Mitsubishi PUHZ-SW120VHA-BS.UK Service manual

SPLIT-TYPE, AIR TO WATER HEAT PUMP
October 2012
No.OCH533
REVISED EDITION-A
SERVICE MANUAL
R410A
Outdoor unit
[Model names]
PUHZ-SW75VHA
PUHZ-SW100VHA
PUHZ-SW100YHA
PUHZ-SW120VHA
PUHZ-SW120YHA
[Service ref.]
PUHZ-SW75VHA.UK
PUHZ-SW100VHA.UK
PUHZ-SW100YHA.UK
PUHZ-SW120VHA.UK
PUHZ-SW120YHA.UK
Revision:
• The function description of
SW7-3, 7-4 and 7-5 (Page
52) have been corrected in
REVISED EDITION-A.
• Please void OCH533.
Note:
• This manual describes
only service data of the
outdoor units.
Salt proof model
PUHZ-SW75VHA-BS
PUHZ-SW100VHA-BS
PUHZ-SW100YHA-BS
PUHZ-SW120VHA-BS
PUHZ-SW120YHA-BS
PUHZ-SW75VHA-BS.UK
PUHZ-SW100VHA-BS.UK
PUHZ-SW100YHA-BS.UK
PUHZ-SW120VHA-BS.UK
PUHZ-SW120YHA-BS.UK
CONTENTS
1. REFERENCE MANUAL.................................. 2
2. SAFETY PRECAUTION..................................3
3. FEATURES......................................................7
4. SPECIFICATIONS...........................................8
5. DATA............................................................. 11
6. OUTLINES AND DIMENSIONS.................... 13
7. WIRING DIAGRAM....................................... 15
8. WIRING SPECIFICATIONS.......................... 18
9. REFRIGERANT SYSTEM DIAGRAM...............19
10. TROUBLESHOOTING...................................21
11. DISASSEMBLY PROCEDURE..................... 65
PARTS CATALOG (OCB533)
PUHZ-SW75VHA.UK
PUHZ-SW75VHA-BS.UK
1
REFERENCE MANUAL
INDOOR UNIT SERVICE MANUAL
Model name
EHST20C-VM6HB
EHST20C-YM9HB
EHST20C-VM6B
EHST20C-YM9B
EHST20C-VM6EB
EHST20C-YM9EB
EHST20C-VM6SB
EHPT20X-VM2HB
EHPT20X-VM6HB
EHPT20X-YM9HB
EHPT20X-VM6B
EHPT20X-YM9B
EHSC-VM6B
EHSC-YM9B
EHSC-VM6EB
EHSC-YM9EB
EHPX-VM2B
EHPX-VM6B
EHPX-YM9B
ERSC-VM2B
OCH533A
Service ref.
EHST20C-VM6HB.UK
EHST20C-YM9HB.UK
EHST20C-VM6B.UK
EHST20C-YM9B.UK
EHST20C-VM6EB.UK
EHST20C-YM9EB.UK
EHST20C-VM6SB.UK
EHPT20X-VM2HB.UK
EHPT20X-VM6HB.UK
EHPT20X-YM9HB.UK
EHPT20X-VM6B.UK
EHPT20X-YM9B.UK
Service manual No.
OCH531
EHSC-VM6B.UK
EHSC-YM9B.UK
EHSC-VM6EB.UK
EHSC-YM9EB.UK
EHPX-VM2B.UK
EHPX-VM6B.UK
EHPX-YM9B.UK
ERSC-VM2B.UK
OCH532
2
2
SAFETY PRECAUTION
2-1. ALWAYS OBSERVE FOR SAFETY
Before obtaining access to terminal, all supply circuits must disconnected.
Preparation before the repair service.
Precautions during the repair service.
• Prepare the proper tools.
• Prepare the proper protectors.
• Provide adequate ventilation.
• After stopping the operation of the air conditioner, turn off
the power-supply breaker.
• Discharge the condenser before the work involving
the electric parts.
• Do not perform the work involving the electric parts
with wet hands.
• Do not pour water into the electric parts.
• Do not touch the refrigerant.
• Do not touch the hot or cold areas in the refrigerating cycle.
• When the repair or the inspection of the circuit needs to be
done without turning off the power,
exercise great caution not to touch the live parts.
2-2. CAUTIONS RELATED TO NEW REFRIGERANT
Cautions for units utilizing refrigerant R410A
Use new refrigerant pipes.
Do not use refrigerant other than R410A.
In case of using the existing pipes for R22, be careful with
the followings.
· Be sure to perform replacement operation before test run.
· Change flare nut to the one provided with this product.
Use a newly flared pipe.
· Avoid using thin pipes.
If other refrigerant (R22 etc.) is used, chlorine in refrigerant can cause deterioration of refrigerant oil etc.
Use a vacuum pump with a reverse flow check
valve.
Vacuum pump oil may flow back into refrigerant cycle and
that can cause deterioration of refrigerant oil etc.
Make sure that the inside and outside of refrigerant piping is clean and it has no contamination
such as sulfur hazardous for use, oxides, dirt,
shaving particles, etc.
In addition, use pipes with specified thickness.
Use the following tools specifically designed for
use with R410A refrigerant.
The following tools are necessary to use R410A refrigerant.
Contamination inside refrigerant piping can cause deterioration of refrigerant oil etc.
Store the piping indoors, and both ends of the
piping sealed until just before brazing.
(Leave elbow joints, etc. in their packaging.)
If dirt, dust or moisture enters into refrigerant cycle, that can
cause deterioration of refrigerant oil or malfunction of compressor.
Gauge manifold
Charge hose
Gas leak detector
Torque wrench
Tools for R410A
Flare tool
Size adjustment gauge
Vacuum pump adaptor
Electronic refrigerant
charging scale
Handle tools with care.
If dirt, dust or moisture enters into refrigerant cycle, that can
cause deterioration of refrigerant oil or malfunction of compressor.
Use ester oil, ether oil or alkylbenzene oil (small
amount) as the refrigerant oil applied to flares
and flange connections.
Do not use a charging cylinder.
If large amount of mineral oil enters, that can cause deterioration of refrigerant oil etc.
If a charging cylinder is used, the composition of refrigerant will change and the efficiency will be lowered.
Charge refrigerant from liquid phase of gas
cylinder.
Use the specified refrigerant only.
If the refrigerant is charged from gas phase, composition
change may occur in refrigerant and the efficiency will be
lowered.
Never use any refrigerant other than that specified.
Doing so may cause a burst, an explosion, or fire when the
unit is being used, serviced, or disposed of.
Correct refrigerant is specified in the manuals and on the
spec labels provided with our products.
We will not be held responsible for mechanical failure,
system malfunction, unit breakdown or accidents caused
by failure to follow the instructions.
Ventilate the room if refrigerant leaks during
operation. If refrigerant comes into contact with
a flame, poisonous gases will be released.
OCH533A
3
[1] Cautions for service
(1) Perform service after recovering the refrigerant left in unit completely.
(2) Do not release refrigerant in the air.
(3) After completing service, charge the cycle with specified amount of refrigerant.
(4) When performing service, install a filter drier simultaneously.
Be sure to use a filter drier for new refrigerant.
[2] Additional refrigerant charge
When charging directly from cylinder
· Check that cylinder for R410A on the market is syphon type.
· Charging should be performed with the cylinder of syphon stood vertically. (Refrigerant is charged from liquid phase.)
Unit
Gravimeter
[3] Service tools
Use the below service tools as exclusive tools for R410A refrigerant.
No.
1
Tool name
Gauge manifold
Specifications
·Only for R410A
·Use the existing fitting specifications. (UNF1/2)
·Use high-tension side pressure of 5.3MPa·G or over.
2
Charge hose
·Only for R410A
·Use pressure performance of 5.09MPa·G or over.
3
Electronic scale
4
Gas leak detector
·Use the detector for R134a, R407C or R410A.
5
Adaptor for reverse flow check
·Attach on vacuum pump.
6
Refrigerant charge base
7
Refrigerant cylinder
8
Refrigerant recovery equipment
·Only for R410A
·Top of cylinder (Pink)
·Cylinder with syphon
OCH533A
4
2-3. PRECAUTIONS WHEN REUSING EXISTING R22 REFRIGERANT PIPES
Flowchart
• Refer to the flowchart below to determine if the existing pipes can be used and if it is necessary to use a filter dryer.
• If the diameter of the existing pipes is different from the specified diameter, refer to technological data materials to confirm if the pipes can be used.
Measure the existing pipe thickness and
check for damage.
The existing pipe thickness does not meet
specifications or the pipes are damaged.
The existing pipe thickness meets specifications and the pipes are not damaged.
Check if the existing outdoor unit can operate.
After operating the cooling system for about 30
minutes, do a pump down work.
* If the existing outdoor unit cannot operate, use
a refrigerant recovery device to collect the refrigerant.
Disconnect the existing outdoor unit from the
pipes.
Use new pipes for SW75, SW100 and SW120 models.
Attach the new outdoor unit
Perform the airtight test, vacuum air purging,
additional refrigerant charging (if necessary),
and gas leak check.
The existing pipes cannot be reused.
Use new pipes.
Test run
* Refer to 10-2. TEST POINT UNDER TEST RUN.
2-4. PRECAUTIONS FOR SALT PROOF TYPE "-BS" MODEL
Although "-BS" model has been designed to be resistant to salt damage, observe the following precautions to maintain the
performance of the unit.
1. Avoid installing the unit in a location where it will be exposed directly to seawater or sea breeze.
2. If the cover panel may become covered with salt, be sure to install the unit in a location where the salt will be washed away
by rainwater. (If a sunshade is installed, rainwater may not clean the panel.)
3. To ensure that water does not collect in the base of the outdoor unit, make sure that the base is level, not at angle. Water
collecting in the base of the outdoor unit could cause rust.
4. If the unit is installed in a coastal area, clean the unit with water regularly to remove any salt build-up.
5. If the unit is damaged during installation or maintenance, be sure to repair it.
6. Be sure to check the condition of the unit regularly.
7. Be sure to install the unit in a location with good drainage.
OCH533A
5
Cautions for refrigerant piping work
New refrigerant R410A is adopted for replacement inverter series. Although the refrigerant piping work for R410A is same
as for R22, exclusive tools are necessary so as not to mix with different kind of refrigerant. Furthermore as the working
pressure of R410A is 1.6 times higher than that of R22, their sizes of flared sections and flare nuts are different.
1 Thickness of pipes
Because the working pressure of R410A is higher compared to R22, be sure to use refrigerant piping with thickness
shown below. (Never use pipes of 0.7mm or below.)
Diagram below: Piping diameter and thickness
Thickness (mm)
Nominal
Outside
dimensions(inch) diameter (mm)
R410A
R22
0.8
0.8
6.35
1/4
0.8
0.8
9.52
3/8
0.8
0.8
12.70
1/2
1.0
1.0
15.88
5/8
—
1.0
19.05
3/4
2 Dimensions of flare cutting and flare nut
The component molecules in HFC refrigerant are smaller compared to conventional refrigerants. In addition to that,
R410A is a refrigerant, which has higher risk of leakage because its working pressure is higher than that of other refrigerants. Therefore, to enhance airtightness and intensity, flare cutting dimension of copper pipe for R410A has been
specified separately from the dimensions for other refrigerants as shown below. The dimension B of flare nut for R410A
also has partly been changed to increase intensity as shown below. Set copper pipe correctly referring to copper pipe
flaring dimensions for R410A below. For 1/2 and 5/8 inch, the dimension B changes.
Use torque wrench corresponding to each dimension.
Dimension A
Dimension B
Flare cutting dimensions
Nominal
Outside
dimensions(inch)
diameter
6.35
1/4
9.52
3/8
12.70
1/2
15.88
5/8
19.05
3/4
(mm)
Dimension A ( +0
-0.4 )
R410A
R22
9.0
9.1
13.0
13.2
16.2
16.6
19.4
19.7
—
23.3
Flare nut dimensions
Nominal
Outside
dimensions(inch)
diameter
6.35
1/4
9.52
3/8
12.70
1/2
15.88
5/8
19.05
3/4
(mm)
Dimension B
R410A
R22
17.0
17.0
22.0
22.0
24.0
26.0
27.0
29.0
—
36.0
3 Tools for R410A (The following table shows whether conventional tools can be used or not.)
R410A tools
Can R22 tools be used? Can R407C tools be used?
Tool exclusive for R410A
Tool exclusive for R410A
Tool for HFC refrigerant
Tool exclusive for R410A
Tool exclusive for R410A
Ester oil and alkylbenzene
Ester oil:
Alkylbenzene oil: minimum amount
oil (minimum amount)
Prevent compressor malfunction Tool exclusive for R410A
Safety charger
when charging refrigerant by
spraying liquid refrigerant
Prevent gas from blowing out Tool exclusive for R410A
Charge valve
when detaching charge hose
Vacuum drying and air
Tools for other refrigerants can
Vacuum pump
(Usable if equipped
(Usable if equipped
with adopter for reverwith adopter for reverpurge
be used if equipped with adopse flow)
se flow)
ter for reverse flow check
Flaring work of piping
Tools for other refrigerants
Flare tool
(Usable by adjusting
(Usable by adjusting
can be used by adjusting
flaring dimension)
flaring dimension)
flaring dimension
Bend the pipes
Tools for other refrigerants can be used
Bender
Tools for other refrigerants can be used
Cut the pipes
Pipe cutter
Tools for other refrigerants can be used
Welder and nitrogen gas cylinder Weld the pipes
Tools for other refrigerants can be used
Refrigerant charging scale Refrigerant charge
Vacuum gauge or thermis- Check the degree of vacuum. (Vacuum Tools for other refrigerants
valve prevents back flow of oil and refri- can be used
tor vacuum gauge and
gerant to thermistor vacuum gauge)
vacuum valve
Refrigerant charge
Charging cylinder
Tool exclusive for R410A
: Prepare a new tool. (Use the new tool as the tool exclusive for R410A.)
: Tools for other refrigerants can be used under certain conditions.
: Tools for other refrigerants can be used.
Tools and materials
Gauge manifold
Charge hose
Gas leak detector
Refrigerant recovery equipment
Refrigerant cylinder
Applied oil
OCH533A
Use
Air purge, refrigerant charge
and operation check
Gas leak check
Refrigerant recovery
Refrigerant charge
Apply to flared section
6
3
FEATURES
PUHZ-SW100VHA.UK
PUHZ-SW100VHA-BS.UK
PUHZ-SW100YHA.UK
PUHZ-SW100YHA-BS.UK
PUHZ-SW120VHA.UK
PUHZ-SW120VHA-BS.UK
PUHZ-SW120YHA.UK
PUHZ-SW120YHA-BS.UK
PUHZ-SW75VHA.UK
PUHZ-SW75VHA-BS.UK
CHARGELESS SYSTEM
PRE-CHARGED REFRIGERANT IS SUPPLIED FOR PIPING LENGTH AT SHIPMENT.
(Max. 10m (PUHZ-SW75-120))
The refrigerant circuit with LEV (Linear Expansion Valve) and Accumulator always control the optimal refrigerant level regardless
of the length (10m max. and 5m min.) of piping. The additional refrigerant charging work during installation often causes problems. Heretofore it is completely eliminated. This unique system improves the quality and reliability of the work done. It also helps
to speed up the installation time.
OCH533A
7
4
SPECIFICATIONS
<Reference data> Plate heat exchanger (ACH70-40 plates)
(SW120)
(SW75)
Nominal water flow
Heating
(A7/W35)
Capacity
L/min
kW
COP
Power input
Heating
(A7/W45)
Capacity
kW
Power input
kW
2.35
Capacity
kW
7.50
3.40
3.40
Power input
kW
2.20
Capacity
kW
7.50
Power input
2.83
kW
4.95
Capacity
kW
12.0
kW
3.70
Capacity
kW
12.0
COP
4.76
L/min
35.8
kW
12.5
Power input
kW
5.38
Capacity
kW
14.0
Capacity
kW
7.10
1.77
L/min
32.1
kW
11.2
COP
4.45
Power input
kW
2.51
Capacity
kW
11.2
COP
3.42
Power input
kW
3.27
Capacity
kW
10.0
COP
3.32
Power input
kW
3.02
Capacity
kW
10.0
COP
Power input
Nominal water flow
Capacity
2.66
kW
3.76
L/min
26.1
kW
9.10
EER
2.75
Power input
kW
3.31
Capacity
kW
10.0
EER
Power input
4.35
kW
2.30
Note: "COP" and "Power input" in the above table are values
that does NOT contains the "pump input (based on EN 14511)".
OCH533A
Capacity
EER
2.32
EER
Power input
Rating conditions
Nominal operating condition
Heating (A7/W35)
Outside air temperature (Dry-bulb)
Outside air temperature (Wet-bulb)
Water temperature (inlet/outlet)
Heating (A7/W45)
Outside air temperature (Dry-bulb)
Outside air temperature (Wet-bulb)
Water temperature (inlet/outlet)
Heating (A2/W35)
Outside air temperature (Dry-bulb)
Outside air temperature (Wet-bulb)
Water temperature (inlet/outlet)
Heating (A2/W45)
Outside air temperature (Dry-bulb)
Outside air temperature (Wet-bulb)
Water temperature (inlet/outlet)
Cooling (A35/W7)
Outside air temperature (Dry-bulb)
Outside air temperature (Wet-bulb)
Water temperature (inlet/outlet)
Cooling (A35/W18)
Outside air temperature (Dry-bulb)
Outside air temperature (Wet-bulb)
Water temperature (inlet/outlet)
8
2.52
kW
2.59
kW
3.24
Power input
kW
4.01
3.23
COP
Power input
Capacity
Cooling
(A35/W18)
Power input
COP
6.60
Nominal water flow
Cooling
(A35/W7)
16.0
kW
(SW100)
Heating
(A2/W45)
kW
Cooling
(A35/W7)
EER
4.10
Capacity
Power input
Cooling
(A35/W18)
16.0
3.90
Nominal water flow
2.55
kW
kW
18.9
Power input
Heating
(A2/W35)
Heating
(A2/W45)
45.9
Power input
L/min
EER
Heating
(A7/W45)
Heating
(A2/W35)
L/min
COP
2.65
Capacity
Heating
(A7/W35)
Heating
(A7/W45)
Capacity
kW
Nominal water flow
Cooling
(A35/W18)
1.82
8.00
COP
Cooling
(A35/W7)
8.00
Heating
(A7/W35)
kW
COP
Heating
(A2/W45)
Nominal water flow
4.40
COP
Heating
(A2/W35)
22.9
4.08
kW
3.43
+ 7 °C
+ 6 °C
+ 30 °C/+ 35 °C
+ 7 °C
+ 6 °C
+ 40 °C/+ 45 °C
+ 2 °C
+ 1 °C
+ 30 °C/+ 35 °C
+ 2 °C
+ 1 °C
+ 40 °C/+ 45 °C
+ 35 °C
+ 24 °C
+ 12 °C/+ 7 °C
+ 35 °C
+ 24 °C
+ 23 °C/+ 18 °C
PUHZ-SW75VHA.UK
PUHZ-SW75VHA-BS.UK
Single, 50Hz, 230V
19
Munsell 3Y 7.8/1.1
Linear Expansion Valve
Hermetic
TNB220FLHMT
1.3
Inverter
HP switch
Comp. surface thermo
Discharge thermo
Over current detection
—
Plate fin coil
Propeller fan % 1
0.074
55(1,940)
Reverse cycle
48
51
950(37-3/8)
330+30(13+1-3/16)
943(37-1/8)
75(165)
R410A
3.2(7.0)
0.87(FV50S)
9.52(3/8)
15.88(5/8)
Flared
Flared
Max. 10m
Max. 40m
Service Ref.
OUTDOOR UNIT
Power supply (phase, cycle, voltage)
Max. current
External finish
Refrigerant control
Compressor
Model
Motor output
Starter type
Protection devices
Crankcase heater
Heat exchanger
Fan
Fan(drive) % No.
Fan motor output
Airflow
Defrost method
Noise level
REFRIGERANT PIPING
Dimensions
Weight
Refrigerant
Charge
Oil (Model)
Pipe size O.D.
Connection method
Between the indoor &
outdoor unit
A
kW
W
kW
*/min(CFM)
Cooling
Heating
W
D
H
dB
dB
mm(in.)
mm(in.)
mm(in.)
kg(lbs)
kg(lbs)
L
mm(in.)
mm(in.)
Liquid
Gas
Indoor side
Outdoor side
Height difference
Piping length
PUHZ-SW100VHA.UK
PUHZ-SW100VHA-BS.UK
Service Ref.
OUTDOOR UNIT
Power supply (phase, cycle, voltage)
Max. current
External finish
Refrigerant control
Compressor
Model
Motor output
Starter type
Protection devices
Crankcase heater
Heat exchanger
Fan
Fan(drive) % No.
Fan motor output
Airflow
Defrost method
Noise level
Dimensions
Weight
Refrigerant
REFRIGERANT PIPING
Charge
Oil (Model)
Pipe size O.D.
Connection method
Between the indoor &
outdoor unit
OCH533A
Single 50Hz, 230V
29.5
Munsell 3Y 7.8/1.1
Linear Expansion Valve
Hermetic
A
ANB42FNEMT
2.5
ANB33FNEMT
2.5
kW
Inverter
HP switch
LP switch
Discharge thermo
Comp. surface thermo
Over current detection
—
Plate fin coil
Propeller fan % 2
0.060+0.060
100(3,530)
Reverse cycle
W
kW
*/min(CFM)
Cooling
Heating
W
D
H
PUHZ-SW120VHA.UK
PUHZ-SW120VHA-BS.UK
50
54
dB
dB
mm(in.)
mm(in.)
mm(in.)
kg(lbs)
51
54
950(37-3/8)
330+30(13+1-3/16)
1,350(53-1/8)
118(260)
R410A
4.6(10.1)
kg(lbs)
1.40(FV50S)
9.52(3/8)
15.88(5/8)
Flared
Flared
Max. 30m
Max. 75m
L
Liquid
mm(in.)
Gas
mm(in.)
Indoor side
Outdoor side
Height difference
Piping length
9
PUHZ-SW100YHA.UK
PUHZ-SW100YHA-BS.UK
Service Ref.
OUTDOOR UNIT
Power supply (phase, cycle, voltage)
Max. current
External finish
Refrigerant control
Compressor
Model
Motor output
Starter type
Protection devices
Crankcase heater
Heat exchanger
Fan
Fan(drive) % No.
Fan motor output
Airflow
Defrost method
Noise level
Dimensions
Weight
Refrigerant
REFRIGERANT PIPING
Charge
Oil (Model)
Pipe size O.D.
Connection method
Between the indoor &
outdoor unit
OCH533A
A
kW
W
kW
*/min(CFM)
Cooling
Heating
W
D
H
dB
dB
mm(in.)
mm(in.)
mm(in.)
kg(lbs)
PUHZ-SW120YHA
PUHZ-SW120YHA-BS.UK
3 phase, 50Hz, 400V
13
Munsell 3Y 7.8/1.1
Linear Expansion Valve
Hermetic
ANB42FNDMT
ANB33FNDMT
2.5
2.5
Inverter
HP switch
LP switch
Discharge thermo
Comp.surface thermo
Over current detection
—
Plate fin coil
Propeller fan % 2
0.060+0.060
100(3,530)
Reverse cycle
49
50
51
52
950(37-3/8)
330+30(13+1-3/16)
1,350(53-1/8)
130(287)
R410A
kg(lbs)
4.6(10.1)
L
mm(in.)
mm(in.)
1.40(FV50S)
9.52(3/8)
15.88(5/8)
Flared
Flared
Max. 30m
Max. 75m
Liquid
Gas
Indoor side
Outdoor side
Height difference
Piping length
10
5
DATA
5-1. REFILLING REFRIGERANT CHARGE (R410A : kg)
Piping length (one way)
Service Ref.
Initial
10m
20m
30m
40m
50m
60m
75m
charged
PUHZ-SW75VHA.UK
PUHZ-SW75VHA-BS.UK
3.2
3.6
4.0
4.6
—
—
—
3.2
PUHZ-SW100VHA.UK
PUHZ-SW100VHA-BS.UK
PUHZ-SW100YHA.UK
PUHZ-SW100YHA-BS.UK
4.6
4.8
5.0
5.6
6.2
6.8
7.5
4.6
PUHZ-SW120VHA.UK
PUHZ-SW120VHA-BS.UK
PUHZ-SW120YHA.UK
PUHZ-SW120YHA-BS.UK
4.6
4.8
5.0
5.6
6.2
6.8
7.5
4.6
Additional charge is required for pipes
longer than 10 m.
5-2. COMPRESSOR TECHNICAL DATA
(at 20°C)
Service Ref.
PUHZ-SW75VHA.UK
PUHZ-SW75VHA-BS.UK
PUHZ-SW100VHA.UK
PUHZ-SW100VHA-BS.UK
Compressor model
TNB220FLHMT
ANB33FNEMT
Winding
Resistance
()
PUHZ-SW100YHA.UK
PUHZ-SW120VHA.UK
PUHZ-SW120VHA-BS.UK PUHZ-SW100YHA-BS.UK
PUHZ-SW120YHA.UK
PUHZ-SW120YHA-BS.UK
ANB42FNEMT
ANB33FNDMT
ANB42FNDMT
U-V
0.88
0.19
0.19
0.30
0.30
U-W
0.88
0.19
0.19
0.30
0.30
W-V
0.88
0.19
0.19
0.30
0.30
OCH533A
11
5-3. NOISE CRITERION CURVES
PUHZ-SW75VHA.UK
PUHZ-SW75VHA-BS.UK
MODE SPL(dB)
COOLING
48
HEATING
51
LINE
OCTAVE BAND SOUND PRESSURE LEVEL, dB (0 dB = 0.0002 bar)
90
MICROPHONE
1m
UNIT
1.5m
GROUND
80
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
10
APPROXIMATE
THRESHOLD OF
HEARING FOR
CONTINUOUS
NOISE
63
125
NC-20
250
500
1000
2000
4000
8000
BAND CENTER FREQUENCIES, Hz
PUHZ-SW100VHA.UK
PUHZ-SW100VHA-BS.UK
PUHZ-SW100YHA.UK
PUHZ-SW100YHA-BS.UK
MODE SPL(dB)
COOLING
50
HEATING
54
LINE
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
APPROXIMATE
THRESHOLD OF
HEARING FOR
CONTINUOUS
NOISE
63
125
OCH533A
NC-20
250
500
1000
2000
4000
OCTAVE BAND SOUND PRESSURE LEVEL, dB (0 dB = 0.0002 bar)
OCTAVE BAND SOUND PRESSURE LEVEL, dB (0 dB = 0.0002 bar)
80
10
MODE SPL(dB)
COOLING
51
HEATING
54
LINE
90
90
20
PUHZ-SW120VHA.UK
PUHZ-SW120VHA-BS.UK
PUHZ-SW120YHA.UK
PUHZ-SW120YHA-BS.UK
8000
12
80
70
NC-70
60
NC-60
50
NC-50
40
NC-40
30
NC-30
20
10
APPROXIMATE
THRESHOLD OF
HEARING FOR
CONTINUOUS
NOISE
63
125
NC-20
250
500
1000
2000
4000
8000
over 100mm
over 10mm
Service space
Over10
Front piping hole
(Knockout)
Front trunking hole
(Knockout)
92
:92
40
65
45
Power supply wiring hole
(2-:27Knockout)
19
92
55
Right piping hole
(Knockout)
75
Piping Knockout Hole Details
Air Intake
500
Over
Handle for moving
Refrigerant GAS pipe connection (FLARE):15.88(5/8 inch)
Refrigerant LIQUID pipe connection (FLARE):9.52(3/8 inch)
*1...Indication of STOP VALVE connection location.
Example of Notes
over 500mm
over 10mm
FREE
2 SERVICE SPACE
40
:92
Over100
500
65
Right trunking hole
(Knockout)
45
92
:92
40
Side Air Intake
Handle for moving
Handle for moving
Rear Air Intake
Piping and wiring connections
can be made from 4 directions:
front, right, rear and below.
Rear piping hole
(Knockout)
330
Handle for moving
Side Air Intake
4 PIPING-WIRING DIRECTIONS
Power supply wiring hole
(2-:27Knockout)
Rear trunking hole
(Knockout)
FOUNDATION
<Foundation bolt height>
Please secure the unit firmly
with 4 foundation (M10) bolts.
(Bolts and washers must be
purchased locally.)
Power supply wiring hole
(2-:27Knockout)
Over
3 FOUNDATION BOLTS
30
Dimensions of space needed
for service access are
shown in the below diagram.
943
The diagram below shows a
basic example.
Explanation of particular details is
given in the installation manuals etc.
55
27
63
23 27 92
73
Less than
55
27
30
322
600
145
145
Earth terminal
950
Installation Feet
Air Discharge
220
175
145
Rear Air Intake
41
Drain hole
(5-:33)
71
2
1
Handle for moving
Service panel
Terminal Connections
Left···Power supply wiring
Right···Indoor/Outdoor wiring
2-12 % 36 oval holes
(Foundation Bolt M10)
57
175
2-U Shaped notched holes
(Foundation Bolt M10)
Front piping cover
Rear piping cover
Bottom piping hole
(Knockout)
71
30
23
417
1 FREE SPACE (Around the unit)
73 63
23
73 63
23
473
219
81
40
54
53
19
370
28
*1 431
13
673
OCH533A
*1 447
6
OUTLINES AND DIMENSIONS
PUHZ-SW75VHA.UK
PUHZ-SW75VHA-BS.UK
Unit : mm
Ov
er
er
10m
m
Ov
m
0m
15
10
Over
Service space
Example of Notes
FREE
500
Over
Front piping hole
(Knockout)
92
W92
65
Power supply wiring hole
(2-W27Knockout)
Front trunking hole 40
45
(Knockout)
19
92
75
Right piping hole
(Knockout)
Piping Knockout Hole Details
55
W92
Air intake
Handle for moving
*1 ···Indication of STOP VALVE connection location.
Over
150
Dimensions of space needed
for service access are
shown in the below diagram.
Over
500
40
65
45
Right trunking hole
(Knockout)
92
W92
40
FOUNDATION
Rear piping hole
(Knockout)
Rear trunking hole
(Knockout)
Power supply wiring hole
(2-W27Knockout)
Handle for moving
Handle for moving
Side Air Intake
Rear Air Intake
Piping and wiring connections
can be made from 4 directions:
front, right, rear and below.
Please secure the unit firmly
with 4 foundation (M10) bolts.
(Bolts and washers must be
purchased locally.)
<Foundation bolt height>
4 PIPING-WIRING DIRECTIONS
3 FOUNDATION BOLTS
Power supply wiring hole
(2-W27Knockout)
····Refrigerant GAS pipe connction (FLARE)W15.88(5/8 inch)
····Refrigerant LIQUID pipe connection (FLARE)W 9.52(3/8 inch)
O
m
0m
00
r1
ve
Ov
er
10m
m
55
27
30
2 SERVICE SPACE
322
600
145
Air Discharge
Installation Feet
66
175
2-U Shaped notched holes
(Foundation Bolt M10)
30
220
145
145
Earth terminal
950
42
Handle for moving
Side Air Intake
175
Rear Air Intake
Drain hole
(5-W33)
71
2
1
Handle for moving
Service panel
Terminal connection
Left···Power supply wiring
Right···Indoor/Outdoor wiring
2-12 x 36 Oval holes
(Foundation Bolt M10)
71
The diagram below shows a
basic example.
Explantion of particular details is
given in the installation manuals etc.
73 63
23
63
23 27 92
73
Less than
73 63
23
55
27
330
30
53
28
1 FREE SPACE (Around the unit)
1350
417
Front piping cover
Rear piping cover
930
YHA
A
1,079
VHA
Bottom piping hole
(Knockout)
*1 431
635
371
(19)
45
56
370
23
219
A
14
*1 447
OCH533A
81
PUHZ-SW100VHA.UK
PUHZ-SW100VHA-BS.UK
PUHZ-SW100YHA.UK
PUHZ-SW100YHA-BS.UK
PUHZ-SW120VHA.UK
PUHZ-SW120VHA-BS.UK
PUHZ-SW120YHA.UK
PUHZ-SW120YHA-BS.UK
Unit : mm
7
WIRING DIAGRAM
PUHZ-SW75VHA.UK
PUHZ-SW75VHA-BS.UK
SYMBOL
TB1
MC
MF1
21S4
63H
63HS
TH3
TH4
TH6
TH7
TH8
TH34
LEV-A, LEV-B
ACL
CY1, CY2
NAME
SYMBOL
Terminal Block <Power Supply, Indoor/Outdoor> P.B.
R, S
Motor for Compressor
U, V, W
Fan Motor
IPM
Solenoid Valve (Four-Way Valve)
PFC
High Pressure Switch
CB1, CB2, CB3
High Pressure Sensor
Thermistor <Liquid>
N.F.
LI, LO
Thermistor <Discharge>
NI, NO
Thermistor <2-Phase Pipe>
EI, E2, E3
Thermistor <Ambient>
52C
Thermistor <Heat Sink>
C.B.
Thermistor <Comp. Surface>
Linear Expansion Valve
SW1
Reactor
SW4
Capacitor
NAME
Power Circuit Board
Connection Terminal <L/N-Phase>
Connection Terminal <U/V/W-Phase>
Power Module
Converter
Main Smoothing Capacitor
Noise Filter Circuit Board
Connection Terminal <L-Phase>
Connection Terminal <N-Phase>
Connection Terminal <Ground>
52C Relay
Controller Circuit Board
Switch <Manual Defrost, Defect History,
Record Reset, Refrigerant Address>
Switch <Test Operation>
SYMBOL
SW5
SW6
SW7
SW8
SW9
SWP
CN31
CNDM
CN51
SV1/CH
SS
CNM
LED1, LED2
F1, F2, F3, F4
X51, X52, X54
NAME
Switch <Function Switch, Model Select>
Switch <Model Select>
Switch <Function Switch>
Switch <Function Switch>
Switch <Function Switch>
Switch <Pump Down>
Connector <Emergency Operation>
Connector <Connection for Option>
Connector <Connection for Option>
Connector <Connection for Option>
Connector <Connection for Option>
Connector <Connection for Option>
LED <Operation Inspection Indicators>
Fuse <T6.3AL250V>
Relay
LEV-A LEV-B
63H
TH7 TH6 TH3 TH4
63HS
TH34
M
M
C. B.
t°
14
CNM
(WHT)
SW6
CN31
1
CN2
1 (WHT)
TRAN S
1
CNDC
(PNK)
3
1
1
5
X52
F3
21S4 1
(GRN)
F4
F1
1
3
3
1
2
4
3
1
X51
CNAC
(WHT)
1 2
3 CN52C
(RED)
X54
3
7
2
F2
CNS
(WHT)
1
CN4
(WHT)
1 2
CN51 CNDM CN3S
(WHT) (WHT) (WHT)
3
*1
SW1
1
SW5
1 3 1
5
5
51
LEV-A LEV-B
C N VM N T C N M N T
(WHT) (RED)
(WHT) (WHT)
LED1
LED2
1 3
3 63L
63H (RED)
(YLW)
1
SW4 SWP SW8
1
4 1 2 2 1 1 3 2 1
TH7/6 TH3 TH4 63HS TH34
(RED) (WHT)(WHT) (WHT) (RED)
C N F2
7 (WHT)
1
t°
SW7
t°
*1
CNF1
7 (WHT)
MF1 1
MS
3~
t°
SW9
t°
3 SV1
1
/CH
3 SS
(WHT)
(GRY)
5
21S4
RED
RED
W HT
W HT
RED
W HT
N. F.
AC L
MC
MS
3~
1
PFC
2
2
CN52C
(BLK)
P. B.
NO
52C
U
V
BLK
WHT
RED
W
LO
CN5 1
(RED) 2
2
CN4 1
(WHT) 2
2
CN3 1
(WHT) 2
TH8
5
+
CB3
+
CN2
(WHT)
7
1
2
E2
+
CB2
3
t°
1
CB1
1
CN5
(RED)
RED
S W HT
CNAC2
(RED)
U
V
W
R
E3
IPM
1
MODEL
ON
75V OFF
SW6
1 2 3 4 5 6 7 8
SW5-6 *2
ON
OFF
N
1 2 3 4 5 6
*2 SW5 -1 to 5 : Function Switch
OCH533A
L
LI
BRN
ORN
GRN/YLW
The black square ( ) indicates a switch position.
BLU
*1 MODEL SELECT
RED
YLW
CNAC1
(WHT)
3
CY1
CY2
S1 S2 S3 TB1
INDOOR
UNIT
POWER SUPPLY
~/N 230V 50Hz
15
NI
EI
2
PUHZ-SW100VHA.UK
PUHZ-SW100VHA-BS.UK
SYMBOL
TB1
MC
MF1, MF2
21S4
63H
63L
63HS
TH3
TH4
TH6
TH7
TH8
TH34
LEV-A, LEV-B
DCL
CB
CY1, CY2
PUHZ-SW120VHA.UK
PUHZ-SW120VHA-BS.UK
NAME
SYMBOL
Terminal Block <Power Supply, Indoor/Outdoor> P. B.
Motor for Compressor
U, V, W
Fan Motor
LI
Solenoid Valve (Four-Way Valve)
NI
High Pressure Switch
P2
Low Pressure Switch
N2
High Pressure Sensor
DCL1, DCL2
Thermistor <Liquid>
IGBT
Thermistor <Discharge>
EI, E2, E3, E4
Thermistor <2-Phase Pipe>
52C
C.
B.
Thermistor <Ambient>
Thermistor (internal) <Heat Sink>
SW1
Thermistor <Comp. Surface>
Linear Expansion Valve
SW4
Reactor
SW5
Main Smoothing Capacitor
SW6
Capacitor
63H
63L
63HS
TH7 TH6 TH3 TH4
TH34
NAME
Power Circuit Board
Connection Terminal <U/V/W-Phase>
Connection Terminal <L-Phase>
Connection Terminal <N-Phase>
Connection Terminal
Connection Terminal
Connection Terminal <Reactor>
Power Module
Connection Terminal <Ground>
52C Relay
Controller Circuit Board
Switch <Manual Defrost, Defect History,
Record Reset, Refrigerant Address>
Switch <Test Operation>
Switch <Function Switch, Model Select>
Switch <Model Select>
LEV-A
LEV-B
M
M
SYMBOL
SW7
SW8
SW9
SWP
CN31
CNDM
CN51
SV1/CH
SS
CNM
LED1, LED2
F1, F2, F3, F4
X51, X52, X54
NAME
Switch <Function Switch>
Switch <Function Switch>
Switch <Function Switch>
Switch <Pump Down>
Connector <Emergency Operation>
Connector <Connection for Option>
Connector <Connection for Option>
Connector <Connection for Option>
Connector <Connection for Option>
Connector <Connection for Option>
LED <Operation Inspection Indicators>
Fuse <T6.3AL250V>
Relay
C. B.
TRANS
2
1
CNDC
(PNK)
14
CNM
(WHT)
C N4
(WHT)
1 2
1
3
21S4 1
(GRN)
F4
4
3
1
X51
F1
SW7
3
X54
F3
CNAC
(WHT)
1
2
CN31
7
X52
F2
*1
3 CN52C
(RED)
1
2
CNS
(WHT)
3
1
1 3
63H
(YLW)
CN2
1 (WHT) 7
3
1 3 1
5
CNVMNT CNMNT
(WHT) (WHT)
CN51 CNDM CN3S
(WHT) (WHT) (WHT)
1 3
63L
(RED)
5
5 1
LEV-A LEV-B
(WHT) (RED)
SW5
*1
1
SW6
CNF2
7 (WHT)
t°
SW1
1
t°
SW4 SWP SW8
MF2
MS
3~
t°
1
4 1 2 2 1 1 3 2 1
TH7/6 TH3 TH4 63HS TH34
(RED) (WHT)(WHT) (WHT) (RED)
LED1
CNF1
7 (WHT)
LED2
1
SW9
t° t°
MF1
MS
3~
3 S V1 1
3 SS
(WHT)
/CH
(GRY)
1
3
1
3
1
5
21S4
7
2
1 2
C N4
(WHT)
1
3
7
C N2
(WHT)
P. B.
CN52C
3 (RED)
1
52C
52C
B LK
WHT
CNDC
(PNK) 3
N2
E3
2
1
(RED)
CNAC2
CB
+
+
P2
1
IGBT
-
3
~
B LK
E2
RED
1
TH8
+
3
~
(WHT)
CNAC1
t°
E4
DCL2
BLK
WHT
RED
W V U
W
EI
DCL1
B LK
NI
LI
B LK
DCL
V
U
MS
3~
N
BRN
CY1
CY2
ORN
GRN/YLW
YLW
RED
L
BLU
MC
S1 S2 S3 TB1
*1 MODEL SELECT
The black square ( ) indicates a switch position.
MODEL
SW6
ON
100V OFF
1 2 3 4 5 6 7 8
ON
120V OFF
1 2 3 4 5 6 7 8
SW5-6 *2
ON
OFF
ON
OFF
1 2 3 4 5 6
INDOOR
UNIT
POWER SUPPLY
~/N 230V 50Hz
1 2 3 4 5 6
*2 SW5 -1 to 5 : Function Switch
OCH533A
16
RED
W HT
PUHZ-SW100YHA.UK
PUHZ-SW100YHA-BS.UK
SYMBOL
TB1
TB2
MC
MF1, MF2
21S4
63H
63L
63HS
TH3
TH4
TH6
TH7
TH8
TH34
LEV-A, LEV-B
ACL1, ACL2, ACL3, ACL4
CY1, CY2
CK
RS
NAME
Terminal Block <Power Supply>
Terminal Block <Indoor/Outdoor>
Motor for Compressor
Fan Motor
Solenoid Valve (Four-Way Valve)
High Pressure Switch
Low Pressure Switch
High Pressure Sensor
Thermistor <Liquid>
Thermistor <Discharge>
Thermistor <2-Phase Pipe>
Thermistor <Ambient>
Thermistor <Heat Sink>
Thermistor <Comp. Surface>
Linear Expansion Valve
Reactor
Capacitor
Capacitor
Rush Current Protect Resistor
63H
PUHZ-SW120YHA.UK
PUHZ-SW120YHA-BS.UK
SYMBOL
P. B.
TB-U/V/W
TB-L1/L2/L3
TB-N
X52CA
N. F.
LI1/LI2/LI3/NI
LO1/LO2/LO3/NO
GD1, GD3
CONV. B.
L1-A1/IN
L1-A2/OU
L2-A2/OU
L3-A2/OU
N-IN
CK-OU
NAME
Power Circuit Board
Connection Terminal <U/V/W-Phase>
Connection Terminal <L1/L2/L3-Power Supply>
Connection Terminal
52C Relay
Noise Filter Circuit Board
Connection Terminal <L1/L2/L3/N-Power Supply>
Connection Terminal <L1/L2/L3/N-Power Supply>
Connection Terminal <Ground>
Converter Circuit Board
Connection Terminal <L1-Power Supply>
Connection Terminal <L1-Power Supply>
Connection Terminal <L2-Power Supply>
Connection Terminal <L3-Power Supply>
Connection Terminal
Connection Terminal
63L
LEV-A
LEV-B
M
M
63HS
TH7 TH6 TH3 TH4
TH34
SYMBOL
C. B.
NAME
Controller Circuit Board
Switch <Manual Defrost, Defect History,
SW1
Record Reset, Refrigerant Address>
Switch <Test Operation>
SW4
Switch <Function Switch, Model Select>
SW5
Switch <Model Select>
SW6
Switch <Function Switch>
SW7
Switch <Function Switch>
SW8
Switch <Function Switch>
SW9
Switch <Pump Down>
SWP
Connector <Emergency Operation>
CN31
Connector <Connection for Option>
CNDM
Connector <Connection for Option>
CN51
Connector <Connection for Option>
SV1/CH
Connector <Connection for Option>
SS
Connector <Connection for Option>
CNM
LED1, LED2 LED <Operation Inspection Indicators>
F1, F2, F3, F4 FUSE <T6.3AL250V>
X51, X52, X54 Relay
C. B.
t°
1
3
63H
(YLW)
14
CNM
(WHT)
CN4
(WHT)
1 2
3
21S4 1
(GRN)
F4
F1
1
SW6
CN31
4
3
3 SV1
/CH
(GRY)
1
X51
7
F3
CNAC
(WHT)
1
2
*1
3 CN52C
(RED)
1
X54
F2
SW5
1 3 1
5
CNVMNT CNMNT
(WHT) (WHT)
2
CNS
(WHT)
3
1
CN2
1 (WHT) 7
TRANS
1
CNDC
(PNK)
5
1
1
3
1
CN51
(WHT)
3
2
LEV-B
(RED)
SW1
3
63L
(RED)
5 1
CNDM CN3S
(WHT) (WHT)
1
LEV-A
(WHT)
SW4 SWP SW8
CNF2
7 (WHT)
1
SW7
t°
4 1 2 2 1 1 3 2 1
TH7/6 TH3 TH4 63HS TH34
(RED) (WHT) (WHT) (WHT) (RED)
LED1
1
1
X52
MF2
MS
3~
t°
*1
CNF1
7(WHT)
LED2
1
SW9
t° t°
MF1
MS
3~
3
1
*1 MODEL SELECT
The black square ( ) indicates a switch position.
5
3 SS
(WHT)
MODEL
SW6
SW5-6 *2
ON
100Y OFF
ON
OFF
1 2 3 4 5 6 7 8
21S4
ON
120Y OFF
3
TH8
P. B.
1 2 3 4 5 6 7 8
7
2
2
*2
t°
BLK
WHT
TB-L1
TB-L2
TB-L3
RED
RED
RS
1
21
RED
L1-OU
L1-A2
WHT
RED
N-IN
BLK CK-OU
L1-IN
BLU
CNAC2
3 (RED)
L2-A2
WHT
L3-A2
RED
CNCT
(RED) 1
3
CONV. B.
L1-A1
2
N. F.
CNAC1
(WHT)
L2-OU
BLK
BLK
L3-OU
1
CN7
(WHT)
YLW
3
RED
S3
3
MC
BRN
INDOOR
UNIT
S2
V W
U MS
3~
ORN
S1
CK
BLK
CY1
CY2
RED TB-U
WHT TB-V
BLK TB-W
X52CA
TB-N
TB2
ACL1
TB1
L1
POWER
SUPPLY
3N~
400V 50Hz
L2
L3
LO1
RED
WHT
LI2
LO2
WHT
BLK
LI3
LO3
BLK
BLU
NI
NO
BLU
GRN/YLW
N
RED
LI1
+
+
2
3
3
1 CNL
(BLU)
BRN
BLK
BLK
OCH533A
CNDC 1
(PNK)
GD3
BRN
GD1
17
ACL4
1 2 3 4 5 6
SW5 -1 to 5 : Function Switch
1 3 1 21 2 1
7 1 2
CN2
CN7 CN6 CN5
CN4
(WHT) (WHT) (RED) (WHT) (WHT)
RED
1 2 3 4 5 6
ON
OFF
ACL2
ACL3
8
WIRING SPECIFICATIONS
FIELD ELECTRICAL WIRING (power wiring specifications)
Outdoor unit model
Outdoor unit power supply
*1
Wiring
Wire No. ×
size (mm2)
Outdoor unit input capacity Main switch (Breaker)
Outdoor unit power supply
Indoor unit-Outdoor unit
Indoor unit-Outdoor unit earth
Remote controller-Indoor unit
Outdoor unit L-N (single)
Outdoor unit L1-N, L2-N, L3-N (3 phase)
Indoor unit-Outdoor unit S1-S2
Indoor unit-Outdoor unit S2-S3
Remote controller-Indoor unit
Circuit rating
*2
*2
*3
SW75V
SW100V
SW120V
SW100, 120Y
~/N (single),
50 Hz, 230 V
25 A
3 × Min. 2.5
3 × 1.5 (Polar)
1 × Min. 1.5
2 × 0.3 (Non-polar)
~/N (single),
50 Hz, 230 V
32 A
3 × Min. 4
3 × 1.5 (Polar)
1 × Min. 1.5
2 × 0.3 (Non-polar)
~/N (single),
50 Hz, 230 V
40 A
3 × Min. 6
3 × 1.5 (Polar)
1 × Min. 1.5
2 × 0.3 (Non-polar)
3N~ (3 ph 4-wires),
50 Hz, 400 V
16 A
5 × Min. 1.5
3 × 1.5 (Polar)
1 × Min. 1.5
2 × 0.3 (Non-polar)
*4
AC 230 V
AC 230 V
AC 230 V
AC 230 V
*4
*4
*4
AC 230 V
DC 24 V
DC 12 V
AC 230 V
DC 24 V
DC 12 V
AC 230 V
DC 24 V
DC 12 V
AC 230 V
DC 24 V
DC 12 V
*1. A breaker with at least 3.0 mm contact separation in each poles shall be provided. Use earth leakage breaker (NV).
Make sure that the current leakage breaker is one compatible with higher harmonics.
Always use a current leakage breaker that is compatible with higher harmonics as this unit is equipped with an inverter.
The use of an inadequate breaker can cause the incorrect operation of inverter.
*2. Max. 45 m
If 2.5 mm2 used, Max. 50 m
If 2.5 mm2 used and S3 separated, Max. 80 m
*3. The 10 m wire is attached in the remote controller accessory.
*4. The figures are NOT always against the ground.
S3 terminal has DC 24 V against S2 terminal. However between S3 and S1, these terminals are NOT electrically insulated by the transformer or other device.
Notes: 1. Wiring size must comply with the applicable local and national codes.
2. Power supply cables and the cables between Interface unit/Flow temp. controller and outdoor unit shall not be lighter than polychloroprene
sheathed flexible cables. (Design 60245 IEC 57)
3. Be sure to connect the cables between Interface unit/Flow temp. controller and outdoor unit directly to the units (no intermediate connections
are allowed).
Intermediate connections may result in communication errors. If water enters at the intermediate connection point, it may cause insufficient
insulation to ground or a poor electrical contact .
(If an intermediate connection is necessary, be sure to take measures to prevent water from entering the cables.)
4. Install an earth longer than other cables.
5. Do not construct a system with a power supply that is turned ON and OFF frequently.
Power
supply
Isolator
Outdoor Unit
3 poles isolator
S1
S1
S2
S2
S3
S3
Indoor unit
(Interface unit /
Flow temp.
controller)
Warning:
· In case of A-control wiring, there is high voltage potential on the S3 terminal caused by electrical circuit design that has no electrical insulation
between power line and communication signal line. Therefore, please turn off the main power supply when servicing. And do not touch the S1, S2, S3
terminals when the power is energized. If isolator should be used between indoor unit and outdoor unit, please use 3-pole type.
Never splice the power cable or the indoor-outdoor connection cable, otherwise it may result in a smoke, a fire or communication failure.
OCH533A
18
9
REFRIGERANT SYSTEM DIAGRAM
PUHZ-SW75VHA.UK
PUHZ-SW75VHA-BS.UK
Heat exchanger
Stop valve
(with service port)
Refrigerant GAS pipe
connection :15.88(5/8)
unit : mm(inch)
Pressure
sensor 63HS
4-way valve
Strainer
#50
Charge plug
(High pressure)
Charge plug
(Low pressure)
Thermistor TH7
(Ambient)
Thermistor TH6
(2-phase pipe)
Thermistor TH3
(Liquid)
High pressure
switch 63H
Distributor
Thermistor TH4
(Discharge)
Strainer
#100
Linear
expansion valve B
Stop valve
(with service port)
Refrigerant LIQUID pipe
connection :9.52(3/8)
Thermistor TH34
(Comp. surface)
Compressor
Strainer
#100
Power
receiver
Linear expansion valve A
Strainer
#100
PUHZ-SW100VHA
PUHZ-SW100VHA-BS
PUHZ-SW100YHA
PUHZ-SW100YHA-BS
Strainer
#100
PUHZ-SW120VHA
PUHZ-SW120VHA-BS
PUHZ-SW120YHA
PUHZ-SW120YHA-BS
Pressure
sensor 63HS
Ball valve
Refrigerant GAS pipe
connection ø15.88(5/8)
Strainer
#50
Heat exchanger
Thermistor TH7
(Ambient)
Thermistor TH6
(2-phase pipe)
4-way valve
Charge plug
(High pressure)
Charge plug
(Low pressure)
Thermistor TH3
(Liquid)
Distributor
Strainer
#100
Low pressure
switch 63L
High pressure
switch 63H
Thermistor TH4
(Discharge)
Strainer
#100
Linear
expansion valve B
Stop valve
(with service port)
Refrigerant LIQUID pipe
connection ø9.52(3/8)
Symbol
COMP
H/P SW
L/P SW
REV/V
Charge plug
P-Sensor
LEV-A
LEV-B
TH3
TH4
TH6
TH7
TH34
Power Receiver
Thermistor TH34
(Comp. surface)
Power
receiver
Strainer
#100
Compressor
Linear expansion valve A
Refrigerant flow in cooling
Strainer
#100
Strainer
#100
Detail
Part name
Compressor
High pressure switch (63H)
Low pressure switch (63L)
Reversing (4-way) valve (21S4)
Charge plug
Pressure sensor (63HS)
Linear expansion valve -A
Linear expansion valve -B
Liquid temperature thermistor
Discharge temperature thermistor
2-phase pipe temperature thermistor
Ambient temperature thermistor
Comp.surface temperature thermistor
Power Receiver
OCH533A
DC inverter twin rotary compressor (Mitsubishi Electric Corporation)
For protection (OFF:4.15MPa)
For protection (OFF:-0.03MPa) (SW100/120)
Change the refrigerant circuit (Heating / Cooling) and for Defrosting
High pressure / Low pressure / For production test use
For calculation of the condensing temperature from high pressure
Heating:Secondary LEV Cooling:Primary LEV
Heating:Primary LEV
Cooling:Secondary LEV
Heating:Evaporating temperature Cooling:Sub cool liquid temperature
For LEV control and for compressor protection
Outdoor 2-phase pipe temperature
For fan control and for compressor frequency control
For compressor protection
For accumulation of refrigerant
19
Refrigerant flow in heating
9-1. Refrigerant collecting (pump down)
Perform the following procedures to collect the refrigerant when moving the indoor unit or the outdoor unit.
1 Supply power (circuit breaker).
* When power is supplied, make sure that “CENTRALLY CONTROLLED” is not displayed on the remote controller. If “CENTRALLY CONTROLLED” is displayed, the refrigerant collecting (pump down) cannot be completed normally.
* Start-up of the indoor-outdoor communication takes about 3 minutes after the power (circuit breaker) is turned on. Start the
pump-down operation 3 to 4 minutes after the power (circuit breaker) is turned ON.
* In the case of multi-units control, before powering on, disconnect the wiring between the master indoor unit and the slave
indoor unit. For more details refer to the installation manual for the indoor unit.
2 After the liquid stop valve is closed, set the SWP switch on the control board of the outdoor unit to ON. The compressor
(outdoor unit) and ventilators (indoor and outdoor units) start operating and refrigerant collecting operation begins. LED1
and LED2 on the control board of the outdoor unit are lit.
* Only set the SWP switch (push-button type) to ON if the unit is stopped. However, even if the unit is stopped and the
SWP switch is set to ON less than 3 minutes after the compressor stops, the refrigerant collecting operation cannot be performed. Wait until compressor has been stopped for 3 minutes and then set the SWP switch to ON again.
3 Because the unit automatically stops in about 2 to 3 minutes when the refrigerant collecting operation is completed (LED1
off, LED2 lit), be sure to quickly close the gas stop valve. If LED1 is lit and LED2 is off and the outdoor unit is stopped,
refrigerant collection is not properly performed. Open the liquid stop valve completely, and then repeat step 2 after 3 minutes have passed.
* If the refrigerant collecting operation has been completed normally (LED1 off, LED2 lit), the unit will remain stopped until the
power supply is turned off.
4 Turn off the power supply (circuit breaker).
* Note that when the extension piping is very long with large refrigerant amount, it may not be possible to perform a pumpdown operation. When performing the pump-down operation, make sure that the low pressure is lowered to near 0 MPa
(gauge).
Warning:
When pumping down the refrigerant, stop the compressor before disconnecting the refrigerant pipes. The compressor
may burst if air etc. get into it.
9-2. Unit replacement operation
When reusing the existing pipes that carried R22 refrigerant for the SW75/100/120 models, replacement operation
must be performed before performing a test run.
1 If new pipes are used, these procedures are not necessary.
2 If existing pipes that carried R22 refrigerant are used for the SW75/100/120 models, these procedures are not necessary.
(The replacement operation cannot be performed.)
3 During replacement operation, “C5” is displayed on “A-Control Service Tool (PAC-SK52ST)”. (This is applied to only
SW75/100/120 models.)
9-3. Start and finish of test run
• Operation from the indoor unit
Execute the test run using the installation manual for the indoor unit.
• Operation from the outdoor unit
By using the DIP switch SW4 on the control board of outdoor unit, test run can be started and finished, and its operation
mode (cooling/heating) can be set up.
<SW4>
1 Set the operation mode (cooling/heating) using SW4-2.
2 Turn on SW4-1 to start test run with the operation mode set by SW4-2.
ON
3 Turn off SW4-1 to finish the test run.
OFF
• There may be a faint knocking sound around the machine room after power is supplied, but this is
1
2
no problem with product because the linear expansion pipe is just moving to adjust opening pulse.
• There may be a knocking sound around the machine room for several seconds after compressor
Operation
starts operating, but this is no problem with product because the check valve itself, generates the Stop
Cooling Heating
sound because pressure difference is small in the refrigerant circuit.
Note:
The operation mode cannot be changed by SW4-2 during test run. (To change test run mode, stop the unit by SW4-1,
change the operation mode and restart the test run by SW4-1.)
OCH533A
20
10
TROUBLESHOOTING
10-1. TROUBLESHOOTING
<Error code display by self-diagnosis and actions to be taken for service (summary)>
Present and past error codes are logged and displayed on the control board of outdoor unit. Actions to be taken for service,
which depends on whether or not the trouble is reoccurring at service, are summarized in the table below. Check the contents
below before investigating details.
Unit conditions at service
Error code
Actions to be taken for service (summary)
Displayed
Judge what is wrong and take a corrective action according to
“10-3. Self-diagnosis action table”.
The trouble is reoccurring.
Not displayed
Conduct troubleshooting and ascertain the cause of the
trouble.
1 Consider the temporary defects such as the work of
protection devices in the refrigerant circuit including
compressor, poor connection of wiring, noise and etc. Recheck the symptom, and check the installation environment,
refrigerant amount, weather when the trouble occurred,
matters related to wiring and etc.
2 Reset error code logs and restart the unit after finishing
service.
3 There is no abnormality in electrical component, controller
board, and etc.
Logged
The trouble is not reoccurring.
1 Re-check the abnormal symptom.
2 Conduct troubleshooting and ascertain the cause of the
trouble.
3 Continue to operate unit for the time being if the cause is
not ascertained.
4 There is no abnormality concerning of parts such as
electrical component, controller board, and etc.
Not logged
10-2. CHECK POINT UNDER TEST RUN
Before test run
• After installation of outdoor unit, piping work and electric wiring work, re-check that there is no water leakage, loosened connections and incorrect polarity.
• Measure impedance between the ground and the power supply terminal block (L, N) on the outdoor unit by 500 V Megger
and check that it is 1.0 M or over.
• Turn on power supply 12 hours before test run in order to protect compressor.
• Make sure to read operation manual before test run. (Especially items to secure safety.)
OCH533A
21
10-3. SELF-DIAGNOSIS ACTION TABLE
<Abnormalities detected when the power is turned on>
Error Code
Abnormal point and detection method
None
F3
F5
—
Note: Refer to indoor unit section for code P and code E.
Case
1 No voltage is supplied to terminal
block (TB1) of outdoor unit.
a) Power supply breaker is
turned off.
b) Contact failure or
disconnection of power
supply terminal
c) Open phase (L or N phase)
2 Electric power is not charged
to power supply terminal of
outdoor power circuit board.
a) Contact failure of power
supply terminal
b) Open phase on the outdoor
power circuit board
SW75VHA : Disconnection
of connector R or S
SW100/120VHA :
Disconnection of connector
LI or NI
3 Electric power is not supplied
to outdoor controller circuit
board.
a) Disconnection of connector
(CNDC)
4 Disconnection of reactor (DCL
or ACL)
Judgment and action
1 Check following items.
a) Power supply breaker
b) Connection of power supply terminal block
(TB1)
c) Connection of power supply terminal block
(TB1)
2 Check following items.
a) Connection of power supply terminal block
(TB1)
b) Connection of terminal on outdoor power
circuit board
SW75VHA: Check connection of the connector R or S. Refer to
10-7.
SW100/120VHA : Check connection of the
connector LI or NI.
Refer to 10-7.
3 Check connection of the connector (CNDC)
on the outdoor controller circuit board.
Check connection of the connector, CNDC on
the outdoor power circuit board(V)/the noise
filter(Y). Refer to 10-7.
4 Check connection of reactor. (DCL or ACL)
SW75VHA : Check connection of “LO” and “NO”
on the outdoor noise filter circuit
board. Check connection of "R"
and "S" on the outdoor power
circuit board. Refer to 10-7.
SW100/120VHA : Check connection of
"DCL1" and "DCL2" on
the outdoor power circuit
board. Refer to 10-7.
5 Disconnection of outdoor noise 5 a) Check connection of outdoor noise filter
filter circuit board or parts failure
circuit board.
in outdoor noise filter circuit
b) Replace outdoor noise filter circuit board.
board
Refer to 10-7.
As for SW75VHA, it is
especially needed to check the
resistance RS on the noise filter
circuit board.
6 Defective outdoor power circuit 6 Replace outdoor power circuit board.
board
7 Defective outdoor controller
7 Replace controller board (When items above
circuit board
are checked but the units can not be repaired).
63L connector open (SW100/120 only)
1 Disconnection or contact failure 1 Check connection of 63L connector on
Abnormal if 63L connector circuit is open for
outdoor controller circuit board.
of 63L connector on outdoor
3 minutes continuously after power supply.
Refer to 10-7.
controller circuit board
63L: Low-pressure switch
2 Disconnection or contact failure 2 Check the 63L side of connecting wire.
of 63L
3 Check refrigerant pressure.
3 63L is working due to
Charge additional refrigerant.
refrigerant leakage or defective
Check continuity by tester.
parts.
Replace the parts if the parts are defective.
4 Replace outdoor controller circuit board.
4 Defective outdoor controller
circuit board
63H connector open
1 Disconnection or contact failure
Abnormal if 63H connector circuit is open for
of 63H connector on outdoor
3 minutes continuously after power supply.
controller circuit board
63H: High-pressure switch
2 Disconnection or contact failure
of 63H
3 63H is working due to defective
parts.
4 Defective outdoor controller
circuit board
OCH533A
22
1 Check connection of 63H connector on
outdoor controller circuit board.
Refer to 10-7.
2 Check the 63H side of connecting wire.
3 Check continuity by tester.
Replace the parts if the parts are defective.
4 Replace outdoor controller circuit board.
Error Code
2 connector open (SW100/120 only)
Abnormal if both 63H and 63L connector
circuits are open for three minutes
continuously after power supply.
F9
EA
Eb
63H: High-pressure switch
63L: Low-pressure switch
Indoor/outdoor unit connector
miswiring, excessive number of units (4
units or more)
1. Outdoor controller circuit board can
automatically check the number of
connected indoor units. Abnormal if the
number cannot be checked automatically
due to miswiring of indoor/outdoor unit
connecting wire and etc. after power is
turned on for 4 minutes.
2. Abnormal if outdoor controller circuit
board recognizes the number of
connected indoor units as “4 units or
more”.
Judgment and action
1 Disconnection or contact failure
of connector (63H,63L) on
outdoor controller circuit board.
2 Disconnection or contact failure
of 63H, 63L
3 63H and 63L are working due
to defective parts.
4 Defective outdoor controller
board.
1 Check connection of connector (63H,63L) on
outdoor controller circuit board.
Refer to 10-7.
2 Check the 63H and 63L side of connecting
wire.
3 Check continuity by tester.
Replace the parts if the parts are defective.
4 Replace outdoor controller circuit board.
1 Contact failure or miswiring of
indoor/outdoor unit connecting
wire
2 Diameter or length of indoor/
outdoor unit connecting wire is
out of specified capacity.
3 4 or more indoor units are
connected to one outdoor unit.
4 Defective transmitting receiving
circuit of outdoor controller
circuit board
5 Defective transmitting receiving
circuit of indoor controller board
6 Defective indoor power board
7 2 or more outdoor units have
refrigerant address “0” .
(In case of group control)
8 Noise has entered into power
supply or indoor / outdoor unit
connecting wire.
1 Check disconnection or looseness or polarity
of indoor/outdoor unit connecting wire of
indoor and outdoor units.
2 Check diameter and length of indoor/outdoor
unit connecting wire.
Total wiring length: 80m
(including wiring connecting each indoor unit
and between indoor and outdoor unit)
Also check if the connection order of flat
cable is S1, S2, S3.
3 Check the number of indoor units that are
connected to one outdoor unit. (If EA is
detected)
4~6 Turn the power off once, and on again to
check.
Replace outdoor controller circuit board,
indoor controller board or indoor power
board if abnormality occurs again.
Miswiring of indoor/outdoor unit
connecting wire (converse wiring or
disconnection)
Outdoor controller circuit board can
automatically set the unit number of indoor
units.
Abnormal if the indoor unit number can
not be set within 4 minutes after power
on because of miswiring (converse wiring
or disconnection) of indoor/outdoor unit
connecting wire.
1 Contact failure or miswiring of 7 Check if refrigerant addresses (SW1-3 to
indoor/outdoor unit connecting
SW1-6 on outdoor controller circuit board) are
wire
overlapping in case of group control system.
2 Diameter or length of indoor/
outdoor unit connecting wire is 8 Check transmission path, and remove the
out of specified capacity.
cause.
4 Defective transmitting receiving
circuit of outdoor controller circuit * The descriptions above, 1-8, are for EA, Eb
board
and EC.
5 Defective transmitting receiving
circuit of indoor controller board
6 Defective indoor power board
7 2 or more outdoor units have
refrigerant address “0” .
(In case of group control)
8 Noise has entered into power
supply or indoor/outdoor unit
connecting wire.
Start-up time over
The unit cannot finish start-up process
within 4 minutes after power on.
1 Contact failure of indoor/
outdoor unit connecting wire
2 Diameter or length of indoor/
outdoor unit connecting wire is
out of specified capacity.
7 2 or more outdoor units have
refrigerant address “0” .
(In case of group control)
8 Noise has entered into power
supply or indoor/outdoor unit
connecting wire.
Incorrect connection
The outdoor unit does not receive the signals of I/F or FTC.
1 A device other than Interface
unit or Flow temp. controller
unit is connected to the unit.
EC
EE
Case
Abnormal point and detection method
OCH533A
23
1 Connect I/F or FTC to the unit.
<Abnormalities detected while unit is operating>
Error Code
U1
Abnormal point and detection method
Case
High pressure (High-pressure switch
1 Short cycle of indoor unit
63H operated)
2 Clogged filter of indoor unit
Abnormal if high-pressure switch 63H
3 Decreased airflow caused by
operated ( ) during compressor operation.
dirt of indoor fan
4 Dirt of indoor heat exchanger
4.15 MPa
5 Locked indoor fan motor
6 Malfunction of indoor fan motor
63H: High-pressure switch
7 Defective operation of stop
valve (Not fully open)
8 Clogged or broken pipe
9 Locked outdoor fan motor
0 Malfunction of outdoor fan
motor
1 Short cycle of outdoor unit
2 Dirt of outdoor heat exchanger
3 Decreased airflow caused by
defective inspection of outside
temperature thermistor
(It detects lower temperature
than actual temperature.)
4 Disconnection or contact failure
of connector (63H) on outdoor
controller board
5 Disconnection or contact failure
of 63H connection
6 Defective outdoor controller
board
7 Defective action of linear
expansion valve
8 Malfunction of fan driving circuit
High discharging temperature
(1) Abnormal if discharge temperature
thermistor (TH4) exceeds 125: or
110: continuously for 5 minutes.
Abnormal if discharge temperature
thermistor (TH4) exceeds 110: or
more continuously for 30 seconds
after 90 seconds have passed since the
defrosting operation started.
U2
(2) Abnormal if discharge superheat
(Cooling: TH4 – T63HS /
Heating: TH4 – T63HS) exceeds 70:
continuously for 10 minutes.
High comp. surface temperature
Abnormal if comp. surface temperature
(TH34) exceeds 125:.In the case of
high comp. surface temperature error,
compressor does not restart unless the
thermistor (TH34) becomes less than
95:.
U3
Open/short circuit of discharge
temperature thermistor (TH4) / Comp.
surface temperature thermistor (TH34)
Abnormal if open (3: or less) or short
(217: or more) is detected during
compressor operation.
(Detection is inoperative for 10 minutes
of compressor starting process and for 10
minutes after and during defrosting.)
OCH533A
1 Overheated compressor
operation caused by shortage
of refrigerant
2 Defective operation of stop
valve
3 Defective thermistor
4 Defective outdoor controller
board
Judgment and action
1~6Check indoor unit and repair defect.
7 Check if stop valve is fully open.
8 Check piping and repair defect.
9~2 Check outdoor unit and repair defect.
3 Check the detected temperature of outside
temperature thermistor on LED display.
(SW2 on A-Control Service Tool : Refer to
10-8.)
4~6 Turn the power off and check F5 is
displayed when the power is turned again.
When F5 is displayed, refer to “Judgment
and action” for F5.
7 Check linear expansion valve.
Refer to 10-5.
8 Replace outdoor controller board.
1 Check intake superheat.
Check leakage of refrigerant.
Charge additional refrigerant.
2 Check if stop valve is fully open.
34 Turn the power off and check if U3 is
displayed when the power is turned on again.
When U3 is displayed, refer to “Judgement
and action” for U3.
5 Defective action of linear
5 Check linear expansion valve.
expansion valve
Refer to 10-5.
6 Clogging with foreign objects in 6 After recovering refrigerant, remove water
refrigerant circuit
from entire refrigerant circuit under vacuum
more than 1 hour.
w Clogging occur in the parts
which become below freezing
point when water enters in
refrigerant circuit.
1 Disconnection or contact failure 1 Check connection of connector (TH4/TH34)
of connector (TH4/TH34) on
on the outdoor controller circuit board.
the outdoor controller circuit
Check breaking of the lead wire for
board
thermistor (TH4/TH34). Refer to 10-7.
2 Defective thermistor
2 Check resistance value of thermistor (TH4/
TH34) or temperature by microprocessor.
(Thermistor/TH4/TH34: Refer to 10-5.)
(SW2 on A-Control Service Tool: Refer to 10-8.)
3 Defective outdoor controller
3 Replace outdoor controller board.
circuit board
24
Error Code
Abnormal point and detection method
(
U4
Judgment and action
Case
Open/short of outdoor unit thermistors 1 Disconnection or contact failure 1 Check connection of connector (TH3, TH7/6)
(TH3, TH6, TH7, and TH8)
of connectors
on the outdoor controller circuit board.
Abnormal if open or short is detected
Outdoor controller circuit board:
Check connection of connector (CN3) on the
during compressor operation.
TH3, TH7/6
outdoor power circuit board.
Open detection of thermistors TH3 and
Outdoor power circuit board:
Check breaking of the lead wire for thermistor
TH6 is inoperative for 10 seconds to 10
(TH3, TH6,TH7,TH8). Refer to 10-7.
CN3
minutes after compressor starting and 10
2 Check resistance value of thermistor (TH3,
minutes after and during defrosting.
TH6,TH7,TH8) or check temperature by
* Check which unit has abnormality in
microprocessor.
2 Defective thermistor
its thermistor by switching the mode of
(Thermistor/TH3,TH6,TH7,TH8: Refer to 10-5.)
SW2. (PAC-SK52ST) (Refer to 10-8.)
(SW2 on A-Control Service Tool: Refer to 10-8.)
* SW100/120V
3 Replace outdoor controller circuit board.
3 Defective outdoor controller
Heatsink thermistor(TH8) is in the power
* Emergency operation is available in case of
circuit board
module.
abnormalities of TH3, TH6 and TH7.
)
Thermistors
Symbol
TH3
TH6
TH7
TH8
TH8
Name
Thermistor <Liquid>
Thermistor <2-phase pipe>
Thermistor <Amibient>
Thermistor <Heatsink> SW75VHA, SW100/120YHA
Internal thermistor SW100/120VHA
Temperature of heatsink
Abnormal if heatsink thermistor (TH8)
detects temperature indicated below.
SW75V
········································79°C
SW100V ········································94°C
SW100Y ········································84°C
SW120V ········································94°C
SW120Y ········································84°C
U5
U6
U7
U8
1 The outdoor fan motor is
locked.
2 Failure of outdoor fan motor
3 Air flow path is clogged.
4 Rise of ambient temperature
Open detection
Short detection
- 40 °C or below
- 40 °C or below
- 40 °C or below
- 27 °C or below
- 35 °C or below
90 °C or above
90 °C or above
90 °C or above
102 °C or above
170 °C or above
12 Check outdoor fan.
3 Check air flow path for cooling.
4 Check if there is something which causes
temperature rise around outdoor unit.
(Upper limit of ambient temperature is 46:.)
Turn off power, and on again to check if U5 is
displayed within 30 minutes.
If U4 is displayed instead of U5, follow the
action to be taken for U4.
5 Defective thermistor
5 Check resistance value of thermistor (TH8)
or temperature by microprocessor.
(Thermistor/TH8: Refer to 10-5.)
(SW2 on A-Control Service Tool: Refer to 10-8.)
6 Defective input circuit of
outdoor power circuit board
6 Replace outdoor power circuit board.
7 Failure of outdoor fan drive circuit 7 Replace outdoor controller circuit board.
Power module
1 Outdoor stop valve is closed.
Check abnormality by driving power module 2 Decrease of power supply voltage
in case overcurrent is detected.
3 Looseness, disconnection or
(UF or UP error condition)
converse of compressor wiring
connection
4 Defective compressor
5 Defective outdoor power circuit
board
1 Open stop valve.
2 Check facility of power supply.
3 Correct the wiring (U•V•W phase) to
compressor. Refer to 10-7 (Outdoor power
circuit board).
4 Check compressor referring to 10-5.
5 Replace outdoor power circuit board.
Too low superheat due to low discharge 1 Disconnection or loose
temperature
connection of discharge
Abnormal if discharge superheat is
temperature thermistor (TH4)
continuously detected less than or equal
2 Defective holder of discharge
to -15: for 3 minutes even though linear
temperature thermistor
expansion valve has minimum open pulse after 3 Disconnection or loose connection
compressor starts operating for 10 minutes.
of linear expansion valve’s coil
4 Disconnection or loose
connection of linear expansion
valve’s connector
5 Defective linear expansion valve
12 Check the installation conditions of
discharge temperature thermistor (TH4).
Outdoor fan motor
1 Failure in the operation of the
Abnormal if rotational frequency of the fan
DC fan motor
motor is not detected during DC fan motor 2 Failure in the outdoor circuit
operation.
controller board
Fan motor rotational frequency is abnormal if;
• 100 rpm or below detected continuously
for 15 seconds at 20: or more outside
air temperature.
• 50 rpm or below or 1500 rpm or more
detected continuously for 1 minute.
1 Check or replace the DC fan motor.
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25
3 Check the coil of linear expansion valve.
Refer to 10-6.
4 Check the connection or contact of LEV-A and
LEV-B on outdoor controller circuit board.
5 Check linear expansion valve. Refer to 10-5.
2 Check the voltage of the outdoor circuit
controller board during operation.
3 Replace the outdoor circuit controller board.
(When the failure is still indicated even after
performing the action 1 above.)
Error Code
Abnormal point and detection method
Case
Judgment and action
To find out the details about U9 error, turn ON SW2-1, 2-2, 2-3, 2-4, 2-5 and 2-6 when U9 error occurs.
Detailed To find out the detail history (latest) about U9 error, turn ON SW2-1, 2-2 and 2-6.
codes
Refer to 10-8.
01
02
U9
04
08
Overvoltage error
1 Abnormal increase in power source volt• Increase in DC bus voltage to
age
SW75VHA: 420V
2 Disconnection of compressor wiring
SW100, 120VHA: 400V
3 Defective outdoor power circuit
SW100, 120YHA: 760V
board
4 Compressor has a ground fault.
1 Check the field facility for the power supply.
2 Correct the wiring (U.V.W phase) to
compressor. Refer to 10-7 (Outdoor
power circuit board).
3 Replace outdoor power circuit board.
4 Check compressor for electrical
insulation. Replace compressor.
Undervoltage error
1 Decrease in power source voltage,
• Instantaneous decrease in DC
instantaneous stop.
bus voltage to
2 Disconnection or loose connection of
SW75, 100, 120VHA: 200V
CN52C on the outdoor power circuit
SW100, 120YHA: 350V
board/controller circuit board (SW100,
120VHA)
3 Disconnection or loose connection
of CN52C on the outdoor noise filter
circuit board/controller circuit board
(SW75VHA)
4 Defective converter drive circuit in
outdoor power circuit board (SW·VHA)
5 Defective 52C drive circuit in outdoor
power circuit board (SW100, 120V/YHA)
6 Defective 52C drive circuit in outdoor
noise filter circuit board (SW75)
7 Defective outdoor converter circuit
board (SW·YHA)
8 Disconnection or loose connection
of rush current protect resistor RS
(SW·YHA)
9 Defective rush current protect
resistor RS (SW·YHA)
0 Disconnection or loose connection
of main smoothing capacitor CB
(SW100,120VHA)
1 Disconnection or loose connection
of CN2 on the outdoor power circuit
board /controller circuit board
(SW100,120VHA)
2 Power circuit failure on DC supply for
18V DC output on outdoor controller
circuit board (SW100,120VHA).
1 Check the field facility for the power
supply.
23 Check CN52C wiring. (SW·VHA)
Input current sensor error/
1 L1-phase open (SW·YHA)
L1-phase open error
2 Disconnection or loose connection
between TB1 and outdoor noise filter
• Decrease in input current
circuit board (SW75VHA/SW100,
through outdoor unit to 0.1A
120YHA)
only if operation frequency is
more than or equal to 40Hz
3 Disconnection or loose connection of
CN5 on the outdoor power circuit board/
or compressor current is more
CNCT on the outdoor noise filter board
than or equal to 6A.
(SW75VHA/SW100, 120YHA)
4 Defective ACCT (AC current trans)
on the outdoor noise filter circuit
board (SW75VHA/SW100, 120YHA)
5 Defective input current detection
circuit in outdoor power circuit board
6 Defective outdoor controller circuit board
Abnormal power synchronous 1
signal
• No input of power synchronous 2
signal to power circuit board
• Power synchronous signal
3
of 44 Hz or less, or 65 Hz or
more is detected on power
circuit board.
4
OCH533A
Distortion of power source voltage,
Noise superimposition.
Disconnection or loose connection
of earth wiring
Disconnection or loose connection
of CN2 on the outdoor power circuit
board /controller circuit board
Defective power synchronous signal
circuit in outdoor controller circuit board
5 Defective power synchronous signal
circuit in outdoor power circuit board
26
4 Replace outdoor power circuit board.
(SW·VHA)
5 Replace outdoor power circuit board.
(SW100,120V/YHA)
6 Replace outdoor noise filter circuit
board. (SW75VHA)
7 Replace outdoor converter circuit
board. (SW·YHA)
8 Check RS wiring. (SW·YHA)
9 Replace RS. (SW·YHA)
0 Check CB wiring. (SW100,120VHA)
1 Check CN2 wiring. (SW100,120VHA)
2 Replace outdoor controller circuit
board. (SW100,120VHA)
1 Check the field facility for the power
supply. (SW·YHA)
2 Check the wiring between TB1 and
outdoor noise filter circuit board.
(SW75VHA/SW100, 120YHA)
3 Check CN5/CNCT wiring. (SW75VHA/
SW100, 120YHA)
4 Replace outdoor noise filter circuit
board. (SW·YHA)
5 Replace outdoor power circuit board.
6 Replace outdoor controller circuit board.
1 Check the field facility for the power
supply.
2 Check earth wiring.
3 Check CN2 wiring.
4 Replace outdoor controller circuit board.
5 Replace outdoor power circuit board.
Error Code
U9
Abnormal point and detection method
Detailed PFC error (Overvoltage/
codes Undervoltage/Overcurrent)
• PFC detected any of the followings
a) Increase of DC bus voltage
to 420V.
b) Decrease in PFC control
voltage to 12V DC or lower
10
c) Increase in input current to
50A peak
(SW75VHA only)
20
Ud
UE
UF
UH
PFC/IGBT error (Undervoltage)
• When Compressor is running,
DC bus voltage stays at 310V or
lower for consecutive 10 seconds
(SW·VHA only)
Overheat protection
Abnormal if liquid thermistor (TH3), condensing temperature T63HS detects 70:
or more during compressor operation.
1 Abnormal increase in power
source voltage
2 Decrease in power source
voltage, instantaneous stop
3 Disconnection of compressor
wiring
4 Misconnection of reactor (ACL)
5 Defective outdoor power circuit
board
6 Defective reactor (ACL)
7 Disconnection or loose
connection of CN2 on the
outdoor power circuit board/
controller circuit board
12 Check the field facility for the power
supply.
3 Correct the wiring (U.V.W phase) to
compressor. Refer to 10-7 (Outdoor power
circuit board).
4
5
6
7
Correct the wiring of reactor (ACL).
Replace outdoor power circuit board.
Replace reactor (ACL).
Check CN2 wiring.
1 Incorrect switch settings on the
1 Correction of a model select
outdoor controller circuit board for
model select
2 Replace outdoor power circuit board.
2 Defective outdoor power circuit 3 Replace outdoor controller circuit board.
board
3 Defective outdoor controller circuit
board
1 Defective outdoor fan (fan
1 Check outdoor unit air passage.
motor) or short cycle of outdoor
unit during cooling operation
2 Defective liquid thermistor
23 Turn the power off and on again to check
(TH3), condensing temperature
the error code. If U4 is displayed, follow
T63HS
the U4 processing direction.
3 Defective outdoor controller board
Abnormal pressure of pressure sensor 1 Disconnection or contact
(63HS)
failure of connector (63HS) on
Abnormal if pressure sensor (63HS)
the outdoor controller circuit
detects 0.1 MPa or less.
board
Detection is inoperative for 3 minutes after 2 Defective pressure sensor
compressor starting and 3 minutes after
3 Defective outdoor controller
and during defrosting.
circuit board
Compressor overcurrent interruption
(When compressor locked)
Abnormal if overcurrent of DC bus or
compressor is detected within 30 seconds
after compressor starts operating.
Judgment and action
Case
1 Stop valve is closed.
2 Decrease of power supply
voltage
3 Looseness, disconnection or
converse of compressor wiring
connection
4 Defective compressor
1 Check connection of connector (63HS) on
the outdoor controller circuit board.
Check breaking of the lead wire for
thermistor (63HS).
2 Check pressure by microprocessor.
(Pressure sensor/ 63HS)
(SW2: Refer to 10-8.)
3 Replace outdoor controller board.
1 Open stop valve.
2 Check facility of power supply.
3 Correct the wiring (U • V • W phase) to
compressor.
Refer to 10-7 (Outdoor power circuit board).
4 Check compressor.
Refer to 10-5.
5 Defective outdoor power board 5 Replace outdoor power circuit board.
Current sensor error or input current error 1 Disconnection of compressor
1 Correct the wiring (U • V • W phase) to
• Abnormal if current sensor detects –1.0A
compressor. Refer to 10-7 (Outdoor power
wiring
to 1.0A during compressor operation. (This
circuit board).
error is ignored in case of test run mode.) 2 Defective circuit of current
2 Replace outdoor power circuit board.
• Abnormal if 40A (SW100/120V) of input
sensor on outdoor power circuit
current is detected or 37A (SW100/120V)
board
or more of input current is detected for 10 3 Decrease of power supply
3 Check the facility of power supply.
seconds continuously.
voltage
Low pressure (63L operated)
(SW100/120 only)
Abnormal if 63L is operated (under
-0.03MPa) during compressor operation.
63L: Low-pressure switch
UL
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1 Stop valve of outdoor unit is
closed during operation.
2 Disconnection or loose
connection of connector (63L)
on outdoor controller board
3 Disconnection or loose
connection of 63L
4 Defective outdoor controller
board
5 Leakage or shortage of
refrigerant
6 Malfunction of linear expansion
valve
27
1 Check stop valve.
2~4 Turn the power off and on again to check
if F3 is displayed on restarting.
If F3 is displayed, follow the F3 processing
direction.
5 Correct to proper amount of refrigerant.
6 Check linear expansion valve.
Refer to 10-5.
Error Code
Abnormal point and detection method
Compressor overcurrent interruption
Abnormal if overcurrent DC bus or
compressor is detected after compressor
starts operating for 30 seconds.
UP
Case
1 Stop valve of outdoor unit is
closed.
2 Decrease of power supply
voltage
3 Looseness, disconnection or
converse of compressor wiring
connection
4 Defective fan of indoor/outdoor
units
5 Short cycle of indoor/outdoor
units
6 Defective input circuit of
outdoor controller board
7 Defective compressor
8 Defective outdoor power circuit
board
9 Dip switch setting difference of
outdoor controller circuit board
Judgment and action
1 Open stop valve.
2 Check facility of power supply.
3 Correct the wiring (U • V • W phase) to
compressor. Refer to 10-7 (Outdoor power
circuit board).
4 Check indoor/outdoor fan.
5 Solve short cycle.
6 Replace outdoor controller circuit board.
W Before the replacement of the outdoor
controller circuit board, disconnect the wiring
to compressor from the outdoor power circuit
board and check the output voltage among
phases, U, V, W, during test run.
No defect on board if voltage among phases
(U-V, V-W and W-U) is same. Make sure
to perform the voltage check with same
performing frequency.
7 Check compressor. Refer to 10-5.
8 Replace outdoor power circuit board.
9 Check the dip switch setting of outdoor
controller circuit board.
Remote controller transmission error (E0)/ 1 Contact failure at transmission 1 Check disconnection or looseness of indoor
unit or transmission wire of remote controller.
signal receiving error (E4)
wire of remote controller
2 Set one of the remote controllers “main” if
1 Abnormal if main or sub remote
2 All remote controllers are set
there is no problem with the action above.
controller cannot receive normally
as “sub” remote controller.
3 Check wiring of remote controller.
any transmission from indoor unit of
In this case, E0 is displayed
• Total wiring length: Max. 500m
refrigerant address “0” for 3 minutes.
on remote controller, and E4
(Do not use cable o 3 or more.)
(Error code : E0)
is displayed at LED (LED1,
• The number of connecting indoor units:
LED2) on the outdoor controller
2 Abnormal if sub remote controller could
Max. 16 units
not receive any signal for 2 minutes.
circuit board.
• The number of connecting remote
(Error code: E0)
3 Miswiring of remote controller
controller: Max. 2 units
E0
or
E4
E1
or
E2
1 Abnormal if indoor controller board can
not receive normally any data from
remote controller board or from other
indoor controller board for 3 minutes.
(Error code: E4)
2 Indoor controller board cannot receive
any signal from remote controller for 2
minutes. (Error code: E4)
When it is not the above-mentioned problem of
1~3
4 Defective transmitting receiving 4 Diagnose remote controllers.
a) When “RC OK” is displayed,
circuit of remote controller
Remote controllers have no problem.
5 Defective transmitting receiving
Turn the power off, and on again to check.
circuit of indoor controller board
If abnormality generates again, replace
of refrigerant address “0”
indoor controller board.
6 Noise has entered into the
b) When “RC NG” is displayed,
transmission wire of remote
Replace remote controller.
controller.
c) When "RCE3" or "ERC00-66" is displayed,
noise may be causing abnormality.
* If the unit is not normal after replacing
indoor controller board in group control,
indoor controller board of address “0”
may be abnormal.
Remote controller control board
1 Abnormal if data cannot be normally
read from the nonvolatile memory of the
remote controller control board.
(Error code: E1)
2 Abnormal if the clock function of remote
controller cannot be normally operated.
(Error code: E2)
1 Defective remote controller
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28
1 Replace remote controller.
Error Code
E3
or
E5
E6
E8
E9
Abnormal point and detection method
Interface unit/Flow temp. controller
or outdoor unit communication error
(Signal receiving error)
1 Abnormal if Interface unit/Flow temp.
controller cannot receive any signal
normally for 6 minutes after turning the
power on.
2 Abnormal if Interface unit/Flow temp.
controller cannot receive any signal
normally for 3 minutes.
Judgment and action
1 Set a remote controller to main, and the
other to sub.
2 Remote controller is connected with only one
indoor unit.
3 The address changes to a separate setting.
4~6 Diagnose remote controller.
a) When “RC OK” is displayed, remote
controllers have no problem.
Turn the power off, and on again to check.
When becoming abnormal again, replace
indoor controller board.
b) When “RC NG” is displayed, replace
remote controller.
c) When “RC E3” or “ERC 00-66” is
displayed, noise may be causing
abnormality.
1 Contact failure, short circuit
* Check LED display on the outdoor controller
or, miswiring (converse wiring)
circuit board. (Connect A-control service tool,
of Interface unit/Flow temp.
PAC-SK52ST.)
controller or outdoor unit
1 Check disconnection or looseness of
connecting wire
Interface unit/Flow temp. controller or
2 Defective transmitting receiving
outdoor unit connecting wire of Interface
circuit of outdoor controller
unit/Flow temp. controller or outdoor unit.
circuit board
2~4 Turn the power off, and on again to check.
3 Defective transmitting receiving
If abnormality generates again, replace
circuit of Interface unit/Flow
Interface unit/Flow temp. controller or
temp. controller
outdoor controller circuit board.
4 Noise has entered into Interface
unit/Flow temp. controller or
outdoor unit connecting wire.
Indoor/outdoor unit communication error 1 Contact failure of indoor/
1 Check disconnection or looseness of indoor/
(Signal receiving error) (Outdoor unit)
outdoor unit connecting wire of indoor or
outdoor unit connecting wire
Abnormal if outdoor controller circuit board 2 Defective communication circuit
outdoor units.
could not receive anything normally for 3
of outdoor controller circuit board 2~4 Turn the power off, and on again to
minutes.
check. Replace indoor controller board
3 Defective communication circuit
or outdoor controller circuit board if
of indoor controller board
abnormality is displayed again.
4 Noise has entered into indoor/
outdoor unit connecting wire.
Indoor/outdoor unit communication error
(Transmitting error) (Outdoor unit)
1 Abnormal if “0” receiving is detected
30 times continuously though outdoor
controller circuit board has transmitted “1”.
2 Abnormal if outdoor controller
circuit board could not find blank of
transmission path for 3 minutes.
1 Indoor/ outdoor unit connecting 1 Check disconnection or looseness of indoor/
outdoor unit connecting wire.
wire has contact failure.
2 Defective communication circuit 2~4 Turn the power off, and on again to
check. Replace outdoor controller circuit
of outdoor controller circuit board
board if abnormality is displayed again.
3 Noise has entered power supply.
4 Noise has entered indoor/
outdoor unit connecting wire.
Non defined error code
This code is displayed when non defined
error code is received.
1 Noise has entered transmission 12 Turn the power off, and on again to check.
Replace indoor controller board or outdoor
wire of remote controller.
controller circuit board if abnormality is
2 Noise has entered indoor/
displayed again.
outdoor unit connecting wire.
3 Outdoor unit is not inverter
3 Replace outdoor unit with inverter type
models.
outdoor unit.
4 Model name of remote
4 Replace remote controller with MA remote
controller is PAR-S25A.
controller.
EF
Ed
Case
1 2 remote controller are set as
“main.”
(In case of 2 remote controllers)
2 Remote controller is connected
with 2 indoor units or more.
3 Repetition of refrigerant
address
4 Defective transmitting receiving
circuit of remote controller
5 Defective transmitting receiving
circuit of indoor controller board
6 Noise has entered into
transmission wire of remote
1 Abnormal if indoor controller board could
not find blank of transmission path.
controller.
(Error code: E5)
2 Indoor controller board receives
transmitted data at the same time,
compares the data, and when detecting
it, judges different data to be abnormal
30 continuous times. (Error code: E5)
Remote controller transmission error (E3)/
signal receiving error (E5)
1 Abnormal if remote controller could not
find blank of transmission path for 6
seconds and could not transmit.
(Error code: E3)
2 Remote controller receives transmitted
data at the same time, compares the
data, and when detecting it, judges
different data to be abnormal 30
continuous times. (Error code: E3)
Serial communication error
1 Breaking of wire or contact
12 Check connection of each connector CN2
1 Abnormal if serial communication between
failure of connector CN2
and CN4 between the outdoor controller
outdoor controller circuit board and
between the outdoor controller
circuit board and the outdoor power circuit
outdoor power circuit board is defective.
circuit board and the outdoor
board.
power circuit board
2 Breaking of wire or contact
failure of connector CN4
between the outdoor controller
circuit board and the outdoor
power circuit board
3 Defective communication circuit 3 Replace outdoor power circuit board.
of outdoor power circuit board
4 Defective communication circuit 4 Replace outdoor controller circuit board.
of outdoor controller circuit board
for outdoor power circuit board
OCH533A
29
Error Code
P6
Abnormal point and detection method
Case
Freezing/overheating protection is working
Overheating protection <Heating mode>
Abnormal if condensing temperature of
pressure sensor (63HS) detects
Tcond. °C or more and compressor
operation frequency is less than or equal
to 25 Hz. Detection is inoperative during
defrosting.
1 Overcharge of refrigerant
2 Defective refrigerant circuit (clogs)
3 Malfunction of linear expansion valve
4 Reduced water flow
· Clogged filter
· Leakage of water
5 High temperature
· Over-load
· Inlet water is too warm.
6 Defective water pump
Judgment and action
12 Check operating condition of refrigerant
circuit.
3 Check linear expansion valve.
45 Check water piping.
6 Check water pump.
stage-a
stage-b
stage-c
Tcond
stage-d
stage-e
stage-f
stage-g
-18 -17
-15 -14
-12 -11
-9
-8
-6
stage-a stage-b stage-c stage-d stage-e stage-f
Tcond
63
61
60
58
56
53
SW75
63
62
61
60
59
57
SW100/120
P9
Actual tank temperature thermistor (TH5) 1 Defective thermistor characteristics
1 The unit is 3-minute resume prevention mode if short/open of thermistor is
2 Contact failure of TB61 No. 5-6
detected. Abnormal if the unit does not
on PCB of interface unit/Flow
reset normally after 3 minutes. (The unit
temp. controller
returns to normal operation, if it has been 3 Breaking of wire or contact
reset normally)
failure of thermistor wiring
4 Defective PCB of interface
unit/Flow temp. controller
2 Constantly detected during cooling,
heating, heating ECO, anti freeze and
hot water operation.
-5
-3
-2 Ambient temperature
stage-g
50
51
1–3 Check resistance value of thermistor.
0: 15.0k"
30:
4.3k"
10:
9.6k"
40:
3.0k"
20:
6.3k"
If you put force on (draw or bend) the lead wire
with measuring resistance value of thermistor,
breaking of wire or contact failure can be detected.
2 Check contact failure of TB61 No.5-6 on PCB of
Interface unit/Flow temp. controller. Refer to 7.
WIRING DIAGRAM.
Turn the power on again and check restart
after inserting connector again.
4 Check actual tank temperature display on
remote controller.
Replace PCB of Interface unit/Flow temp.
controller if there is abnormal difference with
actual tank temperature.
Turn the power off, and on again to operate
after check.
10-4. TROUBLESHOOTING
Phenomena
1. Remote controller display does not
work.
Factor
Countermeasure
1 DC12V is not supplied to remote controller.
is not indicated on LCD.)
(Power supply display
2DC12~15V is supplied to remote controller, however,
no display is indicated.
• “PLEASE WAIT” is not displayed.
• “PLEASE WAIT” is displayed.
1 Check LED2 on indoor controller board.
(1) When LED2 is lit.
Check the remote controller wiring for
breaking or contact failure.
(2) When LED2 is blinking.
Check short circuit of remote
controller wiring.
(3) When LED2 is not lit.
Refer to No.3 below.
2 Check the following.
• Failure of remote controller if “PLEASE
WAIT” is not displayed
• Refer to No.2 below if “PLEASE WAIT”
is displayed.
2. “PLEASE WAIT” display is remained 1 At longest 2 minutes after the power supply “PLEASE 1 Normal operation
WAIT” is displayed to start up.
2 Self-diagnosis of remote controller
on the remote controller.
2 Communication error between the remote controller 3 ”PLEASE WAIT” is displayed for 6 minutes
at most in case of indoor/outdoor unit
and indoor unit
communication error. Check LED3 on
3 Communication error between the indoor and outdoor
indoor controller board.
unit
(1) When LED3 is not blinking.
Check indoor/outdoor connecting wire
for miswiring.
(Converse wiring of S1 and S2, or
break of S3 wiring.)
(2) When LED3 is blinking.
Indoor/outdoor connecting wire is normal.
4 Check LED display on outdoor controller
circuit board. Refer to 10-8.
Check protection device connector (63L
4 Outdoor unit protection device connector is open.
and 63H) for contact failure. Refer to 10-7.
OCH533A
30
Phenomena
Factor
3. When pressing the remote controller 1 After cancelling to select function from the remote
operation switch, the OPERATION
controller, the remote controller operation switch will
display is appeared but it will be
be not accepted for approx. 30 seconds.
turned off soon.
Countermeasure
1 Normal operation
4. Even controlling by the wireless
1The pair number settings of the wireless remote
1Check the pair number settings.
remote controller, no beep is heard
controller and indoor controller board are mismatched.
and the unit does not start operating. Operation display is indicated
on wireless remote controller.
5. When operating by the wireless
remote controller, beep sound is
heard, however, unit does not start
operating.
1No operation for 2 minutes at most after the power
1Normal operation
supply ON.
2Local remote controller operation is prohibited.
2Normal operation
• Remote controlling adaptor is connected to CN32
on the indoor controller board.
• Local remote controller operation is prohibited
by centralised controller etc. since it is connected to
MELANS.
3Phenomena of No.2.
3Check the phenomena No.2.
6. Remote controller display works
normally and the unit performs cooling operation, however, the capacity
cannot be fully obtained. (The air
does not cool well.)
1Refrigerant shortage
2Filter clogging
3Heat exchanger clogging
4Air duct short cycle
1• If refrigerant leaks, discharging temperature rises and LEV opening increases.
Inspect leakage by checking the temperature and opening.
• Check pipe connections for gas leakage.
2Open intake grille and check the filter.
Clean the filter by removing dirt or dust on
it.
3• If the filter is clogged, indoor pipe temperature rises and discharging pressure
increases. Check if heat exchanger is
clogged by inspecting discharging pressure.
• Clean the heat exchanger.
4Remove the blockage.
7. Remote controller display works
normally and the unit performs
heating operation, however, the
capacity cannot be fully obtained.
1Linear expansion valve fault
Opening cannot be adjusted well due to linear
expansion valve fault.
2Refrigerant shortage
3Lack of insulation for refrigerant piping
4Filter clogging
5Heat exchanger clogging
6Air duct short cycle
7Bypass circuit of outdoor unit fault
1• Discharging temperature and indoor heat
exchanger temperature does not rise.
Inspect the failure by checking discharging pressure.
• Replace linear expansion valve.
2• If refrigerant leaks, discharging tempera
ture rises and LEV opening increases.
Inspect leakage by checking the temperature and opening.
• Check pipe connections for gas leakage.
3Check the insulation.
4Open intake grille and check the filter.
Clean the filter by removing dirt or dust on
it.
5• If the filter is clogged, indoor pipe temperature rises and discharging pressure
increases. Check if heat exchanger is
clogged by inspecting discharging pressure.
• Clean the heat exchanger.
6Remove the blockage.
7Check refrigerant system during operation.
12Normal operation
8. 1For 3 minutes after temperature
(For protection of compressor)
adjuster turns off, the compressor
will not start operating even if temperature adjuster is turned on.
2For 3 minutes after temperature
adjuster turns on, the compressor
will not stop operating even if temperature adjuster is turned off.
(Compressor stops operating
immediately when turning off by
the remote controller.)
OCH533A
31
12Normal operation
Phenomena
Countermeasure
A flowing water sound or occasional hissing sound is heard. These sounds can be heard when refrigerant and/or water is (are) flowing in the indoor unit or refrigerant pipe, or when the refrigerant and/or water is (are) chugging.
Water does not heat or cool well.
Clean the filter of water piping. (Flow is reduced when the filter is dirty or clogged.)
Check the temperature adjustment and adjust the set temperature.
Make sure that there is plenty of space around the outdoor unit.
Water or vapour is emitted from the outdoor unit.
During cooling mode, water may form and drip from the cool pipes and joints.
During heating mode, water may form and drip from the heat exchanger of
outdoor unit.
During defrosting mode, water on the heat exchanger of outdoor unit evaporates and water vapour may be emitted.
The operation indicator does not appear in the remote controller display.
“
Turn on the power switch. “
” will appear in the remote controller display.
During external signal control, “ ” appears in the remote controller display
and FTC operation cannot be started or stopped using the remote controller.
” appears in the remote controller display.
When restarting the outdoor unit soon after stopping it,
it does not operate even though the ON/OFF button is
pressed.
Wait approximately 3 minutes. (Operation has stopped to protect the outdoor
unit.)
FTC operates without the ON/OFF button being pressed.
Is the on timer set?
Press the ON/OFF button to stop operation.
Is the FTC connected to a external signal?
Consult the concerned people who control the FTC.
Does “ ” appear in the remote controller display?
Consult the concerned people who control the FTC.
Has the auto recovery feature from power failures been set?
Press the ON/OFF button to stop operation.
FTC stops without the ON/OFF button being pressed.
Is the off timer set?
Press the ON/OFF button to restart operation.
Is the air conditioner connected to a central remote controller?
Consult the concerned people who control the FTC.
Does “ ” appear in the remote controller display?
Consult the concerned people who control the FTC.
Remote controller timer operation cannot be set.
Are timer settings invalid?
If the timer can be set, WEEKLY ,
remote controller display.
SIMPLE
, or
AUTO OFF
appears in the
“PLEASE WAIT” appears in the remote controller display.
The initial settings are being performed. Wait approximately 3 minutes.
If the remote controller is not only for FTC, change it.
An error code appears in the remote controller display.
The protection devices have operated to protect the FTC and outdoor unit.
Do not attempt to repair this equipment by yourself.
Turn off the power switch immediately and consult your dealer. Be sure to
provide the dealer with the model name and information that appeared in the
remote controller display.
• If the unit cannot be operated properly after test run, refer to the following table to find the cause.
Symptom
Wired remote controller
For about 2
minutes after
power-on
PLEASE WAIT
PLEASE WAIT
Error code
Display messages do not
appear even when operation
switch is turned ON (operation
lamp does not light up).
LED 1, 2 (PCB in outdoor unit)
After LED 1, 2 are lighted, LED 2 is
turned off, then only LED 1 is
lighted. (Correct operation)
Only LED 1 is lighted.
Subsequent to
about 2 minutes
after power-on
LED 1, 2 blink.
Only LED 1 is lighted.
LED 1 blinks twice,
LED 2 blinks once.
Cause
• For about 2 minutes following power-on,operation of the remote controller is not possible
due to system start-up. (Correct operation)
• Connector for the outdoor unit’s protection
device is not connected.
• Reverse or open phase wiring for the outdoor
unit’s power terminal block (L1, L2, L3)
• Incorrect wiring between FTC and outdoor
(incorrect polarity of S1, S2, S3)
• Remote controller wire short
Note: Operation is not possible for about 30 seconds after cancellation of function selection. (Correct operation)
For description of each LED (LED1, 2, 3) provided on the FTC, refer to the following table.
LED1 (power for microprocessor)
Indicates whether control power is supplied. Make sure that this LED is always lit.
LED2 (power for remote controller)
Indicates whether power is supplied to the remote controller.
This LED lights only in the case of the FTC which is connected to the outdoor unit
refrigerant addresses “0”.
LED3 (communication between FTC and outdoor units)
Indicates state of communication between the FTC and outdoor units.
Make sure that this LED is always blinking.
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32
Symptoms: “PLEASE WAIT” is kept being displayed on the remote controller.
Diagnosis flow
Cause
Inspection method and
troubleshooting
Check the display time of “PLEASE WAIT”
after turning on the main power.
6 minutes
or more
How long is “PLEASE WAIT”
kept being displayed on the
remote controller?
2 minutes
or less
2 to 6
minutes
Are any error codes
displayed on the
remote controller?
Check the LED display of the
outdoor controller circuit board.
Are any error codes
displayed on the LED?
• “PLEASE WAIT”
• Normal.
will be displayed
The start-up diagnosis will
during the start-up
be over in around 2 minutes.
diagnosis after turning
on the main power.
NO
YES
YES
• Miswiring of indoor/
outdoor connecting
wire
• Breaking of indoor/
outdoor connecting
wire (S3)
• Defective indoor
controller board
• Defective outdoor
controller circuit
board
NO
• Defective indoor
controller board
• Defective remote
controller
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33
• Refer to “Self-diagnosis
action table” in order to
solve the trouble.
• In case of communication
errors, the display of
remote controller may not
match the LED display of
the outdoor unit.
Symptoms: Nothing is displayed on the remote controller Diagnosis flow
Cause
LED display of the indoor
controller board
LED1 :
LED2 :
LED3 :
Inspection method and
troubleshooting
Check the voltage between S1
and S2 on the terminal block
(TB4) of the indoor unit which
is used to connect the indoor
unit and the outdoor unit.
AC 198V to AC 264V?
YES
NO
Check the voltage among L(L3) and
N on the terminal block (TB1) of the
outdoor power circuit board.
AC 198V to AC 264V?
NO
• Troubles concerning
power supply.
• Check the power wiring
to the outdoor unit.
• Check the breaker.
• Bad wiring of the
outdoor controller
board.
• The fuses on the
outdoor controller
circuit board are
blown.
• Check the wiring of the
outdoor unit.
• Check if the wiring is bad.
Check if the fuses are blown.
The fuses on the outdoor
controller circuit board will
be blown when the indoor
/outdoor connecting wire
short-circuits.
• Bad wiring of the
outdoor controller
board.
• The fuses on the
outdoor controller
circuit board are
blown.
• Check if miswiring, breaking
or poor contact is causing this
problem. Indoor/outdoor
connecting wire is polarized
3-core type. Connect the
indoor unit and the outdoor
unit by wiring each pair of
S1, S2 and S3 on the both
side of indoor/outdoor
terminal blocks.
• Defective indoor
controller board
• Replace the indoor
controller board.
YES
Check the voltage between S1
and S2 on the terminal block
(TB1) of the outdoor unit which
is used to connect the indoor
unit and the outdoor unit.
AC 198V to AC 264V?
NO
YES
Check the voltage of indoor
controller board (CN2D).
DC 12V to DC 16V?
YES
NO
Check the voltage of the unit after
removing the indoor power board
(CN2S).
DC 12V to DC 16V?
YES
• Miswiring, breaking
• Check if there is miswiring
or poor connection of or breaking of wire.
in door/outdoor
connecting wire
NO
• Defective indoor
power board
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34
• Replace the indoor
power board.
Symptoms: Nothing is displayed on the remote controller Diagnosis flow
Cause
LED display of the indoor
controller board
LED1 :
LED2 :
LED3 :
or
Inspection method and
troubleshooting
Check the voltage between S1 and S2 on the terminal block (TB4)
of the indoor unit which is used to connect the indoor unit and the
outdoor unit.
NO
AC 198V to AC 264V?
YES
Not lighting.
Check the status
of the indoor controller
board LED3 display.
Check the looseness or disconnection
of the indoor/outdoor connecting wire.
Blinking.
Are there looseness or
disconnection of the indoor/
outdoor connecting wire?
YES
• Breaking or poor contact • Fix the breaking or poor
of the indoor/outdoor contact of the indoor/outdoor
connecting wire
connecting wire.
NO
Check the refrigerant address of
the outdoor unit. (SW1-3 to 1-6)
NO
Is the refrigerant
address “0”?
YES
Check the LED display of the
outdoor unit after turning on the
main power again.
Not displayed.
Is anything displayed?
Displayed.
Is “EA” or “Eb”
displayed?
• Normal.
Only the unit which
has the refrigerant
address “0” supplies
power to the remote
controller.
• Set the refrigerant
address to “0”. In case of
the multiple grouping
system, recheck the
refrigerant address again.
• Defective outdoor
controller circuit
board
• Replace the outdoor
controller circuit board.
• Defective outdoor
controller circuit
board
• Replace the outdoor
controller circuit board.
• Defective indoor
controller board
• Replace the indoor controller
board of the indoor unit which
doesn’t operate.
NO
YES
Is “E8” displayed?
YES
NO
Can the unit be restarted?
Can all the indoor
unit be operated?
Check the voltage between S2
and S3 on the terminal block of
the outdoor unit.
DC 17V to DC 28V?
YES
• Not abnormal.
• Influence of
electromagnetic noise There may be the influence
of electromagnetic noise.
Check the transmission wire
and get rid of the causes.
NO
YES
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NO
35
• Defective outdoor
power circuit board
• Replace the outdoor
power circuit board.
• Defective indoor
power board
• Replace the indoor
power board.
Symptoms: Nothing is displayed on the remote controller Diagnosis flow
Cause
LED display of the indoor
controller board
LED1 :
LED2 :
or
LED3 : —
Inspection method and
troubleshooting
Check the voltage of the
terminal block (TB6) of
the remote controller.
DC 10V to DC 16V?
YES
• Defective
remote controller
• Replace the
remote controller.
NO
Check the status
of the LED2.
Lighting
• Breaking or poor
• Check if there is breaking
contact of the remote or poor contact of the
controller wire
remote controller wire.
Check the voltage of the
terminal block (TB5)
connecting the remote
controller wire.
If it is not between DC 10V
and DC16V, the indoor
controller board must be
defective.
Blinking
Check the status of the LED2
after disconnecting the remote
controller wire from the terminal
block (TB5) of the indoor unit.
Check the status
of the LED2.
Lighting
• The remote controller • Check if the remote
wire short-circuits
controller wire is
short-circuited.
Blinking
• Defective indoor
controller board
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36
• Replace the indoor
controller board.
• Before repair
Frequent calling from customers
Phone Calls From Customers
How to Respond
Note
Unit does The operating display of remote Check if power is supplied to air conditioner.
not operate
controller does not come on.
Nothing appears on the display unless power is
at all.
supplied.
Unit cannot be restarted for a Wait around 3 minutes to restart unit.
while after it’s stopped.
The air conditioner is in a state of being protected
by the microcomputer’s directive. Once the
compressor is stopped, the unit cannot be
restarted for 3 minutes. This control is also applied
when the unit is turned on and off by remote
controller.
Error code appears and blinks Error code will be displayed if any protection
on the display of remote
devices of the air conditioner are actuated.
controller.
What is error code?
Remote
controller
“PLEASE WAIT” is displayed
on the screen.
Wait around 2 minutes.
An automatic startup test will be conducted for
2 minutes when power is supplied to the air
conditioner. “PLEASE WAIT” will be kept being
displayed while that time.
“FILTER” is displayed on the
screen.
This indicates that it is time to clean the air filters.
Clean the air filters. Press the FILTER button on
the remote controller twice to clear “FILTER” from
the display.
See the operation manual that came with the
product for how to clean the filters.
“STANDBY” is displayed on the This is displayed when the unit starts HEAT
screen.
operation, when the thermostat puts the
compressor in operation mode, or when the
outdoor unit ends DEFROST operation and
returns to HEAT operation.
The display will automatically disappear around
10 minutes later.
While “STANDBY” is displayed on the remote
controller, the airflow amount will be restricted
because the indoor unit’s heat exchanger is not
fully heated up. In addition to that, the up/down
vane will be automatically set to horizontal blow
in order to prevent cold air from directly blowing
out to human body. The up/down vane will return
to the setting specified by the remote controller
when “STANDBY” is released.
“DEFROST” is displayed on
The outdoor unit gets frosted when the outside
the screen. (No air comes out of
temperature is low and the humidity is high.
the unit.)
“DEFROST” indicates the DEFROST
operation is being performed to melt this frost. The
DEFROST operation ends in around 10 minutes
(at most 15 minutes).
During the DEFROST operation, the indoor unit’s
heat exchanger becomes cold, so the fan is
stopped. The up/down vane will be automatically
set to horizontal blow in order to prevent cold air
from directly blowing out to human body. The
display will turn into “STANDBY” when DEFROST
operation ends.
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37
Refer to “SELF-DIAGNOSIS
ACTION TABLE”.
Check if servicing is
required for the error.
Display time of “FILTER”
depends on the model.
Long life filter: 2500 hrs.
Regular filter: 100 hrs.
Phone Calls From Customers
How to Respond
Note
The room cannot be cooled or heated sufficiently. Check the set temperature of remote controller.
The outdoor unit cannot be operated if the set
temperature is not appropriate.
The outdoor unit operates in the following modes.
COOL: When the set temperature is lower
than the room temperature.
HEAT: When the set temperature is higher
than the room temperature.
Check if filters are not dirty and clogged. If filters
are clogged, the airflow amount will be reduced
and the unit capacity will be lowered. See the
instruction manual that came with the product for
how to clean the filters.
Check there is enough space around the air
conditioner.
If there are any obstacles in the air intake or air
outlet of indoor/outdoor units, they block the
airflow direction so that the unit capacity will be
lowered.
An gas escaping sound is heard This is not a malfunction.
Sound
comes out
sometimes.
This is the sound which is heard when the flow of
from the air
refrigerant in the air conditioner is switched.
conditioner.
A cracking sound is heard
This is not a malfunction.
sometimes.
This is the sound which is heard when internal
parts of units expand or contract when the
temperature changes.
A buzzing sound is heard
sometimes.
This is not a malfunction.
This is the sound which is heard when the outdoor
unit starts operating.
A ticking sound is heard from
the outdoor unit sometimes.
This is not a malfunction.
This is the sound which is heard when the fan of
the outdoor unit is controlling the airflow amount
in order to keep the optimum operating condition.
A sound, similar to water
flowing, is heard from the unit.
This is not a malfunction.
This is the sound which is heard when the
refrigerant is flowing inside the indoor unit.
Something The fan speed does not match
is wrong
the setting of the remote
with the
controller during DRY
blower…..
operation.(No air comes out
sometimes during DRY
operation.)
The fan speed doesn’t match
the setting of the remote
controller in HEAT operation.
OCH533A
This is not a malfunction.
During the DRY operation, the blower’s ON/OFF is
controlled by the microcomputer to prevent
overcooling and to ensure efficient dehumidification.
The fan speed cannot be set by the remote
controller during DRY operation.
This is not a malfunction.
1) When the HEAT operation starts, to prevent the
unit from blowing cold air, the fan speed is
gradually increased from zero to the set speed,
in proportion to the temperature rise of the
discharged air.
2) When the room temperature reaches the set
temperature and the outdoor unit stops,
the unit starts the LOW AIR operation.
3) During the HEAT operation, the DEFROST
operation is performed to defrost the outdoor
unit. During the DEFROST operation, the
blower is stopped to prevent cold air coming
out of the indoor unit.
38
The up/down vane will be
automatically set to
horizontal blow in these
cases listed up on the left
(
~). After a while, the
up/down vane will be
automatically moved
according to the setting of
the remote controller.
Phone Calls From Customers
Something Air blows out for a while after
is wrong
HEAT operation is stopped.
with the
blower…..
How to Respond
Note
This is not a malfunction.
The blower is operating just for cooling down the
heated-up air conditioner. This will be done within
1 minute.
This control is conducted only when the HEAT
operation is stopped with the electric heater ON.
However, this control is also
applied to the models which
has no electric heater.
Something The airflow direction is changed If the up/down vane is set to downward in COOL
is wrong
during COOL operation.
operation, it will be automatically set to horizontal
with the
blow by the microcomputer in order to prevent
airflow
water from dropping down.
direction….
“1 Hr.” will be displayed on the remote controller if
the up/down vane is set to downward with the fan
speed set to be less than “LOW”.
The airflow direction is changed In HEAT operation, the up/down vane is
during HEAT operation.
automatically controlled according to the
temperature of the indoor unit’s heat exchanger.
(The airflow direction cannot be
In the following cases written below, the up/down
set by remote controller.)
vane will be set to horizontal blow, and the setting
cannot be changed by remote controller.
1) At the beginning of the HEAT operation
2) While the outdoor unit is being stopped by
thermostat or when the outdoor unit gets started
to operate.
3) During DEFROST operation
The airflow direction will be back to the setting of
remote controller when the above situations are
released.
“STANDBY” will be displayed
on the remote controller in
case of and .
“DEFROSTING” will be
displayed on the screen in
case of .
The airflow direction doesn’t
1) Check if the vane is set to a fixed position.
(Check if the vane motor connector is
change.
removed.)
(Up/down vane, left/right louver)
2) Check if the air conditioner has a function for
switching the air direction.
3) If the air conditioner doesn’t have that
function, “NOT AVAILABLE” will be displayed
on the remote controller when “AIR
DIRECTION” or “LOUVER” button is pressed.
The air conditioner starts operating even though
any buttons on the remote controller are not
pressed.
Check if you set ON/OFF timer.
The air conditioner starts operating at the time
designated if ON timer has been set before.
Check if any operations are ordered by distant
control system or the central remote controller.
While “CENTRALLY CONTROLLED INDICATOR”
is displayed on the remote controller, the air
conditioner is under the control of external
directive.
There might be a case that
“CENTRALLY CONTROLLED
INDICATOR” will not be
displayed.
Check if power is recovered from power failure
(black out).
The units will automatically start operating when
power is recovered after power failure (black out)
occurs. This function is called “auto recovery
feature from power ”.
The air conditioner stops even though any
Check if you set ON/OFF timer.
buttons on the remote controller are not pressed.
The air conditioner stops operating at the time
designated if OFF timer has been set before.
Check if any operations are ordered by distant
control system or the central remote controller.
While “CENTRALLY CONTROLLED INDICATOR” is
displayed on the remote controller, the air conditioner is
under the control of external directive.
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39
There might be a case that
“CENTRALLY
CONTROLLED INDICATOR”
will not be displayed.
Phone Calls From Customers
How to Respond
Note
A white mist is expelled from the indoor unit.
This is not a malfunction.
This may occur when the operation gets started in
the room of high humidity.
Water or moisture is expelled from the outdoor
unit.
Cooling; when pipes or piping joints are cooled, they
get sweated and water drips down.
Heating; water drips down from the heat exchanger.
* Make use of optional parts “Drain Socket” and
“Drain pan” if these water needs to be collected and
drained out for once.
The display of wireless remote controller gets dim Batteries are being exhausted. Replace them and
or doesn not come on.
press the reset button of remote controller.
The indoor unit does not receive a signal from
remote controller at a long distance.
10-5. HOW TO CHECK THE PARTS
PUHZ-SW75VHA(-BS).UK
PUHZ-SW100VHA(-BS).UK
PUHZ-SW120VHA(-BS).UK
PUHZ-SW100YHA(-BS).UK
PUHZ-SW120YHA(-BS).UK
Check points
Parts name
Thermistor (TH3)
<Liquid>
Disconnect the connector then measure the resistance with a tester.
(At the ambient temperature 10 - 30)
Thermistor (TH4)
<Discharge>
Normal
TH4
Thermistor (TH6)
<2-phase pipe>
Abnormal
160k - 410k
TH34
TH3
Thermistor (TH7)
<Ambient>
Open or short
4.3k - 9.6k
TH6
TH7
Thermistor (TH8)
<Heatsink>
39k - 105k
TH8
Thermistor (TH34)
<Comp. surface>
Fan motor
(MF1,MF2)
Refer to next page.
Solenoid valve coil
<Four-way valve>
(21S4)
Measure the resistance between the terminals with a tester.
(At the ambient temperature 20)
Normal
Abnormal
1435$150
Open or short
Motor for compressor Measure the resistance between the terminals with a tester.
(Winding temperature 20)
U
(MC)
Normal
Abnormal
V
SW75V
SW100/120V
SW100/120Y
W
0.88 0.19 0.30 Open or short
Linear expansion valve Disconnect the connector then measure the resistance with a tester.
(LEV-A/LEV-B/LEV-C) (Winding temperature 20)
M
Gray
Normal
1
Orange
2
Red
3
Yellow
4
Black
5
OCH533A
Gray - Black
Gray - Red
Gray - Yellow
46$3
40
Abnormal
Gray - Orange
Open or short