Mitsubishi PUMY-P100VHM, PUMY-P125VHM, PUMY-P140VHM Service Manual

SPLIT-TYPE, HEAT PUMP AIR CONDITIONERS

HFC

utilized

R410A

TECHNICAL & SERVICE MANUAL

August 2006

No. OC376

REVISED EDITION-A

[Model name]

[Service Ref.]

<Outdoor unit>

PUMY-P100VHM

PUMY-P125VHM

PUMY-P140VHM

PUMY-P100VHM
PUMY-P125VHM
PUMY-P140VHM

CONTENTS

1. SAFETY PRECAUTION ····································2

2. OVERVIEW OF UNITS······································5

3. SPECIFICATIONS·············································7

4. DATA ·································································8

5. OUTLINES AND DIMENSIONS······················18

6. WIRING DIAGRAM·········································19

7.

NECESSARY CONDITIONS FOR SYSTEM CONSTRUCTION

8. TROUBLESHOOTING ····································30

9. ELECTRICAL WIRING····································70

10. REFRIGERANT PIPING TASKS ·····················73

11. DISASSEMBLY PROCEDURE························77

12. PARTS LIST ····················································82

Model name
indication

OUTDOOR UNIT

NOTE :

· This service manual describes technical data of outdoor unit.
As for indoor units, refer to its service manual.

· RoHS compliant products have <G> mark on the spec name plate.

· For servicing of RoHS compliant products, refer to the RoHS PARTS LIST.

13. RoHS PARTS LIST ·········································85

14. OPTIONAL PARTS··························Back Cover

Revision:

· PUMY-P100VHM and
PUMY-P140VHM are
added in REVISED
EDITION-A.

· RoHS PARTS LIST has
been added.

· Some descriptions have
been modified.

· Please void OC376.

···20

1 SAFETY PRECAUTION

Use new refrigerant pipes.

Make sure that the inside and outside of refrige­rant piping is clean and it has no contamination
such as sulfur hazardous for use, oxides, dirt,
shredded particles, etc.
In addition, use pipes with specified thickness.

Store the piping to be used during installation
indoors and keep both ends of the piping sealed
until just before brazing. (Leave elbow joints, etc.
in their packaging.)

Use ester oil, ether oil or alkylbenzene oil (small
amount) as the refrigerant oil applied to flares
and flange connections.

Avoid using thin pipes.

Charge refrigerant from liquid phase of gas
cylinder.

If the refrigerant is charged from gas phase, composition
change may occur in refrigerant and the efficiency will be
lowered.

Do not use refrigerant other than R410A.

If other refrigerant (R22 etc.) is used, chlorine in refrige­rant can cause deterioration of refrigerant oil etc.

Use a vacuum pump with a reverse flow check
valve.

Vacuum pump oil may flow back into refrigerant cycle and
that can cause deterioration of refrigerant oil etc.

Use the following tools specifically designed for
use with R410A refrigerant.

The following tools are necessary to use R410A refrigerant.

Keep the tools with care.

If dirt, dust or moisture enter into refrigerant cycle, that can
cause deterioration of refrigerant oil or malfunction of com­pressor.

Do not use a charging cylinder.

If a charging cylinder is used, the composition of refrigera­nt will change and the efficiency will be lowered.

Flare tool

Electronic refrigerant
charging scale

Vacuum pump adaptor

Size adjustment gauge

Gauge manifold

Torque wrench

Gas leak detector

Charge hose

Tools for R410A

Contamination inside refrigerant piping can cause deterio­ration of refrigerant oil etc.

If dirt, dust or moisture enter into refrigerant cycle, that can
cause deterioration of refrigerant oil or malfunction of com­pressor.

If large amount of mineral oil enter, that can cause deterio­ration of refrigerant oil etc.

Ventilate the room if refrigerant leaks during
operation. If refrigerant comes into contact with
a flame, poisonous gases will be released.

1-1. CAUTIONS RELATED TO NEW REFRIGERANT

Cautions for units utilizing refrigerant R410A

2

[1] Cautions for service

(1) Perform service after collecting the refrigerant left in unit completely.
(2) Do not release refrigerant in the air.
(3) After completing service, charge the cycle with specified amount of refrigerant.
(4) When performing service, install a filter drier simultaneously.

Be sure to use a filter drier for new refrigerant.

[2] Additional refrigerant charge

When charging directly from cylinder

· Check that cylinder for R410A on the market is syphon type.

· Charging should be performed with the cylinder of syphon stood vertically. (Refrigerant is charged from liquid phase.)

Unit

Gravimeter

[3] Service tools

Use the below service tools as exclusive tools for R410A refrigerant.

No. Specifications

1 Gauge manifold ·Only for R410A

·Use the existing fitting

·Use high-tension side pressure of 5.3MPa·G or over.

2 Charge hose ·Only for R410A

·Use pressure performance of 5.09MPa·G or over.

3 Electronic scale
4 Gas leak detector ·Use the detector for R134a, R407C or R410A.
5 Adaptor for reverse flow check ·Attach on vacuum pump.
6 Refrigerant charge base
7 Refrigerant cylinder ·Only for R410A Top of cylinder (Pink)

8 Refrigerant recovery equipment

specifications

Cylinder with syphon

. (UNF1/2)

3

Cautions for refrigerant piping work

1/4”
3/8”
1/2”
5/8”
3/4”

6.35

9.52

12.70

15.88

19.05

0.8

0.8

0.8

1.0

—

0.8

0.8

0.8

1.0

1.0

Nominal

dimensions

Diagram below: Piping diameter and thickness

Outside

diameter

(mm)

Thickness

(mm)

R410A R22
1/4”
3/8”
1/2”
5/8”
3/4”

6.35

9.52

12.70

15.88

19.05

9.1

13.2

16.6

19.7

—

9.0

13.0

16.2

19.4

23.3

Nominal

dimensions

Flare cutting dimensions

Outside

diameter

Dimension A

( )

+0

-0.4

(mm)

R410A R22
1/4”
3/8”
1/2”
5/8”
3/4”

6.35

9.52

12.70

15.88

19.05

17.0

22.0

26.0

29.0

—

17.0

22.0

24.0

27.0

36.0

Nominal

dimensions

Flare nut dimensions

Outside

diameter

Dimension B

(mm)

R410A R22

Gauge manifold
Charge hose
Gas leak detector

Refrigerant recovery equipment
Refrigerant cylinder
Applied oil

Safety charger

Charge valve
Vacuum pump

Flare tool

Bender
Pipe cutter
Welder and nitrogen gas cylinder
Refrigerant charging scale

Vacuum gauge or thermis­tor vacuum gauge and
vacuum valve
Charging cylinder

Air purge and refrigerant
charge, operation check
Gas leak check
Collection of refrigerant
Refrigerant charge
Apply to flared section

Prevent compressor malfunction
when charging refrigerant by

spraying liquid refrigerant
Prevent gas from blowing out

when detaching charge hose
Vacuum drying and air
purge

Flaring work of piping

Bend the pipes
Cut the pipes
Weld the pipes
Charge refrigerant
Check the degree of vacuum. (Vacuum

valve prevents back flow of oil and refri­gerant to thermistor vacuum gauge)
Charge refrigerant

Tool exclusive for R410A
Tool exclusive for R410A
Tool for HFC refrigerant
Tool exclusive for R410A
Tool exclusive for R410A
Ester oil and alkylbenzene
oil (minimum amount)
Tool exclusive for R410A

Tool exclusive for R410A
Tools can be used for other

refrigerants if equipped with
adopter for reverse flow check

Tools can be used for other
refrigerants by adjusting
flaring dimension
Tools can be used for other refrigerants
Tools can be used for other refrigerants
Tools can be used for other refrigerants
Tools can be used for other refrigerants
Tools can be used for other
refrigerants

Tool exclusive for R410A



Tools and materials Use R410A tools Can R22 tools be used?

(Usable if equipped

with adopter for rever­ se flow)

(Usable by adjusting
flaring dimension)

Can R407C tools be used?

Ester oil:
Alkylbenzene oil: minimum amount

(Usable if equipped

with adopter for rever­ se flow)

(Usable by adjusting

flaring dimension)

: Prepare a new tool. (Use the new tool as the tool exclusive for R410A.)
: Tools for other refrigerants can be used under certain conditions.
: Tools for other refrigerants can be used.

New refrigerant R410A is adopted for replacement inverter series. Although the refrigerant piping work for R410Ais same
as for R22, exclusive tools are necessary so as not to mix with different kind of refrigerant. Furthermore as the working
pressure of R410A is 1.6 time higher than that of R22, their sizes of flared sections and flare nuts are different.

1Thickness of pipes

Because the working pressure of R410A is higher compared to R22, be sure to use refrigerant piping with thickness
shown below. (Never use pipes of 0.7mm or below.)

2Dimensions of flare cutting and flare nut

The component molecules in HFC refrigerant are smaller compared to conventional refrigerants. In addition to that,
R410A is a refrigerant, which has higher risk of leakage because of its working pressure is higher than that of other
refrigerants. Therefore, to enhance airtightness and intensity, flare cutting dimension of copper pipe for R410A has been
specified separately from the dimensions for other refrigerants as shown below. The dimension B of flare nut for R410A
also has partly been changed to increase intensity as shown below. Set copper pipe correctly referring to copper pipe
flaring dimensions for R410A below. For 1/2” and 5/8”, the dimension B changes.

Use torque wrench corresponding to each dimension.

Dimension A

3Tools for R410A (The following table shows whether conventional tools can be used or not.)

4

Dimension B

Branching pipe

components

Branch header

(2 branches)

Branch header

(4 branches)

Branch header

(8 branches)

CMY-Y62-G-E CMY-Y64-G-E CMY-Y68-G-E

Outdoor unit

Capacity

50% ~130% of outdoor unit capacity *2

Type 20 ~ Type 140

1~ 8 unit

Indoor
unit that
can be
connected

Number of units
Total system wide capacity

5HP

PUMY-P125VHM

6HP

PUMY-P140VHM

Type 20 ~ Type 125

1~ 6 unit

4HP

PUMY-P100VHM

2 OVERVIEW OF UNITS

20
25
32
40
50
63
71
80

100
125
140

20VCM-E

25VCM-E
32VCM-E/32VAM-E
40VCM-E/40VAM-E

50VAM-E

63VAM-E

–

80VAM-E

100VAM-E
125VAM-E

–

20VLMD-E
25VLMD-E
32VLMD-E
40VLMD-E
50VLMD-E
63VLMD-E

–

80VLMD-E
100VLMD-E
125VLMD-E

–

20VML-E / VMM-E
25VML-E / VMM-E
32VML-E / VMM-E
40VMH-E / VMM-E
50VMH-E / VMM-E
63VMH-E / VMM-E
71VMH-E / VMM-E
80VMH-E / VMM-E
100VMH-E / VMM-E
125VMH-E / VMM-E

140VMM-E

20VM-E
25VM-E
32VM-E
40VM-E
50VM-E
63VM-E
71VM-E

80VM-E
100VM-E
125VM-E

–

20VAM-E
25VAM-E
32VGM-E
40VGM-E
50VGM-E

–
–
–
–
–
–

20VLEM-E
25VLEM-E
32VLEM-E
40VLEM-E
50VLEM-E
63VLEM-E

–
–
–
–
–

20VLRM-E
25VLRM-E
32VLRM-E
40VLRM-E
50VLRM-E
63VLRM-E

–
–
–
–
–

–
–
–

40VGM-E

–

63VGM-E

–

–
100VGM-E
125VGM-E

–

PLFY-P PLFY-P PEFY-P PDFY-P PKFY-P PCFY-P PFFY-P PFFY-P

Capacity

Model

Cassette Ceiling

4-way flow 2-way flow

20VBM-E
25VBM-E
32VBM-E
40VBM-E

–
–
–
–
–
–
–

PMFY-P

1-way flow

Ceiling

Concealed

Ceiling mounted

built-in

Ceiling

Suspended

Wall Mounted

Floor standing

Exposed Concealed

Ceiling

Concealed

(

Fresh Air

) *1

PEFY-P

-

-

-

-

-

-

-

80VMH-E-F

-

-

140VMH-E-F

Decorative panel

Remote

controller

Name

Model number

Functions

M-NET remote controller

PAR-F27MEA-E

• A handy remote controller for use in conjunction
with the Melans centralized management system.

• Addresses must be set.

• Addresses setting is not necessary.

MA remote controller

PAR-21MAA

2-1. UNIT CONSTRUCTION

*1. It is possible only by 1:1 system.

*2. When the indoor unit of Fresh Air type is connected with the outdoor unit, the maximum connectable total indoor unit

(One indoor unit of Fresh Air type is connected with one outdoor unit.)
Operating temperature range (outdoor temperature) for fresh air type indoor units differ from other indoor units.
Refer to 2-2(3).

capacity is 110%(100% in case of heating below -5

:(23˚F)).

5

2-2. UNIT SPECIFICATIONS

P L F Y - P 80 V AM - E PU M Y - P 125 V H M

PAC type

AM
KM
M
KM
LMD

Frequency
conversion
controller

Refrigerant
R407C/R22
R410A
commonness

Refrigerant
R410A

NEW frequency converter
one-to-many air conditioners
(flexible design type)

Indicates equivalent
to Cooling capacity
(k cal / h)

Indicates equivalent
to Cooling capacity
(k cal / h)

Power supply
V: Single phase
220-230-240V 50Hz
220V 60Hz

Power supply
V: 1-phase

220-230-240V : 50Hz
220V : 60Hz

L : Ceiling cassette
K : Wall-mounted type
E : Hidden skylight type
C: Ceiling suspended type
M: Ceiling cassette type
F : Floor standing type

}

M-NET
control

Outdoor unit
model type

Sub-number

M-NET control

Frequency
conversion
controller

Outdoor unit

MULTI-S

Service Ref.

Capacity

Cooling (kW)
Heating (kW)

PUMY-P140VHM

15.5

18.0

3.3

PUMY-P125VHM

14.0

16.0

2.9

PUMY-P100VHM

11.2

12.5

2.2Motor for compressor (kW)

Cooling
W.B. 15~24°C
D.B. -5~46°C

w1

Heating
D.B. 15~27°C
W.B. -15~15°C

Indoor-side intake air temperature
Outdoor-side intake air temperature

■ In case of connecting fresh air type indoor unit

air type indoor

Capacity of Fresh

Cooling

Heating

Indoor-side and Outdoor-side

P80

D.B.21~43:

w

2

W.B.15.5~35:

D.B.-10~20:

w

3

intake air temperature

P140

D.B.21~43:

w

2

W.B.15.5~35:

D.B.-5~20:

w

3

w

2.Thermo-off(FAN-mode) automatically starts if the outdoor temp. is lower than 21:D.B..

w

3.Thermo-off(FAN-mode) automatically starts if the outdoor temp. is higher than 20:D.B..

(1) Outdoor Unit

Cooling / Heating capacity indicates the maximum value at operation under the following condition.

w. Cooling Indoor : D.B. 27°C / W.B. 19.0°C

Outdoor : D.B. 35°C

Heating Indoor : D.B. 20°C

Outdoor : D.B. 7°C / W.B. 6°C

(2) Method for identifying MULTI-S model

■ Indoor unit < When using Model 80 >

■ Outdoor unit <When using model 125 >

(3) Operating temperature range

Notes D.B. : Dry Bulb Temperature

W.B. : Wet Bulb Temperature

w1. 10~46°C DB : In case of connecting PKFY-P20/P25 type indoor unit.

6

3 SPECIFICATIONS

PUMY-P100VHM
Cooling Capacity kW 14.0
Heating Capacity kW 16.0
Input (Cool
Input Current (Cool
Power factor (Cool
Input (Heat
Input Current (Heat
Power factor (Heat
EER (Cool
COP (Heat

)

)

)

)

)

)

)

)

Connectable indoor units (Max.

*3
*3
*3
*3
*3
*3

kW 4.32

A

%

kW 4.33

A

%
*3
*3

)

Max. Connectable Capacity kW 18.2 (130%
Power Supply

11.2

12.5

3.34

15.4/14.8/14.1, 15.4

98.4

3.66

16.9/16.2/15.5,16.9

98.4

3.35

3.42
6

14.5 (130%
Single phase , 50Hz 220/230/240V, 60Hz 220V

PUMY-P125VHM

20.0/19.1/18.3, 20.0

98.4

20.0/19.1/18.3, 20.0

98.5

3.24

3.69
8

)

PUMY-P140VHM

15.5

18.0

5.35

24.7/23.6/22.7,24.7

98.4

5.58

25.8/24.7/23.6,25.8

98.4

2.90

3.23
8

)

20.2 (130%

Breaker Size 32A
Sound level (Cool/Heat

)

dB 50 / 52

49 / 51

51 / 53
External finish Munsell 3Y 7.8/1.1
Refrigerant control Linear Expansion Valve
Compressor Hermetic

Model
Motor output kW 2.9

2.2

ANB33FDCMT

3.3

Starting method Inverter
Crankcase heater W —
Heat exchanger Plate fin coil (Anti corrosion fin treatment

Fan

Fan (drive) o

No. Propeller fan o 2
Fan motor output kW 0.060 + 0.060
Airflow k/min(CFM

Dimensions (HxWxD

)

Wmm

Dmm
Hmm

(

in.

(

in.

(

in.

Weight kg(lbs

)
)
)
)

)

100 (3,530
950(37-3/8

330+30(13+1-3/16

1,350(53-1/8

127(280

)
)

)

)

)

Refrigerant R410A

Charge kg(lbs
Oil (Model

)

L

)

8.5 (18.7

2.3 (MEL56

)

)

Protection High pressure protection HP switch
devices Compressor protection Discharge thermo, Over current detection

Fan motor protection Overheating/Voltage protection

Total Piping length (Max.

)

m

120
Farthest m 80
Max Height difference m 30

*1

Chargeless length m 50

Piping diameter

Gas [mm 15.88 (5/8"

Liquid [mm 9.52 (3/8"

Guaranteed operation range

Rating conditions (JIS B 8616)

Cooling Indoor : D.B. 27: / W.B. 19:

Outdoor : D.B. 35: / W.B. 20:

Heating Indoor : D.B. 20:

Outdoor : D.B. 7: / W.B. 6:

(

cool

(

heat

)

)

Note.*1. 20m:In case of installing outdoor unit lower than

indoor unit.

*2. 10~46:DB:In case of connecting PKFY -P20/P25

type indoor unit.

*3. Electrical data is for only outdoor unit.

-5~ 46: DB

-15~ 15: WB

)

)

*2

)

)

7

4 DATA

Model 20

Model Number for indoor unit

Model Capacity

22

Model 2528Model 3236Model 4045Model 5056Model 6371Model 7180Model 8090Model 100

112

Model 125

140

Model 140

160

4-1. COOLING AND HEATING CAPACITY AND CHARACTERISTICS

4-1-1. Method for obtaining system cooling and heating capacity:

To obtain the system cooling and heating capacity and the electrical characteristics of the outdoor unit, first add up the ratings
of all the indoor units connected to the outdoor unit (see table below), and then use this total to find the standard capacity with
the help of the tables on 4-2.STANDARD CAPACITY DIAGRAM.

(1) Capacity of indoor unit

(2) Sample calculation

1System assembled from indoor and outdoor unit (in this example the total capacity of the indoor units is greater than that of

the outdoor unit)

• Outdoor unit PUMY-P125VHM

• Indoor unit PKFY-P25VAM-E o 2 , PLFY-P50VLMD-E o 2

2According to the conditions in 1, the total capacity of the indoor unit will be: 28 o 2 + 56 o 2 = 168
3The following figures are obtained from the 168 total capacity row of 4-2. STANDARD CAPACITY DIAGRAM :

Capacity (kW)

Cooling

A 14.60

Heating

B 16.33

Outdoor unit power consumption (kW)

Cooling

4.39

Heating

3.99

Outdoor unit current (A)/230V

Cooling

19.4

Heating

17.6

4-1-2. Method for obtaining the heating and cooling capacity of an indoor unit:

(1) The capacity of each indoor unit (kW) = the capacity A (or B)

(2) Sample calculation (using the system described above in 4-1-1. (2) ):

During cooling: During heating:

• The total model capacity of the indoor unit is:

2.8 o 2 + 5.6 o 2=16.8kW
Therefore, the capacity of PKFY-P25VAM-E and
PLFY-P50VLMD-E will be calculated as follows by
using the formula in 4-1-2. (1):

Model 25=14.6 o = 2.43kW

Model 50=14.6 o = 4.87kW

2.8

16.8

5.6

16.8

o

total model capacity of all indoor units

• The total model capacity of indoor unit is:

3.2 o 2 + 6.3 o 2=19.0
Therefore, the capacity of PKFY-P25VAM-E and PLFY­P50VLMD-E will be calculated as follows by using the
formula in 4-1-2. (1):

Model 25=16.33 o = 2.75kW

Model 50=16.33 o = 5.41kW

model capacity

3.2

19.0

6.3

19.0

8

4-2. STANDARD CAPACITY DIAGRAM

Total capacity of

Capacity(kW

)

Power Consumption(kW)Current(A)/220V Current(A)/230V Current(A)/240V

indoor units*

Cooling Heating Cooling Heating Cooling Heating Cooling Heating Cooling Heating

56 5.60 6.30 1.37 1.79 6.3 8.3 6.1 7.9 5.8 7.6
57 5.70 6.41 1.39 1.82 6.4 8.4 6.2 8.1 5.9 7.7
58 5.80 6.53 1.42 1.85 6.6 8.6 6.3 8.2 6.0 7.8
59 5.90 6.64 1.44 1.88 6.7 8.7 6.4 8.3 6.1 8.0
60 6.00 6.75 1.46 1.91 6.8 8.8 6.5 8.4 6.2 8.1
61 6.10 6.87 1.49 1.94 6.9 9.0 6.6 8.6 6.3 8.2
62 6.20 6.98 1.51 1.97 7.0 9.1 6.7 8.7 6.4 8.4
63 6.30 7.09 1.54 2.00 7.1 9.2 6.8 8.8 6.5 8.5
64 6.40 7.20 1.56 2.03 7.2 9.4 6.9 9.0 6.6 8.6
65 6.50 7.32 1.59 2.06 7.4 9.5 7.0 9.1 6.7 8.7
66 6.60 7.43 1.62 2.09 7.5 9.7 7.2 9.2 6.9 8.9
67 6.70 7.54 1.64 2.12 7.6 9.8 7.3 9.4 7.0 9.0
68 6.80 7.66 1.67 2.15 7.7 9.9 7.4 9.5 7.1 9.1
69 6.90 7.77 1.70 2.18 7.9 10.1 7.5 9.6 7.2 9.2
70 7.00 7.88 1.73 2.22 8.0 10.3 7.7 9.8 7.3 9.4
71 7.10 8.00 1.76 2.25 8.1 10.4 7.8 10.0 7.5 9.5
72 7.20 8.11 1.79 2.28 8.3 10.5 7.9 10.1 7.6 9.7
73 7.30 8.22 1.82 2.31 8.4 10.7 8.1 10.2 7.7 9.8
74 7.40 8.33 1.85 2.34 8.6 10.8 8.2 10.3 7.8 9.9
75 7.50 8.44 1.88 2.37 8.7 11.0 8.3 10.5 8.0 10.0
76 7.60 8.56 1.91 2.41 8.8 11.1 8.4 10.7 8.1 10.2
77 7.70 8.67 1.94 2.44 9.0 11.3 8.6 10.8 8.2 10.3
78 7.80 8.78 1.97 2.47 9.1 11.4 8.7 10.9 8.4 10.5
79 7.90 8.89 2.00 2.50 9.2 11.6 8.8 11.1 8.5 10.6
80 8.00 9.00 2.04 2.54 9.4 11.7 9.0 11.2 8.6 10.8
81 8.10 9.10 2.07 2.57 9.6 11.9 9.2 11.4 8.8 10.9
82 8.20 9.20 2.10 2.60 9.7 12.0 9.3 11.5 8.9 11.0
83 8.30 9.30 2.14 2.64 9.9 12.2 9.5 11.7 9.1 11.2
84 8.40 9.40 2.17 2.67 10.0 12.3 9.6 11.8 9.2 11.3
85 8.50 9.50 2.21 2.70 10.2 12.5 9.8 11.9 9.4 11.4
86 8.60 9.60 2.24 2.74 10.4 12.7 9.9 12.1 9.5 11.6
87 8.70 9.70 2.28 2.77 10.5 12.8 10.1 12.2 9.7 11.7
88 8.80 9.80 2.32 2.80 10.7 12.9 10.3 12.4 9.8 11.9
89 8.90 9.90 2.35 2.84 10.9 13.1 10.4 12.6 10.0 12.0
90 9.00 10.00 2.39 2.87 11.1 13.3 10.6 12.7 10.1 12.2
91 9.10 10.10 2.43 2.91 11.2 13.5 10.7 12.9 10.3 12.3
92 9.20 10.22 2.47 2.94 11.4 13.6 10.9 13.0 10.5 12.5
93 9.30 10.33 2.50 2.97 11.6 13.7 11.1 13.1 10.6 12.6
94 9.40 10.45 2.54 3.01 11.7 13.9 11.2 13.3 10.8 12.8
95 9.50 10.56 2.58 3.04 11.9 14.1 11.4 13.4 10.9 12.9
96 9.60 10.67 2.62 3.08 12.1 14.2 11.6 13.6 11.1 13.1
97 9.70 10.79 2.66 3.11 12.3 14.4 11.8 13.8 11.3 13.2
98 9.80 10.90 2.70 3.15 12.5 14.6 11.9 13.9 11.4 13.3

99 9.90 11.02 2.75 3.19 12.7 14.7 12.2 14.1 11.7 13.5
100 10.00 11.13 2.79 3.22 12.9 14.9 12.3 14.2 11.8 13.6
101 10.10 11.24 2.83 3.26 13.1 15.1 12.5 14.4 12.0 13.8
102 10.20 11.36 2.87 3.29 13.3 15.2 12.7 14.5 12.2 13.9
103 10.30 11.47 2.91 3.33 13.5 15.4 12.9 14.7 12.3 14.1
104 10.40 11.59 2.96 3.36 13.7 15.5 13.1 14.9 12.5 14.2
105 10.50 11.70 3.00 3.40 13.9 15.7 13.3 15.0 12.7 14.4
106 10.60 11.81 3.05 3.44 14.1 15.9 13.5 15.2 12.9 14.6
107 10.70 11.93 3.09 3.47 14.3 16.0 13.7 15.3 13.1 14.7
108 10.80 12.04 3.14 3.51 14.5 16.2 13.9 15.5 13.3 14.9
109 10.90 12.16 3.18 3.55 14.7 16.4 14.1 15.7 13.5 15.0
110 11.00 12.27 3.23 3.59 14.9 16.6 14.3 15.9 13.7 15.2

4-2-1. PUMY-P100VHM

*Before calculating the sum of total capacity of indoor units,please convert the value into the kW model capacity
following the formula on 4-1-1.

9

)

Total capacity of
indoor units*

111 11.10 12.38 3.27 3.62 15.1 16.7 14.5 16.0 13.9 15.3
112 11.20 12.50 3.34 3.66 15.4 16.9 14.8 16.2 14.1 15.5
113 11.22 12.51 3.35 3.65 15.5 16.9 14.8 16.1 14.2 15.5
114 11.24 12.53 3.35 3.64 15.5 16.8 14.8 16.1 14.2 15.4
115 11.26 12.54 3.36 3.63 15.5 16.8 14.9 16.0 14.2 15.4
116 11.28 12.55 3.36 3.62 15.5 16.7 14.9 16.0 14.2 15.3
117 11.30 12.56 3.36 3.61 15.5 16.7 14.9 16.0 14.2 15.3
118 11.32 12.57 3.37 3.59 15.6 16.6 14.9 15.9 14.3 15.2
119 11.34 12.58 3.37 3.58 15.6 16.5 14.9 15.8 14.3 15.2
120 11.36 12.60 3.38 3.57 15.6 16.5 14.9 15.8 14.3 15.1
121 11.38 12.61 3.38 3.56 15.6 16.5 14.9 15.7 14.3 15.1
122 11.40 12.62 3.38 3.55 15.6 16.4 14.9 15.7 14.3 15.0
123 11.42 12.63 3.39 3.54 15.7 16.4 15.0 15.7 14.4 15.0
124 11.44 12.64 3.39 3.52 15.7 16.3 15.0 15.6 14.4 14.9
125 11.47 12.66 3.40 3.51 15.7 16.2 15.0 15.5 14.4 14.9
126 11.49 12.67 3.40 3.50 15.7 16.2 15.0 15.5 14.4 14.8
127 11.51 12.68 3.40 3.49 15.7 16.1 15.0 15.4 14.4 14.8
128 11.53 12.69 3.41 3.48 15.8 16.1 15.1 15.4 14.4 14.7
129 11.55 12.70 3.41 3.47 15.8 16.0 15.1 15.3 14.4 14.7
130 11.57 12.71 3.42 3.45 15.8 15.9 15.1 15.3 14.5 14.6
131 11.59 12.73 3.42 3.44 15.8 15.9 15.1 15.2 14.5 14.6
132 11.61 12.74 3.42 3.43 15.8 15.9 15.1 15.2 14.5 14.5
133 11.63 12.75 3.43 3.42 15.9 15.8 15.2 15.1 14.5 14.5
134 11.65 12.76 3.43 3.41 15.9 15.8 15.2 15.1 14.5 14.4
135 11.67 12.77 3.44 3.40 15.9 15.7 15.2 15.0 14.6 14.4
136 11.69 12.78 3.44 3.38 15.9 15.6 15.2 14.9 14.6 14.3
137 11.71 12.80 3.45 3.37 15.9 15.6 15.3 14.9 14.6 14.3
138 11.73 12.81 3.45 3.36 15.9 15.5 15.3 14.9 14.6 14.2
139 11.75 12.82 3.45 3.35 15.9 15.5 15.3 14.8 14.6 14.2
140 11.77 12.83 3.46 3.34 16.0 15.4 15.3 14.8 14.7 14.2
141 11.79 12.84 3.46 3.32 16.0 15.3 15.3 14.7 14.7 14.1
142 11.82 12.86 3.47 3.31 16.0 15.3 15.3 14.6 14.7 14.0
143 11.84 12.87 3.47 3.30 16.0 15.3 15.3 14.6 14.7 14.0
144 11.86 12.88 3.47 3.29 16.0 15.2 15.3 14.5 14.7 13.9
145 11.88 12.89 3.48 3.28 16.1 15.2 15.4 14.5 14.7 13.9

Capacity(kW

Cooling Heating Cooling Heating Cooling Heating Cooling Heating Cooling Heating

Power Consumption(kW)Current(A)/220V Current(A)/230V Current(A)/240V

10

4-2-2. PUMY-P125VHM

*Before calculating the sum of total capacity of indoor units,please convert the value into the kW model capacity
following the formula on 4-1-1.

Total capacity of

indoor units*

70 7.00 7.88
71 7.10 8.00
72 7.20 8.11
73 7.30 8.22
74 7.40 8.33
75 7.50 8.44
76 7.60 8.56
77 7.70 8.67
78 7.80 8.78
79 7.90 8.89
80 8.00 9.00
81 8.10 9.10
82 8.20 9.20
83 8.30 9.30
84 8.40 9.40
85 8.50 9.50
86 8.60 9.60
87 8.70 9.70
88 8.80 9.80
89 8.90 9.90
90 9.00 10.00
91 9.10 10.10
92 9.20 10.22
93 9.30 10.33
94 9.40 10.45
95 9.50 10.56
96 9.60 10.67
97 9.70 10.79
98 9.80 10.90

99 9.90 11.02
100 10.00 11.13
101 10.10 11.24
102 10.20 11.36
103 10.30 11.47
104 10.40 11.59
105 10.50 11.70
106 10.60 11.81
107 10.70 11.93
108 10.80 12.04
109 10.90 12.16
110 11.00 12.27
111 11.10 12.38
112 11.20 12.50
113 11.30 12.63
114 11.40 12.75
115 11.50 12.88
116 11.60 13.00
117 11.70 13.13
118 11.80 13.25
119 11.90 13.38
120 12.00 13.50
121 12.10 13.63
122 12.20 13.75
123 12.30 13.88
124 12.40 14.00
125 12.50 14.13
126 12.60 14.25
127 12.70 14.38
128 12.80 14.50
129 12.90 14.63
130 13.00 14.75

Capacity(kW)

Cooling Heating Cooling Heating Cooling Heating Cooling Heating Cooling Heating

Power Consumption(kW)

1.83

1.85

1.88

1.90

1.93

1.96

1.98

2.01

2.04

2.07

2.09

2.12

2.15

2.18

2.21

2.24

2.27

2.30

2.33

2.36

2.39

2.42

2.45

2.49

2.52

2.55

2.58

2.62

2.65

2.68

2.72

2.75

2.79

2.82

2.86

2.89

2.93

2.96

3.00

3.04

3.07

3.11

3.15

3.19

3.22

3.26

3.30

3.34

3.38

3.42

3.46

3.50

3.54

3.58

3.62

3.66

3.71

3.75

3.79

3.83

2.05

2.08

2.11

2.13

2.16

2.19

2.21

2.24

2.27

2.29

2.32

2.35

2.38

2.41

2.44

2.46

2.49

2.52

2.55

2.58

2.61

2.64

2.67

2.70

2.73

2.76

2.79

2.82

2.85

2.89

2.92

2.95

2.98

3.01

3.05

3.08

3.11

3.14

3.18

3.21 14.0

3.24 14.2

3.28 14.4

3.31 14.5

3.34 14.7

3.38 14.9

3.41 15.1

3.45 15.3

3.48 15.4

3.52 15.6

3.55 15.8

3.59 16.0

3.62 16.2

3.66 16.4

3.69 16.5

3.73 16.7

3.76 16.9

3.80 17.1

3.84 17.3

3.87 17.5

3.91 17.7

3.88 3.95 17.9

Current(A)/ 220V Current(A)/ 230V Current(A)/ 240V

8.4

8.6

8.7

8.8

8.9

9.0

9.2

9.3

9.4

9.5

9.7

9.8

9.9

10.1

10.2

10.3

10.5

10.6

10.8

10.9

11.0

11.2

11.3

11.5

11.6

11.8

11.9

12.1

12.2

12.4

12.6

12.7

12.9

13.0

13.2

13.4

13.5

13.7

13.9

9.5

9.6

9.7

9.8

10.0

10.1

10.2

10.3

10.5

10.6

10.7

10.8

11.0

11.1

11.2

11.4

11.5

11.6

11.8

11.9

12.0

12.2

12.3

12.5

12.6

12.7

12.9

13.0

13.2

13.3

13.5

13.6

13.8

13.9

14.1

14.2

14.4

14.5

14.7

14.8

15.0

15.1

15.3

15.4

15.6

15.7

15.9

16.1

16.2

16.4

16.5

16.7

16.9

17.0

17.2

17.4

17.5

17.7

8.1

8.2

8.3

8.4

8.5

8.6

8.8

8.9

9.0

9.1

9.3

9.4

9.5

9.6

9.8

9.9

10.0

10.2

10.3

10.4

10.6

10.7

10.8

11.0

11.1

11.3

11.4

11.6

11.7

11.9

12.0

12.2

12.3

12.5

12.6

12.8

12.9

13.1

13.3

13.4

13.6

13.7

13.9

14.1

14.2

14.4

14.6

14.8

14.9

15.1

15.3

15.5

15.6

15.8

16.0

16.2

16.4

16.6

9.1

9.2

9.3

9.4

9.5

9.6

9.8

9.9

10.0

10.1

10.3

10.4

10.5

10.6

10.8

10.9

11.0

11.1

11.3

11.4

11.5

11.7

11.8

11.9

12.1

12.2

12.3

12.5

12.6

12.7

12.9

13.0

13.2

13.3

13.4

13.6

13.7

13.9

14.0

14.2

14.3

14.5

14.6

14.8

14.9

15.1

15.2

15.4

15.5

15.7

15.8

16.0

16.1

16.3

16.5

16.6

16.8

16.9

17.9 16.7 17.1

7.7

7.8

8.0

8.1

8.2

8.3

8.4

8.5

8.6

8.7

8.9

9.0

9.1

9.2

9.4

9.5

9.6

9.7

9.9

10.0

10.1

10.3

10.4

10.5

10.7

10.8

10.9

11.1

11.2

11.4

11.5

11.7

11.8

11.9

12.1

12.2

12.4

12.6

12.7

12.9

13.0

13.2

13.3

13.5

13.7

13.8

14.0

14.1

14.3

14.5

14.7

14.8

15.0

15.2

15.3

15.5

15.7

15.9

16.0 16.4

18.0 16.9 17.3 16.2 16.5

18.2 17.1 17.4 16.4 16.7

8.8

8.9

9.0

9.1

9.2

9.4

9.5

9.6

9.7

9.8

9.9

10.1

10.2

10.3

10.4

10.5

10.7

10.8

10.9

11.0

11.2

11.3

11.4

11.6

11.7

11.8

11.9

12.1

12.2

12.3

12.5

12.6

12.7

12.9

13.0

13.2

13.3

13.4

13.6

13.7

13.9

14.0

14.1

14.3

14.4

14.6

14.7

14.9

15.0

15.2

15.3

15.5

15.6

15.8

15.9

16.1

16.2

8.7

11

Total capacity of

indoor units*

131 13.10 14.88
132 13.20 15.00
133 13.30 15.13
134 13.40 15.25
135 13.50 15.38
136 13.60 15.50
137 13.70 15.63
138 13.80 15.75
139 13.90 15.88
140 14.00 16.00
141 14.02 16.01
142 14.04 16.02
143 14.06 16.03
144 14.08 16.04
145 14.10 16.06
146 14.12 16.07
147 14.15 16.08
148 14.17 16.09
149 14.19 16.10
150 14.21 16.12
151 14.23 16.13
152 14.25 16.14
153 14.27 16.15
154 14.30 16.16
155 14.32 16.17
156 14.34 16.19
157 14.36 16.20
158 14.38 16.21
159 14.40 16.22
160 14.42 16.23
161 14.45 16.25
162 14.47 16.26
163 14.49 16.27
164 14.51 16.28
165 14.53 16.29
166 14.55 16.31
167 14.57 16.32
168 14.60 16.33
169 14.62 16.34
170 14.64 16.35
171 14.66 16.36
172 14.68 16.38
173 14.70 16.39
174 14.72 16.40
175 14.75 16.41
176 14.77 16.42
177 14.79 16.44
178 14.81 16.45
179 14.83 16.46
180 14.85 16.47
181 14.87 16.48
182 14.89 16.50

Capacity(kW)

Cooling Heating Cooling Heating Cooling Heating Cooling Heating Cooling Heating

Power Consumption(kW)

3.92 3.98 18.1 18.4 17.3

3.96 4.02 18.3 18.6 17.5

4.01 4.06 18.5 18.7 17.7

4.05 4.10 18.7 18.9 17.9

4.09 4.14 18.9 19.1 18.1

4.14 4.17 19.1 19.3 18.3

4.18 4.21 19.3 19.4 18.5

4.23 4.25 19.5 19.6 18.7

4.27 4.29 19.7 19.8 18.9

4.32 4.33 20.0 20.0 19.1

4.33 4.32 20.0 19.9 19.1

4.33 4.31 20.0 19.9 19.1

4.33 4.30 20.0 19.8 19.1

4.33 4.28 20.0 19.8 19.1

4.33 4.27 20.0 19.7 19.2

4.34 4.26 20.0 19.7 19.2

4.34 4.25 20.0 19.6 19.2

4.34 4.23 20.1 19.5 19.2

4.34 4.22 20.1 19.5 19.2

4.35 4.21 20.1 19.4 19.2

4.35 4.20 20.1 19.4 19.2

4.35 4.19 20.1 19.3 19.2

4.35 4.17 20.1 19.3 19.2

4.35 4.16 20.1 19.2 19.2

4.36 4.15 20.1 19.1 19.3

4.36 4.14 20.1 19.1 19.3

4.36 4.12 20.1 19.0 19.3

4.36 4.11 20.2 19.0 19.3

4.37 4.10 20.2 18.9 19.3

4.37 4.09 20.2 18.9 19.3

4.37 4.08 20.2 18.8 19.3

4.37 4.06 20.2 18.8 19.3

4.37 4.05 20.2 18.7 19.3

4.38 4.04 20.2 18.6 19.3

4.38 4.03 20.2 18.6 19.3

4.38 4.01 20.2 18.5 19.4

4.38 4.00 20.2 18.5 19.4

4.39 3.99 20.3 18.4 19.4

4.39 3.98 20.3 18.4 19.4

4.39 3.97 20.3 18.3 19.4

4.39 3.95 20.3 18.2 19.4

4.39 3.94 20.3 18.2 19.4

4.40 3.93 20.3 18.1 19.4

4.40 3.92 20.3 18.1 19.4

4.40 3.91 20.3 18.0 19.4

4.40 3.89 20.3 18.0 19.5

4.41 3.88 20.4 17.9 19.5

Current(A)/ 220V Current(A)/ 230V Current(A)/ 240V

17.6 16.6 16.9

17.8 16.8 17.0

17.9 17.0 17.2

18.1 17.1 17.3

18.3 17.3 17.5

18.4 17.5 17.7

18.6 17.7 17.8

18.8 17.9 18.0

18.9 18.1 18.1

19.1 18.3 18.3

19.1 18.3 18.3

19.0 18.3 18.2

19.0 18.3 18.2

18.9 18.3 18.1

18.9 18.4 18.1

18.8 18.4 18.0

18.7 18.4 18.0

18.7 18.4 17.9

18.6 18.4 17.9

18.6 18.4 17.8

18.5 18.4 17.8

18.5 18.4 17.7

18.4 18.4 17.7

18.4 18.4 17.6

18.3 18.4 17.5

18.3 18.5 17.5

18.2 18.5 17.4

18.2 18.5 17.4

18.1 18.5 17.3

18.0 18.5 17.3

18.0 18.5 17.2

17.9 18.5 17.2

17.9 18.5 17.1

17.8 18.5 17.1

17.8 18.5 17.0

17.7 18.6 17.0

17.7 18.6 16.9

17.6 18.6 16.9

17.6 18.6 16.8

17.5 18.6 16.8

17.5 18.6 16.7

17.4 18.6 16.7

17.3 18.6 16.6

17.3 18.6 16.6

17.2 18.6 16.5

17.2 18.6 16.5

17.1 18.7 16.4

4.41 3.87 20.4 17.9 19.5 17.1 18.7 16.4

4.41 3.86 20.4 17.8 19.5 17.0 18.7 16.3

4.41 3.84 20.4 17.7 19.5 17.0 18.7 16.3

4.42 3.83 20.4 17.7 19.5 16.9 18.7 16.2

4.42 3.82 20.4 17.6 19.5 16.9 18.7 16.2

12

4-2-3. PUMY-P140VHM

Total capacity of

Capacity(kW

)

Power Consumption(kW)Current(A)/220V Current(A)/230V Current(A)/240V

indoor units*

Cooling Heating Cooling Heating Cooling Heating Cooling Heating Cooling Heating

80 8.00 9.00 2.35 2.86 10.9 13.2 10.4 12.6 10.0 12.1
81 8.10 9.10 2.38 2.90 11.0 13.4 10.5 12.8 10.1 12.3
82 8.20 9.20 2.41 2.93 11.1 13.5 10.7 13.0 10.2 12.4
83 8.30 9.30 2.44 2.96 11.3 13.7 10.8 13.1 10.3 12.5
84 8.40 9.40 2.48 2.99 11.5 13.8 11.0 13.2 10.5 12.7
85 8.50 9.50 2.51 3.03 11.6 14.0 11.1 13.4 10.6 12.8
86 8.60 9.60 2.54 3.06 11.7 14.1 11.2 13.5 10.8 13.0
87 8.70 9.70 2.57 3.09 11.9 14.3 11.4 13.7 10.9 13.1
88 8.80 9.80 2.61 3.13 12.1 14.5 11.5 13.8 11.1 13.3
89 8.90 9.90 2.64 3.16 12.2 14.6 11.7 14.0 11.2 13.4
90 9.00 10.00 2.67 3.19 12.3 14.7 11.8 14.1 11.3 13.5
91 9.10 10.11 2.71 3.23 12.5 14.9 12.0 14.3 11.5 13.7
92 9.20 10.23 2.74 3.26 12.7 15.1 12.1 14.4 11.6 13.8
93 9.30 10.34 2.77 3.29 12.8 15.2 12.2 14.5 11.7 13.9
94 9.40 10.46 2.81 3.33 13.0 15.4 12.4 14.7 11.9 14.1
95 9.50 10.57 2.84 3.36 13.1 15.5 12.6 14.9 12.0 14.2
96 9.60 10.68 2.88 3.40 13.3 15.7 12.7 15.0 12.2 14.4
97 9.70 10.80 2.91 3.43 13.5 15.9 12.9 15.2 12.3 14.5
98 9.80 10.91 2.95 3.46 13.6 16.0 13.0 15.3 12.5 14.7

99 9.90 11.03 2.98 3.50 13.8 16.2 13.2 15.5 12.6 14.8
100 10.00 11.14 3.02 3.53 14.0 16.3 13.4 15.6 12.8 15.0
101 10.10 11.25 3.05 3.57 14.1 16.5 13.5 15.8 12.9 15.1
102 10.20 11.37 3.09 3.60 14.3 16.6 13.7 15.9 13.1 15.3
103 10.30 11.48 3.13 3.64 14.5 16.8 13.8 16.1 13.3 15.4
104 10.40 11.60 3.16 3.67 14.6 17.0 14.0 16.2 13.4 15.6
105 10.50 11.71 3.20 3.71 14.8 17.1 14.1 16.4 13.6 15.7
106 10.60 11.82 3.24 3.74 15.0 17.3 14.3 16.5 13.7 15.8
107 10.70 11.94 3.27 3.78 15.1 17.5 14.5 16.7 13.9 16.0
108 10.80 12.05 3.31 3.81 15.3 17.6 14.6 16.8 14.0 16.1
109 10.90 12.17 3.35 3.85 15.5 17.8 14.8 17.0 14.2 16.3
110 11.00 12.28 3.39 3.88 15.7 17.9 15.0 17.2 14.4 16.4
111 11.10 12.39 3.43 3.92 15.9 18.1 15.2 17.3 14.5 16.6
112 11.20 12.51 3.46 3.95 16.0 18.3 15.3 17.5 14.7 16.7
113 11.30 12.63 3.50 3.99 16.2 18.4 15.5 17.6 14.8 16.9
114 11.40 12.75 3.54 4.03 16.4 18.6 15.7 17.8 15.0 17.1
115 11.50 12.88 3.58 4.06 16.5 18.8 15.8 17.9 15.2 17.2
116 11.60 13.00 3.62 4.10 16.7 18.9 16.0 18.1 15.3 17.4
117 11.70 13.13 3.66 4.13 16.9 19.1 16.2 18.3 15.5 17.5
118 11.80 13.25 3.70 4.17 17.1 19.3 16.4 18.4 15.7 17.7
119 11.90 13.38 3.74 4.21 17.3 19.5 16.5 18.6 15.8 17.8
120 12.00 13.50 3.78 4.24 17.5 19.6 16.7 18.7 16.0 18.0
121 12.10 13.63 3.82 4.28 17.7 19.8 16.9 18.9 16.2 18.1
122 12.20 13.75 3.86 4.32 17.8 20.0 17.1 19.1 16.4 18.3
123 12.30 13.88 3.90 4.35 18.0 20.1 17.2 19.2 16.5 18.4
124 12.40 14.00 3.95 4.39 18.3 20.3 17.5 19.4 16.7 18.6
125 12.50 14.13 3.99 4.43 18.4 20.5 17.6 19.6 16.9 18.8
126 12.60 14.25 4.03 4.46 18.6 20.6 17.8 19.7 17.1 18.9
127 12.70 14.38 4.07 4.50 18.8 20.8 18.0 19.9 17.2 19.1
128 12.80 14.50 4.12 4.54 19.0 21.0 18.2 20.1 17.5 19.2
129 12.90 14.63 4.16 4.58 19.2 21.2 18.4 20.2 17.6 19.4
130 13.00 14.75 4.20 4.61 19.4 21.3 18.6 20.4 17.8 19.5
131 13.10 14.88 4.24 4.65 19.6 21.5 18.7 20.6 18.0 19.7
132 13.20 15.00 4.29 4.69 19.8 21.7 19.0 20.7 18.2 19.9
133 13.30 15.13 4.33 4.73 20.0 21.9 19.1 20.9 18.3 20.0
134 13.40 15.25 4.38 4.77 20.2 22.0 19.4 21.1 18.6 20.2
135 13.50 15.38 4.42 4.80 20.4 22.2 19.5 21.2 18.7 20.3
136 13.60 15.50 4.46 4.84 20.6 22.4 19.7 21.4 18.9 20.5
137 13.70 15.63 4.51 4.88 20.8 22.6 19.9 21.6 19.1 20.7
138 13.80 15.75 4.55 4.92 21.0 22.7 20.1 21.7 19.3 20.8
139 13.90 15.88 4.60 4.96 21.3 22.9 20.3 21.9 19.5 21.0
140 14.00 16.00 4.64 5.00 21.4 23.1 20.5 22.1 19.7 21.2
141 14.10 16.13 4.69 5.03 21.7 23.2 20.7 22.2 19.9 21.3
142 14.20 16.26 4.74 5.07 21.9 23.4 21.0 22.4 20.1 21.5
143 14.30 16.40 4.78 5.11 22.1 23.6 21.1 22.6 20.3 21.6
144 14.40 16.53 4.83 5.15 22.3 23.8 21.4 22.8 20.5 21.8
145 14.50 16.66 4.87 5.19 22.5 24.0 21.5 22.9 20.6 22.0

*Before calculating the sum of total capacity of indoor units,please convert the value into the kW model capacity
following the formula on 4-1-1.

13

)

Total capacity of

indoor units*

146 14.60 16.80 4.92 5.23 22.7 24.2 21.7 23.1 20.8 22.2
147 14.70 16.93 4.97 5.27 23.0 24.4 22.0 23.3 21.1 22.3
148 14.80 17.06 5.02 5.31 23.2 24.5 22.2 23.5 21.3 22.5
149 14.90 17.20 5.06 5.35 23.4 24.7 22.4 23.6 21.4 22.7
150 15.00 17.33 5.11 5.39 23.6 24.9 22.6 23.8 21.6 22.8
151 15.10 17.46 5.16 5.43 23.8 25.1 22.8 24.0 21.9 23.0
152 15.20 17.60 5.21 5.47 24.1 25.3 23.0 24.2 22.1 23.2
153 15.30 17.73 5.26 5.51 24.3 25.5 23.3 24.4 22.3 23.3
154 15.40 17.86 5.31 5.55 24.5 25.6 23.5 24.5 22.5 23.5
155 15.50 18.00 5.35 5.58 24.7 25.8 23.6 24.7 22.7 23.6
156 15.51 18.01 5.35 5.57 24.7 25.7 23.7 24.6 22.7 23.6
157 15.52 18.02 5.35 5.55 24.7 25.7 23.7 24.5 22.7 23.5
158 15.54 18.04 5.36 5.54 24.8 25.6 23.7 24.5 22.7 23.5
159 15.55 18.05 5.36 5.52 24.8 25.5 23.7 24.4 22.7 23.4
160 15.57 18.06 5.36 5.51 24.8 25.5 23.7 24.4 22.7 23.3
161 15.58 18.07 5.37 5.49 24.8 25.4 23.7 24.3 22.7 23.3
162 15.60 18.09 5.37 5.48 24.8 25.3 23.7 24.2 22.7 23.2
163 15.61 18.10 5.37 5.47 24.8 25.3 23.7 24.2 22.8 23.2
164 15.62 18.11 5.37 5.45 24.8 25.2 23.8 24.1 22.8 23.1
165 15.64 18.12 5.38 5.44 24.8 25.1 23.8 24.0 22.8 23.0
166 15.65 18.14 5.38 5.42 24.9 25.1 23.8 24.0 22.8 23.0
167 15.67 18.15 5.38 5.41 24.9 25.0 23.8 23.9 22.8 22.9
168 15.68 18.16 5.38 5.39 24.9 24.9 23.8 23.8 22.8 22.8
169 15.70 18.17 5.39 5.38 24.9 24.9 23.8 23.8 22.8 22.8
170 15.71 18.19 5.39 5.36 24.9 24.8 23.8 23.7 22.8 22.7
171 15.73 18.20 5.39 5.35 24.9 24.7 23.8 23.6 22.8 22.7
172 15.74 18.21 5.40 5.34 24.9 24.7 23.9 23.6 22.9 22.6
173 15.76 18.22 5.40 5.32 24.9 24.6 23.9 23.5 22.9 22.5
174 15.77 18.24 5.40 5.31 25.0 24.5 23.9 23.5 22.9 22.5
175 15.79 18.25 5.40 5.29 25.0 24.5 23.9 23.4 22.9 22.4
176 15.80 18.26 5.41 5.28 25.0 24.4 23.9 23.3 22.9 22.4
177 15.81 18.27 5.41 5.26 25.0 24.3 23.9 23.3 22.9 22.3
178 15.83 18.29 5.41 5.25 25.0 24.3 23.9 23.2 22.9 22.2
179 15.84 18.30 5.41 5.23 25.0 24.2 23.9 23.1 22.9 22.2
180 15.86 18.31 5.42 5.22 25.0 24.1 23.9 23.1 23.0 22.1
181 15.87 18.32 5.42 5.21 25.0 24.1 24.0 23.0 23.0 22.1
182 15.89 18.34 5.42 5.19 25.1 24.0 24.0 22.9 23.0 22.0
183 15.90 18.35 5.43 5.18 25.1 23.9 24.0 22.9 23.0 21.9
184 15.92 18.36 5.43 5.16 25.1 23.9 24.0 22.8 23.0 21.9
185 15.93 18.37 5.43 5.15 25.1 23.8 24.0 22.8 23.0 21.8
186 15.95 18.39 5.43 5.13 25.1 23.7 24.0 22.7 23.0 21.7
187 15.96 18.40 5.44 5.12 25.1 23.7 24.0 22.6 23.0 21.7
188 15.97 18.41 5.44 5.10 25.1 23.6 24.0 22.6 23.0 21.6
189 15.99 18.42 5.44 5.09 25.2 23.5 24.1 22.5 23.1 21.6
190 16.00 18.44 5.45 5.07 25.2 23.5 24.1 22.4 23.1 21.5
191 16.02 18.45 5.45 5.06 25.2 23.4 24.1 22.4 23.1 21.4
192 16.03 18.46 5.45 5.05 25.2 23.3 24.1 22.3 23.1 21.4
193 16.05 18.47 5.45 5.03 25.2 23.3 24.1 22.2 23.1 21.3
194 16.06 18.49 5.46 5.02 25.2 23.2 24.1 22.2 23.1 21.3
195 16.08 18.50 5.46 5.00 25.2 23.1 24.1 22.1 23.1 21.2
196 16.09 18.51 5.46 4.99 25.2 23.1 24.1 22.1 23.1 21.1
197 16.11 18.52 5.46 4.97 25.3 23.0 24.2 22.0 23.1 21.1
198 16.12 18.54 5.47 4.96 25.3 22.9 24.2 21.9 23.2 21.0
199 16.14 18.55 5.47 4.94 25.3 22.9 24.2 21.9 23.2 20.9
200 16.15 18.56 5.47 4.93 25.3 22.8 24.2 21.8 23.2 20.9
201 16.16 18.57 5.48 4.92 25.3 22.7 24.2 21.7 23.2 20.8
202 16.18 18.59 5.48 4.90 25.3 22.7 24.2 21.7 23.2 20.8
203 16.19 18.60 5.48 4.89 25.3 22.6 24.2 21.6 23.2 20.7
204 16.21 18.61 5.48 4.87 25.3 22.5 24.2 21.5 23.2 20.6
205 16.22 18.62 5.49 4.86 25.4 22.5 24.3 21.5 23.2 20.6
206 16.24 18.64 5.49 4.84 25.4 22.4 24.3 21.4 23.3 20.5
207 16.25 18.65 5.49 4.83 25.4 22.3 24.3 21.3 23.3 20.5
208 16.27 18.66 5.49 4.81 25.4 22.3 24.3 21.3 23.3 20.4

Capacity(kW

Cooling Heating Cooling Heating Cooling Heating Cooling Heating Cooling Heating

Power Consumption(kW)Current(A)/220V Current(A)/230V Current(A)/240V

14

4-3. CORRECTING COOLING AND HEATING CAPACITY

Rated cooling capacity
Rated heating capacity

Indoor D.B. 27°C / W.B. 19°C
Outdoor D.B. 35°C

Indoor D.B. 20°C
Outdoor D.B. 7°C / W.B. 6°C

0.4

-5 0 10 20 30 40 46

0.6

0.8

1.0

1.2

1.4

0.6

0.8

1.0

1.2

1.4

22
20
18
16

22

20
18
16

0.6

0.4

0.8

1.0

1.2

1.4

0.4

0.6

0.8

1.0

1.2

1.4

-10-15 -5 0 5 10 15

20

25

15

20

25

15

4-3-1. Correcting Changes in Air Conditions

(1)The performance curve charts (Figure 1, 2) show the change ratio of capacity and input (power consumption) according to the

indoor and outdoor temperature condition when define the rated capacity (total capacity) and rated input under the standard
condition in standard piping length (5m) as “1.0”.

• Standard conditions:

• Use the rated capacity and rated input given in “4-2.”.

• The input is the single value on the side of the outdoor unit; the input on the sides of each indoor unit must be
added to obtain the total input.

(2)The capacity of each indoor unit may be obtained by multiplying the total capacity obtained in (1) by the ratio between the

individual capacity at the rated time and the total capacity at the rated time.

Individual capacity under stated conditions = total capacity under the stated conditions o

(3)Capacity correction factor curve

individual capacity at the rated time

total capacity at the rated time

Figure 1. PUMY-P100VHM

PUMY-P125VHM
PUMY-P140VHM

Cooling performance curve

Cooling
Capacity
(ratio)

Cooling
Power
consumption
(ratio)

Figure 2. PUMY-P100VHM

PUMY-P125VHM
PUMY-P140VHM

Heating performance curve

Heating
Capacity
(ratio)

INDOOR

INDOOR
<W.B. :>

Heating
Power
consumption
(ratio)

INDOOR
<W.B. :>

<D.B. :>

INDOOR
<D.B. :>

Outdoor <D.B. ::>

Outdoor <W.B. ::>

15

4-3-2. Correcting Capacity for Changes in the Length of Refrigerant Piping

Cooling
Heating

100

95

90

85

80

75

70

5 101520253035404550556065707580

Cooling P100 model

Heating P100, 125, 140
models

Cooling P125 model

Cooling P140 model

Capacity ratio [%]

Corrected pipe length

(1) During cooling, to obtain the ratio (and the equivalent piping length) of the outdoor units rated capacity and the total

in-use indoor capacity, first find the capacity ratio corresponding to the standard piping length from Figure 3,
and then multiply by the cooling capacity from Figure 1 to obtain the actual capacity.

(2) During heating, to find the equivalent piping length, first find the capacity ratio corresponding to standard piping length

from Figure 3, and then multiply by the heating capacity from Figure 2 to obtain the actual capacity.

(1) Capacity CORRECTION CURVE (Figure 3)

(2) Method for Obtaining the Equivalent Piping Length

Equivalent length for type P100·125·140 = (length of piping to farthest indoor unit) + (0.3 o number of bends in the piping) (m)

Length of piping to farthest indoor unit: type P100~P140.....80m

4-3-3. Correction of Heating Capacity for Frost and Defrosting

If heating capacity has been reduced due to frost formation or defrosting, multiply the capacity by the appropriate correction
factor from the following table to obtain the actual heating capacity.

Correction factor diagram

Outdoor Intake temperature (W.B.°C)

Correction factor

6

1.0

4

0.98

2

0.89

0

0.88

-2

0.89

-4

0.9

-6

0.95

-8

0.95

-10

0.95

16

4-4. NOISE CRITERION CURVES

1.5m

1m

MICROPHONE

UNIT

GROUND

90

80

70

60

50

40

30

20

10

63 125 250 500 1000 2000 4000 8000

APPROXIMATE
THRESHOLD OF
HEARING FOR
CONTINUOUS
NOISE

OCTAVE BAND SOUND PRESSURE LEVEL, dB (0 dB = 0.0002 µbar)

BAND CENTER FREQUENCIES, Hz

NC-60

NC-50

NC-40

NC-30

NC-20

NC-70

PUMY-P100VHM

COOLING

MODE

HEATING

49

SPL(dB)

51

LINE

90

80

70

60

50

40

30

20

10

63 125 250 500 1000 2000 4000 8000

APPROXIMATE
THRESHOLD OF
HEARING FOR
CONTINUOUS
NOISE

OCTAVE BAND SOUND PRESSURE LEVEL, dB (0 dB = 0.0002 µbar)

BAND CENTER FREQUENCIES, Hz

NC-60

NC-50

NC-40

NC-30

NC-20

NC-70

PUMY-P125VHM

COOLING

MODE

HEATING

50

SPL(dB)

52

LINE

90

80

70

60

50

40

30

20

10

63 125 250 500 1000 2000 4000 8000

APPROXIMATE
THRESHOLD OF
HEARING FOR
CONTINUOUS
NOISE

OCTAVE BAND SOUND PRESSURE LEVEL, dB (0 dB = 0.0002 µbar)

BAND CENTER FREQUENCIES, Hz

NC-60

NC-50

NC-40

NC-30

NC-20

NC-70

PUMY-P140VHM

COOLING

MODE

HEATING

51

SPL(dB)

53

LINE

17

5

OUTLINES AND DIMENSIONS

PUMY-P100VHM
PUMY-P125VHM
PUMY-P140VHM

19

2-U Shaped notched holes

(Foundation Bolt M10)

600175 175

Rear Air Intake

Installation Feet

417

330

56
37

28 370
53

Terminal block

42

56

70

Air Discharge

2-12o36 Oval holes

(Foundation Bolt M10)

30

Left·········For the power supply

Center····For the transmission line

Right·······For concentration control

Ground for the transmission line

( )

950

Ground for the power supply

("GR"marking position)

322

Ground for concentration control

Service panel

Handle for moving

635371

1350

1088

Unit : mm

Front piping cover

w1 507

w1 423

2

1

Rear piping cover

71

23

Bottom piping hole

(Knock-Out)

71

81 219

Drain hole

(5-[33)

14514522030 145

Side Air Intake

4 PIPING-WIRING DIRECTIONS

Piping and wiring connections

can be made from 4 directions:

FRONT,Right,Rear and Below.

FOUNDATION

500

Over

10

Over

30

Less than

500

Over

Service space

<Foundation bolt height>

Please secure the unit

firmly with 4 foundation (M10)

bolts.(Bolts and washers must

be purchased locally.)

150

Over

2 SERVICE SPACE 3 FOUNDATION BOLTS

Dimensions of space needed

for service access are

shown in the below diagram.

Handle for moving

Side Air Intake

Rear Air Intake

Handle for moving

Handle for moving

Handle for moving

Air intake

Rear trunking hole

(Knock-Out)

Power supply wiring hole

(2-[27Knock-Out)

45 40

Right trunking hole

(Knock-Out)

Power supply wiring hole

(2-[27Knock-Out)

75 40

Right piping hole

(Knock-Out)

4540

Power supply wiring hole

(2-[27Knock-Out)

92

[

n92

n92

Rear piping hole

(Knock-Out)

92

65

27 55

23 73 63

92

19 55

73 63
23 27 92

23 73 63
27 55

65

92

Over 10

FREE

1 FREE SPACE (Around the unit)

The diagram below shows a

basic example.

Explantion of particular details are

given in the installation manuals etc.

Over 10

Over 150Over 1000

Example of Notes

w1·····Indication of STOP VALVE connection location.

1Refrigerant GAS pipe connction(FLARE)[15.88(5/8F)

2Refrigerant LIQUID pipe connection(FLARE)[ 9.52(3/8F)

18

Front piping hole

Front trunking hole

(Knock-Out)

(Knock-Out)

Piping Knock-Out Hole Details

6

WIRING DIAGRAM

PUMY-P100VHM PUMY-P125VHM PUMY-P140VHM

SYMBOL NAME SYMBOL NAME SYMBOL NAMESYMBOL NAME

TB1 Terminal Block <Power Supply>
TB3 Terminal Block <Transmission>
TB7 Terminal Block <Centralized Control>
MC Motor for Compressor
MF1,MF2 Fan Motor
21S4 Solenoid Valve <Four way valve>
SV1 Solenoid Valve <Bypass valve>
TH3
TH4 Thermistor <Discharge Temperature>
TH6
TH7 Thermistor <Outdoor Temperature>
TH8 Thermistor <Heat sink>
63HS
63H High Pressure Switch
63L Low Pressure Switch
CB Main Smoothing Capacitor
ACTM
RS Rush Current Protect Resistor
DCL

Thermistor <Outdoor Pipe Temperature>

Thermistor <Low Pressure Saturated Temperature>

High Pressure Sensor <Discharge Pressure>

Active filter Module

Reactor

P.B. Power Circuit Board

Connection Terminal <U/V/W-Phase>

U/V/W
TAB-S/T

Terminal <L/N-Phase>
Terminal <DCVoltage>

TAB-P/P1/P2

Terminal <DCVoltage>

TAB-N/N1/N2

Connector

CN2~5

Connector

CNDC

Connector

CNAF

Inverter

IPM

Light Emitting Diodes <Inverter Control Status>

LED1

N.F. Noise Filter Circuit Board

Connection Lead <L-Phase>

LI/LO
NI/NO

Connection Lead <N-Phase>
Connection Terminal <Ground>

EI

Connector

CNAC1/2

Connector

CN5

TH7TH6 TH3 TH463HS 63H63L

Multi Controller Board

MULTI.B.

Fuse <6.3A>

F1,F2
F500

Fuse <3A>

SW1

Switch <Display Selection>

SW2

Switch <Function Selection>

SW3

Switch <Test Run>

SW4

Switch <Model Selection>

SW5

Switch <Function Selection>

SW6

Switch <Function Selection>

SW7

Switch <Function Selection>

SW8

Switch <Function Selection>

SWU1

Switch <Unit Address Selection, 1st digit>

SWU2

Switch <Unit Address Selection, 2nd digit>

TRANS

Transformer

LED1,2

Digital Indicator <Operation Inspection Display>

LED3

LED <Power Supply to Main Microcomputer>

CNS1

Connector <Multi System>

CNS2

Connector <Centralized Cotrol>

MULTI. B.

CN3D

CN3S

CN3N

MF1

MF2

TB3

(BRN)

M1
M2

(BRN)

S

TO INDOOR UNIT

CONNECTING WIRES

DC 30V(Non-polar)

TB7

(ORN)

M1
M2

(ORN)

S

FOR CENTRALIZED

CONTROL

DC 30V(Non-polar)

POWER SUPPLY
~/N
AC220/230/240V 50Hz

NO FUSE

AC220V 60Hz

BREAKER

TB1

L
N

1

1

3

52C

(BLK)

F500

X505

1

4 5 6 7

4 5 6 7

21S4

(GRN)

3 1

21S4

CNF1
(WHT)

CNF2

(WHT)

CNDC
(PNK)

X504

CB

31

(BLU)

3 1

+

SV2

TH8

X503

1 2 3
63HS
(WHT)

TRANS

(WHT)

2 1

SV1

52C

P. B.

123

CNAF

4 5 6

(WHT)

12 12 12 123 4 5 6 7

(WHT)

(WHT)
(RED)
(WHT)

TABN
TABP

X502

SV1

CN2

CN3
CN5
CN4

1 2 12 123 4

TH7/6

(RED)

63H

(YLW)

SS

(WHT)

3 1

RS

3 1

X501

TABP2

TH3

(WHT)

+

U

RED

MC

F1
F2

V

WHT

31

W

BLK

TH4

(WHT)

63L

(RED)

2

-

1

CNDC

(PIN)

+

CNAC
(RED)

DCL

ACTM

1
3

TABN1

LED3

+

-

TABN2

(WHT)

7 6 5 4 3 2 1

CNS1
(RED)

121

2

L1

1 2 3

(WHT)

CNS2
(YLW)

CN2

123 4 5 6

L2

TABT

­+

TABS

­+

TABP1

(RED)

1 2 3

~
~

~
~

N1
N2

(BLU)

P

I

1 2 3

CN4

(WHT)

2 1

CN51

(WHT)

SWU2SWU1

54321

w

1

CN41

(WHT)

3
13

CNAC2

(RED)

1

CNAC1

(WHT)

CN40
(WHT)
4 3 2 14 3 2 1

SW5

LED1

88

(RED)

E I

LO
NO

CN5

M-P.B.

N. F.

12

NILI

SW6

SW2SW8SW1

SW7SW3SW4

LED2

88

CN102
(WHT)
4 3 2 1

1 2 3 4

CN2

(WHT)

TP1

CN1

(WHT)

3 1

w1 MODEL SELECT
MODELS

PUMY-P100VHM
PUMY-P125VHM
PUMY-P140VHM

CNAC

Connector <To Noise Filter Circuit Board>

CNDC

Connector <To Noise Filter Circuit>

CN2

Connector <To Power Circuit Board>

CN4

Connector <To Power Circuit Board>

CN40

Connector <Centralized Cotrol Power Supply>

CN41

Connector <For shorting Jumper Connector>

TH3

Connector <Thermistor>

TH4

Connector <Thermistor>

TH7/6

Connector <Thermistor>

63HS

Connector <High Pressure Sensor>

63H

Connector <High Pressure Switch>

63L

Connector <Low Pressure Switch>

CNF1,CNF2

Connector <Fan Motor>

21S4

Connector <Four-way Valve>

SV1

Connector <Bypass Valve>

SS

Connector <For Option>

CN3D

Connector <For Option>

CN3S

Connector <For Option>

CN3N

Connector <For Option>

CN51

Connector <For Option>
Relay

X501~505

Transmission Power Board

M-P.B.

CN1

Connector <To Noise Filter Circuit Board>

CN2

Connector <To Multi Controller Board>

1: ON 0: OFF

123456

1

0

1

0

1

0

SW4
0

0
0

0

1

0

1

0

0

1

1

0

Cautions when Servicing

• WARNING: When the main supply is turned off, the voltage[340V] in the main capacitor will drop to 20V in approx. 2 minutes (input voltage:240V).

!

When servicing,make sure that LED1, LED2 on the outdoor circuit board goes out, and then wait for at least 1 minute.

• Components other than the outdoor board may be faulty: Check and take corrective action, referring to the service manual.
Do not replace the outdoor board without checking.
NOTES:

1.Refer to the wiring diagrams of the indoor units for details on wiring of each indoor unit.
Self-diagnosis function
The indoor and outdoor units can be diagnosed automatically using the self-diagnosis switch (SW1) and LED1, LED2 (LED indication) found
on the multi-controller of the outdoor unit.
LED indication : Set all contacts of SW1 to OFF.

• During normal operation

• The LED indicates the drive state of the controller in the outdoor unit.

Bit

Indication

1

Compressor
operated

2

52C321S44SV1

5

(SV2)6—

7

—

8

Always lit

[Example]
When the compressor and
SV1 are turned during cooling
operation.

12345678

• When fault requiring inspection has occurred
The LED alternately indicates the inspection code and the location
of the unit in which the fault has occurred.

19

7

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

051

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

056

001

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

010

101

1

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

002

102 104 154

1111

11

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

009

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

008

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

003

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

007

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

006

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

004

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

005

1 A transmission wire must be

connected to each refrigerant

system (outdoor and indoor).

2 Set addresses:

Outdoor unit ..............051-100

Indoor unit .................001-050

Remote controller .....101-200

3 PUMY has no 3rd digit switch.

The address automatically become

"100" if it is set as "01~50".

Remote

controller

Remote

controller

Remote

controller

Remote

controller

105

Remote

controller

157

Remote

controller

107

Remote

controller

For centralized

management

For remote

controller

Address SW Address SW Address SW Address SW Address SW

Piping

Outdoor unit

Outdoor unit

Indoor unit Indoor unit Indoor unit Indoor unit Indoor unit

Indoor unitIndoor unitIndoor unitIndoor unitIndoor unit

Address SW Address SW Address SW Address SW Address SW

Address SWAddress SWAddress SWAddress SWAddress SW

Address SWAddress SW

For centralized

management

For remote

controller

Transmission wire

2

1

NECESSARY CONDITIONS FOR SYSTEM CONSTRUCTION

7-1. TRANSMISSION SYSTEM SETUP

20

7-2. REFRIGERANT SYSTEM DIAGRAM

Refrigerant Gas pipe

<5/8>

Refrigerant Liquid pipe

<3/8>

Check valve <Low pressure>

Accumulator

Thermistor <Low pressure saturation
temperature> (TH6)

Solenoid
valve (SV1)

Capillary tube

Check valve
<High pressure>

High pressure sensor
(63HS)

High pressure
switch (63H)

Low pressure
switch (63L)

Thermistor (TH7)
(Outdoor temperature)

Discharge
thermistor (TH4)

Heat sink
thermistor (TH8)

Thermistor (TH3)
(Pipe temperature)

Oil separator

Service port

Service
port

4-way valve

Strainer

Strainer

Strainer

Stop valve

Stop valve

Distributor

Compressor

Strainer

Refrigerant flow in cooling
Refrigerant flow in heating

Refrigerant piping specifications <dimensions of flared connector>

Capillary tube for oil separator : [2.5 o [0.8 o L1000

Capacity

Item

Liquid piping Gas piping

P20, P25, P32, P40, P50
P63, P80, P100
P125, P140
P100, P125, P140

Indoor unit

Outdoor unit

[6.35<1/4F>

[9.52<3/8F>

[9.52<3/8F>

[12.7<1/2F>

[15.88<5/8F>

[15.88<5/8F>

PUMY-P100VHM PUMY-P125VHM PUMY-P140VHM

Unit:mm<inch>

21

7-3. SYSTEM CONTROL

M1M2

TB5

S12

TB15

01

101

IC

AB

M1M2

TB3

SAB

TB7

51

OC

L

1

L3

L2

S

M1M2

TB5

S12

TB15

02

IC

RC

102

AB

RC

l1

l2

M1M2

TB5

S12

TB15

01

101

RC

(Main)

151

IC

M1M2

TB3

SAB

TB7

51

OC

S

M1M2

TB5

S12

TB15

02

IC

RC

(Sub)

102

RC

(Main)

152

RC

(Sub)

AB AB AB AB

M1M2

TB5

S12

TB15

01

101

IC(Main)

AB

M1M2

TB3

SAB

TB7

51

OC

S

M1M2

TB5

S122

TB15

02

IC(Sub)

RC

Example for the System

• Example for wiring control cables, wiring method and address setting, permissible lengths, and the prohibited items are listed
in the standard system with detailed explanation.
The explanation for the system in this section : Use one single outdoor unit and multiple outdoor units for M-NET remote

control system.
Use one single outdoor unit and multiple indoor units in the multiple outdoor
units for the M-NET remote control system.

A. Example of a M-NET remote controller system (address setting is necessary.)

Example of wiring control cables Wiring Method and Address Setting

1. Standard operation

a. Use feed wiring to connect terminals M1 and M2 on

transmission cable block (TB3) for the outdoor unit
(OC) to terminals M1 and M2 on the transmission
cable block (TB5) of each indoor unit (IC). Use
non-polarized two wire.

b. Connect terminals M1 and M2 on transmission cable

terminal block (TB5) for each indoor unit with the

terminal block (TB6) for the remote controller (RC).

c. Set the address setting switch (on outdoor unit

P.C.B.) as shown below.

• One remote controller for each
indoor unit.

• There is no need for setting the 100
position on the remote controller.

2. Operation using two remote controllers

• Using two remote con-

trollers for each indoor unit.

3. Group operation

• Multiple indoor units operated
together by one remote
controller

Combinations of 1through 3 above are possible.

Unit

Indoor unit (IC)

Outdoor unit

(OC)

Remote

controller (RC)

Range

001 to 050
051 to 100
101 to 150

Setting Method

Use the most recent
address of all the indoor
unit plus 50.
Indoor unit address plus

100.

a. Same as above.
b. Same as above.
c. Set address switch (on outdoor unit P.C.B.) as

shown below.

Unit

Indoor Unit (IC)

Outdoor unit

(OC)

Main Remote

Controller (RC)

Sub Remote

Controller (RC)

Range

001 to 050
051 to 100

101 to 150
151 to 200

Setting Method

Use the most recent
address of all the indoor
units plus 50.
Indoor unit address plus

100.
Indoor unit address plus

150.

a. Same as above.
b. Connect terminals M1 and M2 on transmission cable

terminal block (TB5) of the IC main unit with the most
recent address within the same indoor unit (IC)
group to terminal block (TB6) on the remote controller.

c. Set the address setting switch (on outdoor unit

P.C.B.) as shown below.

Unit

IC (Main)

IC (Sub)

Outdoor Unit

Main Remote

Controller

Sub Remote

Controller

Range

001 to 050

001 to 050

051 to 100
101 to 150
151 to 200

Use the most recent address within
the same group of indoor units.
Use an address, other than that of
the IC (Main) from among the units
within the same group of indoor
units. This must be in sequence with
the IC (Main).
Use the most recent address of all
the indoor units plus 50.
Set at an IC (Main) address within
the same group plus 100.
Set at an IC (Main) address within
the same group plus 150.

Setting Method

d. Use the indoor unit (IC) within the group with the
most functions as the IC (Main) unit.

22

—

—

• Name, Symbol and the Maximum Remote controller Units for Connection

M1M2

TB5

S12

TB15

01

102

IC(Main)

AB

M1M2

TB3

SAB

TB7

51

OC

S

M1M2

TB5

S12

2

TB15

02

IC(Sub)

RC

M1M2

TB5

S12

TB15

01

101

RC

(Main)

151

IC

M1M2

TB3

SAB

TB7

51

OC

S

M1M2

TB5

S12

TB15

02

IC

RC

(Sub)

102

RC

(Main)

103

RC

(Sub)

104

RC

AB AB AB AB AB

M1M2

TB5

S12

TB15

01

101

IC

AB

M1M2

TB3

SAB

TB7

51

OC

S

M1M2

TB5

S12

TB15

02

IC

RC

TB15

AB

MA

Name

Outdoor unit

Indoor unit

M-NET remote

controller

Symbol

OC

IC

RC

Maximum units for connection

One OC unit can be connected to 1-8 IC units (P100VHM : 1-6 IC units)
Maximum two RC for one indoor unit, Maximum 16 RC for one OC

Permissible Lengths Prohibited items

Maximum transmission cable
length (1.25 mm

1 + L2, L2 + L3, L3 + L1 [ 200m

L

2

)

Remote controller cable length

1. If 0.5 to 1.25 mm

2

R1, R2 [10m

2. If the length exceeds 10 meters,
the exceeding section should
be 1.25 mm

2

and that section
should be a value within the
total extension length of the
transmission cable and
maximum transmission cable

length. (L

3)

Same as above

• M-NET remote controller(RC) and MA remote controller(MA) cannot be used together.

• Do not connect anything with TB15 of indoor unit(IC).

• Use the indoor unit(IC)
address plus 150 as
the sub remote controller
address. In this case, it
should be 152.

• Three or more remote
controller (RC) cannot
be connected to one
indoor unit.

Same as above

• The remote controller
address is the indoor

unit main address plus

100. In this case, it
should be 101.

23

B. Example of a group operation system with two or more outdoor units and a M-NET remote controller.

A

B

C

E

D

M1M2S

M1 M2 S

TB7

TB3

IC

(51)

M1 M2 S

TB5

RC

(01)

IC

M1 M2 S

TB5

(03)

IC

M1 M2 S

TB5

(02)

IC

M1 M2 S

TB5

(04)

IC

M1 M2 S

TB5

(05)

IC

M1 M2 S

TB5

(07)

IC

M1 M2 S

TB5

(06)

L2

L1

(101)

RC

(105)

RC

(104)

RC

(155)

OC

M1 M2 S

TB7

(53)

OC

3

M1M2S

Power Supply

Unit

M1M2S

G-50A

L3

L6L7

L4

L5

2

4

1

AB AB AB

AB

M1M2 S

TB3

A : Group 1
B : Group 3
C : Group 5
D : Shielded Wire
E : Sub Remote Controller

( ): Address

r

r

r

r

(Address settings are necessary.)

Examples of Transmission Cable WiringWiring Method Address Settings

a. Always use shielded wire when making connections between the outdoor unit (OC) and the indoor unit (IC), as well

for all OC-OC, and IC-IC wiring intervals.

b. Use feed wiring to connect terminals M1 and M2 and the ground terminal on the transmission cable terminal block

(TB3) of each outdoor unit (OC) to terminals M1 and M2 on the terminal S on the transmission cable block of the
indoor unit (IC).

c. Connect terminals M1 and M2 on the transmission cable terminal block of the indoor unit (IC) that has the most

recent address within the same group to the terminal block on the remote controller (RC).

d. Connect together terminals M1, M2 and terminal S on the terminal block for central control (TB7) for the outdoor

unit (OC).
e. DO NOT change the jumper connector CN41 on MULTI controller board.
f. The earth processing of S terminal for the centralized control terminal block(TB7) is unnecessary.

Connect the terminal S on the power supply unit with the earth.

g. Set the address setting switch as follows.

Unit

IC (Main)

IC (Sub)

Outdoor Unit

Main Remote Controller

Sub Remote Controller

MA Remote Controller

101 to 150
151 to 200

Range

01 to 00
01 to 50

51 to 100

—

Use the most recent address within the same group of indoor units.
Use an address, other than the IC (Main) in the same group of indoor units.

This must be in sequence with the IC (Main).
Use the most recent address of all the indoor units plus 50.
*The address automatically becomes “100” if it is set as “01 - 50”.
Set at an IC (Main) address within the same group plus 100.
Set at an IC (Main) address within the same group plus 150.
Unnecessary address setting (Necessary main/ sub setting)

Setting Method

h. The group setting operations among the multiple indoor units is done by the remote controller (RC) after the electrical

power has been turned on.

24

• Name, Symbol, and the Maximum Units for Connection

A

B

C

E

D

M1M2S

M1 M2 S

TB7

TB3

IC

(51)

M1 M2 S

TB5

RC

(01)

IC

M1 M2 S

TB5

(03)

IC

M1 M2 S

TB5

(02)

IC

M1 M2 S

TB5

(04)

IC

M1 M2 S

TB5

(05)

IC

M1 M2 S

TB5

(07)

IC

M1 M2 S

TB5

(06)

(101)

RC

(105)

RC

(104)

RC

(155)

OC

M1 M2 S

TB7

(53)

OC

M1M2S

Power Supply

Unit

M1M2S

G-50A

AB AB AB

AB

M1M2 S

TB3

A : Group 1
B : Group 3
C : Group 5
D : Shielded Wire
E : Sub Remote Controller

( ): Address

• Max length via outdoor units : L1+L2+L3+L4, L1+L2+L3+L5, L1+L2+L6+L7 [ 500 meters (1.25mm2)

• Max transmission cable length : L

• Remote controller cable length : R

1, L3+L4, L3+L5, L6, L2+L6, L7 [ 200 meters (1.25mm

1,R2, R2+R3, R4 [ 10 meters (0.5 to 1.25mm

If the length exceeds 10 meters, use a 1.25 mm

8) should be included in the calculation of the maximum length and overall length.

tion (L

2

2

)

2

shielded wire. The length of this sec-

Permissible Length

)

Prohibited items

• Never connect together the terminal blocks (TB5) for transmission wires for indoor units (IC) that have been connected to
different outdoor units (OC).

• Set all addresses to ensure that they are not overlapped.

• It cannot be connected M-NET remote controller and MA remote controller with indoor unit of the same group using

together.

25

C. Example of a MA remote controller system (address setting is not necessary.)

M1M2

TB5

S12

TB15

00

IC

AB

M1M2

TB3

S

M1M2

TB7

00

OC

L

1 L2

S

M1M2

TB5

S12

TB15

00

IC

AB

MAMA

r1

r2

MA

M1M2

TB5

S12

TB15

00

IC

AB

M1M2

TB3

SM1M2

TB7

00

OC

S

M1M2

TB5

S12

TB15

00

IC

MA

AB AB

MA MA

r3

r4

r5

AB

r6

MA

M1M2

TB5

S12

TB15

00

IC

AB

M1M2

TB3

S

M1M2

TB7

00

OC

S

M1M2

TB5

S12

TB15

00

IC

r7

r8

NOTE : In the case of same group operation, need to set the address that is only main indoor unit.

Example of wiring control cables Wiring Method and Address Setting

1. Standard operation

a. Use feed wiring to connect terminals M1 and M2 on

transmission cable block (TB3) for the outdoor unit
(OC) to terminals M1 and M2 on the transmission
cable block (TB5) of each indoor unit (IC). Use
non-polarized two wire.

b. Connect terminals 1 and 2 on transmission cable

terminal block (TB15) for each indoor unit with the
terminal block for the MA remote controller (MA).

• One remote controller for each
indoor unit.

2. Operation using two remote controllers

• Using two remote controllers

for each indoor unit.

3. Group operation

a. The same as above.
b. The same as above.
c. In the case of using two remote controllers, connect

terminals 1 and 2 on transmission cable terminal
block (TB15) for each indoor unit with the terminal
block for two remote controllers.

· Set the sub remote controller position for one of
MA remote controller’s main switch.
Refer to the installation manual of MA remote
controller

a. The same as above.
b. The same as above.
c. Connect terminals 1 and 2 on transmission cable ter-

minal block (TB15) of each indoor unit, which is doing
group operation with the terminal block the MA remote
controller. Use non-polarized two wire.

d. In the case of same group operation, need to set the

address that is only main indoor unit. Please set the
address of the indoor unit with the most functions in
the same group in the number that 01-50 is small.

• Multiple indoor units operated
together by one remote
controller

Combinations of 1through 3 above are possible.

26

Permissible Lengths Prohibited items

MA

M1M2

TB5

S12

TB15

00

IC

AB

M1M2

TB3

S

M1M2

TB7

00

OC

S

MA

M1M2

TB5

S12

TB15

00

IC

AB

MA

M1M2

TB5

S12

TB15

00

IC

AB

M1M2

TB3

S

M1M2

TB7

00

OC

S

M1M2

TB5

S12

TB15

00

IC

MA

AB AB

MA MAMA

AB AB

M1M2

TB5

S12

TB15

00

IC

AB

M1M2

TB3

S

M1M2

TB7

00

OC

S

M1M2

TB5

S12

TB15

00

IC

AB

MAMA

AB

RC

Maximum transmission cable length

1 + L2 [ 200m (1.25 mm

L

2

)

MA remote controller cable length

R

1, R2 [ 200m (0.3 ~ 1.25 mm

2

)

Maximum transmission cable length
The same as above.
MA remote controller cable length

R

3 +R4, R5 +R6 [ 200m

(0.3 ~ 1.25 mm

2

)

The MA remote controller and the
M-NET remote controller cannot be
used together with the indoor unit
of the same group.

Three MA remote controllers or
more cannot be connected with
the indoor unit of the same group.

Maximum transmission cable length
The same as above.
MA remote controller cable length

R

7 +R8 [ 200m (0.3 ~ 1.25 mm

2

)

The second MA remote control is
connected with the terminal
block(TB15) for the MA remote con­trol of the same indoor unit(IC) as
the first remote control.

27