SERVICE MANUAL
REFRIGERATOR
ATTENTION
Before start servicing, carefully read the safety instructions
in this manual
MODEL(S): GR-382R
LRTP1231W
Service Precautions
Refrigerant Recharging
0(absolute or -1 atm, -760 mm Hg.) It
is not recommend to run the vacuum
pump for more than 30 minutes. See
Test the compressor's operation before
recharging the refrigerant; this is very
important to detect failures and to
ensure the proper motor running, and
to identify failures immediately. If
failure has been detected, clean the
system from any other possible
R-134a residues by breaking the final
part of the compressor's service pipe
at it's thinnest part as shown in Fig. #1.
Replace the filter and any other part
that could be deteriorated. Unweld
and pull out the service pipe,
then place a new pipe extension with a
Hansen male connector and solder
the new pipe. See Fig. #2
Figure 3.
In case there is a large leak and the
vacuum operation must stop,
you must add a small amount of
refrigerant to the system and check
with an electronic leak detector. If a
soldering failure is detected, open the
valve before soldering to equalize the
pressure and keep solder from being
blown out of the joint or sucked into
the piping.
As soon as the repair is completed,
charge the correct amount of
refrigerant into the system.
Remember that each system requires
a specific amount of refrigerant with a
tolerance of Ā±5 grams. See Figure 4.
It is necessary to open the valve
when soldering to allow the gases to
escape without forcing the molten
solder out of the joint. The extension
with the male Hansen connector
should be connected to a female type
connector to the vacuum pump's pipe.
See Fig. #3
System air evacuation starts as soon
as the pump begins to run. The
system must be kept under vacuum
until the low pressure gauge shows
Before performing this operation (if
the vacuum pump and charging
cylinder are still attached to the
system) be sure the valve between
the pump and the cylinder is closed to
2
Service Precautions
keep refrigerant out of the system.
See Figure 5.
installed in one session, as it could
block the compressor. Install 20~30
grams at a time and close the valve.
The compressor will run and the
pressure will drop. Then open the
valve and install other 20~30 grams
of refrigerant. Repeat this procedure
until the entire amount has been
added to the system. Under operating
conditions, the system pressure
should stabilize between 0.3 and 0.6
atm.
For gas charging, check the
graduated scale on the cylinder to see
the amount of refrigerant that it
contains and the amount that will be
pumped into the system. For
example, if you have 750 grams of
refrigerant in the cylinder and we
have to pump 165 grams to the
system, this amount will be reached
when the indicator reaches 585
grams; remember that the indicator
shows a lower level of meniscus.
Do this after choosing the scale
corresponding to the gas pressure
indicated on the pressure indicator
located on the upper part of the
column. To let R-134a flow into the
system, open the valve at the
recharging cylinder's base. The total
amount of refrigerant should not be
3
Feature Chart
FREEZER
Temperature
Control
Shelf
Freezer
Door Baskets
Ice Trays
TwistĀ“n Serve
REFRIGERATOR
Temperature
Control
Fresh Meat
Tray
Lamp
Shelves
(Plastic or Glass)
Deodorizer
(Absorbs
Odors)*
Refrigerator
Door Baskets
Multi Air Flow
Air flow distributor
Vegetable Tray
(Keeps fruits and
vegetables fresh)
Leveling
Screws
Magic Crisper
(Vegetable Tray cover
that control humidity)
MODEL(S): GR-382R
LRTP1231W
* This part is only included in model LRTP1231W
5
Graphic Circuit Diagram
Brown
White
c
Fan
White
Blue
Brown
Red
Red
Blue
C
Thermal Fuse
Defrost Resistance
(Heater Cord)
Red
Blue
C
Orange
Orange
Sensor
Sensor
Evaporator
Brown
Red
Defrost Resistance
Orange
Orange
Violet
Brown
Switch
Yellow
CON2
Defrost and Temperature Electronic Control
Red
Pink
Control
Yellow
Blue
Violeta
Whitte
Sensor
White
Brown
CON1
Yellow
Blue
Lamp
Pink
Running Capacitor
Blue
Blue
Black
Pink
Black
Black
OLP
Fan
Motor
M
Blue
COMPRESSOR
AC Current
7
Cooling Systems
Direct System
Indirect System
Warm Air
Important: Check that the air ducts are not
obstructed for a better cooling
performance.
Cold Air
Temperature variation during defrosting time, depending upon the cooling system .
Refrigerator
Freezer
Temp.( ? )
Indirect System
4
3
-16
-18
Tim
e
Temp.( ? )
18
Direct System
3
-3
-18
Tim
e
8
3. Product Disassemble.
Doors
Freezer Door
2. Disconnect all switche's cables.
See Figure 8
1. Remove hinge cover by pulling it
upwards.
2. Loosen the hexagonal bolts that
hold the upper hinge in place. See
Figure 1.
3. Remove door. See Figure 2.
Figure 7
Figure 8
Control Circuit ( Display PWB)
1. Remove the lamp cover by
inserting a screwdriver in the lower
side's holes. See Figure 9.
2. Loosen and remove the 2 screws.
See Figure 10.
Figure 1
Figure 2
4. Pull gasket to remove it. See
Figures 3 and 4.
Figure 9
Figure 10
3. Pull out the Control Box. See
Figure 11.
Figure 3
Figure 4
Refrigerator Door.
4. Disconnect the connector from the
cable terminal. See Figure 12.
5. Remove the EPS Multi air duct
(insulation) from the control box.
6. Detach the electronic control
(Display, PWB). See Figure 13.
1. Loosen the hexagonal bolts that
hold the central hinge in place.
See Figure 5.
2. Remove refrigerator door. See
Figure 6.
3. Pull out the gasket to remove it
from the door. See Figure 4 from
Freezer door.
Figure 5
Figure 6
Figure 12
Figure 11
Door Switch
1. Pull out the door switch out using
a flat head screwdriver. See
Figure 7
9
Defrost Control Assembly
1. The defrost control assembly
consists of one thermistor and a
fuse that melts with heat.
2. The termistor's function is to
sense the compartment's
temperature and automatically
stop the defrost. The termistor is
located beside of the evaporator
bracket.
Figure 13
Fan and Fan Motor.
3. The melting fuse is a safety device
to prevent an overheating of the
defrosting resistance when it
operates.
1. Remove freezer shelf.
3. Remove the ice bin assembly by
pulling it to the right side, until it
snaps out.
4. The fuse melts at 162Ā° F and the
resistance heater stops.
4. Remove Grill Fan screw cover.
See Figure 14.
5. To replace this components,
please follow the steps mentioned
at Figure 18.
5. Loosen the screw. See Figure 15.
6. Pull out the fan cover. Figure 16.
Figure 15
Figure 14
6. Unplug the connector.
7. Remove the fan holder shroud.
Figure 17.
8. Remove fan and loosen both
screws that hold the bracket.
9. Remove the motor bracket and the
rubber parts. Pull out the fan
motor. See Figure 17.
1. Figure 18. Unplug the connector plugged to
Lamp.
Refrigerator Compartment Lamp
1. Remove the lamp cover with
a screwdriver or a similar tool.
See Figure 19.
2. Remove the lamp by unscrewing it
counterclockwise and replace it
with the same specifications
(125V,20W). Part Number
6912JB2002J.
Figure 16
Figure 17
10
Figure 19
Refrigerator Control Box.
Remove the lamp cover as mentioned
before.
1. Loosen the screws.
2. Remove the entire control box.
See Figure 20.
3. Disconnect the control box
connector. See Figure 21.
Figure 20
Figure 21
11
4. Reversible Door
PRECAUTION
1. Before reversing the doors, remove all foods and accesories,
like shelves or trays, which are not attached to the doors.
2. Use a Philips screwdriver, bolt driver, torque wrench, or spanner to
tighten and loosen the bolt.
3. Be careful not to drop the refrigerator or door when assembling or
disassembling lower hinge or the Adjustable ScrewAssembly.
4. DonĀ“t lay the refrigerator down to work on it. It will cause
malfunction.
5. The doors may be reversed to provide left or right opening, depending upon the customerĀ“s
preference.
HOW TO REPLACE THE DOOR OPENING LEFT TO RIGHT
(when converting from left-opening to right opening)
12
13
5. Adjustments
1- COMPRESSOR
1-1 Function
The compressor sucks low pressure
evaporated gas from the evaporator
and compresses it into high
temperature/high pressure gas and
sends it to the condensor.
2- PTC
2-1 PTC Composition
(1) The PTC (Thermistor) is a
semiconductive starting
component that is made with
BaTiO3.
(2) The higher the temperature, the
higher the resistance value will be.
This characteristic is used for
starting the motor.
1-2 Composition
The compressor includes the
compressing system, a motor, and an
enclosure. The PTC (thermistor) and
OLP (Overload Protection Device) are
attached to its exterior. Handle and
repair the compressor with care. It
includes parts manufactured to 1
micron tolerance, and is hermetically
sealed to exclude dust or humidity
after fabrication. Dust, humidity, or
flux getting into the refrigeration cycle
could clog it or otherwise affect the
cooling.
2-2 PTC Function
(1) The PTC is attached to the
hermetic compressor and its used
for its starting.
This household refrigerator uses a
single induction motor. During
normal operation, the motor starts
with current flowing through both
the main and the auxiliary
windings. After the motor starts,
current to the auxiliary winding is
cut off.
1-3 Use notes.
(1) Protect your refrigerator from over
currents or overloads.
(2) Do not bump or jar the
2-3 PTC- Electric Diagram
According to motor starting method.
compressor. If it is bumped or
forced (dropping or careless
handling,) it could damage the
compressor or cause noise or
undesirable operation.
(3) Use only exact replacement parts
when repairing the compressor. If
the terminals become corroded, it
could affect operation. If the
replacement parts are of incorrect
values, operation and safety will
be compromised.
14
2-4 Motor restarting and PTC cooling.
(1) To restart normal operation after a
power interruption, wait 5 minutes
to let the pressure equalize and
the PTC to cool.
(2) During normal operation, the PTC
generates heat. If it has not had
time to cool after a power
2-6 Note on using the starting PTC
(1) Be careful not to cause an
overvoltage or short circuit.
(2) Do not force or bump it.
(3) Keep the OLP dry. If water or oil
gets into the OLP, the electrical
insulation can degrade and fail.
(4) Do not replace the PTC at your
own convenience. Do not
disassemble the PTC. If the PTC's
exterior is damaged, the
interruption, the motor will not
restart until the PTC cools.
2-5 PTC OLP Relation
resistance value changes and
may cause failure during the
stating of the compressor's motor.
Use a PTC in good condition.
3- OLP
(3) If power is cut off during
compressor operation and then
restored before the PTC has
cooled down, it's resistance value
increases. As a result, the current
cannot flow to the auxiliary
winding and the motor cannot start
and the OLP operates due to the
current overflow through the main
winding.
3-1 OLP Definition
(5) The OLP is a bimetallic, heat-
sensitive switch attached to the
compressor. Its function is to
protect the motor in the event of
overheating.
(3) While the OLP repeats the
ON/OFF operation 3~5 times, the
PTC cools and the compressor
operates normally. If the OLP
does not operate when the PTC is
hot, the compressor motor will
overheat, causing a short circuit or
possibly a fire. Therefore, use a
fail-safe OLP.
(6) When an overvoltage flows to the
motor, the bimetal reacts by
heating and activating (opening)
the OLP.
3-2 OLP Function
(7) Prevents the starting to the motor
winding.
(8) Do not turn the adjustment screw
during normal OLP operation.
(OLP connection diagram)
15
6. Troubleshooting
6-1 COMPRESSOR AND ELECTRIC COMPONENTS
Go to Step 2
(Rating Voltage
10%)
Remove the PTC-Starter
Power Source.
1
from the Compressor
and measure the voltage
between Terminal C of
Compressor and
Terminals 5 or 6 of PTC.
Replace OLP.
Go to Step 5
OLP disconnected?.
No Voltage.
Check connection
condition.
Reconnect.
Consult a qualified
electrician.
Applied voltage isntinĀ“
the range of Rating
Voltage 10%.
Go to Step 5
Go to Step 3
YES
Check the
resistance of
Motor
Check the resistance
among M-C, S-C and M-S
in Motor Compressor.
2
NO
Replace
Compressor.
Compressor.
Go to Step 3
Go to Step 4
Go to Step 5
Check the resistance of
two terminals in PTC-
Starter.
Check the
resistance of
PTC-Starter.
Go to Step 4
Go to Step 5
3
4
Replacce
PTC-Starter.
OLP works within 30
seconds In forcible
OLP operation by
turning against power
on and off.
YES
Check if applying a
regular OLP.
Check OLP.
Go to Step 5
NO
Replace OLP.
NO
YES
Check
starting state.
Measure minimum starting
voltage after 5 min. for
balancing cycle pressure
and cooling the PTC.
Components start in
the voltage of Rating
Voltage 10% below.
O.K.
NO
5
Go to Step 1
16
6-2 PTC AND OLP
Normal operation of
Compressor is
impossible or poor.
Separates the PT
from Compressor and
measure the
resistance between
No. 5 and 6 (only
RSIR Type) or No. 4
and 5 of PTC with a
Tes ter or Wheatstone
Bridge (Figure 22).
Observation value is
220V/50Hz: 22 W Ā±30%
115V/60Hz: 6.8 W Ā±30%
240V/50Hz: 33 W Ā±30%
127,220V/60Hz:22 W Ā±30%
Check the other
electric components.
The Resistance value
is 0 or several
hundreds W
Replace PTC.
The value is ?
Check other electric
components.
YES
NO
Separate the OLP
from Compressor and
check resistance value
between two terminals
of OLP with a Tester.
(Figure 23).
Replace OLP
17
6-3 OTHER ELECTRIC COMPONENTS
No Cooling
Compressor
doesnĀ“t run.
Check if current flows to
the following components.
Cause
a. Starting Devices
b. OLP
Shorted or Broken
Poor contact or shorted.
Coil Shorted.
c. Compressor coil
d. Circuit Parts
Replace each
component.
Poor contact or shorted.
Running state of
Compressor is poor.
Low Voltage
Check starting
voltage.
Raise the voltage.
Poor contacting
and broken.
Check if current
flows to starting
devices.
Replace the
defective
component.
Shorted
Check current
flowing in sub-coil
of Compressor.
Lack of Capacity
Check capacity of
OLP.
Replace the
Compressor.
The items
described above
are normal.
Compressor
Motor Coil.
Poor contact
Coil is shorted
Shorted
Replace the
defective
component.
Fan Motor doesnĀ“t
run.
Checker current
flow of the door
switch.
Check current
flowing in the fan
motor.
Much frost is on the
evaporator.
Check current flow
of the following
components:
Replace PTC.
Ā·
Defrost Control
Check current flow
of the following
components:
Replace PTC.
Ā·
L-CORD, TE-PLATE
18
6-4 SERVICE DIAGNOSIS CHART
COMPLAINT POINTS TO BE CHECKED
REMEDY
Plug it to the outlet.
Set the switch to ON.
Replace a regular fuse.
If the voltage is low, check the wiring or
call an electrician.
1. Is the power cord unplugged?
2. Check if the power switch is set to OFF.
3. Check if the fuse of power switch is
shorted.
Ā·
Ā·
Ā·
Ā·
No Cooling
4. Measure the voltage of power outlet.
1. Check if the refrigerator is placed close
to a wall.
2. Check if the refrigerator is placed close
to a stove, oven or in indirect sunlight.
3. Is the ambient temperature high or the
room door closed?
Ā·
Ā·
Ā·
Place the set with the space of about 10
cm.
Place the set apart from these heat
sources.
Is the ambient temeperature within spec?
(above 10Ā°C or 40Ā°F )
Poor Cooling
4. Check if putting in hot food.
5. Did you open the refrigerator door too
often?
Ā·
Ā·
Put food in after it cools.
DonĀ“t open the door too often and close it
firmly.
1. Is the ambient temperature too low?
10Ā°C (40Ā°F).
2. To make the freezer colder, set the COLD
AIR CONTROL to 7 and set the R control
button (PWB) to MAX.
Poor Freezing
3. Is food buckling the cooling air outlet?
4. Check if the PWB is set to MAX.
5. Place food in high temperature section
(Front Part).
6. Set the button to MID.
Food in the refrigerator
is frozen
7. Is watery food kept?
Moisture or ice forms in 8. Check if putting in hot food.
10. Seal watery food with vinyl wrap.
11. Put food after it cools.
9. Did you open the refrigerator door too
often?
12. DonĀ“t open the door too often and close it
firmly.
the chamber of the set.
13. Check if ambient temperature and
humidity are high.
14. Is there a gap in the door gasket?
15. Wipe moisture with a dry cloth.
16. This does not occur if the temperature
and humidity are in the normal range.
17. Fix the gap.
Moisture forms on the
outside
18. Is the refrigerator positioned in a firm
and even place?
22. Adjust the leveling screws. Position the
refrigerator properly.
19. Is something in the way behind the
refrigerator?
20. Check if the evaporating tray cover is
left off.
23. Remove the objects.
24. Replace the tray.
25. Replace the cover.
Abnormal Noise
21. Check if the cover of mechanical room
in below and front sides is taken out.
26. Check if the door gasket area has
become dirty or contaminated.
27. Is the refrigerator placed in a firm and
even place?
29. Clean the door gasket.
30. Position the refrigerator in a firm place
and adjust the leveling screws.
Door doesnĀ“t close well.
31. Keep food from reaching to the door.
28. Is too much food put in the refrigerator?
32. Check if the inside of the refrigerator
becomes dirty.
33. Did you keep fragrant foods without
wrapping?
35. Clean the inside of the refrigerator.
36. Wrap fragrant food.
37. The new refrigerator smells of plastic, but
the odor will dissipate after a couple of
weeks.
Ice and food smell
unpleasent.
34. It smells plastic.
In addition to the items described above, refer to the following to solve the complaint.
Check if frost forms
in the Freezer.
Replace the
componets of the
defrosting circuit.
Defrosting is poor.
The cycle is faulty.
Check Refrigerating
Cycle.
Repair the cycle.
19
6-5 REFRIGERATING CYCLE
Troubleshooting Chart
TEMPERATURE
OF THE
COMPRESSOR
REFRIGERAT
CONDITION
EVAPORATOR
CONDITION
CAUSE
REMARKS
Freezer and
Refrigerator donĀ“t
get cold normally.
Low flowing sound of
refrigerator is heard
and frost forms in inlet
only.
A little higher than
ambient temperature.
1. A little refrigerator
has leaked.
2. Refrigerator runs
normally if you
recharge it.
PARTIAL
LEAKAGE
Freezer and
Refrigerator donĀ“t
get cold at all.
Flowing sound of
refrigerant is not heard temperature.
and frost isnĀ“t formed.
Equal to ambient
3. No discharging of
refrigerant.
4. Refrigerator runs
normally if yoy
recharge it.
WHOLE
LEAKAGE
Freezer and
Refrigerator donĀ“t
get cold normally.
Flowing sound of
refrigerant is heard and ambient temperature
frost forms in inlet only.
A little higher than
5. Normal discharginf
of refrigerant.
6. The capillary tube
is faulty.
PARTIAL
CLOG
Freezer and
Refrigerator donĀ“t
get cold at all.
Flowing sound of
refrigerant is not heard temperature.
and frost isnĀ“t formed.
Equal to ambient
WHOLE
CLOG
7. Normal discharging
of refrigerant.
Cooling operation
stops periodically.
Flowing sound of
refrigerant is not heard temperature.
and frost melts.
Lower than ambient
8. Cooling operation
restarts when
MOISTURE
CLOG
heating the inlet of
capillary tube.
Freezer and
Low flowing sound of
refrigerator donĀ“t get refrigerant is heard and ambient temperature.
A little higher than
COMPRESSION
9. Low pressure on
high side.
cold.
No compressing
operation.
frost forms in inlet only.
Flowing sound of
Equal to ambient
refrigerant is not heard temperature.
and no frost.
Ā·
No pressure of
high pressure side
in compressor.
CO
COMPRESSION
Leakage Detection
Check for a leak which may be in the oil discharge in the compressor or in the evaporator.
Check if
Compressor runs.
Check if frost forms
on the evaporator.
Check for oil leaks.
No frost or forms in
inlet only.
YES
Normal formed frost.
Observe the
discharging amount
of refrigerant.
Normal amount.
Large or small amount.
YES
Moisture clog
Faulty Compressor
Recharge refrigerant to
compressor and check
cooling operation.
Clogged by dust.
Refrigerant leakage.
Check Compressor
Slight frost forms on
Evaporator.
(Locate and repair the leak.)
20
General Control of Refrigerating Cycle.
NO.
ITEMS
CONTENTS AND
SPECIFICATIONS
REMARKS
1.
H3O
Chemical Ingredients
Ag: 30%, Cu: 27%, Zn: 23%, Cd: 20%
Brazing Temperature: 710~840Ā°C
1.
Recommended H34 containing 34% Ag in the
Service Center.
1
WELDING ROD
2.
BCuP2
Chemical Ingredients
Cu: About 93%
P: 6.8 %
Rest: within 0.2%
Brazing Temperature: 735~840Ā°C
Ingredients and Preparation:
Borax 60%
Fluoridation Kalium: 35%
Water: 5%
2
FLUX
Ā·
Ā·
Assemble the drier within 30 minutes after unpacking.
Keep the unpacked drier at the temperature of
80~100Ā°C
2.
DonĀ“t store the drier outdoors, because humidity
damages it.
3
DRIER ASSEMBLY
1.
2.
When measuring with pirant Vacuum gauge of charging
M/C, vacuum degree is within 1 Torr.
If the vacuum degree of the cycle inside is 10 Torr.
Below for low pressure and 20 Torr. For high pressure,
indicates no vacuum leakage state.
Vacuum degree of vacuum pump must be 0.05 Torr.
below after 5 minutes.
Vacuum degree must be the same of the value
described on item (2) above for more than 20 min.
3.
4.
Apply M/C Vacuum Gauge withou fail.
Perform vacuum operation until a proper vacuum
degree is built up.
If a proper vacuum degree is not built up, check the
leakage from the Cycle Pipe line parts and Quick
Coupler Connecting part.
4
VACUUM
5.
3.
4.
Ā·
Ā·
Ā·
The pressure of dry air must be more than 12~6Kg/cm2.
Temperature must be more than ā20 ~ -70Ā°C.
Keep the pressure to 12~6Kg/cm2 also when
substituting dry air for Nitrogen gas.
DRY AIR AND NITROGEN
GAS
5
1.
2.
Check if gas leaks with soapy water.
Replace Quick Coupler in case of leakage.
6
NIPPLE AND COUPLER
6.
Check if gas leaks from connecting part of coupler.
1.
Put all joint pipe in a clean box and cover tightly with the
lid so dust or humidity do not contaminate.
7
PIPE
21
7. MICOM Function & Circuit
7-1 FUNCTION
7-1-1 FUNCTION
1. When the appliance is plugged in, it is set to Medium. Each time the button is pushed, it cycles
through Medium
Medium/High
High
Low
Medium/Low
Medium.
2. When the power is initially applied or restored after a power failure, it is automatically set to
Medium.
Temperature
Control
Medium
Low
Medium
High
Low
Medium
High
46.4 (8)
39.2 (4)
37.4 (3) 34.7 (1.5) 30.2 (-1)
TEMP Ā°F (Ā°C)
ROOM
REFRIGERATOR
22
7-1-2 DEFROSTING
1. The defrosting is performed each time when the total running time of the
compressor reaches 10 hours.
2. After the power is turned on (or restored after a power failure), the defrosting
starts when the total running time of the compressor reaches 4 hours.
3. When the temperature of the defrosting sensor reaches 13Ā°C or above, the
defrosting stops. If the temperature does not reach 13Ā°C in 2 hours after the
defrosting starts, the defrosting error code is displayed. (Refer to 7-1-4 Error
Diagnostic Mode).
4. With the defective defrosting sensor (cut or short-circuited wire), the defrosting
will not be performed.
7-1-3 SEQUENTIAL OPERATION OF ELECTRIC COMPONENTS
The electric components, such as the compressor, defrosting heater, and cooling
fan, starts sequentially to avoid noise and damage to the part which may result
from the simultaneous start of various components on turning the power on or after
the completion of a test.
23
7-1-4 ERROR DIAGNOSTIC MODE
1. The error diagnostic mode indicates when a fault may affect the performance of
the product occurs while operating the product.
2. Even if a function control button is pushed when an error occurs, the function
will not be performed.
3. When the error is cleared while the error code is displayed due to a fault, the
refrigerator returns to the normal condition (Reset).
4. The error code is displayed by the refrigerator temperature indication LED on
the display of the refrigerator while the remaining LEDs are off.
24
7-2 PCB FUNCTION
7-2-1 POWER CIRCUIT
The second part of the Transformer is composed of the power supply for the
display and relay drive (12 Vdc) and for the MICOM and IC (5 Vdc).
The voltage for each part is as follows:
VA1 prevents overvoltage and noise. When 175 V or higher power is a pplied, the
inside elements are short-circuited and broken, resulting in the blowout of the fuse
in order to protect the elements of the secondary part of the Transformer.
25
7-2-2 OSCILLATION CIRCUIT
This circuit is to generate the base clock for calculating time and the synchro clock
for transmitting data to and from the inside logic elements of the IC1 (MICOM). Be
sure to use the exact replacement parts since the calculating time by the IC1 may
be changed or it will not work if he OSC1 SPEC is changed.
7-2-3 RESET CIRCUIT
The reset circuit is for allowing all the functions to start at the initial conditions by
initializing various parts including the RAM inside the MICOM (IC1) when the
power is initially supplied or the power supply to the MICOM is restored after a
momentary power failure. For the initial 10 ms of power supply, LOW voltage is
applied to the MICOM RESET terminal. During a normal operation, 5 V is applied
to the RESET terminal. (If trouble occurs in the RESET IC, the MICOM will not
work).
26
7-2-4 LOAD DRIVE CIRCUIT
1. Load Drive Condition Check
FEEZER
FAN
COOLING
FAN
MELTING DEFROST
FUSE
HEATER
Compressor, Freeze Fan
Motor
Load Type
Defrosting Heater
A
B
Measurement Location
ON
OFF
1 V or below
12 V
Condition
27
7-2-5 TEMPERATURE SENSOR CIRCUIT
REFRIGERATOR-SENSOR
DEFROST-SENSOR
The upper CIRCUIT reads REFRIGERATOR temperature and DEFROST -
SENSOR temperature for defrosting into MICOM. OPENING or SHORT state of
each TEMPERATURE SENSOR are as follows:
SHORT-
CIRCUITED
SENSOR
CHECK POINT
POINT A Voltage
POINT B Voltage
NORMAL (-30 -50)
OPEN
Refrigerator Sensor
Defrosting Sensor
0.5 V 4.5 V
0 V
5 V
28
7-2-6 TEMPERATURE COMPENSATION & OVERCOOLING/UNDERCOOLING
COMPENSATION CIRCUIT
1. Refrigerator Temperature Compensation
Refrigerator
Temperature
Compensation
Remark
Resistance
(RCR1)
Ā°F
41
(Ā°C)
(+5.0)
(+4.0)
(+3.0)
(+2.0)
(+1.8)
Compensation by raising
the temperature
180 KW
56 KW
33 KW
18 KW
12 KW
10 KW
8.2 KW
5.6 KW
3.3 KW
2 KW
39.2
37.4
35.6
35.24
32
(
0 )
Standard Temperature
30.2
28.4
26.6
24.8
23
(-1.0 )
(-2.0 )
(-3.0 )
(-4.0 )
(-5.0 )
Compensation by
lowering the temperature
470 KW
Table of Temperature Compensation by adjusting the resistance (Difference with the current
temperature).
Example. If the refrigerator compensation resistance (RCR1) is changed from 10 K (the current
resistance) to 18 K (the adjustment resistance) of the refrigerator rises 33.8Ā°F (+1Ā°C).
29
7.2.7 KEY BUTTON INPUT & DISPLAY LIGHT ON CIRCUIT
The circuit shown above is to determine whether a function control key on the operation display is
pushed and to turn on the corresponding function indication LED. The drive type is the scan type.
30
7-3. RESISTANCE SPECIFICATION OF SENSOR
RESISTANCE OF REFRIGERATOR
TEMPERATURE SENSOR
(DEFROST) SENSOR
Ā°F
(Ā°C)
-20
-15
-10
-5
-4
77 KW
66 KW
5
14
23
32
41
50
59
68
77
86
104
122
47.3 KW
38.4 KW
30 KW
0
+5
24.1 KW
19.5 KW
15.9 KW
13 KW
+10
+15
+20
+25
+30
+40
+50
11 KW
8.9 KW
6.2 KW
4.3 KW
1. The resistance of SENSOR HAS 5% common difference.
2. Measure the resistance of SENSOR after leaving it over 3 minutes in measuring temperature. This
postponing is necessary because of perceiving speed.
31
7-4. TROUBLE SHOOTING
* Replace the PWB when thereĀ“s no trouble after checking the contents of trouble.
32
33
7-4 MAIN PWB ASSEMBLY AND PARTS LIST.
7-4-1 MAIN PWB ASSEMBLY.
34
7.5 PWB DIAGRAM
REFRIGERATOR-LAMP
FREEZER FAN/MOTOR
COOLING FAN/MOTOR
MELTING DEFROST-
FUSE HEATER
38
REFRIGERATOR-SENSOR
DEFROST-SENSOR
39
8. Exploded View
The parts of refrigerator and the shape of each part may vary by market area.
Capacitors and fuse are optional parts.
Optional parts:
40
D
A
41
9. Service parts list
11Ft3
Loc.
DescripciĆ³n
GR-382R LRTP1231W
Part Number Part Number
3650JJ2003A
3650JJ2003E
4981JA3006A
5250JA2009A
3J04686A
3650JJ2003B
3650JJ2003F
4981JA3006A
5250JA2009A
103A HANDLE,BACK
103B HANDLE,BACK
104C LEG ASSEMBLY
105A DRAIN,PIPE-Z
106A ADJUSTABLE LEG
106B ADJUSTABLE LEG
110A PWB(PCB) ASSY,DISPLAY
3J04686A
3J04686A
3J04686A
6871JB2036A
4974JJ1003A
4995JJ1001E
6871JB2036A
4974JJ1003A
4995JJ1001F
110B ICE TRAY GUIDE
REFRIGERATOR CONTROLBOX
120A ASSEMBLY
4994JJ1001A
5208JJ1006A
5208JJ1005A
3390JJ1003A
4980JJ1001A
4930JJ3001A
4974JJ1001A
5074JJ1001A
5026JJ1001B
3390JJ1002A
5027JJ2001A
5027JJ2002A
3390JJ1001A
3550JJ1003B
3550JJ1004B
3581JJ8009B
5433JJ0011A
4987JJ1001A
5004JJ1001B
4620JJ2004A
4974JA3031A
4140JD1020P
3581JJ8010A
5433JJ0012B
4987JJ1001C
4994JL1001A
5208JJ1006A
5208JJ1005A
3390JJ1003A
4980JJ1001A
4930JJ3001A
4974JJ1001A
5074JJ1001A
5026JJ1001B
3390JJ1002A
5027JJ2003A
5026JJ1002A
3390JJ1001A
3550JJ1003B
3550JJ1004A
3581JJ8001D
5433JJ0003D
4987JJ1001A
5004JJ1001B
4620JJ2001A
J325-00033A
4140JD1020B
3581JJ8002D
5433JJ0005B
4987JJ1001B
120B REFRIGERATOR CONTROLBOX COVER
120E DUCT,INSULATION
120G DUCT,INSULATION
125A ICE TRAY
125H ICE TRAY SUPPORTER
125L ICE TRAY HOLDER
129A DUCT GUIDE
131A ICE BIN
149A FREEZER SHELF
149B MEAT TRAY
149C REFRIGERATOR SHELFASSEMBLY
149E REFRIGERATOR SHELFASSEMBLY
151A VEGETABLE TRAY
154A VEGETABLE TRAY COVER
158C LAMP COVER
200A FREEZER DOOR ASSEMBLY
201A FREEZER DOOR FOAM ASSEMBLY
203A FREEZER DOOR GASKET ASSEMBLY
205A DOOR BASKET
210A DOOR STOPPER
210B STOPPER GUIDE
212G NAME PLATE,P(H)
230A REFRIGERATOR DOORASSEMBLY
231A REFRIGERATOR DOOR FOAMASSEMBLY
REFRIGERATOR DOOR GASKET
233A ASSEMBLY
5004JJ1004B
5004JJ1002B
5004JJ1003B
5004JJ1005B
3550JJ2011A
5004JJ1004B
5004JJ1002B
5004JJ1003B
5004JJ1005B
3550JJ2004B
241A DOOR BASKET
241B DOOR BASKET
241C DOOR BASKET
241D DOOR BASKET
281A HINGE COVER
42
11Ft3
Loc.
DescripciĆ³n
GR-382R
4775JA3015C
4775JA3009B
4775JA2020A
5421JA2359B
4826JJ2001A
4827JJ3001A
3551JJ2002A
2521JA1006A
6748JA3001A
6750JA3001A
3550JA2158A
5040JA3044A
4J03277A
LRTP1231W
4775JA2001D
4775JA3009A
4775JA2023B
5421JA2359A
4826JJ2001A
4827JJ3001A
3551JJ2002A
2521C-B5602
6748C-0004D
6750C-0005D
3550JA2087B
5040JA3021A
4J03277A
281B UPPER HINGE ASSEMBLY
282B CENTER HINGE ASSEMBLY
283B LOWER HINGE ASSEMBLY
301A EVAPORATOR ASSY
303A SPACER,INSULATION
303B SPACER ASSY
304A MECHANICAL AREA COVER
307A COMPRESSOR ASSEMBLY
308A PTC ASSEMBLY
309A OLP
310A PTC COVER
312A BUSHING
314A COMPRESSOR BUSHING
315A COMP BASE ASSY,STD
315B ROLLER
3103JJ2001C
3J02312A
3103JJ2001A
3J02312A
4J04238A
4J04238A
315C PIN
5851JJ2002A
4930JJ3002A
3390JJ0001A
4974JJ1002A
5403JA1039A
5040JJ3003A
5040JJ3002A
5901JJ1001A
5901JJ1001B
4999JJ1001A
3531JJ1001A
6615JB2005C
4680JB1033B
4810JA3007A
J756-00008B
6600JB1002K
5300JB1080F
0CZZJB2003G
6877JK3001A
5300JB1079F
4680JB1017Q
6871JB1115A
3550JJ2001B
3550JJ2002A
4140JJ2001A
6912JB2002J
5851JJ2002A
4930JJ3002A
3390JJ0001A
4974JJ1002A
5403JA1039A
5040JJ3003A
5040JJ3002A
5901JJ1001A
5901JJ1001B
4999JJ1001A
3531JJ1001A
6615JB2005A
4680JB1033D
4810JA3007A
J756-00008B
6600JB1002K
5300JB1080F
J513-00003C
6877JK1002A
5300JB1079C
4680JB1017C
6871JB1115B
3550JJ2001A
3550JJ2002A
4140JJ2001A
6912JB2002J
5986JA3007B
317A DRIER ASSY
318A DRIER HOLDER
319A DRIP TRAY
319C FAN GUIDE
323B CONDENSER ASSY,WIRE
327A BUSHING
328A BUSHING
329A FAN ASSEMBLY
329C FAN ASSEMBLY
330B FREEZER SHROUD ASSEMBLY
332A FAN GRILLE ASSEMBLY
401A DEFROST CONTROL ASSEMBLY
404A FAN MOTOR (MECHANICALAREA)
405A MOTOR BRACKET
405C FAN MOTOR BUSHING
406B DOOR SWITCH
407A HEATER,PLATE
410H CAPACITOR[M/R]
411A CONNECTOR ASSEMBLY
418A HEATER,CORD
420A MOTOR(MECH),COOLING
501A MAIN PWB ASSEMBLY
501F PWB ASSEMBLY
604F DEODORIZER COVER
155J NAME PLATE,P(H)
409B LIGHT BULB
NO DEODORIZER
604G DEODORIZER
43
Electronics Inc.
P/No. 3828J8331B
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