Mitsubishi PRHG-8, PRHG-10, PRHG-15, PRHG-20 DATA BOOK

AIR-COOLED ROOFTOP PACKAGED AIR CONDITIONERS

Series

HEAT PUMP : PRHG-8,10,15,20

DATA BOOK

Specifications subject to change without notice.

CONTENTS

PAGE NUMBER

SAFETY FOR USE
FEATURES
TYPICAL INSTALLATION EXAMPLE
MODEL-DESIGNATION BREAKDOWN
SPECIFICATIONS
ELECTRICAL DATA
SELECTION PROCEDURE
CAPACITY TABLES
OPERATION RANGE
FAN PERFORMANCE
NC CURVES
OUTLINE DIMENSIONS
WIRING DIAGRAMS
ELECTRICAL OPERATION FLOW CHARTS
REFRIGERANT CYCLE SCHEMATIC
SAFETY & CONTROL DEVICES
ACCESSORY AVAILABILITY
INSTALLATION
INSTRUCTIONS FOR USE
HOW TO OPERATE

(LCD remote controller PAC-204RC)
LOW AMBIENT COOLING PARTS;

OPTION PAC-205FC (Fan controller)

1
3
4
4
5
6
7
9
18
19
24
26
28
32
34
35
35
36
43

47

51

fire may result. If you need to have the unit

Ask your dealer or specialized subcontractor
for installation.

For installation, conduct the work correctly by
following the Installation Manual.

Install the unit on a spot sufficiently durable against
the unit weight.

All electric work must be performed by licensed
technician, according to local regulations and the
instructions given in this manual.
The units should be powered by dedicated power
lines.

Use only the specified cables for wiring. The
connections must be made secured without
tension the terminals.

The unit should be installed according to the
instructions in order to minimize the risk of damage
from earthquakes, typhoons or strong winds.

The outdoor unit must be installed on stable, level
surface, in a place where there is no accumulation
of snow , leaves or rubbish.

The outdoor unit should be installed in a location
where air and noise emitted by the unit will not
disturb the neighbors. The indoor unit should be
securely installed.

Never repair the unit, remodel or transfer it to
another site by yourself.

Use only the specified refrigerant (R-22) to charge
the refrigerant circuit.
Do not mix it with any other refrigerant and do not
allow air to remain in the circuit.

Ventilate the room if refrigerant leaks during
Installation.

After completing installation work, make sure that
refrigerant gas has not leaked.

Take a proper measure to suppress the critical
concentration of refrigerant if leaked when
installing the unit in a small room.

The terminal block cover of unit must be firmly
attached to prevent entry of dust and moisture.

Use only optional parts authorised by Mitsubishi
Electric.

Before conducting installation work, please read this “SAFETY FOR USE” carefully

for

correct installation.

Since the caution items shown here contain important description relative to safety, please

observe them without fail.

After reading, please keep it with you together the Instruction Manual, and read it again at the

movement of the unit.

Conducting installation work by yourself improperly
may cause a fire, electric shock or water leakage.

Improper installation may cause a fire, electrical shock
or water leakage.

Insufficient durability can cause an injury by the falling
down of unit.

Power lines with insufficient capacity or improper
electrical work may result in electric shock or fire.

Improper connection or fastening can cause a fire or
electrical shock.

Improper installation work can cause an injury by the
falling down of the unit.

If the unit is loosely mounted, it may fall, and cause injury.

If they are performed improperly, water leakage, electric
shock or
repaired or moved, consult your dealer.

Air enclosed in the circuit can cause high pressure resulting
in a rupture and other hazards.

The refrigerant heated generates poisonous gas by
decomposition which can cause poisoning.

If refrigerant gas has leaked and exposed to fan heater,
Please do the gas leakage inspection before starting.

stove, oven and so on, it may generate noxious gases.

The limit density is made not to be exceeded even if the
refrigerant leaks by any chance.
You are necessary to ventilation measures to prevent
the accident. If the refrigerant leaks, hypoxia accident
may caused.
For the countermeasure to be taken, consult your
dealer.

Improper mounting of the cover cause electric shock or
fire.

If the accessories are installed improperly, water
leakage, electric shock or fire may result.
Ask your dealer or an authorised company to install
them.

Erroneous handling gives a high possibility to induce serious results such as

death or heavy injury.

Erroneous handling may induce serious injury depending on the situation.

Warning

Caution

The heating of refrigerant is noted.

When the refrigerant touches the fire etc., it was decom­posed and a poisonous gas is generated.
Do not use the welding machine etc., in the room close up
of the installation of the air conditioner.

Warning

SAFETY FOR USE

-1-

Caution

The poor mounting of the panel or terminal cover may
cause the heat generation of the terminal connection,
a fire or electrical shock.

Otherwise electric shock can be resulted.

The unit should not be carried by only one person if it is
more than 20kg. It occasionally causes the damage of
the unit and health to be impaired.
Some unit use PP bands for packing. Do not use any
PP band for delivery purpose. It may cause the injury.
Do not touch the heat exchanger fins with your bear
hands.
Doing so may cut your hands.
When carrying in outdoor unit, be sure to support it at
four points. Carrying in and lifting with 3-point support
may make outdoor unit unstable, resulting in a fall of it.
Be sure to safety dispose the packing materials.
Packing materials, such as catches and other metal or
wooden parts, may cause stabs or other injuries.

The damaged base may cause the falling down of the
unit which may give injury.

Do not turn the main power switch OFF during seasons
of heavy use, doing so can result in failure.

Touching directly such part can cause a burn or
frostbite as it becomes high or low temperature
according to the refrigerant state.

Touching directly it may injure your hands.

You could be injured if you touch rotating, hot or high­voltage parts.

Dust may accumulate, and cause a failure.

Continuing the operation without eliminating the
emergency state may cause a machine trouble, fire, or
electrical shock.

Otherwise, water leakage or unit failure may occur.

If washed with water, electric shock may be caused.

Do not wash the unit with water.

Arrange the configuration of wiring not to bring up
the panel and terminal cover, and fasten the panel
and terminal cover securely.

occur.

The gas may ignite or explode when the gas leaks and
collects in surround of the unit.

The erroneous operation of air conditioner may be
induced by inverter equipment, independent power
device, medical equipment or communication
equipment.

As the use for the applications other than that
designed originally may result in the deterioration of the
quality. Consult your dealer in this regard.

Installing the unit at the following places may cause a
trouble, a place where is much machine oil, salt ,
humidity or dust, spa district, a place full of sulfur gas,
volatile gas, or corrosive gas, a place near high
frequency processing machine.

If the drain pipes are not properly insulated,
condensation will result and drip on ceiling, floor or other
possessions.

When the unit inclines, it causes the water leak and the
breakdown.
Please confirm the horizontal with the spirit level.

Improper drain piping (hose) may cause water leakage
and damage to furniture or other possessions.

Do not connect the earth wire to gas pipe, city water
pipe, lightning rod or telephone earth wire.
Improper earth connection may cause electrical shock.

Failure to mount the electric leak breaker may cause
electrical shock.

Using a wire or copper wire instead of proper capacity
can cause fire or trouble.
Other appliances connected to the same line could
cause an overload.

Otherwise, current leakage, overheating or fire may

The tighten or loosen the connections may cause
generate heat and cause fire.

Never install on the place where a combustible
gas might leak.

When the unit is installed at telecommunication
centers or hospitals, take a proper provision
against noise.

For special use as for foods, animals/plants,
precision equipment or art objects, the applicability
should be confirmed beforehand.

Do not use the unit under a special atmosphere.

Thermal insulation of the drain pipes is necessary
prevent dew condensation.

The unit should be securely installed level surface.

Install drain piping (hose) according to this
Installation Manual to ensure proper drainage.

The unit must be properly earth connected.

When installing at a watery place, provide an
electric leak breaker.

Make sure that each appliance has a main power
switch.

Use breaker or fuse with proper capacity.

For the power lines, use standard cables of
sufficient current capacity.

When installing the power lines, do not apply
tension to the cables.

When the room is high humidity or when the drain pipe
is clogged, water may drip from the indoor unit.

Do not place objects under the units to avoid
damage of condensation.

Do not handle the switch with wet hands.

Be very careful about unit transportation.

Do not leave the mounting base being damaged.

Turn on the main power switch more than 6 hours
before starting operation.

Do not touch the compressor or refrigerant piping
without wearing glove on your hands.

Do not touch the metal edges inside the unit
without wearing glove on your hands.

Do not remove the panel or the fan guard from the
unit when it is running.

Do not operate the air conditioner without the air
filter set place.

At emergency (if you smell something burning),
stop operation and turn the power source switch off.

After stopping operation, be sure to wait for five
minutes before turning off the main power switch.

Remote controller is not installed for the place
where direct sunshine strikes.

Remote controller may be broken.

Remote controller should be pushed with finger.

-2-

FEATURES

Highly Efficient operation

The EER(Energy Efficiency Ratio) on these models
is greatly improved by revised design specifications
and by being manufactured stringently to Mitsubishi
Electric high quality standards.

High sensible cooling capacity

The sensible cooling capacity has been significantly
improved through balanced optimised heat
exchanger design.

Flexible Installation (Convertible Airflow)

The customer can select whichever side flow and
down flow in the PRHG series. The standard specifi­cation is side flow. Also the PRHG series can install
more flexible in local work, too.

Labor Saving Installation

Because of the single unit configuration, all
refrigeration work can be omitted.
The unit operation can commence immediately
after connection to the power supply, drain piping,
ducting and control system.

Minimum Floor Space

The PRHG series feature a compact design and
has been succeeded in reducing more floor space.

Flexibility of Supply Air Delivery

All series feature belt driven Supply Air fans
enabling accurate matching of actual airflow rates
to the specified quantities.
Accurate commissioning is assisted by the
capability to exchange pulleys and belts if
necessary to achieve the desired air balance.

Comfort heating

The PRHG series are designed to provide effective
heating even when the outside temperature is down
to -15˚C.
<Merit up at defrost>
Cold air stop is introduced during defrost
in PRHG8, 10.

Global Remote Controller

Wide Electrical Control Capability

All series is flexible mechanical control configulation.
In addition Global Remote Controller is prepared
on standard.
The Global Remote Controller give the programmable
weekly timer, compressor anti-short cycle timer(3 min),
cool/heat/fan/auto changeover etc.
This controller utlises a microprocessor and includes
liquid crystal display with touch pad for adjustment for
control program.
The factory standard is for provision of 24volt terminal
block to enable a field wired control of contractors
choice to be connected.
Please consult your local Mitsubishi Electric Sales
office for application advice on these control.

Low Ambient Cooling Kit (option)

In applications with relatively high internal loads,
there may be a requirment for all series to operate
on cooling at low ambient conditions.
An optional accessory is available to maintain the
refrigeration circuit in balance at outdoor
temperatures as low as -5˚C.
Please consult your local Mitsubishi Electric Sales
office for application advice on this accessory.

-3-

TYPICAL INSTALLATION EXAMPLE

Series symbol
Self-contained type
(rooftop type)

Series symbol
global type

Heat pump type

Series symbol
Y=3-phase
380V,400V,415V,50Hz,4 wires

Design sequence

Compressor horse power
8=8HP
10=10HP
15=15HP
20=20HP

Design sequence

Service reference

MODEL-DESIGNATION BREAKDOWN

PRHG

P R H G 1 0 M Y A E U

-4-

SPECIFICATIONS

Model name
Service reference
Power supply

PRHG-8MYA PRHG-10MYA PRHG-15MYA PRHG-20MYA

PRHG-8MYA-EU(S)

PRHG-10MYA-EU(S) PRHG-15MYA-EU(S) PRHG-20MYA-EU(S)

23.8 29.7

3N~ 380~415V 50Hz

46.3 60.8

Total cooling capacity

Btu/h 81,300 101,400 158,000 207,500

(Gross)

kcal/h 20,500 25,600 39,900 52,300

kW

kW

19.0 23.8 37.0 48.6

Sensible cooling capacity

Btu/h 64,900 81,300 126,300 165,900

(Gross)

Total cooling capacity

(Net)

kcal/h

kW

Btu/h

kcal/h

16,400 20,500 31,900 41,800

23.0/22.6 28.3/27.8 44.8/44.1 58.3/57.2
78,500/77,200 96,600/94,900 152,900/150,500 199,000/195,200
19,800/19,500 24,400/24,000 38,600/38,000 50,200/49,200

kW 22.6/23.0 31.5/32.0 44.8/45.5 60.1/61.2

Total heating capacity

Btu/h 77,200/78,600 107,500/109,100 152,900/155,100 205,100/208,700

(Net)

kcal/h 19,500/19,800 27,100/27,600 38,600/39,200 51,700/52,700

kW 21.8 30.1 43.3 57.6

Total heating capacity

Btu/h 74,400 102,800 147,800 196,600

(Gross)

kcal/h 18,800 25,900 37,300 49,600

Capacity steps % 0-100 0-50-100
Refrigerant R-22

Refrigerant charge 2x5.62x4.74.7 5.6
Refrigerant control Capillary tube
External finish Acrylic resin coating
Color MUNSELL 5Y8/1

Height mm 1,000 1,200

Dimension

Width mm 1,300 1,990

Depth mm 1,530 1,800

Net weight kg

kg

385 415 700 800
Compressor Hermetic line start (reciprocating)
No. x Motor output kW 5.5 7.5 2x5.5 2x7.5
Indoor coil Cross fin coil
Indoor fan Centrifugal (galvanized steel) - belt drive
Indoor fan motor Three phase cage induction motor
No. x Motor output kW 1.1 1.5 2.2 3.7

CMM 80 100 160 190

Indoor fan air flow

CFM 2,826 3,532 5,651 6,710

L/S 1,333

5/10

50/100

1,667

6.2/10

62/100

2,667

10/20

100/200

3,167

External static pressure

mmAq

Pa
Outdoor coil Cross fin coil
Outdoor fan Propeller - direct drive
Outdoor fan motor Three phase cage induction motor
No. x Motor output kW 0.55 2x0.55

CMM 160 320

Condenser fan air flow

CFM 5,651 11,302

L/S 2,667 5,333

66 70 Sound pressure level dB(A)

Drain connection mm 25.4

High pressure switch, fuse

Protection devices

Over current relay (compressor, indoor fan and outdoor fan)
Internal thermostat (compressor and outdoor fan motor)

Note 1.Cooling & Heating capacity is based on the following conditions.

Cooling : Indoor:27˚CDB , 19˚CWB ; Outdoor:35˚CDB
Heating : Indoor:21˚CDB ; Outdoor:7˚CDB , 6˚CWB

2.Refrigerant charge volumes are factory charged.

3.Gross capacity do not include a deduction for evaporator fan motor heat.

4.The measuring point of the Sound pressure level is 1m from the unit surface.

5.The range of working voltage is with in ±10% voltage of power supply.

6.Specification subject to change without notice.

-5-

ELECTRICAL DATA

VOLT

TOTAL INPUT
TOTAL RUN CURRENT
POWER FACTOR
START CURRENT
COMPRESSOR INPUT
RUN CURRENT
O/D FAN INPUT
RUN CURRENT
I/D FAN External static pressure
INPUT
RUN CURRENT
TOTAL INPUT
TOTAL RUN CURRENT
POWER FACTOR
START CURRENT
COMPRESSOR INPUT
RUN CURRENT
O/D FAN INPUT
RUN CURRENT
I/D FAN External static pressure
INPUT
RUN CURRENT
TOTAL INPUT
TOTAL RUN CURRENT
POWER FACTOR
START CURRENT
COMPRESSOR INPUT
RUN CURRENT
O/D FAN INPUT
RUN CURRENT
I/D FAN External static pressure
INPUT
RUN CURRENT

415V

400V

380V

kW

A

%

A

kW

A

kW

A

Pa

kW

A

kW

A

%

A

kW

A

kW

A

Pa

kW

A

kW

A

%

A

kW

A

kW

A

Pa

kW

A

7.9/8.3

13.3/14.0
82%

77.8

6.6

10.4

0.5

1.5

62/100

0.8/1.2

1.4/2.1

7.9/8.3

13.8/14.5
82%

80.8

6.6

10.7

0.5

1.6

50/100

0.8/1.2

1.5/2.2

7.9/8.3

14.5/15.3
82%

85.0

6.6

11.4

0.5

1.6

50/100

0.8/1.2

1.5/2.3

6.6/7.0

11.1/11.8
83%

77.8

5.3

8.2

0.5

1.5

62/100

0.8/1.2

1.4/2.1

6.6/7.0

11.6/12.3
83%

80.8

5.3

8.5

0.5

1.6

50/100

0.8/1.2

1.5/2.2

6.6/7.0

12.1/12.9
83%

85.0

5.3

9.0

0.5

1.6

50/100

0.8/1.2

1.5/2.3

10.9/11.4

17.8/18.5
86%

76.3

9.0

14.5

0.5

1.3

62/100

1.4/1.9

2.0/2.7

10.9/11.4

18.5/19.2
86%

79.1

9.0

15.1

0.5

1.3

62/100

1.4/1.9

2.1/2.8

10.9/11.4

19.4/20.2
86%

83.3

9.0

15.9

0.5

1.4

62/100

1.4/1.9

2.1/2.9

9.4/9.9

15.3/16.0
86%

76.3

7.5

12.0

0.5

1.3

62/100

1.4/1.9

2.0/2.7

9.4/9.9

15.8/16.5
86%

79.1

7.5

12.4

0.5

1.3

62/100

1.4/1.9

2.1/2.8

9.4/9.9

16.6/17.4
86%

83.3

7.5

13.1

0.5

1.4

62/100

1.4/1.9

2.1/2.9

ITEM

PRHG-8MYA PRHG-10MYA

Cooling Heating HeatingCooling

VOLT

TOTAL INPUT
TOTAL RUN CURRENT
POWER FACTOR
START CURRENT
COMPRESSOR INPUT
RUN CURRENT
O/D FAN INPUT
RUN CURRENT
I/D FAN External static pressure
INPUT
RUN CURRENT
TOTAL INPUT
TOTAL RUN CURRENT
POWER FACTOR
START CURRENT
COMPRESSOR INPUT
RUN CURRENT
O/D FAN INPUT
RUN CURRENT
I/D FAN External static pressure
INPUT
RUN CURRENT
TOTAL INPUT
TOTAL RUN CURRENT
POWER FACTOR
START CURRENT
COMPRESSOR INPUT
RUN CURRENT
O/D FAN INPUT
RUN CURRENT
I/D FAN External static pressure
INPUT
RUN CURRENT

415V

400V

380V

kW

A

%

A

kW

A

kW

A

Pa

kW

A

kW

A

%

A

kW

A

kW

A

Pa

kW

A

kW

A

%

A

kW

A

kW

A

Pa

kW

A

15.7/16.4

26.3/27.5
83%

104.5

13.2

20.9

1.0

2.8

100/200

1.5/2.2

2.6/3.8

15.7/16.4

27.3/28.5
83%

108.4

13.2

21.7

1.0

2.9

100/200

1.5/2.2

2.7/3.9

15.7/16.4

28.7/30.0
83%

114.2

13.2

22.7

1.0

3.1

100/200

1.5/2.2

2.9/4.2

14.0/14.7

23.5/24.7
83%

101.7

11.5

18.1

1.0

2.8

100/200

1.5/2.2

2.6/3.8

14.0/14.7

24.4/25.6
83%

105.5

11.5

18.8

1.0

2.9

100/200

1.5/2.2

2.7/3.9

14.0/14.7

25.7/27.0
83%

111.1

11.5

19.7

1.0

3.1

100/200

1.5/2.2

2.9/4.2

21.0/22.1

34.2/35.7
86%

110.6

17.5

28.2

1.0

2.6

100/200

2.5/3.6

3.4/4.9

21.0/22.1

35.4/37.0
86%

114.7

17.5

29.2

1.0

2.7

100/200

2.5/3.6

3.5/5.1

21.0/22.1

37.4/39.0
86%

120.7

17.5

30.8

1.0

2.8

100/200

2.5/3.6

3.8/5.4

18.2/19.3

29.7/31.2
86%

106.1

14.7

23.7

1.0

2.6

100/200

2.5/3.6

3.4/4.9

18.2/19.3

30.8/32.4
86%

110.1

14.7

24.6

1.0

2.7

100/200

2.5/3.6

3.5/5.1

18.2/19.3

32.5/34.1
86%

115.8

14.7

25.9

1.0

2.8

100/200

2.5/3.6

3.8/5.4

ITEM

PRHG-15MYA PRHG-20MYA

Cooling Heating HeatingCooling

-6-

1. Model Selection (With actual examples)

First step, to select the approximate model:

Based on the cooling load and the cooling capacity listed in the capacity table, select the applicable model.

Notes:

*1. The correct WB is required since it has a serious effect on the capacity.
*2. The cooling capacity decreases as the outdoor temperature increases. Therefore, the estimated highest

temperature during an air conditioning time frame is the “designed outdoor temperature”. However, it is
recommended that the abnormal outdoor temperature which may occur once or twice a year be excluded from
the calculation to avoid selection of an excessively large capacity model.

*3. The wind pressure loss of an air duct should be calculated correctly. If a value having an excessive allowance is

used, an excessively large model will be selected. Moreover, an excessively high air flow will be induced during
actual operation causing the generation of high operating sounds and carry-over of condensed water.

(Step-1) Confirmation of operation range

Confirm that the conditions given above for the model to be selected are within the operation
range listed on Page 18.

(Step-2) Calculation of actual air flow, external static pressure, and fan motor input

Based on the designed air flow and external static pressure, obtain the actual air flow and fan motor
power from the fan performance table for the model input selected. For an explanation of how to
use the fan performance table, see the following examples.

Example: PRHG-10, 50Hz

Example 1. (To operate with values near to the designed air flow and external static pressure.)

Condition : Designed air flow 100CMM

Designed external static pressure 60Pa

Calculation : The designed point is A. Therefore, duct

resistance line passing A is dotted line.
Therefore, actual point is B for
fan speed 1088rpm.
(Select a pulley near A point to fan speed.)

Actual air flow = 110CMM

Second step, to select the model:

To select the model, the following conditions must be known:
(1) Total cooling load or sensible cooling load
(2) Indoor conditioned temperature (WB*1, DB)
(3) Designed outdoor temperature (DB)*2
(4) Designed air flow
(5) Designed external static pressure (= Wind pressure loss of air duct)*3

internal static pressure

Air flow

1500

90 95 100 105

1670

(CMM)
(L/S)

1.5kw

2.2kw

900

1000

1100

1200

1300

1400

100

200

300

400

500

Total static pressure (Pa)

Fan speed
<rpm>

1500

110 115

1830

120

2000

600

700

800

1600

1700

SELECTION PROCEDURE

A

B

60Pa

-7-

At 26˚CDB, 19˚CWB of Indoor,
Q = 28.3, SHC = 22.6, W = 9.6

Therefore, when Air flow is 110 (CMM)
Q = 28.3 ✕ 1.012 28.6 (kW)

SHC = 22.6
W = 9.6 Note * : crrection factors of air flow

(Step-3) Calculation of net capacity

Example: PRHG-10, 50Hz cooling

Condition:
Indoor conditioned temp. : 26˚CDB, 19˚CWB
Designed outdoor temp. : 40˚CDB
Actual air flow : 110CMM
Indoor fan motor input : 1.9kW (See P.6, 17)
Outdoor fan motor input : 0.5kW (See P.6)
Calculation :
The sections of the gross capacity table applicable
for the above conditions are shown right.

Therfore, the net capacity is,
Net total cooling capacity = 28.6 (kw) - 1.9 (kW)

= 26.7 (kW)

Net sensible cooling capacity = 22.9 (kW) - 1.9 (kW)

= 21.0 (kW)

• Refrigerant cycle energy efficienty

(1) COP =

(2) EER =

• System energy efficienty

(1) COP =

(2) EER =

Notes:

1. COP : Coefficient of performance

2. EER : Energy efficiency ratio

3. Temperature condition of COP, EER (ARI Standard Ratings)
Indoor entering air temp. : 80˚FDB (=27˚CDB), 66˚FWB(=19˚CWB)
Outdoor entering air temp. : 95˚FDB (=35˚CDB)

4. Total input = Compressor input + Indoor fan motor input (page 17) + Outdoor fan motor input (page 6).

Gross total cooling capacity (kW)

Compressor input (kW)

Gross total cooling capacity (kW)

Total input (kW)

Net cooling capacity (kW)

Compressor input (kW)

Net cooling capacity (kW)

Total input (kW)

1kW = 3412Btu/h

2. Efficiency Calculation

Based on the indoor conditioned temperature (WB,DB), designed outdoor temperature (DB), and the
actual air flow obtained in Step-2, obtain the gross capacity from the gross capacity tables (pages
9~16). Then, calculate the net capacity from the formula below by using the fan motor input obtained
in Step-2.
Net capacity (kW) = Gross capacity (kW) - Fan motor input (kW)

✕ 1.012 22.9 (kW)

✕ 1.003 9.63 (kW)

28.3 22.6 0.77 9.6

OUTDOOR DB˚C

INDOOR INDOOR

40.0

Q kW

SHC kW

SHF W kW

DB˚CWB˚C

26 19.0

29.2 20.4 9.8

20.0

Factor for Various Air Flow

Air Volume

CMM

l/s
Cooling capacity
Compressor input

90

1500

0.987

0.996

100

1670

1.000

1.000

110

1830

1.012

1.003

120

2000

1.022

1.007

-8-

Outdoor DB°C

CAPACITY TABLES

Factor for Various Air Flow

Cooling Capacity (Standard Air Flow)

PRHG-8MYA

20.0

Indoor

WB°C

15161715161718191617181920211819202122231920212223242021222324

Q

kW

22.8

23.5

24.2

22.8

23.5

24.2

25.0

25.7

23.5

24.2

25.0

25.7

26.5

27.3

25.0

25.7

26.5

27.3

28.1

29.0

25.7

26.5

27.3

28.1

29.0

30.0

26.5

27.3

28.1

29.0

30.0

SHC

kW

16.2

14.8

13.3

19.2

17.6

16.2

14.8

13.4

20.4

18.9

17.5

15.9

14.6

13.1

20.5

18.8

17.2

15.8

14.3

13.1

21.6

20.1

18.6

17.1

15.7

14.4

22.8

21.6

20.0

18.6

17.1

SHF

0.71

0.63

0.55

0.84

0.75

0.67

0.59

0.52

0.87

0.78

0.70

0.62

0.55

0.48

0.82

0.73

0.65

0.58

0.51

0.45

0.84

0.76

0.68

0.61

0.54

0.48

0.86

0.79

0.71

0.64

0.57

W

kW

5.2

5.2

5.3

5.2

5.2

5.3

5.3

5.4

5.2

5.3

5.3

5.4

5.5

5.6

5.3

5.4

5.5

5.6

5.7

5.8

5.4

5.5

5.6

5.7

5.8

5.9

5.5

5.6

5.7

5.8

5.9

25.0

Q

kW

22.3

22.9

23.6

22.3

22.9

23.6

24.4

25.2

22.9

23.6

24.4

25.2

25.9

26.7

24.4

25.2

25.9

26.7

27.5

28.4

25.2

25.9

26.7

27.5

28.4

29.3

25.9

26.7

27.5

28.4

29.3

SHC

kW

15.8

14.4

13.0

19.0

17.4

15.8

14.4

13.1

20.2

18.6

17.3

15.6

14.2

12.8

20.3

18.6

17.1

15.8

14.3

12.8

21.4

19.9

18.4

16.8

15.3

14.1

22.5

21.4

19.8

18.2

16.7

SHF

0.71

0.63

0.55

0.85

0.76

0.67

0.59

0.52

0.88

0.79

0.71

0.62

0.55

0.48

0.83

0.74

0.66

0.59

0.52

0.45

0.85

0.77

0.69

0.61

0.54

0.48

0.87

0.80

0.72

0.64

0.57

W

kW

5.5

5.5

5.6

5.5

5.5

5.6

5.7

5.8

5.5

5.6

5.7

5.8

5.9

6.0

5.7

5.8

5.9

6.0

6.1

6.2

5.8

5.9

6.0

6.1

6.2

6.4

5.9

6.0

6.1

6.2

6.4

30.0

Q

kW

21.7

22.3

23.0

21.7

22.3

23.0

23.7

24.5

22.3

23.0

23.7

24.5

25.2

25.9

23.7

24.5

25.2

25.9

26.7

27.6

24.5

25.2

25.9

26.7

27.6

28.5

25.2

25.9

26.7

27.6

28.5

SHC

kW

15.6

14.3

12.7

18.7

17.2

15.6

14.2

13.0

19.8

18.6

17.1

15.4

14.1

12.7

19.9

18.4

16.9

15.5

14.2

12.7

21.1

19.7

18.1

16.6

15.2

14.0

22.2

21.0

19.5

17.9

16.5

SHF

0.72

0.64

0.55

0.86

0.77

0.68

0.60

0.53

0.89

0.81

0.72

0.63

0.56

0.49

0.84

0.75

0.67

0.60

0.53

0.46

0.86

0.78

0.70

0.62

0.55

0.49

0.88

0.81

0.73

0.65

0.58

W

kW

5.8

5.9

6.0

5.8

5.9

6.0

6.1

6.2

5.9

6.0

6.1

6.2

6.3

6.4

6.1

6.2

6.3

6.4

6.6

6.7

6.2

6.3

6.4

6.6

6.7

6.8

6.3

6.4

6.6

6.7

6.8

35.0

Q

kW

21.0

21.6

22.3

21.0

21.6

22.3

23.0

23.8

21.6

22.3

23.0

23.8

24.5

25.2

23.0

23.8

24.5

25.2

26.0

26.8

23.8

24.5

25.2

26.0

26.8

27.7

24.5

25.2

26.0

26.8

27.7

SHC

kW

15.3

14.0

12.5

18.3

16.8

15.4

14.0

12.6

19.7

18.3

16.8

15.2

13.7

12.3

19.6

18.1

16.7

15.4

13.8

12.3

20.7

19.4

17.9

16.4

15.0

13.6

22.1

20.7

19.2

17.7

16.3

SHF

0.73

0.65

0.56

0.87

0.78

0.69

0.61

0.53

0.91

0.82

0.73

0.64

0.56

0.49

0.85

0.76

0.68

0.61

0.53

0.46

0.87

0.79

0.71

0.63

0.56

0.49

0.90

0.82

0.74

0.66

0.59

W

kW

6.1

6.2

6.4

6.1

6.2

6.4

6.5

6.6

6.2

6.4

6.5

6.6

6.7

6.9

6.5

6.6

6.7

6.9

7.0

7.1

6.6

6.7

6.9

7.0

7.1

7.3

6.7

6.9

7.0

7.1

7.3

40.0

Q

kW

20.3

20.9

21.6

20.3

20.9

21.6

22.3

23.0

20.9

21.6

22.3

23.0

23.7

24.4

22.3

23.0

23.7

24.4

25.2

26.0

23.0

23.7

24.4

25.2

26.0

26.8

23.7

24.4

25.2

26.0

26.8

SHC

kW

15.0

13.8

12.1

17.9

16.5

15.1

13.8

12.4

19.4

18.1

16.7

15.0

13.5

12.2

19.2

17.7

16.4

15.1

13.6

12.2

20.5

19.0

17.6

16.1

14.6

13.1

21.8

20.5

18.9

17.4

16.1

SHF

0.74

0.66

0.56

0.88

0.79

0.70

0.62

0.54

0.93

0.84

0.75

0.65

0.57

0.50

0.86

0.77

0.69

0.62

0.54

0.47

0.89

0.80

0.72

0.64

0.56

0.49

0.92

0.84

0.75

0.67

0.60

W

kW

6.5

6.6

6.8

6.5

6.6

6.8

6.9

7.0

6.6

6.8

6.9

7.0

7.2

7.3

6.9

7.0

7.2

7.3

7.5

7.6

7.0

7.2

7.3

7.5

7.6

7.8

7.2

7.3

7.5

7.6

7.8

46.0

Q

kW

19.4

20.1

20.7

19.4

20.1

20.7

21.3

22.0

20.1

20.7

21.3

22.0

22.7

23.4

21.3

22.0

22.7

23.4

24.1

24.9

22.0

22.7

23.4

24.1

24.9

25.6

22.7

23.4

24.1

24.9

25.6

SHC

kW

14.7

13.5

11.8

17.5

16.3

14.7

13.4

11.9

19.1

17.6

16.2

14.5

13.2

11.7

18.7

17.4

15.9

14.5

13.0

11.7

20.0

18.6

17.3

15.7

14.2

12.8

21.3

20.1

18.6

17.2

15.6

SHF

0.76

0.67

0.57

0.90

0.81

0.71

0.63

0.54

0.95

0.85

0.76

0.66

0.58

0.50

0.88

0.79

0.70

0.62

0.54

0.47

0.91

0.82

0.74

0.65

0.57

0.50

0.94

0.86

0.77

0.69

0.61

W

kW

7.0

7.1

7.3

7.0

7.1

7.3

7.4

7.5

7.1

7.3

7.4

7.5

7.7

7.9

7.4

7.5

7.7

7.9

8.0

8.2

7.5

7.7

7.9

8.0

8.2

8.3

7.7

7.9

8.0

8.2

8.3

Indoor

DB°C

20

22

24

26

28

30

Q; Cooling Capacity, SHC; Sensible Heat Capacity, W; Compressor Input

Total input = Compressor input + indoor fan motor input + outdoor fan motor input

Air Volume

CMM

l/s

Cooling capacity

Compressor input

80

1330

1.000

1.000

85

1420

1.006

1.001

90

1500

1.012

1.001

95

1580

1.017

1.003

-9-

Outdoor DB°C

Factor for Various Air Flow

Cooling Capacity (Standard Air Flow)

PRHG-8MYA (Use for Low ambient cooling parts)

Heating Capacity (Standard Air Flow)

PRHG-8MYA

–5.0

Indoor

WB°C

15161715161718191617181920211819202122231920212223242021222324

Q

kW

25.3

26.2

27.0

25.3

26.2

27.0

27.9

28.8

26.2

27.0

27.9

28.8

29.7

30.7

27.9

28.8

29.7

30.7

31.6

32.7

28.8

29.7

30.7

31.6

32.7

33.9

29.7

30.7

31.6

32.7

33.9

SHC

kW

17.7

16.2

14.6

20.5

19.1

17.5

16.2

14.7

22.2

20.8

19.3

17.5

16.0

14.4

22.3

20.4

19.0

17.5

15.8

14.4

23.3

21.7

20.2

18.7

17.3

15.9

24.7

23.3

21.8

20.3

18.6

SHF

0.70

0.62

0.54

0.81

0.73

0.65

0.58

0.51

0.85

0.77

0.69

0.61

0.54

0.47

0.80

0.71

0.64

0.57

0.50

0.44

0.81

0.73

0.66

0.59

0.53

0.47

0.83

0.76

0.69

0.62

0.55

W

kW

4.4

4.4

4.5

4.4

4.4

4.5

4.5

4.6

4.4

4.5

4.5

4.6

4.6

4.7

4.5

4.6

4.6

4.7

4.8

4.9

4.6

4.6

4.7

4.8

4.9

5.0

4.6

4.7

4.8

4.9

5.0

0.0

Q

kW

24.9

25.7

26.5

24.9

25.7

26.5

27.4

28.2

25.7

26.5

27.4

28.2

29.2

30.1

27.4

28.2

29.2

30.1

31.0

32.1

28.2

29.2

30.1

31.0

32.1

33.2

29.2

30.1

31.0

32.1

33.2

SHC

kW

17.4

15.9

14.3

20.4

19.0

17.5

15.9

14.4

22.1

20.4

18.9

17.2

15.8

14.1

21.9

20.1

18.7

17.2

15.5

14.1

22.9

21.3

19.9

18.3

17.0

15.6

24.2

22.9

21.4

19.9

18.3

SHF

0.70

0.62

0.54

0.82

0.74

0.66

0.58

0.51

0.86

0.77

0.69

0.61

0.54

0.47

0.80

0.71

0.64

0.57

0.50

0.44

0.81

0.73

0.66

0.59

0.53

0.47

0.83

0.76

0.69

0.62

0.55

W

kW

4.4

4.4

4.5

4.4

4.4

4.5

4.5

4.6

4.4

4.5

4.5

4.6

4.6

4.7

4.5

4.6

4.6

4.7

4.8

4.9

4.6

4.6

4.7

4.8

4.9

5.0

4.6

4.7

4.8

4.9

5.0

5.0

Q

kW

24.5

25.3

26.1

24.5

25.3

26.1

27.0

27.8

25.3

26.1

27.0

27.8

28.7

29.6

27.0

27.8

28.7

29.6

30.5

31.6

27.8

28.7

29.6

30.5

31.6

32.7

28.7

29.6

30.5

31.6

32.7

SHC

kW

17.2

15.7

14.1

20.1

18.7

17.2

15.7

14.2

21.8

20.1

18.6

17.0

15.5

13.9

21.9

20.0

18.4

16.9

15.3

13.9

22.8

21.3

19.9

18.0

16.7

15.4

24.1

22.8

21.4

19.9

18.1

SHF

0.70

0.62

0.54

0.82

0.74

0.66

0.58

0.51

0.86

0.77

0.69

0.61

0.54

0.47

0.81

0.72

0.64

0.57

0.50

0.44

0.82

0.74

0.67

0.59

0.53

0.47

0.84

0.77

0.70

0.63

0.55

W

kW

4.5

4.5

4.6

4.5

4.5

4.6

4.6

4.7

4.5

4.6

4.6

4.7

4.7

4.8

4.6

4.7

4.7

4.8

4.9

5.0

4.7

4.7

4.8

4.9

5.0

5.1

4.7

4.8

4.9

5.0

5.1

10.0

Q

kW

24.1

24.9

25.7

24.1

24.9

25.7

26.5

27.3

24.9

25.7

26.5

27.3

28.2

29.1

26.5

27.3

28.2

29.1

30.0

31.0

27.3

28.2

29.1

30.0

31.0

32.1

28.2

29.1

30.0

31.0

32.1

SHC

kW

17.1

15.7

14.1

20.0

18.7

17.2

15.7

13.9

21.7

20.0

18.6

16.9

15.2

13.7

21.5

19.7

18.3

16.9

15.3

13.6

22.4

20.9

19.5

18.0

16.4

15.1

23.7

22.4

21.0

19.5

18.0

SHF

0.71

0.63

0.55

0.83

0.75

0.67

0.59

0.51

0.87

0.78

0.70

0.62

0.54

0.47

0.81

0.72

0.65

0.58

0.51

0.44

0.82

0.74

0.67

0.60

0.53

0.47

0.84

0.77

0.70

0.63

0.56

W

kW

4.7

4.7

4.8

4.7

4.7

4.8

4.8

4.9

4.7

4.8

4.8

4.9

4.9

5.0

4.8

4.9

4.9

5.0

5.1

5.2

4.9

4.9

5.0

5.1

5.2

5.3

4.9

5.0

5.1

5.2

5.3

15.0

Q

kW

23.7

24.4

25.2

23.7

24.4

25.2

26.0

26.8

24.4

25.2

26.0

26.8

27.6

28.5

26.0

26.8

27.6

28.5

29.4

30.3

26.8

27.6

28.5

29.4

30.3

31.4

27.6

28.5

29.4

30.3

31.4

SHC

kW

16.8

15.4

13.8

19.9

18.3

16.9

15.4

13.9

21.2

19.6

18.2

16.6

15.2

13.7

21.3

19.5

18.0

16.5

15.0

13.7

22.2

20.7

19.4

17.6

16.4

15.1

23.5

22.2

20.8

19.4

17.6

SHF

0.71

0.63

0.55

0.84

0.75

0.67

0.59

0.52

0.87

0.78

0.70

0.62

0.55

0.48

0.82

0.73

0.65

0.58

0.51

0.45

0.83

0.75

0.68

0.60

0.54

0.48

0.85

0.78

0.71

0.64

0.56

W

kW

4.9

4.9

5.0

4.9

4.9

5.0

5.0

5.1

4.9

5.0

5.0

5.1

5.2

5.3

5.0

5.1

5.2

5.3

5.4

5.5

5.1

5.2

5.3

5.4

5.5

5.6

5.2

5.3

5.4

5.5

5.6

Indoor

DB°C

20

22

24

26

28

30

Q; Cooling Capacity, SHC; Sensible Heat Capacity, W; Compressor Input

Total input = Compressor input + indoor fan motor input + outdoor fan motor input

Air Volume

CMM

l/s

Cooling capacity

Compressor input

80

1330

1.000

1.000

85

1420

1.006

1.001

90

1500

1.012

1.001

95

1580

1.017

1.003

Factor for Various Air Flow

Air Volume

CMM

l/s

Heating capacity

Compressor input

80

1330

1.000

1.000

85

1420

1.004

0.996

90

1500

1.090

0.992

95

1580

1.015

0.987

Indoor

DB°C

15161718192021222324252627

Q

kW

15.4

15.3

15.2

15.1

15.1

15.0

14.9

14.8

14.7

14.7

14.6

14.5

14.5

W

kW

3.6

3.6

3.6

3.6

3.6

3.7

3.7

3.7

3.7

3.8

3.8

3.8

3.8

Q

kW

13.5

13.4

13.3

13.2

13.2

13.1

13.0

12.9

12.8

12.8

12.7

12.6

12.6

W

kW

3.4

3.4

3.4

3.4

3.4

3.5

3.5

3.5

3.5

3.6

3.6

3.6

3.6

–10–15

Q

kW

17.6

17.5

17.4

17.3

17.3

17.2

17.1

17.0

17.0

16.9

16.8

16.7

16.7

W

kW

3.9

3.9

3.9

3.9

4.0

4.0

4.0

4.1

4.1

4.1

4.2

4.2

4.2

–5

Q

kW

20.1

20.0

19.9

19.9

19.8

19.7

19.6

19.5

19.5

19.4

19.3

19.2

19.2

W

kW

4.4

4.4

4.4

4.5

4.5

4.6

4.6

4.6

4.7

4.7

4.8

4.8

4.8

0

Q

kW

22.9

22.8

22.7

22.6

22.6

22.5

22.4

22.3

22.2

22.2

22.1

22.0

22.0

W

kW

4.8

4.9

4.9

5.0

5.1

5.1

5.2

5.2

5.3

5.3

5.4

5.4

5.4

5

Q

kW

26.0

25.9

25.9

25.8

25.7

25.6

25.5

25.5

25.4

25.3

25.2

25.1

25.1

W

kW

5.4

5.5

5.5

5.6

5.7

5.8

5.8

5.9

5.9

6.0

6.1

6.2

6.2

10 15

Q

kW

29.5

29.5

29.4

29.3

29.2

29.1

29.1

29.0

28.9

28.8

28.7

28.6

28.6

W

kW

6.0

6.1

6.2

6.3

6.4

6.5

6.6

6.7

6.7

6.8

6.9

7.0

7.0

OD WB°C

Q; Heating Capacity, W; Compressor Input

-10-

Outdoor DB°C

Factor for Various Air Flow

Cooling Capacity (Standard Air Flow)

PRHG-10MYA

20.0

Indoor

WB°C

15161715161718191617181920211819202122231920212223242021222324

Q

kW

29.4

30.4

31.4

29.4

30.4

31.4

32.4

33.5

30.4

31.4

32.4

33.5

34.6

35.7

32.4

33.5

34.6

35.7

36.8

38.0

33.5

34.6

35.7

36.8

38.0

39.2

34.6

35.7

36.8

38.0

39.2

SHC

kW

21.2

19.5

17.6

24.7

23.1

21.4

19.4

17.4

26.8

25.1

23.3

21.1

19.0

17.1

26.9

24.8

22.8

20.7

18.8

17.1

28.1

26.3

24.6

22.4

20.5

18.8

30.1

28.2

26.1

24.3

22.3

SHF

0.72

0.64

0.56

0.84

0.76

0.68

0.60

0.52

0.88

0.80

0.72

0.63

0.55

0.48

0.83

0.74

0.66

0.58

0.51

0.45

0.84

0.76

0.69

0.61

0.54

0.48

0.87

0.79

0.71

0.64

0.57

W

kW

7.1

7.2

7.3

7.1

7.2

7.3

7.4

7.5

7.2

7.3

7.4

7.5

7.6

7.7

7.4

7.5

7.6

7.7

7.9

8.0

7.5

7.6

7.7

7.9

8.0

8.2

7.6

7.7

7.9

8.0

8.2

25.0

Q

kW

28.4

29.4

30.3

28.4

29.4

30.3

31.3

32.3

29.4

30.3

31.3

32.3

33.4

34.4

31.3

32.3

33.4

34.4

35.4

36.6

32.3

33.4

34.4

35.4

36.6

37.7

33.4

34.4

35.4

36.6

37.7

SHC

kW

20.7

18.8

17.0

24.1

22.6

20.6

18.8

16.8

26.5

24.5

22.8

20.7

18.4

16.5

26.3

24.2

22.4

20.0

18.1

16.5

27.5

25.7

24.1

21.9

20.1

18.1

29.7

27.9

25.5

23.8

21.9

SHF

0.73

0.64

0.56

0.85

0.77

0.68

0.60

0.52

0.90

0.81

0.73

0.64

0.55

0.48

0.84

0.75

0.67

0.58

0.51

0.45

0.85

0.77

0.70

0.62

0.55

0.48

0.89

0.81

0.72

0.65

0.58

W

kW

7.4

7.5

7.7

7.4

7.5

7.7

7.8

7.9

7.5

7.7

7.8

7.9

8.1

8.2

7.8

7.9

8.1

8.2

8.4

8.6

7.9

8.1

8.2

8.4

8.6

8.8

8.1

8.2

8.4

8.6

8.8

30.0

Q

kW

27.3

28.2

29.1

27.3

28.2

29.1

30.0

31.0

28.2

29.1

30.0

31.0

32.1

33.0

30.0

31.0

32.1

33.0

34.0

35.1

31.0

32.1

33.0

34.0

35.1

36.1

32.1

33.0

34.0

35.1

36.1

SHC

kW

20.2

18.3

16.6

23.8

22.0

20.1

18.3

16.4

25.9

23.9

22.2

20.2

18.0

16.2

25.8

23.6

21.8

19.5

17.7

16.1

27.0

25.4

23.4

21.4

19.7

17.7

29.2

27.4

25.2

23.5

21.3

SHF

0.74

0.65

0.57

0.87

0.78

0.69

0.61

0.53

0.92

0.82

0.74

0.65

0.56

0.49

0.86

0.76

0.68

0.59

0.52

0.46

0.87

0.79

0.71

0.63

0.56

0.49

0.91

0.83

0.74

0.67

0.59

W

kW

7.8

8.0

8.1

7.8

8.0

8.1

8.3

8.5

8.0

8.1

8.3

8.5

8.6

8.8

8.3

8.5

8.6

8.8

9.0

9.2

8.5

8.6

8.8

9.0

9.2

9.4

8.6

8.8

9.0

9.2

9.4

35.0

Q

kW

26.1

27.0

27.9

26.1

27.0

27.9

28.7

29.7

27.0

27.9

28.7

29.7

30.6

31.6

28.7

29.7

30.6

31.6

32.5

33.5

29.7

30.6

31.6

32.5

33.5

34.5

30.6

31.6

32.5

33.5

34.5

SHC

kW

19.6

17.8

15.9

23.2

21.6

19.5

17.8

16.0

25.4

23.2

21.5

19.6

17.4

15.8

25.3

23.2

21.1

19.0

17.2

15.4

26.4

24.8

23.1

21.1

19.1

17.3

28.5

26.9

24.7

22.8

20.7

SHF

0.75

0.66

0.57

0.89

0.80

0.70

0.62

0.54

0.94

0.83

0.75

0.66

0.57

0.50

0.88

0.78

0.69

0.60

0.53

0.46

0.89

0.81

0.73

0.65

0.57

0.50

0.93

0.85

0.76

0.68

0.60

W

kW

8.3

8.4

8.6

8.3

8.4

8.6

8.8

9.0

8.4

8.6

8.8

9.0

9.2

9.4

8.8

9.0

9.2

9.4

9.6

9.8

9.0

9.2

9.4

9.6

9.8

10.0

9.2

9.4

9.6

9.8

10.0

40.0

Q

kW

24.4

25.7

26.6

24.4

25.7

26.6

27.4

28.3

25.7

26.6

27.4

28.3

29.2

30.1

27.4

28.3

29.2

30.1

31.0

31.9

28.3

29.2

30.1

31.0

31.9

32.9

29.2

30.1

31.0

31.9

32.9

SHC

kW

18.5

17.2

15.4

22.2

21.1

18.9

17.3

15.6

24.7

22.6

21.1

19.0

16.9

15.4

24.7

22.6

20.4

18.4

16.7

15.0

25.8

24.2

22.6

20.5

18.5

16.8

28.0

26.2

24.2

22.3

20.1

SHF

0.76

0.67

0.58

0.91

0.82

0.71

0.63

0.55

0.96

0.85

0.77

0.67

0.58

0.51

0.90

0.80

0.70

0.61

0.54

0.47

0.91

0.83

0.75

0.66

0.58

0.51

0.96

0.87

0.78

0.70

0.61

W

kW

8.8

9.0

9.2

8.8

9.0

9.2

9.4

9.6

9.0

9.2

9.4

9.6

9.8

10.0

9.4

9.6

9.8

10.0

10.2

10.4

9.6

9.8

10.0

10.2

10.4

10.7

9.8

10.0

10.2

10.4

10.7

46.0

Q

kW

23.3

24.1

24.9

23.3

24.1

24.9

25.7

26.6

24.1

24.9

25.7

26.6

27.4

28.3

25.7

26.6

27.4

28.3

29.1

30.0

26.6

27.4

28.3

29.1

30.0

30.8

27.4

28.3

29.1

30.0

30.8

SHC

kW

18.4

16.6

14.7

22.1

20.5

18.4

16.7

14.9

24.1

22.2

20.3

18.4

16.4

14.7

23.9

21.8

20.0

18.1

16.3

14.4

25.3

23.6

21.8

19.8

18.0

16.0

27.1

25.8

23.3

21.6

19.7

SHF

0.79

0.69

0.59

0.95

0.85

0.74

0.65

0.56

1.00

0.89

0.79

0.69

0.60

0.52

0.93

0.82

0.73

0.64

0.56

0.48

0.95

0.86

0.77

0.68

0.60

0.52

0.99

0.91

0.80

0.72

0.64

W

kW

9.5

9.7

9.9

9.5

9.7

9.9

10.1

10.3

9.7

9.9

10.1

10.3

10.5

10.7

10.1

10.3

10.5

10.7

10.9

11.1

10.3

10.5

10.7

10.9

11.1

11.4

10.5

10.7

10.9

11.1

11.4

Indoor

DB°C

20

22

24

26

28

30

Q; Cooling Capacity, SHC; Sensible Heat Capacity, W; Compressor Input

Total input = Compressor input + indoor fan motor input + outdoor fan motor input

Air Volume

CMM

l/s

Cooling capacity

Compressor input

90

1500

0.987

0.996

100

1670

1.000

1.000

110

1830

1.012

1.003

120

2000

1.022

1.007

-11-

Outdoor DB°C

Factor for Various Air Flow

Cooling Capacity (Standard Air Flow)

PRHG-10MYA (Use for Low ambient cooling parts)

Heating Capacity (Standard Air Flow)

PRHG-10MYA

–5.0

Indoor

WB°C

15161715161718191617181920211819202122231920212223242021222324

Q

kW

32.7

33.8

35.0

32.7

33.8

35.0

36.2

37.5

33.8

35.0

36.2

37.5

38.8

40.1

36.2

37.5

38.8

40.1

41.4

42.8

37.5

38.8

40.1

41.4

42.8

44.3

38.8

40.1

41.4

42.8

44.3

SHC

kW

22.5

21.0

18.9

26.5

24.7

22.8

21.0

19.1

28.8

26.6

25.0

22.9

20.9

18.8

28.6

26.6

24.4

22.5

20.7

18.8

30.4

28.3

26.5

24.4

22.3

20.4

31.8

30.1

28.2

26.1

24.3

SHF

0.69

0.62

0.54

0.81

0.73

0.65

0.58

0.51

0.85

0.76

0.69

0.61

0.54

0.47

0.79

0.71

0.63

0.56

0.50

0.44

0.81

0.73

0.66

0.59

0.52

0.46

0.82

0.75

0.68

0.61

0.55

W

kW

6.3

6.3

6.4

6.3

6.3

6.4

6.5

6.6

6.3

6.4

6.5

6.6

6.7

6.8

6.5

6.6

6.7

6.8

6.9

7.0

6.6

6.7

6.8

6.9

7.0

7.0

6.7

6.8

6.9

7.0

7.0

0.0

Q

kW

32.1

33.3

34.4

32.1

33.3

34.4

35.6

36.8

33.3

34.4

35.6

36.8

38.1

39.4

35.6

36.8

38.1

39.4

40.6

42.0

36.8

38.1

39.4

40.6

42.0

43.4

38.1

39.4

40.6

42.0

43.4

SHC

kW

22.2

20.6

18.6

26.3

24.6

22.7

20.6

18.8

28.6

26.1

24.5

22.5

20.6

18.5

28.1

26.1

24.4

22.4

20.3

18.5

29.8

27.8

26.0

24.0

21.9

20.0

31.6

29.5

27.6

25.6

23.9

SHF

0.69

0.62

0.54

0.82

0.74

0.66

0.58

0.51

0.86

0.76

0.69

0.61

0.54

0.47

0.79

0.71

0.64

0.57

0.50

0.44

0.81

0.73

0.66

0.59

0.52

0.46

0.83

0.75

0.68

0.61

0.55

W

kW

6.3

6.3

6.4

6.3

6.3

6.4

6.5

6.6

6.3

6.4

6.5

6.6

6.7

6.8

6.5

6.6

6.7

6.8

6.9

7.0

6.6

6.7

6.8

6.9

7.0

7.0

6.7

6.8

6.9

7.0

7.0

5.0

Q

kW

31.6

32.8

33.9

31.6

32.8

33.9

35.0

36.3

32.8

33.9

35.0

36.3

37.5

38.7

35.0

36.3

37.5

38.7

40.0

41.4

36.3

37.5

38.7

40.0

41.4

42.7

37.5

38.7

40.0

41.4

42.7

SHC

kW

22.1

20.3

18.3

25.9

24.2

22.4

20.3

18.5

28.2

26.1

24.5

22.5

20.2

18.2

28.0

26.1

24.0

22.1

20.0

18.2

29.7

27.7

26.0

24.0

21.9

20.1

31.5

29.4

27.6

25.6

23.9

SHF

0.70

0.62

0.54

0.82

0.74

0.66

0.58

0.51

0.86

0.77

0.70

0.62

0.54

0.47

0.80

0.72

0.64

0.57

0.50

0.44

0.82

0.74

0.67

0.60

0.53

0.47

0.84

0.76

0.69

0.62

0.56

W

kW

6.4

6.4

6.5

6.4

6.4

6.5

6.6

6.7

6.4

6.5

6.6

6.7

6.8

6.9

6.6

6.7

6.8

6.9

7.0

7.1

6.7

6.8

6.9

7.0

7.1

7.2

6.8

6.9

7.0

7.1

7.2

10.0

Q

kW

31.1

32.2

33.3

31.1

32.2

33.3

34.4

35.6

32.2

33.3

34.4

35.6

36.8

38.0

34.4

35.6

36.8

38.0

39.3

40.6

35.6

36.8

38.0

39.3

40.6

41.9

36.8

38.0

39.3

40.6

41.9

SHC

kW

22.1

20.3

18.3

25.8

24.1

22.3

20.3

18.2

28.0

26.0

24.1

22.1

19.9

17.9

27.5

25.6

23.9

22.1

20.0

17.9

29.2

27.2

25.5

23.6

21.5

19.7

31.3

29.3

27.1

25.2

23.5

SHF

0.71

0.63

0.55

0.83

0.75

0.67

0.59

0.51

0.87

0.78

0.70

0.62

0.54

0.47

0.80

0.72

0.65

0.58

0.51

0.44

0.82

0.74

0.67

0.60

0.53

0.47

0.85

0.77

0.69

0.62

0.56

W

kW

6.6

6.6

6.7

6.6

6.6

6.7

6.8

6.9

6.6

6.7

6.8

6.9

7.0

7.0

6.8

6.9

7.0

7.0

7.2

7.3

6.9

7.0

7.0

7.2

7.3

7.4

7.0

7.0

7.2

7.3

7.4

15.0

Q

kW

30.5

31.6

32.7

30.5

31.6

32.7

33.7

34.9

31.6

32.7

33.7

34.9

36.1

37.3

33.7

34.9

36.1

37.3

38.5

39.7

34.9

36.1

37.3

38.5

39.7

41.0

36.1

37.3

38.5

39.7

41.0

SHC

kW

22.0

19.9

18.0

25.3

23.7

21.9

19.9

18.2

27.8

25.8

23.9

22.0

19.8

17.9

27.3

25.5

23.5

21.6

19.6

17.9

29.0

27.1

25.3

23.5

21.5

19.3

31.0

29.1

26.9

25.0

23.4

SHF

0.72

0.63

0.55

0.83

0.75

0.67

0.59

0.52

0.88

0.79

0.71

0.63

0.55

0.48

0.81

0.73

0.65

0.58

0.51

0.45

0.83

0.75

0.68

0.61

0.54

0.47

0.86

0.78

0.70

0.63

0.57

W

kW

6.8

6.9

7.0

6.8

6.9

7.0

7.0

7.1

6.9

7.0

7.0

7.1

7.2

7.3

7.0

7.1

7.2

7.3

7.5

7.6

7.1

7.2

7.3

7.5

7.6

7.8

7.2

7.3

7.5

7.6

7.8

Indoor

DB°C

20

22

24

26

28

30

Q; Cooling Capacity, SHC; Sensible Heat Capacity, W; Compressor Input

Total input = Compressor input + indoor fan motor input + outdoor fan motor input

Air Volume

CMM

l/s

Cooling capacity

Compressor input

90

1500

0.987

0.996

100

1670

1.000

1.000

110

1830

1.012

1.003

120

2000

1.022

1.007

Factor for Various Air Flow

Air Volume

CMM

l/s

Heating capacity

Compressor input

90

1500

0.991

1.013

100

1670

1.000

1.000

110

1830

1.009

0.987

120

2000

1.017

0.974

Indoor

DB°C

15161718192021222324252627

Q

kW

21.5

21.4

21.3

21.2

21.1

21.0

20.9

20.8

20.7

20.6

20.5

20.5

20.4

W

kW

5.5

5.5

5.5

5.6

5.6

5.6

5.7

5.7

5.7

5.8

5.8

5.8

5.8

Q

kW

18.7

18.6

18.5

18.4

18.3

18.2

18.1

18.0

17.9

17.8

17.8

17.8

17.7

W

kW

5.3

5.3

5.3

5.4

5.4

5.4

5.5

5.5

5.5

5.6

5.6

5.6

5.6

–10–15

Q

kW

24.6

24.5

24.4

24.3

24.2

24.1

24.0

23.9

23.8

23.7

23.5

23.5

23.4

W

kW

5.8

5.8

5.9

5.9

6.0

6.0

6.1

6.1

6.2

6.2

6.3

6.3

6.3

–5

Q

kW

28.0

27.9

27.8

27.7

27.6

27.5

27.4

27.3

27.2

27.1

26.9

26.9

26.8

W

kW

6.3

6.4

6.4

6.5

6.6

6.6

6.7

6.8

6.8

6.9

6.9

7.0

7.0

0

Q

kW

31.9

31.8

31.7

31.6

31.4

31.3

31.2

31.1

30.9

30.8

30.7

30.6

30.5

W

kW

6.9

7.0

7.1

7.1

7.2

7.3

7.4

7.4

7.5

7.6

7.7

7.7

7.8

5

Q

kW

36.5

36.4

36.2

36.1

35.9

35.8

35.7

35.5

35.3

35.2

35.1

35.0

34.8

W

kW

7.7

7.8

7.9

7.9

8.0

8.1

8.2

8.3

8.4

8.5

8.6

8.6

8.7

10 15

Q

kW

41.1

40.9

40.7

40.6

40.4

40.2

40.1

39.9

39.7

39.6

39.4

39.3

39.1

W

kW

8.4

8.5

8.6

8.7

8.8

8.9

9.0

9.1

9.2

9.3

9.4

9.5

9.6

OD WB°C

Q; Heating Capacity, W; Compressor Input

-12-

Outdoor DB°C

Factor for Various Air Flow

Cooling Capacity (Standard Air Flow)

PRHG-15MYA

20.0

Indoor

WB°C

15161715161718191617181920211819202122231920212223242021222324

Q

kW

44.5

45.7

47.2

44.5

45.7

47.2

48.9

50.5

45.7

47.2

48.9

50.5

52.1

53.9

48.9

50.5

52.1

53.9

55.7

57.3

50.5

52.1

53.9

55.7

57.3

59.0

52.1

53.9

55.7

57.3

59.0

SHC

kW

32.0

29.2

26.0

37.8

34.7

31.6

28.9

26.3

40.2

37.3

34.7

31.8

28.7

26.4

40.6

37.4

34.4

31.8

29.0

25.8

43.4

40.1

37.2

34.5

31.5

28.3

45.8

43.1

40.7

37.2

33.6

SHF

0.72

0.64

0.55

0.85

0.76

0.67

0.59

0.52

0.88

0.79

0.71

0.63

0.55

0.49

0.83

0.74

0.66

0.59

0.52

0.45

0.86

0.77

0.69

0.62

0.55

0.48

0.88

0.80

0.73

0.65

0.57

W

kW

10.3

10.4

10.5

10.3

10.4

10.5

10.7

10.9

10.4

10.5

10.7

10.9

11.0

11.2

10.7

10.9

11.0

11.2

11.4

11.5

10.9

11.0

11.2

11.4

11.5

11.7

11.0

11.2

11.4

11.5

11.7

25.0

Q

kW

43.3

44.5

46.0

43.3

44.5

46.0

47.6

49.2

44.5

46.0

47.6

49.2

50.7

52.3

47.6

49.2

50.7

52.3

54.0

55.7

49.2

50.7

52.3

54.0

55.7

57.4

50.7

52.3

54.0

55.7

57.4

SHC

kW

31.2

28.5

25.3

37.2

34.3

31.3

28.1

25.6

39.6

36.8

34.3

31.0

27.9

25.6

40.0

36.9

33.5

30.9

28.1

25.1

42.8

39.5

36.6

34.0

31.2

28.1

45.1

42.4

39.4

36.2

32.7

SHF

0.72

0.64

0.55

0.86

0.77

0.68

0.59

0.52

0.89

0.80

0.72

0.63

0.55

0.49

0.84

0.75

0.66

0.59

0.52

0.45

0.87

0.78

0.70

0.63

0.56

0.49

0.89

0.81

0.73

0.65

0.57

W

kW

10.9

11.1

11.3

10.9

11.1

11.3

11.4

11.6

11.1

11.3

11.4

11.6

11.8

12.0

11.4

11.6

11.8

12.0

12.2

12.4

11.6

11.8

12.0

12.2

12.4

12.6

11.8

12.0

12.2

12.4

12.6

30.0

Q

kW

42.0

43.2

44.7

42.0

43.2

44.7

46.2

47.8

43.2

44.7

46.2

47.8

49.3

50.8

46.2

47.8

49.3

50.8

52.4

54.0

47.8

49.3

50.8

52.4

54.0

55.6

49.3

50.8

52.4

54.0

55.6

SHC

kW

30.7

28.1

25.0

36.5

33.7

30.8

27.7

25.3

39.3

36.2

33.7

30.6

27.6

25.4

39.7

36.3

33.0

30.5

27.8

24.3

42.1

38.9

36.1

33.5

30.2

27.2

44.4

41.7

38.8

35.6

32.2

SHF

0.73

0.65

0.56

0.87

0.78

0.69

0.60

0.53

0.91

0.81

0.73

0.64

0.56

0.50

0.86

0.76

0.67

0.60

0.53

0.45

0.88

0.79

0.71

0.64

0.56

0.49

0.90

0.82

0.74

0.66

0.58

W

kW

11.6

11.8

12.0

11.6

11.8

12.0

12.2

12.4

11.8

12.0

12.2

12.4

12.6

12.8

12.2

12.4

12.6

12.8

13.0

13.2

12.4

12.6

12.8

13.0

13.2

13.5

12.6

12.8

13.0

13.2

13.5

35.0

Q

kW

40.8

42.0

43.3

40.8

42.0

43.3

44.8

46.3

42.0

43.3

44.8

46.3

47.7

49.2

44.8

46.3

47.7

49.2

50.7

52.3

46.3

47.7

49.2

50.7

52.3

53.9

47.7

49.2

50.7

52.3

53.9

SHC

kW

30.2

27.7

24.7

35.9

33.2

30.3

27.3

24.5

39.1

35.9

33.2

30.1

27.2

24.6

39.0

35.7

32.4

30.0

26.9

24.1

41.2

38.2

35.4

32.4

29.8

27.0

43.9

41.3

38.0

35.0

31.8

SHF

0.74

0.66

0.57

0.88

0.79

0.70

0.61

0.53

0.93

0.83

0.74

0.65

0.57

0.50

0.87

0.77

0.68

0.61

0.53

0.46

0.89

0.80

0.72

0.64

0.57

0.50

0.92

0.84

0.75

0.67

0.59

W

kW

12.3

12.5

12.7

12.3

12.5

12.7

13.0

13.2

12.5

12.7

13.0

13.2

13.4

13.6

13.0

13.2

13.4

13.6

13.9

14.1

13.2

13.4

13.6

13.9

14.1

14.4

13.4

13.6

13.9

14.1

14.4

40.0

Q

kW

39.5

40.7

41.9

39.5

40.7

41.9

43.2

44.7

40.7

41.9

43.2

44.7

46.1

47.6

43.2

44.7

46.1

47.6

49.0

50.5

44.7

46.1

47.6

49.0

50.5

52.0

46.1

47.6

49.0

50.5

52.0

SHC

kW

29.6

27.3

23.9

35.2

32.6

29.7

26.8

24.1

38.7

35.6

32.4

29.5

26.7

24.3

38.4

34.9

31.8

29.5

26.5

23.2

40.7

37.3

34.7

31.9

28.8

26.0

43.3

40.9

37.2

34.3

31.2

SHF

0.75

0.67

0.57

0.89

0.80

0.71

0.62

0.54

0.95

0.85

0.75

0.66

0.58

0.51

0.89

0.78

0.69

0.62

0.54

0.46

0.91

0.81

0.73

0.65

0.57

0.50

0.94

0.86

0.76

0.68

0.60

W

kW

13.0

13.3

13.5

13.0

13.3

13.5

13.8

14.1

13.3

13.5

13.8

14.1

14.3

14.6

13.8

14.1

14.3

14.6

14.8

15.0

14.1

14.3

14.6

14.8

15.0

15.3

14.3

14.6

14.8

15.0

15.3

46.0

Q

kW

37.8

39.0

40.1

37.8

39.0

40.1

41.2

42.6

39.0

40.1

41.2

42.6

44.1

45.5

41.2

42.6

44.1

45.5

47.0

48.4

42.6

44.1

45.5

47.0

48.4

49.8

44.1

45.5

47.0

48.4

49.8

SHC

kW

29.1

26.5

23.3

34.4

32.0

28.9

26.0

23.4

37.8

34.9

31.7

28.5

26.0

23.2

37.1

34.1

31.3

28.7

25.9

22.7

39.6

36.6

34.1

31.0

28.1

25.4

41.9

40.0

36.7

33.9

30.9

SHF

0.77

0.68

0.58

0.91

0.82

0.72

0.63

0.55

0.97

0.87

0.77

0.67

0.59

0.51

0.90

0.80

0.71

0.63

0.55

0.47

0.93

0.83

0.75

0.66

0.58

0.51

0.95

0.88

0.78

0.70

0.62

W

kW

13.9

14.2

14.5

13.9

14.2

14.5

14.8

15.1

14.2

14.5

14.8

15.1

15.4

15.7

14.8

15.1

15.4

15.7

16.0

16.2

15.1

15.4

15.7

16.0

16.2

16.4

15.4

15.7

16.0

16.2

16.4

Indoor

DB°C

20

22

24

26

28

30

Q; Cooling Capacity, SHC; Sensible Heat Capacity, W; Compressor Input

Total input = Compressor input + indoor fan motor input + outdoor fan motor input

Air Volume

CMM

l/s

Cooling capacity

Compressor input

120

2000

0.962

0.984

140

2330

0.982

0.991

160

2670

1.000

1.000

180

3000

1.018

1.009

-13-

Outdoor DB°C

Factor for Various Air Flow

Cooling Capacity (Standard Air Flow)

PRHG-15MYA (Use for Low ambient cooling parts)

Heating Capacity (Standard Air Flow)

PRHG-15MYA

–5.0

Indoor

WB°C

15161715161718191617181920211819202122231920212223242021222324

Q

kW

49.4

50.9

52.6

49.4

50.9

52.6

54.6

56.5

50.9

52.6

54.6

56.5

58.4

60.5

54.6

56.5

58.4

60.5

62.7

64.6

56.5

58.4

60.5

62.7

64.6

66.6

58.4

60.5

62.7

64.6

66.6

SHC

kW

35.1

31.0

27.9

41.0

37.6

34.7

31.7

28.8

43.7

41.0

38.2

34.5

31.5

28.4

43.7

40.1

37.4

34.5

31.3

28.4

46.3

43.2

40.6

37.6

34.2

31.3

49.1

46.0

43.2

40.0

37.3

SHF

0.71

0.61

0.53

0.83

0.74

0.66

0.58

0.51

0.86

0.78

0.70

0.61

0.54

0.47

0.80

0.71

0.64

0.57

0.50

0.44

0.82

0.74

0.67

0.60

0.53

0.47

0.84

0.76

0.69

0.62

0.56

W

kW

8.8

8.9

9.0

8.8

8.9

9.0

9.1

9.2

8.9

9.0

9.1

9.2

9.3

9.4

9.1

9.2

9.3

9.4

9.5

9.6

9.2

9.3

9.4

9.5

9.6

9.7

9.3

9.4

9.5

9.6

9.7

0.0

Q

kW

48.6

50.0

51.7

48.6

50.0

51.7

53.7

55.5

50.0

51.7

53.7

55.5

57.4

59.4

53.7

55.5

57.4

59.4

61.5

63.4

55.5

57.4

59.4

61.5

63.4

65.4

57.4

59.4

61.5

63.4

65.4

SHC

kW

34.5

31.0

27.4

40.3

37.0

34.1

31.1

28.3

43.5

40.3

37.6

34.0

31.0

27.9

42.9

39.4

36.7

33.9

30.8

27.9

45.5

42.4

39.8

36.9

33.6

30.7

48.8

45.8

42.4

39.3

36.6

SHF

0.71

0.62

0.53

0.83

0.74

0.66

0.58

0.51

0.87

0.78

0.70

0.61

0.54

0.47

0.80

0.71

0.64

0.57

0.50

0.44

0.82

0.74

0.67

0.60

0.53

0.47

0.85

0.77

0.69

0.62

0.56

W

kW

8.9

9.0

9.1

8.9

9.0

9.1

9.2

9.3

9.0

9.1

9.2

9.3

9.4

9.5

9.2

9.3

9.4

9.5

9.6

9.7

9.3

9.4

9.5

9.6

9.7

9.8

9.4

9.5

9.6

9.7

9.8

5.0

Q

kW

47.9

49.2

50.9

47.9

49.2

50.9

52.8

54.7

49.2

50.9

52.8

54.7

56.5

58.5

52.8

54.7

56.5

58.5

60.5

62.4

54.7

56.5

58.5

60.5

62.4

64.3

56.5

58.5

60.5

62.4

64.3

SHC

kW

34.0

30.5

27.0

39.7

36.4

33.6

30.7

27.9

42.8

39.7

37.0

33.5

30.5

27.5

42.8

39.3

36.1

33.3

30.3

27.4

45.4

42.3

39.8

36.9

33.7

30.2

48.0

45.0

42.4

38.7

36.0

SHF

0.71

0.62

0.53

0.83

0.74

0.66

0.58

0.51

0.87

0.78

0.70

0.61

0.54

0.47

0.81

0.72

0.64

0.57

0.50

0.44

0.83

0.75

0.68

0.61

0.54

0.47

0.85

0.77

0.70

0.62

0.56

W

kW

9.1

9.2

9.3

9.1

9.2

9.3

9.4

9.5

9.2

9.3

9.4

9.5

9.6

9.7

9.4

9.5

9.6

9.7

9.8

9.9

9.5

9.6

9.7

9.8

9.9

10.1

9.6

9.7

9.8

9.9

10.1

10.0

Q

kW

47.1

48.4

50.1

47.1

48.4

50.1

51.9

53.7

48.4

50.1

51.9

53.7

55.4

57.4

51.9

53.7

55.4

57.4

59.4

61.2

53.7

55.4

57.4

59.4

61.2

63.1

55.4

57.4

59.4

61.2

63.1

SHC

kW

33.9

30.5

27.5

39.5

36.3

33.5

30.6

27.9

42.6

39.5

36.9

33.3

30.5

27.6

42.1

38.6

36.0

33.3

30.3

27.5

45.1

41.6

39.0

36.2

33.0

30.3

47.7

44.8

42.2

38.5

36.0

SHF

0.72

0.63

0.55

0.84

0.75

0.67

0.59

0.52

0.88

0.79

0.71

0.62

0.55

0.48

0.81

0.72

0.65

0.58

0.51

0.45

0.84

0.75

0.68

0.61

0.54

0.48

0.86

0.78

0.71

0.63

0.57

W

kW

9.4

9.5

9.6

9.4

9.5

9.6

9.7

9.8

9.5

9.6

9.7

9.8

10.0

10.1

9.7

9.8

10.0

10.1

10.2

10.3

9.8

10.0

10.1

10.2

10.3

10.5

10.0

10.1

10.2

10.3

10.5

15.0

Q

kW

46.2

47.5

49.1

46.2

47.5

49.1

50.9

52.6

47.5

49.1

50.9

52.6

54.3

56.3

50.9

52.6

54.3

56.3

58.2

59.9

52.6

54.3

56.3

58.2

59.9

61.8

54.3

56.3

58.2

59.9

61.8

SHC

kW

33.3

29.9

27.0

38.8

35.6

32.9

30.0

27.4

41.8

38.8

36.1

32.6

29.9

27.0

41.7

38.4

35.3

32.6

29.7

27.0

44.7

41.3

38.8

36.1

33.0

29.7

47.3

44.5

41.9

38.4

35.2

SHF

0.72

0.63

0.55

0.84

0.75

0.67

0.59

0.52

0.88

0.79

0.71

0.62

0.55

0.48

0.82

0.73

0.65

0.58

0.51

0.45

0.85

0.76

0.69

0.62

0.55

0.48

0.87

0.79

0.72

0.64

0.57

W

kW

9.8

9.9

10.0

9.8

9.9

10.0

10.1

10.2

9.9

10.0

10.1

10.2

10.4

10.5

10.1

10.2

10.4

10.5

10.7

10.8

10.2

10.4

10.5

10.7

10.8

11.0

10.4

10.5

10.7

10.8

11.0

Indoor

DB°C

20

22

24

26

28

30

Q; Cooling Capacity, SHC; Sensible Heat Capacity, W; Compressor Input

Total input = Compressor input + indoor fan motor input + outdoor fan motor input

Air Volume

CMM

l/s

Cooling capacity

Compressor input

120

2000

0.962

0.984

140

2330

0.982

0.991

160

2670

1.000

1.000

180

3000

1.018

1.009

Factor for Various Air Flow

Air Volume

CMM

l/s

Heating capacity

Compressor input

120

2000

0.973

1.025

140

2330

0.985

1.013

160

2670

1.000

1.000

180

3000

1.015

0.987

Indoor

DB°C

15161718192021222324252627

Q

kW

31.0

30.8

30.6

30.4

30.2

30.1

29.9

29.8

29.6

29.5

29.4

29.3

29.1

W

kW

7.7

7.7

7.8

7.8

7.9

7.9

8.0

8.0

8.1

8.1

8.2

8.2

8.3

Q

kW

27.5

27.3

27.1

26.9

26.6

26.5

26.3

26.2

26.0

25.9

25.8

25.7

25.5

W

kW

7.0

7.0

7.1

7.1

7.2

7.2

7.4

7.4

7.5

7.5

7.6

7.6

7.7

–10–15

Q

kW

35.1

34.9

34.7

34.5

34.4

34.3

34.1

34.0

33.8

33.7

33.6

33.5

33.3

W

kW

8.5

8.5

8.6

8.6

8.7

8.8

8.8

8.9

8.9

9.0

9.1

9.2

9.3

–5

Q

kW

39.9

39.7

39.5

39.3

39.2

39.0

38.9

38.8

38.7

38.5

38.4

38.2

38.0

W

kW

9.3

9.4

9.5

9.7

9.8

9.9

10.0

10.0

10.1

10.2

10.3

10.4

10.5

0

Q

kW

45.4

45.2

45.0

44.8

44.6

44.5

44.3

44.2

44.1

43.9

43.8

43.6

43.4

W

kW

10.4

10.5

10.6

10.8

10.9

11.1

11.2

11.3

11.4

11.5

11.6

11.7

11.9

5

Q

kW

51.6

51.4

51.2

51.0

50.8

50.6

50.5

50.3

50.2

50.0

49.8

49.6

49.4

W

kW

11.6

11.7

12.0

12.1

12.2

12.4

12.5

12.6

12.7

13.0

13.1

13.2

13.4

10 15

Q

kW

58.8

58.6

58.3

58.1

57.8

57.6

57.4

57.2

57.0

56.7

56.5

56.2

56.0

W

kW

13.0

13.2

13.3

13.5

13.7

13.8

14.1

14.2

14.4

14.5

14.7

14.9

15.0

OD WB°C

Q; Heating Capacity, W; Compressor Input

-14-

Outdoor DB°C

Factor for Various Air Flow

Cooling Capacity (Standard Air Flow)

PRHG-20MYA

20.0

Indoor

WB°C

15161715161718191617181920211819202122231920212223242021222324

Q

kW

59.3

61.3

63.2

59.3

61.3

63.2

65.0

67.0

61.3

63.2

65.0

67.0

69.0

71.2

65.0

67.0

69.0

71.2

73.4

75.7

67.0

69.0

71.2

73.4

75.7

78.0

69.0

71.2

73.4

75.7

78.0

SHC

kW

42.7

39.2

34.8

50.4

46.6

43.0

39.0

34.8

54.6

50.6

46.2

42.2

38.0

34.2

54.0

49.6

45.5

42.0

38.2

34.1

57.0

53.1

49.8

45.5

41.6

37.4

60.0

56.2

52.1

48.4

44.5

SHF

0.72

0.64

0.55

0.85

0.76

0.68

0.60

0.52

0.89

0.80

0.71

0.63

0.55

0.48

0.83

0.74

0.66

0.59

0.52

0.45

0.85

0.77

0.70

0.62

0.55

0.48

0.87

0.79

0.71

0.64

0.57

W

kW

13.7

14.0

14.1

13.7

14.0

14.1

14.3

14.5

14.0

14.1

14.3

14.5

14.8

15.0

14.3

14.5

14.8

15.0

15.2

15.5

14.5

14.8

15.0

15.2

15.5

15.8

14.8

15.0

15.2

15.5

15.8

25.0

Q

kW

57.4

59.5

61.2

57.4

59.5

61.2

63.0

64.9

59.5

61.2

63.0

64.9

66.8

68.9

63.0

64.9

66.8

68.9

71.0

73.3

64.9

66.8

68.9

71.0

73.3

75.6

66.8

68.9

71.0

73.3

75.6

SHC

kW

41.9

38.1

33.7

49.4

45.8

41.6

37.8

34.4

53.6

49.6

45.4

41.5

37.4

33.8

52.9

48.7

44.8

41.3

37.6

33.0

55.8

52.1

48.9

44.7

41.0

37.0

58.8

55.1

51.1

47.6

43.8

SHF

0.73

0.64

0.55

0.86

0.77

0.68

0.60

0.53

0.90

0.81

0.72

0.64

0.56

0.49

0.84

0.75

0.67

0.60

0.53

0.45

0.86

0.78

0.71

0.63

0.56

0.49

0.88

0.80

0.72

0.65

0.58

W

kW

14.5

14.8

15.0

14.5

14.8

15.0

15.2

15.4

14.8

15.0

15.2

15.4

15.7

16.1

15.2

15.4

15.7

16.1

16.4

16.7

15.4

15.7

16.1

16.4

16.7

17.0

15.7

16.1

16.4

16.7

17.0

30.0

Q

kW

55.4

57.6

59.2

55.4

57.6

59.2

60.9

62.7

57.6

59.2

60.9

62.7

64.6

66.6

60.9

62.7

64.6

66.6

68.6

70.8

62.7

64.6

66.6

68.6

70.8

72.8

64.6

66.6

68.6

70.8

72.8

SHC

kW

40.4

37.4

33.2

48.2

44.9

40.8

37.1

33.2

53.0

48.5

44.5

40.8

36.8

32.6

51.8

47.7

43.9

40.6

37.0

32.6

54.5

51.0

48.0

43.9

39.6

35.7

58.1

54.6

50.1

46.7

43.0

SHF

0.73

0.65

0.56

0.87

0.78

0.69

0.61

0.53

0.92

0.82

0.73

0.65

0.57

0.49

0.85

0.76

0.68

0.61

0.54

0.46

0.87

0.79

0.72

0.64

0.56

0.49

0.90

0.82

0.73

0.66

0.59

W

kW

15.2

15.6

15.9

15.2

15.6

15.9

16.2

16.5

15.6

15.9

16.2

16.5

16.7

17.1

16.2

16.5

16.7

17.1

17.5

17.9

16.5

16.7

17.1

17.5

17.9

18.3

16.7

17.1

17.5

17.9

18.3

35.0

Q

kW

53.4

55.5

57.0

53.4

55.5

57.0

58.7

60.8

55.5

57.0

58.7

60.8

62.2

64.0

58.7

60.8

62.2

64.0

66.0

68.0

60.8

62.2

64.0

66.0

68.0

69.9

62.2

64.0

66.0

68.0

69.9

SHC

kW

39.5

36.1

31.9

47.0

43.8

39.9

35.8

32.2

51.6

47.3

43.4

40.1

35.5

32.0

51.1

46.8

42.9

39.7

35.6

31.3

54.1

50.4

46.7

42.9

38.8

35.0

57.2

53.8

49.5

45.6

41.9

SHF

0.74

0.65

0.56

0.88

0.79

0.70

0.61

0.53

0.93

0.83

0.74

0.66

0.57

0.50

0.87

0.77

0.69

0.62

0.54

0.46

0.89

0.81

0.73

0.65

0.57

0.50

0.92

0.84

0.75

0.67

0.60

W

kW

16.2

16.6

16.8

16.2

16.6

16.8

17.2

17.5

16.6

16.8

17.2

17.5

17.9

18.3

17.2

17.5

17.9

18.3

18.6

19.1

17.5

17.9

18.3

18.6

19.1

19.5

17.9

18.3

18.6

19.1

19.5

40.0

Q

kW

51.4

53.2

54.8

51.4

53.2

54.8

56.4

58.0

53.2

54.8

56.4

58.0

59.7

61.4

56.4

58.0

59.7

61.4

63.3

65.0

58.0

59.7

61.4

63.3

65.0

66.7

59.7

61.4

63.3

65.0

66.7

SHC

kW

38.6

35.1

31.2

46.3

43.1

38.9

35.0

31.3

50.5

46.6

42.3

38.9

34.6

31.3

50.2

45.8

41.8

38.7

34.8

30.6

52.8

49.6

45.4

41.8

37.7

34.0

56.1

52.8

48.7

44.9

41.4

SHF

0.75

0.66

0.57

0.90

0.81

0.71

0.62

0.54

0.95

0.85

0.75

0.67

0.58

0.51

0.89

0.79

0.70

0.63

0.55

0.47

0.91

0.83

0.74

0.66

0.58

0.51

0.94

0.86

0.77

0.69

0.62

W

kW

17.1

17.5

17.9

17.1

17.5

17.9

18.3

18.6

17.5

17.9

18.3

18.6

19.0

19.4

18.3

18.6

19.0

19.4

19.9

20.2

18.6

19.0

19.4

19.9

20.2

20.8

19.0

19.4

19.9

20.2

20.8

46.0

Q

kW

48.8

50.4

51.9

48.8

50.4

51.9

53.4

54.9

50.4

51.9

53.4

54.9

56.5

58.2

53.4

54.9

56.5

58.2

59.8

61.1

54.9

56.5

58.2

59.8

61.1

62.5

56.5

58.2

59.8

61.1

62.5

SHC

kW

37.6

34.3

30.1

44.9

41.8

37.9

33.6

29.6

49.4

45.7

41.7

37.3

33.3

30.3

48.6

44.5

40.7

37.8

33.5

28.7

52.2

48.0

44.2

40.7

36.7

32.5

55.4

51.8

47.8

43.4

40.0

SHF

0.77

0.68

0.58

0.92

0.83

0.73

0.63

0.54

0.98

0.88

0.78

0.68

0.59

0.52

0.91

0.81

0.72

0.65

0.56

0.47

0.95

0.85

0.76

0.68

0.60

0.52

0.98

0.89

0.80

0.71

0.64

W

kW

18.3

18.7

19.2

18.3

18.7

19.2

19.6

19.9

18.7

19.2

19.6

19.9

20.3

20.8

19.6

19.9

20.3

20.8

21.4

21.8

19.9

20.3

20.8

21.4

21.8

22.3

20.3

20.8

21.4

21.8

22.3

Indoor

DB°C

20

22

24

26

28

30

Q; Cooling Capacity, SHC; Sensible Heat Capacity, W; Compressor Input

Total input = Compressor input + indoor fan motor input + outdoor fan motor input

Air Volume

CMM

l/s

Cooling capacity

Compressor input

170

2830

0.977

0.995

180

3000

0.987

0.997

200

3330

1.000

1.000

220

3670

1.010

1.003

240

4000

1.020

1.007

-15-

Outdoor DB°C

Factor for Various Air Flow

Cooling Capacity (Standard Air Flow)

PRHG-20MYA (Use for Low ambient cooling parts)

Heating Capacity (Standard Air Flow)

PRHG-20MYA

–5.0

Indoor

WB°C

15161715161718191617181920211819202122231920212223242021222324

Q

kW

65.9

68.2

70.5

65.9

68.2

70.5

72.6

75.0

68.2

70.5

72.6

75.0

77.3

80.0

72.6

75.0

77.3

80.0

82.6

85.3

75.0

77.3

80.0

82.6

85.3

88.1

77.3

80.0

82.6

85.3

88.1

SHC

kW

46.1

42.3

38.8

54.0

50.5

46.5

42.1

38.2

58.0

54.3

50.1

45.7

41.8

37.6

57.4

53.2

49.5

45.6

41.3

37.5

60.7

56.5

52.8

48.7

45.2

41.4

64.2

60.8

57.0

52.9

48.4

SHF

0.70

0.62

0.55

0.82

0.74

0.66

0.58

0.51

0.85

0.77

0.69

0.61

0.54

0.47

0.79

0.71

0.64

0.57

0.50

0.44

0.81

0.73

0.66

0.59

0.53

0.47

0.83

0.76

0.69

0.62

0.55

W

kW

11.9

12.0

12.1

11.9

12.0

12.1

12.3

12.5

12.0

12.1

12.3

12.5

12.6

12.8

12.3

12.5

12.6

12.8

12.9

13.1

12.5

12.6

12.8

12.9

13.1

13.2

12.6

12.8

12.9

13.1

13.2

0.0

Q

kW

64.8

67.0

69.2

64.8

67.0

69.2

71.3

73.6

67.0

69.2

71.3

73.6

76.0

78.5

71.3

73.6

76.0

78.5

81.1

83.7

73.6

76.0

78.5

81.1

83.7

86.4

76.0

78.5

81.1

83.7

86.4

SHC

kW

45.3

41.6

38.1

53.1

49.6

45.7

41.4

37.6

57.0

53.3

49.2

44.9

41.0

36.9

56.3

52.3

48.6

44.8

40.5

36.8

59.6

55.5

51.8

48.6

44.4

40.6

63.0

59.7

55.9

51.9

48.4

SHF

0.70

0.62

0.55

0.82

0.74

0.66

0.58

0.51

0.85

0.77

0.69

0.61

0.54

0.47

0.79

0.71

0.64

0.57

0.50

0.44

0.81

0.73

0.66

0.60

0.53

0.47

0.83

0.76

0.69

0.62

0.56

W

kW

12.0

12.2

12.3

12.0

12.2

12.3

12.4

12.6

12.2

12.3

12.4

12.6

12.7

12.9

12.4

12.6

12.7

12.9

13.0

13.2

12.6

12.7

12.9

13.0

13.2

13.4

12.7

12.9

13.0

13.2

13.4

5.0

Q

kW

63.8

66.1

68.2

63.8

66.1

68.2

70.2

72.5

66.1

68.2

70.2

72.5

74.8

77.3

70.2

72.5

74.8

77.3

79.8

82.4

72.5

74.8

77.3

79.8

82.4

85.0

74.8

77.3

79.8

82.4

85.0

SHC

kW

44.7

41.0

37.5

53.0

49.5

45.0

40.7

37.0

56.8

53.2

49.2

45.0

40.4

36.3

56.2

52.2

48.6

44.8

40.7

36.3

59.5

55.3

51.8

48.7

44.5

40.0

62.8

59.5

55.8

51.9

47.6

SHF

0.70

0.62

0.55

0.83

0.75

0.66

0.58

0.51

0.86

0.78

0.70

0.62

0.54

0.47

0.80

0.72

0.65

0.58

0.51

0.44

0.82

0.74

0.67

0.61

0.54

0.47

0.84

0.77

0.70

0.63

0.56

W

kW

12.3

12.5

12.6

12.3

12.5

12.6

12.7

12.9

12.5

12.6

12.7

12.9

13.0

13.2

12.7

12.9

13.0

13.2

13.4

13.5

12.9

13.0

13.2

13.4

13.5

13.7

13.0

13.2

13.4

13.5

13.7

10.0

Q

kW

62.7

64.9

67.0

62.7

64.9

67.0

69.0

71.2

64.9

67.0

69.0

71.2

73.4

75.8

69.0

71.2

73.4

75.8

78.3

80.8

71.2

73.4

75.8

78.3

80.8

83.4

73.4

75.8

78.3

80.8

83.4

SHC

kW

43.9

40.9

36.9

52.1

48.7

44.9

40.7

37.0

56.5

52.3

48.3

44.2

40.4

36.4

55.9

51.3

47.7

44.0

39.9

36.4

59.1

55.1

51.6

47.8

43.6

40.0

62.4

58.4

54.8

50.9

47.5

SHF

0.70

0.63

0.55

0.83

0.75

0.67

0.59

0.52

0.87

0.78

0.70

0.62

0.55

0.48

0.81

0.72

0.65

0.58

0.51

0.45

0.83

0.75

0.68

0.61

0.54

0.48

0.85

0.77

0.70

0.63

0.57

W

kW

12.7

12.9

13.0

12.7

12.9

13.0

13.1

13.3

12.9

13.0

13.1

13.3

13.5

13.6

13.1

13.3

13.5

13.6

13.8

14.0

13.3

13.5

13.6

13.8

14.0

14.2

13.5

13.6

13.8

14.0

14.2

15.0

Q

kW

61.6

63.7

65.7

61.6

63.7

65.7

67.7

69.8

63.7

65.7

67.7

69.8

72.0

74.3

67.7

69.8

72.0

74.3

76.7

79.2

69.8

72.0

74.3

76.7

79.2

81.7

72.0

74.3

76.7

79.2

81.7

SHC

kW

43.7

40.1

36.2

51.7

48.4

44.0

39.9

36.3

56.0

51.9

48.0

44.0

39.6

35.7

55.5

51.0

47.5

43.9

39.9

35.6

58.6

54.7

51.3

47.6

43.6

39.2

61.9

58.0

54.5

50.7

46.5

SHF

0.71

0.63

0.55

0.84

0.76

0.67

0.59

0.52

0.88

0.79

0.71

0.63

0.55

0.48

0.82

0.73

0.66

0.59

0.52

0.45

0.84

0.76

0.69

0.62

0.55

0.48

0.86

0.78

0.71

0.64

0.57

W

kW

13.2

13.4

13.5

13.2

13.4

13.5

13.6

13.8

13.4

13.5

13.6

13.8

14.0

14.2

13.6

13.8

14.0

14.2

14.5

14.7

13.8

14.0

14.2

14.5

14.7

15.0

14.0

14.2

14.5

14.7

15.0

Indoor

DB°C

20

22

24

26

28

30

Q; Cooling Capacity, SHC; Sensible Heat Capacity, W; Compressor Input

Total input = Compressor input + indoor fan motor input + outdoor fan motor input

Air Volume

CMM

l/s

Coolinr capacity

Compressor input

170

2830

0.977

0.995

180

3000

0.987

0.997

200

3330

1.000

1.000

220

3670

1.010

1.003

240

4000

1.020

1.007

Factor for Various Air Flow

Air Volume

CMM

l/s

Heating capacity

Compressor input

170

2830

0.985

1.020

180

3000

0.993

1.013

200

3330

1.000

1.000

220

3670

1.007

0.987

240

4000

1.015

0.974

Indoor

DB°C

15161718192021222324252627

Q

kW

41.2

40.9

40.6

40.4

40.2

40.0

39.8

39.6

39.4

39.2

39.1

38.9

38.6

W

kW

9.9

9.9

10.0

10.1

10.2

10.3

10.3

10.3

10.4

10.5

10.5

10.6

10.7

Q

kW

36.1

35.7

35.3

35.1

34.9

34.7

34.5

34.3

34.1

33.9

33.9

33.7

33.4

W

kW

9.1

9.1

9.2

9.3

9.4

9.4

9.4

9.4

9.5

9.6

9.6

9.7

9.8

–10–15

Q

kW

46.9

46.7

46.5

46.3

46.1

45.9

45.7

45.5

45.3

45.1

44.9

44.7

44.4

W

kW

10.9

11.0

11.1

11.2

11.3

11.4

11.5

11.6

11.7

11.8

11.8

11.9

12.0

–5

Q

kW

53.5

53.3

53.1

52.8

52.6

52.4

52.2

52.0

51.8

51.6

51.4

51.2

50.9

W

kW

12.2

12.3

12.4

12.5

12.6

12.7

12.8

12.9

13.1

13.2

13.2

13.3

13.4

0

Q

kW

60.9

60.6

60.4

60.2

60.0

59.8

59.6

59.4

59.2

59.0

58.7

58.4

58.1

W

kW

13.5

13.7

13.8

14.0

14.1

14.2

14.4

14.5

14.6

14.8

14.9

15.1

15.2

5

Q

kW

69.4

69.1

68.8

68.5

68.3

68.0

67.8

67.6

67.3

67.0

66.7

66.4

66.1

W

kW

15.2

15.4

15.6

15.7

15.9

16.0

16.2

16.3

16.5

16.7

16.8

17.0

17.2

10 15

Q

kW

78.8

78.5

78.2

77.9

77.6

77.3

77.0

76.6

76.3

76.0

75.6

75.3

75.0

W

kW

17.0

17.2

17.4

17.6

17.8

18.0

18.2

18.4

18.6

18.9

19.1

19.3

19.5

OD WB°C

Q; Heating Capacity, W; Compressor Input

-16-

fan speed
Indoor fan input
fan speed
Indoor fan input
fan speed
Indoor fan input

200

CMM

L/S

rpm

kW

rpm

kW

rpm

kW

300

400

Total SP (Pa)

PRHG8

Indoor fan input

80

1330

967

1.20

1139

1.80

1305

2.42

85
1420
1036

1.27

1139

1.80

1329

2.56

90
1500
1036

1.27

1208

2.02

1329

2.56

95
1580
1036

1.27
1208

2.02

–

fan speed
Indoor fan input
fan speed
Indoor fan input
fan speed
Indoor fan input
fan speed
Indoor fan input

250

CMM

L/S

rpm

kW

rpm

kW

rpm

kW

rpm

kW

350

450

550

Total SP (Pa)

PRHG10

PRHG15

90
1500
1088

1.90

1208

2.26

1450

3.13

1595

3.96

100
1660
1088

1.90

1208

2.26

1450

3.13

–

110
1830
1139

2.16

1318

2.86

1450

3.13

–

120
2000
1139

2.16
1318

2.86

–

–

fan speed
Indoor fan input
fan speed
Indoor fan input
fan speed
Indoor fan input
fan speed
Indoor fan input
fan speed
Indoor fan input

300

CMM

L/S

rpm

kW

rpm

kW

rpm

kW

rpm

kW

rpm

kW

400

500

600

700

Total SP (Pa)

PRHG20

170

2830

798

2.98
906

3.50
997

3.97

1088

4.44

1208

5.03

180

3000

798

3.06
906

3.66
997

4.17

1088

4.66

1208

5.27

190

3170

798

3.14
906

3.82
997

4.37

1088

4.89

1208

5.51

200

3330

798

3.23
906

3.98
997

4.56

1088

5.11

1208

5.75

200

300

400

500

600

Total SP (Pa)

120

2000

659

1.58
791

1.95
886

2.27
997

2.72

1088

3.07

130

2170

659

1.68
791

2.08
886

2.43
997

2.93

1088

3.3

140

2330

659

1.79
791

2.21
886

2.58
997

3.13

1088

3.52

150

2500

659

1.89
791

2.34
906

2.83
997

3.34

–

160

2670

659

1.99
791

2.47
906

2.99
997

3.54

–

170

2830

659

2.1

791

2.6

906

3.15
997

3.75

–

180

3000

659

2.21
791

2.73
906

3.31
997

3.96

–

fan speed
Indoor fan input
fan speed
Indoor fan input
fan speed
Indoor fan input
fan speed
Indoor fan input
fan speed
Indoor fan input

CMM

L/S

rpm

kW

rpm

kW

rpm

kW

rpm

kW

rpm

kW

-17-