Download Service manual TAN-TAG

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Transcript 
SERVICE MANUAL
ROOM AIR CONDITIONER
TAN/TAG-A10HWI(A)
TAN/TAG-A13HWI(A)
TAN/TAG-A16HWI(A)
CONTENTS
SPECIFICATION .................................................................... 1
FUNCTIONS .......................................................................... 7
SERVICE FUNCTION EXPLANATION .................................. 9
OPERATION DETAILS ......................................................... 10
TROUBLESHOOTING GUIDE ............................................. 16
PERFORMANCE CURVE DIAGRAM .................................. 27
ELECTRIC CIRCUIT DIAGRAM .......................................... 31
EXPLODED VIEW (INDOOR UNIT) .................................... 35
EXPLODED VIEW (OUTDOOR UNIT) ................................ 37
PARTS LIST (INDOOR UNIT) .............................................. 39
PARTS LIST (OUTDOOR UNIT) .......................................... 41
SPECIFICATION
INDOOR
OUTDOOR
TAN-A10HWI(A)
TAG-A10HWI(A)
Unit
Cooling Capacity
BTU/h
10,000(2,700-12,000)
–
Heating Capacity
BTU/h
13,200(2,400-18,000)
–
Moisture Removal
L/h
1.6
–
phase
Single
V
230
Hz
50
Power source
SIDE VIEW
TOP VIEW
m/min
Cooling ; 9.0
Heating ; 11.0
–
Input
W
Cooling ; 660
Heating ; 765
–
Running Current
A
Cooling ; 2.9
Heating ; 3.4
–
Starting Current
A
3.4
–
inch
L ; Half Union 1/4''
L ; 2-way valve 1/4''
inch
G ; Half Union 3/8''
G ; 3-way valve 3/8''
inch
L (liquid side) ; 1/4''
L (liquid side) ; 1/4''
inch
G (gas side) ; 3/8''
G (gas side) ; 3/8''
OUTLET
Airflow Method
INTAKE
Air circulation (at High)
3
Electrical Data
Piping Connection Port (Flare piping)
Pipe Size (Flare piping)
Drain hose
Power Cord
Dimensions
Net Weight
mm
14
–
Length
m
0.6
–
Length
m
1.4
Inner diameter
–
2
Number of core-wire
core-wire/ 1 mm
–
Height
mm
295
550
Width
mm
799
780
Depth
mm
237
278
kg
9.1
35
–1–
SPECIFICATION
INDOOR
OUTDOOR
TAN-A10HWI(A)
TAG-A10HWI(A)
Cross-flow Fan
Propeller Fan
DC brushless(8-pole)
DC brushless (8-pole)
30
40
Unit
Type
Air Circulation
Motor Type
Rated Output
W
Plate fin configuration,forced draft
Heat Exchanger
21.2FPI
18.1 FPI
–
Expansion Valve
–
1,100(38.8)
Electronic Control
–
Real time dual ON/OFF
7-hour OFF
–
Mold-proof
–
Refrigerant Control Device
Refrigerant (R410A )
g (oz)
Thermostat
Timer
Air Filter
1
2
3
4
5
6
7
8
Parts Provided
Specifications are subject to change without notice.
–2–
Mounting plate
Remote controller
Battery (2 pcs.)
Remote controller holder
Screw cap (2 pcs.)
Drain elbow
Gum Bushing (2 pcs.)
Vibration proof rubber (4 pcs.)
SPECIFICATION
INDOOR
OUTDOOR
TAN-A13HWI(A)
TAG-A13HWI(A)
Unit
Cooling Capacity
BTU/h
12,500(2,700-14,100)
–
Heating Capacity
BTU/h
17,100(2,400-20,700)
–
Moisture Removal
L/h
1.7
–
phase
Single
V
230
Hz
50
Power source
SIDE VIEW
TOP VIEW
m/min
Cooling ; 9.5
Heating ; 12.5
–
Input
W
Cooling ; 885
Heating ; 1,130
–
Running Current
A
Cooling ; 3.9
Heating ; 5.0
–
Starting Current
A
5.0
–
inch
L ; Half Union 1/4''
L ; 2-way valve 1/4''
inch
G ; Half Union 3/8''
G ; 3-way valve 3/8''
inch
L (liquid side) ; 1/4''
L (liquid side) ; 1/4''
inch
G (gas side) ; 3/8''
G (gas side) ; 3/8''
OUTLET
Airflow Method
INTAKE
Air circulation (at High)
3
Electrical Data
Piping Connection Port (Flare piping)
Pipe Size (Flare piping)
Drain hose
Power Cord
Dimensions
Net Weight
mm
14
–
Length
m
0.6
–
Length
m
1.4
Inner diameter
–
2
Number of core-wire
core-wire/ 1 mm
–
Height
mm
295
550
Width
mm
799
780
Depth
mm
237
278
kg
9.1
35
–3–
SPECIFICATION
INDOOR
OUTDOOR
TAN-A13HWI(A)
TAG-A13HWI(A)
Cross-flow Fan
Propeller Fan
DC brushless(8-pole)
DC brushless (8-pole)
30
40
Unit
Type
Air Circulation
Motor Type
Rated Output
W
Plate fin configuration,forced draft
Heat Exchanger
21.2FPI
18.1 FPI
–
Expansion Valve
–
1,100(38.8)
Electronic Control
–
Real time dual ON/OFF
7-hour OFF
–
Mold-proof
–
Refrigerant Control Device
Refrigerant (R410A )
g (oz)
Thermostat
Timer
Air Filter
1
2
3
4
5
6
7
8
Parts Provided
Specifications are subject to change without notice.
–4–
Mounting plate
Remote controller
Battery (2 pcs.)
Remote controller holder
Screw cap (2 pcs.)
Drain elbow
Gum Bushing (2 pcs.)
Vibration proof rubber (4 pcs.)
SPECIFICATION
INDOOR
OUTDOOR
TAN-A16HWI(A)
TAG-A16HWI(A)
Unit
Cooling Capacity
BTU/h
16,000(1,700-18,000)
–
Heating Capacity
BTU/h
23,800(1,700-33,400)
–
Moisture Removal
L/h
2.8
–
phase
Single
V
230
Hz
50
Power source
SIDE VIEW
TOP VIEW
m/min
Cooling ; 14.0
Heating ; 15.0
–
Input
W
Cooling ; 1,560
Heating ; 1,800
–
Running Current
A
Cooling ; 6.9
Heating ; 7.9
–
Starting Current
A
8.1
–
inch
L ; Half Union 1/4''
L ; 2-way valve 1/4''
inch
G ; Half Union 3/8''
G ; 3-way valve 3/8''
inch
L (liquid side) ; 1/4''
L (liquid side) ; 1/4''
inch
G (gas side) ; 3/8''
G (gas side) ; 3/8''
OUTLET
Airflow Method
INTAKE
Air circulation (at High)
Electrical Data
Piping Connection Port (Flare piping)
Pipe Size (Flare piping)
Drain hose
Power Cord
Dimensions
Net Weight
3
mm
14
–
Length
m
0.6
–
Length
m
2.3
Inner diameter
–
2
Number of core-wire
core-wire/ 2 mm
–
Height
mm
295
550
Width
mm
799
780
Depth
mm
237
278
kg
9.5
35
–5–
SPECIFICATION
INDOOR
OUTDOOR
TAN-A16HWI(A)
TAG-A16HWI(A)
Cross-flow Fan
Propeller Fan
DC brushless(8-pole)
DC brushless (8-pole)
30
40
Unit
Type
Air Circulation
Motor Type
Rated Output
W
Plate fin configuration,forced draft
Heat Exchanger
21.2FPI
18.1 FPI
–
Expansion Valve
–
1,180(41.6)
Electronic Control
–
Real time dual ON/OFF
7-hour OFF
–
Mold-proof
–
Refrigerant Control Device
Refrigerant (R410A )
g (oz)
Thermostat
Timer
Air Filter
1
2
3
4
5
6
7
8
9
Parts Provided
Specifications are subject to change without notice.
–6–
Mounting plate
Remote controller
Battery (2 pcs.)
Remote controller holder
Screw cap (2 pcs.)
Drain elbow
Photo-Catalytic Anti-Odor filter (2 pcs.)
Static,Catechin filter (2 pcs.)
Gum Bushing (2 pcs.)
FUNCTIONS
REMOTE-CONTROL TRANSMITTER
INDOOR UNIT
Sensing the room temperature
Room temperature sensor (thermistor)
ON/OFF
Time delay safety control
Restarting is inhibited for approximately
3 minutes.
Operation mode selection
COOL
DRY
HEAT
AUTOMATIC
Indoor fan speed control
High, Med, Low
Air flow selection
Operation indication lamps (LED)
AUTOMATIC
HIGH
MEDIUM
LOW
(GREEN) ....... Light up in operation
(YELLOW) .... Timer in operation
(GREEN) ....... Outdoor unit operate
Room temperature setting
Dry operation mode
16°C ∼ 30°C
AUTOMATIC
Timer operation selection
Room temperature control
CONTINUOUS operation
OFF
ON
Sleep
Maintains the room temperature in
accordance with the setting temperature.
Deice (defrost) control
Deicing operation automatically starts
when the heating efficiency is declined by
the ice formed in the outdoor unit.
After deicing operation, heating operation
automatically starts with “Hot start
function.”
Timer / time setting
Operation stops at the set time
(OFF timer)
Operation starts at the set time
(ON timer)
0.5 ∼ 7.0hours(Sleep timer)
Air flow direction control
Auto angle selection
Auto swing mode
Manual mode
–7–
FUNCTIONS
OUTDOOR UNIT
Hot-start control (heating)
The indoor fan stops until the evaporator
piping temperature will be reached.
Anti-freezing control for the
evaporator
Compressor will be stopped when the
evapolator’s piping temperature is below
2°C for one minute.
Compressor will be restarted when the
evaporator’s piping temperature is above
2°C.
Airflow direction control
Inverter control
Automatic airflow direction control
The louver automatically swings up and
down (cooling, dry)...horizontal and 35°
downward.
The louver is set at 70° downward
during heating operation.
Inverter control reduce the ON/OF times
of compressor,so can keep the room
temperature changeless during
operation.
Auto recovery function
Electricity consumption
If there is any power failure during
operation, operation status before power
failure is memorized.
3 ∼ 4 minutes after power recovery, the
unit restarts automatically with previous
operation status memorized.
(3 ∼ 4 minutes is protective time for
compressor.)
Inverter control can operate with less
electricity consumption than normal air
conditioner.
Deice(Defrost) control
(for outdoor unit panel)
Deice operation automatically starts
when the outdoor temperature is lower
than 2°C and the ice is formed on the
bottom of outdoor unit.
Attention
Because of Auto recovery function, if
shutting off the power supply during
operation, the unit may restart
irrespective your intention when turning
on the power supply next time.
If the unit is not to be used for a long
time, shut off the power supply after
terminating all operation with remote
controller.
–8–
SERVICE FUNCTION EXPLANATION
EMERGENCY AND TEST OPERATION
Emergency Operation
•
•
•
•
Use this operation only when the remote controller is out of order or lost.
When the emergency operation switch is pressed, beep starts once, which
means the start of this operation.
In this operation, the system automatically selects the operation modes, cooling
(or heating when available) according to the room temperature, as follows.
Temperature
Operation
mode
Designated
temperature
Timer mode
Air flow
ABOVE 23˚C
COOLING
26˚C
CONTINUOUS
AUTOMATIC
BELOW 23˚C
HEATING
23˚C
CONTINUOUS
AUTOMATIC
Beep
It is not possible to operate in dry mode.
Test Operation
Test operation switch is same as emergency one.
• Use this operation only for testing the performance of the machine in
the condition where the room temperature is less than 16°C.
• Continue to press the test operation switch for more than 5 seconds.
After you hear twice beep, release your finger from the switch
: the cooling operation starts with the air flow speed “HI.”
• If the test operation switch is pressed more than 10 seconds, it doesn’t
work.
• After 30 minutes, test operation ends automatically.
Twice beep
HOW TO RELEASE EMERGENCY AND TEST OPERATION
•
•
In case of releasing during those operations, you can either push emergency operation switch once more or
apply operation using remote control.
You will hear a beep sound and emergency/ test operation is released.
If you release the operation by remote control, operation will continue as setting of the remote control
automatically.
INTERFERENCE PREVENTION OF SIGNALS FROM THE REMOTE CONTROLLER
When two indoor units used in the same room, interference of the signals may happen. To avoid this, alternative
signal model B can be selected by the following. (Ex-factory setting is mode A)
J1
J1
• Remote controller side
: Have “J1” on the PC board short-circuited by soldering.
• Indoor unit side
: Cut “R13” on the PC board.
Soldering
–9–
OPERATION DETAILS
TIMER OPERATION
ON Timer operation
• Press the ON/OFF switch. Right after replacing new batteries, set the present time in advance.
• Set the “ON Time” : Press the “TIME ADJ” button twice.
Adjust the time with the “ ,
” button.
Press the “TIME ADJ” button twice.The setting of “ON Time” is completed and the present time appears on the LCD.
• Set the “ON Timer” : Press the Timer fixing button “ON”.
OFF Timer operation
• Press the ON/OFF switch. Right after replacing new batteries, set the present time in advance.
• Set the “OFF Time” : Press the “TIME ADJ” button 3 times.
Adjust the time with the “ ,
” button.
Press the “TIME ADJ” button once.The setting of “OFF Time” is completed and the present time appears on the LCD.
• Set the “OFF Timer” : Press the Timer fixing button “OFF”.
Sleep Timer operation
• Press the “SLEEP” button during the operation.
• Set the operating period by pressing the “SLEEP” button until the period designated appears on the LCD.
Timer Cancellation
• ON/OFF Timer : Press the Timer fixing button “ON”(On Timer) and/or “OFF”(Off Timer) once again.
• Sleep Timer : Press the “SLEEP” button until the operating period on the LCD disappears.
AIRFLOW DIRECTION CONTROL
Vertical adjustment
When ON/OFF switch is pressed, the vertical louver will move to the adequate positions for each operation
automatically.
Swing of air flow
If air flow direction switch is pressed once, the vertical louver will move within the range of figures.
Fixing the flow direction
If air flow direction switch is pressed again, the vertical louver will be fixed and that position is memorized.
From the next operation the louver will be set at previous position automatically.
Notes :
• In Swing Mode, the louver automatically moves up and down within the certain range, as the illustration below.
• There is two different ranges of louver swinging; one is of cooling & dry mode operation and the other is of
heating operation.
Standard Position
Approx.10 degrees
(Cooling/Dry)
Approx.70 degrees
(Heating)
Swing of Air Flow
Level
Level
Approx.10
degrees
Cooling
Dry
Heating
Approx.40
degrees
Approx.45
degrees
Approx.70
degrees
– 10 –
OPERATION DETAILS
AIRFLOW DIRECTION CONTROL
Horizontal Adjustment
TAN/TAG-A16HWI(A)
Swing of Air Flow
The horizontal louver will keep moving steadly right and left if the horizontal louver button is pressed once.
Fixing the Flow Direction
The horizontal louver will come to a halt if the horizontal louver button is pressed once again.
NOTICE :
• Dew drops may appear at the outlet under high humidity(e.g.during rainy season) if the system is operated
with the horizontal louver faced to the extreme right or left.
• Use the wireless remote control unit without fail to change the angle of the horizontal louver. The horizontal
louver may move out of the normal range if forced by hands.
TIME DELAY SAFETY CONTROL FUNCTION - FOR PROTECTION OF COMPRESSOR
•
•
Compressor will not restart, in any operation modes, for 3 minutes after its stop.
Compressor does not stop during the first 6 minutes of its operation even if the room temperature reaches to
the designated temperature, except changing setting temperature.
COOLING MODE OPERATION
•
•
•
The compressor will stop when operational frequency reached the minimum frequency and that condition has
been kept for 6 minutes and the room temperature becomes 1°C lower than it was set.
The compressor will re-start when room temperature becomes 0°C higher than it was set.
The operational frequency will be set every ★ 1 seconds of operation.
The operational frequency setting will be calculated based on the deviation of the room temperature and the
set temperature on one end and the deviation factor at the time of previous setting on another.
Room temperature
Designated
temperature
0˚C
-1˚C
MAX
★2
MAX
★2
Frequency of
compressor
0
MIN★3
MIN★3
Hz
TAN/TAG-A10HWI(A), TAN/TAG-A13HWI(A)
TAN/TAG-A16HWI(A)
– 11 –
★1
40
120
★2
90Hz
100Hz
★3
24Hz
10Hz
OPERATION DETAILS
TAN/TAG-A10HWI(A), TAN/TAG-A13HWI(A)
DRY MODE OPERATION
• Compressor stops when the room temperature fall to 0.3°C lower than the designated temperature
continuously for 2 minutes.
• Compressor restarts when room temperature rises to the designated temperature.
• The operating frequency of the compressor is determined according to the room temperature
(see the diagram below).
Designated
Fan blow
Indoor fan
Super
low
Stop
Super
low
Designated Fan blow
+6.0
+5.3
Room temperature
+4.7
+4.0
+3.3
+2.7
+1.7
+1.0
Designated
temperature +0.0
-0.7
2min.
98Hz
90Hz
70
66
Operating
frequency of
compressor
62
58
52
52
48
Indoor fan
Selected
speed
Super
low
48
OFF
(3min.)
Super
low
– 12 –
Selected speed
OPERATION DETAILS
TAN/TAG-A16HWI(A)
DRY MODE OPERATION
•
•
During dry mode operation, both motors (TAN,TAG) run proportionally according to the temperatures (indoor,
outdoor).
The compressor runs continuously while unit is operating. (see the diagram below)
MAX30Hz
MAX30Hz
Operating
frequency of
compressor
MIN15Hz
– 13 –
OPERATION DETAILS
HEATING MODE OPERATION
•
•
•
The compressor will stop when operational frequency reached the minimum frequency and that condition has
been kept for 6 minutes and the room temperature becomes 4.7°C higher than it was set.
The compressor will re-start when room temperature becomes 3.7°C higher than it was set.
The operational frequency will be set every 80 seconds of operation.
The operational frequency setting will be calculated based on the deviation of the room temperature and the
set temperature on one end and the deviation factor at the time of previous setting on another.
Temperature,
indoor heat
exchanger
35˚C
30˚C
15˚C
Stop Super Low Designate Fan blow
Low
Indoor fan
Designated Fan blow
Low or Super low
Room temperature
Designated
temperature +4.7
+3.7
MAX
★1
MAX
★1
Frequency of
compressor
0
MIN★2
MIN★2
Hz
TAN/TAG-A10HWI(A), TAN/TAG-A13HWI(A)
TAN/TAG-A16HWI(A)
– 14 –
★1
110Hz
112Hz
★2
24Hz
10Hz
OPERATION DETAILS
DEFROSTING OPERATION(FOR OUTDOOR UNIT HEAT EXCHANGER)
•
•
•
Defrosting operation is controlled by the temperature of outdoor heat exchanger sensed by the thermistor and
the timer switch.
Defrosting operation starts when the both of the following conditions are met at the same time.
a) 40 minutes’ of continuous run of the compressor after the start of heating operation or after the completion
of previous defrosting operation.
b) the temperature of the outdoor heat exchanger stays lower than -2°C continuously for two minutes.
Defrosting operating is called off if either of the following conditions is met.
a) The temperature of outdoor heat exchanger rises to 8°C while 4-way-valve is ON.
b) 12 minutes has passed since compressor turned ON.
Defrosting starts
Defrosting stop
Temperature of
outdoor heat exchanger
8˚C
2min.
-2˚C
3min.
2min.
2min.
Compressor
ON
Outdoor fan
ON
OFF
50Hz 67Hz
MAX
★
OFF
ON
ON
4way valve
ON
10
sec.
50sec.
50sec.
53sec.
Max 12min.
TAN/TAG-A10HWI(A), TAN/TAG-A13HWI(A)
TAN/TAG-A16HWI(A)
– 15 –
53sec.
★
90Hz
86Hz
TROUBLESHOOTING GUIDE
FOR YOUR SAFETY USE
TAN : indoor unit
TAG : outdoor unit
● For the safety and proper use and handling of the product, please read and follow the instructions carefully.
● The meaning of the marks below are as follows.
Danger
Improper use will cause the significant risk of death or serious injury of the user.
Warning
Improper use may cause the risk of death or serious injury of the user.
● Please refer the marks below.
Caution
Strict enforcement
High Voltage
Off the Plug
Connect the earthing cable
Prohibited
High Temperatare
Danger
● Be sure to take off the plug when servicing.
It may cause the risk of electric shock.
● If leakage of refrigerant occur in the installation, ventilate a room.
If the leaked refrigerant is exposed fire, poisonous gas may be generated.
● Boosting capacitor make the control box assembly (TAG unit) high voltage.
Make the capacitor discharge enough when servicing. Otherwise will be struck
by electricity.
● Never remodel appliance.
Use designated parts or accessories to avoid accidents.
Check
Point
● In case of gas leakage, not only refill the required amount of the refrigerant gas but
also find out the gas leakage point and mend it. If the service work has to be
suspended before mending the leakage points, be sure to collect the refrigerant
gas in the outdoor unit by using pump then fasten the service ports to avoid any
further leakage. Poisonous gas may be generated when the leaked refrigerant is
exposed to fire.
● Clean the pins of the plug and insert the plug completely into the outlet.
● Be sure to change the cable if it is damaged.
Do not use damaged cable.
● Do not use power supply cord extended or connected in halfway.
Warning
Check
Point
● Be sure to put the units to earthing works.
● Be sure to check the insulated resistance, more than 1M Ω .
※ The combinations of three LED indicators (ON/Flashing/OFF) provide the self-diagnosis information as most of them shown in
the trouble shooting guide.
[Note1] Discharge electricity of the capacitor by making short circuit firstly. Then check the capacitor by tester.
Be sure to set up the tester for the measurement of bigger resistance.
– 16 –
TROUBLESHOOTING GUIDE
TAN/TAG-A10HWI(A), TAN/TAG-A13HWI(A)
INDICATION LAMP
Micro computer self-diagnose the points of the troubles and inform it by the combination of the status (On, Flush, or
Off) of three lamp indicators on the front panel of the indoor unit.
INDICATION LAMP
POWER
(green)
TIMER
(yellow)
OPERATION
(green)
ALARM
INDICATION TIME
APPEARANCE, PORTION, PARTS
SEEMED WRONG
POWER SUPPLY
REMOTE CONTROL
OFF
OFF
OFF
-
-
OFF
FLASHING
ON
ON
ON
FLASHING
ON
OFF
OFF
check the electric continuity by tester
check the electric continuity by tester
OFF
OFF
FLASHING
FLASHING
SENSOR, TEMP. HEAT EXCHANGER
check the resistance by tester [see table 2]
SENSOR, TEMP. DEFROST
check the resistance by tester [see table 2]
OFF
SENSOR, TEMP. DISCHARGE
check the resistance by tester [see table 3]
FLASHING
MIS-WIRING (TAG-TAN CONNECTING
CABLE) OR RARE CONTACT
alarm indication appears
immediately when press
FLASHING
operation switch
ON
short or open of sensor,
temperature or incomplete
insertion of connector
normal lamp indication
turn alarm when
error of transmission
something is wrong with
CT disconnection
OFF
sensor discharge operate
because temperature of
discharge tube beyond
120°C, or sensor
discharge is bad quality
OFF
protective action against
excessive AC current
detection
running again after 3 ∼
later after that in case of
or
FLASHING
OFF
ON
reoccurrence, alarm
indication appears
PIPE
protective action against
excessive DC current
detection
or
abnormal revolution of
compressor
check the wiring connection and rare contact
check the electric continuity between 1 and 5 in connector by
tester.[see fig. 1]
(if it is no continuity, both PCB (TAG main) and power module
should be replaced.)
change the PCB (TAG main)
check the point of leakage (discharge temperature rise in case of
small leakage), measure the pressure of compressor during fixed
operation (operation frequency 58 Hz)
check the valve by eyes
check by eyes
SENSOR, TEMP. DISCHARGE
check the resistance by tester [see table 3]
UNREASONABLE OPERATION
UNDER OVERLOAD
check the place of installation (blockage of air inlet & outlet of TAN,
TAG) check the excessive gas
MOMENTARY STOP OF POWER
(IN CASE OF LIGHTNING)
UNREASONABLE OPERATION
UNDER OVERLOAD
TAN, TAG, and start
20 min.
VALVE, SERVICE IS CLOSED
DROP OF POWER VOLTAGE
something is wrong with
ON
CUTTING OFF CT
GAS LEAKAGE
power lamp lighting when
FLASHING
CURRENT FUSE . (25A) FUSING
(ON THE PCB (TAG MAIN))
TAN, TAG
FLASHING
once stop running with
FLASHING
other than described above
check the resistance by tester [see table 1]
30 ∼ 40 min. later after
compressor start, the yellow
lamp is flashing and TAN,
TAG stop running
FLASHING
emergency operation
SENSOR, TEMP. ROOM
OFF
TAN, TAG don’t work at all,
and after 20 sec., operation
lamp is flashing (2 min. in
case of power on)
FLASHING
emergency operation (display of remote controller is faint or not)
TAN TERMINAL BLOCK
PCB (TAN MAIN)
FLASHING
check the plug inserted into the outlet and the power supply
FUSE(3.15A)
PCB (RECEIVER & DISPLAY)
TAN, TAG do not work at all
METHOD OF CHECK
(press the ON/OFF button of remote controller in case of reset)
MOMENTARY STOP OF POWER
(IN CASE OF LIGHTNING)
DROP OF POWER VOLTAGE
check the movement by reoperation
check the power voltage (230V)
check the place of installation (blockage of air inlet & outlet of TAN,
TAG) check the excessive gas
check the movement by reoperation
check the power voltage (230V)
PCB (TAG MAIN)
ACCIDENT OF POWER MODULE
See Flow Chart (P19)
COMPRESSOR LOCKING
FLASHING
FLASHING
in case of heating
operation, a rise of
temperature (above 58°C)
of RC heat exchanger or
less quantity of RC blow
FLASHING
in case of heating operation,
after a few minutes operation,
all lamps are flashing and
TAN, TAG stop running
FLASHING
ON
FLASHING
15 sec. later after main
power on, or 60 sec.
later after start running
through remote controller,
alarm indication appears
ON
FLASHING
90 sec. later after
start running, alarm
indication appears
-
-
-
PCB (TAN MAIN)
15 sec. later after main power on, if alarm indication appears, PCB
(TAN main) should be replaced
PCB (TAG MAIN)
60 sec. later after start running through remote controller, if alarm
indication appears, PCB (TAG main) should be replaced
FAN MOTOR (TAG)
check the current fuse 250V3.15A on the PCB (TAG main) by tester
if it is burnt down fan motor (TAG) is defective
if not, fan motor(TAG) or PCB (TAG main) is defective
FAN MOTOR (TAN)
check the current fuse (1A) on the wiring (red) for fan motor (TAN)
by tester
if the current fuse is cut, fan motor(TAN) is defective
if not, fan motor(TAN) or PCB (TAN main) is defective
check the power voltage (230V)
check the voltage of fan motor [see fig.2]
accident of fan motor
not cool down
not warm up
SENSOR, TEMP. ROOM
check the resistance by tester [see table 1]
check the resistance by tester [see table 2]
SHORT CYCLE
(INSUFFICIENT AIR CIRCULATION)
-
-
-
-
-
-
-
water leakage
nasty smell
DRAINAGE
-
-
-
louver doesn' t work
check the resistance by tester [see fig.3]
check the blockage of air inlet & outlet of TAN, TAG
check the drain hose by eyes (it might be folded or choked)
MIS-INSTALLATION
check the TAN whether lean or not
FILTER IS CHOKED
check by eyes and clean it
NO USE FOR A LONG TIME
NASTY SMELL
(CIGARETTE, FURNITURE, ETC.)
-
check the point of leakage measure the pressure of compressor
during fixed operation (operation frequency 58 Hz)
SENSOR, TEMP. HEAT EXCHANGER
4-WAY VALVE
-
check the resistance by tester [see table 2]
other than described above
GAS LEAKAGE
-
check by eyes and clean it
PCB (TAN MAIN)
accident of controller
40 ∼ 70 sec. later after
start running, alarm
indication appears
OFF
FILTER IS CHOKED
SENSOR, TEMP. HEAT EXCHANGER
LOUVER MOTOR
※In this table TAN means indoor unit and TAG means outdoor unit.
– 17 –
use deodorizer
check the resistance by tester [see fig.4]
TROUBLESHOOTING GUIDE
TAN/TAG-A10HWI(A), TAN/TAG-A13HWI(A)
CHECK A FOLLOWING STEPS
〔fig. 1〕Continuity of current fuse on the PCB (TAG main)
0Ω
FUSE
0Ω
Take off the connectors 1 & 5 on the PCB (TAG main), and
check the continuity.
FUSE
〔fig. 3〕Resistance of 4-way valve coil
〔fig. 2〕Voltage of TAN fan motor on the PCB(TAN main)
4-way valve coil
BL Y W B R
Measure the voltage between
the connector pins in the back
of PCB (TAN main) during
cooling operation.
TAN fan motor connector
PCB(TAG main)
1.5kΩ
Normal:1.5k Ω
between red + and black − approx.DC325V
between yellow + and black − approx.DC3 ∼ 5V
between white + and black − approx.DC15V
PCB(TAN main)
is Normal
〔fig. 4〕Resistance of louver motor
※ Take off the connector and check the Resistance
of 4-way valve coil
〔fig. 5〕Resistance of Power module
Normal:360 ∼ 390 Ω
power module
common terminal
360∼390Ω
Take off the connector and check the resistance between
the teminals
〔fig. 6〕Voltage of Power module
Measure the resistance, six times between U-V, V-W, W-U respectively by changing the polarity,and if all the figures show infinite (more
than hundreds of kΩ) then it is normal condition.
if not, it is defective.
〔fig. 7〕Resistance of PCB(TAG main)
PCB(TAG main)
over 1kΩ
PCB(TAG main)
DC12V±2V
DC22V±3V
over 1kΩ
+
−
+
7
−
−
(7)
15 (1)
7
(8)
Both power module
and PCB (TAG main)
are normal
+
−
15 (1)
16 (1)
Measure both voltages as follows
without taking off the connectors.
between 7 in the 16 and 1
in the 15 approx. DC 12V ± 2V
between 6 in the 15 and 7
approx. DC 22V ± 3V
+
(7)
Measure both resistances as follows
after taking off the connectors.
between 7 in the 16 and 1 in the
15 approx. over 1k Ω between 6
in the 15 and 7 approx. over 1k Ω
– 18 –
(8)
16
(1)
PCB(TAG main) is normal.
TROUBLESHOOTING GUIDE
TAN/TAG-A10HWI(A), TAN/TAG-A13HWI(A)
METHOD OF CHECK
DC current detection and in case of irregular work of compressor
Flow Chart
check the damage of piping, excess gas
check the resistance of power module
normal
NO
[see fig.5]
accident of power module
YES
check the voltage (230V) between
1 and 2 in terminal of TAG, and check [see fig.6]
the voltage of power module
normal
NO
take off the connectors 15 & 16
YES
accident of compressor
check the voltage (230V) between
1 and 2 in terminal of TAG, and check [see fig.7]
the voltage of power module
normal
NO
YES
accident of PCB(TAG main)
– 19 –
accident of power module
TROUBLESHOOTING GUIDE
TAN/TAG-A10HWI(A), TAN/TAG-A13HWI(A)
ELECTRIC CHARACTER
〔table 2〕Sensor, temp. defrost
Sensor, temp. outdoor
Sensor, temp. heat exchanger
〔table 1〕Sensor, temp. room
〔table 3〕Sensor, temp. discharge
Temp. (°C)
Resistance (k Ω )
Temp. (°C)
Resistance (k Ω )
Temp. (°C)
Resistance (k Ω )
10
47
0
31
10
1,000
15
37
5
24
20
600
20
29
10
19
35
300
25
23
15
15
40
250
30
18
20
12
50
160
35
15
25
10
80
50
30
8
35
7
DISPLAY OF ERRORS IN THE PAST
•
Push emergency operation switch and hold for more than 10 seconds while unit is not operated and release
the switch when you hear three beeps.
You will see the latest error by indication lamp.
Further pushing of the switch will make the error indication by reversing cycle up to four latest errors in the past.
At any stage, the error indication will disappear after 30 seconds.
Hold switch for more
than 10 seconds
Three beeps
Another push
Two beeps
The second latest error indication
Another push
Three beeps
The third latest error indication
Another push
Four beeps
The fourth error indication
Another push
One beeps
Indication lamp goes off
– 20 –
The latest error indication
TROUBLESHOOTING GUIDE
TAN/TAG-A10HWI(A), TAN/TAG-A13HWI(A)
WIRING DIAGRAM
MOTOR
(FAN)
TAN-A10HWI(A)
TAN-A13HWI(A)
PCB
(RECEIVER
&DISPLAY)
SENSOR
(TEMP.,HEAT
EXCHANGER)
B
B
SENSOR
(TEMP.,ROOM)
BL
PCB
(CONTROLLER)
FUSE
250V
T3.15A
BR
BL
MOTOR
(LOUVER)
B
MANUAL SWITCH
R
W
BL
G/Y
POWER
SOURCE
EARTH
TERMINAL
TAG-A10HWI(A)
TAG-A13HWI(A)
OUTDOOR UNIT
SENSOR
(TEMP.,
DEFROST)
W
B
※
※
V
U
B
P※
N1 ※
R
Y
FUSE
(250V T3.15A)
13
17
4
19
BL
15
※
9
※
※
2
※
1
W
※
2
B
※ 3
INDOOR
UNIT
R
5
W
B
※
1
※
G/Y
OR
※
※
P
※
※
+
POWER MODULE
※
BL
−
V
U
+
※
P
TERMINAL
BLOCK
3
6
※ ♯
N- ※
W
BL
R
P.C.
BOARD
20
10
8
※
BL
16
11
7
♯
24
18
12
∼
∼
OR
4WAY V.
R W B
♯
♯
※+
※-
SENSOR
(TEMP.,
OUTDOOR)
EXP.V.
PAM MODULE
※ L2
※ L1
SENSOR
(TEMP.,
DISCHARGE)
COMPRESSOR
MOTOR
(FAN)
REACTOR
TERMINAL
BLOCK
3 2 1
DIODE STACK
GR
How to release locking terminals(※)
TAN :INDOOR UNIT
TAG :OUTDOOR UNIT
To release the terminals(※),press
the locking lever and pull.
The terminal tab and the connector
24 with ♯ marking in the drawing is not
for any use.
Lever
– 21 –
B
BL
G
GR
OR
P
R
W
Y
: BLACK
: BLUE
: GREEN
: GRAY
: ORANGE
: PINK
: RED
: WHITE
: YELLOW
TROUBLESHOOTING GUIDE
TAN/TAG-A16HWI(A)
INDICATION LAMP
Micro computer self-diagnose the points of the troubles and inform it by the combination of the status (On, Flush, or
Off) of three lamp indicators on the front panel of the indoor unit.
INDICATION LAMP
POWER
(green)
TIMER
(yellow)
OPERATION
(green)
ALARM
INDICATION TIME
APPEARANCE, PORTION, PARTS
SEEMED WRONG
POWER SUPPLY
REMOTE CONTROL
OFF
OFF
OFF
-
-
check the plug inserted into the outlet and the power supply
emergency operation (display of remote controller is faint or not)
FUSE(3.15A)
check the electric continuity by tester
TAN TERMINAL BLOCK
check the electric continuity by tester
PCB (RECEIVER & DISPLAY)
TAN, TAG not work at all
METHOD OF CHECK
(press the ON/OFF button of remote controller in case of reset)
PCB (TAN MAIN)
emergency operation
other than described above
SENSOR, TEMP. ROOM
check the resistance by tester [see table 1]
SENSOR, TEMP. HEAT EXCHANGER
check the resistance by tester [see table 2]
SENSOR, TEMP. DEFROST
check the resistance by tester [see table 2]
OFF
SENSOR, TEMP. DISCHARGE
check the resistance by tester [see table 3]
FLASHING
OFF
SENSOR, TEMP. OUTDOOR
check the resistance by tester [see table 2]
ON
FLASHING
ON
SENSOR, TEMP. POWER MODULE
OFF
OFF
FLASHING
FLASHING
OFF
FLASHING
ON
ON
ON
FLASHING
ON
ON
OFF
alarm indication appears
immediately when press
FLASHING
the operation switch
ON
TAN, TAG don’t work at all,
and after 20 sec., operation
lamp is flashing (2 min. in
case of power on)
FLASHING
OFF
FLASHING
OFF
FLASHING
OFF
FLASHING
MIS-WIRING (TAG-RC CONNECTING
CABLE) OR RARE CONTACT
normal lamp indication
turn alarm when
error of transmission
something is wrong with
CURRENT FUSE . (25A) FUSING
(ON THE PCB (TAG MAIN))
TAN, TAG
CT disconnection
CUTTING OFF CT
GAS LEAKAGE
sensor discharge operate
because temperature of
discharge tube beyond
120°C, or sensor
discharge is bad quality
30 ∼ 40 min. later after
compressor start, the yellow
lamp is flashing and TAN,
TAG stop running
FLASHING
short or open of sensor,
temperature or incomplete
insertion of connector
VALVE, SERVICE IS CLOSED
PIPE
SENSOR, TEMP. DISCHARGE
protective action against
excess current AC current
detection
OFF
MOMENTARY STOP OF POWER
(IN CASE OF LIGHTNING)
DROP OF POWER VOLTAGE
UNREASONABLE OPERATION
UNDER OVERLOAD
FLASHING
FLASHING
ON
power lamp lighting when
or
FLASHING
once stop running with
OFF
ON
something is wrong with
protective action against
excess current DC current
detection
or
abnormal revolution of
compressor
TAN, TAG, and start
MOMENTARY STOP OF POWER
(IN CASE OF LIGHTNING)
DROP OF POWER VOLTAGE
take off the connector 16 , and check the resistance between 3 - 4
in the connector [see table 4][see fig. 1]
check the wiring connection and rare contact
check the electric continuity between 1 and 5 in connector by
tester.[see fig. 2]
(if it is no continuity, both PCB (TAG main) and power module
should be replaced.)
change the PCB (TAG main)
check the point of leakage (discharge temperature rise in case of
small leakage), measure the pressure of compressor during fixed
operation (operation frequency 58 Hz)
check the valve by eyes
check by eyes
check the resistance by tester [see table 3]
check the movement by reoperation
check the power voltage (230V)
check the place of installation (blockage of air inlet & outlet of TAN,
TAG) check the excess gas
check the movement by reoperation
check the power voltage (230V)
PCB (TAG MAIN)
ACCIDENT OF POWER MODULE
See Flow Chart (P24)
running again after
COMPRESSOR LOCKING
3 ∼ 20 min.
later after that in case of
ON
FLASHING
FLASHING
reoccurrence, alarm
indication appears
rise of temperature
(above110°C) of power
module
SHORT CYCLE
(INSUFFICIENT AIR CIRCULATION)
UNREASONABLE OPERATION
UNDER OVERLOAD
PAM-MODULE
ON
OFF
excess voltage(DC)
FLASHING
PCB (TAG MAIN)
FLASHING
FLASHING
FILTER IS CHOKED
in case of heating
operation, a rise of
temperature (above 62°C) SENSOR, TEMP. HEAT EXCHANGER
of RC heat exchanger or
less quantity of RC blow
PCB (TAN MAIN)
FLASHING
in case of heating operation,
after a few minutes operation,
all lamps are flashing and
TAN, TAG stop running
FLASHING
ON
15 sec. later after main
power on, or 60 sec.
FLASHING later after start running
through remote controller,
alarm indication appears
OFF
ON
90 sec. later after
start running, alarm
indication appears
check by eyes and clean it
check the resistance by tester [see table 2]
other than described above
15 sec. later after main power on, if alarm indication appears, PCB
(TAN main) should be replaced
PCB (TAG MAIN)
60 sec. later after start running through remote controller, if alarm
indication appears, PCB (TAG main) should be replaced
FAN MOTOR (TAG)
check the rotation of fan motor (TAG)
FAN MOTOR (TAN)
check the current fuse (1A) on the wiring (red) for fan motor (TAN)
by tester
check the power voltage (230V)
check the voltage of fan motor [see fig.3]
accident of fan motor
FLASHING
operate after taking off the connector 12
if the compressor works well over 3 minutes, PAM-MODULE
should be replaced
if the compressor stops running after a few seconds, PCB(TAG
main) should be replaced
PCB (TAN MAIN)
accident of controller
40 ∼ 70 sec. later after
start running, alarm
indication appears
check the place of installation (blockage of air inlet & outlet of
TAN,TAG) take off the connector 16 , and check the resistance
between 3-4 in the connector [see fig. 1]
– 22 –
TROUBLESHOOTING GUIDE
TAN/TAG-A16HWI(A)
INDICATION LAMP
check the point of leakage measure the pressure of compressor
during fixed operation (operation frequency 58 Hz)
GAS LEAKAGE
-
-
-
not cool down
not warm up
-
SENSOR, TEMP. ROOM
check the resistance by tester [see table 1]
SENSOR, TEMP. HEAT EXCHANGER
check the resistance by tester [see table 2]
4-WAY VALVE
check the resistance by tester [see fig.4]
SHORT CYCLE
(INSUFFICIENT AIR CIRCULATION)
-
-
-
-
-
-
-
in case of dry, not
dehumidify
-
-
-
-
nasty smell
check the drain hose by eyes (it might be folded or choked)
DRAINAGE
water leakage
-
MIS-INSTALLATION
check the TAN whether lean or not
2-WAY VALVE(TAN)
check the resistance of coil (2-way valve) by tester
(in case of dry operation) [see fig.5]
FILTER IS CHOKED
check by eyes and clean it
NO USE FOR A LONG TIME
NASTY SMELL
(CIGARETTE, FURNITURE, ETC.)
-
-
-
louver doesn' t work
-
check the blockage of air inlet & outlet of TAN, TAG
use deodorizer
LOUVER MOTOR
check the resistance by tester [see fig.6]
※In this table TAN means indoor unit and TAG means outdoor unit.
CHECK A FOLLOWING STEPS
〔fig. 1〕Resistance of sensor
(temp. power module)
〔fig. 2〕Continuity of current fuse on the PCB (TAG main)
table 4
3
0Ω
4
FUSE
upward
PCB(AE main)
0Ω
15
FUSE
Take off the connector,
and measure the resistance between 3 and
4 in the connector.
Take off the connectors 1 & 5 on the PCB (TAG main), and
check the continuity.
〔fig. 3〕Voltage of TAN fan motor on the PCB(TAN main)
〔fig. 4〕Resistance of 4-way valve coil
4-way valve coil
BL Y W B R
TAN fan motor connector
PCB(TAG main)
Measure the voltage between
the connector pins in the back
of PCB (TAN main) during
cooling operation.
1.5kΩ
Normal:1.5k Ω
between red + and black − approx.DC325V
between yellow + and black − approx.DC3 ∼ 5V
between white + and black − approx.DC15V
〔fig. 5〕Resistance of 2-way valve coil
Normal:5.8k Ω
5.8kΩ
PCB(TAN main)
is Normal
※ Take off the connector and check the Resistance
of 4-way valve coil
〔fig. 6〕Resistance of louver motor
Normal:360 ∼ 390 Ω
〔fig. 7〕Resistance of Power module
power module
common terminal
360∼390Ω
2-way valve coil
Take off the joint connector of 2-way
valve(TAN), and measure the
resistance of it.
Take off the connector and check the
resistance between the teminals
– 23 –
Measure the resistance, six times between
U-V, V-W, W-U respectively by changing
the polarity,and if all the figures show
infinite (more than hundreds of k Ω ) then
it is normal condition.
TROUBLESHOOTING GUIDE
TAN/TAG-A16HWI(A)
CHECK A FOLLOWING STEPS
〔fig. 8〕Voltage of Power module
〔fig. 9〕Resistance of PCB(TAG main)
PCB(TAG main)
over 1kΩ
PCB(TAG main)
DC12V±2V
DC22V±3V
over 1kΩ
+
−
+
7
−
−
(7)
15 (1)
+
(7)
7
(8)
−
15 (1)
16 (1)
Measure both voltages as follows
without taking off the connectors.
between 7 in the 15 and 1
in the 16 approx. DC 12V ± 2V
between 6 in the 16 and 7
approx. DC 22V ± 3V
+
Both power module
and PCB (TAG main)
are normal
Measure both resistances as follows
after taking off the connectors.
between 7 in the 16 and 1 in the
15 approx. over 1k Ω between 6
in the 15 and 7 approx. over 1k Ω
(8)
16
(1)
PCB(TAG main) is normal.
METHOD OF CHECK
DC current detection and in case of irregular work of compressor
Flow Chart
check the damage of piping, excess gas
check the resistance of power module
normal
NO
[see fig.7]
accident of power module
YES
check the voltage (230V) between
1 and 2 in terminal of TAG, and
check the voltage of power module
normal
NO
[see fig.8]
take off the connectors 15 & 16
YES
accident of compressor
check the voltage (230V) between
1 and 2 in terminal of TAG, and
check the voltage of power module
normal
NO
YES
accident of PCB(TAG main)
– 24 –
[see fig.9]
accident of power module
TROUBLESHOOTING GUIDE
TAN/TAG-A16HWI(A)
ELECTRIC CHARACTER
〔table 2〕Sensor, temp. defrost
Sensor, temp. outdoor
Sensor, temp. heat exchanger
〔table 1〕Sensor, temp. room
〔table 3〕Sensor, temp. discharge
Temp. (°C)
Resistance (k Ω )
Temp. (°C)
Resistance (k Ω )
Temp. (°C)
Resistance (k Ω )
10
47
0
31
10
1,000
15
37
5
24
20
600
20
29
10
19
35
300
25
23
15
15
40
250
30
18
20
12
50
160
35
15
25
10
80
50
30
8
35
7
〔table 4〕Sensor, temp. power module
Temp. (°C)
Resistance (k Ω )
10
201
30
80
50
35
70
17
90
9
110
5
DISPLAY OF ERRORS IN THE PAST
•
Push emergency operation switch and hold for more than 10 seconds while unit is not operated and release
the switch when you hear three beeps.
You will see the latest error by indication lamp.
Further pushing of the switch will make the error indication by reversing cycle up to four latest errors in the past.
At any stage, the error indication will disappear after 30 seconds.
Hold switch for more
than 10 seconds
Three beeps
Another push
Two beeps
The second latest error indication
Another push
Three beeps
The third latest error indication
Another push
Four beeps
The fourth error indication
Another push
One beeps
Indication lamp goes off
– 25 –
The latest error indication
TROUBLESHOOTING GUIDE
TAN/TAG-A16HWI(A)
WIRING DIAGRAM
TAN-A16HWI(A)
MOTOR
(FAN)
PCB
(RECEIVER
&DISPLAY)
SENSOR
(TEMP.,HEAT
EXCHANGER)
B
B
SENSOR
(TEMP.,ROOM)
BL
BR
R
BL
PCB
(CONTROLLER)
FUSE
250V
T3.15A
MOTOR
(VERTICAL
LOUVER)
BL
B
MOTOR
(HORIZONTAL
LOUVER)
MANUAL SWITCH
W
2 WAY VALVE
BL
G/Y
POWER
SOURCE
3 2 1
EARTH
TERMINAL
TAG-A16HWI(A)
※
OUTDOOR UNIT
※
OHR
SENSOR
(TEMP.,
DEFROST)
COMPRESSOR
U(S)
W(R)
V(C)
MOTOR
(FAN)
REACTOR
B
※
※
B
P※
N1 ※
R
Y
FUSE
(250V T3.15A)
13
21
17
4
19
BL
15
※
9
※
※
2
6
W
B
※
1
※
2
※
3
INDOOR
UNIT
R
5
W
B
※
1
※
G/Y
OR
※
※
※
※
P
+
POWER MODULE
※
BL
−
V
U
P +※
TERMINAL
BLOCK
3
※ ♯
N -※
W
BL
R
P.C.
BOARD
20
10
8
※
BL
16
11
7
♯
24
18
12
∼
∼
OR
4WAY V.
R W B
♯
♯
※+
※-
SENSOR
(TEMP.,
DISCHARGE)
SENSOR
(TEMP.,
OUTDOOR)
EXP.V.
PAM MODULE
※ L2
※ L1
TERMINAL
BLOCK
DIODE STACK
GR
TAN :INDOOR UNIT
TAG :OUTDOOR UNIT
How to release locking terminals(※)
To release the terminals(※),press
the locking lever and pull.
The terminal tab and the connector
24 with ♯ marking in the drawing is not
for any use.
Lever
– 26 –
B
BL
G
GR
OR
P
R
W
Y
: BLACK
: BLUE
: GREEN
: GRAY
: ORANGE
: PINK
: RED
: WHITE
: YELLOW
PERFORMANCE CURVE DIAGRAM
REMARKS FOR GAS PRESSURE CHECK AND CHARGING
Gas pressure is to be measured at COMPULSORY COOLING OPERATION for cooling or EMERGENCY
OPERATION for heating. (It is operated for 30 minutes at 58Hz fixed frequency.)
If you find substantial diffrence in performance compared with PERFORMANCE CURVE as shown next,
recharge the refrigerant.
(In order to avoid excessive charging, purge all the remaining refrigerant first and then evacuate the unit
completely with vacuum pump and finally apply rated volume charging of refrigerant.)
Charging of refrigerant should be done by cooling operation, because the pressure at service valve will be
too high at heating cycle, then the heating performance characteristics must be checked by restarting of
heating operation.
Liquid side
6.35mm
Gas side
9.52mm
Piping size
Max. tube length
15m
Max. height difference
10m
– 27 –
PERFORMANCE CURVE DIAGRAM
TAN/TAG-A10HWI(A)
COOLING
(A)
4.5
4
3.5
CURRENT
3
2.5
2
1.5
(˚C)
30
25
TEMPERATURE
BLOW OUT
20
15
10
5
0
(MPa)
1.5
1.4
SERVICE PORT
PRESSURE
1.2
1.0
0.8
0.6
20
25
30
35
(˚C)
HUMIDITY60%
AIR TEMPERATURE INDOOR-OUTDOOR
HEATING
(A)
AIR-TEMPERATURE
INDOOR 20˚C
4.0
3.5
CURRENT
3.0
2.5
(˚C)
55
50
TEMPERATURE
BLOW OUT
45
40
35
30
25
(MPa)
SERVICE PORT
PRESSURE
2.5
2.0
1.5
5
10
15
20
(˚C)
HUMIDITY50%
AIR TEMPERATURE-OUTDOOR
– 28 –
PERFORMANCE CURVE DIAGRAM
TAN/TAG-A13HWI(A)
COOLING
(A)
5
4.5
4
CURRENT
3.5
3
2.5
2
(˚C)
30
25
TEMPERATURE
BLOW OUT
20
15
10
5
0
(MPa)
1.6
1.4
SERVICE PORT
PRESSURE
1.2
1.0
0.8
0.6
20
25
30
35
(˚C)
HUMIDITY60%
AIR TEMPERATURE INDOOR-OUTDOOR
HEATING
(A)
AIR-TEMPERATURE
INDOOR 20˚C
7
6
CURRENT
5
4
(˚C)
60
55
TEMPERATURE
BLOW OUT
50
45
40
35
30
(MPa)
SERVICE PORT
PRESSURE
3.0
2.5
2.0
5
10
15
20
(˚C)
HUMIDITY50%
AIR TEMPERATURE-OUTDOOR
– 29 –
PERFORMANCE CURVE DIAGRAM
TAN/TAG-A16HWI(A)
COOLING
(A)
6.5
6
5.5
CURRENT
5
4.5
4
3.5
(˚C)
30
25
TEMPERATURE
BLOW OUT
20
15
10
5
0
(MPa)
1.2
1.1
SERVICE PORT
PRESSURE
1.0
0.9
0.8
0.7
20
25
30
35
(˚C)
HUMIDITY60%
AIR TEMPERATURE INDOOR-OUTDOOR
HEATING
(A)
AIR-TEMPERATURE
INDOOR 20˚C
7
6
CURRENT
5
4
(˚C)
60
55
TEMPERATURE
BLOW OUT
50
45
40
35
30
(MPa)
SERVICE PORT
PRESSURE
3.0
2.5
2.0
5
10
15
20
(˚C)
HUMIDITY50%
AIR TEMPERATURE-OUTDOOR
– 30 –
ELECTRIC CIRCUIT DIAGRAM
TAN-A10HWI(A), TAN-A13HWI(A)
– 31 –
ELECTRIC CIRCUIT DIAGRAM
TAN-A16HWI(A)
– 32 –
ELECTRIC CIRCUIT DIAGRAM
TAG-A10HWI(A), TAG-A13HWI(A)
– 33 –
ELECTRIC CIRCUIT DIAGRAM
TAG-A16HWI(A)
– 34 –
EXPLODED VIEW (INDOOR UNIT)
TAN-A10HWI(A)
TAN-A13HWI(A)
28
29
21
26
27
24
25
22
14
13
19
10
23
12
8
2
1
4
7
6
5
20
11
18
3
15
9
16
17
– 35 –
EXPLODED VIEW (INDOOR UNIT)
TAN-A16HWI(A)
31
28
21
26
33
32
27
14
24
22
13
25
19
10
23
8
12
2
1
7
4
6
30
29
5
20
11
18
3
16
15
9
16
17
– 36 –
EXPLODED VIEW (OUTDOOR UNIT)
TAG-A10HWI(A)
TAG-A13HWI(A)
30
29
21
24
28
27
10
9
26
14
23
1
18
22
13
17
16
5
7
8
2
6
20
3
12
11
15
4
31
19
25
– 37 –
EXPLODED VIEW (INDOOR UNIT)
TAG-A16HWI(A)
31
30
25
22
29
28
10
9
27
14
24
1
19
23
13
18
17
5
7
8
6
21
2
3
16
4
12
11
15
20
26
– 38 –
PARTS LIST (INDOOR UNIT)
PARTS NAME
NO.
TAN-A10HWI(A)
TAN-A13HWI(A)
1
CONTROLLER ASSY.
2051049 0
2051050 0
2
PCB (MAIN)
5565304 0
5565312 0
3
PCB (RECEIVER & DISPLAY) ASSY.
2047192 0
4
SENSOR
(TEMP,ROOM & HEAT EXCHAGER)
3005507 0
5
6
TERMINAL BLOCK
5162084 0
7
CORD,POWER SUPPLY
3002156 0
8
FRONT PANEL ASSY.
2047189 0
9
INLET GRILLE
2051130 0
10 REAR CASE ASSY.
2042624 0
11 WIRING LID
2014805 0
12 MOTOR,FAN
2016222 3
13 TANGENTIAL FAN
3002479 0
14 BEARING ASSY.
2004833 0
15 DRAIN PAN ASSY.
2002268 1
16 MOTOR,LOUVER
3006139 0
17 LOUVER (UP-DOWN)
2014720 0
18 DRAIN HOSE
5162000 0
19 EVAPORATOR ASSY.
2021598 5
20 AIR FILTER
2014699 0
21 MOUNTING PLATE ASSY.
2014715 3
22 PIPING SUPPORT (1)
2042623 0
23 MOTOR SUPPORT
2014742 0
24 REMOTE CONTROLLER ASSY.
2051056 0
25 REMOTE CONTROLLER HOLDER
2013955 0
26 SCREW CAP
2014810 0
27 BATTERY
3005775 0
28 DRAIN ELBOW
2014808 0
29 GUM BUSHING
2014809 0
The digit in
may vary depending on the version for the improvement.
– 39 –
PARTS LIST (INDOOR UNIT)
PARTS NAME
NO.
TAN-A16HWI(A)
1
CONTROLLER ASSY.
2051051 0
2
PCB (MAIN)
5565325 0
3
PCB (RECEIVER & DISPLAY) ASSY.
2047192 0
4
SENSOR
(TEMP,ROOM & HEAT EXCHAGER)
3005507 0
5
6
TERMINAL BLOCK
5162084 0
7
CORD,POWER SUPPLY
5196643 0
8
FRONT PANEL ASSY.
2047189 0
9
INLET GRILLE
2051130 0
10 REAR CASE ASSY.
2042624 0
11 WIRING LID
2014805 0
12 MOTOR,FAN
2016222 3
13 TANGENTIAL FAN
3002479 0
14 BEARING ASSY.
2004833 0
15 DRAIN PAN ASSY.
2002265 3
16 MOTOR,LOUVER
3006139 0
17 LOUVER (UP-DOWN)
2014720 0
18 DRAIN HOSE
5162000 0
19 EVAPORATOR ASSY.
2002153 8
20 AIR FILTER
2014699 0
21 MOUNTING PLATE ASSY.
2014715 3
22 PIPING SUPPORT (1)
2042623 0
23 MOTOR SUPPORT
2014742 0
24 REMOTE CONTROLLER ASSY.
2003413 0
25 REMOTE CONTROLLER HOLDER
2013955 0
26 SCREW CAP
2014810 0
27 BATTERY
3005775 0
28 DRAIN ELBOW
2014808 0
29 2-WAY VALVE
5220033 0
30 COIL,2-WAY VALVE
5220036 0
31 PHOTOCATALYTIC ANTI-ODOR FILTER
5081022 0
32 STATIC,CATECHIN FILTER
5081023 0
33 GUM BUSHING
2014809 0
The digit in
may vary depending on the version for the improvement.
– 40 –
PARTS LIST (OUTDOOR UNIT)
NO.
PARTS NAME
TAG-A10HWI(A)
1
TOP PANEL ASSY.
2014871 0
2
SIDE PANEL ASSY.
2001092 1
3
BOTTOM PANEL ASSY.
2051061 0
4
WIRING LID
2013023 0
5
PROPELLER FAN
5263034 0
6
MOTOR
3005532 2
7
BRACKET, MOTOR
2014403 0
8
COMPRESSOR
5102194 0
9
TERMINAL BLOCK
5162082 0
10 CONDENSOR ASSY.
2019992 0
11 VALVE,SERVICE (3/8)
5153574 1
12 VALVE,SERVICE (1/4)
5153573 1
13 BAFFLE PANEL ASSY.
2017033 2
14 SOUND PROOF MATERIAL
2000999 1
15 VIBRATION PROOF RUBBER
3000210 0
16 FIXTURE,CORD
2003819 0
17 4-WAY VALVE
5120241 1
18 COIL,4-WAY VALVE
5120232 1
19 SOUND PROOF MATERIAL (SIDE)
2020711 1
20 REACTOR
5424024 1
21 CONTROLLER ASSY.
2000004 6
22 SENSOR (TEMP.DEFROST)
5110096 0
23 SENSOR (TEMP.DISCHARGE)
5110087 0
24 PCB (MAIN)
2000005 1
25 OUTLET GRILLE
2014371 0
26 BACK PANEL ASSY.
2014373 3
27 SENSOR (TEMP.OUTDOOR)
3001359 0
28 BRIDGE DIODE
5160711 0
29 POWER MODULE
3007289 0
30 PAM MODULE
3007231 0
31 VIBRATION PROOF RUBBER
2004668 1
The digit in
TAG-A13HWI(A)
5102195 0
2001429 1
2000011 5
2000012 1
may vary depending on the version for the improvement.
– 41 –
PARTS LIST (OUTDOOR UNIT)
NO.
PARTS NAME
TAG-A16HWI(A)
1
TOP PANEL ASSY.
2014871 0
2
SIDE PANEL ASSY.
2001092 1
3
BOTTOM PANEL ASSY.
2003414 1
4
WIRING LID
2013023 0
5
PROPELLER FAN
5263034 0
6
MOTOR
3005532 2
7
BRACKET, MOTOR
2014403 0
8
COMPRESSOR
3007203 0
9
TERMINAL BLOCK
5162082 0
10 CONDENSOR ASSY.
2002640 0
11 VALVE,SERVICE (3/8)
5153574 1
12 VALVE,SERVICE (1/4)
5153573 1
13 BAFFLE PANEL ASSY.
2017033 2
14 SOUND PROOF MATERIAL
2014876 0
15 SOUND PROOF MATERIAL
2015139 0
16 VIBRATION PROOF RUBBER
3000205 0
17 FIXTURE,CORD
2003819 0
18 4-WAY VALVE
5120242 1
19 COIL,4-WAY VALVE
5120232 1
20 SOUND PROOF MATERIAL (SIDE)
2014874 0
21 REACTOR
5424024 1
22 CONTROLLER ASSY.
2047183 3
23 SENSOR (TEMP.DEFROST)
5110096 0
24 SENSOR (TEMP.DISCHARGE)
5110087 0
25 PCB (MAIN)
2047182 1
26 OUTLET GRILLE
2014371 0
27 BACK PANEL ASSY.
2014373 3
28 SENSOR (TEMP.OUTDOOR)
3001359 0
29 BRIDGE DIODE
5160711 0
30 POWER MODULE
3007290 0
31 PAM MODULE
3007231 0
The digit in
may vary depending on the version for the improvement.
– 42 –
RA-58-[1]
ISSUED
MAY.2007
REVISED
Printed in Japan
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