S-SERIES
OUTDOOR UNITS
1.SPECIFICATIONS......................................................................................................................................................... S-2
2. EXTERNAL DIMENSIONS............................................................................................................................................ S-5
3. CENTER OF GRAVITY................................................................................................................................................. S-7
4. ELECTRICAL WIRING DIAGRAMS.............................................................................................................................. S-8
5. REFRIGERANT CIRCUIT DIAGRAMS AND THERMAL SENSORS.......................................................................... S-12
6. SOUND PRESSURE LEVELS.................................................................................................................................... S-14
7. CAPACITY TABLES.................................................................................................................................................... S-15
7-1. Correction by Temperature........................................................................................................................... S-15
7-2. Correction by Total Indoor............................................................................................................................. S-17
7-3. Correction by Refrigerant Piping Length....................................................................................................... S-20
7-4. Correction at Frost and Defrost.................................................................................................................... S-21
7-5. Operation Temperature Range..................................................................................................................... S-21
8. OPTIONAL PARTS...................................................................................................................................................... S-23
8-1. Branch Joint.................................................................................................................................................. S-23
8-2.Header.......................................................................................................................................................... S-24
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
S-1
1. SPECIFICATIONS
PUMY-P36NHMU(-BS)
PUMY-P48NHMU(-BS)
1-phase 208 / 230 V 60Hz
Btu/h
36,000
48,000
Cooling capacity (Nominal) *1 (208 / 230V)
kW
10.6
14.1
Power input
kW
3.22 *3
4.97 *3
Current input
A
14.23 / 15.74 *3
24.0 / 21.7 *3
COP (kW / kW)
3.29
2.83
Indoor
59 to 75° F W.B. (15 to 24° C W.B.)
Temp. range of
23 to 115° F D.B. (-5 to 46° C D.B.)
cooling
Outdoor
50 to 115° F D.B.(10 to 46° C D.B.): in case of connecting PKFY-P06/P08 type indoor unit.
Btu/h
40,000
54,000
Heating capacity (Nominal) *2 (208 / 230V)
kW
11.7
15.8
Power input
kW
2.93 *3
4.88 *3
Current input
A
12.88 / 14.24 *3
23.6 / 21.3 *3
COP (kW / kW)
3.99
3.23
°
°
Indoor
59 to 81 F D.B. (15 to 27 C D.B.)
Temp. range of
heating
Outdoor
0 to 60° F W.B. (-18 to 15.5° C W.B.)
Indoor unit
Total capacity
50-130% of outdoor unit capacity
50-130% of outdoor unit capacity
connectable
Model / Quantity
P06-P36 / 1-6
P06-P54 / 1-8
Sound pressure level (measured in anechoic room) dB <A>
49 / 51
50 / 52
Liquid (High pressure)
in. (mm)
3/8 (9.52) Flare (total length>=393ft. [120m])
3/8 (9.52) Flare (total length>=393ft. [120m])
Diameter of
refrigerant pipe (O.D.) Gas (Low pressure)
in. (mm)
5/8 (15.88) Flare
5/8 (15.88) Flare
External finish
Galvanized sheets (+powder coating for -BS type) *4 <MUNSELL 3Y 7.8/1.1>
in.
53-5/32 x 37-13/32 x 13
53-5/32 x 37-13/32 x 13
External dimension H x W x D
mm
1,350 x 950 x 330
1,350 x 950 x 330
Net weight
lbs(kg)
287 (130)
287 (130)
Heat exchanger
Salt-resistant cross fin & copper tube
Salt-resistant cross fin & copper tube
Type
Inverter scroll hermetic comp.
Inverter scroll hermetic comp.
Manufacturer
SHIZUOKA Works,MITSUBISHI ELECTRIC CORPORATION
Compressor
Operating Range
41-100%
33-100%
Starting method
Inverter
Inverter
Lubricant
FV50S
FV50S
CFM
3,530
3,530
Airflow rate
m3 / min
100
100
L/s
1,667
1,667
FAN
External static press.
in.WG(Pa)
0 (0)
0 (0)
Type x Quantity
Propeller fan x 2
Propeller fan x 2
Control, Driving mechanism
DC-control, Direct-driven
DC-control, Direct-driven
HIC circuit (HIC: Heat Inter-Changer)
High pressure protection
High pressure sensor, High pressure switch 601 psi (4.15 MPa)
Inverter circuit (COMP., FAN)
Over-current protection,Over-heat protection
Protection
Compressor
Discharge thermo protection,Over-current protection
Fan motor
Over-heat protection,Voltage protection
Minimum Circuit Ampacity
A
26
26
Recommended Fuse/Breaker Size
A
30
30
Maximum Fuse Size
A
40
40
Defrost method
Auto-defrost mode (Reversed refrigerant circle)
Type x Original charge
lbs + oz (kg)
R410A x (18 lbs + 12 oz) (8.5kg)
R410A x (18 lbs + 12 oz) (8.5kg)
Refrigerant
Control
Indoor LEV
External
BK01B409
Drawing
Wiring
RG79V166
Document
Installation Manual
Standard
attachment
Accessory
Grounded lead wire x 2 , Conduit plate
Joint: CMY-Y62-G-E
Header: CMY-Y64/68-G-E
Air Outlet Guide (One piece, requires two pieces): PAC-SG59SG-E
Optional parts
Wind Baffle (One piece, requires two pieces): WB-PA2
Drain Pan: PAC-SG64DP-E
Drain Socket: PAC-SG61DS-E / PAC-SH71DS-E
Details on foundation work, duct work, insulation work, electrical wiring, power source switch, and other items shall be referred to the
Installation Manual.
Remark
3. For details on the electrical data needed for installing these units, see the S-Series System Design section.
4. For information on standard anti-corrosion protection and -BS treatment, see the S-Series System Design section.
Model
Power source
Note:
*1 Nominal cooling conditions
*2 Nominal heating conditions
Unit converter
Indoor:
80degF D.B./ 67degF W.B.
(26.7degC D.B./ 19.4degC W.B.)
70degF D.B.
(21.1degC D.B.)
Outdoor:
95degF D.B. (35degC D.B.)
47degF D.B./ 43degF W.B.
(8.3degC D.B./ 6.1degC W.B.)
kcal =kW x 860
BTU/h =kW x 3,412
cfm =m3/min x 35.31
lb =kg / 0.4536
Pipe length:
25ft.(7.6m)
25ft.(7.6m)
Level difference:
0ft.(0m)
0ft.(0m)
* Due to continuing improvement, above specifications may be subject to change without notice.
S-2
* Above specification data is subject to rounding variation.
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
1. SPECIFICATIONS
PUMY-P60NKMU(-BS)
1-phase 208 / 230 V 60Hz
Btu/h
60,000
Cooling capacity (Nominal) *1 (208 / 230V)
kW
17.5
Power input
kW
4.80
Current input
A
21.5
COP (kW / kW)
12.5
Indoor
59 to 75° F W.B. (15 to 24° C W.B.)
Temp. range of
cooling
Outdoor
23 to 115° F D.B. (-5 to 46° C D.B.)
Btu/h
66,000
Heating capacity (Nominal) *2 (208 / 230V)
kW
19.3
Power input
kW
6.15
Current input
A
27.6
COP (kW / kW)
3.14
°
Indoor
59 to 81 F D.B. (15 to 27° C D.B.)
Temp. range of
heating
Outdoor
-4 to 60° F W.B. (-20 to 15.5° C W.B.)
Indoor unit
Total capacity
50-130% of outdoor unit capacity
connectable
Model / Quantity
P06-P72 / 1-12
Sound pressure level (measured in anechoic room) dB <A>
58 / 59
Liquid (High pressure)
in. (mm)
3/8 (9.52) Flare
Diameter of
refrigerant pipe (O.D.) Gas (Low pressure)
in. (mm)
3/4 (19.05) Flare
External finish
Galvanized sheets (+powder coating for -BS type) *4 <MUNSELL 3Y 7.8/1.1>
in.
52-11/16 x 41-11/32 x 13
External dimension H x W x D
mm
1,388 x 1,050 x 330
Net weight
lbs(kg)
313 (142)
Heat exchanger
Salt-resistant cross fin & copper tube
Type
Inverter scroll hermetic comp.
Manufacturer
SHIZUOKA Works,MITSUBISHI ELECTRIC CORPORATION
Cooling
38-100%
Compressor
Operating Range
Heating
29-100%
Starting method
Inverter
Lubricant
FV50S
CFM
4,940
Airflow rate
m3 / min
140
L/s
2,340
FAN
External static press.
in.WG(Pa)
0 (0)
Type x Quantity
Inverter scroll hermetic compressor x 1
Control, Driving mechanism
DC-control, Direct-driven
HIC circuit (HIC: Heat Inter-Changer)
Copper pipe, tube-in-tube structure
High pressure protection
High pressure sensor, High pressure switch 601 psi (4.15 MPa)
Inverter circuit (COMP., FAN)
Over-current protection,Over-heat protection
Protection
Compressor
Over-heat protection
Fan motor
Over-heat protection,Voltage protection
Minimum Circuit Ampacity
A
35
Recommended Fuse/Breaker Size
A
40
Maximum Fuse Size
A
42
Type x Original charge
lbs (kg)
R410A x 11.2 (5.1)
Refrigerant
Control
LEV and HIC circuit
External
NKM-BK01-J606
Drawing
Wiring
NKM-BH79-B597
Document
Installation Manual
Standard
attachment
Accessory
Grounded lead wire x 2 , Conduit plate
Joint: CMY-Y62-G-E
Header: CMY-Y64/68-G-E
Air Outlet Guide PAC-SH96SG-E
Optional parts
Wind Baffle WB-PA3
Drain Pan: PAC-SH97DP-E
Drain Socket: PAC-SH71DS-E
Details on foundation work, duct work, insulation work, electrical wiring, power source switch, and other items shall be referred to the
Installation Manual.
Remark
3. For details on the electrical data needed for installing these units, see the S-Series System Design section.
4. For information on standard anti-corrosion protection and -BS treatment, see the S-Series System Design section.
Model
Power source
Note:
*1 Nominal cooling conditions
*2 Nominal heating conditions
Unit converter
Indoor:
80degF D.B./ 67degF W.B.
(26.7degC D.B./ 19.4degC W.B.)
70degF D.B.
(21.1degC D.B.)
Outdoor:
95degF D.B. (35degC D.B.)
47degF D.B./ 43degF W.B.
(8.3degC D.B./ 6.1degC W.B.)
kcal =kW x 860
BTU/h =kW x 3,412
cfm =m3/min x 35.31
lb =kg / 0.4536
Pipe length:
25ft.(7.6m)
25ft.(7.6m)
Level difference:
0ft.(0m)
0ft.(0m)
* Due to continuing improvement, above specifications may be subject to change without notice.
* Above specification data is subject to rounding variation.
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
S-3
1. SPECIFICATIONS
Efficiency Ratings
Model
IDU Type
EER (95° F) *1
-
SEER
14.3
HSPF
8.75
COP*1
2.59 / 2.39
Mixed Ducted and Non-ducted
-
14.3
8.2
2.71 / 2.68
Ducted
-
14.3
9.3
2.51 / 2.38
Non-ducted
-
15.5
8.7
2.32 / 2.22
Mixed Ducted and Non-ducted
-
15.0
8.7
2.56 / 2.13
Ducted
-
14.5
8.7
2.60 / 2.19
11.3
16.7
10.6
2.45 / 2.17
Mixed Ducted and Non-ducted
11.75
16.6
10.7
3.70 / 3.14
Ducted (06+06+06+18+24)
12.5
16.5
10.8
Non-ducted
PUMY-P36NHMU (-BS)
PUMY-P48NHMU (-BS)
Non-ducted (24+24+06+06)
PUMY-P68NKMU (-BS)
Note:
S-4
*1. Efficiency values based on AHRI 1230 test method.
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
Min.150mm<5-29/32>
Front piping hole
(Knockout)
Front trunking hole
(Knockout)
65<2-9/16>
92<3-5/8>
ø92 >
/8
<3-5
40<1-9/16>
45<1-25/32>
Conduit hole
(2-ø27<1-1/16>Knockout)
19<3/4>
75
<2-31/32>
FOUNDATION
>
92<3-5/8>
55<2-3/16>
ø92
<3-5
/8
45<1-25/32>
65<2-9/16>
92<3-5/8>
40<1-9/16>
Right trunking hole
(Knockout)
>
ø92
<3-5
/8
Rear piping hole
(Knockout)
Rear trunking hole
(Knockout)
Side Air Intake
40<1-9/16>
74<2-19/32>
mm<inch>
1/2 Conduit attachment
When installing the conduit.
Set the attachment to the
inner side of each panel.
2-ø22<7/8>
Handle
Handle
Side Air Intake
Rear Air Intake
Conduit hole
(2-ø27<1-1/16>Knockout)
<Foundation bolt height>
Piping and wiring connections
can be made from 4 directions:
front,right,rear and below.
Please secure the unit firmly
with 4 foundation (M10<W3/8>)
bolts.(Bolts and washers must
be purchased locally.)
Conduit hole
(2-ø27<1-1/16>Knockout)
40<1-9/16>
Air intake
Right piping hole
(Knockout)
Piping Knockout Hole Details
92<3-5/8>
Handle
Min.500mm
<19-11/16>
1 ......Refrigerant GAS pipe connction (FLARE) ø15.88 (5/8 inch)
2 ......Refrigerant LIQUID pipe connection (FLARE) ø9.52 (3/8 inch)
*1......Indication of STOP VALVE connection location.
Service space
Min.10mm<3/8>
Min.10mm<3/8>
Example of Notes
Min.1000mm<39-3/8>
Min.10mm<3/8>
FREE
63<2-1/2>
73<2-7/8>
Min.150mm
<5-29/32>
Dimensions of space needed
for service access are
shown in the below diagram.
63<2-1/2>
Min.500mm
<19-11/16>
4 PIPING-WIRING DIRECTIONS
Handle
1350<53-5/32>
3 FOUNDATION BOLTS
55<2-3/16>
27<1-1/16>
330<13>
30<1-3/16>
23<29/32>
30<1-3/16>
600<23-5/8>
220
<8-21/32>
Drain hole
5-n33<1-5/16>
71<2-13/16>
Ground for the power supply
( GR marking position
)
950<37-13/32>
145
145
145
<5-23/32> <5-23/32> <5-23/32>
322<12-11/16>
2-U Shaped notched hole
(Foundation Bolt M10<W3/8>)
175
<6-7/8>
56<2-7/32>
Air Discharge
2-12 x 36 Oval hole
(Foundation Bolt M10<W3/8>)
175
<6-7/8>
Rear Air Intake
2
1
Handle
Bottom piping hole
(Knockout)
Rear piping cover
Front piping cover
Service panel
Ground for the transmission line
Ground for concentration control
Terminal block
Left ........ For the power supply
Center ... For the transmission line
Right ...... For concentration control
(
42<1-21/32>
70<2-3/4>
37<1-15/32>
*1 423<16-21/32>
The diagram below shows a
basic example.
Explantion of particular details is
given in the installation manuals etc.
55<2-3/16>
63
<2-1/2>
27<1-1/16>
73<2-7/8>
23<29/32>
27<1-1/16>
23<29/32>
Max.
30mm<1-3/16>
73<2-7/8>
23<29/32>
2013 S-SERIES (January 2014)
31<1-7/32>
635<25>
371<14-19/32>
219<8-5/8>
19<3/4>
370<14-9/16>
28<1-3/32>
56<2-7/32>
53<2-3/32>
2 SERVICE SPACE
71<2-13/16>
)
PUMY-P36,48NHMU(-BS)
81<3-3/16>
417<16-13/32>
1088<42-27/32>
© 2014 Mitsubishi Electric US, Inc.
*1 507<19-31/32>
1 FREE SPACE (Around the unit)
2. EXTERNAL DIMENSIONS
Ref. : PUMY_NHMU_EXD_USDB_P36-48
Unit : mm(in)
S-5
FREE
Min. 150mm<5-29/32>
Service space
Min.
10<3/8>
Front trunking hole
(Knockout)
Conduit hole
(ø37<1-15/32>Knockout)
60<2-3/8>
Front piping hole
(Knockout)
92<3-5/8>
75<2-15/16>
ø92
>
<3-5/8
Conduit hole
(ø24<15/16>Knockout)
55<2-3/16>
53<2-3/32>
92<3-5/8>
29<1-5/32>
55<2-3/16>
ø92
<3-5/8>
Right piping hole
(Knockout)
Piping Knockout Hole Details
Min.
30<1-3/16>
Right trunking hole
(Knockout)
Conduit hole
(ø37<1-15/32>Knockout)
Rear trunking hole
(Knockout)
55<2-3/16>
FOUNDATION
<Foundation bolt height>
Max.
Conduit hole
(ø24<15/16>Knockout)
60<2-3/8>
Handle for
moving
Min.
500
<19-11/16>
1 ......Refrigerant GAS pipe connction (FLARE) ø19.05 (3/4 F)
2 ......Refrigerant LIQUID pipe connection (FLARE) ø9.52 (3/8 F)
*1......Indication of STOP VALVE connection location.
Example of Notes
Min. 1000mm<39-3/8>
Min. 10mm<3/8>
92
<3-5/8>
150
<5-29/32>
75<2-15/16>
92<3-5/8>
Rear piping hole
(Knockout)
ø92 >
/8
<3-5
Conduit hole
(ø37<1-15/32>Knockout)
1/2 Conduit
attachment
ø27.8<1-3/32>
ø22.2<7/8>
Scale 1:5
100
<3-15/16>
330<13>
3/4 Conduit
attachment
22.5<7/8>
Handle for moving
Side Air Intake
When installing the conduit.
Set the attachment to the
inner side of each panel.
60<2-3/8>
Side Air Intake
Handle for
moving
Conduit hole
(ø24<15/16>Knockout)
60<2-3/8>
Rear Air Intake
4 PIPING-WIRING DIRECTIONS
60<2-3/8>
73<2-7/8>
Min.
Piping and wiring connections
can be made from 4 directions:
FRONT, Right, Rear and Below.
5<3/16>
500
<19-11/16>
3 FOUNDATION BOLTS
5<3/16>
Please secure the unit firmly
with 4 foundation (M10<W3/8>) bolts.
(Bolts and washers must be
purchased locally.)
1338<52-11/16>
110<4-11/32>
45<1-25/32>
160
<6-5/16>
362<14-1/4>
225
<8-27/32>
5<3/16>
160
<6-5/16>
160
<6-5/16>
42
<1-21/32>
61<2-13/32>
81<3-3/16>
)
2
1
Handle for moving
Service panel
Bottom piping hole
(Knockout)
Rear piping cover
Front piping cover
Air intake
Ground for the transmission line
Ground for concentration control
Terminal connection
Left ........ For the power supply
Center ... For the transmission line
Right ...... For concentration control
(
53<2-3/32>
56<2-7/32>
40<1-9/16>
0
2-U Shaped notched holes
(Foundation Bolt M10<W3/8>)
2-12×36 Oval holes
(Foundation Bolt M10<W3/8>)
225
<8-27/32>
Drain hole
(5-ø33<1-5/16>)
Ground for the power supply
("GR"marking position)
1050<41-11/32>
Air Discharge
Installation Feet
70
<2-3/4>
Rear Air Intake
600<23-5/8>
417<16-13/32>
2 SERVICE SPACE
24.7<31/32>
632<24-7/8>
369<14-17/32>
Min. 10mm<3/8>
73<2-7/8>
60
<2-3/8>
5
<3/16>
26<1-1/32>
55<2-3/16>
27<1-1/16>
27<1-1/16>
26<1-1/32>
73<2-7/8>
60<2-3/8>
26<1-1/32>
55<2-3/16>
27<1-1/16>
86<3-3/8>
Dimensions of space needed
for service access are
shown in the below diagram.
1079<42-15/32>
25<31/32>
26<1-1/32>
154
<6-1/16>
136
<5-11/32>
19<3/4>
370<14-9/16>
28<1-3/32>
*1 393<15-15/32>
OUTDOOR UNITS
*1 450<17-23/32>
1 FREE SPACE (Around the unit)
PUMY-P60NKMU(-BS)
Unit : mm(in)
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
2 - 13
S
S-6
The diagram below shows a basic example.
Explantion of particular details are
given in the installation manuals etc.
2. EXTERNAL DIMENSIONS
DIMENSIONS
DATA U9
3. CENTER
CENTER OF
3.
OF GRAVITY
GRAVITY
DATA U9
S
3. CENTER OF GRAVITY
PUMY-P36, 48NHMU(-BS)
Unit : mm[in.]
X
Model
PUMY-P36NHMU
PUMY-P48NHMU
X
590(23-1/4)
590(23-1/4)
Y
Z
185(7-5/16) 500(19-11/16)
185(7-5/16) 500(19-11/16)
G
G
Z
Y
PUMY-P60NKMU(-BS)
Unit : mm[in.]
X
G
Model
PUMY-P60NKMU
G
X
Y
385(15-3/16) 175(6-15/16)
Z
507(20)
G
Z
Y
© 2014 Mitsubishi Electric US, Inc.
2013 S-SERIES (January 2014)
OUTDOOR UNITS
S-7
2 - 14
4. ELECTRICAL WIRING DIAGRAMS
PUMY-P36,48NHMU(-BS)
SYMBOL
TB1
TB3
TB7
MC
MF1,MF2
21S4
63H
63L
63HS
SV1
TH3
TH4
TH6
TH7
TH8
DCL
ACTM
CE
NAME
Ref. : PUMY-NHMU_EWD_USDB_P36-48_2
SYMBOL
Terminal Block <Power Supply>
P.B.
Terminal Block <Comunication Line>
TABU/V/W
Terminal Block <Centralized Control Line> TABS/T
Motor For Compressor
TABP1/P2/P
Fan Motor
TABN1/N2/N
Solenoid Valve<Four-Way Valve>
DS2,DS3
IPM
High Pressure Switch
N.F.
Low Pressure Switch
LI/LO
High Pressure Sensor
NI/NO
Solenoid Valve<Bypass valve>
EI,E2
Thermistor<Outdoor Pipe>
52C
Thermistor<Discharge>
Thermistor<Low Pressure Saturated> C.B.
SW1
Thermistor<Outdoor>
SW2
Thermistor<Heatsink>
SW3
Reactor
SW4
Active Filter Module
SW5
Main Smoothing Capacitor
NAME
Power Circuit Board
Connection Terminal<U/V/W-Phase>
Connection Terminal<L/N-Phase>
Connection Terminal<DC Voltage>
Connection Terminal<DC Voltage>
Diode Bridge
Power Module
Noise Filter Circuit Board
Connection Terminal<L-Phase>
Connection Terminal<N-Phase>
Connection Terminal<Ground>
52C Relay
Controller Circuit Board
Switch<Display Selection>
Switch<Function Selection>
Switch<Test Run>
Switch<Model Selection>
Switch<Function Selection>
SYMBOL
NAME
SW6
SW7
SW8
SWU1
SWU2
CNLVB
Switch<Function Selection>
Switch<Function Selection>
Switch<Function Selection>
Switch<Unit Address Selection, 1st digit>
Switch<Unit Address Selection, 2nd digit>
Connector<To N.F. Board CN52C>
(Symbol of Board is CNLVB)
SS
Connector<Connection For Option>
CN3D
Connector<Connection For Option>
CN3S
Connector<Connection For Option>
CN3N
Connector<Connection For Option>
CN51
Connector<Connection For Option>
LED1,LED2 LED<Operation Inspection Display>
LED3
LED<Power Supply to Main Microcomputer>
Fuse<T6,3AL250V>
F1,F2
X501~505 Relay
M-NET P.B. M-NET Power Circuit Board
TP1
ConnectionTerminal<Ground>
Caution for electrical work
Use copper supply wires.
Cautions when Servicing
•
WARNING: When the main supply is turned off, the voltage [340 V] in the main capacitor will drop to 20 V in approx. 2
minutes (input voltage: 240 V). 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
3
4
5
6
7
8
52C
21S4
SV1
(SV2)
-
-
Always lit
[Example]
When the compressor and
SV1 are turned during cooling
operation.
1 23 45 67 8
• 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.
S-8
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
DATA U9
PUMY-P36, 48NHMU(-BS)
63H
63L
63HS TH7 TH6 TH3 TH4
C. B.
MF1
MS
3~
CNF1
7 (WHT)
1
MF2
MS
3~
3
3 1
3 1
TRANS
3 1
X501
X502
X504
6
LED3
7
F2
2
2
SV1
SW6
SW1 SW8 SW2
2
SW4 SW3 SW7
4
*1
M-NET P.B.
LED1
LED2
1 CN2 4
(WHT)
TP1 BLK
CN1
(WHT)
1
5
2
CNS1 CNS2
(RED) (YLW)
1 SS 2 1 CNAC 1 2 1 2
(RED)
(WHT)
1 SV2 2 1 SV1 3
(BLU)
(WHT)
21S4
SWU2 SWU1 SW5
CN4
CN2
(WHT)
1 (WHT) 7 1 2
F1
1 21S4 3
(GRN)
CNLVB
(RED)
1 CN51 5
(WHT)
3
63H
(YLW)
X503
1
CNDC
(PNK)
1 52C 3
(BLK)
1
1 3
63L
(RED)
1
3
2
CN3D CN3S CN3N
(WHT) (RED) (BLU)
1 3 1
4 1 2 2 1
63HS TH7/6 TH3 TH4
(WHT) (RED) (WHT) (WHT)
CNF2
7 (WHT)
1
X505
CN40
CN41
(WHT) (WHT)
1 4
1
4
CN102
(WHT)
1
4
2
4
2
P. B.
CE +
RED
TB7
M1
M2
YLW 2
U
YLW
V
S
MS
3~
BLU
WHT
NO
LO
3
1
W
MC
4
DCL
+
BLK -
GR
2
2
RED
L2
2
BLK
E2
FOR CENTRALIZED
CONTROL
DC 30V(Non-polar)
POWER SUPPLY
~/N 208/230V 60Hz
TB1
RED
L1
1
2
CN52C
(BLK)
+
U
N. F.
L1
L2
1
1
3
1
P
N1
N2
Io
6
RED
WHT
ACTM
2
2
CN5
(RED)
2
WHT
-
+
BLK
U
BLU N I
2
7
1 CN3
2 (WHT)
1 CN5
2 (RED)
1 CN4
2 (WHT)
TABN
TABP
TABP1 RED
52C
TH8
3
LI
S
TO INDOOR UNIT
CONNECTING WIRES
DC 30V(Non-polar)
IPM
TABS WHT
RED
RED
DS2
+
CNAC2
(RED)
CN2
(WHT)
CNDC
(PIN) 2
1
TABT BLU
CNAC1
(WHT)
6
1
7
DS3
+
WHT TABN2
M2
RED 2
RED TABU
WHT TABV
BLK
TABW
M1
CNAF
(WHT)
TABN1
BLK
1
TB3
RED
4
TABP2
S
4.
WIRING DIAGRAMS
DIAGRAMS
4. ELECTRICAL
ELECTRICAL WIRING
U
EI
BLU
*1 MODEL SELECT 1:ON 0:OFF
SW4
MODELS
1 2 3 4 5 6
PUMY-P36NHMU 0 1 1 0 1 0
PUMY-P48NHMU 0 1 1 0 0 1
GRN
2013 S-SERIES (January 2014)
S-9
© 2014 Mitsubishi Electric US, Inc.
OUTDOOR UNITS
2 - 16
4. ELECTRICAL WIRING
WIRING DIAGRAMS
DIAGRAMS
DATA U9
PUMY-P60NKMU(-BS)
S
S-10
2013 S-SERIES (January 2014)
OUTDOOR UNITS
© 2014 Mitsubishi Electric US, Inc.
2 - 17
S
4.4.ELECTRICAL
ELECTRICAL WIRING
WIRING DIAGRAMS
DIAGRAMS
DATA U9
PUMY-P60NKMU(-BS)
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
OUTDOOR UNITS
S-11
2 - 18
5. REFRIGERANT CIRCUIT DIAGRAMS AND THERMAL SENSORS
PUMY-P36,P48-NHMU(-BS)
Service
port
Refrigerant Gas pipe
<5/8 inch>
Stop valve
Strainer
Refrigerant flow in cooling
Refrigerant flow in heating
Pressure sensor
(63HS)
High pressure
switch(63H)
4-way valve
Solenoid
valve(SV1)
Capillary tube
Thermistor<Saturation temperature
of suction pressure>(TH6)
Strainer
Check valve<Low pressure>
Accumulator
Low pressure
switch(63L)
Stop valve
Check valve
<High pressure>
Oil separator
Strainer
Thermistor(TH7)
(Outdoor temperature)
Distributor
Thermistor(TH3)
(Pipe temperature)
Discharge
thermistor(TH4)
Compressor
Heatsink
thermistor(TH8)
Refrigerant Liquid pipe
<3/8 inch>
Strainer
Service port
Unit: mm<inch>
S-12
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
5. REFRIGERANT CIRCUIT DIAGRAMS AND THERMAL SENSORS
7-2. REFRIGERANT SYSTEM DIAGRAM
PUMY-P60NKMU
PUMY-P60NKMU-BS
Unit: mm <inch>
Service
port Ball valve
Refrigerant
Gas pipe
<3/4>
Check valve
(High pressure)
Thermistor (TH7)
(Outdoor temperature)
4-way valve
Solenoid
valve (SV1)
Strainer
Check valve
(Low pressure)
Oil separator
Strainer
High pressure
sensor (63HS)
Distributor
Capillary
tube
Thermistor (TH6)
(Saturation temperature
of suction pressure)
Thermistor (TH2)
(HIC)
Stop valve
Refrigerant
Liquid pipe
<3/8>
Compressor
HIC
Strainer
Strainer
Service port
Thermistor (TH4)
(Compressor)
Low pressure
sensor (63LS)
Accumulator
Thermistor (TH3)
(Pipe temperature)
High pressure
switch (63H)
Strainer
Strainer
LEV-B
LEV-A
Strainer
Capillary tube for oil separator : :2.5 % :0.8 % L800
Capillary tube for solenoid valve : :4.0 % :3.0 % L500
Refrigerant piping specifications <dimensions of flared connector>
Item
Liquid piping
Gas piping
P06, P08, P12, P15, P18
:6.35 <1/4>
:12.7 <1/2>
P24, P30, P36, P48, P54
:9.52 <3/8>
:15.88 <5/8>
P72
:9.52 <3/8>
:19.05 <3/4>
P60
:9.52 <3/8>
:19.05 <3/4>
Capacity
Indoor unit
Outdoor unit
OCH502A
20
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
S-13
5. SOUND
SOUND PRESSURE
LEVELS
6.
LEVELS
DATA U9
5. SOUND LEVELS
Sound level of PUMY-P60NKMU(-BS)
90
Cooling 60Hz
Heating 60Hz
Octave band sound level (dB)
80
Measurement
location
3-1/4ft. (1m)
4-7/8ft. (1.5m)
UNIT
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
Approximate minimum
audible limit on
continuous noise
20
10
63
125
Cooling
Heating
90
Octave band sound level (dB)
500
1k
2k
4k
8k
60Hz
60Hz
63
60.7
59.7
125 250 500
1k
58.7 56.7 55.2 54.1
58.0 58.0 56.9 54.7
2k
49.1
49.8
4k
42.8
43.8
8k
35.6
36.6
dB(A)
58.0
59.0
Ref.:PUMY_NHMU_NCC_USDB_P36
Cooling 60Hz
Heating 60Hz
80
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
10
250
NC-20
Octave band central frequency (Hz)
GROUND
Sound level of PUMY-P36NHMU(-BS)
S
Measurement condition
PUMY-P36,48NHMU(-BS)/P60NKMU(-BS)
Approximate minimum
audible limit on
continuous noise
63
125
250
NC-20
500
1k
2k
4k
8k
Octave band central frequency (Hz)
Cooling
Heating
60Hz
60Hz
63 125 250 500 1k
2k
4k
8k dB(A)
55.2 49.7 47.9 47.8 43.5 39.1 33.9 35.1 49.0
58.9 53.4 50.1 49.4 45.5 41.2 35.1 38.3 51.0
Sound level of PUMY-P48NHMU(-BS)
90
Heating 60Hz
80
Octave band sound level (dB)
Ref.:NC_PUMY-P48
Cooling 60Hz
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
10
Approximate minimum
audible limit on
continuous noise
63
125
250
NC-20
500
1k
2k
4k
8k
Octave band central frequency (Hz)
Cooling
Heating
S-14
60Hz
60Hz
63 125 250 500 1k
2k
4k
8k dB(A)
56.2 50.7 48.9 48.8 44.5 40.1 34.9 36.1 50.0
59.9 54.4 51.1 50.4 46.5 42.2 36.1 39.3 52.0
OUTDOOR UNITS
2013 S-SERIES (January 2014)
2 - 19
© 2014 Mitsubishi Electric US, Inc.
7. CAPACITY TABLES
7-1. Correction by Temperature
CITY MULTI systems could have various capacities at different design temperatures. Using the nominal cooling/heating capacity
values and the ratios below, the capacity can be found for different temperatures.
PUMY-
Nominal kW
Cooling
Capacity BTU/h
Input
kW
PUMY-
Nominal kW
Heating
Capacity BTU/h
Input
kW
P36NHMU P48NHMU
10.6
14.1
36,000
48,000
3.22
4.97
P36NHMU P48NHMU
11.7
15.8
40,000
54,000
2.93
4.88
Ref:cbt_p100-140
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
S-15
7. CAPACITY TABLES
P60NKMU
Nominal
cooling
capacity
Non-Ducted
17.5
kW
kW
4.80
5.30
Indoor Temperature
1.3
60,000
BTU/h
Input
1.4
Ducted
Ratio of cooling capacity
PUMY-
1.2
1.1
72 WB
22.2 WB
1.0
69
20
0.9
WB
WB
64 WB
17.8 WB
0.8
61 WB
16.1 WB
0.7
0.6
1.3
72 WB
22.2 WB
Ratio of power input
1.2
69
20
1.1
WB
WB
64 WB
17.8 WB
1.0
61 WB
16.1 WB
0.9
0.8
0.7
0.6
0.5
-5
23
P60NKMU
Nominal
heating
capacity
Non-Ducted
19.3
kW
Input
kW
6.15
5.23
10
15
20
25
30
50
59
68
77
86
Ratio of cooling capacity and power input
35
40
45
95
104
113
Outdoor Temperature
DB
DB
Indoor Temperature
59 DB
15.0 DB
1.2
66,000
BTU/h
5
41
1.3
Ducted
Ratio of heating capacity
PUMY-
0
32
1.1
70 DB
21.1 DB
1.0
0.9
77 DB
25.0 DB
0.8
81 DB
27.2 DB
0.7
0.6
0.5
0.4
1.4
1.3
Ratio of power input
1.2
1.1
1.0
59 DB
15.0 DB
0.9
0.8
70 DB
21.1 DB
0.7
77 DB
25.0 DB
0.6
81 DB
27.2 DB
0.5
0.4
-20
-4
S-16
-15
5
-10
-5
0
5
14
23
32
41
Ratio of heating capacity and power input
10
15
50
59
Outdoor Temperature
WB
WB
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
6. CAPACITY TABLES
7.
DATA U9
CITY
MULTI
systems
could
have capacities
various capacities
at different
temperatures.
Using
the nominal
cooling/heating
CITY
MULTI
could have
various
at different
designingdesign
temperatures.
Using the
nominal
cooling/heating
capacitycapacity
valvalues
andthe
theratios
ratiosbelow,
below,the
thecapacity
capacitycan
can
found
different
temperatures.
ues and
bebe
found
forfor
various
temperatures.
ToTo
select
high
heating
temperature, heating
heatingcapacity
capacity
select
high
heatingperformance
performancemode,
mode,DipSW
DipSW7-3
7-3must
mustbe
beset
set to
to ON.
ON. (In
(In the
the low ambient temperature,
and
power
input
and
power
inputbecome
becomehigher
higherthan
thanthose
thoseunder
understandard
standard mode.)
mode.)
P60NKMU
Nominal
cooling
capacity
Non-Ducted
17.5
kW
kW
4.80
5.30
Indoor Temperature
1.3
60,000
BTU/h
Input
1.4
Ducted
Ratio of cooling capacity
PUMY-
1.2
1.1
72 WB
22.2 WB
1.0
69
20
0.9
WB
WB
64 WB
17.8 WB
0.8
61 WB
16.1 WB
0.7
0.6
1.3
72 WB
22.2 WB
Ratio of power input
1.2
69
20
1.1
WB
WB
64 WB
17.8 WB
1.0
61 WB
16.1 WB
0.9
0.8
0.7
0.6
0.5
-5
23
P60NKMU
Nominal
heating
capacity
Non-Ducted
19.3
kW
Input
kW
6.15
5.23
5
41
10
15
20
25
30
50
59
68
77
86
Ratio of cooling capacity and power input
35
40
45
95
104
113
Outdoor Temperature
DB
DB
Indoor Temperature
59 DB
15.0 DB
1.2
66,000
BTU/h
0
32
1.3
Ducted
Ratio of heating capacity
PUMY-
1.1
70 DB
21.1 DB
1.0
0.9
77 DB
25.0 DB
0.8
81 DB
27.2 DB
0.7
0.6
0.5
0.4
1.4
1.3
1.2
Ratio of power input
S
7-1-1.
Correction
by Temperature
(High
Heating
Performance Mode)
Correction
by temperature
(High Heating
Performance
Mode)
1.1
1.0
59 DB
15.0 DB
0.9
0.8
70 DB
21.1 DB
0.7
77 DB
25.0 DB
0.6
81 DB
27.2 DB
0.5
0.4
-20
-4
-15
5
-10
-5
0
5
14
23
32
41
Ratio of heating capacity and power input
OUTDOOR UNITS
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
10
15
50
59
Outdoor Temperature
WB
WB
2 - 22
S-17
7. CAPACITY TABLES
7-2. Correction by Total Indoor
CITY MULTI systems have different capacities and inputs when different combinations of indoor units with different total
capacities are connected. Using following tables, the maximum capacity can be found to ensure the system is installed with
enough capacity for a particular application.
7-2-1.PUMY-P36NHMU(-BS)
Capacity(Btu/h)
Power Consumption(kW)
Current(A)/230V
Current(A)/208V
Total capacity
of Indoor units* Cooling
Heating
Cooling
Heating
Cooling
Heating
Cooling
Heating
18
18,000
20,200
1.38
1.45
6.1
6.4
6.8
7.1
19
19,000
21,300
1.45
1.52
6.4
6.7
7.1
7.4
20
20,000
22,400
1.52
1.60
6.7
7.0
7.4
7.8
21
21,000
23,500
1.60
1.67
7.1
7.4
7.8
8.1
22
22,000
24,700
1.68
1.75
7.4
7.7
8.2
8.5
23
23,000
25,800
1.76
1.83
7.8
8.0
8.6
8.9
24
24,000
26,900
1.85
1.91
8.2
8.4
9.0
9.3
25
25,000
28,000
1.94
1.98
8.6
8.7
9.5
9.6
26
26,000
29,200
2.04
2.06
9.0
9.1
9.9
10.0
27
27,000
30,300
2.14
2.15
9.4
9.4
10.4
10.4
28
28,000
31,400
2.24
2.23
9.9
9.8
10.9
10.8
29
29,000
32,500
2.35
2.31
10.4
10.2
11.5
11.2
30
30,000
33,700
2.46
2.40
10.9
10.5
12.0
11.7
31
31,000
34,800
2.58
2.48
11.4
10.9
12.6
12.1
32
32,000
35,900
2.70
2.57
11.9
11.3
13.2
12.5
33
33,000
37,000
2.82
2.66
12.5
11.7
13.8
12.9
34
34,000
38,200
2.95
2.75
13.0
12.1
14.4
13.4
35
35,000
39,300
3.08
2.84
13.6
12.5
15.1
13.8
36
36,000
40,000
3.22
2.93
14.2
12.9
15.7
14.2
37
36,200
40,200
3.23
2.92
14.3
12.9
15.8
14.2
38
36,400
40,400
3.25
2.89
14.3
12.7
15.9
14.1
39
36,600
40,700
3.26
2.86
14.4
12.6
15.9
13.9
40
36,900
40,900
3.27
2.84
14.5
12.5
16.0
13.8
41
37,100
41,100
3.28
2.81
14.5
12.3
16.0
13.6
42
37,300
41,300
3.30
2.78
14.6
12.2
16.1
13.5
43
37,500
41,600
3.31
2.75
14.6
12.1
16.2
13.4
44
37,700
41,800
3.32
2.72
14.7
11.9
16.2
13.2
45
37,900
42,000
3.34
2.69
14.7
11.8
16.3
13.1
46
38,100
42,200
3.35
2.66
14.8
11.7
16.4
12.9
Note)
1. In some combination patterns, numerical value of the heating data may differ slightly (CAPACITY : about
several hundred Btu/h)
2. *. Indoor capacity is described by its model size. For example, PEFY-P08NMSU-ER2, its capacity is P08.
S-18
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
7. CAPACITY TABLES
7-2-2.PUMY-P48NHMU(-BS)
Capacity(Btu/h)
Total capacity
of Indoor units* Cooling
Heating
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
24,000
25,000
26,000
27,000
28,000
29,000
30,000
31,000
32,000
33,000
34,000
35,000
36,000
37,000
38,000
39,000
40,000
41,000
42,000
43,000
44,000
45,000
46,000
47,000
48,000
48,300
48,500
48,700
48,900
49,100
49,300
49,600
49,800
50,000
50,200
50,400
50,600
50,800
51,100
26,900
28,000
29,200
30,300
31,400
32,500
33,700
34,800
35,900
37,000
38,200
39,300
40,400
41,500
42,700
43,800
44,900
46,000
47,200
48,300
49,400
50,500
51,700
52,800
54,000
54,200
54,300
54,400
54,500
54,600
54,800
54,900
55,000
55,100
55,200
55,300
55,500
55,600
55,700
Power Consumption(kW)
Current(A)/230V
Current(A)/208V
Cooling
Heating
Cooling
Heating
Cooling
Heating
2.11
2.32
9.2
10.2
10.2
11.2
2.20
2.41
9.6
10.5
10.6
11.6
2.29
2.50
10.0
10.9
11.1
12.1
2.38
2.59
10.4
11.3
11.5
12.5
2.48
2.68
10.8
11.7
12.0
13.0
2.58
2.78
11.3
12.1
12.4
13.4
2.68
2.87
11.7
12.6
12.9
13.9
2.78
2.97
12.2
13.0
13.4
14.4
2.89
3.07
12.6
13.4
14.0
14.8
3.00
3.17
13.1
13.9
14.5
15.3
3.11
3.28
13.6
14.3
15.0
15.8
3.23
3.38
14.1
14.8
15.6
16.3
3.35
3.49
14.6
15.2
16.2
16.9
3.47
3.60
15.2
15.7
16.8
17.4
3.60
3.71
15.7
16.2
17.4
17.9
3.72
3.82
16.3
16.7
18.0
18.5
3.85
3.93
16.8
17.2
18.6
19.0
3.99
4.05
17.4
17.7
19.3
19.6
4.12
4.17
18.0
18.2
19.9
20.1
4.26
4.28
18.6
18.7
20.6
20.7
4.41
4.41
19.3
19.3
21.3
21.3
4.55
4.53
19.9
19.8
22.0
21.9
4.70
4.65
20.5
20.3
22.7
22.5
4.85
4.78
21.2
20.9
23.4
23.1
4.97
4.88
21.7
21.3
24.0
23.6
4.98
4.83
21.8
21.1
24.1
23.3
4.99
4.79
21.8
20.9
24.1
23.2
5.00
4.75
21.8
20.8
24.1
23.0
5.01
4.71
21.9
20.6
24.2
22.8
5.01
4.67
21.9
20.4
24.2
22.6
5.02
4.63
21.9
20.2
24.3
22.4
5.03
4.59
22.0
20.1
24.3
22.2
5.04
4.55
22.0
19.9
24.3
22.0
5.04
4.51
22.0
19.7
24.4
21.8
5.05
4.47
22.1
19.5
24.4
21.6
5.06
4.43
22.1
19.4
24.4
21.4
5.07
4.39
22.1
19.2
24.5
21.2
5.07
4.35
22.2
19.0
24.5
21.0
5.08
4.31
22.2
18.8
24.6
20.8
Note)
1. In some combination patterns, numerical value of the heating data may differ slightly (CAPACITY : about
several hundred Btu/h)
2. *. Indoor capacity is described by its model size. For example, PEFY-P08NMSU-ER2, its capacity is P08.
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
S-19
6. CAPACITY TABLES
7. CAPACITY TABLES
DATA U9
S
6-2-3.PUMY-P60NKMU(-BS)
7-2-3. PUMY-P60NKMU (-BS)
PUMY-P60NKMU(-BS)
1.2
Ratio (Capacity)
1.0
0.8
0.6
0.4
1.2
Ratio (input)
1.0
0.8
0.6
P60
Cooling
Heating
0.4
20
30
40
50
60
70
80
90
100
Total capacity of indoor units
S-20
2013 S-SERIES (January 2014)
OUTDOOR UNITS
- 25
© 2014 Mitsubishi Electric2US,
Inc.
6.
6. CAPACITY
CAPACITY TABLES
TABLES
7. CAPACITY TABLES
DATA U9
DATA U9
reduced.
Using
following
factor piping
by equivalent
length
shown are
at 6-3-1
and 6-3-2,
capacity can be
found.could
6-3-3
CITY
MULTI
systems
cancorrection
have extended
lengths piping
if certain
limitations
followed,
but cooling/heating
capacity
reduced.
Using
following
correction
factor by equivalent
piping
length
shown at 6-3-1
and 6-3-2,
capacity can be
found. 6-3-3be
shows
how
to
obtain
the
equivalent
piping
length.
reduced.
Using
the following
correction
factor
by equivalent piping length shown at 7-3-1 and 7-3-2, capacity can be found. 7-3-3
shows how
to obtain
the equivalent
piping
length.
shows how to obtain the equivalent piping length.
6-3-1. Cooling capacity correction
6-3-1.
Cooling
capacity
correction
7-3-1.
Cooling
Capacity
Correction
PUMY-P36NHMU(-BS)
PUMY-P36NHMU(-BS)
1
PUMY-P48NHMU(-BS)
PUMY-P48NHMU(-BS)
1
0.95
0.95
0.95
0.95
Tota
Total capa
l cap city
acity of in
of indoor
doo unit
r un
it
0.90
0.90
0.85
0.85
Tota
Total ca
l capaci
pac ty o
ity of ind
f indoor
oor unit
unit
0.90
0.90
0.85
0.85
0.80
0.80
0.80
0.80
0.75
0.75
0.75
0.75
0.70
0.70
0.70
0.70
0.65
0.65 7 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 m
7 33
10
23
23 33
Cooling
Coolingcapacity
capacitycorrection
correctionfactor
factor
1
Cooling
Coolingcapacity
capacitycorrection
correctionfactor
factor
1
15
49
49
20
66
66
25
82
82
30 115
35 131
40 148
45 164
50 180
55 197
60 213
65 230
70 246
75 262
80 ft
m
98
98 115 131 148 164 180 197 213 230 246 262 ft
Piping equivalent length
Piping equivalent length
0.65
0.65 7 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 m
7 33
10
23
23 33
Ref.: CbRPL_PUMY-P36NHMU_C
Ref.: CbRPL_PUMY-P36NHMU_C
15
49
49
20
66
66
25
82
82
30 115
35 131
40 148
45 164
50 180
55 197
60 213
65 230
70 246
75 262
80 ft
m
98
98 115 131 148 164 180 197 213 230 246 262 ft
Piping equivalent length
Piping equivalent length
Ref.: CbRPL_PUMY-P48NHMU_C
Ref.: CbRPL_PUMY-P48NHMU_C
PUMY-P60NKMU(-BS)
PUMY-P60NKMU(-BS)
1
1
Cooling
Coolingcapacity
capacitycorrection
correctionfactor
factor
Total
Tota capa
l cap city o
acity f ind
of in oor u
door nit
unit
0.95
0.95
0.90
0.90
0.85
0.85
0.80
0.80
0.75
0.75
0.70
0.70
0.65
0.65 7 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 m
7 33
10
23
23 33
15
49
49
20
66
66
25
82
82
30 115
35 131
40 148
45 164
50 180
55 197
60 213
65 230
70 246
75 262
80 ft
m
98
98 115 131 148 164 180 197 213 230 246 262 ft
Piping equivalent length
Piping equivalent length
6-3-2.
Heating
capacity
correction
7-3-2.
Heating
Capacity
Correction
PUMY-P-NHMU(-BS)
PUMY-P-NHMU(-BS)
1.00
PUMY-P-NKMU(-BS)
PUMY-P-NKMU(-BS)
1.00
Heating
Heatingcapacity
capacitycorrection
correctionfactor
factor
6-3-2. Heating capacity correction
Heating
Heatingcapacity
capacitycorrection
correctionfactor
factor
SS
6-3.
6-3. Correction
Correction by
by refrigerant
refrigerant piping
piping length
length
CITY MULTI
systems canby
haveRefrigerant
extended piping lengths
if certain
limitations are followed, but cooling/heating capacity could be
7-3.
Correction
Piping
Length
CITY MULTI systems can have extended piping lengths if certain limitations are followed, but cooling/heating capacity could be
1.00
0.95
0.95
0.90
0.907 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 m
7 33
10
23
23 33
15
49
49
20
66
66
25
82
82
30 115
35 131
40 148
45 164
50 180
55 197
60 213
65 230
70 246
75 262
80 ft
m
98
98 115 131 148 164 180 197 213 230 246 262 ft
Piping equivalent length
Piping equivalent length
Ref.: PUMY_NHMU_C32_USDB
Ref.: PUMY_NHMU_C32_USDB
1.00
0.95
0.95
0.90
0.907 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 m
7 33
10
23
23 33
15
49
49
20
66
66
25
82
82
30 115
35 131
40 148
45 164
50 180
55 197
60 213
65 230
70 246
75 262
80 ft
m
98
98 115 131 148 164 180 197 213 230 246 262 ft
Piping equivalent length
Piping equivalent length
6-3-3.How
How
to obtain
the equivalent
piping length
7-3-3.
to Obtain
the Equivalent
Piping Length
6-3-3. How
to obtain
the equivalent
piping length
1. PUMY-P-NHMU/NKMU(-BS)
1. PUMY-P-NHMU/NKMU(-BS)
Equivalent length[m]= (Actual piping length to the farthest indoor unit) + (0.30 x number of bends in the piping)
Equivalent length[m]= (Actual piping length to the farthest indoor unit) + (0.30 x number of bends in the piping)
Equivalent length[ft.]= (Actual piping length to the farthest indoor unit) + (0.99 x number of bends in the piping)
Equivalent length[ft.]= (Actual piping length to the farthest indoor unit) + (0.99 x number of bends in the piping)
OUTDOOR UNITS
OUTDOOR UNITS
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
2 - 26
2 - 26
S-21
CAPACITYTABLES
TABLES
7. 6.
CAPACITY
DATA U9
6-4.
Correction atatfrost
andand
defrost
7-4.
Correction
Frost
Defrost
Due to frost at the outdoor heat exchanger and the automatic defrost operation, the heating capacity of the outdoor unit can be
S
Due to frost on the outdoor heat exchanger and the automatic defrost operation, the heating capacity of the outdoor unit can be
calculated by multiplying the correction factor shown in the table below.
calculated by multiplying the correction factor shown in the table below.
Table of correction factor at frost and defrost
Outdoor inlet air temp. °F
Outdoor inlet air temp. °C
PUMY-P36, 48NHMU(-BS)
PUMY-P60NKMU(-BS)
43
6
1.0
1.0
39
4
0.98
0.98
36
2
0.89
0.855
34
1
0.88
0.85
32
0
0.88
0.845
28
-2
0.89
0.89
25
-4
0.9
0.9
21
-6
0.95
0.95
18
-8
0.95
0.95
14
-10
0.95
0.95
-4
-20
0.95
* The
correction
factors
thetable
tableabove
above are
are used
above.
* The
correction
factors
ininthe
used for
foraafull-load
full-loadand
and
above.
formula
belowtotocalculate
calculatethe
the correction
correction factor
load.
UseUse
thethe
formula
below
factortotouse
useforfora apartial
partial
load.
Correction
factor
partialload:
load K
:K
Correction
factor
forforpartial
Correction
factor
fullload
loadand
andabove:
above :KK0
Correction
factor
forfora afull
0
Partial
load
factorA: A
Partial
load
factor:
)
×
A
K
=
1
(
1
K
K = 1 - ( 1 - K0 )0× A
7-5. Operation Temperature Range
7-5-1. PUMY-P-NHMU/NKMU(-BS)
Indoor
Indoor
temperature
temperature
86 30
86 30
77 25
77 25
68 20
68 20
59 15
59 15
50 10
50 10
41
41
5
5-20
-4
-20
-4
-15
5
-15
5
-10
14
-10
14
-5
23
-5
23
0
32
0
32
5
10
15
20
25
41
50
59
68
77
5
10
15
20
25
41 Outdoor
50
59
68
77
temperature
30
86
30
86
35
95
35
95
40
104
40
104
45
113
45
113
50
122
50
122
30
86
30
86
35
95
35
95
40
104
40
104
45
113
45
113
50
122
50
122
Outdoor temperature
7-5-2. PUMY-P-NHMU(-BS)
Indoor
Indoor
temperature
temperature
86 30
86 30
77 25
77 25
68 20
68 20
59 15
59 15
50 10
50 10
41
41
5
5-20
-4
-20
-4
-15
5
-15
5
-10
14
-10
14
-5
23
-5
23
0
32
0
32
5
10
15
20
25
41
50
59
68
77
5
10
15
20
25
41 Outdoor
50
59
68
77
temperature
Outdoor temperature
OUTDOOR UNITS
e
tr-
-
e
tr-
-
2 - 27
* Tables above show published performance operation range. Units will try to continue to cool and heat above and below temperature range
shown, but there is no published performance data at these ranges.
S-22
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
50 10
41
7. CAPACITY
-4
5
14
5
-20 -15 -10
TABLES
-4
5
14
23
32
41
50
59
68
77
86
95
104
113
122
25
77
30
86
35
95
40
104
45
113
50
122
25
77
25
77
30
86
30
86
35
95
35
95
40
104
40
104
45
113
45
113
50
122
50
122
Outdoor temperature
-5
23
0
32
5
41
7-5-3. PUMY-P-NKMU(-BS)
10
50
15
59
20
68
Outdoor temperature
PUMY-P-NKMU(-BS)
PUMY-P-NHMU(-BS)
Indoor
Indoor
temperature
temperature
86 30
86 30
77 25
77 25
68 20
68 20
59 15
59 15
50 10
50 10
41 5
-20
41 5 -4
-20
-4
-15
5
-15
5
-10
14
-10
14
-5
23
-5
23
0
32
0
32
5
10
15
20
41
50
59
68
5
10
15
20
temperature
41 Outdoor
50
59
68
Outdoor temperature
PUMY-P-NKMU(-BS)
Indoor temperature
86 30
77 25
68 20
OUTDOOR UNITS
2 - 28
59 15
50 10
41
5
-20
-4
-15
5
-10
14
-5
23
0
32
5
41
10
50
15
59
20
68
25
77
30
86
35
95
40
104
45
113
50
122
Outdoor temperature
OUTDOOR UNITS
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
2 - 28
S-23
7. OPTIONAL
OPTIONAL PARTS
PARTS
8.
DATA U9
7-1. JOINT
8-1.
Branch Joint
7. OPTIONAL PARTS
CMY-Y62-G
Ref.: 7FAGFA
in.
1. Specification
3-3/16"
3-15/16"
3/8"
For gas pipe:
Inner Diameter
3/8"
A (Inner Diameter)
1/2"
3/4"
7/8"
3-5/32"
B (Outer Diameter)
3/8"
5/8"
2-15/16"
1-31/32"
Inner Diameter
3-5/32"
4-7/32"
Pipe cover
1
5/8" Note) Connection only to downstream units
(External view :
2-15/16"X3-15/16"X1-23/32")
Inner Diameter
3/4"
Inner Diameter
3/4"
Number of reducers
2
1
3/4"
C
Inner Diameter
B
Reducer (Accessory):
Outer Diameter
(External view :
3-9/32"X3-3/16"X1-23/32")
1-25/32"
3-9/32"
Pipe cover
Inner Diameter
3/8" Note) Connection only to downstream units
D
Inner Diameter
3-5/32"
4-1/8"
1-9/16"
C (Inner Diameter)
1/4"
1/2"
1/2"
5/8"
3-5/32"
D (Outer Diameter)
3/8"
5/8"
3/4"
3/4"
Outer Diameter
2. External drawing
For liquid pipe:
A
Accessory
Details
2 ports
One for each liquid and gas pipe
Phosphorus deoxidized copper C1220T-OL (JIS H3300)
Foamed polyethylene (one for each liquid and gas pipe)
10 reducers of 7 types (Refer to the external drawing for details.)
Inner Diameter
Items
Number of ports
Number of branch joints
Pipe material
Insulation material
Reducer
Main
Number of reducers
2
1
1
2
5-29/32"
3-15/16"
S-24
2013 S-SERIES (January
2014)
OUTDOOR
UNITS
2 - 29
© 2014 Mitsubishi Electric US, Inc.
S
CITY MULTI piping
units can
usingjoints
Joint and
setsheaders
and Header
sets provided
by Mitsubishi
Electric.
One One
kind of
Joint
canbe
beeasily
easilyconnected
done withby
branch
provided
by MITSUBISHI
ELECTRIC
CORP.
kind
sets
aresets
available
for use. Refer
to section
in installing
"System Design"
or the
Installation
Manual
that
comesDesign
with thesections,
Joint setor
forinhow
of Joint
are avaialable
for use.
Details3for
the branch
joint
can be found
in the
System
the to
install
the Joint
set.
Installation
Manual.
8. OPTIONAL PARTS
8-2. Header
CITY MULTI piping can be easily done with branch joints and headers provided by MITSUBISHI ELECTRIC CORP. There
are two header sets used for piping PUMY. Details for installing the headers can be found in the System Design sections, or
Installation Manual.
CMY-Y64-G
Ref.: 7FAGFB
in.
1. Specification
Items
Number of ports
Number of branch joints
Pipe material
Insulation material
Reducer
Cap
Main
Accessory
Details
3 ~ 4 ports
One for each liquid and gas pipe
Phosphorus deoxidized copper C1220T-OL (JIS H3300)
Foamed polyethylene
7 reducers of 5 types
2 caps of 2 different types for each liquid and gas pipe ; 4 caps in total
2. External drawing
For liquid pipe:
Reducer (Accessory):
3/8"(Inner Diameter)
A
1/2"(Inner Diameter)
B
B
Dimension table
B
A
Symbol
A
2-3/8"
For gas pipe:
2-3/8"
2-3/8"
1-31/32"
B
19/32"
2-23/32"
7/8"(Inner Diameter)
3-5/32"
3/4"(Inner Diameter)
C (Inner Diameter)
5/8"
3/8"
D (Outer Diameter)
3/4"
1/2"
Number of reducers
1
1
Dimension table
D
D
C
Symbol
C
2-3/8"
2
1/4"
3/8"
25 /32"
D
Number of reducers
1
2
1/4"
3/8"
14-3/16"
D
B (Outer Diameter)
5/8"
1/2"
C
2-3/8"
A
Inner Diameter
(mm)
A (Inner Diameter)
3/4"
5/8"
D
4-1/2"
13/32"
2-5/16"
3-5/32"
13 /32"
B
5-3/32"
B
13-25/32"
2-3/8"
C
2-3/8"
2-3/8"
D
2-3/8"
Inner Diameter
(mm)
1/2"
5/8"
CMY-Y68-G
Ref.: 7FAGFC
in.
1. Specification
Items
Number of ports
Number of branch joints
Pipe material
Insulation material
Reducer
Cap
Main
Accessory
Details
5 ~ 8 ports
One for each liquid and gas pipe
Phosphorus deoxidized copper C1220T-OL (JIS H3300)
Foamed polyethylene
3 reducers of 3 types
3 caps for each liquid and gas pipe ; 6 in total
2. External drawing
For liquid pipe:
Reducer (Accessory):
B
A
2-3/8"
A
A
B
A
2-3/8"
2-3/8"
A
B
A
2-3/8"
2-3/8"
21-27/32"
2-3/8"
B
A
2-3/8"
Dimension table
2-15/16"
B
A
3-5/32"
Symbol
A
B
A (Inner Diameter)
3/4"
1/2"
B (Outer Diameter)
5/8"
3/8"
Number of reducers
1
1
Inner Diameter
(mm)
1/4"
3/8"
C
For gas pipe:
D
A
1/2"(Inner Diameter)
2-1/ 16"
2-3/16"
4-9/16"
6-5/32"
Insulation material (Accessory)
24-1/2"
3-5/32"
Insulation material (Accessory)
C (Inner Diameter)
5/8"
C
C
2-3/8"
2-3/8"
C
C
D
C
D
D
D
C
C
C
2-3/8"
2-3/8"
2-1/2"
5-1/16"
6-5/32"
2-1/ 16"
24-1/2"
7/8"(Inner Diameter)
3/4"(Inner Diameter)
2-3/8"
23-5/8"
2-3/8"
2-3/8"
4-23/32"
Number of reducers
1
Dimension table
Symbol
C
D
Inner Diameter
(mm)
1/2"
5/8"
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.
D (Outer Diameter)
3/4"
S-25
S-26
2013 S-SERIES (January 2014)
© 2014 Mitsubishi Electric US, Inc.