PLA SERIES
PLA-ZRP35/50/60/71/100/125/140BA
PLA-RP35/50/60/71/100/125/140BA
PLA
SERIES
A complete line-up including deluxe units that offer added energy savings. The incorporation of wide air-outlet and the “i-see Sensor” enhances airflow distribution control, achieving an enhanced level of comfort throughout the room. The synergy of higher energy
efficiency and more comfortable room environment results in the utmost user satisfaction.
Deluxe 4-way Cassette Line-up
For users seeking even further energy-savings, Mitsubishi Electric offers complete deluxe units (PLA-ZRP) for the complete line-up of models in
this series from 35–140. Compared to the standard models (PLA-RP), deluxe models provide additional energy-savings, contributing to a significant
reduction in electricity costs.
■ Key Technologies for Higher Energy Efficiency
■ Line-up
Model
Series
35
50
60
71
100
125
140
New Heat Exchanger Design
Heat exchanger fin size and pitch have been
changed, raising energy efficiency.
Deluxe 4-way Cassette
(PLA-ZRP)
PLA-ZRP35BA
PLA-ZRP50BA
PLA-ZRP60BA
PLA-ZRP71BA
PLA-ZRP100BA
PLA-ZRP125BA
PLA-ZRP140BA
Pre-grooved Piping
Standard 4-way Cassette
(PLA-RP)
PLA-RP35BA
PLA-RP50BA
PLA-RP60BA
PLA-RP71BA
PLA-RP100BA
PLA-RP125BA
High-performance pre-grooved piping is utilised,
increasing the heat exchange area.
PLA-RP140BA2
■ Indoor/Outdoor Unit Combinations
Deluxe 4-way Cassette
PLA-ZRP BA
Power Inverter
PUHZ-ZRP35/50
Standard 4-way Cassette
PLA-RP BA
Standard Inverter
PUHZ-P100
PUHZ-ZRP60/71 PUHZ-ZRP100/125/140
PUHZ-RP200/250
Power Inverter
PUHZ-P125/140/200/250
PUHZ-ZRP35/50
Standard Inverter
SUZ-KA35
PUHZ-ZRP60/71 PUHZ-ZRP100/125/140
PUHZ-RP200/250
SUZ-KA50/60/71
“Rank A++/A+” Energy Savings Achieved for Deluxe 4-way Cassette
Our new deluxe 4-way cassette indoor units combined with newly designed Power Inverter outdoor units (PUHZ-ZRP) achieve industry-leading
seasonal efficiency for both cooling and heating: all rank A++ for cooling and A+ or higher for heating.
SEER
A++
SCOP
A++
6.8
Minimum SEER 3.6
SEER
A++
SEER
A++
SCOP
A++
6.4
4.6
Minimum SCOP 3.4
Cooling
Heating
SEER
A++
SCOP
A+
6.1
4.6
6.7
SCOP
A+
SEER
A++
6.5
SCOP
A++
4.5
4.2
SEER
A++
SCOP
A++
6.4
4.6
6.0
4.6
6.1
5.9
4.1
4.1
6.0
4.5
PLA-ZRP35BA PLA-ZRP50BA PLA-ZRP60BA PLA-ZRP71BA PLA-ZRP100BA PLA-ZRP100BA PLA-ZRP125BA PLA-ZRP125BA PLA-ZRP140BA PLA-ZRP140BA
PUHZ-ZRP35VKA PUHZ-ZRP50VKA PUHZ-ZRP60VHA PUHZ-ZRP71VHA PUHZ-ZRP100VKA PUHZ-ZRP100YKA PUHZ-ZRP125VKA PUHZ-ZRP125YKA PUHZ-ZRP140VKA PUHZ-ZRP140YKA
✽ For products with capacity over 10.0kW, SEER/SCOP values are measured based on EN14825. These values are for reference purposes only.
Great Reduction in Annual Electricity
Power Consumption
Automatic Grille Lowering
Function (PLP-6BAJ)
Industry-leading energy efficiency has been achieved through newly designed
Power Inverter outdoor units combined with new highly efficient deluxe 4-way
cassettes. Annual power consumption for cooling and heating are significantly
reduced.
An automatic grille lowering function is available for easy filter maintenance. Special
wired and wireless remote controllers can
be used to lower the grille for maintenance.
Cooling
[kWh/annum]
700
600
500
400
300
200
100
0
24% save
27% save
16% save
376
418
244
185
35
272
50
[kWh/annum]
25% save
14% save
12% save
628
628
23% save
486
60
26% save
13% save
1581
1688 1462
538
549
Standard
Deluxe
370
350
71
Heating
3500
3000
2500
2000
1500
1000
500
0
4.5
1.2m
1.6m
2.0m
2.4m
100V
100Y
18% save
18% save
2945
2945
2410
2.8m
Standard
Deluxe
30% save
2117
The grille can be lowered a maximum of 4m from the
ceiling in 8 steps, thus enabling easy cleaning of the air
filter. Cleaning of the filter is an important factor for
saving energy.
Automatic
descent down
to 4m
Grille Elevation Remote Controller
(comes with the automatic elevation panel)
3.6m
2410
1476
1162
984 729
35
50
60
71
100V
100Y
✽ Energy consumption based on standard test results. Actual energy consumption
will depend on how the appliance is used and where it is located.
3.2m
4.0m
Wired
Remote
Controller
59
P049-080.indd 59
13.12.12 1:19:50 PM
Optimum Airflow
Individual Vane Settings
Optimum airflow settings provide maximum
comfort throughout the room.
Wide Airflow
Wide-angle outlets distribute airflow
to all corners of the room.
In addition to the selection of variable airflow patterns (i.e., 2-,
3- or 4-way), this function allows the independent selection of
vertical airflow levels for each vane, thereby maintaining a comfortable room environment with even temperature distribution.
The outlets are larger than those of previous
models and the shape has been improved for
better wide-angle ventilation.
2-, 3-, 4-way airflow
pattern selection
Image of multi-directional
air conditioning
Previous
model
* Optional shuffle placement is required
for 2- and 3-way patterns.
Horizontal
Airflow direction at each vane
can be set using the wired remote
controller. This function is only
available when indoor unit
connects with PUHZ series.
Adjustable
Individual Vane
Setting
New 4-Way Ceiling Cassette
Wide Airflow
The combination of individual vane setting,
which enables the optimal outlet setting for
each room layout, and the wide airflow function
works to ensure even temperature distribution
throughout each room. The result is uniformly
comfortable air conditioning.
Fixed
Downward
72 airflow patterns
Wave Airflow – Thoroughly warming all corners of the room!
Wave Airflow Operation
“Wave Airflow” is essentially the advanced control of the vanes
directing the airflow from the unit. Blown-air is repeated dispersed
from the unit in horizontal and downward directions at time-lagged
intervals to provide uniform heating throughout the room.
Downward
Downward
Thermograph of Wave Control Effect
Downward Downward
✽ Wave Airflow is possible only when using the heating mode
Horizontal Airflow
Wave Airflow
Indoor Unit
Indoor Unit
Temperature gap
Uneven temperature distribution
Temperature gap is minimized.
Warm air is supplied throughout the room,
minimizing uneven temperature distribution.
Temperature distribution comparison approximately 20min after turning on a PLA-RP71BA
4-Way ceiling cassette. The measurement point
for comparison is a plane 1.2m above the floor.
Equipped with High- and Low-ceiling Modes
Units are equipped with high- and low-ceiling operation modes that make it possible to switch the airflow volume to match room height. The ability
to choose the optimum airflow volume makes it possible to optimize the breezy sensation felt throughout the room.
■ Airflow Range
✽ 100-140 class
35-71 class
Model
4.5m✽
2.7m✽
3.2m✽
Airflow
pattern
4-Way
3-Way
4-way airflow with
high-ceiling setting
4-way airflow with
standard setting
4-way airflow with
low-ceiling setting
2-Way
High-ceiling
setting
3.5m
3.5m
3.5m
100-140 class
Standard Low-ceiling High-ceiling
setting
setting
setting
2.4m
3.0m
3.3m
2.5m
2.7m
3.0m
4.5m
4.5m
4.5m
Standard
setting
Low-ceiling
setting
3.2m
3.6m
4.0m
2.7m
3.0m
3.3m
Horizontal Airflow
Automatic Air-speed Adjustment
A “Horizontal Airflow” function has been
added to reduce drafty-feeling distribution.
Horizontal Airflow prevents cold drafts from
striking the body directly, thereby keeping
the body from becoming over-chilled.
An automatic air-speed mode that adjusts airflow speed automatically is adopted to maintain comfortable room conditions at all
times. This setting automatically adjusts the air-speed to conditions
that match the room environment.
[Airflow Distribution]
At the start of heating/cooling operation, the airflow is set to high-speed
to quickly heat/cool the room.
PLA-RP125BA
Flow angle, cooling at 20°C (ceiling height 3.2m)
Height (m)
3.2
3 1.0
2.0
4.0
3.0
2
Horizontal
Airflow
1
0
5
4
3
2
Strong
(m/s)
5.0
A more
horizontal airflow
is achieved using
the new mode.
1
0
Floor distribution (m)
✽ Smudge spots on the ceiling may form where the airflow is not evenly distributed.
When the room temperature reaches
the desired setting, the airflow speed
is decreased automatically for stable
comfortable heating/cooling operation.
Gentle
60
P049-080.indd 60
13.12.12 1:19:53 PM
DOES HAVING COLD FEET BOTHER YOU?
The “i-see Sensor” is the answer to your problems!
Cooling
Mode
Heating
Mode
Legs and feet
feel cold!
Warm air rises
to the ceiling!
Even though the temperature on
the remote controller is at a preset
temperature, the temperature at
floor level remains cold. As a result,
there’s no feeling of getting warmer.
In heating mode, the upper
body gets warm but legs
and feet remain chilly.
“
” temperature-sensing
technology improves energy efficiency
and enhances room comfort
The “i-see Sensor” is an innovative Mitsubishi Electric technology
that uses a radiation-based sensor to monitor temperature throughout an entire room. When connected to the air conditioner control
panel, i-see Sensor works to maximize room comfort.
When cooling, the legs
and feet get too cold,
chilling the entire body.
At the beginning of operation, the
room is nice and cool; but before
long the temperature at floor level
drops, causing the feeling of being
too cold.
■ i-see Sensor Panel
■ i-see Sensor Operation
The i-see Sensor rotates 90° at intervals of
5 sec, accurately measuring the temperature
throughout the room (covering entire floor space).
PLP-6BAE
or
■ Corner Panel Only (Option)
90°
rotation
5 sec
measurement
90°
rotation
5 sec
measurement
90°
rotation
5 sec
measurement
5 sec
measurement
PAC-SA1 ME-E
A comfortable room environment cannot be maintained by monitoring
only the temperature at the ceiling.
Without “i-see Sensor”
Only intake-air temperature
at the ceiling was measured,
tending to overlook uneven
temperature distribution at
floor level.
Intake-air temperature sensor
Intake-air temperature sensor
Cassette without the
i-see Sensor measures temperature
in this area only.
Cassette equipped with
the i-see Sensor measures
upper and lower areas.
360°
sensing
2.7m
Equipped with 4-Way
Ceiling “i-see Sensor”
Both the floor temperature
and intake-air temperature
are measured to provide operation that creates a comfortable room environment
from ceiling to floor.
11.5m
In Heating Mode
When you want the temperature felt to be 20°
Temperature setting: 20°C
(w/ i-see Sensor + Automatic Air-speed Adjustment)
Temperature setting: 20°C (w/o i-see Sensor)
37°C
25°C
37°C
Room air
warmed to
floor level
25°C
13°C
13°C
Temperature felt: 17°C (floor level 14°C)
Warm air rises to the ceiling. This causes poor heating at floor level,
leaving legs and feet feeling cold.
Temperature felt: 20°C (floor level 20°C)
The i-see Sensor detects the temperature at the floor while the
Automatic Air-speed Adjustment eliminates uneven temperature
distribution by thoroughly warming the air down to the floor.
Temperature gap
In Cooling Mode
Temperature gap minimized
When you want the temperature felt to be 28°C
Temperature setting: 28°C
(w/ i-see Sensor + Automatic Air-speed Adjustment)
Temperature setting: 26–27°C (w/o i-see Sensor)
Because it takes longer to cool down the
floor-level temperature than the air temperature, a temperature setting of 26–27°C
is required.
Floor-level temperature
Temperature felt
28°C
26.5°C
Air temperature
(intake-air temperature)
Temperature felt
i-see Sensor computes the temperature felt by
monitoring both intake-air temperature and floorlevel temperature. The air temperature is adjusted
at initial start-up, ensuring that the temperature
felt reaches a temperature setting.
28°C
26.5°C
Temperature felt drops
Air temperature
(intake-air temperature)
At start-up
(approx. 30 min)
Floor-level temperature
Comfortable
without excess
chilliness
No drop in temperature felt
At start-up
After specified time
(approx. 30 min)
After specified time
32°C
32°C
Temperature distribution
Temperature distribution
23°C
23°C
14°C
Temperature felt: 26.5°C
The temperature felt drops according to the drop in floor-level
temperature. If the floor-level temperature is not monitored during
long cooling operation, the temperature felt becomes chilly.
14°C
Temperature Felt: 28°C
Air temperature is adjusted according to the floor temperature to
keep the temperature felt at 28°C.
61
P049-080.indd 61
13.12.12 1:19:56 PM
SERIES SELECTION
Power Inverter Series
Indoor Unit
Outdoor Unit
For Single
PUHZ-ZRP35/50
PLA-ZRP35/50/60/71/100/125/140BA
PUHZ-ZRP60/71
PUHZ-ZRP100/125/140
Standard Panel
PLP-6BA (only Panel)
PLP-6BALM (with wireless remote controller)
Automatic Filter Elevation Panel
For Multi
(Twin/Triple/Quadruple)
PLP-6BAJ (only Panel)
Standard Panel with “i-see Sensor”
PLP-6BAE (only Panel)
PLP-6BALME (with wireless remote controller)
PUHZ-ZRP71
Remote Controller
PUHZ-ZRP100/125/140
✽
PUHZ-RP200/250
100-250
35-71
Joint Lap
Vector Sine Wave
DC Scroll
35-140
DC Fan Motor
35-71
Heat Caulking
Fixing Method
Grooved Piping
Vector-Wave
Optional
Optional
Standard Inverter Series
Indoor Unit
Outdoor Unit
For Single
SUZ-KA35
PLA-RP35/50/60/71/100/125/140BA
SUZ-KA50/60/71
PUHZ-P100
PUHZ-P125/140
PUHZ-P100
PUHZ-P125/140/200/250
Standard Panel
PLP-6BA (only Panel)
PLP-6BALM (with wireless remote controller)
Automatic Filter Elevation Panel
For Multi (Twin/Triple/Quadruple)
PLP-6BAJ (only Panel)
Standard Panel with “i-see Sensor”
PLP-6BAE (only Panel)
PLP-6BALME (with wireless remote controller)
Remote Controller
✽
35-71
100-250
71-140
200/250
Joint Lap
Vector Sine Wave
DC Rotary
DC Scroll
100-250
35-140
25-71
Heat Caulking
Fixing Method
DC Fan Motor
Optional
Vector-Wave
Grooved Piping
Optional
✽ Enclosed in PLP-6BALM/PLP-6BALME
PLZ-ZRP / RP BA Indoor Unit Combinations
Indoor unit combinations shown below are possible.
Outdoor Unit Capacity
Indoor Unit Combination
For Single
35
Power Inverter (PUHZ-ZRP/RP)
Distribution Pipe
50
60
71
100
For Twin
125
140
35x1 50x1 60x1 71x1 100x1 125x1 140x1
–
–
–
–
–
–
–
Standard Inverter (PUHZ-P & SUZ) 35x1 50x1 60x1 71x1 100x1 125x1 140x1
Distribution Pipe
–
–
–
–
–
–
–
200
250
71
–
–
–
–
–
–
–
–
–
–
100
125
140
For Triple
200
250
140
200
250
For Quadruple
200
250
35x2 50x2 60x2 71x2 100x2 125x2 50x3 60x3 71x3 50x4 60x4
MSDD-50TR-E
MSDD-50WR-E
MSDT-111R-E
MSDF-1111R-E
50x2 60x2 71x2 100x2 125x2 50x3 60x3 71x3 50x4 60x4
MSDD-50TR-E
MSDD-50WR-E
MSDT-111R-E
MSDF-1111R-E
62
P049-080.indd 62
13.12.12 1:19:59 PM
PLZ-RP SERIES
POWER INVERTER
Optional
Optional
Optional
60-140V/200/250
Please fill out the requested information
Please fill out the requested information
Optional
Type
Indoor Unit
Optional
Optional
Optional
Inverter Heat Pump
PLAZRP35BA
PUHZZRP35VKA
Outdoor Unit
PLAZRP50BA
PLAZRP60BA
PLAZRP71BA
PUHZZRP50VKA
PUHZZRP60VHA
PUHZZRP71VHA
PLA-ZRP100BA
PLA-ZRP125BA
PLA-ZRP140BA
PUHZPUHZPUHZPUHZPUHZPUHZZRP100VKA
ZRP100YKA ZRP125VKA
ZRP125YKA
ZRP140VKA
ZRP140YKA
R410A*1
Outdoor power supply
VKA • VHA:230 / Single / 50, YKA:400 / Three / 50
3.6
5.0
7.1
10.0
10.0
12.5
13.4
13.4
6.1
12.5
1.6 - 4.5
2.3 - 5.6
3.3 - 8.1
4.9 - 11.4
4.9 - 11.4
5.5 - 14.0
6.2 - 15.0
6.2 - 15.0
2.7 - 6.5
5.5 - 14.0
0.79
1.43
1.77
2.60
2.60
3.87
4.37
4.37
1.78
3.87
–
–
–
–
–
3.23
3.07
3.07
–
3.23
–
–
–
–
–
–
–
–
–
–
3.6
5.0
7.1
10.0
10.0
12.5
13.4
13.4
6.1
12.5
185
272
370
538
549
736
770
781
350
725
6.8
6.4
6.7
6.5
6.4
5.9*4
6.1*4
6.0*4
6.1
6.0*4
–
–
–
–
A++
A++
A++
A++
A++
A++
14.0
14.0
16.0
16.0
4.1
6.0
8.0
11.2
11.2
7.0
5.0 - 16.0
5.0 - 16.0
5.7 - 18.0
5.7 - 18.0
1.6 - 5.2
2.5 - 7.3
3.5 - 10.2
4.5 - 14.0
4.5 - 14.0
2.8 - 8.2
3.67
3.67
4.70
4.70
0.86
1.57
1.99
2.61
2.61
2.04
3.81
3.81
3.40
3.40
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
9.3
9.3
10.6
10.6
2.4
3.8
4.7
7.8
7.8
4.4
9.3 (–10°C)
9.3 (–10°C)
10.6 (–10°C) 10.6 (–10°C)
2.4 (–10°C)
3.8 (–10°C)
4.7 (–10°C)
7.8 (–10°C)
7.8 (–10°C)
4.4 (–10°C)
9.3 (–10°C)
9.3 (–10°C)
10.6 (–10°C) 10.6 (–10°C)
2.4 (–10°C)
3.8 (–10°C)
4.7 (–10°C)
7.8 (–10°C)
7.8 (–10°C)
4.4 (–10°C)
7.0 (–20°C)
7.0 (–20°C)
7.9 (–20°C)
7.9 (–20°C)
2.2 (–11°C)
3.7 (–11°C)
3.5 (–20°C)
5.8 (–20°C)
5.8 (–20°C)
2.8 (–20°C)
0
0
0
0
0
0
0
0
0
0
3180
3180
3324
3324
729
1162
1476
2410
2410
1462
4.1*4
4.1*4
4.5*4
4.5*4
4.6
4.6
4.5
4.6
4.6
4.2
–
–
–
–
A++
A++
A+
A++
A++
A+
27.3
10.3
29.1
12.1
13.3
13.3
19.5
27.2
8.7
19.3
0.09
0.09
0.12
0.12
0.04
0.04
0.05
0.08
0.08
0.04
0.80
0.80
1.07
1.07
0.28
0.30
0.45
0.74
0.74
0.30
258 - 840 - 840 <35 - 950 - 950>
298 - 840 - 840 <35 - 950 - 950>
27 <6>
27 <6>
27 <6>
27 <6>
23 <6>
23 <6>
25 <6>
26 <6>
26 <6>
23 <6>
11 - 13 - 15 - 16 12 - 14 - 16 - 18 12 - 14 - 16 - 18 17 - 19 - 21 - 23 20 - 23 - 26 - 30 20 - 23 - 26 - 30 22 - 25 - 28 - 31 22 - 25 - 28 - 31 24 - 26 - 29 - 32 24 - 26 - 29 - 32
27 - 28 - 29 - 31 28 - 29 - 31 - 32 28 - 29 - 31 - 32 28 - 30 - 34 - 36 32 - 34 - 37 - 40 32 - 34 - 37 - 40 34 - 36 - 39 - 41 34 - 36 - 39 - 41 36 - 39 - 42 - 44 36 - 39 - 42 - 44
66
66
70
70
54
55
58
65
65
55
630 - 809 - 300
943 - 950 - 330 (+30)
1338 - 1050 - 330 (+30)
116
126
119
132
43
46
67
116
124
67
120.0
120.0
120.0
120.0
45.0
45.0
55.0
110.0
110.0
55.0
120.0
120.0
120.0
120.0
45.0
45.0
55.0
110.0
110.0
55.0
50
50
50
50
44
44
47
49
49
47
52
52
52
52
46
46
48
51
51
48
70
70
70
70
65
65
67
69
69
67
26.5
9.5
28.0
11.0
13.0
13.0
19.0
26.5
8.0
19.0
32
16
40
16
16
16
25
32
16
25
6.35 / 12.7
6.35 / 12.7
9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
75
75
75
75
50
50
50
75
75
50
30
30
30
30
30
30
30
30
30
30
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–20 ~ +21
–20 ~ +21
–20 ~ +21
–20 ~ +21
–11 ~ +21
–11 ~ +21
–20 ~ +21
–20 ~ +21
–20 ~ +21
–20 ~ +21
Refrigerant
Power Source
Supply Outdoor (V/Phase/Hz)
kW
Rated
Cooling Capacity
kW
Min - Max
kW
Total Input
Rated
EER
EEL Rank
kW
Design Load
kWh/a
Annual Electricity Consumption*2
SEER
Energy Efficiency Class
kW
Rated
Heating Capacity
(Average
kW
Min - Max
Season) Total Input
kW
Rated
COP
EEL Rank
kW
Design Load
Declared Capacity at reference design temperature kW
kW
at bivalent temperature
kW
at operation limit temperature
kW
Back Up Heating Capacity
kWh/a
Annual Electricity Consumption*2
SCOP
Energy Efficiency Class
A
Operating Current (max)
kW
Indoor Input
Rated
Unit
A
Operating Current (max)
mm
Dimensions <Panel> H × W × D
kg
Weight <Panel>
m3/min
Air Volume [Lo-Mi2-Mi1-Hi]
dB(A)
Sound Level (SPL) [Lo-Mi2-Mi1-Hi]
dB(A)
Sound Level (PWL)
mm
Outdoor Dimensions
H×W×D
Unit
kg
Weight
m3/min
Air Volume
Cooling
m3/min
Heating
dB(A)
Sound Level (SPL) Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL) Cooling
A
Operating Current (max)
A
Breaker Size
mm
Ext.
Diameter
Liquid / Gas
Piping Max. Length
m
Out-In
m
Max. Height
Out-In
°C
Guaranteed Operating Range Cooling*3
[Outdoor]
°C
Heating
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance
contains a refrigerant fluid with a GWP equal to 1975. This means that if 1kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1kg of CO2, over a period
of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located.
*3 Optional air protection guide is required where ambient temperature is lower than –5°C. *4 SEER/SCOP values are measured based on EN14825. These values are reference purpose only.
PLZ-P
SPLZ-PSERIES
SERIES
STANDARD INVERTER
PUHZ
Optional
Optional
PUHZ
PUHZ
Optional
PUHZ
SUZ
PUHZ
PUHZ
PUHZ
Please fill out the requested information
Please fill out the requested information
Optional
Type
Indoor Unit
Outdoor Unit
63
Optional
Optional
Optional
Optional
Inverter Heat Pump
PLARP35BA
SUZKA35VA4
PLARP50BA
PLARP60BA
PLARP71BA
SUZKA50VA4
SUZKA60VA4
SUZKA71VA4
PLA-RP100BA
PLA-RP125BA
PLA-RP140BA2
PUHZPUHZPUHZPUHZPUHZPUHZP100VHA4
P100YHA2
P125VHA3
P125YHA
P140VHA3
P140YHA
R410A*1
Outdoor power supply
VA4 • VHA4 • VHA3:230 / Single / 50, YHA2 • YHA:400 / Three / 50
3.6
5.5
7.1
9.4
9.4
13.6
6.1
12.3
13.6
12.3
1.4 - 3.9
2.3 - 5.6
2.8 - 8.1
4.9 - 11.2
4.9 - 11.2
5.5 - 15.0
2.3 - 6.3
5.5 - 14.0
5.5 - 15.0
5.5 - 14.0
1.090
1.660
2.100
3.120
3.120
5.210
1.840
4.090
5.210
4.090
–
–
–
–
–
2.61
–
3.01
2.61
3.01
–
–
–
–
–
D
–
B
D
B
3.6
5.5
7.1
9.4
9.4
–
6.1
–
–
–
210
321
429
628
628
–
356
–
–
–
6.0
6.0
5.8
5.2
5.2
–
6.0
–
–
–
A+
A+
A+
A
A
–
A+
–
–
–
4.1
6.0
8.0
11.2
11.2
16.0
6.9
14.0
16.0
14.0
1.7 - 5.0
1.7 - 7.2
2.6 - 10.2
4.5 - 12.5
4.5 - 12.5
5.0 - 18.0
2.5 - 8.0
5.0 - 16.0
5.0 - 18.0
5.0 - 16.0
1.040
1.750
2.247
3.280
3.280
4.980
1.970
4.110
4.980
4.110
–
–
–
–
–
3.21
–
3.41
3.21
3.41
–
–
–
–
–
C
–
B
C
B
2.6
4.3
5.8
8.0
8.0
–
4.6
–
–
–
2.3 (–10°C)
3.8 (–10°C)
4.7 (–10°C)
6.3 (–10°C)
6.3 (–10°C)
–
4.0 (–10°C)
–
–
–
2.3 (–7°C)
3.8 (–7°C)
5.1 (–7°C)
7.1 (–7°C)
7.1 (–7°C)
–
4.0 (–7°C)
–
–
–
2.3 (–10°C)
3.8 (–10°C)
4.7 (–10°C)
5.0 (–15°C)
5.0 (–15°C)
–
4.0 (–10°C)
–
–
–
0.3
0.5
1.1
1.7
1.7
–
0.6
–
–
–
867
1503
1913
2945
2945
–
1570
–
–
–
4.2
4.0
4.3
3.8
3.8
–
4.1
–
–
–
A+
A+
A+
A
A
–
A+
–
–
–
8.4
12.4
16.6
28.9
13.9
30.5
14.4
29.0
14.0
14.0
0.03
0.05
0.07
0.14
0.14
0.15
0.05
0.15
0.15
0.15
0.22
0.36
0.51
0.94
0.94
1.00
0.36
1.00
1.00
1.00
258 - 840 - 840 <35 - 950 - 950>
298 - 840 - 840 <35 - 950 - 950>
22 <6>
22 <6>
23 <6>
25 <6>
25 <6>
27 <6>
23 <6>
25 <6>
27 <6>
25 <6>
11 - 12 - 13 - 15 12 - 14 - 16 - 18 12 - 14 - 16 - 18 14 - 16 - 18- 21 20 - 23 - 26 - 30 20 - 23 - 26 - 30 22 - 25 - 28 - 31 22 - 25 - 28 - 31 24 - 26 - 29 - 32 24 - 26 - 29 - 32
27 - 28 - 29 - 31 28 - 29 - 31 - 32 28 - 29 - 31 - 32 28 - 30 - 32 - 34 32 - 34 - 37 - 40 32 - 34 - 37 - 40 34 - 36 - 39 - 41 34 - 36 - 39 - 41 36 - 39 - 42 - 44 36 - 39 - 42 - 44
54
55
56
62
62
70
55
63
70
63
550 - 800 - 285
880 - 840 - 330
943 - 950 - 330 (+30)
1350 - 950 - 330 (+30)
35
54
53
75
77
99
50
99
101
101
36.3
44.6
50.1
60.0
60.0
100.0
40.9
100.0
100.0
100.0
34.8
44.6
48.2
60.0
60.0
100.0
49.2
100.0
100.0
100.0
49
52
55
50
50
52
55
51
52
51
50
52
55
54
54
56
55
55
56
55
62
65
69
70
70
73
65
71
73
71
8.2
12.0
16.1
28.0
13.0
29.5
14.0
28.0
13.0
13.0
10
20
20
32
16
40
20
32
16
16
6.35 / 9.52
6.35 / 12.7
6.35 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
20
30
30
50
50
50
30
50
50
50
12
30
30
30
30
30
30
30
30
30
–10 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–10 ~ +24
–10 ~ +24
–10 ~ +24
–15 ~ +21
–15 ~ +21
–15 ~ +21
–10 ~ +24
–15 ~ +21
–15 ~ +21
–15 ~ +21
Refrigerant
Power Source
Supply Outdoor (V/Phase/Hz)
kW
Rated
Cooling Capacity
kW
Min - Max
kW
Total Input
Rated
EER
EEL Rank
kW
Design Load
kWh/a
Annual Electricity Consumption*2
SEER
Energy Efficiency Class
kW
Rated
Heating Capacity
(Average
kW
Min - Max
Season) Total Input
kW
Rated
COP
EEL Rank
kW
Design Load
Declared Capacity at reference design temperature kW
kW
at bivalent temperature
kW
at operation limit temperature
kW
Back Up Heating Capacity
kWh/a
Annual Electricity Consumption*2
SCOP
Energy Efficiency Class
A
Operating Current (max)
kW
Indoor Input
Rated
Unit
A
Operating Current (max)
mm
Dimensions <Panel> H × W × D
kg
Weight <Panel>
m3/min
Air Volume [Lo-Mi2-Mi1-Hi]
dB(A)
Sound Level (SPL) [Lo-Mi2-Mi1-Hi]
dB(A)
Sound Level (PWL)
mm
Outdoor Dimensions
H×W×D
Unit
kg
Weight
m3/min
Air Volume
Cooling
m3/min
Heating
dB(A)
Sound Level (SPL) Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL) Cooling
A
Operating Current (max)
A
Breaker Size
mm
Ext.
Diameter
Liquid / Gas
Piping Max. Length
m
Out-In
m
Max. Height
Out-In
°C
Guaranteed Operating Range Cooling*3
[Outdoor]
°C
Heating
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance
contains a refrigerant fluid with a GWP equal to 1975. This means that if 1kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1kg of CO2, over a period
of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located.
*3 Optional air protection guide is required where ambient temperature is lower than –5°C.
P049-080.indd 63
13.12.12 1:20:02 PM
PLZ-RP SERIES
Optional
Optional
Optional
60-140V/200/250
POWER INVERTER
Optional
Type
Indoor Unit
Optional
Optional
Optional
Inverter Heat Pump
PLARP35BA
PUHZZRP35VKA
Outdoor Unit
PLARP50BA
PLARP60BA
PLARP71BA
PUHZZRP50VKA
PUHZZRP60VHA
PUHZZRP71VHA
PLA-RP100BA
PLA-RP125BA
PLA-RP140BA2
PUHZPUHZPUHZPUHZPUHZPUHZZRP100VKA
ZRP100YKA ZRP125VKA
ZRP125YKA
ZRP140VKA
ZRP140YKA
R410A*1
Outdoor power supply
VKA • VHA:230 / Single / 50, YKA:400 / Three / 50
3.5
5.0
7.1
10.0
10.0
12.5
13.4
13.4
6.1
12.5
1.6 - 4.5
2.3 - 5.6
3.3 - 8.1
4.9 - 11.4
4.9 - 11.4
5.5 - 14.0
6.2 - 15.0
6.2 - 15.0
2.7 - 6.5
5.5 - 14.0
0.88
1.43
1.87
2.63
2.63
3.99
4.40
4.40
1.90
3.99
–
–
–
–
–
3.13
3.05
3.05
–
3.13
–
–
–
–
–
–
–
–
–
–
3.5
5.0
7.1
10.0
10.0
12.5
13.4
13.4
6.1
12.5
189
311
387
569
580
886
849
860
371
875
6.5
5.6
6.4
6.2
6.0
4.9*4
5.5*4
5.5*4
5.7
5.0*4
–
–
–
–
A++
A+
A++
A++
A+
A+
14.0
14.0
16.0
16.0
4.1
6.0
8.0
11.2
11.2
7.0
5.0 - 16.0
5.0 - 16.0
5.7 - 18.0
5.7 - 18.0
1.6 - 5.2
2.5 - 7.3
3.5 - 10.2
4.5 - 14.0
4.5 - 14.0
2.8 - 8.2
3.91
3.91
4.76
4.76
0.96
1.82
2.21
3.01
3.01
2.17
3.58
3.58
3.36
3.36
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
9.3
9.3
10.6
10.6
2.3
3.8
4.7
7.8
7.8
4.4
9.3 (–10°C)
9.3 (–10°C)
10.6 (–10°C) 10.6 (–10°C)
2.3 (–10°C)
3.8 (–10°C)
4.7 (–10°C)
7.8 (–10°C)
7.8 (–10°C)
4.4 (–10°C)
9.3 (–10°C)
9.3 (–10°C)
10.6 (–10°C) 10.6 (–10°C)
2.3 (–10°C)
3.8 (–10°C)
4.7 (–10°C)
7.8 (–10°C)
7.8 (–10°C)
4.4 (–10°C)
7.0 (–20°C)
7.0 (–20°C)
7.9 (–20°C)
7.9 (–20°C)
2.2 (–11°C)
3.7 (–11°C)
3.5 (–20°C)
5.8 (–20°C)
5.8 (–20°C)
2.8 (–20°C)
0
0
0
0
0
0
0
0
0
0
3304
3304
3746
3746
750
1313
1521
2652
2652
1576
3.9*4
3.9*4
4.0*4
4.0*4
4.3
4.1
4.3
4.1
4.1
3.9
–
–
–
–
A+
A+
A+
A+
A+
A
27.5
10.5
29.1
12.1
13.2
13.4
19.5
27.4
8.9
19.4
0.15
0.15
0.16
0.16
0.03
0.05
0.07
0.14
0.14
0.05
1.00
1.00
1.07
1.07
0.22
0.36
0.51
0.94
0.94
0.36
258 - 840 - 840 <35 - 950 - 950>
298 - 840 - 840 <35 - 950 - 950>
25 <6>
25 <6>
27 <6>
27 <6>
22 <6>
22 <6>
23 <6>
25 <6>
25 <6>
23 <6>
11 - 12 - 13 - 15 12 - 14 - 16 - 18 12 - 14 - 16 - 18 14 - 16 - 18 - 21 20 - 23 - 26 - 30 20 - 23 - 26 - 30 22 - 25 - 28 - 31 22 - 25 - 28 - 31 24 - 26 - 29 - 32 24 - 26 - 29 - 32
27 - 28 - 29 - 31 28 - 29 - 31 - 32 28 - 29 - 31 - 32 28 - 30 - 32 - 34 32 - 34 - 37 - 40 32 - 34 - 37 - 40 34 - 36 - 39 - 41 34 - 36 - 39 - 41 36 - 39 - 42 - 44 36 - 39 - 42 - 44
63
63
70
70
54
55
56
62
62
55
630 - 809 - 300
943 - 950 - 330 (+30)
1338 - 1050 - 330 (+30)
116
126
119
132
43
46
67
116
124
67
120.0
120.0
120.0
120.0
45.0
45.0
55.0
110.0
110.0
55.0
120.0
120.0
120.0
120.0
45.0
45.0
55.0
110.0
110.0
55.0
50
50
50
50
44
44
47
49
49
47
52
52
52
52
46
46
48
51
51
48
70
70
70
70
65
65
67
69
69
67
26.5
9.5
28.0
11.0
13.0
13.0
19.0
26.5
8.0
19.0
32
16
40
16
16
16
25
32
16
25
6.35 / 12.7
6.35 / 12.7
9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88 9.52 / 15.88
75
75
75
75
50
50
50
75
75
50
30
30
30
30
30
30
30
30
30
30
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–20 ~ +21
–20 ~ +21
–20 ~ +21
–20 ~ +21
–11 ~ +21
–11 ~ +21
–20 ~ +21
–20 ~ +21
–20 ~ +21
–20 ~ +21
Refrigerant
Power Source
Supply Outdoor (V/Phase/Hz)
kW
Rated
Cooling Capacity
kW
Min - Max
kW
Total Input
Rated
EER
EEL Rank
kW
Design Load
kWh/a
Annual Electricity Consumption*2
SEER
Energy Efficiency Class
kW
Rated
Heating Capacity
(Average
kW
Min - Max
Season) Total Input
kW
Rated
COP
EEL Rank
kW
Design Load
Declared Capacity at reference design temperature kW
kW
at bivalent temperature
kW
at operation limit temperature
kW
Back Up Heating Capacity
kWh/a
Annual Electricity Consumption*2
SCOP
Energy Efficiency Class
A
Operating Current (max)
kW
Indoor Input
Rated
Unit
A
Operating Current (max)
mm
Dimensions <Panel> H × W × D
kg
Weight <Panel>
m3/min
Air Volume [Lo-Mi2-Mi1-Hi]
dB(A)
Sound Level (SPL) [Lo-Mi2-Mi1-Hi]
dB(A)
Sound Level (PWL)
mm
Outdoor Dimensions
H×W×D
Unit
kg
Weight
m3/min
Air Volume
Cooling
m3/min
Heating
dB(A)
Sound Level (SPL) Cooling
dB(A)
Heating
dB(A)
Sound Level (PWL) Cooling
A
Operating Current (max)
A
Breaker Size
mm
Ext.
Diameter
Liquid / Gas
Piping Max. Length
m
Out-In
m
Max. Height
Out-In
°C
Guaranteed Operating Range Cooling*3
[Outdoor]
°C
Heating
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance
contains a refrigerant fluid with a GWP equal to 1975. This means that if 1kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1kg of CO2, over a period
of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located.
*3 Optional air protection guide is required where ambient temperature is lower than –5°C. *4 SEER/SCOP values are measured based on EN14825. These values are reference purpose only.
PUHZ
PLZ-P
SPLZ-PSERIES
SERIES
Optional
Optional
PUHZ
PUHZ
Optional
PUHZ
SUZ
PUHZ
PUHZ
PUHZ
STANDARD INVERTER
Optional
Optional
Optional
Optional
Optional
Type
Inverter Heat Pump
Indoor Unit
PLA-ZRP100BA
PLA-ZRP125BA
PLA-ZRP140BA
Outdoor Unit
PUHZ-P100VHA4
PUHZ-P100YHA2
PUHZ-P125VHA3
PUHZ-P125YHA
PUHZ-P140VHA3
PUHZ-P140YHA
Refrigerant
R410A*1
Outdoor power supply
Power Source
Supply Outdoor (V/Phase/Hz)
230 / Single / 50
400 / Three / 50
230 / Single / 50
400 / Three / 50
230 / Single / 50
400 / Three / 50
kW
9.4
9.4
12.3
12.3
13.6
13.6
Rated
Cooling Capacity
kW
4.9
11.2
4.9
11.2
5.5
14.0
5.5
14.0
5.5
15.0
5.5 - 15.0
Min - Max
kW
3.082
3.082
4.020
4.020
5.171
5.171
Total Input
Rated
–
3.06
3.06
2.63
2.63
EER
–
B
B
D
D
EEL Rank
kW
9.4
9.4
–
–
–
–
Design Load
kWh/a
610
610
–
–
–
–
Annual Electricity Consumption*2
5.4
5.4
–
–
–
–
SEER
Energy Efficiency Class
A
A
–
–
–
–
kW
11.2
11.2
14.0
14.0
16.0
16.0
Rated
Heating Capacity
(Average
kW
4.5 - 12.5
4.5 - 12.5
5.0 - 16.0
5.0 - 16.0
5.0 - 18.0
5.0 - 18.0
Min - Max
Season) Total Input
kW
3.137
3.137
3.989
3.989
4.938
4.938
Rated
–
–
3.51
3.51
3.24
3.24
COP
–
–
B
B
C
C
EEL Rank
kW
8.0
8.0
–
–
–
–
Design Load
6.3 (–10°C)
6.3 (–10°C)
–
–
–
–
Declared Capacity at reference design temperature kW
kW
7.1 (–7°C)
7.1 (–7°C)
–
–
–
–
at bivalent temperature
kW
–
5.0 (–15°C)
5.0 (–15°C)
–
–
–
at operation limit temperature
kW
–
1.7
1.7
–
–
–
Back Up Heating Capacity
kWh/a
–
2800
2800
–
–
–
Annual Electricity Consumption*2
–
4.0
4.0
–
–
–
SCOP
Energy Efficiency Class
–
A+
A+
–
–
–
A
Operating Current (max)
28.7
14.1
13.7
13.8
28.8
30.6
kW
Indoor Input
0.08
0.12
0.08
0.09
0.09
0.12
Rated
Unit
A
0.74
0.80
1.07
0.74
0.80
1.07
Operating Current (max)
mm
Dimensions <Panel> H × W × D
298 - 840 - 840 <35 - 950 - 950>
kg
26 <6>
27 <6>
27 <6>
26 <6>
27 <6>
27 <6>
Weight <Panel>
m3/min
20 - 23 - 26 - 30
22 - 25 - 28 - 31
24 - 26 - 29 - 32
20 - 23 - 26 - 30
22 - 25 - 28 - 31
24 - 26 - 29 - 32
Air Volume [Lo-Mi2-Mi1-Hi]
dB(A)
32 - 34 - 37 - 40
34 - 36 - 39 - 41
36 - 39 - 42 - 44
32 - 34 - 37 - 40
34 - 36 - 39 - 41
36 - 39 - 42 - 44
Sound Level (SPL) [Lo-Mi2-Mi1-Hi]
dB(A)
65
66
70
65
66
70
Sound Level (PWL)
mm
943 - 950 - 330 (+30)
1350 - 950 - 330 (+30)
Outdoor Dimensions
H×W×D
Unit
kg
75
99
101
77
101
99
Weight
m3/min
60.0
100.0
100.0
60.0
100.0
100.0
Air Volume
Cooling
m3/min
60.0
100.0
100.0
60.0
100.0
100.0
Heating
dB(A)
50
51
52
50
51
52
Sound Level (SPL) Cooling
dB(A)
54
55
56
54
55
56
Heating
dB(A)
70
71
73
70
71
73
Sound Level (PWL) Cooling
A
28.0
28.0
13.0
13.0
13.0
29.5
Operating Current (max)
A
32
32
16
16
16
40
Breaker Size
mm
Ext.
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
9.52 / 15.88
Diameter
Liquid / Gas
Piping Max. Length
m
50
50
50
50
50
50
Out-In
m
30
30
30
30
30
30
Max. Height
Out-In
°C
Guaranteed Operating Range Cooling*3
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
–15 ~ +46
[Outdoor]
°C
–15 ~ +21
–15 ~ +21
–15 ~ +21
–15 ~ +21
–15 ~ +21
–15 ~ +21
Heating
*1 Refrigerant leakage contributes to climate change. Refrigerant with lower global warming potential (GWP) would contribute less to global warming than a refrigerant with higher GWP, if leaked to the atmosphere. This appliance
contains a refrigerant fluid with a GWP equal to 1975. This means that if 1kg of this refrigerant fluid would be leaked to the atmosphere, the impact on global warming would be 1975 times higher than 1kg of CO2, over a period
of 100 years. Never try to interfere with the refrigerant circuit yourself or disassemble the product yourself and always ask a professional.
*2 Energy consumption based on standard test results. Actual energy consumption will depend on how the appliance is used and where it is located.
*3 Optional air protection guide is required where ambient temperature is lower than –5°C.
64
P049-080.indd 64
13.12.12 1:20:02 PM
Was this manual useful for you? yes no
Thank you for your participation!

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

Download PDF

advertisement