total corrected capacity of the selected outdoor unit
by all multiplying.
-Correction of indoor temperature condition(Refer to Chart [1])
-Correction of outdoor temperature condition(Refer to Chart [2])
-Correction of connecting pipe length and lift between indoor and outdoor
units by both the longest length and the largest height (Refer to Chart [3])
-Correction of outdoor unit diversity in only over 100%(Refer to Chart [4])
-Correction of frost condition on outdoor heat exchanger when in heating
(Refer to Chart [5])
8 Calculate corrected capacity C of each indoor unit by multiplying the
total corrected capacity of outdoor unit at 7by proportional division of
each indoor unit standard capacity for total standard capacity of all indoor
units.
9 Corrected capacity C of indoor
unit >= air-conditioning load (for All
rooms)
5’ Increase of outdoor unit capacity.
At the same time, check both
connectable indoor units number
and the outdoor unit diversity
NG
OK
end
6 -1
NO
5’ <Only cooling>
The correction characteristic
of "connecting pipe length and
lift"(Graph [3]) between
increased outdoor unit at ?’
and preliminary selected
outdoor unit at ? is different.
(The both graphs are
different.)
6 Equipment selection procedure
2. Operational temperature range
Heating
35
30
25
Continuously
operable
range
20
15
10
5
0
-5
-10
10
15
20
25
28
30
Indoor air wet bulb temp. (°C)
20
15
10
5
Range for warming
up operation
Outdoor air wet bulb temp. (°C)
40
Range for pull
down operation
Outdoor air dry bulb temp. (°C)
Cooling
45
0
-5
-10
Continuously
operable
range
-15
-20
5
10
15
20
25
30
Indoor air dry bulb temp. (°C)
The unit will operate down to an outdoor temperature of
-20°C, however considerable performance decrease will be expected below -15°C.
Therefore please consider installation location/surroundings and system design
when expected to operate between -15°C and -20°C.
3. Combination conditions for indoor unit and outdoor unit
1. For indoor unit, the capacity code is decided for each capacity rank.
Capacity rank type
007
009
012
015
018
024
027
030
036
048
056
072
096
Capacity code
0.8
1
1.25
1.7
2
2.5
3
3.2
4
5
6
8
10
NOTE:
Capacity rank: Correspondence to Btu/h.
Capacity code: Correspondence to Horsepower.
2. For outdoor unit, maximum No. of connectable indoor units and total capacity code of indoor units are decided.
Outdoor unit (Heat pump)
Standard model
MMY-MAP0501HT8-E*
MMY-MAP0601HT8-E*
MMY-MAP0804HT8-E
MMY-MAP1004HT8-E
MMY-MAP1204HT8-E
MMY-MAP1404HT8-E
MMY-MAP1604HT8-E
MMY-AP1814HT8-E
MMY-AP2014HT8-E
MMY-AP2214HT8-E
MMY-AP2414HT8-E
MMY-AP2614HT8-E
MMY-AP2814HT8-E
MMY-AP3014HT8-E
MMY-AP3214HT8-E
MMY-AP3414HT8-E
MMY-AP3614HT8-E
MMY-AP3814HT8-E
MMY-AP4014HT8-E
MMY-AP4214HT8-E
MMY-AP4414HT8-E
MMY-AP4614HT8-E
MMY-AP4814HT8-E
High efficiency model
MMY-AP1624HT8-E
MMY-AP2424HT8-E
MMY-AP2624HT8-E
MMY-AP2824HT8-E
MMY-AP3024HT8-E
MMY-AP3224HT8-E
MMY-AP3424HT8-E
MMY-AP3624HT8-E
MMY-AP3824HT8-E
MMY-AP4024HT8-E
MMY-AP4224HT8-E
MMY-AP4424HT8-E
MMY-AP4624HT8-E
MMY-AP4824HT8-E
Outdoor unit (Cooling only)
Capacity code of outdoor unit
Max. No. of indoor units
Total capacity code of
indoor units
MMY-MAP0501T8-E*
MMY-MAP0601T8-E*
MMY-MAP0804T8-E
MMY-MAP1004T8-E
MMY-MAP1204T8-E
MMY-MAP1404T8-E
MMY-MAP1604T8-E
MMY-AP1814T8-E
MMY-AP2014T8-E
MMY-AP2214T8-E
MMY-AP2414T8-E
MMY-AP2614T8-E
MMY-AP2814T8-E
MMY-AP3014T8-E
MMY-AP3214T8-E
MMY-AP3414T8-E
MMY-AP3614T8-E
MMY-AP3814T8-E
MMY-AP4014T8-E
MMY-AP4214T8-E
MMY-AP4414T8-E
MMY-AP4614T8-E
MMY-AP4814T8-E
5
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
8
10
13
16
20
23
27
30
33
37
40
43
47
48
48
48
48
48
48
48
48
48
48
2.5 to 6.75
3 to 8.1
4 to 10.8
5 to 13.5
6 to 16.2
7 to 18.9
8 to 21.6
9 to 24.3
10 to 27
11 to 29.7
12 to 32.4
13 to 35.1
14 to 37.8
15 to 40.5
16 to 43.2
17 to 45.9
18 to 48.6
19 to 51.3
20 to 54
21 to 56.7
22 to 59.4
23 to 62.1
24 to 64.8
MMY-AP1624T8-E
MMY-AP2424T8-E
MMY-AP2624T8-E
MMY-AP2824T8-E
MMY-AP3024T8-E
MMY-AP3224T8-E
MMY-AP3424T8-E
MMY-AP3624T8-E
MMY-AP3824T8-E
MMY-AP4024T8-E
MMY-AP4224T8-E
MMY-AP4424T8-E
MMY-AP4624T8-E
MMY-AP4824T8-E
16
24
26
28
30
32
34
36
38
40
42
44
46
48
27
40
43
47
48
48
48
48
48
48
48
48
48
48
8 to 21.6
12 to 32.4
13 to 35.1
14 to 37.8
15 to 40.5
16 to 43.2
17 to 45.9
18 to 48.6
19 to 51.3
20 to 54
21 to 56.7
22 to 59.4
23 to 62.1
24 to 64.8
* : SMMS
50 to 135% of outdoor unit capacity
6 -2
6 Equipment selection procedure
4. Cooling/heating capacity characteristics
1. Correction charts for cooling capacity calculation
[1] Indoor air wet bulb temperature vs. capacity
correction value
[2] Outdoor air dry bulb temperature vs.capacity
correction value
Capacity correction value
1.1
1.0
0.9
1.0
0.9
-10
24
-5
0
Indoor air wet bulb temp. (°C)
HP
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
0 10 20 30 40 50 60 70 80 90100 110 120130 140 150160 170 180190 200 210
-40
40 43
235
235
235
235
235
235
235
235
235
235
235
185
185
A3
B3
B3
B3
B3
B3
A3
B3
B3
B3
B3
C1
C1
72.5%
75%
77.5%
70%
-40
0 10 20 30 40 50 60 70 80 90 100 110 120130 140 150160 170 180190 200 210 220
0 10 20 30 40 50 60 70 80 90 100 110 120130 140 150160 170 180190 200 210 220 230
Pipe length (Equivalent length) L’ (m)
67.5%
0 10 20 30 40 50 60 70 80 90100 110 120130 140 150160 170 180190 200 210
Pipe length (Equivalent length) L’ (m)
6 -3
70%
72.5%
75%
77.5%
80%
Outdoor unit (B1)
70
60
50
40
30
20
10
0
-10
-20
-30
-40
100%
97.5%
95%
Height of outdoor unit H (m)
70%
72.5%
75%
77.5%
80%
82.5%
85%
87.5%
92.5%
90%
95%
35
Pipe length (Equivalent length) L’ (m)
Outdoor unit (A3)
100%
97.5%
Height of outdoor unit H (m)
30
Outdoor unit (A2)
70
60
50
40
30
20
10
0
-10
-20
-30
Pipe length (Equivalent length) L’ (m)
70
60
50
40
30
20
10
0
-10
-20
-30
A2
80%
72.5%
75%
77.5%
80%
82.5%
85%
87.5%
90%
92.5%
97.5%
95%
100%
Height of outdoor unit H (m)
C
Outdoor unit (A1)
70
60
50
40
30
20
10
0
-10
-20
-30
-40
25
220
82.5%
B Indoor unit
l'c
20
High efficiency model
Pipe length
Graph
85%
A
l'b
15
82.5%
l'a
92.5%
hc
ha
90%
hb
H = ho +
(Largest one of ha, hb, and hc)
Height of outdoor unit H (m)
l'o
92.5%
L' is the longest one of
(l'o + l'a, l'o + l'b, l'o + l'c)
90%
Outdoor unit
Standard model
Pipe length
Graph
210
A1
210
B1
210
A1
210
A1
210
A1
220
B2
220
B2
220
A2
220
A2
220
B2
220
B2
220
B2
220
B2
235
B3
235
A3
235
B3
235
B3
235
B3
235
B3
185
C1
185
C1
100%
97.5%
95%
[3] Connecting pipe length and lift difference between
indoor and outdoor units vs. capacity correction value
ho
10
Outdoor air dry bulb temp. (°C)
87.5%
20
1.1
85%
0.8
15
1.2
87.5%
Capacity correction value
1.2
0 10 20 30 40 50 60 70 80 90 100 110 120130 140 150160 170 180190 200 210 220
65%
67.5%
70%
72.5%
75%
77.5%
80%
82.5%
85%
87.5%
92.5%
90%
-40
0 10 20 30 40 50 60 70 80 90 100 110 120130 140 150160 170 180190 200 210 220 230
Pipe length (Equivalent length) L’ (m)
67.5%
70%
72.5%
75%
77.5%
80%
82.5%
85%
87.5%
90%
Outdoor unit (C)
70
60
50
40
30
20
10
0
-10
-20
-30
-40
100%
97.5%
95%
92.5%
Height of outdoor unit H (m)
Pipe length (Equivalent length) L’ (m)
Outdoor unit (B3)
70
60
50
40
30
20
10
0
-10
-20
-30
100%
97.5%
95%
67.5%
70%
72.5%
75%
77.5%
80%
85%
82.5%
87.5%
90%
Height of outdoor unit H (m)
-40
92.5%
Outdoor unit (B2)
70
60
50
40
30
20
10
0
-10
-20
-30
100%
97.5%
95%
Height of outdoor unit H (m)
6 Equipment selection procedure
0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180
Pipe length (Equivalent length) L’ (m)
[4]* Correction of outdoor unit diversity
1.2
Correction
1.0
0.8
0.6
0.4
0.2
0
20
40
60
80
100
120
135
Standard capacity ratio
Indoor units total capacity ratio (%)
*:
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.
6 -4
6 Equipment selection procedure
2. Correction charts for heating capacity calculation
[1] Indoor air dry bulb temperature vs. capacity correction value
[2] Outdoor air wet bulb temperature vs. capacity correction value
Capacity correction value
Capacity correction value
1.2
1.1
1.0
0.9
0.8
15
20
24
1.2
1.1
1.0
0.9
0.8
0.7
0.6
0.5
0.4
-20
Indoor air dry bulb temp. (°C)
-10
-15
-5
0
5
15
10
Outdoor air wet bulb temp. (°C)
[3] Connecting pipe length and lift difference between indoor
and outdoor units vs. capacity correction value
Outdoor unit
ho
L' is the longest one of
(l'o + l'a, l'o + l'b, l'o + l'c)
l'o
H = ho +
(Largest one of ha, hb, and hc)
hc
hb
ha
l'a
A
l'b
B Indoor unit
C
[4]* Correction of outdoor unit diversity
Outdoor unit (8 to 48HP)
1.2
1.0
Correction
85%
86%
87%
89%
88%
90%
91%
92%
94%
93%
95%
97%
96%
98%
70
60
50
40
30
20
10
0
-10
-20
-30
-40
100%
99%
Height of outdoor unit H (m)
l'c
0.8
0.6
0.4
0.2
0 10 20 30 40 50 60 70 80 90 100 110 120130 140 150160 170 180190 200 210 220 230
Pipe length (Equivalent length) L’ (m)
0
20
40
60
80
100
120
135
Standard capacity ratio
Indoor units total capacity ratio (%)
*: 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.
3. Capacity correction in case of frost on the outdoor heat exchanger when in heating
Capacity correction value
Correct the heating capacity when frost can be found on the outdoor heat exchanger.
Heating capacity = Capacity after correction of outdoor unit x Correction value of capacity resulted from frost
(Capacity after correction of outdoor unit: Heating capacity calculated in the above item 2.)
[5] Capacity correction in case of frost on the outdoor heat exchanger
1.0
0.9
0.8
-15
-10
-5
0
5
Outdoor air wet bulb temp. (°C)
4. Rated conditions
Cooling: Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating: Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
6 -5
6 Equipment selection procedure
5. Selection procedure for fresh air intake indoor unit
5.1 Selection flow chart
1. Decisions of both air volume for fresh air intake and static pressure of duct
It is necessary to calculate “required ventilatory volume” to decide the air volume.
Be sure to consider the balance of air supply and exhaust.
2. Decisions of fresh air intake indoor unit by necessary air volume and external
static pressure
3. Temporary grouping of outdoor units and normal indoor units + fresh air intake
indoor units
Grouping limitation
*1 : The system is SMMS, is not SHRM(heat
SHRM (heatrecovery).
recovery).
*2 : Up to two fresh air intake indoor units on one line of the multi system.
*3 : The allowable total capacity of fresh air intake units shall be 30% or less against the total
capacity of the indoor units(including
units (includingthe
thefresh
freshair
airintake
intakeunits).
units).
*4 : The total capacity of the fresh air intake units and the indoor units is restricted to 80 to
100% against the capacity
capacith of the outdoor units.
*5 : The fresh air intake units only cannot connected.
4. Check of piping length and the height difference for between outdoor units and
normal indoor units + fresh air intake indoor units.
5. Capacity correction with design indoor temperature and outdoor temperature
6. Check of temporary grouping
outdoor units and normal indoor
units + fresh air intake indoor units
No good
OK
7. Decision of combination between outdoor units and normal indoor units + fresh
air intake indoor units
end
6 -6
6 Equipment selection procedure
5.2 Operatable temperature range and discharge temperature set up
Operatable temperature range
Ts : Setup Temp.
Operable mode and sidecharge temp setup range
Fresh air temp.°C
–10
0
10
20
Ts
5
COOL mode
30
40
50
40
FAN
Operation mode
COOL
HEAT
At shipment from factory
18°C
25°C
Setup range
16 to 27°C
16 to 27°C
COOL
Ts + 3°C
Ts
–5
HEAT mode
HEAT
43
FAN
Ts – 3°C
• In cooling operation, if the temperature is below 5°C, the operation stops automatically. (FAN stop)
• In heating operation, if the temperature is below –5°C, the operation stops automatically. (FAN stop)
(To protect the refrigerant cycle)
5.3 Calculation of required ventilatory volume
The required ventilatory volume (air supply quantity) is calculated depending on the ventilation purpose or the
number of ventilation ducts.
Ex. Calculation method based on a general living room under Japanese Building Standard Law
Available amount of ventilation V [m3/h]
V = 20 Af/N
Af : Floor space of the living room m2
N : Occupation area per room m2
If N > 10, please set N to 10.
(In the case of a living room of the special building, please change 10m2 to 3m2 as N.)
Af/N means number of people in the living room.
So if “X” as number of people in the living room is settled, V is able to define by the below expression
V = 20 x X
This expression is based on Japanese Building Standard Law and the coefficient “20” (unit : m3/h) is based on
exhaust volume of carbon dioxide by breathing per person who is quietly sitting adult male.
Although the coefficient is not always enough ventilatory volume.
In fact in ASHRAE (American Society of Heating Refrigerating and Air-Conditioning Engineers),
it shows 30 m3/h per person as its guideline in consideration of smells of the cigarette and so on.
Please calculate the required ventilatory volume with meeting for local regulations, market requirements
and customer’s purpose.
6 -7
7
SMMS-i Data book
Refrigerant piping design
1. WARNINGS ON REFRIGERANT LEAKAGE
Check of Concentration Limit
The room in which the air conditioner is to be installed
requires a design that in the event of refrigerant gas
leaking out, its concentration will not exceed a set limit.
The refrigerant R410A which is used in the air
conditioner is safe, without the toxicity or combustibility
of ammonia, and is not restricted by laws to be imposed
which protect the ozone layer. However, since it
contains more than air, it poses the risk of suffocation if
its concentration should rise excessively.
Suffocation from leakage of R410A is almost
nonexistent. With the recent increase in the number of
high concentration buildings, however, the installation of
multi air conditioner systems is on the increase because
of the need for effective use of floor space, individual
control, energy conservation by curtailing heat and
carrying power etc.
Most importantly, the multi air conditioner system is able
to replenish a large amount of refrigerant compared
with conventional individual air conditioners. If a single
unit of the multi conditioner system is to be
installed in a small room, select a suitable model and
installation procedure so that if the refrigerant
accidentally leaks out, its concentration does not reach
the limit (and in the event of an emergency, measures
can be made before injury can occur).
In a room where the concentration may exceed the limit,
create an opening with adjacent rooms, or install
mechanical ventilation combined with a gas leak
detection device.
The concentration is as given below.
NOTE 2:
The standards for minimum room volume are as follows.
(1) No partition (shaded portion)
(2) When there is an effective opening with the adjacent
room for ventilation of leaking refrigerant gas
(opening without a door, or an opening 0.15% or
larger than the respective floor spaces at the top or
bottom of the door).
Outdoor unit
Refrigerant piping
Indoor unit
(3) If an indoor unit is installed in each partitioned room
and the refrigerant tubing is interconnected, the
smallest room of course becomes the object. But
when a mechanical ventilation is installed
interlocked with a gas leakage detector in the
smallest room where the density limit is exceeded,
the volume of the next smallest room becomes the
object.
Refrigerant piping
Total amount of refrigerant (kg)
Min. volume of the indoor unit installed room (m3)
dConcentration limit (kg/m3)
Outdoor unit
Very
small
room
The concentration limit of R410A which is used in multi
air conditioners is 0.3kg/m3.
e.g., charged
amount (10kg)
Room A Room B
Outdoor unit
e.g.,
charged amount (15kg)
Room C Room D Room E
Indoor unit
Small
room
Medium
room
Large room
Mechanical ventilation device - Gas leak detector
NOTE 3:
The minimum indoor floor area compared with the
amount of refrigerant is roughly as follows: (When the
ceiling is 2.7m high)
40
Min. indoor floor area
NOTE 1:
If there are 2 or more refrigerating systems in a single
refrigerating device, the amounts of refrigerant should
be as charged in each independent device.
Important
Room F
Indoor unit
For the amount of charge in this example:
The possible amount of leaked refrigerant gas in
rooms A, B and C is 10kg.
The possible amount of leaked refrigerant gas in
rooms D, E and F is 15kg.
m² 35
30
25
Range below the
density limit of
0.3 kg/m3
(countermeasur
es not needed)
20
Range above
the density limit
of 0.3 kg/m3
(countermeasur
es needed)
15
10
5
0
10
20
30
kg
Total amount of refrigerant
7 -1
7 Refrigerant piping design
2. Free branching system
[1] Line branching system
[2] Header branching system
[3] Header branching system after line branching
[4] Line branching system after header branching
[5] Header branching system after header branching
The above five branching systems enable to dramatically increase the flexibility of refrigerant piping design.
Outdoor unit
Branching joint
Line branching
system
Indoor unit
Remote
controller
Outdoor unit
Header
branching
system
Branching header
Indoor unit
Remote controller
Outdoor unit
Branching joint
Header
branching
system after line
branching
Indoor unit
Remote
controller
Line branching
system after
header
branching
Header
branching
system after
header
branching
Outdoor unit
Branching header
Branching
joint
Indoor
unit
Remote
controller
7 -2
7 Refrigerant piping design
3. Allowable length/height difference of refrigerant piping
D
Follower
unit 3
Height
difference
between
outdoor
units
H3 5m
A
Header
unit
B
Follower
unit 1
Y-shape branching joint for gas pipe
<Ex.1>
C
Follower
unit 2
Connecting
piping of
outdoor unit
Outdoor unit
OK
OK
<Ex.2>
La
Height
difference
between
outdoor
units
H1 70m
T-shape branching joint for liquid pipe
<Ex.1>
Main
piping
Lb
Lc
<Ex.2>
Ld
LA
LB
Main connecting piping between outdoor units
Y-shape branching
joint for gas pipe
L1
T-shape branching
joint for liquid pipe
NO GOOD
NOTE:
T-shape branching joint of <Ex.2> is prohibited.
Branching
header
Branching piping L2
Connecting piping of indoor unit
1st branching
section
a
OK
NOTE:
Incase of 5 & 6 HP SMMS, apply the piping rules for
length/height of SMMS.
L7
b
c
d
e
Indoor unit
L3
Equivalent length corresponded to farthest piping L
235 m
Equivalent length corresponded to farthest piping after 1st branching Li
f
L6
L5
L4
Y-joint
Height difference
between indoor
units
H2 40m
90 m
g
h
i
j
Indoor unit
System restrictions
Max. No. of combined outdoor units
4 units
Max. capacity of combined outdoor units
48 HP
Max. No. of connected indoor units
Max. capacity of combined
indoor units
H2
48 units
15
135%
H2 > 15
105%
Note 1) Combination of outdoor units: Header unit (1 unit) + Follower units (0 to 3 units).
Header unit is the outdoor unit nearest to the connected indoor units.
Note 2) Install the outdoor units in order of capacity.
(Header unit t Follower unit 1 t Follower unit 2 t Follower unit 3)
Note 3) Use Y-shape branching joint in connecting of gas pipe for outdoor unit, and install horizontally.
Note 4) Piping to indoor units shall be perpendicular to piping to the header outdoor unit as <Ex.1>.
Do not connect piping to indoor units in the same direction of header outdoor unit as T-shape
branching joint for liquid pipe of <Ex.2>.
Allowable length and height difference of refrigerant piping
Total extension of pipe
(Liquid pipe, real length)
Farthest piping Length L (*1)
Allowable value
300m
500m
190m
235m
Below 34HP
34HP or more
Actual pipe length
Equivalent length
Equivalent length of farthest piping
from 1st branching Li (*1)
Piping length Equivalent length of farthest piping
between outdoor units LO (*1)
90m (*2)
25m
Actual pipe length
Max. equivalent length of main piping
Equivalent length
Max. equivalent length of outdoor unit connecting piping
Max. real length of indoor unit connecting piping
Max. equivalent length between branches
Upper outdoor unit
Height between indoor and outdoor units H1
Difference in
Lower outdoor unit
height
Height between indoor units H2
Height between outdoor units H3
(*1) :
(*2) :
(*3) :
(*4) :
(*5) :
100m (*3)
120m (*3)
10m
30m
50m
70m (*4)
40m (*5)
40m
5m
Piping section
LA + LB + La + Lb + Lc + Ld + L1 + L2 + L3 + L4+ L5 +
L6 + L7 + a + b + c + d + e + f + g + h + i + j
LA + LB + Ld + L1 + L3 + L4 + L5 + L6 + j
L3 + L4 + L5
LA + LB + Ld
(LA + Lb, LA + LB + Ld)
L1
Ld(La, Lb, Lc)
a, b, c, d, e, f, g, h, i, j
L2, L3, L4, L5, L6, L7
–
–
–
–
(D) is outdoor unit furthest from the 1st branch and (j) is the indoor unit furthest from the 1st branch.
If the height difference (H1) between indoor and outdoor unit exceeds 3m, set 65m or less.
If the max. combined outdoor unit capacity is 46HP or more, then max. equivalent length is 70m or less (real length is 50m or less).
If the height difference (H2) between indoor units exceeds 3m, set 50m or less.
If the height difference (H2) between indoor units exceeds 3m, set 30m or less.
7 -3
7 Refrigerant piping design
4. Selection of refrigerant piping
Branching piping
Follower
unit 3
Follower
unit 1 Header unit
Follower
unit 2
1
1
1
2
2
1 Outdoor unit
connecting
piping
5
4
Balance pipe
ø9.5
1st branching
1
section
7
2
4
Indoor unit connecting piping
Outdoor
unit
1
6 Header branching pipe
2
7 Branching joint for
5
5
5
5
5
Indoor unit
6 Y-shape
3 Main piping
branching
joint
4
4
4
5
5
5
4
outdoor unit
Main connecting
piping between
outdoor units
5
Indoor unit
connecting piping
Indoor unit
1
Pipe size of outdoor unit (Table 1)
Model name MMYMAP0804*
MAP1004*
MAP1204*
MAP1404*
MAP1604*
2
Liquid side
ø12.7
ø12.7
ø12.7
ø15.9
ø15.9
Gas side
ø28.6
ø34.9
ø34.9
ø41.3
Liquid
side
ø15.9
ø15.9
ø19.1
ø22.2
Branching header
*2 *3 *6
Balance
pipe
7
Total
capacity
code of
outdoor unit
Size of main pipe (Table 3)
*7
Balance
(T-shape)
ø19.1
ø9.5
ø25.4 ø19.1 ø19.1
ø38.1
ø38.1
ø22.2
8
ø9.5
ø9.5
Model
name
RBMBT14E
ø9.5
ø9.5
ø9.5
RBMBT24E
Minimum wall thickness for R410A application (Table 8)
Soft
OK
OK
OK
OK
NG*4
NG*4
NG*4
NG*4
NG*4
Half hard or hard OD (Inch) OD (mm)
OK
OK
OK
OK
OK
OK
OK
OK
OK
1/4''
3/8''
1/2''
5/8''
3/4''
7/8''
1.1/8''
1.3/8''
1.5/8''
6.35
9.52
12.70
15.88
19.05
22.20
28.58
34.92
41.28
Minimum wall
thickness (mm)
0.80
0.80
0.80
1.00
1.00
1.00
1.00
1.10
1.25
Piping of indoor unit (Table 5)
Capacity rank
Actual length 15m or less
007 type to
012 type
Actual length exceeds 15m
015 type to 018 type
024 type to 056 type
072 type to 096 type
*1
*2
*3
*4
*5
*6
ø28.6
Liquid
(T-shape)
ø28.6 ø22.2 ø22.2
Pipe size between branching sections (Table 4)*5
Model name
RBM-BY55E
RBM-BY105E
RBM-BY205E
RBM-BY305E
RBM-HY1043E
RBM-HY2043E
RBM-HY1083E
RBM-HY2083E
Joints
Gas
(Y-shape)
ø31.8
Branching Below 26
joint for
outdoor
unit
26 or more
Total capacity code of indoor
Gas side
Liquid side
units at downstream side *1
2.4 or less
ø12.7
ø9.5
2.4 to below 6.4
ø15.9
ø9.5
6.4 to below 12.2
ø22.2
ø12.7
12.2 to below 20.2
ø28.6
ø15.9
20.2 to below 35.2
ø34.9
ø19.1
35.2 or more
ø41.3
ø22.2
If the total capacity code value of indoor units exceeds that of the outdoor units,
apply the capacity code of outdoor units.
5
Total capacity code of indoor unit *1
Below 6.4
6.4 to below 14.2
14.2 to below 25.2
25.2 or more
For 4
Below 14.2
14.2 to below 25.2
branching
For 8
Below 14.2
14.2 to below 25.2
branching
Selection of branching joint for outdoor unit (Table 7)
ø9.5
Total capacity code of all
Gas side
Liquid side
outdoor units *1
8 to below 12
ø22.2
ø12.7
12 to below 14
ø28.6
ø12.7
14 to below 22
ø28.6
ø15.9
22 to below 36
ø34.9
ø19.1
36 to below 46
ø41.3
ø22.2
7
46 or more *
ø41.3
ø22.2
Determine thickness of the main pipe according to capacity of the outdoor units.
4
Selection of branching section (Table 6)
Y-shape branching
joint *2 *3
Connecting pipe size between outdoor units (Table 2)
Total capacity code of outdoor units at
downstream side *1
16 to below 22
22 to below 26
26 to below 36
36 or more
3
Gas side
ø22.2
ø22.2
ø28.6
ø28.6
ø28.6
6
Gas side
ø9.5
ø12.7
ø12.7
ø15.9
ø22.2
Liquid side
ø6.4
ø6.4
ø6.4
ø9.5
ø12.7
NOTE:
In case of 5 & 6 HP SMMS, apply the piping selection rules for SMMS.
Code is determined according to the capacity rank.
When using a Y-shape branching joint for the 1st branch, select according to capacity code of the outdoor unit.
For 1 line after branching header indoor units with a maximum capacity code of 6.0 in total can be connected.
If the pipe size is Ø19.0 or more, use a suitable material as detailed in the installation manual.
If the piping size becomes over main piping size, select the size same as main piping.
When the first branch is a header with the outdoor total capacity codes of 12 to 26, apply the model RBM- HY2043E(4-branch) or RBMHY2083E(8-branch) regardless of the total capacity codes of the down-stream indoor units.
The maximum equivalent length of main pipe should be 70m or shorter.
7 -4
7 Refrigerant piping design
5. Charging requirement with additional refrigerant
After the system has been vacuumed, replace the vacuum pump with a refrigerant cylinder and system with
additional refrigerant.
Calculating the amount of additional refrigerant required
R410A
Refrigerant in the system when shipped from the factory
*SMMS
Refrigerant amount
charged in factory
Heat pump model
Cooling only model
5HP*
8.5kg
8.0kg
6HP*
8.5kg
8.0kg
8HP
11.5kg
10.5kg
10HP
11.5kg
10.5kg
12HP
11.5kg
11.5kg
14HP
11.5kg
11.5kg
16HP
11.5kg
11.5kg
When the system is charged with refrigerant at the factory, the amount of refrigerant needed for the pipes at the site
is not included. Therefore, calculate the additional amount needed and add the required amount to the system.
(Calculation)
Additional refrigerant charge amount is calculated based on the size of liquid pipe at site and its real length.
Additional refrigerant charge amount at site =
Additional refrigerant charge amount
Real length of liquid pipe × per liquid pipe 1m (Table 1)
+ Compensation by system HP (Table 2)
Example : Additional charge amount R (kg) = (L1 x 0.025kg/m) + (L2 x 0.055kg/m) + (L3 x 0.105kg/m) + (3.0kg)
L1 : Real total length of liquid pipe ø6.4 (m)
L2 : Real total length of liquid pipe ø9.5 (m)
L3 : Real total length of liquid pipe ø12.7 (m)
Table 1
Pipe dia. at liquid side
Additional refrigerant amount/1m
ø6.4
0.025kg
ø9.5
0.055kg
ø12.7
0.105kg
ø15.9
0.160kg
ø19.0
0.250kg
ø22.2
0.350kg
Table 2
Standard model
Combined
Outdoor
horse power
combination(HP)
(HP)
5*
5
6*
6
8
8
10
10
12
12
14
14
16
16
18
10
8
20
10
10
22
12
10
24
12
12
26
16
10
28
16
12
30
16
14
32
16
16
34
12
12
10
36
12
12
12
38
16
12
10
40
16
12
12
42
16
14
12
44
16
16
12
46
16
16
14
48
16
16
16
High efficiency model
Combined
Outdoor
horse power
combination(HP)
(HP)
16
8
8
24
8
8
8
26
10
8
8
28
10
10
8
30
10
10
10
32
8
8
8
8
34
10
8
8
8
36
10
10
8
8
38
10
10
10
8
40
10
10
10
10
42
12
10
10
10
44
12
12
10
10
46
12
12
12
10
48
12
12
12
12
Compensation
by System HP
(kg)
0.0
0.0
1.5
2.5
3.5
8.5
10.5
0.0
3.0
5.0
7.5
8.5
9.5
11.5
12.5
3.0
4.0
6.0
7.0
8.0
10.0
12.0
14.0
*SMMS
7 -5
Compensation
by System HP
(kg)
0.0
-4.0
-4.0
-2.0
0.0
-6.0
-6.0
-6.0
-6.0
-5.0
-4.0
-2.0
0.0
2.0
8
SMMS-i Data book
Part Load performance
Part Load performance
1. Single unit
MMY-MAP0501* (5HP, 14kW system)
<SMMS>
Cooling
Compressor + Oudoor Fan
Power consumption (kW)
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
40 °C
13.0
3.86
3.16
2.54
2.02
1.59
1.24
1.03
0.88
35 °C
14.0
3.65
2.98
2.40
1.90
1.49
1.16
0.96
0.82
30 °C
14.0
3.02
2.48
2.00
1.60
1.27
1.00
0.84
0.73
25 °C
14.0
2.71
2.22
1.80
1.45
1.15
0.92
0.78
0.68
20 °C
14.0
2.52
2.07
1.68
1.35
1.08
0.87
0.74
0.65
15 °C
14.0
2.34
1.93
1.57
1.26
1.01
0.82
0.70
0.61
Outdoor Unit
Dry-Bulb
(°C)
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
16.0
11
9.8
16.0
7
6
16.0
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
3.35
2.80
2.32
1.90
1.53
1.23
0.99
0.80
3.61
3.01
2.48
2.01
1.61
1.28
1.01
0.81
3.84
3.19
2.62
2.12
1.69
1.32
1.03
0.81
0
-0.7
14.1
3.74
3.11
2.55
2.06
1.64
1.28
1.00
0.78
-5
-5.6
12.8
3.63
3.02
2.47
1.99
1.58
1.24
0.96
0.75
-10
-10.5
10.9
3.26
2.72
2.23
1.81
1.44
1.14
0.89
0.71
-14.5
-15
8.0
2.56
2.15
1.78
1.46
1.18
0.95
0.77
0.63
Indoor air temperature conditions : 20.0 °C dry-bulb
MMY-MAP0601* (6HP, 16kW system)
<SMMS>
Cooling
Compressor + Oudoor Fan
Power consumption (kW)
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
40 °C
14.9
4.91
4.01
3.23
2.57
2.02
1.58
1.26
1.05
35 °C
16.0
4.64
3.79
3.05
2.42
1.90
1.48
1.17
0.97
30 °C
16.0
3.84
3.15
2.55
2.03
1.61
1.28
1.03
0.87
25 °C
16.0
3.44
2.83
2.29
1.84
1.46
1.17
0.95
0.82
20 °C
16.0
3.20
2.63
2.14
1.72
1.37
1.10
0.90
0.78
15 °C
16.0
2.97
2.45
1.99
1.61
1.29
1.04
0.86
0.74
Outdoor Unit
Dry-Bulb
(°C)
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
18.0
11
9.8
18.0
7
6
18.0
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
3.97
3.30
2.76
2.25
1.82
1.46
1.17
0.96
4.28
3.57
2.94
2.39
1.92
1.52
1.20
0.96
4.56
3.79
3.11
2.52
2.00
1.57
1.23
0.97
0
-0.7
15.8
4.44
3.70
3.03
2.44
1.94
1.52
1.18
0.93
-5
-5.6
14.4
4.31
3.58
2.93
2.37
1.88
1.47
1.14
0.89
-10
-10.5
12.2
3.87
3.23
2.65
2.15
1.71
1.35
1.06
0.84
-14.5
-15
9.0
3.04
2.55
2.11
1.73
1.41
1.13
0.91
0.75
Indoor air temperature conditions : 20.0 °C dry-bulb
8 -1
A
8 Part Load performance
MMY-MAP0804* (8HP, 22.4kW system)
Cooling
Compressor + Oudoor Fan
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
80%
Capacity
40 °C
20.8
5.83
4.79
35 °C
22.4
5.40
4.44
30 °C
22.4
4.47
25 °C
22.4
20 °C
15 °C
Outdoor Unit
Dry-Bulb
(°C)
Power consumption (kW)
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
3.89
3.11
2.46
1.94
1.55
1.29
3.60
2.87
2.27
1.79
1.43
1.19
3.68
3.00
2.42
1.93
1.54
1.26
1.07
3.75
3.10
2.54
2.06
1.66
1.34
1.10
0.95
22.4
3.40
2.82
2.31
1.88
1.53
1.24
1.04
0.90
22.4
3.26
2.71
2.23
1.82
1.48
1.22
1.02
0.89
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
25.0
11
9.8
25.0
7
6
0
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
4.60
3.82
3.18
2.65
2.21
1.83
1.51
1.20
5.00
4.11
3.37
2.78
2.29
1.88
1.54
1.22
25.0
5.53
4.48
3.63
2.95
2.40
1.95
1.58
1.24
-0.7
21.9
5.23
4.24
3.43
2.79
2.27
1.85
1.49
1.17
1.13
-5
-5.6
19.6
5.02
4.06
3.29
2.67
2.17
1.77
1.43
-10
-10.5
17.1
4.80
3.89
3.15
2.56
2.08
1.69
1.37
1.08
-14.5
-15
14.7
4.60
3.73
3.02
2.45
1.99
1.62
1.31
1.03
Indoor air temperature conditions : 20.0 °C dry-bulb
MMY-MAP1004* (10HP, 28kW system)
Cooling
Compressor + Oudoor Fan
Power consumption (kW)
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
40 °C
26.1
8.00
6.58
5.33
4.26
3.37
2.66
2.12
1.76
35 °C
28.0
7.41
6.09
4.93
3.95
3.12
2.46
1.96
1.63
30 °C
28.0
6.13
5.06
4.12
3.32
2.65
2.12
1.72
1.46
25 °C
28.0
5.15
4.26
3.48
2.82
2.27
1.84
1.51
1.30
20 °C
28.0
4.66
3.87
3.17
2.58
2.09
1.71
1.42
1.24
15 °C
28.0
4.48
3.72
3.06
2.50
2.04
1.67
1.40
1.23
Outdoor Unit
Dry-Bulb
(°C)
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
31.5
11
9.8
31.5
7
6
31.5
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
6.24
5.18
4.31
3.59
2.99
2.49
2.04
1.62
6.79
5.57
4.57
3.76
3.10
2.56
2.08
1.65
7.50
6.08
4.92
4.00
3.25
2.65
2.14
1.68
0
-0.7
27.6
7.10
5.75
4.66
3.78
3.08
2.50
2.02
1.59
-5
-5.6
24.6
6.80
5.51
4.47
3.62
2.95
2.40
1.94
1.53
-10
-10.5
21.5
6.51
5.27
4.27
3.47
2.82
2.30
1.86
1.46
-14.5
-15
18.5
6.24
5.05
4.10
3.32
2.70
2.20
1.78
1.40
Indoor air temperature conditions : 20.0 °C dry-bulb
8 -2
A
8 Part Load performance
MMY-MAP1204* (12HP, 33.5kW system)
Cooling
Compressor + Oudoor Fan
Power consumption (kW)
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
40 °C
31.2
10.3
8.41
6.76
5.36
4.21
3.30
2.63
2.20
35 °C
33.5
9.55
7.78
6.25
4.96
3.89
3.05
2.44
2.03
30 °C
33.5
7.86
6.43
5.20
4.16
3.30
2.63
2.14
1.82
25 °C
33.5
6.58
5.40
4.39
3.53
2.83
2.28
1.88
1.63
20 °C
33.5
5.94
4.90
3.99
3.23
2.60
2.12
1.76
1.54
15 °C
33.5
5.70
4.71
3.85
3.12
2.53
2.07
1.74
1.53
Outdoor Unit
Dry-Bulb
(°C)
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
37.5
11
9.8
37.5
7
6
37.5
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
8.51
7.04
5.80
4.78
3.93
3.25
2.70
2.27
9.25
7.59
6.19
5.04
4.10
3.34
2.74
2.27
10.2
8.29
6.69
5.38
4.32
3.47
2.80
2.28
0
-0.7
32.9
9.65
7.84
6.33
5.09
4.08
3.28
2.65
2.16
-5
-5.6
29.3
9.25
7.52
6.07
4.88
3.91
3.15
2.54
2.07
-10
-10.5
25.6
8.85
7.19
5.81
4.67
3.75
3.01
2.43
1.98
-14.5
-15
22.0
8.49
6.89
5.57
4.47
3.59
2.89
2.33
1.90
Indoor air temperature conditions : 20.0 °C dry-bulb
MMY-MAP1404* (14HP, 40kW system)
Cooling
Compressor + Oudoor Fan
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
40 °C
37.2
12.4
10.1
35 °C
40.0
11.5
9.39
30 °C
40.0
9.48
7.76
25 °C
40.0
7.94
20 °C
40.0
7.18
15 °C
40.0
6.88
Outdoor Unit
Dry-Bulb
(°C)
90%
Capacity
80%
Capacity
Power consumption (kW)
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
8.14
6.40
4.95
3.82
3.02
2.57
7.53
5.92
4.58
3.54
2.80
2.38
6.24
4.94
3.87
3.03
2.46
2.15
6.51
5.25
4.18
3.30
2.63
2.17
1.93
5.89
4.77
3.81
3.03
2.43
2.04
1.84
5.66
4.59
3.68
2.94
2.38
2.01
1.84
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
45.0
11
9.8
45.0
7
6
45.0
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
9.32
7.74
6.43
5.36
4.47
3.71
3.05
2.42
10.1
8.31
6.83
5.62
4.64
3.82
3.11
2.46
11.2
9.07
7.35
5.97
4.85
3.95
3.19
2.51
0
-0.7
39.5
10.6
8.59
6.96
5.65
4.59
3.74
3.02
2.38
-5
-5.6
35.2
10.2
8.23
6.67
5.41
4.40
3.58
2.90
2.28
-10
-10.5
30.7
9.72
7.88
6.38
5.18
4.21
3.43
2.77
2.18
-14.5
-15
26.5
9.32
7.55
6.12
4.96
4.04
3.29
2.66
2.09
Indoor air temperature conditions : 20.0 °C dry-bulb
8 -3
A
8 Part Load performance
MMY-MAP1604* (16HP, 45kW system)
Cooling
Compressor + Oudoor Fan
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
40 °C
41.9
14.8
12.1
35 °C
45.0
13.7
11.2
30 °C
40.0
11.3
9.27
25 °C
45.0
9.49
20 °C
40.0
15 °C
45.0
Outdoor Unit
Dry-Bulb
(°C)
80%
Capacity
Power consumption (kW)
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
9.69
7.54
5.74
4.34
3.40
2.97
8.97
6.98
5.31
4.02
3.14
2.74
7.41
5.79
4.45
3.43
2.76
2.50
7.77
6.22
4.88
3.78
2.96
2.44
2.26
8.58
7.02
5.63
4.43
3.46
2.74
2.30
2.17
8.22
6.73
5.40
4.27
3.35
2.68
2.28
2.17
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
50.0
11
9.8
50.0
7
6
50.0
14.2
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
11.9
9.74
7.92
6.40
5.18
4.25
3.63
3.30
12.9
10.5
8.51
6.81
5.43
4.37
3.64
3.24
11.5
9.26
7.33
5.76
4.54
3.69
3.19
0
-0.7
43.9
13.4
10.9
8.76
6.94
5.45
4.30
3.49
3.02
-5
-5.6
39.1
12.9
10.5
8.40
6.65
5.22
4.12
3.35
2.90
-10
-10.5
34.1
12.3
10.0
8.04
6.36
5.00
3.94
3.20
2.77
-14.5
-15
29.4
11.8
9.61
7.70
6.10
4.79
3.78
3.07
2.66
Indoor air temperature conditions : 20.0 °C dry-bulb
8 -4
A
8 Part Load performance
2. Combination
2.1 Standard model
MMY-AP2014* (20HP, 56kW system)
Cooling
Compressor + Oudoor Fan
Power consumption (kW)
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
40 °C
52.1
15.8
13.0
10.5
8.40
6.64
5.24
4.18
3.48
35 °C
56.0
14.8
12.2
9.87
7.89
6.24
4.92
3.93
3.26
30 °C
56.0
12.3
10.1
8.24
6.63
5.30
4.24
3.45
2.92
25 °C
56.0
10.3
8.52
6.97
5.65
4.55
3.68
3.03
2.61
20 °C
56.0
9.32
7.73
6.35
5.17
4.19
3.41
2.84
2.47
15 °C
56.0
8.96
7.44
6.13
5.00
4.08
3.34
2.80
2.46
Outdoor Unit
Dry-Bulb
(°C)
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
63.0
11
9.8
63.0
7
6
0
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
12.5
10.4
8.62
7.18
5.98
4.97
4.08
3.25
13.6
11.1
9.15
7.53
6.21
5.11
4.17
3.30
63.0
15.0
12.2
9.84
7.99
6.50
5.29
4.28
3.36
-0.7
55.3
14.2
11.5
9.32
7.56
6.15
5.01
4.05
3.18
-5
-5.6
49.3
13.6
11.0
8.93
7.25
5.90
4.80
3.88
3.05
-10
-10.5
43.0
13.0
10.5
8.54
6.93
5.64
4.59
3.71
2.92
-14.5
-15
37.0
12.5
10.1
8.19
6.65
5.41
4.40
3.56
2.80
Indoor air temperature conditions : 20.0 °C dry-bulb
MMY-AP2614* (26HP, 73kW system)
Cooling
Compressor + Oudoor Fan
Power consumption (kW)
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
40 °C
67.9
22.8
18.7
15.1
11.9
9.23
7.13
5.64
4.80
35 °C
73.0
21.1
17.3
13.9
11.0
8.54
6.60
5.22
4.44
30 °C
73.0
17.5
14.3
11.6
9.19
7.20
5.66
4.58
4.01
25 °C
73.0
14.6
12.0
9.75
7.78
6.15
4.90
4.04
3.60
20 °C
73.0
13.2
10.9
8.86
7.09
5.65
4.54
3.80
3.43
15 °C
73.0
12.7
10.5
8.52
6.85
5.48
4.44
3.75
3.42
Outdoor Unit
Dry-Bulb
(°C)
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
81.5
11
9.8
81.5
7
6
81.5
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
18.1
14.9
12.3
10.1
8.29
6.85
5.72
4.87
19.7
16.1
13.1
10.6
8.64
7.04
5.80
4.86
21.7
17.6
14.2
11.4
9.10
7.30
5.91
4.88
0
-0.7
71.5
20.5
16.7
13.4
10.8
8.61
6.91
5.59
4.61
-5
-5.6
63.8
19.7
16.0
12.9
10.3
8.26
6.62
5.36
4.42
-10
-10.5
55.7
18.8
15.3
12.3
9.88
7.90
6.34
5.13
4.23
-14.5
-15
47.9
18.1
14.7
11.8
9.47
7.57
6.07
4.92
4.06
Indoor air temperature conditions : 20.0 °C dry-bulb
8 -5
A
8 Part Load performance
MMY-AP3014* (30HP, 85kW system)
Cooling
Compressor + Oudoor Fan
Outdoor Unit
100%
Cooling
Capacity
(kW)
Outdoor Unit
Dry-Bulb
(°C)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
Power consumption (kW)
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
40 °C
79.1
27.2
22.3
17.8
13.9
10.7
8.18
6.44
5.55
35 °C
85.0
25.2
20.6
16.5
12.9
9.91
7.57
5.95
5.13
30 °C
85.0
20.8
17.0
13.7
10.7
8.33
6.48
5.23
4.65
25 °C
85.0
17.4
14.3
11.5
9.07
7.09
5.60
4.62
4.20
20 °C
85.0
15.8
12.9
10.4
8.25
6.50
5.19
4.35
4.01
15 °C
85.0
15.1
12.4
9.99
7.95
6.30
5.07
4.30
4.01
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
95.0
11
9.8
95.0
7
6
95.0
Outdoor Unit
100%
Capacity
90%
Capacity
80%
Capacity
21.2
17.5
23.0
18.9
25.4
20.6
Power consumption (kW)
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
14.4
11.8
9.70
8.02
6.70
5.70
15.4
12.5
10.1
8.24
6.78
5.69
16.6
13.3
10.7
8.54
6.92
5.71
0
-0.7
83.3
24.0
19.5
15.7
12.6
10.1
8.09
6.55
5.40
-5
-5.6
74.3
23.0
18.7
15.1
12.1
9.66
7.75
6.28
5.18
-10
-10.5
64.9
22.0
17.9
14.4
11.6
9.25
7.42
6.01
4.95
-14.5
-15
55.8
21.1
17.2
13.8
11.1
8.86
7.11
5.76
4.75
40%
Capacity
30%
Capacity
Indoor air temperature conditions : 20.0 °C dry-bulb
MMY-AP3414* (34HP, 96kW system)
Cooling
Compressor + Oudoor Fan
Power consumption (kW)
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
40 °C
89.3
29.2
23.9
19.3
15.3
12.1
9.46
7.53
6.28
35 °C
96.0
27.1
22.1
17.8
14.2
11.2
8.75
6.97
5.81
30 °C
96.0
22.3
18.3
14.9
11.9
9.46
7.53
6.12
5.21
25 °C
96.0
18.7
15.4
12.6
10.1
8.11
6.53
5.38
4.66
20 °C
96.0
16.9
14.0
11.4
9.25
7.46
6.06
5.05
4.42
96.0
16.2
13.4
11.0
8.95
7.26
5.93
4.98
4.39
30%
Capacity
Outdoor Unit
Dry-Bulb
(°C)
15 °C
50%
Capacity
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Power consumption (kW)
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
108.0
11
9.8
108.0
7
6
0
-0.7
-5
-5.6
-10
-10.5
73.8
24.8
20.1
16.3
13.1
10.6
8.55
6.90
5.56
-14.5
-15
63.5
23.8
19.3
15.6
12.6
10.1
8.19
6.62
5.33
Outdoor Unit
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
23.8
19.7
16.3
13.5
11.2
9.24
7.65
6.30
25.9
21.3
17.4
14.2
11.6
9.50
7.77
6.34
108.0
28.6
23.2
18.8
15.1
12.2
9.85
7.96
6.41
94.7
27.1
22.0
17.8
14.3
11.5
9.32
7.53
6.07
84.5
25.9
21.1
17.0
13.7
11.1
8.93
7.22
5.81
Indoor air temperature conditions : 20.0 °C dry-bulb
8 -6
A
8 Part Load performance
MMY-AP4014* (40HP, 112kW system)
Cooling
Compressor + Oudoor Fan
Outdoor Unit
100%
Cooling
Capacity
(kW)
Outdoor Unit
Dry-Bulb
(°C)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
Power consumption (kW)
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
40 °C
104.2
35.4
28.9
23.2
18.3
14.2
11.0
8.74
7.39
35 °C
112.0
32.8
26.8
21.5
16.9
13.2
10.2
8.08
6.84
30 °C
112.0
27.0
22.1
17.8
14.1
11.1
8.76
7.10
6.16
25 °C
112.0
22.6
18.6
15.0
12.0
9.49
7.58
6.25
5.53
20 °C
112.0
20.5
16.8
13.6
10.9
8.72
7.03
5.87
5.26
15 °C
112.0
19.6
16.1
13.1
10.6
8.47
6.88
5.80
5.24
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
127.0
11
9.8
127.0
7
6
0
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
29.5
24.3
20.0
16.3
13.4
11.0
9.24
7.96
32.0
26.2
21.3
17.3
13.9
11.3
9.34
7.92
127.0
35.3
28.7
23.1
18.5
14.7
11.8
9.52
7.92
-0.7
111.4
33.4
27.1
21.9
17.5
13.9
11.1
9.01
7.49
-5
-5.6
99.4
32.0
26.0
21.0
16.8
13.4
10.7
8.64
7.18
-10
-10.5
86.7
30.6
24.9
20.1
16.0
12.8
10.2
8.26
6.87
-14.5
-15
74.6
29.4
23.9
19.2
15.4
12.2
9.79
7.92
6.59
Indoor air temperature conditions : 20.0 °C dry-bulb
MMY-AP4414* (44HP, 123.5kW system)
Cooling
Compressor + Oudoor Fan
Power consumption (kW)
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
40 °C
114.9
39.3
32.2
25.8
20.2
15.5
11.9
9.36
8.04
35 °C
123.5
37.0
30.2
24.2
18.9
14.6
11.2
8.79
7.55
30 °C
123.5
30.5
25.0
20.0
15.8
12.3
9.55
7.73
6.84
25 °C
123.5
25.6
20.9
16.8
13.3
10.4
8.26
6.81
6.17
20 °C
123.5
23.1
18.9
15.3
12.1
9.58
7.65
6.41
5.89
123.5
22.1
18.2
14.7
11.7
9.29
7.48
6.33
5.88
50%
Capacity
40%
Capacity
30%
Capacity
8.89
Outdoor Unit
Dry-Bulb
(°C)
15 °C
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
138.0
11
9.8
138.0
7
6
138.0
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
32.4
26.7
21.8
17.7
14.4
11.9
10.0
35.3
28.9
23.4
18.8
15.1
12.2
10.1
8.79
38.9
31.6
25.4
20.2
16.0
12.7
10.3
8.73
0
-0.7
121.1
36.8
29.9
24.0
19.1
15.1
12.0
9.74
8.26
-5
-5.6
108.0
35.2
28.7
23.0
18.3
14.5
11.5
9.33
7.92
-10
-10.5
94.2
33.7
27.4
22.0
17.5
13.9
11.0
8.93
7.58
-14.5
-15
81.1
32.3
26.3
21.1
16.8
13.3
10.6
8.56
7.26
Indoor air temperature conditions : 20.0 °C dry-bulb
8 -7
A
8 Part Load performance
MMY-AP4814* (48HP, 135kW system)
Cooling
Compressor + Oudoor Fan
Power consumption (kW)
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
40 °C
125.6
44.4
36.4
29.1
22.7
17.4
13.2
10.4
9.06
35 °C
135.0
41.1
33.6
26.9
21.0
16.1
12.2
9.63
8.38
30 °C
135.0
34.0
27.8
22.3
17.5
13.5
10.5
8.48
7.62
25 °C
135.0
28.5
23.3
18.7
14.7
11.5
9.05
7.49
6.89
20 °C
135.0
25.7
21.1
16.9
13.4
10.5
8.38
7.05
6.59
15 °C
135.0
24.6
20.2
16.3
12.9
10.2
8.20
6.97
6.59
Outdoor Unit
Dry-Bulb
(°C)
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
150.0
11
9.8
150.0
7
6
150.0
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
35.6
29.2
23.8
19.2
15.5
12.8
10.9
9.90
38.7
31.6
25.5
20.4
16.3
13.1
10.9
9.71
42.6
34.6
27.8
22.0
17.3
13.6
11.1
9.58
0
-0.7
131.6
40.3
32.8
26.3
20.8
16.3
12.9
10.5
9.07
-5
-5.6
117.4
38.6
31.4
25.2
19.9
15.7
12.4
10.0
8.70
-10
-10.5
102.4
37.0
30.1
24.1
19.1
15.0
11.8
9.61
8.32
-14.5
-15
88.2
35.4
28.8
23.1
18.3
14.4
11.3
9.21
7.97
Indoor air temperature conditions : 20.0 °C dry-bulb
8 -8
A
8 Part Load performance
2.2 High efficiency model
MMY-AP2624* (26HP, 73kW system)
Cooling
Compressor + Oudoor Fan
Power consumption (kW)
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
40 °C
67.9
19.8
16.3
13.2
10.5
8.33
6.57
5.24
4.36
35 °C
73.0
18.3
15.0
12.2
9.75
7.71
6.08
4.85
4.03
30 °C
73.0
15.1
12.5
10.2
8.20
6.55
5.24
4.26
3.61
25 °C
73.0
12.7
10.5
8.61
6.97
5.62
4.54
3.74
3.22
20 °C
73.0
11.5
9.55
7.84
6.38
5.17
4.22
3.51
3.06
15 °C
73.0
11.1
9.20
7.57
6.18
5.03
4.13
3.46
3.03
Outdoor Unit
Dry-Bulb
(°C)
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
81.5
11
9.8
81.5
7
6
0
-0.7
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
15.4
12.8
10.7
8.88
7.41
6.16
5.05
4.02
16.8
13.8
11.3
9.31
7.68
6.33
5.16
4.08
81.5
18.6
15.0
12.2
9.89
8.04
6.55
5.29
4.16
71.5
17.6
14.2
11.5
9.36
7.61
6.20
5.01
3.94
-5
-5.6
63.8
16.8
13.6
11.1
8.97
7.30
5.94
4.80
3.78
-10
-10.5
55.7
16.1
13.1
10.6
8.58
6.98
5.68
4.59
3.61
-14.5
-15
47.9
15.4
12.5
10.1
8.23
6.69
5.45
4.40
3.46
40%
Capacity
30%
Capacity
Indoor air temperature conditions : 20.0 °C dry-bulb
MMY-AP3024* (30HP, 85kW system)
Cooling
Compressor + Oudoor Fan
Outdoor Unit
100%
Cooling
Capacity
(kW)
Outdoor Unit
Dry-Bulb
(°C)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
Power consumption (kW)
60%
Capacity
50%
Capacity
40 °C
79.1
24.6
20.2
16.4
13.1
10.4
8.16
6.52
5.42
35 °C
85.0
22.8
18.7
15.1
12.1
9.58
7.55
6.03
5.01
30 °C
85.0
18.8
15.5
12.6
10.2
8.14
6.51
5.29
4.49
25 °C
85.0
15.8
13.1
10.7
8.67
6.98
5.64
4.65
4.00
20 °C
85.0
14.3
11.9
9.74
7.93
6.43
5.24
4.36
3.80
15 °C
85.0
13.7
11.4
9.40
7.68
6.26
5.13
4.30
3.77
30%
Capacity
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
95.0
11
9.8
95.0
7
6
0
-0.7
-5
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
18.9
15.7
13.0
10.9
9.06
7.53
6.18
4.91
20.5
16.9
13.8
11.4
9.40
7.74
6.31
4.99
95.0
22.7
18.4
14.9
12.1
9.84
8.01
6.47
5.09
83.3
21.5
17.4
14.1
11.4
9.31
7.58
6.13
4.82
-5.6
74.3
20.6
16.7
13.5
11.0
8.93
7.27
5.87
4.62
-10
-10.5
64.9
19.7
16.0
12.9
10.5
8.54
6.95
5.62
4.42
-14.5
-15
55.8
18.9
15.3
12.4
10.1
8.19
6.67
5.38
4.24
Indoor air temperature conditions : 20.0 °C dry-bulb
8 -9
A
8 Part Load performance
MMY-AP3424* (34HP, 96kW system)
Cooling
Compressor + Oudoor Fan
Power consumption (kW)
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
40 °C
89.3
25.9
21.3
17.3
13.8
10.9
8.61
6.87
5.71
35 °C
96.0
24.0
19.7
16.0
12.8
10.1
7.97
6.36
5.29
30 °C
96.0
19.8
16.4
13.3
10.7
8.58
6.86
5.58
4.73
25 °C
96.0
16.7
13.8
11.3
9.14
7.36
5.95
4.91
4.22
20 °C
96.0
15.1
12.5
10.3
8.37
6.78
5.53
4.60
4.00
15 °C
96.0
14.5
12.1
9.92
8.10
6.60
5.41
4.54
3.98
Outdoor Unit
Dry-Bulb
(°C)
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
108.0
11
9.8
108.0
7
6
0
Outdoor Unit
70%
Capacity
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
20.6
17.1
14.2
22.3
18.3
15.1
11.8
9.86
8.19
6.72
5.34
12.4
10.2
8.42
6.86
108.0
24.7
20.0
16.2
5.43
13.2
10.7
8.71
7.04
-0.7
94.7
23.4
18.9
5.54
15.3
12.5
10.1
8.25
6.66
-5
-5.6
84.5
22.4
18.2
5.24
14.7
11.9
9.71
7.90
6.39
5.03
-10
-10.5
73.8
21.4
17.4
14.1
11.4
9.29
7.56
6.11
4.81
-14.5
-15
63.5
20.5
16.6
13.5
10.9
8.91
7.25
5.86
4.61
40%
Capacity
30%
Capacity
Indoor air temperature conditions : 20.0 °C dry-bulb
MMY-AP4024* (40HP, 112kW system)
Cooling
Compressor + Oudoor Fan
Outdoor Unit
100%
Cooling
Capacity
(kW)
Outdoor Unit
Dry-Bulb
(°C)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
Power consumption (kW)
60%
Capacity
50%
Capacity
40 °C
104.2
32.0
26.3
21.3
17.1
13.5
10.6
8.49
7.06
35 °C
112.0
29.6
24.4
19.7
15.8
12.5
9.84
7.86
6.53
30 °C
112.0
24.5
20.2
16.5
13.3
10.6
8.48
6.89
5.85
25 °C
112.0
20.6
17.0
13.9
11.3
9.10
7.35
6.06
5.22
20 °C
112.0
18.6
15.5
12.7
10.3
8.38
6.83
5.68
4.95
15 °C
112.0
17.9
14.9
12.3
10.0
8.15
6.68
5.60
4.91
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
127.0
11
9.8
127.0
7
6
0
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
25.3
21.0
17.5
14.6
12.1
10.1
8.28
6.58
27.5
22.6
18.5
15.3
12.6
10.4
8.45
6.69
127.0
30.4
24.6
20.0
16.2
13.2
10.7
8.67
6.82
-0.7
111.4
28.8
23.3
18.9
15.3
12.5
10.2
8.20
6.46
-5
-5.6
99.4
27.6
22.4
18.1
14.7
12.0
9.74
7.87
6.19
-10
-10.5
86.7
26.4
21.4
17.3
14.1
11.4
9.31
7.53
5.92
-14.5
-15
74.6
25.3
20.5
16.6
13.5
11.0
8.93
7.21
5.68
Indoor air temperature conditions : 20.0 °C dry-bulb
8 -10
A
8 Part Load performance
MMY-AP4424* (44HP, 123.5kW system)
Cooling
Compressor + Oudoor Fan
Power consumption (kW)
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
40 °C
114.9
36.9
30.2
24.4
19.5
15.3
12.0
9.59
7.99
35 °C
123.5
34.2
28.0
22.6
18.0
14.2
11.1
8.87
7.39
30 °C
123.5
28.2
23.2
18.8
15.1
12.0
9.58
7.78
6.63
25 °C
123.5
23.7
19.5
15.9
12.8
10.3
8.31
6.85
5.92
20 °C
123.5
21.4
17.7
14.5
11.7
9.49
7.71
6.42
5.61
123.5
20.6
17.0
14.0
11.4
9.23
7.55
6.33
5.58
Outdoor Unit
Dry-Bulb
(°C)
15 °C
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
138.0
11
9.8
138.0
7
6
0
Outdoor Unit
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
29.5
24.4
20.2
16.8
13.9
11.5
9.51
7.76
32.1
26.3
21.5
17.6
14.4
11.8
9.68
7.83
138.0
35.4
28.7
23.2
18.8
15.2
12.3
9.91
7.94
-0.7
121.1
33.5
27.2
22.0
17.8
14.3
11.6
9.38
7.51
7.20
-5
-5.6
108.0
32.1
26.1
21.1
17.0
13.8
11.1
8.99
-10
-10.5
94.2
30.7
24.9
20.2
16.3
13.2
10.6
8.60
6.89
-14.5
-15
81.1
29.4
23.9
19.3
15.6
12.6
10.2
8.24
6.60
Indoor air temperature conditions : 20.0 °C dry-bulb
MMY-AP4824* (48HP, 135kW system)
Cooling
Compressor + Oudoor Fan
Power consumption (kW)
Outdoor Unit
100%
Cooling
Capacity
(kW)
100%
Capacity
90%
Capacity
80%
Capacity
70%
Capacity
60%
Capacity
50%
Capacity
40%
Capacity
30%
Capacity
40 °C
125.6
41.9
34.1
27.4
21.7
17.1
13.4
10.7
8.91
35 °C
135.0
38.8
31.6
25.4
20.1
15.8
12.4
9.88
8.24
30 °C
135.0
31.9
26.1
21.1
16.9
13.4
10.7
8.67
7.39
25 °C
135.0
26.7
21.9
17.8
14.3
11.5
9.25
7.63
6.60
20 °C
135.0
24.1
19.9
16.2
13.1
10.6
8.59
7.16
6.26
15 °C
135.0
23.1
19.1
15.6
12.7
10.3
8.41
7.06
6.22
50%
Capacity
40%
Capacity
30%
Capacity
Outdoor Unit
Dry-Bulb
(°C)
Indoor air temperature conditions : 27.0 °C dry-bulb / 19.0 °C wet bulb
Heating
Compressor + Oudoor Fan
Dry-Bulb
( °C)
Wet-Bulb
( °C)
15
13.7
Outdoor
Unit 100%
Heating
Capacity
(kW)
150.0
11
9.8
150.0
7
6
0
-0.7
Outdoor Unit
70%
Capacity
Power consumption (kW)
100%
Capacity
90%
Capacity
80%
Capacity
60%
Capacity
34.0
28.2
23.2
19.1
15.7
13.0
10.8
9.06
37.0
30.3
24.8
20.2
16.4
13.4
11.0
9.08
150.0
40.8
33.1
26.8
21.5
17.3
13.9
11.2
9.14
131.6
38.6
31.4
25.3
20.4
16.3
13.1
10.6
8.65
8.29
-5
-5.6
117.4
37.0
30.1
24.3
19.5
15.7
12.6
10.2
-10
-10.5
102.4
35.4
28.8
23.2
18.7
15.0
12.0
9.73
7.93
-14.5
-15
88.2
33.9
27.6
22.3
17.9
14.4
11.5
9.33
7.60
Indoor air temperature conditions : 20.0 °C dry-bulb
8 -11
A
9
SMMS-i Data book
Wiring Design
1. General
• Perform wiring of the power supply in conformance with the regulations of the local electric company.
• For cabling of the power supply of the indoor unit and the inter-unit cabling between indoor and outdoor units,
refer to the Installation Manual of indoor unit.
• Never connect power supply to the terminal block (U1, U2, U3, U4, U5, U6) for control wiring.
(The equipment breaks down.)
• Arrange the cables so that the electric wires do not come to contact with high-temperature part of the pipe;
otherwise coating melts and an accident may be caused.
• After connecting cable to the terminal block, take off the trap and then fix the cable with cable clamp.
• Do not turn on power of the indoor unit until vacuuming of the refrigerant pipe will finish.
2. Summary of wiring design
Design of outdoor unit power supply
• Select the wiring depending on MCA.
• Be sure to set the earth leakage breaker from the viewpoint of safety.
Design of indoor unit power supply
• Select the wiring depending on total current of indoor units.
• Determine the wire size for the length rules.
• Be sure to set the earth leakage breaker from the viewpoint of safety.
Design of control wiring
• Design each control wiring.
Between outdoor and indoor units,
Between indoor units/outdoor units
Between indoor unit and remote controller, central control, BMS
• Select the wire size and type depending on the length rules.
3. Electrical wiring design
3-phase
380-415V, 50Hz
or 380V, 60Hz
Earth leakage breaker
hand switch
Earth
Outdoor
power source
Pull box
Indoor
power source
Model
MMY-MAP/AP XXXX HT8,
HT8-E, T8, T8-E
MMY-MAP/AP XXXX HT7
Outdoor power supply
Single phase
220-240V 50Hz
or 220V 60Hz
Earth leakage breaker
power switch
3phese, 380-415V, 50Hz
3phese, 380V, 60Hz
• Wiring size must comply with the applicable local and national code.
• Determine the wire size for the indoor unit according to the number of connected indoor units downstream.
4. Outdoor unit power supply
• Select the power supply cabling and fuse of each
outdoor unit from the following specifications:
cable 4-core, in conformance with Design 60245
IEC 66
• Do not connect the outdoor units by crossing
outside of them, but connect them via the terminal
block (L1, L2, L3, N).
NO GOOD
Outdoor power supply
3-phase 380-415V, 50Hz
380V
60Hz
9 -1
L1 L2 L3
L1 L2 L3
L1 L2 L3
L1 L2 L3
Heat Pump Model
MMY-
MAP0501HT8-E*
MAP0601HT8-E*
MAP0804HT8-E
MAP1004HT8-E
MAP1204HT8-E
MAP1404HT8-E
MAP1604HT8-E
MAP1814HT8-E
MAP2014HT8-E
MAP2214HT8-E
MAP2414HT8-E
MAP2614HT8-E
MAP2814HT8-E
MAP3014HT8-E
MAP3214HT8-E
MAP3414HT8-E
MAP3614HT8-E
MAP3814HT8-E
MAP4014HT8-E
MAP4214HT8-E
MAP4414HT8-E
MAP4614HT8-E
MAP4814HT8-E
HP
5*
6*
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
MAP1624HT8-E
MAP2424HT8-E
MAP2624HT8-E
MAP2824HT8-E
MAP3024HT8-E
MAP3224HT8-E
MAP3424HT8-E
MAP3624HT8-E
MAP3824HT8-E
MAP4024HT8-E
MAP4224HT8-E
MAP4424HT8-E
MAP4624HT8-E
MAP4824HT8-E
16
24
26
28
30
32
34
36
38
40
42
44
46
48
MAP1624T8-E
MAP2424T8-E
MAP2624T8-E
MAP2824T8-E
MAP3024T8-E
MAP324T8-E
MAP3424T8-E
MAP3624T8-E
MAP3824T8-E
MAP4024T8-E
MAP4224T8-E
MAP4424T8-E
MAP4624T8-E
MAP4824T8-E
Cooling Only Model
MMY-
MAP0501T8-E*
MAP0601T8-E*
MAP0804T8-E
MAP1004T8-E
MAP1204T8-E
MAP1404T8-E
MAP1604T8-E
MAP1814T8-E
MAP2014T8-E
MAP2214T8-E
MAP2414T8-E
MAP2614T8-E
MAP2814T8-E
MAP3014T8-E
MAP3214T8-E
MAP3414T8-E
MAP3614T8-E
MAP3814T8-E
MAP4014T8-E
MAP4214T8-E
MAP4414T8-E
MAP4614T8-E
MAP4814T8-E
Cooling Only Model
MMY-
Power Supply
Phase and
Nominal
frequency
Voltage
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
Power Supply
Phase and
Nominal Voltage
frequency
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
3N~ 50Hz
380-400-415V
Notes MCA : Minimum Circuit Amps
MOCP : Maximum Overcurrent Protection (Amps)
Heat Pump Model
MMY-
HP
Type
Combination of outdoor unit
9 -2
High efficiency model
Combination of outdoor unit
Single unit
Type
Standard model
Outdoor unit data
Voltage Range
Min.
Max
(V)
(V)
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
Voltage Range
Min.
Max
(V)
(V)
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
342
456
Unit No.1
(kW)
2.3 x 2
2.3 x 2
3.1 x 2
3.1 x 2
3.1 x 2
2.3 x 2
3.1 x 2
3.1 x 2
3.1 x 2
3.1 x 2
4.2 x 2
4.2 x 2
4.2 x 2
4.2 x 2
Unit No.1
(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
3.1 x 2
3.1 x 2
4.2 x 2
4.2 x 2
3.6 x 3
3.6 x 3
3.6 x 3
3.6 x 3
4.2 x 2
4.2 x 2
3.6 x 3
3.6 x 3
3.6 x 3
3.6 x 3
3.6 x 3
3.6 x 3
3.1 x 2
4.2 x 2
3.1 x 2
4.2 x 2
4.2 x 2
4.2 x 2
3.0 x 3
3.6 x 3
Compressor
Unit No.2
Unit No.3
(kW)
(kW)
2.3 x 2
2.3 x 2
2.3 x 2
2.3 x 2
2.3 x 2
3.1 x 2
2.3 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
3.1 x 2
2.3 x 2
3.1 x 2
3.1 x 2
3.1 x 2
3.1 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
4.2 x 2
4.2 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
3.0 x 3
3.6 x 3
4.2 x 2
4.2 x 2
4.2 x 2
4.2 x 2
3.0 x 3
3.6 x 3
3.6 x 3
3.6 x 3
Compressor
Unit No.2
Unit No.3
(kW)
(kW)
2.3 x 2
2.3 x 2
2.3 x 2
2.3 x 2
3.1 x 2
3.1 x 2
3.1 x 2
3.1 x 2
4.2 x 2
Unit No.4
(kW)
Unit No.4
(kW)
MCA
(A)
46.9
70.4
72.4
74.5
76.5
93.8
95.9
97.9
100.0
102.0
105.0
108.0
111.0
114.0
(kW)
1.0 x 2
1.0 x 3
1.0 x 3
1.0 x 3
1.0 x 3
1.0 x 4
1.0 x 4
1.0 x 4
1.0 x 4
1.0 x 4
1.0 x 4
1.0 x 4
1.0 x 4
1.0 x 4
(A)
16.5
16.5
23.5
25.5
28.5
33.2
36.5
49.0
51.0
54.0
57.0
62.0
65.0
69.7
73.0
82.5
85.5
90.5
93.5
98.2
101.5
106.2
109.5
(kW)
0.6
0.6
1.0
1.0
1.0
1.0
1.0
1.0 x 2
1.0 x 2
1.0 x 2
1.0 x 2
1.0 x 2
1.0 x 2
1.0 x 2
1.0 x 2
1.0 x 3
1.0 x 3
1.0 x 3
1.0 x 3
1.0 x 3
1.0 x 3
1.0 x 3
1.0 x 3
Fan Motor
MCA
Fan Motor
(A)
63
80
80
100
100
125
125
125
125
125
125
125
125
125
MOCP
(A)
20
20
32
32
40
40
50
63
63
63
63
80
80
80
100
100
100
100
125
125
125
125
125
MOCP
* : SMMS model
9 Wiring Design
9 Wiring Design
5. Indoor unit power supply
• Electrical characteristics
Type
4-Way Air
Discharge
Cassette Type
Compact 4-way Cassette
(600 x 600) Type
2-Way Air
Discharge
Cassette Type
1-Way Air
Discharge
Cassette Type
Concealed Duct Type
Concealed Duct
High Static
Pressure Type
Slim Duct Type
Under Ceiling Type
High Wall Type
(1 series)
High Wall Type
(2 series)
High Wall Type
(3 series)
Floor Standing
Cabinet Type
Floor Standing
Concealed Type
Floor Standing Type
Fresh Air Intake Indoor Unit
Type
Model
MMU-AP0092H
MMU-AP0122H
MMU-AP0152H
MMU-AP0182H
MMU-AP0242H
MMU-AP0272H
MMU-AP0302H
MMU-AP0362H
MMU-AP0482H
MMU-AP0562H
MMU-AP0071MH
MMU-AP0091MH
MMU-AP0121MH
MMU-AP0151MH
MMU-AP0181MH
MMU-AP 0071 WH
MMU-AP 0091 WH
MMU-AP 0121 WH
MMU-AP 0151 WH
MMU-AP 0181 WH
MMU-AP 0241 WH
MMU-AP 0271 WH
MMU-AP 0301 WH
MMU-AP 0481 WH
MMU-AP 0071 YH
MMU-AP 0091 YH
MMU-AP 0121 YH
MMU-AP0152SH
MMU-AP0182SH
MMU-AP0242SH
MMD-AP 0071 BH
MMD-AP 0091 BH
MMD-AP 0121 BH
MMD-AP 0151 BH
MMD-AP 0181 BH
MMD-AP 0241 BH
MMD-AP 0271 BH
MMD-AP 0301 BH
MMD-AP 0361 BH
MMD-AP 0481 BH
MMD-AP 0561 BH
MMD-AP 0181 H
MMD-AP 0241 H
MMD-AP 0271 H
MMD-AP 0361 H
MMD-AP 0481 H
MMD-AP 0721 H
MMD-AP 0961 H
MMD-AP0071SPH
MMD-AP0091SPH
MMD-AP0121SPH
MMD-AP0151SPH
MMD-AP0181SPH
MMC-AP 0151 H
MMC-AP 0181 H
MMC-AP 0241 H
MMC-AP 0271 H
MMC-AP 0361 H
MMC-AP 0481 H
MMK-AP 0071 H
MMK-AP 0091 H
MMK-AP 0121 H
MMK-AP 0151 H
MMK-AP 0181 H
MMK-AP 0241 H
MMK-AP0072H
MMK-AP0092H
MMK-AP0122H
MMK-AP0073H
MMK-AP0093H
MMK-AP0123H
MMK-AP0153H
MMK-AP0183H
MMK-AP0243H
MML-AP 0071 H
MML-AP 0091 H
MML-AP 0121 H
MML-AP 0151 H
MML-AP 0181 H
MML-AP 0241 H
MML-AP 0071 BH
MML-AP 0091 BH
MML-AP 0121 BH
MML-AP 0151 BH
MML-AP 0181 BH
MML-AP 0241 BH
MMF-AP 0151 H
MMF-AP 0181 H
MMF-AP 0241 H
MMF-AP 0271 H
MMF-AP 0361 H
MMF-AP 0481 H
MMF-AP 0561 H
MMD-AP0481HFE
MMD-AP0721HFE
MMD-AP0961HFE
Voltage Range
Min
Max
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
198
264
Nominal Voltage
(V-Ph-Hz)
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
230-1-50
9 -3
Fan Motor
kW
FLA
0.014
0.63
0.014
0.63
0.014
0.80
0.014
0.80
0.020
0.87
0.020
0.87
0.020
0.87
0.068
1.15
0.072
1.15
0.072
1.15
0.060
0.32
0.060
0.35
0.060
0.36
0.060
0.48
0.060
0.48
0.053
0.36
0.053
0.36
0.053
0.36
0.039
0.37
0.039
0.37
0.053
0.53
0.053
0.53
0.053
0.54
0.092
1.33
0.022
0.28
0.022
0.28
0.022
0.28
0.030
0.40
0.030
0.42
0.030
0.71
0.120
0.33
0.120
0.33
0.120
0.39
0.120
0.39
0.120
0.50
0.120
0.60
0.120
0.60
0.120
0.70
0.120
0.96
0.120
1.13
0.120
1.13
0.160
0.93
0.160
1.55
0.160
1.55
0.260
1.87
0.260
2.12
0.370 x 3
6.04
0.370 x 3
6.35
0.060
0.35
0.060
0.35
0.060
0.37
0.060
0.38
0.060
0.47
0.030
0.33
0.030
0.37
0.040
0.48
0.040
0.48
0.080
0.90
0.080
0.96
0.030
0.35
0.030
0.35
0.030
0.35
0.030
0.37
0.030
0.37
0.030
0.40
0.030
0.20
0.030
0.21
0.030
0.22
0.030
0.20
0.030
0.22
0.030
0.22
0.030
0.37
0.030
0.37
0.030
0.43
0.045
0.30
0.045
0.30
0.045
0.49
0.045
0.49
0.070
0.54
0.070
0.54
0.019
0.29
0.019
0.29
0.019
0.29
0.070
0.52
0.070
0.52
0.070
0.53
0.037
0.77
0.037
0.77
0.063
1.01
0.063
1.01
0.110
1.48
0.160
1.84
0.160
1.84
0.160
0.28
0.16 x 2
0.45
0.16 x 2
0.52
Power Supply
MCA
MOCP
0.79
15
0.79
15
1.00
15
1.00
15
1.09
15
1.09
15
1.09
15
1.44
15
1.44
15
1.44
15
0.40
15
0.44
15
0.45
15
0.60
15
0.60
15
0.45
15
0.45
15
0.45
15
0.46
15
0.46
15
0.66
15
0.66
15
0.68
15
1.67
15
0.35
15
0.35
15
0.35
15
0.49
15
0.53
15
0.88
15
0.41
15
0.41
15
0.49
15
0.49
15
0.62
15
0.75
15
0.75
15
0.88
15
1.20
15
1.41
15
1.41
15
1.16
15
1.94
15
1.94
15
2.34
15
2.65
15
7.55
15
7.94
15
0.44
15
0.44
15
0.47
15
0.48
15
0.59
15
0.41
15
0.46
15
0.60
15
0.60
15
1.13
15
1.20
15
0.44
15
0.44
15
0.44
15
0.46
15
0.46
15
0.50
15
0.24
15
0.26
15
0.27
15
0.22
15
0.24
15
0.24
15
0.40
15
0.40
15
0.47
15
0.37
15
0.37
15
0.62
15
0.62
15
0.68
15
0.68
15
0.36
15
0.36
15
0.36
15
0.65
15
0.65
15
0.66
15
0.96
15
0.96
15
1.27
15
1.27
15
1.85
15
2.30
15
2.30
15
0.35
15
0.56
15
0.65
15
9 Wiring Design
• Wiring size
Must be independent from the outdoor unit power supply
Item
Model
2.0m2 (AWG#14)
All models of indoor units
Power supply wiring
Wire size
Max. 20m
3.5m2 (AWG#12)
Max. 50m
NOTE:
The above connecting lengths stated in the table, indicate the length from the isolator to the outdoor unit. When the
power supply of the indoor units are connected in parallel, it is assumed that no more than a 2% voltage drop will occur. If
the connecting length is to exceed the stated lengths, select a suitable wire in accordance with the local wiring standards.
6. Design of control wiring
• Summary of control wiring
Header outdoor
Central control
device
Follower outdoor
U1 U2 U3 U4 U5 U6
U1 U2
U3 U4
U1 U2 U3 U4 U5 U6
Control wiring between outdoor units (Shield wire)
Control wiring between indoor and outdoor units (Shield wire)
Control wiring between indoor units (Shield wire)
U1 U2 A B
Indoor unit
U1 U2 A B
Indoor unit
A B
Remote controller
U1 U2 A B
Indoor unit
Indoor unit
A B
A B
Remote controller
Remote controller
(Group control)
9 -4
U1 U2 A B
9 Wiring Design
• Restriction of control wiring
Be sure to keep the rule of below tables about size and length of control wiring.
Central control
device
Super modular multi system
U1 U2
U3 U4
Header
unit
Header
unit
Table-1
L4
Follower
unit
Follower
unit
Follower
unit
Header
unit
Follower
unit
U3 U4
U3 U4
U3 U4
U3 U4
U3 U4
U3 U4
U3 U4
U1 U2 U5 U6
U1 U2 U5 U6
U1 U2 U5 U6
U1 U2 U5 U6
U1 U2 U5 U6
U1 U2 U5 U6
U1 U2 U5 U6
Outdoor unit
Table-1
L5
L1
Table-2
L2
Indoor unit
U1 U2
U1 U2
A B
A B
U1 U2
L3
U1 U2
A B
U1 U2
A B
U1 U2
A B
Table-3
U1 U2
A B
A B
L7
Remote
controller
L6
Remote controller
Remote controller
Table-1 Control wiring between indoor and outdoor units (L1, L2, L3),
Central control wiring (L4)
Wiring
Type
Size/Length
2-core, non-polarity
Shield wire
1.25 mm2: Up to 1000 m/2.0 mm2: Up to 2000 m (*1)
Note (*1): Total length of control wiring length for all refrigerant circuits ( L1 + L2 + L3 + L4)
Table-2 Control wiring between outdoor units (L5)
Wiring
Type
Size/Length
2-core, non-polarity
Shield wire
1.25 mm2 to 2.0 mm2/Up to 100 m (L5)
Table-3 Remote controller wiring (L6, L7)
Wire
Size
Length
2-core
0.5 mm2 to 2.0 mm2
• Up to 500 m (L6 + L7)
• Up 400 m in case of wireless remote controller in group control.
• Up to 200 m total length of control wiring between indoor units (L6)
• Group Operation through a Remote Controller
Group operation of multiple indoor units (8 units) through a single remote controller switch
Indoor unit No.1
No.2
No.3
No.4
AB
AB
AB
AB
Remote
controller
(A.B)
9 -5
No.7
AB
No.8
AB
U1 U2
A B
10 -1
RS485
(Master)
Webserver
BMS-WB2561PWE
Notes:Co-existence
and
interoperability of each product
shall be referred to another
documents.
RS485
line
monitoring
TCC-LINK
TCC-LINK
Energy monitoring Relay I/F
Digital I/O Relay I/F
TCC-LINK
TCC-LINK
RS485
Digital I/O Relay I/F
BMS-IFDD03E
BMS-IFDDO3UL(U.S.)
System
Air-conditioning Management
Compressor operation /system
operation ratio(SMMS-i only)
Master ON/OFF signal
Error/operation output
Power peak-out control signal
Energy monitoring Relay I/F
Digital I/O Relay I/F
BMS-WB2561PWE Gateway
RS485
BMS-WB2561PWE Gateway
RS485
RS485
I/O
Device
Power Meter
Mini-SMMS
Master ON/OFF signal
Batch drive, error output
Schedule
timer
TCB-EXS21TLE
TCC-LINK
SMMS
SMMS-i
Wired remote controller
with Weekly timer
RBC-AMS41E
TCB-KBOS1E
for SDI4 only
Wired remote controller
RBC-AMT32(31)E
Simple remote controller
RBC-AS21E2
TCB-IFGSM1E
GSM REMOTE CONTROL I/F
TCB-PCNT30TLE2
TCC-Link Interface
“1:1 model” connection
External sw
General Purpose I/F
TCB-IFCG1TLE
Remote Sensor
TCB-TC21LE2
GSM Modem
Cable for connector
CN32(TCB-KBCN32VEE)
CN60(TCB-KBCN60OPE)
CN61(TCB-KBCN61HAE)
CN70(TCB-KBCN70OAE)
CN73(TCB-KBCN73DEE)
CN80(TCB-KBCN80EXE)
Cable for connector
CN32(TCB-KBCN32VEE)
CN60(TCB-KBCN60OPE)
CN61(TCB-KBCN61HAE)
CN70(TCB-KBCN70OAE)
CN73(TCB-KBCN73DEE)
CN80(TCB-KBCN80EXE)
Digital Inverter
Super Digital Inverter
Sensors/switch/key/actuator
Wireless remote
controller
Daiseikai
1.LonWorks : Registered trademark by Echelon corporation.
2.BACnet : ANSI/ASHRAE 135-1995,A data Communication Protocol for Building Automation and Control Network.
3.Modbus : Registered trademark by Schneider E.
Compliant Manager
BMS-CM1280TLE
Side remote Master remote
Remote ON/OFF
TCB IFCB-4E2
Central remote controller
TCB-SC642TLE2
Alarm Status output
ON/OFF Command
TCB-PCIN4E
Error output control board
Compressor operation /system operation ratio(SMMS-i only)
Error output control board
TCB-PCIN2E
External master ON/OFF board
TCB-PCMO2E
ON-OFF controller
TCB-CC163TLE2
I/O
Device
TCC-LINK
Power peak-out control
board TCB-PCDM2E
BMS-LSV4E
BMS-IFLSV4UL(U.S.)
TCS-Net Relay Interface
Energy monitoring Relay I/F
BMS-IFWH5E
Power Meter
BMS-IFWH5UL(U.S.)
Digital I/O Relay I/F
Energy
Relay I/F
BMS-LSV6E
RS485
BACnet Server
TCB-IFMB640TLE
RS485
TP
TCB-IFLN642TLE/TCB-IFLN642UL
DC
TCC-LINK
RS485
Compliant Manager
BMS-CM1280FTLE
Touch-screen Controller
BMS-TP0641ACE
BMS-TP5121ACE
BMS-TP0641PWE
BMS-TP5121PWE
BACnet
Modbus
BMS-WB01GTE Master Server
Intranet
*Monitoring
*Remote control
*Schedule
operation
*Error code indication
*Alarm list indication
*Monthly report
*Energy monitoring data etc.
Open
Op
en System
LONWORKS
.LonWorks
Analog I/F(DCvoltage)
TCB-IFCB640TLE
Air-conditioning Management System on site
10
SMMS-i Data book
Controls
1. Outline of application Control
10 Controls
2. Applications for indoor remote controller
Basic function
System diagram
Main remote
controller
2-1
Individual control
Air conditioner is
individually operated
at a distance.
Model
• Wired remote controller
Wireless remote
RBC-AMT32E
controller
RBC-AMT31E
• Wired remote controller with
weekly timer
Indoor
RBC-AMS41E
unit
• Simple wired remote controller
RBC-AS21E2
Receiver unit • Wireless remote controller kit
RBC-AX31U(W)-E
Wireless
RBC-AX31U(WS)-E
remote
RBC-AX22CE2
controller
TCB-AX21E2
Indoor
unit
(((
Remote
controller
Max.8 indoor units
2-2
GROUP control
One remote
controller can control
a group of up to a
max. 8 indoor units.
Operating on the
same setting.
Indoor
unit
Indoor
unit
Indoor
unit
Indoor
unit
Remote
controller
Wired & Wireless combination
control
(Either one of the two controllers
can be set as side control.)
Wired system
Indoor
unit
Indoor
unit
Remote
controller
Side
(
Remote
controller
Master
((
2-3
Two remote control
Air conditioner is
controlled by two
remote controllers in
two locations.
Remote
controller
Wireless system
Indoor
unit
((
(
(((
Wireless
remote
controller 1
Master
Wireless
remote
controller 2
Side
2-4
Wireless
remote
controller
When two wireless
remote controllers are
operated at the same
time, the communication
are not done by
interference of both
infrared rays.
Indoor
unit
Indoor
unit
SW setting at
schedule timer
is necessary.
TCC-LINK
Central
remote
controller
• Wired remote controller
RBC-AMT32E
RBC-AMT31E
• Wired remote controller with
weekly timer
RBC-AMS41E
• Simple wired remote controller
RBC-AS21E2
• Wireless remote controller kit
RBC-AX31U(W)-E
RBC-AX31U(WS)-E
RBC-AX22CE2
TCB-AX21E2
Weekly timer mode
Schedule timer mode
Control by
schedule timer
Schedule timer mode
and Weekly timer
mode
• Wired remote controller
RBC-AMT32E
RBC-AMT31E
• Wired remote controller with
weekly timer
RBC-AMS41E
• Simple wired remote controller
RBC-AS21E2
• Wireless remote controller kit
RBC-AX31U(W)-E
RBC-AX31U(WS)-E
RBC-AX22CE2
TCB-AX21E2
Schedule
timer
Wired
remote
controller
10 -2
Schedule
timer
• Wired remote controller
RBC-AMT32E
RBC-AMT31E
• Central remote controller
TCB-SC642TLE2
• Schedule timer
TCB-EXS21TLE
10 Controls
3. Application control for central remote controller
Basic function
System diagram
Model
Header
unit
Outdoor unit
U3, U4
Line-3
U5, U6
Zone
4
U1, U2
Header
unit
Indoor remote controller
Outdoor unit
U3, U4
U5, U6
Zone
3
Indoor unit
Line-2
Indoor unit
U1, U2
Zone
2
Indoor remote controller
Header
unit
U3, U4
Outdoor unit
Line-1
Zone
1
Indoor unit
U1, U2
Indoor remote controller
Power
Central
supply
remote controller
Single phase
220V
3-1
Central management
controllers for
64/128 units
Function of central remote controller
Controller for 64 units(TCB-SC642TLE2)
• Individual control up to 64 indoor units
• Individual control for max. 64 indoor units divided in to 4 zones
(Up to 16 indoor units for each zone)
• Up to 16 outdoor header units are connectable.
• Setting for one of 1 to 4 zones is available.
Controller for 128 units(BMS-CM1280TLE)
• Individual control of up to (64 indoor units) 2 TCC-LINK buses
• Individual control of up to (64 indoor units divided 1 to 64
zone) 2 TCC-LINK buses (Up to 64 indoor units for each zone)
• Up to 16 outdoor header units are connectable per 1 TCC-LINK
bus
• Setting for (one of 1 to 64 zones) 2ch is available.
• Setting for (one of 1 to 64 groups) 2ch is available.
• Return back setting
Common
• 4 types central control settings to restrict individual operation by
remote controller are selectable.
• Usable with other central control devices (Up to 10 central
control devices in one control circuit)
• Two control mode selectively Contral controller mode/Remote
controller mode
• Master/Sub setting possible
10 -3
• Central remote
controller
TCB-SC642TLE2
BMS-CM1280TLE
Indoor remote
controller
• Wired remote controller
RBC-AMT32E
RBC-AMT31E
• Wired remote controller
with weekly timer
RBC-AMS41E
• Simple wired remote
controller
RBC-AS21E2
• Wireless remote
controller kit
10 Controls
Basic function
System diagram
U3, U4
Model
Outdoor unit
Indoor unit
3-2
Central remote controller
+
Schedule timer
Weekly operation
schedule can be set
by connecting a
schedule timer to
the central remote
controller
U1, U2
Indoor remote controller
Indoor remote
controller
• Wired remote controller
RBC-AMT32E
RBC-AMT31E
• Wired remote controller
with weekly timer
RBC-AMS41E
• Simple wired remote
controller
RBC-AS21E2
• Wireless remote
controller kit
Single phase
220V
Power
supply
Schedule timer
Central
remote controller
U3, U4
• Central remote
controller
TCB-SC642TLE
RBC-CM1280TLE
+
• Schedule timer
TBC-EXS21TLE
Outdoor unit
U1, U2
Power
supply
Indoor unit
Central remote controller
Single phase
220V
Even when grouping operation is performed by
connecting multiple indoor units to 1 line, the
indoor remote controller is required.
Example of grouping operation
U3, U4
3-3
Either one of the two
controllers can be set as
side control without indoor
remote controller.
Outdoor unit
U1, U2
Power
supply
Single phase
220V
(Group)
Indoor remote controller is
required
Central remote controller
Available
U3, U4
Outdoor unit
U1, U2
Power
supply
Single phase
220V
(Group)
Available
Central remote controller
10 -4
• Central remote
controller
TCB-SC642TLE2
Indoor remote
controller
• Wired remote controller
RBC-AMT32E
RBC-AMT31E
• Wired remote controller
with weekly timer
RBC-AMS41E
• Wireless remote
controller kit
10 Controls
Basic function
System diagram
Power
supply
Model
Central remote controller
U3, U4
Header unit
Super MMS
U1, U2
3-4
Indoor unit
Central management
control with ‘‘1 : 1 model’’
*1
“1 : 1 model”
connection
interface
Indoor remote controller
* TOSHIBA Digital Inverter System and Super Digital Inverter
System
10 -5
• Central remote
controller
TCB-SC642TLE2
BMS-CM1280TLE
• ‘‘1 : 1 model’’
connection interface
TCB-PCNT30TLE2
High-wall type for
SDI/DI is not
necessary this.
4-way and compact
4-way cassette type
for SDI/DI need the
metal fitting kit
(TCB-PX30MUE).
Indoor remote
controller
• Wired remote controller
RBC-AMT32E
RBC-AMT31E
• Wired remote controller
with weekly timer
RBC-AMS41E
• Simple wired remote
controller
RBC-AS21E2
• Wireless remote
controller kit
10 Controls
4. Application control for network
Basic function
System diagram
Model
LON center
LON WORKS
LN Interface
TCB-
TCBTCBIFLN060 • • •
Super MMS
4-1-1
*1
LONWORKS
Remote controller
“1:1 model”
connection interface
• LN Interface
TCB-IFLN640TLE
• ‘‘1 : 1 model’’ connection
interface
TCB-PCNT30TLE2
High-wall type for SDI/DI is
not necessary this.
4-way and compact 4-way
cassette type for SDI/DI need
the metal fitting kit (TCBPX30MUE).
*1TOSHIBA Digital Inverter System and Super Digital Inverter
System
The LONWORKS interface should be connected between a
building management computer and a Super MMS air
conditioning system.
BACnet center
Intelligent
server
TCB-
■ BACnet server software
TCS-Net
Relay Interface
Super MMS
4-1-2
*1
BACnet
Remote controller
“1:1 model”
connection interface
*1TOSHIBA Digital Inverter System and Super Digital Inverter
System
• Intelligent server
BMS-LSV6E
• BACnet server software
BMS-STBN08E
• TCS-Net Relay Interface
BMS-IFLSV3E
• ‘‘1 : 1 model’’ connection
interface
TCB-PCNT30TLE2
High-wall type for SDI/DI is
not necessary this.
4-way and compact 4-way
cassette type for SDI/DI need
the metal fitting kit (TCBPX30MUE).
The local server should be connected to the BACnet network,
and the Super MMS air conditioning system through the
interface.
Modbus
Modbus
Interface
4-1-3
Modbus
TCB-
Super MMS
*1
Remote controller
“1:1 model”
connection interface
*1TOSHIBA Digital Inverter System and Super Digital Inverter
System
10 -6
• Modbus Interface
TCB-IFMB640TLE
• ‘‘1 : 1 model’’ connection
interface
TCB-PCNT30TLE2
High-wall type for SDI/DI is
not necessary this.
4-way and compact 4-way
cassette type for SDI/DI need
the metal fitting kit (TCBPX30MUE).
10 Controls
Touch screen controller system
System diagram
Max 64/512 Indoors/groups
Touch Screen Controller
1:1model
TCC-link bus
Connection I/F
Relay I/F
RS-485
Digital I/O signal
Max In3 /Out3
Max12
Ethernet
Fire alarm
Door key
etc
TCC-link bus
Relay I/F
Monthly report creation software
Energy monitoring Relay I/F
Max8
Power Meter
Pulse signal
Max8
4-2-1
Digital I/O Relay I/F
Digital I/O signal
Max8
Fire alarm
Door key
Error
Max In 8 /Out 4
Power meter:
Pulse width:50-1000ms
Pulse generator constants (kWh/pulse) 0.1-99.9
Model Name
Function
Devices
Touch Screen controller
Model Name
BMS-TP0641ACE
Specification
Max. 64 indoor units, without electrical bill calculation
BMS-TP5121ACE
Max. 512 indoor units, without electrical bill calculation
BMS-TP0641PWE
Max. 64 indoor units, with electrical bill calculation
BMS-TP5121PWE
Max. 512 indoor units, with electrical bill calculation
TCS-Net Relay Interface
BMS-IFLSV3E
I/F in between Touch Screen controller & Control wiring
Energy Monitoring Relay Interface
BMS-IFWH4E2
I/F for Power Meter
Digital I/O Relay Interface
BMS-IFDD02E2
I/F for I/O signal
(1) Monitoring air-conditioners
Operation status can be viewed according to a unit.
[Unit] All building, All tenants, Each tenant, Each area, Each air-conditioning system
[Monitoring contents] Operation and alarm status, Setting status for each air-conditioning system
(2) Operating of air-conditioners
Header/individual control can be performed according to a unit.
[Operating contents] ON/OFF, Operation setting (operation mode, air volume, louver position,
setting temp., restricted setting from remote location)
(3) Schedule operation
Air-conditioners are operated according to the set-up schedule/operation pattern.
Schedule operataion can be performed according to a unit.
[Operation pattern] Weekly pattern, special day pattern (4 pattern), Non-operation days pattern
(4) Alarm list display
The present alarm contents are list-displayed.
[Display contents] Alarm contents, Unit number, Generated time
(5) Alarm record display
The alarm history records are displayed.
[Display contents] Alarm contents, Unit number, Generated time
(6) Monthly report data extraction
Monthly report data is written to ‘‘Compact Flash’’. Monthly reports can be created according to a unit
using the monthly report software.
[Monthly report contents] The number of ON/OFF, Operating time, Results of energy monitoring
10 -7
10 Controls
Compliant Manager
System diagram
TCC-LINK LINE 1
Compliant Manager
TCC-LINK LINE 2
HUB
Local Supply (BMS-CM1280FTLE only)
4-2-2
Monitoring
Operation
Zone setting (64 zone x ~ 2)
Individual units operation (ON/OFF, Operation
mode, Setting temperature, Air volume, Filter
sign)
Operation restriction
Alarm display
Individual operation
Max. 128 indoor units
Return Back operation
Weekly Schedule Operation* (ON/OFF)
External control input
Status output
Fire alarm input
Alarm display
* accessory necessary
Web Application (WEB model only)
Network connection
Schedule operation (ON/OFF, Setting temperature, operation
mode and Remote control Permit/Prohibit)
Alarm history
Energy monitoring external connection*
* accessory necessary
• Compliant Manager
BMS-CM1280TLE
• Compliant Manager with WEB
BMS-CM1280FTLE
10 -8
10 Controls
WEB Based Controller
System diagram
System diagram for connecting 256FCUs or less
BMS-WB2561PWE
(Web Server)
TCS-Net Relay I/F
TCC-LINK
Ethernet
BMS-IFLSV3E
SMMS
SMMS
RS-485
HUB
TCS-Net Relay I/F
TCC-LINK
4-2-3
MiNi-SMMS
BMS-IFLSV3E
SMMS
I/F for Power Meter
(BMS-IFWH4E2)
Network, Intranet, connection
through LAN port
I/F for I/O signal
(BMS-IFDD02E2E)
Local Supply
WEB Based Controller
• Gateway Server
BMS-WB2561PWE
• TCS-Net Relay I/F
BMS-IFLSV3E
• Energy Monitoring Relay I/F
BMS-IFWH4E2
• Digital I/O Relay I/F
BMS-IFDD02E2
System diagram for connecting 257FCUs or more
TCS-Net
Relay I/F
BMS-WB01GTE
(Master Server)
TCC-LINK
SMMS
Ethernet
SMMS
BMS-WB2561PWE
(Gateway)
RS-485
TCS-Net
Relay I/F
TCC-LINK
SMMS
HUB
TCS-Net
Relay I/F
TCC-LINK
SMMS
4-2-4
MiNi-SMMS
SMMS
BMS-WB2561PWE
(Gateway)
RS-485
Network, Intranet, connection through LAN port
Enable to connector up to 2,048 FCUs
TCS-Net
Relay I/F
TCC-LINK
SMMS
I/F for Power Meter
(BMS-IFWH4E2)
Local Supply
I/F for I/O signal
(BMS-IFDD02E2E)
WEB Based Controller
• Master server
BMS-WB01GTE
• Gateway Server
BMS-WB2561PWE
• TCS-Net Relay I/F
BMS-IFLSV3E
• Energy Monitoring Relay I/F
BMS-IFWH4E2
• Digital I/O Relay I/F
BMS-IFDD02E2
10 -9
MiNi-SMMS
10 Controls
Application control of optional devices connectable to indoor units
[1] Remote location ON/OFF control box
Model
Name
Appearance
Features
TCB-IFCB-4E2
z Start and stop of the air conditioner is possible by a
external signal and indication of operation/alarm
externally.
Application
Function
• Monitoring
ON/OFF status (for indoor unit)
Alarm status (system & indoor unit stop)
• ON/OFF command
Air conditioner can be turned ON/OFF by
external signals.
The external ON/OFF signals will initiate the
signals shown below.
Operation
Interface
Display
Remote
Controller
Non-voltage
ON/OFF continious signal
ON/OFF
COM
[2] ‘‘1 : 1 model’’ connection interface
Model
Name
Appearance
Features
z Link adapter for ‘‘1 : 1 model’’ into super modular
multi network
1 : 1 model: Super digital inverter
Digital inverter
Connection of cables
TCB-PCNT30TLE2
ON-OFF
control
devices
Install optional P.C. board in Electrical parts box of
indoor unit.
Application
Central Remote
Controller
Wiring diagram of indoor P.C. board
Super MMS control wiring
1:1 model
connection
interface
Indoor units
Metal fitting kit (TCB-PX30MUE)
is necessary for 4-way and
Compact 4-way cassette type.
adoptor
Digital Inverter
Super Digital Inverter
Outdoor unit
10 -10
10 Controls
Application controls by optional P.C. board of outdoor unit
Application
TCB-PCMO4E
TCB-PCIN4E
Feature
[1] Power peak-cut Control
The upper limit capacity of the outdoor unit is restricted based on the power
peak cut request signal from outside.
TCB-PCDM4E
Model
name
* Install these optional
P.C.Board in the
inverter assembly of
the header outdoor
unit.
[2] Snowfall fan control
Outdoor fan is operated by a snowfall signal from outside.
[3] External master ON/OFF control
The outdoor unit starts or stops the system.
[4] Night operation (Sound reduction) control
Sound level can be reduced by restricting the compressor and fan speeds.
[5] Operation mode selection control
This control can restrict the selectable operation mode.
[6] Error/Operation output control
Error/operation are displayed and output.
[7] Compressor operation output control
Three compressor’s operation/stop output
[8] System operation output control
10 -11
11
SMMS-i Data book
Sound characteristics (NC curve)
Sound Pressure level data (NC CURVE)
Outdoor unit
Microphone
1. Single unit
MMY-MAP0501HT8-E, MAP0501T8-E
Sound pressure Level (dB(A))
Cooling
55.0
MMY-MAP0601HT8-E, MAP0601T8-E
<SMMS>
Heating
55.0
Sound pressure Level (dB(A))
Cooling
56.0
<SMMS>
Heating
56.0
90
90
Cooling
Cooling
80
Heating
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
80
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibiliy limits of
contuonous white noise
Audibiliy limits of
contuonous white noise
NC-20
NC-20
10
10
63
125
250
500
1000
2000
4000
63
8000
Octave band center frequency(Hz)
Cooling
55.0
250
500
1000
2000
8000
MMY-MAP1004HT8-E, MAP1004T8-E
Heating
56.0
Sound pressure Level (dB(A))
Cooling
57.0
Heating
58.0
90
90
Cooling
80
Cooling
80
Heating
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
4000
Octave band center frequency(Hz)
MMY-MAP0804HT8-E, MAP0804T8-E
Sound pressure Level (dB(A))
125
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibility limits of
continous white noise
Audibility limits of
continous white noise
NC-20
NC-20
10
10
63
125
250
500
1000
2000
4000
63
8000
Octave band center frequency(Hz)
125
250
500
1000
2000
4000
8000
Octave band center frequency(Hz)
11 -1
A
11 Sound characteristics (NC curve)
MMY-MAP1204HT8-E, MAP1204T8-E
Sound pressure Level (dB(A))
Cooling
59.0
MMY-MAP1404HT8-E, MAP1404T8-E
Heating
62.0
Sound pressure Level (dB(A))
90
Cooling
60.0
Heating
62.0
90
Cooling
Cooling
80
Heating
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
80
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibility limits of
continous white noise
Audibility limits of
continous white noise
NC-20
NC-20
10
10
63
125
250
500
1000
2000
4000
8000
63
Octave band center frequency(Hz)
125
250
500
1000
2000
4000
8000
Octave band center frequency(Hz)
MMY-MAP1604HT8-E, MAP1604T8-E
Sound pressure Level (dB(A))
Cooling
62.0
Heating
64.0
90
Cooling
Octave band sound pressure level dB(A)
80
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibility limits of
continous white noise
NC-20
10
63
125
250
500
1000
2000
4000
8000
Octave band center frequency(Hz)
11 -2
A
11 Sound characteristics (NC curve)
2. Combination
2.1 Standard model
MMY-AP2014HT8-E, AP2014T8-E
MMY-AP1814HT8-E, AP1814T8-E
Sound pressure Level (dB(A))
Cooling
59.5
Heating
60.5
Sound pressure Level (dB(A))
Cooling
60.0
Heating
61.0
90
90
Cooling
Cooling
80
Heating
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
80
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibility limits of
continous white noise
Audibility limits of
continous white noise
NC-20
NC-20
10
10
63
125
250
500
1000
2000
4000
63
8000
Octave band center frequency(Hz)
250
500
1000
2000
Heating
63.5
Sound pressure Level (dB(A))
Cooling
62.0
Heating
65.0
90
Cooling
Cooling
Cooling
Cooling
80
80
Octave band sound pressure level dB(A)
Heating
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibility limits of
continous white noise
Audibility limits of
continous white noise
NC-20
NC-20
10
10
63
125
250
500
1000
2000
4000
8000
63
125
Octave band center frequency(Hz)
Sound pressure Level (dB(A))
250
500
1000
2000
4000
8000
Octave band center frequency(Hz)
MMY-AP2614HT8-E, AP2614T8-E
MMY-AP2814HT8-E, AP2814T8-E
Cooling
63.5
Heating
65.0
Sound pressure Level (dB(A))
90
Cooling
64.0
Heating
66.5
90
Cooling
80
Cooling
Heating
80
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
8000
MMY-AP2414HT8-E, AP2414T8-E
Cooling
61.5
90
Octave band sound pressure level dB(A)
4000
Octave band center frequency(Hz)
MMY-AP2214HT8-E, AP2214T8-E
Sound pressure Level (dB(A))
125
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibiliy limits of
contuonous white noise
125
250
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibiliy limits of
contuonous white noise
NC-20
10
63
Heating
500
1000
2000
4000
NC-20
10
8000
63
Octave band center frequency(Hz)
125
250
500
1000
2000
4000
8000
Octave band center frequency(Hz)
11 -3
A
11 Sound characteristics (NC curve)
MMY-AP3014HT8-E, AP3014T8-E
Sound pressure Level (dB(A))
MMY-AP3214HT8-E, AP3214T8-E
Cooling
64.5
Heating
66.5
Sound pressure Level (dB(A))
90
Cooling
65.0
Heating
67.0
90
Cooling
Cooling
Heating
80
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
80
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibiliy limits of
contuonous white noise
Audibiliy limits of
contuonous white noise
NC-20
10
NC-20
10
63
125
250
500
1000
2000
4000
8000
63
125
Octave band center frequency(Hz)
MMY-AP3414HT8-E, AP3414T8-E
Sound pressure Level (dB(A))
250
500
1000
2000
Heating
66.0
Sound pressure Level (dB(A))
Cooling
64.0
Heating
67.0
90
Cooling
Cooling
80
80
Heating
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
8000
MMY-AP3614HT8-E, AP3614T8-E
Cooling
63.5
90
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibiliy limits of
contuonous white noise
Audibiliy limits of
contuonous white noise
NC-20
NC-20
10
10
63
125
250
500
1000
2000
4000
63
8000
125
Octave band center frequency(Hz)
Sound pressure Level (dB(A))
250
500
1000
2000
4000
8000
Octave band center frequency(Hz)
MMY-AP3814HT8-E, AP3814T8-E
MMY-AP4014HT8-E, AP4014T8-E
Cooling
65.0
Heating
67.0
Sound pressure Level (dB(A))
90
Cooling
65.0
Heating
67.5
90
Cooling
80
Cooling
80
Heating
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
4000
Octave band center frequency(Hz)
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibiliy limits of
contuonous white noise
Audibiliy limits of
contuonous white noise
NC-20
10
NC-20
10
63
125
250
500
1000
2000
4000
8000
63
Octave band center frequency(Hz)
11 -4
125
250
500
1000
2000
Octave band center frequency(Hz)
4000
8000
A
11 Sound characteristics (NC curve)
MMY-AP4214HT8-E, AP4214T8-E
Sound pressure Level (dB(A))
MMY-AP4414HT8-E, AP4414T8-E
Cooling
65.5
Heating
67.5
Sound pressure Level (dB(A))
90
Cooling
66.0
Heating
68.5
90
Cooling
Cooling
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
80
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
80
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibiliy limits of
contuonous white noise
Audibiliy limits of
contuonous white noise
NC-20
10
NC-20
10
63
125
250
500
1000
2000
4000
8000
63
Octave band center frequency(Hz)
250
500
1000
2000
8000
MMY-AP4814HT8-E, AP4814T8-E
Cooling
66.5
Heating
68.5
Sound pressure Level (dB(A))
Cooling
67.0
Heating
69.0
90
90
Cooling
Cooling
80
80
Heating
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
4000
Octave band center frequency(Hz)
MMY-AP4614HT8-E, AP4614T8-E
Sound pressure Level (dB(A))
125
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibiliy limits of
contuonous white noise
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibiliy limits of
contuonous white noise
NC-20
NC-20
10
63
125
250
500
1000
2000
4000
10
8000
63
Octave band center frequency(Hz)
125
250
500
1000
2000
4000
8000
Octave band center frequency(Hz)
2.1 High efficiency model
MMY-AP1624HT8-E, AP1624T8-E
Sound pressure Level (dB(A))
MMY-AP2424HT8-E, AP2424T8-E
Cooling
58.0
Heating
59.0
Sound pressure Level (dB(A))
90
Cooling
60.0
Heating
61.0
90
Cooling
Cooling
80
Heating
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
80
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibility limits of
continous white noise
Audibility limits of
continous white noise
NC-20
NC-20
10
10
63
125
250
500
1000
2000
4000
8000
63
125
250
500
1000
2000
4000
8000
Octave band center frequency(Hz)
Octave band center frequency(Hz)
11 -5
A
11 Sound characteristics (NC curve)
MMY-AP2624HT8-E, AP2624T8-E
Sound pressure Level (dB(A))
Cooling
60.5
MMY-AP2824HT8-E, AP2824T8-E
Heating
61.5
Sound pressure Level (dB(A))
90
Cooling
61.5
Heating
62.5
90
Cooling
Cooling
80
Heating
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
80
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibility limits of
continous white noise
Audibility limits of
continous white noise
NC-20
NC-20
10
10
63
125
250
500
1000
2000
4000
8000
63
125
500
1000
2000
Cooling
62.0
Heating
63.0
Sound pressure Level (dB(A))
Cooling
61.0
Heating
62.0
Cooling
Cooling
80
80
70
Octave band sound pressure level dB(A)
Heating
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibility limits of
continous white noise
Audibility limits of
continous white noise
NC-20
NC-20
10
10
63
125
250
500
1000
2000
4000
63
8000
125
MMY-AP3424HT8-E, AP3424T8-E
Sound pressure Level (dB(A))
Cooling
62.0
250
500
1000
2000
4000
8000
Octave band center frequency(Hz)
Octave band center frequency(Hz)
MMY-AP3624HT8-E, AP3624T8-E
Heating
63.0
Sound pressure Level (dB(A))
90
Cooling
62.5
Heating
63.5
90
Cooling
Cooling
80
80
Heating
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
8000
90
90
Octave band sound pressure level dB(A)
4000
MMY-AP3224HT8-E, AP3224T8-E
MMY-AP3024HT8-E, AP3024T8-E
Sound pressure Level (dB(A))
250
Octave band center frequency(Hz)
Octave band center frequency(Hz)
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibility limits of
continous white noise
Audibility limits of
continous white noise
NC-20
NC-20
10
10
63
125
250
500
1000
2000
4000
8000
63
Octave band center frequency(Hz)
125
250
500
1000
2000
4000
8000
Octave band center frequency(Hz)
11 -6
A
11 Sound characteristics (NC curve)
MMY-AP4024HT8-E, AP4024T8-E
MMY-AP3824HT8-E, AP3824T8-E
Sound pressure Level (dB(A))
Cooling
63.0
Heating
64.0
Sound pressure Level (dB(A))
Cooling
63.0
Heating
64.0
90
90
Cooling
Cooling
80
Heating
70
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
80
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibility limits of
continous white noise
Audibility limits of
continous white noise
NC-20
NC-20
10
10
63
125
250
500
1000
2000
4000
63
8000
MMY-AP4224HT8-E, AP4224T8-E
Sound pressure Level (dB(A))
Cooling
64.0
125
250
500
1000
2000
Sound pressure Level (dB(A))
Cooling
64.5
Heating
66.5
90
Cooling
Cooling
80
80
Heating
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
8000
MMY-AP4424HT8-E, AP4424T8-E
Heating
65.5
90
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibiliy limits of
contuonous white noise
Audibiliy limits of
contuonous white noise
NC-20
10
NC-20
10
63
125
250
500
1000
2000
4000
8000
63
Octave band center frequency(Hz)
Sound pressure Level (dB(A))
125
250
500
1000
2000
4000
8000
Octave band center frequency(Hz)
MMY-AP4824HT8-E, AP4824T8-E
MMY-AP4624HT8-E, AP4624T8-E
Cooling
65.0
Heating
67.5
Sound pressure Level (dB(A))
Cooling
65.0
Heating
68.0
90
90
Cooling
Cooling
80
80
Heating
Octave band sound pressure level dB(A)
Octave band sound pressure level dB(A)
4000
Octave band center frequency(Hz)
Octave band center frequency(Hz)
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Heating
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
Audibiliy limits of
contuonous white noise
Audibiliy limits of
contuonous white noise
NC-20
NC-20
10
10
63
125
250
500
1000
2000
Octave band center frequency(Hz)
4000
63
8000
125
250
500
1000
2000
4000
8000
Octave band center frequency(Hz)
11 -7
A
12
SMMS-i Data book
Technical Specifications
1. Outdoor unit
1.1 Specifications
Standard model (Single unit)
Equivalent HP
Heat Pump
Cooling Only
Model name
Outdoor unit type
Cooling capacity (*1)
Heating capacity (*1)
Power supply (*2)
MMYMMY(KW)
(KW)
Running current
(A)
Power consumption
(KW)
Power factor
(%)
Electrical
EER (Energy Efficiency Ratio) (KW/KW))
characteristics
Running current
(A)
(*1)
Power consumption
(KW)
Heating
Power factor
(%)
COP (Coefficient of Performance) (KW/KW))
External dimension (Height / Width / Depth)
(mm)
Heat Pump
(kg)
Total weight
Cooling only
(kg)
Colour
Type
Compressor
Motor output
(KW)
Fan
Fan unit
Motor output
(KW)
Air volume
(m3/h)
Heat exchanger
High-pressure switch
Protective devices
(mm)
Connecting Gas side
port
Liquid side
(mm)
diameter
Balance side
(mm)
Refrigerant piping
Gas side
Connecting
Liquid side
method
Balance side
Cooling
CDB
Operation temperature range
Heating
CWB
Sound pressure level (Cooling/Heating)
(dB(A))
Cooling
6HP (*)
MAP0601HT8-E
MAP0601T8-E
8HP
10HP
MAP0804HT8-E
MAP1004HT8-E
MAP0804T8-E
MAP1004T8-E
Inverter unit
14.0
16.0
22.4
28.0
16.0
18.0
25.0
31.5
3phase 4wires 50Hz 400V (380-415V)
5.85
7.28
8.50
11.4
3.65
4.64
5.40
7.41
90
92
92
94
3.84
3.45
4.15
3.78
6.09
7.08
8.8
11.80
3.84
4.56
5.53
7.50
91
93
91
92
4.17
3.95
4.52
4.20
1,800 / 990 / 750
1,830 / 990 / 780
228
242
227
241
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
1.1 x 2
1.4 x 2
2.3 x 2
3.1 x 2
Propeller fan
0.60
1.0
9,000
9,900
10,500
Finned tube
OFF: 2.9 ON: 3.73
(*3)
ø 15.9
ø 19.1
ø 22.2
ø 9.5
ø 12.7
ø 9.5
Flare
Brazing
Flare
Flare
-5 to 43
-20 to 15
55.0 / 55.0
56.0 / 56.0
55.0 / 56.0
57.0 / 58.0
MMYMMY-
14HP
MAP1404HT8-E
MAP1404T8-E
(KW)
(KW)
40.0
45.0
Running current
(A)
Power consumption
(KW)
Cooling
Power factor
(%)
Electrical
EER (Energy Efficiency Ratio) (KW/KW))
characteristics
Running current
(A)
(*1)
Power consumption
(KW)
Heating
Power factor
(%)
COP (Coefficient of Performance) (KW/KW))
External dimension (Height / Width / Depth)
(mm)
Heat Pump
(kg)
Total weight
Cooling only
(kg)
Colour
Type
Compressor
Motor output
(KW)
Fan
Fan unit
Motor output
(KW)
Air volume
(m3/h)
Heat exchanger
High-pressure switch
Protective devices
(mm)
Connecting Gas side
port
Liquid side
(mm)
diameter
Balance side
(mm)
Refrigerant piping
Gas side
Connecting
Liquid side
method
Balance side
Cooling
CDB
Operation temperature range
Heating
CWB
Sound pressure level (Cooling/Heating)
(dB(A))
17.7
11.5
94
3.48
17.6
11.2
92
4.02
Model name
Outdoor unit type
Cooling capacity (*1)
Heating capacity (*1)
Power supply (*2)
Equivalent HP
Heat Pump
Cooling Only
5HP (*)
MAP0501HT8-E
MAP0501T8-E
16HP
MAP1604HT8-E
MAP1604T8-E
Inverter unit
45.0
50.0
3phase 4wires 50Hz 400V (380-415V)
20.8
13.7
95
3.28
22.0
14.2
93
3.52
1,830 / 1,210 / 780
330
330
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
3.0 x 3
3.6 x 3
Propeller fan
1.0
12,000
13,000
Finned tube
OFF: 2.9 ON: 3.73
(*3)
ø 28.6
ø 15.9
ø 9.5
Brazing
Flare
Flare
-5 to 43
-20 to 15
60.0 / 62.0
Note
*1 :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C 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 flucture more than ±10%.
*3 :Discharge temp. sensor / Suction temp. sensor / High-pressure sensor / Low-pressure sensor / High-pressure switch / Over-current relay
12 -1
62.0 / 64.0
12HP
MAP1204HT8-E
MAP1204T8-E
33.5
37.5
14.7
9.55
94
3.51
16.0
10.2
92
3.68
4.2 x 2
11,600
ø 28.6
59.0 / 62.0
12 Technical Specifications
Standard model (Combination)
Equivalent HP
Heat Pump
Cooling Only
Set model name
MMYMMY-
Outdoor unit type
Outdoor unit model
Heat Pump
Cooling Only
(*1)
Cooling capacity
Heating capacity (*1)
Power supply (*2)
MMYMMY(KW)
(KW)
Running current
(A)
Power consumption
(KW)
Power factor
(%)
Electrical
EER (Energy Efficiency Ratio) (KW/KW))
characteristics
Running current
(A)
(*1)
Power consumption
(KW)
Heating
Power factor
(%)
COP (Coefficient of Performance) (KW/KW))
External dimension (Height / Width / Depth)
(mm)
Heat Pump
(kg)
Total weight
Cooling only
(kg)
Colour
Type
Compressor
Motor output
(KW)
Fan
Motor output
(KW)
Fan unit
Air volume
(m3/h)
Heat exchanger
High-pressure switch
Protective devices
(mm)
Connecting Gas side
port
Liquid side
(mm)
diameter
Balance side
(mm)
Refrigerant piping
Gas side
Connecting
Liquid side
method
Balance side
Cooling
CDB
Operation temperature range
Heating
CWB
Sound pressure level (Cooling/Heating)
(dB(A))
Cooling
Set model name
Equivalent HP
Heat Pump
Cooling Only
MMYMMY-
Equivalent to 18HP
AP1814HT8-E
AP1814T8-E
Equivalent to 20HP
AP2014HT8-E
AP2014T8-E
Inverter unit
MAP1004HT8-E
MAP0804HT8-E
MAP1004HT8-E
MAP1004HT8-E
MAP1004T8-E
MAP0804T8-E
MAP1004T8-E
MAP1004T8-E
50.4
56.0
56.5
63.0
3phase 4wires 50Hz 400V (380-415V)
19.9
22.8
12.81
14.82
93
94
3.93
3.78
20.5
23.5
13.03
15.00
92
92
4.34
4.20
1,830 / 990 / 780
242
242
242
242
241
241
241
241
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
3.1 x 2
2.3 x 2
3.1 x 2
3.1 x 2
Propeller fan
1.0
1.0
1.0
1.0
10,500
9,900
10,500
10,500
Finned tube
OFF: 2.9 ON: 3.73
(*3)
ø 28.6
ø 15.9
ø 9.5
Brazing
Flare
Flare
-5 to 43
-20 to 15
59.5 / 60.5
60.0 / 61.0
Equivalent to 24HP
AP2414HT8-E
AP2414T8-E
Outdoor unit type
Outdoor unit model
Cooling capacity (*1)
Heating capacity (*1)
Power supply (*2)
Heat Pump
Cooling Only
MMYMMY(KW)
(KW)
Running current
(A)
Power consumption
(KW)
Power factor
(%)
Electrical
EER (Energy Efficiency Ratio) (KW/KW))
characteristics
Running current
(A)
(*1)
Power consumption
(KW)
Heating
Power factor
(%)
COP (Coefficient of Performance) (KW/KW))
External dimension (Height / Width / Depth)
(mm)
Heat Pump
(kg)
Total weight
Cooling only
(kg)
Colour
Type
Compressor
Motor output
(KW)
Fan
Fan unit
Motor output
(KW)
Air volume
(m3/h)
Heat exchanger
High-pressure switch
Protective devices
(mm)
Connecting Gas side
Liquid side
(mm)
port
diameter
Balance side
(mm)
Refrigerant piping
Gas side
Connecting Liquid side
method
Balance side
Cooling
CDB
Operation temperature range
Heating
CWB
Sound pressure level (Cooling/Heating)
(dB(A))
MAP1204HT8-E
MAP1204T8-E
MAP1204HT8-E
MAP1204T8-E
68.0
76.5
30.2
19.66
94
3.46
33.2
21.13
92
3.62
1,830 / 990 / 780
Cooling
242
241
242
241
4.2 x 2
4.2 x 2
1.0
11,600
1.0
11,600
62.0 / 65.0
Note
*1 :Rated conditions
Equivalent to 26HP
AP2614HT8-E
AP2614T8-E
Inverter unit
MAP1604HT8-E
MAP1004HT8-E
MAP1604T8-E
MAP1004T8-E
73.0
81.5
3phase 4wires 50Hz 400V (380-415V)
32.2
21.11
95
3.46
33.8
21.70
93
3.76
1,830/1,210/780
1,830/990/780
330
242
330
241
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
3.6 x 3
3.1 x 2
Propeller fan
1.0
1.0
13,000
10,500
Finned tube
OFF: 2.9 ON: 3.73
(*3)
ø 34.9
ø 19.1
ø 9.5
Brazing
Flare
Flare
-5 to 43
-20 to 15
63.5 / 65.0
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C 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 flucture more than ±10%.
*3 :Discharge temp. sensor / Suction temp. sensor / High-pressure sensor / Low-pressure sensor / High-pressure switch / Over-current relay
12 -2
Equivalent to 22HP
AP2214HT8-E
AP2214T8-E
MAP1204HT8-E
MAP1204T8-E
MAP1004HT8-E
MAP1004T8-E
61.5
69.0
26.0
16.96
94
3.63
27.8
17.70
92
3.90
242
241
242
241
4.2 x 2
3.1 x 2
1.0
11,600
1.0
10,500
ø 34.9
ø 19.1
61.5 / 63.5
Equivalent to 28HP
AP2814HT8-E
AP2814T8-E
MAP1604HT8-E
MAP1604T8-E
MAP1204HT8-E
MAP1204T8-E
78.5
88.0
35.5
23.25
95
3.38
38.4
24.65
93
3.57
1,830/1,210/780
1,830/990/780
330
242
330
241
3.6 x 3
4.2 x 2
1.0
13,000
1.0
11,600
64.0 / 66.5
12 Technical Specifications
Equivalent HP
Heat Pump
Cooling Only
Set model name
MMYMMY-
Outdoor unit type
Outdoor unit model
Heat Pump
Cooling Only
Cooling capacity (*1)
Heating capacity (*1)
Power supply (*2)
MMYMMY(KW)
(KW)
Running current
(A)
Power consumption
(KW)
Power factor
(%)
Electrical
EER (Energy Efficiency Ratio) (KW/KW))
characteristics
Running current
(A)
(*1)
Power consumption
(KW)
Heating
Power factor
(%)
COP (Coefficient of Performance) (KW/KW))
External dimension (Height / Width / Depth)
(mm)
Heat Pump
(kg)
Total weight
Cooling only
(kg)
Colour
Type
Compressor
Motor output
(KW)
Fan
Fan unit
Motor output
(KW)
Air volume
(m3/h)
Heat exchanger
High-pressure switch
Protective devices
(mm)
Connecting Gas side
port
Liquid side
(mm)
diameter
Balance side
(mm)
Refrigerant piping
Gas side
Connecting
Liquid side
method
Balance side
Cooling
CDB
Operation temperature range
Heating
CWB
Sound pressure level (Cooling/Heating)
(dB(A))
Cooling
Equivalent HP
Heat Pump
Cooling Only
Set model name
MMYMMY-
Outdoor unit type
Outdoor unit model
(*1)
Cooling capacity
Heating capacity (*1)
Power supply (*2)
Heat Pump
Cooling Only
MMYMMY(KW)
(KW)
Running current
(A)
Power consumption
(KW)
Power factor
(%)
Electrical
EER (Energy Efficiency Ratio) (KW/KW))
characteristics
Running current
(A)
(*1)
Power consumption
(KW)
Heating
Power factor
(%)
COP (Coefficient of Performance) (KW/KW))
External dimension (Height / Width / Depth)
(mm)
Heat Pump
(kg)
Total weight
Cooling only
(kg)
Colour
Type
Compressor
Motor output
(KW)
Fan
Motor output
(KW)
Fan unit
Air volume
(m3/h)
Heat exchanger
High-pressure switch
Protective devices
(mm)
Connecting Gas side
Liquid side
(mm)
port
diameter
Balance side
(mm)
Refrigerant piping
Gas side
Connecting
Liquid side
method
Balance side
Cooling
CDB
Operation temperature range
Heating
CWB
Sound pressure level (Cooling/Heating)
(dB(A))
Cooling
Equivalent to 30HP
AP3014HT8-E
AP3014T8-E
Equivalent to 32HP
Equivalent to 34HP
AP3214HT8-E
AP3414HT8-E
AP3214T8-E
AP3414T8-E
Inverter unit
MAP1604HT8-E MAP1404HT8-E MAP1604HT8-E MAP1604HT8-E MAP1204HT8-E MAP1204HT8-E MAP1004HT8-E
MAP1604T8-E MAP1404T8-E MAP1604T8-E MAP1604T8-E MAP1204T8-E MAP1204T8-E MAP1004T8-E
85.0
90.0
96.0
95.0
100.0
108.0
3phase 4wires 50Hz 400V (380-415V)
38.5
41.6
41.5
25.20
27.40
27.06
95
95
94
3.37
3.28
3.55
39.6
44.1
44.9
25.40
28.40
28.60
93
93
92
3.74
3.52
3.78
1,830 / 1,210 / 780
1,830 / 990 / 780
330
330
330
330
242
242
242
330
330
330
330
241
241
241
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
3.6 x 3
3.0 x 3
3.6 x 3
3.6 x 3
4.2 x 2
4.2 x 2
3.1 x 2
Propeller fan
1.0
1.0
1.0
1.0
1.0
1.0
1.0
13,000
12,000
13,000
13,000
11,600
11,600
10,500
Finned tube
OFF: 2.9 ON: 3.73
(*3)
ø 34.9
ø 19.1
ø 9.5
Brazing
Flare
Flare
-5 to 43
-20 to 15
64.5 / 66.5
65.0 / 67.0
63.5 / 66.0
Equivalent to 36HP
AP3614HT8-E
AP3614T8-E
Equivalent to 38HP
Equivalent to 40HP
AP3814HT8-E
AP4014HT8-E
AP3814T8-E
AP4014T8-E
Inverter unit
MAP1204HT8-E MAP1204HT8-E MAP1204HT8-E MAP1604HT8-E MAP1204HT8-E MAP1004HT8-E MAP1604HT8-E MAP1204HT8-E MAP1204HT8-E
MAP1204T8-E MAP1204T8-E MAP1204T8-E MAP1604T8-E MAP1204T8-E MAP1004T8-E MAP1604T8-E MAP1204T8-E MAP1204T8-E
101.0
106.5
112.0
113.0
119.5
127.0
3phase 4wires 50Hz 400V (380-415V)
44.4
46.9
50.1
28.93
30.66
32.80
94
94
94
3.49
3.47
3.41
48.4
50.2
55.1
30.84
32.14
35.29
92
92
92
3.66
3.72
3.60
1,830 / 990 / 780
1,830/1,210/780
1,830 / 990 / 780
1,830/1,210/780
1,830 / 990 / 780
242
242
242
330
242
242
330
242
242
241
241
241
330
241
241
330
241
241
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
4.2 x 2
4.2 x 2
4.2 x 2
3.6 x 3
4.2 x 2
3.1 x 2
3.6 x 3
4.2 x 2
4.2 x 2
Propeller fan
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
11,600
11,600
11,600
13,000
11,600
10,500
13,000
11,600
11,600
Finned tube
OFF: 2.9 ON: 3.73
(*3)
ø 41.3
ø 22.2
ø 9.5
Brazing
Flare
Flare
-5 to 43
-20 to 15
64.0 / 67.0
65.0 / 67.0
65.0 / 67.5
Note
*1 :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C 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 flucture more than ±10%.
*3 :Discharge temp. sensor / Suction temp. sensor / High-pressure sensor / Low-pressure sensor / High-pressure switch / Over-current relay
12 -3
12 Technical Specifications
Equivalent HP
Heat Pump
Cooling Only
Set model name
Equivalent to 42HP
AP4214HT8-E
AP4214T8-E
MMYMMY-
Outdoor unit type
Outdoor unit model
Heat Pump
Cooling Only
Cooling capacity (*1)
Heating capacity (*1)
Power supply (*2)
MMYMMY(KW)
(KW)
MAP1404HT8-E
MAP1404T8-E
118.0
132.0
Equivalent HP
Heat Pump
Cooling Only
53.1
34.47
94
3.42
55.4
35.46
92
3.72
1,830 / 1,210 / 780
330
330
330
330
3.6 x 3
3.0 x 3
1.0
13,000
1.0
12,000
65.5 / 67.5
(*1)
Cooling capacity
Heating capacity (*1)
Power supply (*2)
MAP1604HT8-E
MAP1604T8-E
123.5
138.0
Heat Pump
Cooling Only
MMYMMY(KW)
(KW)
Running current
(A)
Power consumption
(KW)
Cooling
Power factor
(%)
Electrical
EER (Energy Efficiency Ratio) (KW/KW))
characteristics
Running current
(A)
(*1)
Power consumption
(KW)
Heating
Power factor
(%)
COP (Coefficient of Performance) (KW/KW))
External dimension (Height / Width / Depth)
(mm)
Heat Pump
(kg)
Total weight
Cooling only
(kg)
Colour
Type
Compressor
Motor output
(KW)
Fan
Motor output
(KW)
Fan unit
Air volume
(m3/h)
Heat exchanger
High-pressure switch
Protective devices
(mm)
Connecting Gas side
Liquid side
(mm)
port
diameter
Balance side
(mm)
Refrigerant piping
Gas side
Connecting
Liquid side
method
Balance side
Cooling
CDB
Operation temperature range
Heating
CWB
Sound pressure level (Cooling/Heating)
(dB(A))
56.3
36.95
95
3.34
60.5
38.85
93
3.55
1,830/990/780
1,830 / 1,210 / 780
242
330
330
241
330
330
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
4.2 x 2
3.6 x 3
3.6 x 3
Propeller fan
1.0
1.0
1.0
11,600
13,000
13,000
Finned tube
OFF: 2.9 ON: 3.73
(*3)
ø 41.3
ø 22.2
ø 9.5
Brazing
Flare
Flare
-5 to 43
-20 to 15
65.0 / 68.5
Equivalent to 46HP
AP4614HT8-E
AP4614T8-E
MMYMMY-
Outdoor unit type
Outdoor unit model
Inverter unit
MAP1204HT8-E
MAP1604HT8-E
MAP1204T8-E
MAP1604T8-E
MAP1204HT8-E
MAP1204T8-E
3phase 4wires 50Hz 400V (380-415V)
Running current
(A)
Power consumption
(KW)
Cooling
Power factor
(%)
Electrical
EER (Energy Efficiency Ratio) (KW/KW))
characteristics
Running current
(A)
(*1)
Power consumption
(KW)
Heating
Power factor
(%)
COP (Coefficient of Performance) (KW/KW))
External dimension (Height / Width / Depth)
(mm)
Heat Pump
(kg)
Total weight
Cooling only
(kg)
Colour
Type
Compressor
Motor output
(KW)
Fan
Fan unit
Motor output
(KW)
Air volume
(m3/h)
Heat exchanger
High-pressure switch
Protective devices
(mm)
Connecting Gas side
port
Liquid side
(mm)
diameter
Balance side
(mm)
Refrigerant piping
Gas side
Connecting
Liquid side
method
Balance side
Cooling
CDB
Operation temperature range
Heating
CWB
Sound pressure level (Cooling/Heating)
(dB(A))
Set model name
MAP1604HT8-E
MAP1604T8-E
Equivalent to 44HP
AP4414HT8-E
AP4414T8-E
MAP1604HT8-E
MAP1604T8-E
MAP1604HT8-E
MAP1604T8-E
130.0
145.0
1,830 / 990 / 780
242
241
4.2 x 2
1.0
11,600
Equivalent to 48HP
AP4814HT8-E
AP4814T8-E
Inverter unit
MAP1404HT8-E
MAP1604HT8-E
MAP1404T8-E
MAP1604T8-E
MAP1604HT8-E
MAP1604T8-E
135.0
150.0
MAP1604HT8-E
MAP1604T8-E
3phase 4wires 50Hz 400V (380-415V)
59.3
38.90
95
3.34
61.7
39.60
93
3.66
330
330
330
330
3.6 x 3
3.6 x 3
1.0
13,000
1.0
13,000
62.4
41.10
95
3.28
66.1
42.60
93
3.52
1,830 / 1,210 / 780
330
330
330
330
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
3.0 x 3
3.6 x 3
Propeller fan
1.0
1.0
12,000
13,000
Finned tube
OFF: 2.9 ON: 3.73
(*3)
ø 41.3
ø 22.2
ø 9.5
Brazing
Flare
Flare
-5 to 43
-20 to 15
66.5 / 68.5
Note
*1 :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C 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 flucture more than ±10%.
*3 :Discharge temp. sensor / Suction temp. sensor / High-pressure sensor / Low-pressure sensor / High-pressure switch / Over-current relay
12 -4
330
330
330
330
3.6 x 3
3.6 x 3
1.0
13,000
1.0
13,000
67.0 / 69.0
12 Technical Specifications
High efficiency model (Combination)
Equivalent HP
Heat Pump
Cooling Only
Set model name
Equivalent to 16HP
AP1624HT8-E
AP1624T8-E
MMYMMY-
Equivalent to 24HP
AP2424HT8-E
AP2424T8-E
Outdoor unit type
Outdoor unit model
Heat Pump
Cooling Only
Cooling capacity (*1)
Heating capacity (*1)
Power supply (*2)
MMYMMY(KW)
(KW)
Running current
(A)
Power consumption
(KW)
Power factor
(%)
Electrical
EER (Energy Efficiency Ratio) (KW/KW))
characteristics
Running current
(A)
(*1)
Power consumption
(KW)
Heating
Power factor
(%)
COP (Coefficient of Performance) (KW/KW))
External dimension (Height / Width / Depth)
(mm)
Heat Pump
(kg)
Total weight
Cooling only
(kg)
Colour
Type
Compressor
Motor output
(KW)
Fan
Fan unit
Motor output
(KW)
Air volume
(m3/h)
Heat exchanger
High-pressure switch
Protective devices
(mm)
Connecting Gas side
port
Liquid side
(mm)
diameter
Balance side
(mm)
Refrigerant piping
Gas side
Connecting Liquid side
method
Balance side
Cooling
CDB
Operation temperature range
Heating
CWB
Sound pressure level (Cooling/Heating)
(dB(A))
MAP0804HT8-E
MAP0804T8-E
45.0
50.0
17.1
10.89
92
4.13
17.5
11.06
91
4.52
Cooling
Equivalent HP
Heat Pump
Cooling Only
Set model name
MAP0804HT8-E
MAP0804T8-E
242
241
242
241
2.3 x 2
2.3 x 2
1.0
9,900
1.0
9,900
ø 28.6
ø 15.9
58.0 / 59.0
(*1)
Cooling capacity
Heating capacity (*1)
Power supply (*2)
Heat Pump
Cooling Only
MMYMMY(KW)
(KW)
Running current
(A)
Power consumption
(KW)
Cooling
Power factor
(%)
Electrical
EER (Energy Efficiency Ratio) (KW/KW))
characteristics
Running current
(A)
(*1)
Power consumption
(KW)
Heating
Power factor
(%)
COP (Coefficient of Performance) (KW/KW))
External dimension (Height / Width / Depth)
(mm)
Heat Pump
(kg)
Total weight
Cooling only
(kg)
Colour
Type
Compressor
Motor output
(KW)
Fan
Fan unit
Motor output
(KW)
Air volume
(m3/h)
Heat exchanger
High-pressure switch
Protective devices
(mm)
Connecting Gas side
port
Liquid side
(mm)
diameter
Balance side
(mm)
Refrigerant piping
Gas side
Connecting
Liquid side
method
Balance side
Cooling
CDB
Operation temperature range
Heating
CWB
Sound pressure level (Cooling/Heating)
(dB(A))
MAP0804HT8-E
MAP0804T8-E
68.0
76.5
3phase 4wires 50Hz 400V (380-415V)
26.0
16.58
92
4.10
27.3
17.18
91
4.45
1,830 / 990 / 780
242
242
241
241
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
2.3 x 2
2.3 x 2
Propeller fan
1.0
1.0
9,900
9,900
Finned tube
OFF: 2.9 ON: 3.73
(*3)
ø 34.9
ø 19.1
ø 9.5
Brazing
Flare
Flare
-5 to 43
-20 to 15
60.0 / 61.0
Equivalent to 26HP
AP2624HT8-E
AP2624T8-E
MMYMMY-
Outdoor unit type
Outdoor unit model
Inverter unit
MAP0804HT8-E
MAP0804T8-E
MAP1004HT8-E
MAP1004T8-E
MAP0804HT8-E
MAP0804T8-E
73.0
81.5
MAP0804HT8-E
MAP0804T8-E
242
241
2.3 x 2
1.0
9,900
Equivalent to 28HP
AP2824HT8-E
AP2824T8-E
Inverter unit
MAP0804HT8-E
MAP1004HT8-E
MAP0804T8-E
MAP1004T8-E
MAP1004HT8-E
MAP1004T8-E
78.5
88.0
MAP0804HT8-E
MAP0804T8-E
3phase 4wires 50Hz 400V (380-415V)
28.5
18.31
93
3.99
29.3
18.56
91
4.39
242
241
242
241
3.1 x 2
2.3 x 2
1.0
10,500
1.0
9,900
31.3
20.27
94
3.87
32.3
20.53
92
4.29
1,830 / 990 / 780
242
242
241
241
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
2.3 x 2
3.1 x 2
Propeller fan
1.0
1.0
9,900
10,500
Finned tube
OFF: 2.9 ON: 3.73
(*3)
ø 34.9
ø 19.1
ø 9.5
Brazing
Flare
Flare
-5 to 43
-20 to 15
60.5 / 61.5
Note
*1 :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C 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 flucture more than ±10%.
*3 :Discharge temp. sensor / Suction temp. sensor / High-pressure sensor / Low-pressure sensor / High-pressure switch / Over-current relay
12 -5
242
241
242
241
3.1 x 2
2.3 x 2
1.0
10,500
1.0
9,900
61.5 / 62.5
12 Technical Specifications
Set model name
Equivalent HP
Heat Pump
Cooling Only
Equivalent to 30HP
AP3024HT8-E
AP3024T8-E
MMYMMY-
Equivalent to 32HP
AP3224HT8-E
AP3224T8-E
Outdoor unit type
Outdoor unit model
Heat Pump
Cooling Only
Cooling capacity (*1)
Heating capacity (*1)
Power supply (*2)
MMYMMY(KW)
(KW)
Running current
(A)
Power consumption
(KW)
Power factor
(%)
Electrical
EER (Energy Efficiency Ratio) (KW/KW))
characteristics
Running current
(A)
(*1)
Power consumption
(KW)
Heating
Power factor
(%)
COP (Coefficient of Performance) (KW/KW))
External dimension (Height / Width / Depth)
(mm)
Heat Pump
(kg)
Total weight
Cooling only
(kg)
Colour
Type
Compressor
Motor output
(KW)
Fan
Fan unit
Motor output
(KW)
Air volume
(m3/h)
Heat exchanger
High-pressure switch
Protective devices
(mm)
Connecting Gas side
port
Liquid side
(mm)
diameter
Balance side
(mm)
Refrigerant piping
Gas side
Connecting
Liquid side
method
Balance side
Cooling
CDB
Operation temperature range
Heating
CWB
Sound pressure level (Cooling/Heating)
(dB(A))
MAP1004HT8-E
MAP1004T8-E
34.9
22.75
94
3.74
35.6
22.71
92
4.18
Cooling
Set model name
Equivalent HP
Heat Pump
Cooling Only
Outdoor unit type
Outdoor unit model
Heat Pump
Cooling Only
Cooling capacity (*1)
Heating capacity (*1)
Power supply (*2)
Running current
Power consumption
Power factor
Electrical
EER (Energy Efficiency Ratio)
characteristics
Running current
(*1)
Power consumption
Heating
Power factor
COP (Coefficient of Performance)
External dimension (Height / Width / Depth)
Heat Pump
Total weight
Cooling only
Colour
Type
Compressor
Motor output
Fan
Motor output
Fan unit
Air volume
Heat exchanger
High-pressure switch
Protective devices
Connecting Gas side
Liquid side
port
diameter
Balance side
Refrigerant piping
Gas side
Connecting
Liquid side
method
Balance side
Cooling
Operation temperature range
Heating
Sound pressure level (Cooling/Heating)
Cooling
MMYMMY-
MAP1004HT8-E
MAP1004T8-E
85.0
95.0
242
241
242
241
3.1 x 2
3.1 x 2
1.0
10,500
1.0
10,500
62.0 / 63.0
MAP1004HT8-E
MAP1004T8-E
Inverter unit
MAP0804HT8-E
MAP0804T8-E
MAP0804HT8-E
MAP0804HT8-E
MAP0804T8-E
MAP0804T8-E
90.0
100.0
3phase 4wires 50Hz 400V (380-415V)
34.2
21.79
92
4.13
35.1
22.12
91
4.52
1,830 / 990 / 780
242
242
242
242
241
241
241
241
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
3.1 x 2
2.3 x 2
2.3 x 2
2.3 x 2
Propeller fan
1.0
1.0
1.0
1.0
10,500
9,900
9,900
9,900
Finned tube
OFF: 2.9 ON: 3.73
(*3)
ø 34.9
ø 19.1
ø 9.5
Brazing
Flare
Flare
-5 to 43
-20 to 15
61.0 / 62.0
Equivalent to 34HP
AP3424HT8-E
AP3424T8-E
MAP0804HT8-E
MAP0804T8-E
242
241
2.3 x 2
1.0
9,900
Equivalent to 36HP
AP3624HT8-E
AP3624T8-E
Inverter unit
MMY- MAP1004HT8-E MAP0804HT8-E MAP0804HT8-E MAP0804HT8-E MAP1004HT8-E MAP1004HT8-E MAP0804HT8-E MAP0804HT8-E
MMY- MAP1004T8-E MAP0804T8-E MAP0804T8-E MAP0804T8-E MAP1004T8-E MAP1004T8-E MAP0804T8-E MAP0804T8-E
(KW)
96.0
101.0
(KW)
108.0
113.0
3phase 4wires 50Hz 400V (380-415V)
(A)
37.4
39.9
(KW)
24.00
25.72
(%)
93
93
(KW/KW))
4.00
3.93
(A)
39.0
41.1
(KW)
24.70
26.06
(%)
91
92
(KW/KW))
4.37
4.34
(mm)
1,830 / 990 / 780
(kg)
242
242
242
242
242
242
242
242
(kg)
241
241
241
241
241
241
241
241
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
(KW)
3.1 x 2
2.3 x 2
2.3 x 2
2.3 x 2
3.1 x 2
3.1 x 2
2.3 x 2
2.3 x 2
Propeller fan
(KW)
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
(m3/h)
10,500
9,900
9,900
9,900
10,500
10,500
9,900
9,900
Finned tube
OFF: 2.9 ON: 3.73
(*3)
(mm)
ø 34.9
ø 41.3
(mm)
ø 19.1
ø 22.2
(mm)
ø 9.5
Brazing
Flare
Flare
CDB
-5 to 43
CWB
-20 to 15
(dB(A))
62.0 / 63.0
62.5 / 63.5
Note
*1 :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C 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 flucture more than ±10%.
*3 :Discharge temp. sensor / Suction temp. sensor / High-pressure sensor / Low-pressure sensor / High-pressure switch / Over-current relay
12 -6
12 Technical Specifications
Set model name
Equivalent HP
Heat Pump
Cooling Only
Outdoor unit type
Outdoor unit model
Heat Pump
Cooling Only
Cooling capacity (*1)
Heating capacity (*1)
Power supply (*2)
Running current
Power consumption
Power factor
Electrical
EER (Energy Efficiency Ratio)
characteristics
Running current
(*1)
Power consumption
Heating
Power factor
COP (Coefficient of Performance)
External dimension (Height / Width / Depth)
Heat Pump
Total weight
Cooling only
Colour
Type
Compressor
Motor output
Fan
Fan unit
Motor output
Air volume
Heat exchanger
High-pressure switch
Protective devices
Connecting Gas side
port
Liquid side
diameter
Balance side
Refrigerant piping
Gas side
Connecting
Liquid side
method
Balance side
Cooling
Operation temperature range
Heating
Sound pressure level (Cooling/Heating)
Cooling
Set model name
Equivalent HP
Heat Pump
Cooling Only
Outdoor unit type
Outdoor unit model
Heat Pump
Cooling Only
Cooling capacity (*1)
Heating capacity (*1)
Power supply (*2)
Running current
Power consumption
Power factor
Electrical
EER (Energy Efficiency Ratio)
characteristics
Running current
(*1)
Power consumption
Heating
Power factor
COP (Coefficient of Performance)
External dimension (Height / Width / Depth)
Heat Pump
Total weight
Cooling only
Colour
Type
Compressor
Motor output
Fan
Motor output
Fan unit
Air volume
Heat exchanger
High-pressure switch
Protective devices
Connecting Gas side
Liquid side
port
diameter
Balance side
Refrigerant piping
Gas side
Connecting
Liquid side
method
Balance side
Cooling
Operation temperature range
Heating
Sound pressure level (Cooling/Heating)
Cooling
MMYMMY-
Equivalent to 38HP
AP3824HT8-E
AP3824T8-E
Equivalent to 40HP
AP4024HT8-E
AP4024T8-E
Inverter unit
MMY- MAP1004HT8-E MAP1004HT8-E MAP1004HT8-E MAP0804HT8-E MAP1004HT8-E MAP1004HT8-E MAP1004HT8-E MAP1004HT8-E
MMY- MAP1004T8-E MAP1004T8-E MAP1004T8-E MAP0804T8-E MAP1004T8-E MAP1004T8-E MAP1004T8-E MAP1004T8-E
(KW)
106.5
112.0
(KW)
119.5
127.0
3phase 4wires 50Hz 400V (380-415V)
(A)
42.7
45.5
(KW)
27.68
29.64
(%)
94
94
(KW/KW))
3.85
3.78
(A)
44.1
47.7
(KW)
28.03
30.42
(%)
92
92
(KW/KW))
4.26
4.17
(mm)
1,830 / 990 / 780
(kg)
242
242
242
242
242
242
242
242
(kg)
241
241
241
241
241
241
241
241
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
(KW)
3.1 x 2
3.1 x 2
3.1 x 2
2.3 x 2
3.1 x 2
3.1 x 2
3.1 x 2
3.1 x 2
Propeller fan
(KW)
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
(m3/h)
10,500
10,500
10,500
9,900
10,500
10,500
10,500
10,500
Finned tube
OFF: 2.9 ON: 3.73
(*3)
(mm)
ø 41.3
(mm)
ø 22.2
(mm)
ø 9.5
Brazing
Flare
Flare
CDB
-5 to 43
CWB
-20 to 15
(dB(A))
63.0 / 64.0
63.0 / 64.0
MMYMMY-
Equivalent to 42HP
AP4224HT8-E
AP4224T8-E
Equivalent to 44HP
AP4424HT8-E
AP4424T8-E
Inverter unit
MMY- MAP1204HT8-E MAP1004HT8-E MAP1004HT8-E MAP1004HT8-E MAP1204HT8-E MAP1204HT8-E MAP1004HT8-E MAP1004HT8-E
MMY- MAP1204T8-E MAP1004T8-E MAP1004T8-E MAP1004T8-E MAP1204T8-E MAP1204T8-E MAP1004T8-E MAP1004T8-E
(KW)
118.0
123.5
(KW)
132.0
138.0
3phase 4wires 50Hz 400V (380-415V)
(A)
49.2
52.5
(KW)
32.04
34.19
(%)
94
94
(KW/KW))
3.68
3.61
(A)
51.3
55.5
(KW)
32.70
35.40
(%)
92
92
(KW/KW))
4.04
3.90
(mm)
1,830 / 990 / 780
(kg)
242
242
242
242
242
242
242
242
(kg)
241
241
241
241
241
241
241
241
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
(KW)
4.2 x 2
3.1 x 2
3.1 x 2
3.1 x 2
4.2 x 2
4.2 x 2
3.1 x 2
3.1 x 2
Propeller fan
(KW)
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
(m3/h)
11,600
10,500
10,500
10,500
11,600
11,600
10,500
10,500
Finned tube
OFF: 2.9 ON: 3.73
(*3)
(mm)
ø 41.3
(mm)
ø 22.2
(mm)
ø 9.5
Brazing
Flare
Flare
CDB
-5 to 43
CWB
-20 to 15
(dB(A))
64.0 / 65.5
64.5 / 66.5
Note
*1 :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C 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 flucture more than ±10%.
*3 :Discharge temp. sensor / Suction temp. sensor / High-pressure sensor / Low-pressure sensor / High-pressure switch / Over-current relay
12 -7
12 Technical Specifications
Set model name
Equivalent HP
Heat Pump
Cooling Only
Outdoor unit type
Outdoor unit model
Heat Pump
Cooling Only
Cooling capacity (*1)
Heating capacity (*1)
Power supply (*2)
Running current
Power consumption
Power factor
Electrical
EER (Energy Efficiency Ratio)
characteristics
Running current
(*1)
Power consumption
Heating
Power factor
COP (Coefficient of Performance)
External dimension (Height / Width / Depth)
Heat Pump
Total weight
Cooling only
Colour
Type
Compressor
Motor output
Fan
Fan unit
Motor output
Air volume
Heat exchanger
High-pressure switch
Protective devices
Connecting Gas side
port
Liquid side
diameter
Balance side
Refrigerant piping
Gas side
Connecting
Liquid side
method
Balance side
Cooling
Operation temperature range
Heating
Sound pressure level (Cooling/Heating)
Cooling
MMYMMY-
Equivalent to 46HP
AP4624HT8-E
AP4624T8-E
Equivalent to 48HP
AP4824HT8-E
AP4824T8-E
Inverter unit
MMY- MAP1204HT8-E MAP1204HT8-E MAP1204HT8-E MAP1004HT8-E MAP1204HT8-E MAP1204HT8-E MAP1204HT8-E MAP1204HT8-E
MMY- MAP1204T8-E MAP1204T8-E MAP1204T8-E MAP1004T8-E MAP1204T8-E MAP1204T8-E MAP1204T8-E MAP1204T8-E
(KW)
130.0
135.0
(KW)
145.0
150.0
3phase 4wires 50Hz 400V (380-415V)
(A)
56.6
59.5
(KW)
36.88
38.76
(%)
94
94
(KW/KW))
3.52
3.48
(A)
60.5
64.0
(KW)
38.57
40.80
(%)
92
92
(KW/KW))
3.76
3.68
(mm)
1,830 / 990 / 780
(kg)
242
242
242
242
242
242
242
242
(kg)
241
241
241
241
241
241
241
241
Silky shade (Munsell 1Y8.5/0.5)
Hermetic twin rotary compressor
(KW)
4.2 x 2
4.2 x 2
4.2 x 2
3.1 x 2
4.2 x 2
4.2 x 2
4.2 x 2
4.2 x 2
Propeller fan
(KW)
1.0
1.0
1.0
1.0
1.0
1.0
1.0
1.0
(m3/h)
11,600
11,600
11,600
10,500
11,600
11,600
11,600
11,600
Finned tube
OFF: 2.9 ON: 3.73
(*3)
(mm)
ø 41.3
(mm)
ø 22.2
(mm)
ø 9.5
Brazing
Flare
Flare
CDB
-5 to 43
CWB
-20 to 15
(dB(A))
65.0 / 67.5
65.0 / 68.0
Note
*1 :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C 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 flucture more than ±10%.
*3 :Discharge temp. sensor / Suction temp. sensor / High-pressure sensor / Low-pressure sensor / High-pressure switch / Over-current relay
12 -8
12 Technical Specifications
1.2 Dimensional drawing
Model : MMY-MAP0501HT8-E, MAP0501T8-E
MMY-MAP0601HT8-E, MAP0601T8-E
C
280
280
100
755 (Anchor bolt pitch)
610
Applied model
A
B
MMY-MAP0804* ø 22.2 ø 12.7
MMY-MAP1004* ø 22.2 ø 12.7
MMY-MAP1204* ø 28.6 ø 12.7
Earth-attaching section of bottom plate
Foundation
60
100
Model : MMY-MAP0804HT8-E, MAP0804T8-E
MMY-MAP1004HT8-E, MAP1004T8-E
MMY-MAP1204HT8-E, MAP1204T8-E
670
B
9.5
ø 9.5
ø
60
Applied model
A
MMY-MAP0501* ø 15.9
MMY-MAP0601* ø 15.9
(SMMS)
Foundation
1830
1595
1780
50
700 (Anchor bolt pitch)
284
(220)*1
273
687
(75)*1
L-shape pipe
2-60x150 square hole
(Hole for handling goods)
Balance pipe
connecting port
Φ 9.5
Refrigerant pipe connecting port
(Gas side) A
Refrigerant pipe connecting port
(Liquid side) B
*1 Recommended cutting
position of L-shape pipe
12 -9
12 Technical Specifications
670
755 (Anchor bolt pitch)
60
100
610
60
920 (Anchor bolt pitch)
1210
4-15x20 (Long hole)
Earth-attaching section of bottom plate
Foundation
100
780
790 (Including steady leg)
755 (Anchor bolt pitch)
Model : MMY-MAP1404HT8-E, MAP1404T8-E
MMY-MAP1604HT8-E, MAP1604T8-E
Foundation
920 (Anchor bolt pitch)
1830
1595
1780
50
1230
(220)*
1
284
221
687
(75)*1
L-shape pipe
85
620
2-60x150 square hole
(Hole for handling goods)
Balance pipe
connecting port
Φ 9.5
Refrigerant pipe connecting port
(Gas side) Φ28.6
Refrigerant pipe connecting port
(Liquid side) Φ15.9
*1 Recommended cutting
position of L-shape pipe
1.3 Connecting diagram
Outdoor power supply
380V-415V 50Hz , 380V
60Hz
L1 L2 L3 N
L1 L2 L3 N
U1 U2 U3 U4 U5 U6
U1 U2 U3 U4 U5 U6
U1 U2
U3 U4
W3
W1
W2
L N
U1 U2 A B
L N
U1 U2 A B
A B
Indoor power supply
220-240V 50Hz, 220V
A B
L N
U1 U2 A B
A B
60Hz
Outdoor unit
Indoor unit
Remote controller
Central remote controller (option)
Over current breaker (fuse) switch
Earth leakage breaker
Main switch
Pull box
Control wiring between indoor and outdoor units (Shield wire)
Control wiring between indoor units (Shield wire)
Control wiring between outdoor units (Shield wire)
*1 When perform a central control, connect a relay connector
between [U1, U2] and [U3, U4] terminals in the header unit.
(At shipment from factory : No connection)
*2 Connection of shield wire must be connected
(Connected to all connecting sections in each Indoor unit)
*3
12 -10
L N
U1 U2 A B
12 Technical Specifications
1.4 Wiring diagram
Model : MMY-MAP0804*, MAP1004*, MAP1204*
Model : MAP1004*, MAP1604*
12 -11
12 Technical Specifications
1.5 Branch header / branch joint
• Branch header
RBM-HY1043E, HY1083E, HY2043E, HY2083E
Gas side
Liquid side
Insulator
Insulator
For four branch header
Model
RBM-HY1043E
RBM-HY1083E
A
B
380
90
Liquid side 360
60
Gas side
Gas side
700
90
Liquid side 680
60
C
øD
øE
n
83.6 22.2 15.9
-
15.9
Accessory socket Q’ty
6 x 4, 9 x 4,
14 x 1, 18 x 1, 70 x 1
3
Model
A
Gas side
RBM-HY2043E
9.5
3
1 x 4, 6 x 1, 9 x 1
Liquid side
83.6 22.2 15.9
7
6 x 8, 9 x 8,
14 x 1, 18 x 1, 70 x 1
Gas side
7
1 x 8, 6 x 1, 9 x 1
-
15.9
9.5
RBM-HY2083E
B
385.5 95.5
360
680
øD
øE
n
31.8
15.9
3
60
705.5 95.5
Liquid side
C
89.3
Accessory socket Q’ty
6 x 2, 9 x 2,
27 x 1, 59 x 1
-
15.9
9.5
3
1 x2
89.3
31.8
15.9
7
6 x 7, 9 x 7,
27 x 1, 59 x 1
-
15.9
9.5
7
1 x7
60
• Y-shape branch joint
RBM-BY55E, BY105E, BY205E, BY305E
Gas side
Liquid side
BY55E
RBMGas side
BY105E
BY205E
Insulator
Insulator
BY305E
A
160
B
80
øC øD
15.9 15.9
Accessory socket Q'ty
9 x 1, 51 x 2, 91 x 2
Liquid side
130
Gas side
170
70
9.5
1 x2
80
22.2 22.2 14 x 2, 70 x 2, 91 x 1
9.5
Liquid side
160
80
15.9 15.9
Gas side
200
80
31.8 28.6 16 x 1, 27 x 1, 43 x 2, 58 x 1, 59 x 1, 91 x 1
9 x 1, 91 x 1, 92 x 1
Liquid side
160
80
15.9 15.9
Gas side
220
80
38.1 38.1 43 x 1, 61 x 3, 62 x 2, 71 x 2, 75 x 1, 91 x 1
Liquid side
170
80
22.2 22.2 92 x 1, 94 x 3
9 x 1, 92 x 1
• Branching joint for connection of outdoor units(Set of three kinds of joint)
RBM-BT14E
Gas side
Liquid side
Balance pipe
Gas side
RBM-BT14E
Accessory socket Q'ty
27 x 1, 43 x 2, 59 x 1
Liquid side 10 x 2, 13 x 1
RBM-BT24E
Gas side
Liquid side
Balance pipe
Gas side
RBM-BT24E
Accessory socket Q'ty
14 x1, 43 x2, 61 x2, 62 x2, 71 x1, 85 x1
Liquid side 14 x2, 18 x2, 85 x1
• Accessory socket
1
2 5 54 84
Outer dia.
Outer dia.
25 27 55 59
3 6 9 51
A
øB
2
5
54
29
6.4
84
25
27
55
59
Outer dia.
øB
53
25.4
49
28.6
64
38.1
59
34.9
øB
35
6.4
26
9.5
31
15.9
3
6
9
40
19.1
51 37.5 19.1
Outer dia.
Outer dia.
28
61
62
71
72
73
74
75
76
77
32
9.5
28
12.7
4
7
10
Outer dia.
28 61 62 71 72 73 74 75 76 77
A
4 7 10 13 52 67
A
14 18 69 70 85 86
A
øB
39
6.4
39
9.5
36
12.7
14
18
69
13 33 15.9
52 42.5 22.2
67 49 25.4
70
85
86
91 94 95 96 97
A
58
øB
31.8
55
34.9
66
41.3
66
28.6
66
25.4
66
22.2
66
19.1
64
15.9
62
12.7
62
9.5
Outer dia.
16 20 24 43 48 49 53 58
A
øB
40
15.9
40
19.1
48
25.4
54
28.6
41
12.7
44
9.5
Outer dia.
92
A
øB
øC
øD
91
94
95
58
9.5 12.7 15.9
71
15.9 19.1 22.2
80
22.2 25.4 28.6
96
97
87
25.4 28.6 31.8
95
28.6 31.8 38.1
A
øB
16
20
24
50
15.9
52
19.1
48
25.4
43
48
49
53
58
50
22.2
54
9.5
52
12.7
55
31.8
62
34.9
Closure tube
Outer dia.
Outer dia.
Outer dia.
12 -12
Outer dia.
12 Technical Specifications
2. Indoor unit
2.1 Specifications
4-way Air Discharge Cassette Type
Model name
Cooling/Heating capacity *1
MMU(kW)
AP0092H
AP0122H
2.8 / 3.2
3.6 / 4.0
Power supply
Electrical
Running current
characteristics
Power consumption
Appearance (Ceiling panel)
External
dimensions:
Main unit
(Ceiling
panel)*
AP0242H
AP0272H
AP0302H
AP0362H
AP0482H
AP0562H
4.5 / 5.0
5.6 / 6.3
7.1 / 8.0
8.0 / 9.0
9.0 / 10.0
11.2 / 12.5
14.0 / 16.0
16.0 / 18.0
1 phase 50Hz 230V (220-240V) (Separate power supply for indoor units is required.)
(A)
0.23
0.27
0.29
0.38
0.43
0.73
0.88
(kW)
0.021
0.023
0.026
0.036
0.043
0.088
0.112
Model
RBC-U31PG(W)-E/RBC-U31PGS(W)-E/RBC-U31PGS(WS)-E
(mm)
Width
(mm)
840 (950)*
Depth
(mm)
840 (950)*
Standard air flow
(High/Mid/Low)
Motor output
Connecting
pipe
AP0182H
Height
Total weight : Main unit
(Ceiling panel)*
Fan unit
AP0152H
(kg)
(m3/h)
256 (30)*
18 (4)*
20 (4)*
930/830/
790
800/730/680
(W)
Gas pipe
(mm)
Liquid pipe
(mm)
1050/920/
800
25 (4)*
1290/920/800
14
1320/1100/
850
1970/1430/
1070
20
ø 9.5
ø 12.7
2130/1430/
1130
68
2130/1520/
1230
72
ø 15.9
ø 6.4
ø 9.5
Drain port
(Nominal dia. mm)
Sound pressure level *2
(High/Med./Low)
319 (30)*
25 (Polyvinyl chloride tube)
(dB(A))
30/29/27
31/29/27
32/29/27
35/31/28
38/33/30
43/38/32
46/38/33
46/40/33
* Figures in parentheses are for ceiling panels.
*1: The cooling capacities and electrical characteristics are measured under the conditions specified by JIS B 8615 based on the reference piping.
The reference piping consists of 5 m of main piping and 2.5 m of branch piping connected with 0 meter height.
*2: The sound level are measured in an anechoic chamber in accordance with JIS B 8616.
Normally, the values measured in the actual operating environment become larger than the indicated values due to the effects of external sound.
Note : Rated conditions Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
Compact 4-way Cassette (600 x 600) Type
Model name
Cooling/Heating capacity *1
MMU(kW)
AP0071MH
2.2 / 2.5
Power supply
Electrical
Running current
characteristics
Power consumption
Appearance (Ceiling panel)
External
dimensions:
Main unit
(Ceiling
panel)*
AP0151MH
AP0181MH
2.8 / 3.2
3.6 / 4.0
4.5 / 5.0
5.6 / 6.3
1 phase 50Hz 230V (220-240V) (Separate power supply for indoor units is required.)
(A)
0.28
0.30
0.31
0.34
0.42
(kW)
0.034
0.036
0.038
0.041
0.052
660/552/468
762/642/522
Model
RBC-UM11PG(W)-E
(mm)
268 (27)*
Width
(mm)
575 (700)*
Depth
(mm)
575 (700)*
Standard air flow
(High/Mid/Low)
Motor output
Connecting
pipe
AP0121MH
Height
Total weight : Main unit
(Ceiling panel)*
Fan unit
AP0091MH
(kg)
(m3/h)
17 (3)*
552/462/378
570/468/378
(W)
Gas pipe
(mm)
Liquid pipe
(mm)
60
ø 9.5
ø 12.7
ø 6.4
Drain port
(Nominal dia. mm)
Sound pressure level *2
(High/Med./Low)
594/504/402
25 (Polyvinyl chloride tube)
(dB(A))
36/32/28
37/33/28
37/33/29
* Figures in parentheses are for ceiling panels.
*1: The cooling capacities and electrical characteristics are measured under the conditions specified by JIS B 8615 based on the reference piping.
The reference piping consists of 5 m of main piping and 2.5 m of branch piping connected with 0 meter height.
*2: The sound level are measured in an anechoic chamber in accordance with JIS B 8616.
Normally, the values measured in the actual operating environment become larger than the indicated values due to the effects of external sound.
Note : Rated conditions Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
12 -13
40/35/30
44/39/34
12 Technical Specifications
2-way Air Discharge Cassette Type
Model name
Cooling/Heating capacity
MMU*1
(kW)
AP0071WH
AP0091WH
AP0121WH
AP0151WH
AP0181WH
AP0241WH
AP0271WH
AP0301WH
2.2 / 2.5
2.8 / 3.2
3.6 / 4.0
4.5 / 5.0
5.6 / 6.3
7.1 / 8.0
8.0 / 9.0
9.0 / 10.0
Power supply
Electrical
Running current
characteristics
Power consumption
Appearance (Ceiling panel)
External
dimensions:
Main unit
(Ceiling
panel)*
0.31
0.32
0.46
0.47
0.070
0.072
0.105
0.106
Model
(mm)
Width
(mm)
Depth
(mm)
RBC-UW136PG
Motor output
830 (1000)*
(W)
(mm)
Liquid pipe
(mm)
1350 (1520)*
550 (650)*
(m3/h)
Gas pipe
RBC-UW266PG
398 (8)*
(kg)
Standard air flow
(High/Mid/Low)
Connecting
pipe
(A)
(kW)
Height
Total weight : Main unit
(Ceiling panel)*
Fan unit
1 phase 50Hz 230V (220-240V) (Separate power supply for indoor units is required.)
33 (8)*
44 (11)*
570 / 510 / 450
780 / 700 / 600
1140 / 960 / 720
53
39
53
ø 9.5
ø 12.7
ø 15.9
ø 6.4
1260/1140/ 960
ø 9.5
Drain port (Nominal dia. mm)
Sound pressure level *2
(High/Med./Low)
48 (11)*
25 (Polyvinyl chloride tube)
(dB(A))
34 / 32 / 30
35 / 33 / 30
38 / 35 / 33
40/37/34
* Figures in parentheses are for ceiling panels.
*1 :The cooling capacities and electrical characteristics are measured under the conditions specified by JIS B 8615 based on the reference piping.
The reference piping consists of 5 m of main piping and 2.5 m of branch piping connected with 0 meter height.
*2 :The sound level are measured in an anechoic chamber in accordance with JIS B 8616.
Normally, the values measured in the actual operating environment become larger than the indicated values due to the effects of external sound.
Note :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
1-way Air Discharge Cassette Type
Model name
Cooling/Heating capacity
MMU*1
(kW)
Power supply
Electrical
Running current
characteristics
Power consumption
Appearance (Ceiling panel)
External
dimensions:
Main unit
(Ceiling
panel)*
AP0121YH
AP0152SH
AP0182SH
AP0242SH
2.8 / 3.2
3.6 / 4.0
4.5 / 5.0
5.6 / 6.3
7.1 / 8.0
1 phase 50Hz 230V (220-240V) (Separate power supply for indoor units is required.)
(A)
0.24
0.34
0.37
0.62
(kW)
0.053
0.042
0.046
0.075
Model
RBC-UY136PG
(mm)
235 (18)*
200 (20)*
Width
(mm)
850 (1050)*
1000 (1230)*
Depth
(mm)
400 (470)*
710 (800)*
Standard air flow
(High/Mid/Low)
Motor output
Connecting
pipe
2.2 / 2.5
AP0091YH
Height
Total weight : Main unit
(Ceiling panel)*
Fan unit
AP0071YH
(kg)
(m3/h)
(W)
Gas pipe
(mm)
Liquid pipe
(mm)
22 (3.5)*
21 (5.5)*
540 / 480 / 420
(dB(A))
750 / 690 / 630
22 (5.5)*
780 / 720 / 660
22
1140 / 960 / 810
30
ø 9.5
ø 12.7
ø 15.9
ø 6.4
Drain port (Nominal dia. mm)
Sound pressure level *2
(High/Med./Low)
RBC-US21PGE
ø 9.5
25 (Polyvinyl chloride tube)
42 / 39 / 34
37 / 35 / 32
* Figures in parentheses are for ceiling panels.
*1 :The cooling capacities and electrical characteristics are measured under the conditions specified by JIS B 8615 based on the reference piping.
The reference piping consists of 5 m of main piping and 2.5 m of branch piping connected with 0 meter height.
*2 :The sound level are measured in an anechoic chamber in accordance with JIS B 8616.
Normally, the values measured in the actual operating environment become larger than the indicated values due to the effects of external sound.
Note :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
12 -14
38 / 36 / 34
45 / 41 / 37
12 Technical Specifications
Concealed Duct Type
Model name
Cooling/Heating capacity
MMD- AP0071BH AP0091BH AP0121BH AP0151BH AP0181BH AP0241BH AP0271BH AP0301BH AP0361BH AP0481BH AP0561BH
*1
(kW)
2.2 / 2.5
2.8 / 3.2
3.6 / 4.0
Power supply
Electrical
Running current
characteristics
Power consumption
External
dimensions :
Main unit
Fan unit
Connecting
pipe
7.1 / 8.0
9.0 / 10.0
11.2 / 12.5
14.0 / 16.0
16.0 / 18.0
0.29
0.34
0.43
0.52
0.61
0.83
0.98
0.033
0.039
0.050
0.060
0.071
0.107
0.128
(mm)
(mm)
Depth
(mm)
320
550
(m3/h)
700
1000
28
480 / 420 / 340
32
570/490/
400
650/540/
480
43
780/660/
540
(W)
120
External static
pressure
(factory setting)
(Pa)
50
External static
pressure
(Pa)
110
(mm)
Liquid pipe
(mm)
ø 9.5
ø 12.7
1980 / 1710 / 1490
ø 15.9
ø 6.4
ø 9.5
Drain port (Nominal dia. mm)
(dB(A))
55
1260/1080/ 1620/1410/
870
1200
1140 / 990 / 870
Motor output
Gas pipe
1350
800
(kg)
Sound pressure level *2
(High/Med./Low)
8.0 / 9.0
(A)
Width
Standard air flow
(High/Mid/Low)
5.6 / 6.3
(kW)
Height
Total weight
4.5 / 5.0
1 phase 50Hz 230V (220-240V) (Separate power supply for indoor units is required.)
25 (Polyvinyl chloride tube)
30 / 28 / 26
31 / 29 / 27
32/30/28
33 / 31 / 29
34/32/29
36/34/32
36 / 34 / 32
*1 :The cooling capacities and electrical characteristics are measured under the conditions specified by JIS B 8615 based on the reference piping.
The reference piping consists of 5 m of main piping and 2.5 m of branch piping connected with 0 meter height.
*2 :The sound level are measured in an anechoic chamber in accordance with JIS B 8616.
Normally, the values measured in the actual operating environment become larger than the indicated values due to the effects of external sound.
Note :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
Concealed Duct High Static Pressure Type
Model name
Cooling/Heating capacity *1
MMD(kW)
AP0181H
AP0241H
AP0271H
AP0361H
AP0481H
AP0721H
AP0961H
5.6 / 6.3
7.1 / 8.0
8.0 / 9.0
11.2 / 12.5
14.0 / 16.0
22.4 / 25.0
28.0 / 31.5
Power supply
Electrical
Running current
characteristics
Power consumption
External
dimensions :
Main unit
0.81
1.35
1.63
1.84
5.25
5.52
0.184
0.299
0.368
0.414
1.200
1.260
(mm)
Width
(mm)
Depth
(mm)
Standard air flow
380
470
850
1200
1250
(kg)
50
52
56
67
900
1320
1600
2100
(W)
External static
pressure
(factory setting)
(Pa)
1380
660
(m3/h)
Motor output
External static
pressure
Connecting
pipe
(A)
(kW)
Height
Total weight
Fan unit
1 phase 50Hz 230V (220-240V) (Separate power supply for indoor units is required.)
160
150
3600
260
4200
370 x 3
137
(Pa)
68.6 - 137 - 196
Gas pipe
(mm)
ø 12.7
ø 15.9
ø 22.2
Liquid pipe
(mm)
ø 6.4
ø 9.5
ø 12.7
Drain port (Nominal dia. mm)
Sound pressure level *2
(High/Med./Low)
(dB(A))
25 (male screw)
37
40
*1 :The cooling capacities and electrical characteristics are measured under the conditions specified by JIS B 8615 based on the reference piping.
The reference piping consists of 5 m of main piping and 2.5 m of branch piping connected with 0 meter height.
*2 :The sound level are measured in an anechoic chamber in accordance with JIS B 8616.
Normally, the values measured in the actual operating environment become larger than the indicated values due to the effects of external sound.
Note :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
12 -15
49
50
12 Technical Specifications
Slim Duct Type
Model name
Cooling/Heating capacity
MMD*1
(kW)
AP0071SPH
External
dimensions :
Main unit
AP0181SPH
2.8 / 3.2
3.6 / 4.0
4.5 / 5.0
5.6 / 6.3
1 phase 50Hz 230V (220-240V) (Separate power supply for indoor units is required.)
(A)
0.29
0.31
0.32
0.39
(kW)
0.039
0.043
0.045
0.054
(mm)
210
Width
(mm)
845
Depth
(mm)
645
(kg)
Standard air flow
(High/Mid/Low)
Connecting
pipe
AP0151SPH
Height
Total weight
Fan unit
AP0121SPH
2.2 / 2.5
Power supply
Electrical
Running current
characteristics
Power consumption
AP0091SPH
22
(m3/h)
Motor output
(W)
External static
pressure
(factory setting)
(Pa)
Gas pipe
(mm)
Liquid pipe
(mm)
23
540 / 470 / 400
600 / 520 / 450
690 / 600 / 520
780 / 680 / 580
60
6 (Factory setting)-16-31-46, 4steps
4 (Factory setting)
-14-29-44, 4steps
5 (Factory setting)-15-30-45, 4steps
ø 9.5
ø 12.7
ø 6.4
Drain port (Nominal dia. mm)
25 (Polyvinyl chloride tube : External ø 32, Internal ø 25)
Sound
pressure
level*2
Under air inlet
(dB(A))
36 / 33 / 30
38 / 35 / 32
39 / 36 / 33
40 / 38 / 36
(High/Med./
Low)
Back air inlet
(dB(A))
28 / 26 / 24
29 / 27 / 25
32 / 30 / 28
33 / 31 / 29
*1 :The cooling capacities and electrical characteristics are measured under the conditions specified by JIS B 8615 based on the reference piping.
The reference piping consists of 5 m of main piping and 2.5 m of branch piping connected with 0 meter height.
*2 :The sound level are measured in an anechoic chamber in accordance with JIS B 8616.
Normally, the values measured in the actual operating environment become larger than the indicated values due to the effects of external sound.
Note :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
Ceiling Type
Model name
Cooling/Heating capacity *1
MMC(kW)
AP0151H
4.5 / 5.0
Power supply
Electrical
Running current
characteristics
Power consumption
External
dimensions :
Main unit
Fan unit
Connecting
pipe
AP0361H
AP0481H
5.6 / 6.3
7.1 / 8.0
8.0 / 9.0
11.2 / 12.5
14.0 / 16.0
(A)
0.29
0.32
0.42
0.78
0.84
0.033
0.038
0.050
0.091
0.110
(mm)
(mm)
Depth
(mm)
210
910
(m3/h)
1180
22
720 / 600 / 540
(W)
26
780 / 660 / 540
30
Gas pipe
(mm)
ø 12.7
Liquid pipe
(mm)
ø 6.4
(dB(A))
34
1110 / 900 / 840
1650 / 1380 / 1200
40
1800 / 1560 / 1320
80
ø 15.9
ø 9.5
Drain port (Nominal dia. mm)
Sound pressure level *2
(High/Med./Low)
1595
680
(kg)
Motor output
AP0271H
(kW)
Width
Standard air flow
(High/Mid/Low)
AP0241H
1 phase 50Hz 230V (220-240V) (Separate power supply for indoor units is required.)
Height
Total weight
AP0181H
20 (Polyvinyl chloride tube)
35 / 32 / 30
36 / 33 / 30
38 / 36 / 33
*1 :The cooling capacities and electrical characteristics are measured under the conditions specified by JIS B 8615 based on the reference piping.
The reference piping consists of 5 m of main piping and 2.5 m of branch piping connected with 0 meter height.
*2 :The sound level are measured in an anechoic chamber in accordance with JIS B 8616.
Normally, the values measured in the actual operating environment become larger than the indicated values due to the effects of external sound.
Note :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
12 -16
41 / 38 / 35
43 / 40 / 37
12 Technical Specifications
High-wall Type (1 series & 2series*)
Model name
Cooling/Heating capacity
MMK*1
(kW)
AP0071H
AP0091H
2.2 / 2.5
2.8 / 3.2
Power supply
Electrical
Running current
characteristics
Power consumption
External
dimensions :
Main unit
Fan unit
Connecting
pipe
AP0072H*
AP0092H*
AP0122H*
3.6 / 4.0
4.5 / 5.0
5.6 / 6.3
7.1 / 8.0
2.2 / 2.5
2.8 / 3.2
3.6 / 4.0
0.30
0.32
0.35
0.17
0.18
0.19
0.035
0.037
0.040
0.017
0.018
0.019
1055
1430
(mm)
Depth
(mm)
368
(mm)
(mm)
208
18
600 / 540 / 480
(W)
Liquid pipe
790
210
(m3/h)
Gas pipe
275
895
(kg)
19
25
780 / 660 / 600
1200/1020/
900
11
480/420/360
510/450/360
30
ø 12.7
ø 6.4
ø 15.9
ø 9.5
ø 9.5
ø 6.4
20 (Polyvinyl chloride tube)
(dB(A))
540/450/360
30
ø 9.5
Drain port (Nominal dia. mm)
Sound pressure level *2
(High/Med./Low)
AP0241H
(A)
(mm)
Motor output
AP0181H
(kW)
Width
Standard air flow
(High/Mid/Low)
AP0151H
1 phase 50Hz 230V (220-240V) (Separate power supply for indoor units is required.)
Height
Total weight
AP0121H
39 / 34 / 31
16 (Polyvinyl chloride tube)
42 / 38 / 35
35/32/29
36/33/29
37/33/29
* European market only
*1 :The cooling capacities and electrical characteristics are measured under the conditions specified by JIS B 8615 based on the reference piping.
The reference piping consists of 5 m of main piping and 2.5 m of branch piping connected with 0 meter height.
*2 :The sound level are measured in an anechoic chamber in accordance with JIS B 8616.
Normally, the values measured in the actual operating environment become larger than the indicated values due to the effects of external sound.
Note :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
High-wall Type (3 series)
Model name
Cooling/Heating capacity *1
MMC(kW)
AP0073H
AP0093H
AP0123H
AP0153H
AP0183H
AP0243H
2.2 / 2.5
2.8 / 3.2
3.6 / 4.0
4.5 / 5.0
5.6 / 6.3
7.1 / 8.0
Power supply
Electrical
Running current
characteristics
Power consumption
External
dimensions :
Main unit
0.17
0.19
0.32
0.37
0.018
0.021
0.043
0.050
840 / 660 / 540
1020 / 750 / 570
ø 12.7
ø 15.9
(mm)
320
Width
(mm)
1050
Depth
(mm)
228
(kg)
Standard air flow
(High/Mid/Low)
Motor output
Connecting
pipe
(A)
(kW)
Height
Total weight
Fan unit
1 phase 50Hz 230V (220-240V) (Separate power supply for indoor units is required.)
(m3/h)
15
570 / 450 / 390
600 / 480 / 390
(W)
Gas pipe
(mm)
Liquid pipe
(mm)
30
ø 9.5
ø 6.4
Drain port (Nominal dia. mm)
Sound pressure level *2
(High/Med./Low)
(dB(A))
ø 9.5
16 (Polyvinyl chloride tube)
35 / 31 / 28
37 / 32 / 28
*1 :The cooling capacities and electrical characteristics are measured under the conditions specified by JIS B 8615 based on the reference piping.
The reference piping consists of 5 m of main piping and 2.5 m of branch piping connected with 0 meter height.
*2 :The sound level are measured in an anechoic chamber in accordance with JIS B 8616.
Normally, the values measured in the actual operating environment become larger than the indicated values due to the effects of external sound.
Note :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
12 -17
41 / 36 / 33
46 / 39 / 34
12 Technical Specifications
Floor Standing Concealed Type
Model name
Cooling/Heating capacity
MML*1
(kW)
AP0071BH
AP0091BH
AP0121BH
AP0151BH
AP0181BH
AP0241BH
2.8 / 3.2
3.6 / 4.0
4.5 / 5.0
5.6 / 6.3
7.1 / 8.0
2.2 / 2.5
Power supply
Electrical
Running current
characteristics
Power consumption
External
dimensions :
Main unit
0.25
0.45
0.46
0.056
0.090
0.095
(mm)
Width
(mm)
Depth
(mm)
600
745
Motor output
21
(m3/h)
(mm)
Liquid pipe
(mm)
29
460 / 400 / 300
(W)
Gas pipe
1045
220
(kg)
Standard air flow
(High/Mid/Low)
Connecting
pipe
(A)
(kW)
Height
Total weight
Fan unit
1 phase 50Hz 230V (220-240V) (Separate power supply for indoor units is required.)
740 / 600 / 490
19
ø 9.5
ø 12.7
ø 15.9
ø 6.4
Drain port (Nominal dia. mm)
Sound pressure level *2
(High/Med./Low)
950 / 790 / 640
70
ø 9.5
20 (Polyvinyl chloride tube)
(dB(A))
36 / 34 / 32
42 / 37 / 33
*1 :The cooling capacities and electrical characteristics are measured under the conditions specified by JIS B 8615 based on the reference piping.
The reference piping consists of 5 m of main piping and 2.5 m of branch piping connected with 0 meter height.
*2 :The sound level are measured in an anechoic chamber in accordance with JIS B 8616.
Normally, the values measured in the actual operating environment become larger than the indicated values due to the effects of external sound.
Note :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
Floor Standing Cabinet Type
Model name
Cooling/Heating capacity *1
MML(kW)
AP0071H
External
dimensions :
Main unit
AP0181H
AP0241H
2.8 / 3.2
3.6 / 4.0
4.5 / 5.0
5.6 / 6.3
7.1 / 8.0
1 phase 50Hz 230V (220-240V) (Separate power supply for indoor units is required.)
(A)
0.26
0.43
0.47
(kW)
0.056
0.092
0.102
(mm)
Width
(mm)
950
Depth
(mm)
230
630
(kg)
Standard air flow
(High/Mid/Low)
Motor output
Connecting
pipe
AP0151H
Height
Total weight
Fan unit
AP0121H
2.2 / 2.5
Power supply
Electrical
Running current
characteristics
Power consumption
AP0091H
(m3/h)
37
480 / 420 / 360
900 / 780 / 650
(W)
Gas pipe
(mm)
Liquid pipe
(mm)
(dB(A))
1080 / 930 / 780
45
70
ø 9.5
ø 12.7
ø 15.9
ø 6.4
Drain port (Nominal dia. mm)
Sound pressure level *2
(High/Med./Low)
40
ø 9.5
20 (Polyvinyl chloride tube)
39 / 37 / 35
45 / 41 / 38
*1 :The cooling capacities and electrical characteristics are measured under the conditions specified by JIS B 8615 based on the reference piping.
The reference piping consists of 5 m of main piping and 2.5 m of branch piping connected with 0 meter height.
*2 :The sound level are measured in an anechoic chamber in accordance with JIS B 8616.
Normally, the values measured in the actual operating environment become larger than the indicated values due to the effects of external sound.
Note :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
12 -18
49 / 44 / 39
12 Technical Specifications
Floor Standing Type
Model name
Cooling/Heating capacity
MMF*1
(kW)
AP0151H
AP0181H
AP0241H
AP0271H
AP0361H
AP0481H
AP0561H
4.5 / 5.0
5.6 / 6.3
7.1 / 8.0
8.0 / 9.0
11.2 / 12.5
14.0/16.0
16.0/18.0
Power supply
Electrical
Running current
characteristics
Power consumption
External
dimensions :
Main unit
0.67
0.88
1.29
1.60
0.150
0.190
0.280
0.350
(mm)
Width
(mm)
Depth
(mm)
(kg)
Standard air flow
(High/Mid/Low)
Motor output
Connecting
pipe
(A)
(kW)
Height
Total weight
Fan unit
1 phase 50Hz 230V (220-240V) (Separate power supply for indoor units is required.)
(m3/h)
(W)
1750
600
210
49
900 / 780 / 660
1200 / 1020 / 840
1920/1680/ 1380
2160 / 1860 / 1560
37
63
110
160
Gas pipe
(mm)
ø 12.7
Liquid pipe
(mm)
ø 6.4
(dB(A))
65
ø 15.9
ø 9.5
Drain port (Nominal dia. mm)
Sound pressure level *2
(High/Med./Low)
390
48
20 (Polyvinyl chloride tube : External dia. 26; Internal dia. 20)
46 / 43 / 38
49 / 45 / 40
51/48/44
54 / 50 / 46
*1 :The cooling capacities and electrical characteristics are measured under the conditions specified by JIS B 8615 based on the reference piping.
The reference piping consists of 5 m of main piping and 2.5 m of branch piping connected with 0 meter height.
*2 :The sound level are measured in an anechoic chamber in accordance with JIS B 8616.
Normally, the values measured in the actual operating environment become larger than the indicated values due to the effects of external sound.
Note :Rated conditions
Cooling : Indoor air temperature 27°C DB/19°C WB, Outdoor air temperature 35°C DB
Heating : Indoor air temperature 20°C DB, Outdoor air temperature 7°C DB/6°C WB
Fresh Air Intake Indoor Unit Type
Model name
AP0481HFE
AP0721HFE
1680
(m3/h)
1080
(W)
160
External static
pressure
(factory setting)
(Pa)
210
165
190
170 - 210 - 230
140 - 165 - 180
160 - 190 - 205
14.0 / 8.9
22.4 / 13.9
28.0 / 17.4
External static pressure (Pa)
Cooling/Heating capacity *1
(kW)
Power supply
Electrical
Running current
characteristics
Power consumption
External
dimensions :
Main unit
1 phase 50Hz 230V (220-240V) (Separate power supply for indoor units is required.)
(A)
1.43
2.52
2.73
(kW)
0.28
0.45
0.52
(mm)
Width
(mm)
Depth
(mm)
93
144
Gas pipe
(mm)
ø 15.9
ø 22.2
Liquid pipe
(mm)
ø 9.5
(kg)
492
892
1392
1262
ø 12.7
Drain port (Nominal dia. mm)
Sound pressure level*2
(High/Med./Low)
Operating
range
2100
160 x 2
Height
Total weight
Connecting
pipe
AP0961HFE
Motor output
Standard air flow
Fan unit
MMD-
(dB(A))
R1
45 / 43 / 41
46 / 45 / 44
Cooling*3
(°C)
5 - 43
Heating*4
(°C)
-5 - 43
Note :The setting temperature is 16 - 27°C (standard FCU ... 18 - 29°C)
An optinal humidifier is not available with fresh air intake indoor unit.
Height different between fresh air intake indoor units must be within 0.5m.
Height different between fresh air intake indoor unit and standard FCU must be within 30m.
*1 :Rated conditions
Cooling : Outdoor air temperature 33°C DB/28°C WB setting temperature 18°C
Heating : Outdoor air temperature 0°C DB/-2.9°C WB setting temperature 18°C
Piping : Length 7.5m / Height 0m
*2 :Normally, the values measured in the actual operating environment become larger than the indicated values due to the effects of external sound.
*3 :When supply air temperature is "setting temperature +3°C" or less, fresh air intake indoor unit operates as FAN mode.
When supply air temperature is 19°C or less, fresh air intake indoor unit operates as FAN mode.
*4 :When supply air temperature is "setting temperature -3°C" or more, fresh air intake indoor unit operates as FAN mode.
12 -19
SMMS i Engineering Data
< Digest version >
Aug, 2010 Second Edition
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