Mitsubishi PRH-P8MYA, PRH-P10MYA, PRH-P16MYA, PRH-P20MYA TECHNICAL MANUAL

TECHNICAL & SERVICE MANUAL

AIR-COOLED ROOFTOP
PACKAGED AIR CONDITIONERS

For use with the R407C

2004

HEAT PUMP PRH-P8MYA

PRH-P10MYA
PRH-P16MYA
PRH-P20MYA

Models

<Unit>

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Contents

Page

1

PRECAUTIONS FOR DEVICES THAT USE R407C REFRIGERANT

[1] Necessary Apparatus and Materials and Notes on Their Handling
[2] Brazing
[3] Airtightness T est
[4] Vacuuming
[5] Charging of Refrigerant

2

TYPICAL INSTALLATION EXAMPLE

3

MODEL-DESIGNATION BREAKDOWN

4

PART NAMES AND FUNCTIONS

5

SPECIFICATIONS

6

ELECTRICAL DATA

7

EXTERNAL DIMENSIONS

8

REMOTE CONTROLLER

9

ELECTRICAL WIRING DIA GRAM

[1] Unit
[2] Skeleton of Transmission Line Connection

0

Technical Data to Meet LVD

[1] Standard Operation Data
[2] Cooling Capacity Curves
[3] Heating Capacity Curves
[4] Reduction Ratio by Frosting
[5] Capacity/Input Ratio against Changes in Room Airflow Rate
[6] Bypass Factor Curves
[7] Cooling Sensible Heating Capacity Table
[8] Fan Performance
[9] Center of Gravity
[10] NC Curve

A SERVICE DATA

[1] Appearance of Equipment
[2] Refrigerant Circuit
[3] Refrigerant Charge
[4] Operation Range
[5] Safety & Control Devices

1
2
3
4
4
5
6
6
7

9
11
12
14
15
15
16
17
17
19
19
19
20
22
22
24
30
32
34
34
38
38
38
39

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Page

B CONTROL

[1] Composition of Control
[2] Control specifications
[3] Function of switches and connectors (outdoor-side)
[4] Function of switch on indoor-side controller board
[5] Simple parts check method
[6] Reference Data
[7] Troubleshooting of each part
[8] Emergency operation
[9] Self-diagnosis and troubleshooting

C Test run

[1] Before test run
[2] Test run procedures
[3] Self-diagnosis
[4] Remote controller diagnosis

D INSTALLATION

[1] Space required around units
[2] Installation of the unit
[3] Duct construction
[4] Lifting method
[5] Drain piping
[6] Modification method of fan direction (From side flow to top flow)
[7] The putting condition of the belt

40
40
41
45
52
53
54
55
58
60
70
70
70
73
75
76
76
78
79
80
81
82
83

1

PRECAUTIONS FOR DEVICES THAT USE R407C REFRIGERANT

Caution

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

• The refrigerator oil will degrade if it is mixed with a
large amount of mineral oil.

Use liquid refrigerant to seal the system.

• If gas refrigerant is used to seal the system, the com­position of the refrigerant in the cylinder will change
and performance may drop.

Do not use a refrigerant other than R407C.

• If another refrigerant (R22, etc.) is used, the chlorine
in the refrigerant may cause the refrigerator oil to de­teriorate.

Be especially careful when managing the tools.

• If dust, dirt, or water gets in the refrigerant cycle, the
refrigerant may deteriorate.

If the refrigerant leaks, recover the refrigerant in the
refrigerant cycle, then recharge the cycle with the
specified amount of the liquid refrigerant indicated
on the air conditioner.

•Since R407C is a nonazeotropic refrigerant, if addi­tionally charged when the refrigerant leaked, the com­position of the refrigerant in the refrigerant cycle will
change and result in a drop in performance or abnor­mal stopping.

Use a vacuum pump with a reverse flow check valve.

• The vacuum pump oil may flow back into the refriger­ant cycle and cause the refrigerator oil to deteriorate.

Do not use the following tools that have been used
with conventional refrigerants.
(Gauge manifold, charge hose, gas leak detector, re­verse flow check valve, refrigerant charge base,
vacuum gauge, refrigerant recovery equipment)

• If the conventional refrigerant and refrigerator oil are
mixed in the R407C, the refrigerant may deterio­rated.

• If water is mixed in the R407C, the refrigerator oil
may deteriorate.

• Since R407C does not contain any chlorine, gas
leak detectors for conventional refrigerants will not
react to it.

Do not use a charging cylinder.

• Using a charging cylinder may cause the refrigerant
to deteriorate.

- 1 -

[1] Necessary Apparatus and Materials and Notes on Their Handling

The following tools should be marked as dedicated tools for R407C.

<<Comparison of apparatus and materials used for R407C and for R22>>

Apparatus Used Use R22 R407C

Gauge manifold Evacuating, refrigerant filling Current product
Charging hose Operation check Current product
Charging cylinder Refrigerant charging Current product Do not use
Gas leakage detector Gas leakage check Current product Shared with R134a
Refrigerant collector Refrigerant collection R22 For R407C use only
Refrigerant cylinder Refrigerant filling R22 Identification of dedi-

cated use for R407C:
Record refrigerant name
and put brown belt on
upper part of cylinder.

Vacuum pump Vacuum drying Current product Can be used by attach-

ing an adapter with a

check valve.
Vacuum pump with a check valve Current product
Flare tool Flaring of pipes Current product
Bender Bending of pipes Current product
Application oil Applied to flared parts Current product Ester oil or Ether oil or

Alkybenzene (Small

amount)
Torque wrench Tightening of flare nuts Current product
Pipe cutter Cutting of pipes Current product
Welder and nitrogen cylinder Welding of pipes Current product
Refrigerant charging meter Refrigerant charging Current product
Vacuum gauge Checking the vacuum degree Current product

Symbols: To be used for R407C only. Can also be used for conventional refrigerants.

Tools for R407C must be handled with more care than those for conventional refrigerants. They must not come into contact

with any water or dirt.

- 2 -

[2] Brazing

No changes from the conventional method, but special care is required so that foreign matter (ie. oxide scale, water, dirt,
etc.) does not enter the refrigerant circuit.

Example: Inner state of brazed section

When non-oxide brazing was not used When non-oxide brazing was used

Items to be strictly observed:

1. Do not conduct refrigerant piping work outdoors on a rainy day.

2. Apply non-oxide brazing.

3. Use a brazing material (BCuP-3) which requires no flux when brazing between copper pipes or between a copper
pipe and copper coupling.

4. If installed refrigerant pipes are not immediately connected to the equipment, then braz e and seal both ends of them.

Reasons:

1. The new refriger ant oil is 10 times more hygroscopic than the conventional oil. The probability of a machine failure if
water infiltrates is higher than with conventional refrigerant oil.

2. A flux generally contains chlorine. A residual flux in the refrigerant circuit may generate sludge.

Note:

• Commercially available antioxidants may have adverse effects on the equipment due to its residue, etc. When

applying non-oxide brazing, use nitrogen.

- 3 -

[3] Airtightness Test

No changes from the conventional method. Note that a refrigerant leakage detector for R22 cannot detect R407C leakage.

Halide torch R22 leakage detector

Items to be strictly observed:

1. Pressurize the equipment with nitrogen up to the design pressure and then judge the equipment’ s airtightness, taking
temperature variations into account.

2. When investigating leakage locations using a refrigerant, be sure to use R407C.

3. Ensure that R407C is in a liquid state when charging.

Reasons:

1. Use of oxygen as the pressurized gas may cause an explosion.

2. Charging with R407C gas will lead the composition of the remaining refrigerant in the cylinder to change and this
refrigerant can then not be used.

Note:

•A leakage detector for R407C is sold commercially and it should be purchased.

[4] Vacuuming

1. Vacuum pump with check valve
A vacuum pump with a check valve is required to prevent the vacuum pump oil from flowing back into the refrigerant
circuit when the vacuum pump power is turned off (power failure).
It is also possible to attach a check valve to the actual vacuum pump afterwards.

2. Standard degree of vacuum for the vacuum pump
Use a pump which reaches 0.5 Torr (500 MICRON) or below after 5 minutes of operation.
In addition, be sure to use a vacuum pump that has been properly maintained and oiled using the specified oil. If the
vacuum pump is not properly maintained, the degree of vacuum may be too low.

3. Required accuracy of the vacuum gauge
Use a vacuum gauge that can measure up to 5 Torr. Do not use a general gauge manifold since it cannot measure a
vacuum of 5 Torr.

4. Evacuating time

•Evacuate the equipment for 1 hour after –755 mmHg (5 Torr) has been reached.

• After envacuating, leave the equipment for 1 hour and make sure the that vacuum is not lost.

5. Operating procedure when the vacuum pump is stopped
In order to prevent a backflow of the vacuum pump oil, open the relief valve on the vacuum pump side or loosen the
charge hose to drawn in air before stopping operation.

The same operating procedure should be used when using a vacuum pump with a check valve.

NO

NO

- 4 -

[5] Charging of Refrigerant

R407C must be in a liquid state when charging, because it is a non-azeotropic refrigerant.

For a cylinder with a syphon attached For a cylinder without a syphon attached

Cylinder color identification R407C-Gray Charged with liquid refrigerant

R410A-Pink

Reasons:

1. R407C is a mixture of 3 refrigerants, each with a different evaporation temperature. Therefore, if the equipment is
charged with R407C gas, then the refrigerant whose evaporation temperature is closest to the outside temperature is
charged first while the rest of refrigerants remain in the cylinder.

Note:

• In the case of a cylinder with a syphon, liquid R407C is charged without turning the cylinder up side down. Check the

type of cylinder before charging.

Cylin-

der

Cylin-

der

Valve

Valve

Liquid

Liquid

- 5 -

2

TYPICAL INSTALLATION EXAMPLE

3

MODEL-DESIGNATION BREAKDOWN

Series symbol
Self-contained type
(rooftop type)

Refrigerant
P=R407C

Heat pump type

Series symbol
Y=3-phase
380V,400V,415V,50Hz,3N~

Design sequence

Compressor horse power
P8=8HP
P10=10HP
P16=16HP
P20=20HP

Design sequence

Service reference

PRH

P R H P 1 0 M Y A E U

- 6 -

PAR-20MAA

ON/OFF

CENTRALLY CONTROLLED

ERROR CODE

CLOCK

ON OFF

ßC

CHECK

CHECK MODE

FILTER

TEST RUN
FUNCTION

ßC

1Hr.

NOT AVAILABLE

STAND BY
DEFROST

FILTER

CHECK

TEST

TEMP.

TIMER SET

1

2
3

3

0

1

2

Unit

• Return air : Sucks the ambient air in.

• Supply air : Blows the air back out into

Supply air

Return air

the room.

Remote controller (PAR-20MAA)

• Once the controls are set, the same operation mode can be repeated by simply pressing the ON/OFF button.

[Operation buttons]

[Room temperature adjustment] Button
[Timer/continuous] Button
[Selecting operation] Button
[Time selection] Button
[Time-setting] Button
[Louver] Button (This button does not operate in this model)
[Fan speed adjustment] Button
[Up/down airflow direction] Button (This button does not operate in this model)
[Ventilation] Button
[Checking/built-in] Button
[Test run] Button
[Filter] Button (This button does not operate in this model)
[ON/OFF] Button
Position of built-in room temperature

•Never expose the remote controller to direct sunlight. Doing so can result in the erroneous measurement of room tem­perature.

•Never place any obstacle around the lower right-hand section of the remote controller. Doing so can result in the errone­ous measurement of room temperature.

456879

4

PART NAMES AND FUNCTIONS

1
2
3
4

5
6
7
8
9

0
1
2
3

- 7 -

ON/OFF

CENTRALLY CONTROLLED

ERROR CODE

CLOCK

ON OFF

ßC

CHECK

CHECK MODE

FILTER

TEST RUN
FUNCTION

ßC

1Hr.

NOT AVAILABLE

STAND BY
DEFROST

TEMP.

D U T S Q C

GH JKLI

B A

R
P

O
N
M

E

F

[Display]

Caution:

• Only the Power display lights when the unit is stopped and power supplied to the unit.

• When power is turned ON for the first time the (CENTRAL CTRL) display appears to go off momentarily but this is not
a malfunction.

• When the central control remote control unit, which is sold separately, is used the ON-OFF button, operation switch
button and

TEMP. adjustment button do not operate.

• “NOT AVAILABLE” is displayed when the Airflow direction button or Louver button are pressed. This indicates that
this room unit is not equipped with the fan direction adjustment function and the louver function.

• When power is turned ON for the first time, it is normal that “H0” is displayed on the room temperature indication (For
max. 2 minutes). Please wait until this “H0” indication disappear then start the operation.

A Current time/Timer
C Centralized control
D Abnormality control
E Operation mode: COOL, AUTO,

FAN, HEAT

F Preparing f or Heating mode
G Defrost mode
H Set temperature
I Power ON
J Louver

K Not available function
L Ventilation
M Function setting mode
N Test run mode
O Error check mode
P Filter sign
Q Set effective for 1 hr.
R Sensor position
S Room temperature
T Airflow
U

Fan speed

- 8 -

5

SPECIFICATIONS

Model name PRH-P8MYA PRH-P10MYA
Mode

Capacity

Cooling Heating Cooling Heating

20.9

kW

kcal/h

Btu/h

kW

A

CMM

Pa

kW

CMM

kW

kW

kW

mm

dB(A)

kg

23.7 26.0 30.5
18,000 19,000 22,400 26,200
71,430 75,400 88,890 104,000

R407C

3N~ 380/400/415V 50Hz

Convertible(Side flow<factory setting> or top flow)

Sirrocco fan x 2

8.12 8.02 10.22 9.82

14.7 14.5 18.8 18.2

19

°

C to 30°C 17°C to 28°C 19°C to 30°C 17°C to 28°C

70

100

59

407

5.5

Three-phase induction motor

1.1

90

100

60

412

7.5

1.5

Cross fin

Propeller fan x 1

185

Three-phase induction motor

0.38

Cross fin

Hermetic

FVC68D(ether oil)

0.05 (240V)

Polyester powder (MUNSELL 5Y8/1)

1,715 x 2,000 x 926

Field supplied

R1

Refrigerant
Power source
Electrical

characteristics

Power consumption
Operating current

Type x Quantity
Air flow rate
External static pressure
Motor type
Motor output

Type x Quantity
Air flow rate
Motor type
Motor output

Type
Motor output
Oil type
Crankcase heater

H x W x D

Remote controller temperature setting range
Indoor-side air flow direction
Indoor-side fan

Indoor-side heat exchanger type

Outdoor-side fan

Outdoor-side heat exchanger type
Compressor

External finish
External dimension
Air filter
Drain pipe Thread
Noise level
Net weight
Protection devices High pressure switch , Low pressure switch , fuse

Over current relay(compressor , indoor-side fan motor)
inner thermal switch in outdoor-side fan motor

Note 1. Cooling and Hetaing capacity indicates the maximum value at operation under the following condition.

Cooling Indoor : 27

°

CDB/19°CWB Outdoor : 35°CDB

Heating Indoor : 20

°

CDB Outdoor : 7°CDB/6°CWB

2. The operating noise measuring point is 1m from the bottom of unit (1m from the front of the unit) in an
anechoic room. (Noise level is A-scale value)

3. Refrigerant charge volumes are factory charged.

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

5. Specification subject to change without notice.

Specifications of air-source heat pump type packaged air conditioner

(Rooftop unit)

- 9 -

Model name PRH-P16MYA PRH-P20MYA
Mode

Capacity

Cooling Heating Cooling Heating

41.8

kW

kcal/h

Btu/h

kW

A

CMM

Pa

kW

CMM

kW

kW

kW

mm

dB(A)

kg

47.4 52.0 61.0

36,000 40,800 44,800 52,400

142,860 150,800 177,780 208,000

R407C

3N~ 380/400/415V 50Hz

Convertible(Side flow<factory setting> or top flow)

Sirrocco fan x 2

16.60 15.94 21.44 19.24

29.6 29.2 36.6 35.4

19

°

C to 30°C 17°C to 28°C 19°C to 30°C 17°C to 28°C

140
200

62

857

5.5 x 2

Three-phase induction motor

2.2

180
200

63

872

7.5 x 2

3.7

Cross fin

Propeller fan x 2

185 x 2

Three-phase induction motor

0.38 x 2

Cross fin

Hermetic

FVC68D(ether oil)

0.05 (240V) x 2

Polyester powder (MUNSELL 5Y8/1)

1,735 x 2,000 x 2,130

Field supplied

R1

Refrigerant
Power source
Electrical

characteristics

Power consumption
Operating current

Type x Quantity
Air flow rate
External static pressure
Motor type
Motor output

Type x Quantity
Air flow rate
Motor type
Motor output

Type
Motor output
Oil type
Crankcase heater

H x W x D

Remote controller temperature setting range
Indoor-side air flow direction
Indoor-side fan

Indoor-side heat exchanger type

Outdoor-side fan

Outdoor-side heat exchanger type
Compressor

External finish
External dimension
Air filter
Drain pipe Thread
Noise level
Net weight
Protection devices High pressure switch , Low pressure switch , fuse

Over current relay(compressor , indoor-side fan motor)
inner thermal switch in outdoor-side fan motor

Note 1. Cooling and Hetaing capacity indicates the maximum value at operation under the following condition.

Cooling Indoor : 27

°

CDB/19°CWB Outdoor : 35°CDB

Heating Indoor : 20

°

CDB Outdoor : 7°CDB/6°CWB

2. The operating noise measuring point is 1m from the bottom of unit (1m from the front of the unit) in an
anechoic room. (Noise level is A-scale value)

3. Refrigerant charge volumes are factory charged.

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

5. Specification subject to change without notice.

Specifications of air-source heat pump type packaged air conditioner

(Rooftop unit)

- 10 -

6

ELECTRICAL DAT A

VOLT

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

8.12

14.7
76

111

6.96

11.9

0.31

1.1

100

0.85

1.7

8.12

14.7
79

111

6.96

11.9

0.31

1.1

100

0.85

1.7

8.12

14.7
83

111

6.96

11.9

0.31

1.1

100

0.85

1.7

8.02

14.5
76

111

6.86

11.7

0.31

1.1

100

0.85

1.7

8.02

14.5
79

111

6.86

11.7

0.31

1.1

100

0.85

1.7

8.02

14.5
84

111

6.86

11.7

0.31

1.1

100

0.85

1.7

10.22

18.8
75

134

8.71

14.9

0.31

1.1

100

1.2

2.8

10.22

18.8
78

134

8.71

14.9

0.31

1.1

100

1.2

2.8

10.22

18.8
82

134

8.71

14.9

0.31

1.1

100

1.2

2.8

9.82

18.2
75

134

8.31

14.3

0.31

1.1

100

1.2

2.8

9.82

18.2
77

134

8.31

14.3

0.31

1.1

100

1.2

2.8

9.82

18.2
81

134

8.31

14.3

0.31

1.1

100

1.2

2.8

ITEM

PRH-P8MYA PRH-P10MYA

Cooling

VOLT

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

16.60

29.6
78

126

14.38

23.8

0.62

2.2

200

1.6

3.6

16.60

29.6
80

126

14.38

23.8

0.62

2.2

200

1.6

3.6

16.60

29.6
85

126

14.38

23.8

0.62

2.2

200

1.6

3.6

15.94

29.2
75

126

13.72

23.4

0.62

2.2

200

1.6

3.6

15.94

29.2
78

126

13.72

23.4

0.62

2.2

200

1.6

3.6

15.94

29.2
82

126

13.72

23.4

0.62

2.2

200

1.6

3.6

21.44

36.6
81

152

18.82

29.8

0.62

2.2

200

2.0

4.6

21.44

36.6
84

152

18.82

29.8

0.62

2.2

200

2.0

4.6

21.44

36.6
89

152

18.82

29.8

0.62

2.2

200

2.0

4.6

19.24

35.4
75

151

16.62

28.6

0.62

2.2

200

2.0

4.6

19.24

35.4
78

151

16.62

28.6

0.62

2.2

200

2.0

4.6

19.24

35.4
82

151

16.62

28.6

0.62

2.2

200

2.0

4.6

ITEM

PRH-P16MYA PRH-P20MYA

Cooling Heating HeatingCooling

Heating HeatingCooling

- 11 -

• Models PRH-P8MYA/P10MYA

7

EXTERNAL DIMENSIONS

Drain R1

Fresh air

intake

(Both side)

28- ø 3 Holes

18- ø 3 Holes

Supply air

duct flange

Return air

duct flange

Note 3

Y

Y

Y-Y

X-X

Left side view

ø 25.4 Knockout hole

<Bottom side hole for

the controller wiring>

Note 1

ø 38.1 Knockout hole

<Bottom side hole for

the power supply wiring>

Top view

Drain R1

6-14X20 holes

<For mounting

anchor bolt M8>

[Field supply]

6-

ø 3.9 holes

(Both side)

Return

air

Supply

air

Service panel

Knockout hole

ø 27 hole

<Front side hole for

the controller wiring>

(Accessory plate)

Service panel

Front view

Note 2

ø 40 hole

<Front side hole for

the power supply wiring>

(Accessory plate)

X

X

Note 1. It is possible to change to ø 27 or

ø 34 by selecting the conduit

mounting plate.

2. The hole size can be selected to

ø 27 or ø 34 or ø 40 by selecting

the conduit mounting plate.

3. These dimension of supply air and

return air duct flange are the same.

<Accessory>

• Conduit mounting plate

(Painted the same color as the unit body)

ø 27

..................................................

1pc.

ø 34

..................................................

1pc.

ø 40 and ø 27

.................................

1pc.

• Tapping screw 4X12

........................

4pcs.

Air inlet

Air outlet

Air inlet

Right side view

ø 38.1 Knockout hole

<Right side hole for

the power supply wiring>

ø 25.4 Knockout hole

<Right side hole for

the controller wiring>

270 1569

250 1579

69

18518595
350105

149

495

585

86

144

1932

2000

7X130Pitch=910

84

5X135Pitch=675

56

68

50

121

155 611

23

4646

36.5

135

36.5

748

10 800 800

1515

840

880

910

961

1399

10

10

43 151001001543

130

23038699560

1715

82960

165 794

65

6084

- 12 -

4X150Pitch=600

10

65 65

(730)

(434)

10

150

44 13X150Pitch=1950 44

10

67

150

150

67

10

(2038)

(1312)

56 8X150Pitch=1200 56

150

50 50

5

56

6

165 794

80

169
104

839

89

155155105

290115

1030

293 525

434202

46 2038 46

1312

73080

65

80104

1661

1671

200

180

1549

2170

2200

1515

68 1932

800 800 144

2000

2130

585

495

585

111

155 611

1735

150

23

• Models PRH-P16MYA/P20MYA

Supply air cover

for top flow

Air

inlet

Air

inlet

Air

outlet

Y

Service panel

air

Return

air

Air

inlet

Fresh air

intake

(Both side)

Drain

R1

Supply air

Return air

duct flange

Note 2

duct flange

Note 2

Y

Y-Y

X-X

Left side view

ø25.4 Knockout hole

<Bottom side hole for

the controller wiring>

Note 1

ø50.8 Knockout hole

<Bottom side hole for

the power supply wiring>

Top view

Drain R1

6-14X20 holes

<For mounting

6-

ø3.9 holes

(Both side)

anchor bolt M10>

[Field supply]

ø27 hole

<Front side hole for

the controller wiring>

(Accessory plate)

Supply

Knockout hole

Service panel

Front view

Note 1

ø52 hole

<Front side hole for

the power supply wiring>

(Accessory plate)

XX

Note 1.It is possible to change to

ø40 by

selecting the conduit mounting plate.

2.Dimension of supply air and return air

duct flange are shown below.

<Accessory>

• Conduit mounting plate

(Painted the same color as

the unit body)

ø40 ············ 1pc.

············ 1pc.

············ 4pcs.

ø52 and ø27

• Tapping screw 4X12

Air

outlet

Right side view

ø50.8 Knockout hole

<Right side hole for

the power supply wiring>

ø25.4 Knockout hole

<Right side hole for

the controller wiring>

Return air

duct flange

38- ø3 Holes

24-

ø3 Holes

Supply air

duct flange

- 13 -

• Model PAR-20MAA

8

REMOTE CONTROLLER

- 14 -

(Front view) (Side view) (Rear view)

120

130

19

83.5

46

[1] Unit

9

• Models PRH-P8MYA/P10MYA

ELECTRICAL WIRING DIAGRAM

Symbol Name Symbol Name Symbol Name

IN
DOOR

-SIDE

OUT
DOOR

-SIDE

SURGE KILLER

COND/EVA TEMP

LIQUID PIPE TEMP

ROOM TEMP

COND/EVA TEMP

DISCHARGE TEMP

THERMISTOR

FERRITE CORE

FB1,FB2

CR

TH6

TH5

TH4

TH3

TH2

TH1

LIQUID PIPE TEMP

PRESSURE SWITCH (FOR CONTROL)

PRESSURE SWITCH (HIGH PRESSURE)

OVER CURRENT RELAY (INDOOR-SIDE FAN MOTOR)

FAN MOTOR (INDOOR-SIDE)

TERMINAL BLOCK

ELECTRONIC EXPANSION VALVE

CRANK CASE HEATER (COMPRESSOR)

SOLENOID VALVE

4-WAY VALVE

FAN MOTOR (OUTDOOR-SIDE)

PRESSURE SWITCH (LOW PRESSURE)

MAGNETIC CONTACTOR (COMPRESSOR)

MAGNETIC CONTACTOR (INDOOR-SIDE FAN MOTOR)

52F

51F

MF1

TB1,5

LEV

CH

SV1

21S4

OVER CURRENT RELAY (COMPRESSOR)

COMPRESSOR MOTOR

TRANSFORMERTR

MF2

MC

63H2

63H1

63L

52C

51C

FUSE (15A 250VAC CLASS T)F1,F2

Symbol Name

TERMINAL BLOCKTB6

REMOTE CONTROLLER

LED (FOR SERVICE)
AUXILIARY RELAY
SWITCHSW1-5

LED1
X01-X05

FUSE (6.3A 250VAC CLASS F)F01-F04

FUSE (6.3A 250VAC CLASS F)F10-F30

INDOOR-SIDE

CONTROLLER BOARD

X4-6
SW1
SW2
SWE
LED1
LED2
LED3

LED (TRANSMISSION<INDOOR-SIDE·OUTDOOR-SIDE>)

LED (POWER SUPPLY<REMOTE CONTROLLER>)

LED (POWER SUPPLY)

SWITCH (EMERGENCY OPERATION)

SWITCH (CAPACITY CORD)

SWITCH (MODEL SELECTION)

AUXILIARY RELAY

INDOOR-SIDE

POWER

BOARD

OUTDOOR-SIDE

CONTROLLER BOARD

N.F

BOARD

F1
ZNR

FUSE (4A 250VAC CLASS T)

VARISTOR

BLACK
(WITH INDOOR
POWER
BOARD)

BK

3

51F

PE

PE

CN90

CN2L
CN22

CN32

CN41

CN29

CN21

CN2D
DC14V

51

CN03

157

FAN

3

5321

X4 X5 X6

LCD

F1

ZNR

CN01

CN02

52F

TH6

TH5

TH4

TB5

FB1

CN2S
DC14V

SWE

SW1

REMOTE CONTROLLER

LED1
LED2
LED3

DC
14V

CN

OFF

ON

1
2
3
4

(*3)SW2

CN20

4

OFF

ON

OFF

ON

1234

INDOOR-SIDE

POWER BOARD

INDOOR-SIDE
CONTROLLER BOARD

FB2

REMOTE CONTROLLER

BOARD

1
2

RETURN AIR
DUCT

SUPPLY AIR
DUCT

CR

3

2

32

1

1

1

1
2
3
4

2

1

1
2
3

1
2

1
2

2

9

5

1
2

X6X51X4

2

6
7
8

1

TB6

2

F1

F2

5
3

531

BLACK

WHITE

RED

CNIN

LED1

SW3

12

OFF

ON

3456

(*2)SW5

65112

OFF

ON

OUTDOOR-SIDE
CONTROLLER BOARD

12

OFF

ON

SW2

34

TR

SW1SW4

OFF

C14

63H2

121

3

CN51

CN81

CN27

CN24

CN3D

DC POWER
SUPPLY

CN3N

CN3S

CN34CN28

3131

TRANSMISSION

CIRCIT

31

CNS3

CH 63L63H1

SV1

21S4

TH3TH2TH1

LEV

X05

X02

X03

X01

12

CN4

12

CN312CN2CN40CNMNTCNVMNT

CNFG

F01
F04
F02
F03

13

CN20

CNFC1

CN52

CN53

CN25

CN26

X04

CN21

CN22

CN23

52C

52C

51C

7

1

1

6

1

5

1
3

1
3

5

1
3

1
3

1
3

1

531

CNOUT1

PE

31

1

MF1

51F

52F

WHITE

1

BLUE3BLACK

RED

F30

WHITE

F20

F10

7

5

3

31

BLACK

CNOUT2

1

3

MC

L1

51C

52C

MF2

RED

TB1

ON

432

L25L3 NPE

PE

(*1)

6

POWER SUPPLY
3N

~PE

380/400/415V
50HZ

31

CNPOW

CNFC2

CNFAN

C11

CIRCUIT BREAKER
(FIELD SUPPLY)
PRH-P8MYA : 63A
PRH-P10MYA: 63A

N

L1

N.F.BOARD

L3

L2

PE

GREEN/YELLOW

F.C.
BOARD

C12

CONTROL BOX

Note:1.The dotted lines show field wiring.

2. Color of earth wire is yellow and green twisting.

3. Specification subject to change without notice.

4.This motor(*1) includes auto reset type internal thermostat.

5. SW5(

*

2)[outdoor-side controller board] is shown

In case of PRH-P8MYA setting is shown as below.

PRH-P10MYA setting.

6. SW2(

*

3)[indoor-side controller board] is shown

In case of PRH-P8MYA setting is shown as below.

PRH-P10MYA setting.

7. Emergency operation
If a trouble occurs with either the remote controller or the unit
microcomputer and no other trouble exists, emergency operation for
cooling or heating can be performed by changing the setting of
switch (SWE) on the indoor-side controller board.

8. mark is connector.

Caution,

1. To protect compressor and fan
motor (indoor-side) from

abnormal current, over current

relays is installed. Therefore,
do not change factory over
current relays is installed.
Therefore, do not change

factory set value of over current
relays.

ON
OFF

SW5

(*2)

ON
OFF

SW2

4321

(*3)

[intdoor-side controller board]

[outdoor-side controller board]

4321

- 15 -

• Models PRH-P16MYA/P20MYA

[2] Skeleton of Transmission Line Connection

(1) System

Unit

Remote
controller

Transmission line

Symbol Name Symbol Name Symbol Name

IN
DOOR

OUT
DOOR

SURGE KILLER

COND/EVA TEMP

LIQUID PIPE TEMP

ROOM TEMP

COND/EVA TEMP

DISCHARGE TEMP

THERMISTOR

FERRITE CORE

FB11,12,21,22

CR

TH6-1,TH6-2

TH5-1,TH5-2

TH4-1,TH4-2

TH3-1,TH3-2

TH2-1,TH2-2

TH1-1,TH1-2

LIQUID PIPE TEMP

PRESSURE SWITCH (FOR CONTROL)

PRESSURE SWITCH (HIGH PRESSURE)

OVER CURRENT RELAY (INDOOR FAN MOTOR)

FAN MOTOR (INDOOR)

TERMINAL BLOCK

ELECTRONIC EXPANSION VALVE

CRANK CASE HEATER (COMPRESSOR)

SOLENOID VALVE

4-WAY VALVE

FAN MOTOR (OUTDOOR)

PRESSURE SWITCH (LOW PRESSURE)

MAGNETIC CONTACTOR (COMPRESSOR)

51F

MF1

TB1,5,11,21

LEV1,LEV2

CH1,CH2

SV11,SV12

21S41,21S42

MAGNETIC CONTACTOR (INDOOR FAN MOTOR)

52F

OVER CURRENT RELAY (COMPRESSOR)

TR1,TR2

MF21,MF22

MC1,MC2

63H21,63H22

63H11,63H12

63L1,63L2

52C1,52C2

51C1,51C2

COMPRESSOR MOTOR

F11,12,21,22

TRANSFORMER

FUSE (15A 250VAC CLASS T)

Symbol Name

TERMINAL BLOCKTB6

REMOTE CONTROLLER

LED (FOR SERVICE)
AUXILIARY RELAY
SWITCHSW1-5

LED1
X01-X05

FUSE (6.3A 250VAC CLASS F)F01-F04

FUSE (6.3A 250VAC CLASS F)F10-F30

INDOOR

CONTROLLER BOARD

X4-6
SW1
SW2
SWE
LED1
LED2
LED3

LED (TRANSMISSION<INDOOR·OUTDOOR>)

LED (POWER SUPPLY<REMOTE CONTROLLER>)

LED (POWER SUPPLY)

SWITCH (EMERGENCY OPERATION)

SWITCH (CAPACITY CORD)

SWITCH (MODEL SELECTION)

AUXILIARY RELAY

INDOOR

POWER

BOARD

OUTDOOR

MAIN BOARD

N.F

BOARD

F1
ZNR

FUSE (4A 250VAC CLASS T)

VARISTOR

Note:1.The dotted lines show field wiring.

2. Color of earth wire is yellow and green twisting.

3. Specification subject to change without notice.

4.This motor(*1) includes auto reset type internal thermostat.

5. SW5(

*

2)[outdoor main board] shows PRH-P20MYA setting.

Control box no.1

In case of PRH-P16MYA setting is shown as below.

6. SW2(

*

3)[indoor controller board] shows

In case of PRH-P16MYA setting is shown as below.

PRH-P20MYA setting.

7. Emergency operation
If a trouble occurs with either the remote controller or the unit
microcomputer and no other trouble exists, emergency operation for
cooling or heating can be performed by changing the setting of
switch (SWE) on the indoor controller board.

8. mark is connector.

Caution,

1. To protect compressor and fan
motor (indoor) from abnormal
current, over current relays is
installed. Therefore, do not
change factory set value of
over current relays.

ON
OFF

SW5(*2)

ON
OFF

SW2

4321

(*3)

[intdoor controller board]

[outdoor main board]

4321

Control box no.2

ON
OFF

SW5(*2)

[outdoor main board]

4321

CONTROL BOX NO.2CONTROL BOX NO.1

BLACK

WHITE

RED

1
3

C19

X22

1

2

1
2

36

3

1

GREEN/YELLOW

BLUE

BLACK

WHITE

RED

L1

L2

L3

N

PE

1

2

2

1

X11

63

31

PE
N
L3
L2
L1

6
5
4
3
2
11

2

3

4

5

6

TB1

POWER SUPPLY
3N

~PE
380/400/415V
50HZ

L1

L2

L3

63H22

LED1

SW3

(*2)SW5

OUTDOOR MAIN BOARD

OFFON

SW2

TR2

SW1

SW4

OFF

C14

13

CN51

CN3D

DC POWER
SUPPLY

CN34

CN28

3

1

TRANSMISSION
CIRCUIT

3

1

CNS3

CH2

63L2

63H12

21S42

TH3-2

LEV2

X05X02

X03

X01

1
2

CN4

CNMNT

CNVMNT

CNFG

F01

1
3

CN20

CNFC1

CN52

X04

52C2

51C2

1

ON

L3

2

1

2

1

TH2-2

TH1-2

CN3

CN2

CN40

CN3S CN3N CN24 CN27 CN81

12

1

3

F04 F02 F03

357

L2NL1

61

51

CN53CN25

3131531313131

CN26CN21CN22CN23

ON OFF ONOFF

X22

1

2

3

4

5

6

2
1

4
3
2
1

52C2

SV12

MF22

(*1)

C12

C11

3
1

3
1

5
3
1

CNFC2

CNFAN

F.C .
BOARD

16

3
1

5

5
3
1

CNOUT1

CNOUT2

3
1

N.F.BOARD

F20

F30

F10

7513

CNIN

CNPOW

PE

MC2

BLACK
RED

WHITE

51C2

52C2

BLUE
BLACK

RED

WHITE

TB21

GREEN/YELLOW

GREEN/YELLOW

RED

WHITE

BLACK

RED

WHITE

BLACK

WHITE

BLACK

753

5
3
1

3
1

MF21

1

2

3

4

1

2

6
5
4
3
2
1

X11

OFFONOFFON

CN23 CN22 CN21 CN26

1313131351313

CN25 CN53

151 6

L1 N L2

753

F03F02F04

3

1

21

CN81CN27CN24CN3NCN3S

CN40

CN2

CN3

TH1-1

TH2-1

1
2

1
2

N

PE

PE

CIRCUIT BREAKER
(FIELD SUPPLY)
PRH-P16MYA: 63A
PRH-P20MYA: 70A

C12

F.C .
BOARD

PE

L3

N.F.BOARD

C11

CNFAN

CNFC2

CNPOW

1

3

6

(*1)

5

ON

TB11

52C1

51C1

MC1

3

1

CNOUT2

RED

1

3

F10

F20

F30

BLUE

1

52F

51F

MF1

1

PE

CNOUT1

1

51C1

52C1

52C1

X04

CN52

CNFC1

CN20

3

1

F01

CNFG

CNVMNT

CNMNT

CN4

2

1

X01

X03

X02

X05

LEV1

TH3-1

21S41
SV11

63H11

63L1

CH1

CNS3

1
3

TRANSMISSION
CIRCUIT

1

3

CN28

CN34

DC POWER
SUPPLY

CN3D

CN51

31

63H21

C14

OFF

SW4

SW1

TR1

SW2

ON OFF

OUTDOOR MAIN BOARD

(*2)SW5

SW3

LED1

CNIN

1

3

5

C28

X2

X1

INDOOR
POWER BOARD

BLACK

(WITH INDOOR
POWER BOARD)

C18

C18

C28

X1

X2

51F

52F

CR

F22 F12

TH4-2

TH5-2 TH6-2

FB22

1234

CN41

12 12

12

CN29CN21 CN20

1
2
3
4

SW2

(*3)

1
2
3
4
5

SW1

SWE

X4

X5

X6

X6
X5
X4

1
3
5
7

FAN

3

1

5

CN03

123

CN32

INDOOR CONTROLLER
BOARD

1
2

CN2D
DC14V

1122

CN22CN2L

789123456

CN90

FB12

2

3
1

CN01

213

BK

CN02

ZNRF1

DC14V

1

2

CN2S
DC14V

LED1 LED2 LED3

REMOTE CONTROLLER

BOARD

TB6

CN

LCD

LED1LED2 LED3

PE

987654123

2121

32

5

3

1

7

5

3

X4

X5

ONOFF

SWE

1
2
3
4

ONOFF

SW2(*3)

1
2
3
4
5

ONOFF ONOFFON OFFONOFF

SW1

12

1212432

F21

F11

X4

X5

X6

2

1

1

2

1

1

1

2

3

23

SUPPLY AIR
DUCT

RETURN AIR
DUCT

21

FB21

INDOOR CONTROLLER
BOARD

INDOOR
POWER BOARD

CN20

1

DC14V

REMOTE
CONTROLLER

CN2S
DC14V

FB11

TB5

TH4-1

TH5-1 TH6-1

CN02

CN01

ZNR

F1

X6

FAN

1

CN03

CN2D
DC14V

CN21

CN29

CN41

CN32

CN22CN2L

CN90

PE

BK

(WITH INDOOR
POWER BOARD)

BLACK

- 16 -

(2) PRH-P10MYA

(1) PRH-P8MYA

[1] Standard Operation Data

0

Technical Data to Meet LVD

380 400 415 380 400 415

50 50 50 50 50 50

27/19 27/19 27/19 20/– 20/– 20/–

35/– 35/– 35/– 7/6 7/6 7/6

7.7 7.7 7.7 7.7 7.7 7.7

14.7 14.7 14.7 14.5 14.5 14.5

11.9 11.9 11.9 11.7 11.7 11.7

1.1 1.1 1.1 1.1 1.1 1.1

1.7 1.7 1.7 1.7 1.7 1.7

2.25 2.25 2.25 1.72 1.72 1.72

0.56 0.56 0.56 0.38 0.38 0.38
77 77 77 66 66 66
10 10 10 -1 -1 -1
48 48 48 0 0 0
33 33 33 28 28 28

Operating condition

Operating condition Cooling Heating
Voltage V
Power source frequency Hz
Indoor air condition (DB/WB) °C
Outdoor air condition (DB/WB) °C
Refrigerant charge kg

Rated current A

Compressor current A

Rated currentO/D FAN A

Rated current A
Discharge pressure MPa
Suction pressure MPa
Discharge refrigerant temperature °C
Suction refrigerant temperature °C
Liquid pipe temperature

(at piping sensor)

°C

Compressor shell bottom temperature °C

Total

I/D FAN

Refrigerant circuit

Electrical characteristics

380 400 415 380 400 415

50 50 50 50 50 50

27/19 27/19 27/19 20/– 20/– 20/–

35/– 35/– 35/– 7/6 7/6 7/6

8.2 8.2 8.2 8.2 8.2 8.2

18.8 18.8 18.8 18.2 18.2 18.2

14.9 14.9 14.9 14.3 14.3 14.3

1.1 1.1 1.1 1.1 1.1 1.1

2.8 2.8 2.8 2.8 2.8 2.8

2.31 2.31 2.31 1.83 1.83 1.83

0.55 0.55 0.55 0.37 0.37 0.37
78 78 78 70 70 70

999–1–1–1
48 48 48 3 3 3
32 32 32 25 25 25

Operating condition

Operating condition Cooling Heating
Voltage V
Power source frequency Hz
Indoor air condition (DB/WB) °C
Outdoor air condition (DB/WB) °C
Refrigerant charge kg

Rated current A

Compressor current A

Rated current A

Rated current A
Discharge pressure MPa
Suction pressure MPa
Discharge refrigerant temperature °C
Suction refrigerant temperature °C
Liquid pipe temperature

(at piping sensor)

°C

Compressor shell bottom temperature °C

Total

I/D FAN

O/D FAN

Refrigerant circuit

Electrical characteristics

- 17 -

✻1: For each refrigerant circuit

✻1: For each refrigerant circuit

(4) PRH-P20MYA

(3) PRH-P16MYA

380 400 415 380 400 415

50 50 50 50 50 50

27/19 27/19 27/19 20/– 20/– 20/–

35/– 35/– 35/– 7/6 7/6 7/6

7.7 7.7 7.7 7.7 7.7 7.7

Operating condition

Operating condition Cooling Heating
Voltage V
Power source frequency Hz
Indoor air condition (DB/WB) °C
Outdoor air condition (DB/WB) °C
Refrigerant charge

✻1kg

Rated current A

Compressor current A

Rated currentO/D FAN A

Rated current A
Discharge pressure MPa
Suction pressure MPa
Discharge refrigerant temperature °C
Suction refrigerant temperature °C
Liquid pipe temperature

(at piping sensor)

°C

Compressor shell bottom temperature °C

Total

I/D FAN

Refrigerant circuit

Electrical characteristics

380 400 415 380 400 415

50 50 50 50 50 50

27/19 27/19 27/19 20/– 20/– 20/–

35/– 35/– 35/– 7/6 7/6 7/6

8.2 8.2 8.2 8.2 8.2 8.2

29.6

23.8

2.2

3.6

2.27

0.52
79

7
49
31

29.2

23.4

2.2

3.6

1.80

0.40
68

0
2

25

36.6

29.8

2.2

4.6

2.28

0.52
79

7
49
31

35.4

28.6

2.2

4.6

1.80

0.40
68

0
2

25

29.6

23.8

2.2

3.6

2.27

0.52
79

7
49
31

29.6

23.8

2.2

3.6

2.27

0.52
79

7
49
31

29.2

23.4

2.2

3.6

1.80

0.40
68

0
2

25

36.6

29.8

2.2

4.6

2.28

0.52
79

7
49
31

35.4

28.6

2.2

4.6

1.80

0.40
68

0
2

25

29.2

23.4

2.2

3.6

1.80

0.40
68

0
2

25

36.6

29.8

2.2

4.6

2.28

0.52
79

7
49
31

35.4

28.6

2.2

4.6

1.80

0.40
68

0
2

25

Operating condition

Operating condition Cooling Heating
Voltage V
Power source frequency Hz
Indoor air condition (DB/WB) °C
Outdoor air condition (DB/WB) °C
Refrigerant charge

✻1kg

Rated current A

Compressor current A

Rated current A

Rated current A
Discharge pressure MPa
Suction pressure MPa
Discharge refrigerant temperature °C
Suction refrigerant temperature °C
Liquid pipe temperature

(at piping sensor)

°C

Compressor shell bottom temperature °C

Total

I/D FAN

O/D FAN

Refrigerant circuit

Electrical characteristics

- 18 -

[4] Reduction Ratio by Frosting

6 1.0
4 0.98
2 0.88

0 0.85
–2 0.86
–4 0.89
–6 0.92
–8 0.92

–10 0.92

Outdoor unit inlet wet bulb temperature

Heating capacity reduction ratio

(°CWB)

[2] Cooling Capacity Curves

•PRH-P8MYA/P10MYA/P16MYA/P20MYA

[3] Heating Capacity Curves

•PRH-P8MYA/P10MYA/P16MYA/P20MYA

Indoor inlet air wet

bulb

tem

p.

<˚CW

B>

inlet air wet

bulb temp. <˚CWB>

Indoor

Indoor inlet air dry

bulb

temp. <˚CDB>

Indoor inlet air dry

bulb

temp. <˚CDB>

Outdoor

air

temperature

<˚CWB>

Outdoor

air temperature

<˚CWB>

Outdoor air temperature

<˚CDB>

Outdoor

air

temperature

<˚CDB>

- 19 -

1.4

1.2

1

Capacity ratio

0.8

1.22
22

20

1.1

22
20
18

16

Input ratio

0.9

18
16

0.6

-5 -3 -1 1 3 5 7 9 11 13 151719212325272931333537394143

1.4

1.2

1

Capacity ratio

0.8

0.6

-12 -10 -8 -6 -4 -2 0 2 4 6 8 10 12 14 16 18

0.7

-5 -3 -1 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37

1.4
15
20
25

1.2

1

Input ratio

0.8

0.6

-12 -10 -8 -6 -4 -2 0 2 4 6 8 10 12 14 16 18

39 41 43

25

20
15

Capacity/Input ratio

Heating

Airflow rate (m3/min)

Capacity/Input ratio

Cooling

Airflow rate (m3/min)

Capacity/Input ratio

Airflow rate (m3/min)

Cooling

Capacity/Input ratio

Heating

Airflow rate (m3/min)

[5] Capacity/Input Ratio against Changes in Room Airflow Rate

• Model PRH-P8MYA

• Model PRH-P10MYA

0.9

1

1.1

55 65 75 85

Capacity
Input

1.1

0.9

1

55 65 75 85

Capacity
Input

0.9

1

1.1

70 80 90 100 110

Capacity
Input

0.9

1

1.1

70 80 90 100 110

Capacity
Input

Capacity

Input

Capacity

Input

Capacity

Input

Capacity

Input

- 20 -

0.9

1.1

112 120 130 140 150 160 168

1

0.9

1

1.1

112 120 130 140 150 160 168

0.9

1

1.1

144 150 160 170 180 190 200 210 216

0.9

1

1.1

144 150 160 170 180 190 200 210 216

Capacity/Input ratio

Airflow rate (m3/min)

Capacity/Input ratio

Airflow rate (m3/min)

Capacity/Input ratio

Airflow rate (m3/min)

Capacity/Input ratio

Airflow rate (m3/min)

Capacity

Input

Capacity

Input

Capacity

Input

Capacity

Input

• Model PRH-P16MYA

• Model PRH-P20MYA

Capacity
Input

Capacity
Input

Cooling

Heating

Capacity
Input

Capacity
Input

Heating

Cooling

- 21 -

- 22 -

Bypass factor

Airflow rate (m3/min)

55

0.30

0.25

0.20

0.15

0.10

PRH-P8MYA

PRH-P10MYA

Bypass factor

Airflow rate (m3/min)

70 80 90 100 11060 65 70 75 80 85

0.30

0.25

0.20

0.15

0.10

PRH-P16MYA PRH-P20MYA

[6] Bypass Factor Curves

[7] Cooling Sensible Heating Capacity Table

(1) PRH-P8MYA (Airflow rate 70m3/min)

Outdoor

temp.

(°C)

20
25
30
35
40
43

Indoor inlet air temperature (DB/WB°C)

CA
18100
17500
16900
16200
15300
14800

SHC
14400
14100
13900
13600
13200
12900

CA
19300
18700
18100
17400
16600
16000

SHC
14300
14100
13800
13500
13200
12900

CA
20000
19500
18900
18000
17400
16900

SHC
15300
15100
14800
14500
14200
14000

CA
20800
20300
19700
19000
18200
17700

SHC
15300
15100
14900
14600
14300
14100

CA
21900
21500
20900
20200
19500
19000

SHC

(unit : kcal/h)

15000
14900
14700
14400
14200
14000

23/16 25/18 27/19 28/20 30/22

112 120 130 140 150 160 168

Bypass factor

0.2

0.15

0.1

0.05
Airflow rate (m3/min)

144 150 160 170 180 190 216200 210

Bypass factor

0.1

0.15

0.2

0.3

0.25

Airflow rate (m3/min)

(3) PRH-P16MYA (Airflow rate 140m3/min)

(4) PRH-P20MYA (Airflow rate 180m

3

/min)

(2) PRH-P10MYA (Airflow rate 90m3/min)

Outdoor

temp.

(°C)

20
25
30
35
40
43

Indoor inlet air temperature (DB/WB°C)

CA
36200
35000
33800
32400
30600
29600

SHC
29500
28900
28400
27800
27000
26500

CA
38600
37400
36200
34800
33200
32000

SHC
29300
28700
28200
27700
27000
26500

CA
40000
39000
37800
36000
34800
33800

SHC
31300
30900
30400
29700
29200
28800

CA
41600
40600
39400
38000
36400
35400

SHC
31300
30900
30400
29900
29300
28900

CA
43800
43000
41800
40400
39000
38000

SHC

(unit : kcal/h)

(unit : kcal/h)

30800
30500
30000
29500
29000
28700

23/16 25/18 27/19 28/20 30/22

Outdoor

temp.

(°C)

20
25
30
35
40
43

Indoor inlet air temperature (DB/WB°

C)

CA
45000
43600
42000
40200
38200
36800

SHC
36000
35300
34600
33800
32900
32300

CA
48000
46600
45000
43200
41200
40000

SHC
35700
35100
34500
33700
32900
32400

CA
49800
48600
47000
44800
43200
42000

SHC
38200
37700
37100
36200
35500
35000

CA
51600
50400
49000
47200
45400
44000

SHC
38100
37600
37100
36400
35700
35100

CA
54600
53400
52000
50400
48400
47200

SHC
37600
37100
36600
36000
35300
34900

23/16 25/18 27/19 28/20 30/22

(unit : kcal/h)

Outdoor

temp.

(°C)

20
25
30
35
40
43

Indoor inlet air temperature (DB/WB°

C)

CA
22500
21800
21000
20100
19100
18400

SHC
18000
17700
17300
16900
16500
16200

CA
24000
23300
22500
21600
20600
20000

SHC
17900
17600
17200
16900
16400
16200

CA
24900
24300
23500
22400
21600
21000

SHC
19100
18900
18500
18100
17800
17500

CA
25800
25200
24500
23600
22700
22000

SHC
19100
18800
18500
18200
17800
17600

CA
27300
26700
26000
25200
24200
23600

SHC
18800
18600
18300
18000
17700
17400

23/16 25/18 27/19 28/20 30/22

- 23 -

- 24 -

[8] Fan Performance

PRH-P8MYA

PRH-P10MYA

Air flow

85 (CMM)

(L/S)

Total static pressure (Pa)

1.1kW

1.5kW

2.2kW

1.5kW

* : factory pre setting ESP = 100 Pa

Air flow

* : factory pre setting ESP = 100 Pa

110

1830

(CMM)
(L/S)

105100

1670

9590

1500

8580

1330

7570

1170

80

1330

7570

1170

6560

1000

55

0

800

700

600

500

400

300

200

100

0

100

200

300

400

500

600

Total static pressure (Pa)

Fan speed
<rpm>

Fan speed
<rpm>

internal static pressure

internal static pressure

900

1000

1100

1200

1300

800

900

1000

1100

1200

1300

1400

1500

1400

1500

1600

1700