SERVICE MANUAL
MICROWAVE OVENS
Microwave Oven
© ELECTROLUX HOME PRODUCTS
Corso Lino Zanussi,30
I - 33080 PORCIA /PN (ITALY)
Tel +39 0434 394850
Fax +39 0434 394096
SOI
Publication No.
GRILL AND CONVECTION
MICROWAVE OVEN
599 37 42-75
(Micromat Combi)
EN/SERVICE/FV
MCC4060E
MO940CXE
EMC4090X
ZM40STX
ZM40STN
Edition: 12.2006
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TABLE OF CONTENTS
CAUTION, MICROWAVE RADIATION....................................................................................................4
SERVICING / GENERAL INFORMATION ..............................................................................................5
PRODUCT SPECIFICATIONS ................................................................................................................6
APPEARANCE VIEW ..............................................................................................................................7
CONTROL PANEL ...................................................................................................................................4
OPERATION SEQUENCE.....................................................................................................................10
FUNCTION OF IMPORTANT COMPONENTS .....................................................................................12
TROUBLESHOOTING GUIDE...............................................................................................................13
TEST PROCEDURES............................................................................................................................14
JOG CONTROL PANEL ASSEMBLY ....................................................................................................22
SERVICING............................................................................................................................................23
COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE..................................................24
MICROWAVE MEASUREMENT............................................................................................................30
TEST DATA A GLANCE ........................................................................................................................31
SCHEMATIC DIAGRAMS......................................................................................................................32
PICTORIAL DIAGRAM ..........................................................................................................................33
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CAUTION
CAUTION
MICROWAVE RADIATION
DO NOT BECOME EXPOSED TO RADIATION FROM THE MICROWAVE GENERATOR OR
OTHER PARTS THAT CONDUCT MICROWAVE ENERGY.
GENERAL IMPORTANT INFORMATIONS
This Manual has been prepared to provide Service Engineers with Operation and Service Information.
It is recommended that service engineers carefully study the entire text of this manual, so they will be qualified
to render satisfactory customer service.
WARNING
Note:
The parts marked "*" are used at voltage
more than 250V. (Schematic Diagrams).
WARNING
Never operate the oven until the following points are ensured.
(A) The door is tightly closed.
(B) The door and oven hinges are not defective.
(C) The door packing is not damaged.
(D) The door is not deformed or warped.
(E) There is not any other visible damage with the oven.
Servicing and repair work must be carried out only by trained
Service Engineers.
All the parts marked ”*” on schematic diagrams are used at
voltages more than 250V.
Removal of the outer wrap gives access to potentials above
250V.
If the Magnetron or/and the door assembly are damaged,
loosened or removed may cause undue microwave
exposure.
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SERVICING
WARNING TO SERVICE PERSONNEL
Microwave ovens contain circuitry capable of producing very high voltage and current.
Contact with the following parts will result in electrocution
High voltage capacitor, High Voltage transformer, Magnetron, High voltage rectifier assembly, High voltage
wires.
REMEMBER TO CHECK 3D
REMEMBER TO CHECK 4R
1) Disconnect the supply.
2) Door opened, and wedged open.
3) Discharge high voltage capacitor.
WARNING AGAINST THE CHARGE OF THE
HIGH VOLTAGE CAPACITOR
The high-voltage capacitor remains charged about
60seconds after the oven has been switched off.
Wait for 60 seconds and then short-circuit the
connection of the high-voltage capacitor (that is, of
the connecting lead of the high-voltage rectifier)
against the chassis with the use of an insulated
screwdriver.
It is recommended that wherever possible faultfinding is carried out with the supply disconnected. It
may in, some cases, be necessary to connect the
supply after the outer case has been removed, in this
event carry out 3D checks and then disconnect the
leads to the primary of the power transformer. Ensure
that these leads remain isolated from other
components and the oven chassis. (Use insulation
tape if necessary.) When the testing is completed
carry out 3D checks and reconnect the leads to the
primary of the power transformer.
1) Reconnect all leads removed from components
during testing.
2) Replace the outer case (cabinet).
3) Reconnect the supply.
4) Run the oven. Check all functions.
When troubleshooting the microwave oven, it is
helpful to follow the Sequence of Operation in
performing the checks.
Many of the possible causes of trouble will require
that a specific test be performed. These tests are
given a procedure letter which will be found in the
"Test Procedure" section.
IMPORTANT:
Microwave ovens should not be run empty. To test for
the presence of microwave energy within a cavity,
place a cup of cold water on the oven turntable, close
the door and set the power to HIGH and set the
microwave timer for two (2) minutes. When the two
minutes has elapsed (timer at zero) carefully check
that the water is now hot. If the water remains cold
carry out 3D checks and re-examine the connections
to the component being tested.
When all service work is completed, and the oven is
fully assembled, the microwave power output should
be checked and a microwave leakage test carried out.
If the oven becomes inoperative
because of a blown fuse F1 in the
monitored latch switch - monitor
switch - circuit, check the monitored
latch switch and monitor switch and
before replacing the fuse F1.
GENERAL INFORMATION
WARNING
THIS APPLIANCE MUST BE EARTHED
IMPORTANT
THE WIRES IN THIS MAINS LEAD ARE COLOURED IN ACCORDANCE WITH THE FOLLOWING
CODE:
GREEN-AND-YELLOW
: EARTH
BLUE
: NEUTRAL
BROWN
: LIVE
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PRODUCT SPECIFICATIONS
SPECIFICATION
ITEM
DESCRIPTION
Power Requirements
Power Consumption
230 Volts / 50 Hertz / Single phase, 3 wire earthed
Microwave cooking
Convection cooking
Grill cooking
Dual cooking
Power Output
Grill heating element Power
Output
Convection heating element
Power Output
Case Dimensions
Cooking Cavity Dimensions
Turntable diameter
Control Complement
1.5kW Approx. 6.7A
2.7kW Approx.12A
2.7kW Approx.12A
Micro and Grill ................... 2.8 kW
Micro and Convection ........ 2.8 kW
Approx. 12.7 A
Approx. 12.7 A
900W watts nominal of RF microwave energy (measured by way of IEC 60705)
Operating frequency of 2450 MHz
1300 W (650 W x 2)
1450 W
Width 550mm
Height 368mm
Depth 537mm
Width 375mm
Height 272mm
325mm
Touch Control System
Clock (1.00-12.59 or 0.00-23.59) / Timer (0 - 99 minutes 30 sec.)
Microwave Power for Variable Cooking
Repetition Rate;
100% (HIGH) ....... Full power throughout the cooking time
70% (MEDIUM HIGH) ....................
approx. 70% of FULL Power
50% (MEDIUM)...............................
approx. 50% of FULL Power
30% (MEDIUM LOW)......................
approx. 30% of FULL Power
10% (LOW) .....................................
approx. 10% of FULL Power
Convection temperature control range
250°C, 230°C, 220°C, 190°C, 180°C, 160°, 130°C, 100°C, and 40°C
1.
2.
3.
4.
5.
6.
7.
8.
9.
COOKING indicator
START indicator
GRILL indicator
CONVECTION indicator
MICROWAVE indicator
INFORMATION indicator
INFORMATION button
LANGUAGE button
COOKING MODE knob
10. TIME/WEIGHT knob
rotate the knob to enter to enter
either the cooking/defrosting time
or weight of food..
11. AUTO COOK button
12. COOK FROM FROZEN button
13. AUTO DEFROST button
14. MICROWAVE POWER LEVEL button
15.
16.
17.
18.
19.
+ START/QUICK button
STOP button
CONVECTION button
CLOCK SETTIN button
LESS/MORE button
for microwave cooking
for microwave cooking with GRILL
for microwave cooking with CONVECTION
for GRILL
for CONVECTION
Net weight
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APPEARANCE VIEW
OVEN
1. Fixing points (4 points)
2. Grill heating element
3. Convection heating element
4. Oven lamp
5. Control panel
6. Shelf runners
7. Waveguide cover
8. Oven cavity
9. Coupling
10. Door seals and sealing surfaces.
11. Door opening handle
12. Air-vent / intake opening
13. Outer cover
14. Power cord
15. Power supply cord support clip.
U.K . BACK VIEW
EUROPEAN BACK VIEW
16. Turntable
17. Turntable support
18. High Rack
19. Low Rack
20. Square shelf
21. Square tray
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CONTROL PANEL
MCC4090E
Digital display and indicators:
1.
2.
3.
4.
5.
6.
COOKING indicator
START indicator
GRILL indicator
CONVECTION indicator
MICROWAVE indicator
INFORMATION indicator
Operating keys:
7. INFORMATION button
8. LANGUAGE button
9. COOKING MODE knob
for microwave cooking
for microwave cooking with GRILL
for microwave cooking with CONVECTION
for GRILL
for CONVECTION
10. TIME/WEIGHT knob
rotate the knob to enter either the cooking/defrosting
time or weight of food.
11. AUTO COOK button
12. COOK FROM FROZEN button
13. AUTO DEFROST button
14. MICROWAVE POWER LEVEL button
15. START/QUICK button
16. STOP button
17. CONVECTION button
18. CLOCK SETTING button
19. LESS/MORE button
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CONTROL PANEL
EMC4090X
Digital display and indicators:
1.
2.
3.
4.
5.
6.
COOKING indicator
START indicator
GRILL indicator
CONVECTION indicator
MICROWAVE indicator
INFORMATION indicator
Operating keys:
7. INFORMATION button
8. LANGUAGE button
9. COOKING MODE knob
for microwave cooking
for microwave cooking with GRILL
for microwave cooking with CONVECTION
for GRILL
for CONVECTION
10. TIME/WEIGHT knob
rotate the knob to enter either the cooking/defrosting
time or weight of food.
11. AUTO COOK button
12. COOK FROM FROZEN button
13. AUTO DEFROST button
14. MICROWAVE POWER LEVEL button
15.
16.
17.
18.
19.
START button
STOP button
CONVECTION button
CLOCK SETTING button
LESS/MORE button
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CONTROL PANEL
MO040CXE ZM4060STX
ZM4090X ZM4090STN
Digital display and indicators:
1.
2.
3.
4.
5.
6.
COOKING indicator
START indicator
GRILL indicator
CONVECTION indicator
MICROWAVE indicator
INFORMATION indicator
Operating keys:
7. INFORMATION button
8. LANGUAGE button
9. COOKING MODE knob
for microwave cooking
for microwave cooking with GRILL
for microwave cooking with CONVECTION
for GRILL
for CONVECTION
10. TIME/WEIGHT knob
rotate the knob to enter either the cooking/defrosting
time or weight of food.
11. AUTO COOK button
12. COOK FROM FROZEN button
13. AUTO DEFROST button
14. MICROWAVE POWER LEVEL button
15.
16.
17.
18.
19.
START button
STOP button
CONVECTION button
CLOCK SETTING button
LESS/MORE button
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OPERATION SEQUENCE
OFF CONDITION
Closing the door activates the monitored latch switch and the stop switch.
IMPORTANT
When the oven door is closed, the contacts COM - NC of the monitored switch must be open.
When the microwave oven is plugged in a wall outlet (230V / 50Hz), the line voltage is supplied to the noise
filter.
( Figure O-1 )
1. The control unit is not energized. The display shows nothing (Fig. O-1 (a)).
2. Open the door. The contacts (COM-NC) of the monitored latch switch are closed and the control unit is
energized. Then contacts of relays RY1 and RY5 are closed, and the oven lamp will light and the display will
show "SELECT LANGUAGE" in 5 languages. (Fig. O-1(b)).
NOTE: Once the language is selected using the LANGUAGE key, the display will show "ENERGY
SAVE MODE TO GO OUT OF ENERGY SAVE MODE SET CLOCK" when the oven is plugged in.
3. Close the door. The contacts (COM-NC) of the monitored latch switch are opened and the contacts of
relay
RY1 are opened and the oven lamp will be turned off. The display will show " . 0". (Fig. O-1(c)).
NOTE: Energy save mode
1. If the oven has not been used for more than 3 minutes, the contacts of the relay RY5 will be opened and the
control unit will be not energized. Open and close the door, the control unit will resume.
2. If the clock is set, this energy save mode does not work.
3. If the display shows different messages from ENERGY SAVE MODE, the oven may be set in demo mode.
Close the door, see operation manual to cancel demo mode.
MICROWAVE COOKING CONDITION
HIGH COOKING
Enter a desired cooking time by touching the TIME keys and start the oven by touching START key.
Function sequence (Figure O-2)
CONNECTED COMPONENTS
RELAY
Oven lamp, Turntable motor
Power transformer
Fan motor
RY1
RY3
RY6
1. The line voltage is supplied to the primary winding of the high voltage transformer. The voltage is converted to
about 3.3 volts A.C. output on the filament winding and high voltage of approximately 2000 volts A.C. on the
secondary winding.
2. The filament winding voltage (3.3 volts) heats the magnetron filament and the high voltage (2000 volts) is sent
to the voltage doubling circuit, where it is doubled to negative voltage of approximately 4000 volts D.C..
3. The 2450 MHz microwave energy produced in the magnetron generates a wavelength of 12.24 cm.
This
energy is channelled through the waveguide (transport channel) into the oven cavity, where the
food is
placed to be cooked.
4. When the cooking time is up, a single tone is heard and the relays RY1 + RY3 + RY6 go back to their
home position. The circuits to the oven lamp, high voltage transformer, fan motor and turntable motor are cut
off.
5. When the door is opened during a cook cycle, the switches come to the following condition.
SWITCH
Monitored latch switch
Stop switch
Monitor switch
CONTACT
COM-NO
COM-NC
COM-NO
COM-NO
COM-NC
DURING
COOKING
Closed
Opened
Closed
Closed
Opened
CONDITION
DOOR OPEN
(NO COOKING)
Opened
Closed
Open
Opened
Closed
The circuits to the high voltage transformer is cut off when the contacts of relay RY2, and the contacts (COM-NO) of
the monitored latch switch SW1 and the monitor switch SW3 are made open. The circuit to the fan motor is cut off
when the relay RY6 is made open.
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OPERATION SEQUENCE
The circuit to the turntable motor is cut off when the contacts (COM-NO) of the monitored latch switch SW1 are
made open. The oven lamp remains on even if the oven door is opened after the cooking cycle has been
interrupted, because the relay RY1 stays closed. Shown in the display is the remaining time.
6. MONITOR SWITCH CIRCUIT
The monitor switch SW3 is mechanically controlled by oven door, and monitors the operation of the
monitored latch switch SW1.
6-1 When the oven door is opened during or after the cycle of a cooking program, the monitored latch switch SW1,
and stop switch SW2 must open their contacts (COM-NO) first. And the contacts (COM-NC) of the monitored
latch switch SW1 are made closed. After that the contacts (COM - NC) of the monitor switch SW3 can be
closed and the contacts (COM-NO) of monitor switch SW3 are made open.
6-2 When the oven door is closed, the contacts (COM - NC) of the monitor switch SW3 must be
opened and the contacts (COM - NO) of monitor switch SW3 must be closed. After that the contacts
(COM - NO) of the monitored latch switch SW1 and stop switch SW2 are made closed. And the contacts
(COM - NC) of the monitored latch switch SW1 are made open .
6-3 When the oven door is opened and the contacts (COM - NO) of the monitored latch switch SW1 remain
closed, the fuse F2 F8A will blow. Because the relay RY1 and monitor switch SW3 are closed and a short
circuit is caused.
HIGH, MEDIUM HIGH, MEDIUM, MEDIUM LOW, LOW COOKING
When the microwave oven is preset for variable cooking power, the line voltage is supplied to the high voltage
transformer intermittently within a 32-second time base through the relay contact which is coupled with the currentlimiting relay RY2 . The following levels of microwave power are given.
32 sec. ON
100% (HIGH)
100%
24 sec. ON
70% (MEDIUM HIGH)
Approx. 70%
18 sec. ON
50% (MEDIUM)
Approx. 50%
12 sec. ON
30% (MEDIUM LOW)
Approx. 30%
6 sec. ON
10% (LOW)
Approx. 10%
NOTE: The ON/OFF time ratio does not exactly correspond to the percentage of microwave power, because
approx. 3 seconds are needed for heating up the magnetron filament.
GRILL COOKING CONDITION
TOP GRILL (Figure O-3a)
In this condition the food is cooked by grill heating element energy. Programme the desired cooking time by turing
the "TIME/WEIGHT" knob and the select knob to “GRILL”. When the "START" button is pressed, the following
operations occur:
1. The numbers on the digital read-out start the count down to zero.
2. The oven lamp, cooling fan motor and turntable motor are energized.
3. The relay RY3 is energized and the main supply voltage is applied to the top grill heatig elements.
4. Now the food is cooked by the top grill heating elements.
NOTE: The grill cooking condition will be carried out continuously until the temperature of the oven cavity rise
to 220°C.
CONVECTION COOKING CONDITION (Figure O-4)
PRE-HEATING (by 40°C - 130°C)
Turn select knob to CONVECTION.
Programme the desired convection temperature of 40°C - 130°C by pressing the CONVECTION button. When the
START button is pressed, the following operations occur:
1. The relays RY1, RY6 and RY7 are energized, the oven lamp, turntable motor, fan motor and convection motor
are turned on.
2. The relay RY4 is energized and the main supply voltage is applied to the convection heating element.
3. After the temperature of oven cavity rises to the selected one, the oven will continue to turn the convection
heating element on and off to maintain the temperature for 30 minutes.
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OPERATION SEQUENCE
PRE-HEATING (by 160°C - 250°C)
Turn select knob to CONVECTION
Programme the desired convection temperature of 160°C - 250°C by pressing the CONVECTION button.
When the START button is pressed, the following operations occur:
1. The relays RY1, RY6 and RY7 are energized, the oven lamp, turntable motor, fan motor and convection
motor are turned on.
2. The relay RY4 and RY3 are is energized and the main supply voltage is applied to the convection heating
element and the grill heating elements.
3. After the temperature of oven cavity rises to the selected one, the oven will continue to turn the convection
heating element on and off to maintain the temperature for 30 minutes. And simultaneously the grill
heating element will be operated at 10% power output.
CONVECTION COOKING (by 250°C)
Programme the cooking time by turning the timer vari knob. And then programme the convection temperature of
250°C by pressing the CONVECTION button. When the START button is pressed, the following operations occur:
1. The relays RY1, RY6 and RY7 are energized, the oven lamp, turntable motor, fan motor and convection motor
are turned on.
2. The relay RY4 and RY3 are energized and the main supply voltage is applied to the convection heating
element and the grill heating elements.
3. The oven will continue to turn the convection heating element on and off to maintain the temperature for the
programmed cooking time. And simultaneously the grill heating elements will be operated at 10% power output.
CONVECTION COOKING (by 40°C - 230°C)
Programme the cooking time by turning the timer vari knob. And then programme the desired convection
temperature of 40°C 230°C by pressing the CONVECTION button. When the START button is pressed, the
following operations occur:
1. The relays RY1, RY6 and RY7 are energized, the oven lamp, turntable motor, fan motor and convection motor
are turned on.
2. The relay RY4 is energized and the main supply voltage is applied to the convection heating element.
3. The oven will continue to turn the convection heating element on and off to maintain the temperature for the
programmed cooking time.
DUAL COOKING CONDITION
MICROWAVE AND CONVECTION (Figure O-5a)
Programme the desired cooking time by turning the select knob to MICROWAVE and CONVECTION. Select the
microwave power level by pressing the MICROWAVE POWER LEVEL button. And select the convection
temperature by pressing the CONVECTION button.
NOTE: The 100% microwave power level can not be selected.
When the + 1min
/ START button is pressed, the following operations occur:
1. The numbers on the digital read-out start the count down to zero.
2. The oven lamp, fan motor, turntable motor and convection motor are energized.
3. The relay RY4 will be energized and the main supply voltage is applied to the convection heating element.
4. The relay RY2 is energized and the microwave energy is generated by magnetron.
5. Now, the food is cooked by microwave and convection energy simultaneously.
MICROWAVE AND TOP GRILL (Figure O-5b)
Programme the desired cooking time by turning the select knob to MICROWAVE and TOP GRILL. Select the
microwave power level by pressing the MICROWAVE POWER LEVEL button. When the START button is pressed,
the following operations occur:
1.
2.
3.
4.
5.
The numbers on the digital read-out start the count down to zero.
The oven lamp, fan motor and turntable motor are energized.
The relay RY3 is energized and the main supply voltage is applied to the top grill heateing elements.
The relay RY2 is energized and the microwave energy is generated by magnetron.
Now the food is cooked by microwave and grill simultaneously.
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OPERATION SEQUENCE
ON/OFF TIME RATIO
NOTE:
In dual cooking, the magnetron operate within a 48
second time base. The following table is the ON / OFF
time ratio at each power output of the magnetron.
1. If the multiple sequence cooking is carried out in
same mode, the basis cooking time is calculated
from the first.
2. Even if the cooking is stopped by the STOP button
or opening the door, the basis cooking
time is
calculated from the first.
3. If the same cooking mode is repeated within 1
and 15 seconds, the basis cooking time is
calculated from the first.
4. If the same menu of Automatic Cooking is repeated
within 1 minute and 15 seconds, the
power output of the microwave or the grill will be
reduced to 70% after 20 minutes when the oven
is started at first.
POWER OUTPUT
100%
70%
50%
30%
10%
ON TIME
48 sec.
36 sec.
26 sec.
16 sec.
8 sec.
OFF TIME
0 sec.
12 sec.
22 sec.
32 sec.
40 sec.
AUTOMATIC COOKING
Automatic cooking functions automatically work out the
correct cooking mode and cooking time and/or cooking
temperature. They will cook according to the special
cooking sequence.
POWER OUTPUT REDUCTION
After the same cooking mode is carried out for more
than the basis cooking time, the power output is
automatically reduced by turning the control relays on
and off intermittently, as shown in the table below. This
is to protect the oven door against temperature rising.
Cooking mode
Microwave (100%)
Grill
Convection
Micro. (70%)
D + Grill
U Micro. (100%)
A + Grill
L Micro. (70%)
+ Conv.
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Basis cooking
time (minutes)
20
15
40 (Micro.)
15 (Grill)
15 (Micro.)
15 (Grill)
40 (Micro.)
Reduced power
Output (1%)
70
70
No reduction
50
50
50
50
50
No reduction
Time base
(seconds)
32
48
48
48
48
48
48
FAN MOTOR OPERATION (in Grill,
Convection and Dual mode)
When oven is stopped during cooking, or after the
cooking is completed, the fan motor will operate if the
oven cavità temperature is above 120°C, and the fan
motor will stop if the oven cavity temperature is below
105°C.
CONVECTION MOTOR OPERATION
If the temperature of oven cavity is higher than 120°C
after and when operated by 250°C convection cooking,
250°C dual convection cooking or 250°C preheating,
the convection motor will operate for maximum 1
minute until the oven cavity temperature drops below
105°C.
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FUNCTION OF IMPORTANT COMPONENTS
3. If the door is opened and the monitored latch
switch SW1 contacts (COM-NO) fail to open,
the fuse F2 F8A blows immediately after
closing of the monitor switch SW3 (COM-NC)
contacts.
CAUTION: BEFORE REPLACING A BLOWN FUSE
SWITCH SW3 FOR PROPER
OPERATION. (REFER TO CHAPTER
“TEST PROCEDURE”).
DOOR OPEN MECHANISM
The door can be opened by pulling the door handle.
Door
Latch
Heads
Latch hook
FUSE F1 20A 250V
Tab
SW2: Stop switch
If the wire harness or electrical components are
shortcircuited, this fuse F1 20A blows to prevent an
electric shock of fire hazard.
SW3: Monitor switch
SW1:Monitored
latch switch
Figure D-1. Door Open Mechanism
MONITORED LATCH SWITCH SW1
1. When the oven door is closed, the contacts
(COM-NO) of the switch must be closed.
And the contacts (COM-NC) must be opened.
2. When the oven door is opened, the contacts
(COM-NO) of the switch must be opened.
And the contacts (COM-NC) must be closed.
STOP SWITCH SW2
1. When the oven door is closed, the contacts
(COM-NO) of the switch must be closed.
2. When the oven door is opened, the contacts
(COMNO) of switch must be opened.
MONITOR SWITCH SW3
The monitor switch is activated (the contacts
opened) by the lower latch head on the door while
the door is closed.
The switch is intended to render the oven
inoperative by means of blowing the fuse F2 F8A
when the contacts of the monitored latch switch
SW1 fail to open when the door is opened.
Function
1. When the door is opened, the contacts (COM-NC)
of monitor switch SW3 close (to the ON condition)
due to their being normally closed and contacts
(COM-NO) open. At this time the contacts (COMNO) of monitored latch switch SW1 is in the OFF
condition (contacts open) due to their being
normally open contact switches.
2. As the door goes to a closed position, the monitor
switch SW3 contacts (COM-NC) are opened and
contacts (COM-NO) closed and then contacts
(COM-NO) of monitored latch switch SW1 and
stop switch SW2 are closed.(On opening the door,
each of these switches operate inversely.)
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FUSE F2 F8A 250V
1. If the wire harness or electrical components are
shortcircuited, this fuse blows to prevent an
electric shock or fire hazard.
2. The fuse also blows when the monitored latch switch
SW1 remains closed with the oven door
open and when the monitor switch SW3 contact
(COM-NC) closes.
3. The fuse also blows when the asymmetric rectifier,
H.V. rectifier,.H.V. wire harness, H.V.
capacitor, magnetron or secondary winding of
high voltage transformer is shorted.
TC TRANSFORMER
T/C transformer converts A.C. line voltage into low
voltage to drive the control unit.
THERMAL CUT-OUT TC1 125°C (MG)
This thermal cut-out protects the magnetron against
overheat. If the temperature goes up higher than 125°C
because the fan motor is interrupted or the ventilation
openings are blocked, the thermal cut-out TC1 will
open and switch off all the electrical parts. The
defective thermal cut-out must be replaced with a new
one.
THERMAL CUT-OUT TC2 170°C (GRILL)
This thermal cut-out protects the oven against the
overheat during grill cooking, convection cooking or
dual cooking. If the temperature rises above 170°C
because the fan motor is interrupted, the air inlet duct
is blocked or the ventilation openings are obstructed,
the thermal cut-out TC2 opens and switches off all the
electrical parts. When the cut-out cools itself down to
the operating temperature of 155°C, the contacts of the
thermal cut-out will close again.
15/43
599 37 42-75
FUNCTION OF IMPORTANT COMPONENTS
THERMAL CUT-OUT TC3 170°C (CONV.)
FAN MOTOR FM
This thermal cut-out protects the convection motor
against overheating. If the temperature of the thermal
cut-out TC3 rises above 170°C because the convection
fan is interrupted, the ventilation openings are
obstructed or the other abnormal matter occurs, the
thermal cut-out opens and switches off the convection
heating element and the other electrical parts. When
the cut-out cools itself down to the operating
temperature of 155°C, the contacts of the thermal
cut-out will close again.
The fan motor drives a blade which draws external cool
air. This cool air is directed through the air vanes
surrounding the magnetron and cools the magnetron.
This air is channelled through the oven cavity to
remove steam and vapours given off from heating food.
It is then exhausted through the exhausting air vents of
the oven cavity.
The convection motor drives the convection fan and
provide the heated air.
ASYMMETRIC RECTIFIER
The asymmetric rectifier is solid state device that
prevents current flow in both directions. And it
prevents the temperature rise of the high voltage
transformer by blowing the fuse F2 F8A when the
high voltage rectifier is shorted.
ASYMMETRIC
RECTIFIER
GRILL HEATING ELEMENT GH
The grill heating elements are provided to brown the
food and are located on the top of the oven cavity.
CONVECTION HEATING ELEMENT CH
The convection heating element situated at the rear of
the oven cavity. It is intended to heat air driven by the
convection fan. The heated air is kept in the oven and
force-circulated and reheated by the convection
heating element.
HIGH VOLTAGE
RECTIFIER
The rated peak reverse voltage of D1 of the
asymmetric rectifier is 6 KV. The rated peak reverse
voltage of D2 of the asymmetric rectifier is 1.7 KV. D1
and D2 of the asymmetric rectifier or high voltage
rectifier are shorted when the each peak reverse
voltage goes beyond the each rated peak reverse
voltage. (The process of the blowing the fuse F2 F8A.)
1. The high voltage rectifier is shorted by some fault
when microwave cooking or dual cooking.
2. The peak reverse voltage of D2 of the rectifier goes
beyond the rated peak reverse voltage 1.7 KV in the
voltage doubler circuit.
3. D2 of the rectifier is shorted.
4. The large electric currents flow through the high
voltage winding of the high voltage transformer.
5. The large electric currents beyond 8A flow through
the primary winding of the high voltage transformer.
6. The fuse F2 F8A blows by the large electric
currents.
7. The power supplying to the high voltage transformer
is cut off.
NOISE FILTER
The noise filter assembly prevents radio frequency
interference that might flow back in the power circuit.
TURNTABLE MOTOR TTM
CONVECTION MOTOR CM
CONVECTION COOKING SYSTEM
This oven is designed with a hot air heating system
where food is heated by forced circulation of the hot air
produced by the convection heater. The air heated by
the convection heating element is circulated through
the convection passage provided on the outer casing of
the oven cavity by means of the convection fan which
is driven by the convection motor. It is then enters the
inside of the oven through the vent holes provided on
the back side of the oven. Next, the hot air heats the
food on the turntable and leaves the oven cavity
through the vent in the oven cavity rear wall.
In this way, the hot air circulates inside the oven cavity
to raise its temperature and, at the same time, comes
into contact with the food being cooked. When the
temperature inside the oven cavity reaches the
selected temperature, the heating elements are deenergized. When the temperature inside the oven
cavity drops below the selected temperature, the
heating elements are energized again. In this way, the
inside of the oven cavity is maintained at approximately
the selected temperature. When the convection time
reaches “0”, the heating elements are de-energized
and the convection fan stops operating and the oven
shuts off. At that time if the cavity air temperature has
risen above 120°C, the fan motor remains rotating.
Automatically the fan motor will be shut down at low
temperature (less than 105°C).
The turntable motor rotates the turntable.
SOI 12.06 FV
16/43
599 37 42-75
FUNCTION OF IMPORTANT COMPONENTS
Door
Oven Cavity
Grill Heating
Elements
DAMPER OPEN-CLOSE MECHANISM
Convection
Passage
Convection
Heating Element
Cooling
Fan
Turntable
Roller Stay
Turntable Motor
Convection
Motor
Convection
Fan
Microwave Cooking:
Damper is in the open position, because a portion of
cooling air is channelled through the cavity to remove
steam and vapours given off from the heating foods.
It is then exhausted at the top of the oven cavity into a
condensation compartment.
Convection Cooking:
Damper is in the closed position, so that no hot air will
be allowed to leak out the oven cavity.
Figure D-2. Convection Cooking System
FIRE SENSING FEATURE
The oven will stop its operation when there is a fire in the
oven cavity in microwave cooking condition.
LSI measures the voltage across the temperature
measurement circuit intermittently within 32-seconds time
base since the oven is started in microwave cooking
condition. The oven will stop its operation when the
difference of the voltage is more than 0.39 volts in
microwave cooking condition.
1. Within a 32-seconds base, the thermistor is energized
for 2 seconds. At that time, the voltage across the
temperature measurement circuit is measured.
2. The oven carries out the procedure above again. If the
second voltage is 0.39V higher than first voltage, LSI
judges it is a fire in the oven cavity and stop the oven.
3. When LSI judges it is a fire in the oven cavity, LSI will
switch off the relays to high voltage transformer and
fan motor and LSI stops counting down.
OPEN JUDGE BY THERMISTOR
1. If the temperature of the thermistor does not rise to
more than 40°C after 4 minutes and 15 seconds from
when the oven is started in convection, grill or dual
cooking mode, the oven is turned off.
2. When the thermistor or the wire harness to the
thermistor is opened, the oven is turned off after 4
minutes and 15 seconds because this condition is
same as above.
THERMISTOR
SENSING
VOLTAGE
SOI 12.06 FV
Damper position is set automatically by damper motor
DM, damper switch and motor cam.
These components are operated by a signal that
judges if microwave cooking or convection cooking
operation is selected by the CPU unit.
17/43
Damper Operation
1. When power supply cord is plugged in or when
the control unit resumes after energy save mode
finishes:
1-1. When power supply cord is plugged in, a signal
is sensed in the control unit, and operates shutoff relay (RY8).
1-2. Contacts of shut-off relay (RY8) close, the
damper motor DM is energized, opening the
damper door.
1-3. When the damper is moved to the open position
by the damper cam, damper switch SW4 is
closed (ON position).
1-4. The signal of damper switch SW4 is re-sensed
in the control unit and shut-off relay (RY8) is
turned off.
1-5. The rated voltage to the damper motor DM is
stopped and the motor turns off.
2. When oven is microwave cooking:
Damper is in the open position
3. When oven is convection cooking:
3-1 Damper motor DM is energized right after the
oven is started.
3-2. When damper is in the closed position (damper
switch SW4 is OFF), its signal is sensed by the
control unit, and shut-off relay (RY8) is deenergized.
3-3. The damper is held in the closed position during
the convection cooking operation.
3-4. At the end of the convection cooking, when the
fan motor FM stops, shut-off relay (RY8) is
energized, and the damper is returned to the
open position.
NOTE: If the damper door is not in the proper
position, closed during convection, grill or
dual, or open during microwave, the control
unit will stop oven operation after 1 minute.
599 37 42-75
FUNCTION OF IMPORTANT COMPONENTS
4. Operation of damper is shown below.
Cooking Mode
Operation of Damper
Microwave cooking
Open
Convection cooking
Closed
Grill; during backed up with
Closed
Convection heating element
Grill; afther convection heting
Open
element backed up has stopped
Dual (Microwave and Convection)
Closed
Dual (Microwave and Grill)
Open
Fire sensing condition
Closed
TROBLESHOOTING GUIDE
When troubleshooting the microwave oven, it is helpful
to follow the Sequence of Operation in performing the
checks. Many of the possible causes of trouble will
require that a specific test be performed. These tests
are given a procedure letter which will be found in the
“Test Procedure” section.
SOI 12.06 FV
IMPORTANT: If the oven becomes inoperative
Because of a blown fuse F2 (F8A) in
the monitored latch switch SW1 –
monitor switch SW3 circuit, check the
monitored latch switch SW1 and
monitor switch SW3 before replacing
the fuse F2 (F8A).
18/43
599 37 42-75
SOI 12.06 FV
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Grill heating element does not heat.
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Oven goes into cook cycle but shuts down before end of cooking cycle.
Oven sems to be operative but little or no heat is produced in oven load.
(Microwave power does not seem to be generated properly)
Oven sems to be operate but the temperature in the oven cavity is lower or
higher than the present one.
Convection heating element do not heat.
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DUAL COOKING
CONDITION
(COMMON MODE)
DUAL COOKING
CONDITION
(MICRO./CONV.)
DUAL COOKING
(MICRO./GRILL)
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GRILL COOKING
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Convection cooking mode does not heat.
Oven sems to be operating but the temperature in the oven cavity is lower
or higher than present one.
Grill heating element does not operate.
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CONVECTION
COOKING
CONDITION
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The oven stops 1 minute afther starting.
Oven seems to be operating but little or no heat is produced in oven load.
(Microwave power control is set at 100%)
Oven does not sem to be operating properly during variable cooking
condition except 100% cooking condition.
Oven goes into cook cycle but shuts down before end of cooking cycle.
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Afther cooking, the temperature of oven cavity is higher than 120°C but
fan motor does not operate.
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Oven goes into cook cicle but shuts down before end the cooking cycle.
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Display operate properly but all electrical parts do not operate.
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Oven stops afther 4 minutes and 15 seconds since START button is
pressed. (Except Microwave mode and Dual cook mode.)
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Oven or any electrical parts (except fan motor) does not stop when
cooking time is 0 or STOP button is pressed.
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MICROWAVE
COOKING
CONDITION
COOKING
CONDITION
(COMMON MODE)
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Turntable motor does not operate. (Oven lamp lights.)
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Convection fan motor does not operate. (Fan motor operates.)
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Fan motor does not operate. (Oven lamp lights.)
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Oven lamp does not light and turntables motor does not operate.
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Oven no start when the START button is pressed (Display perates.)
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Oven lamp does not light when door is opened. (Display operates.)
MN O O O O O O O O P
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Display does not operate propelrly when STOP button is pressed
D E E E E F G G G H H H H I J K L L
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Nothing appears in display when power cord is plugged into wall ourlet
and the door is opened and closed.
Fuse F1 20A blows when power cord is plugged into wall outlet.
Home fuse blows when power cord is plugged into wall outlet.
Fuse F2 (F8A) blows when the door is opened.
PROBLEM
POSSIBLE CAUSE
AND
DEFECTIVE PARTS
A B C
BLOCKED COOLING FAN
BLOCKED CONVECTION FAN
NO POWER AT WALL OUTLET
HOME FUSE OR BREAKER
MIS-ADJUSTMENT OF SWITCHES
BLOCKED VENTILATION OPENINGS
OPENED WIRE HARNESS
SHORTED WIRE HARNESS
OVEN LAMP OR SOCKET
POWER SUPPLY CORD
FOIL PATTERN ON P.W.B.
RELAY RY8
RELAY RY7
RELAY RY6
RELAY RY5
RELAY RY4
RELAY RY3
RELAY RY2
●
RELAY RY1
KEY UNIT
CONTROL PANEL
TC TRANSFORMER
CONVECTION HEATING ELEMENT
GRILL HEATING ELEMENT
●
FUSE F2 F8A
FUSE F1 20A
NOISE FILTER
DAMPER MOTOR DM
CONVECTION FAN MOTOR
FAN MOTOR FM
TURNTABLE MOTOR TM
THERMAL CUT-OUT 170°C TC3
THERMAL CUT-OUT 170°C TC2
THERMAL CUT-OUT 125°C TC1
THERMISTOR
DAMPER SWITCH SW4
MONITOR SWITCH SW3
STOP SWITCH SW2
MONITORED LATCH SWITCH SW1 ●
HIGH VOLTAGE CAPACITOR
H.V. HARNESS
H.V. RECTIFIER ASSEMBLY
HIGH VOLTAGE TRANSFORMER
MAGNETRON
⁄
OFF
CONDITION
CONDITION
TEST PROCEDURE
TROBLESHOOTING GUIDE
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599 37 42-75
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TEST PROCEDURES
PROCEDURE
LETTER
A
COMPONENT TEST
MAGNETRON TEST
NEVER TOUCH ANY PART IN THE CIRCUIT WITH YOUR HAND OR AN INSULATED
TOOL WHILE THE OVEN IS IN OPERATION.
CARRY OUT 3D CHECK
Isolate the magnetron from high voltage circuit by removing all leads connected to the
filament terminal.
To test for an open circuit filament use an ohmmeter to make a continuity test between
the magnetron filament terminals, the meter should show a reading of less than 1 ohm.
To test for a short circuit filament to anode condition, connect ohmmeter between one of
the filament terminals and the case of the magnetron (ground). This test should be
indicated an infinite resistance. If a low or zero resistance reading is obtained then the
magnetron should be replaced.
MICROWAVE OUTPUT POWER (IEC-60705-1988)
The following test procedure should be carried out with the microwave oven in a fully
assembled condition (outer case fitted). Microwave output power from the magnetron
can be measured by way of IEC 60705, i.e. it is measured by how much power the
water load can absorb. To measure the microwave output power in the microwave oven,
the relation of calorie and watt is used. When P(W) heating works for t(second),
approximately P x t/4.187 calorie is generated. On the other hand, if the temperature of
the water with V(ml) rises ΔT (°C) during this microwave heating period, the calorie of
the water is V x ΔT.
The formula is as follows;
P x t / 4.187 = V x Δ T+0.55 x mc (T2-T0)
Our condition for water load is as follows:
Room temperature.....................around 20°C
Water load..........................................1000 g
Heating time........................................47 sec.
T2......................................Final Temperature
P (W) = 4.187 x V x ΔT / t
Power supply Voltage........Rated voltage
Initial temperature(T1).............10 ± 1°C
Mass of container (mc)....................330 g
P = 90 x ΔT + 0.55 x mc (T2-T0)/47
Measuring condition:
1. Container
The water container must be a cylindrical borosilicate glass vessel having a maximum
material thickness of 3 mm and an outside diameter of approximately 190 mm.
2. Temperature of the oven and vessel.
The oven and the empty vessel are at ambient temperature prior to the start of the
test.
3. Temperature of the water
The initial temperature of the water is (10 ± 2)°C.
4. Select the initial and final water temperature so that the maximum difference
between the final water temperature and the ambient temperature is 5K.
5. Select stirring devices and measuring instruments in order to minimize addition or
removal of heat.
6. The graduation of the thermometer must be scaled by 0.1°C at minimum and an
accurate thermometer.
7. The water load must be (1000 ± 5) g.
8. “t” is measured while the microwave generator is operating at full power. Magnetron
filament heat-up time is not included.
NOTE: The operation time of the microwave ovens is “t + 3” sec. (3 sec. is magnetron
filament heat-up time.)
SOI 12.06 FV
20/43
599 37 42-75
TEST PROCEDURES
PROCEDURE
LETTER
COMPONENT TEST
Measuring method:
1. Measure the initial temperature of the water before the water is added to the
vessel. (Example: The initial temperature T1 = 11°C)
2. Add the 1 litre water to the vessel.
3. Place the load on the centre of the shelf.
4. Operate the microwave oven at HIGH for the temperature of the water rises
by a value ΔT of (10 ± 2) K.
5. Stir the water to equalize temperature throughout the vessel.
6. Measure the final water temperature. (Example: The final temperature
T2 = 21°C)
7. Calculate the microwave power output P in watts from above formula.
Room temperature ................T0 = 21°C Initial temperature............. T1 = 11°C
Temperature after (47+ 3) = 50 sec................................................... T2 = 21°C
Temperature difference Cold-Warm.................................................ΔT1 = 10°C
Measured output power
The equation is “P = 90 x ΔT” .................................. P = 90 x 10°C = 900Watts
JUDGEMENT: The measured output power should be at least ± 15 % of
the rated output power.
CAUTION: 1°C CORRESPONDS TO 90 WATTS. REPEAT
MEASUREMENT IF THE POWER IS INSUFFICIENT.
Heat up for 50 sec.
B
HIGH VOLTAGE TRANSFORMER TEST
WARNING: High voltages and large currents are present at the
secondary winding and filament winding of the high voltage
transformer. It is very dangerous to work near this part when
the oven is on. NEVER make any voltage measurements of
the high-voltage circuits, including the magnetron filament.
CARRY OUT 3D CHECKS
Disconnect the leads to the primary winding of the power transformer.
Disconnect the filament and secondary winding connections from the rest of
the HV circuitry. Using an ohmmeter, set on a low range, it is possible to check
the continuity of all three windings. The following readings should be
obtained:a. Primary winding ............................approximately 2 Ω
b. Secondary winding ....................approximately 127 Ω
c. Filament winding ..................................less than 1 Ω
If the reading obtained are not as stated above, then the power transformer is
probably faulty and should be replaced.
CARRY OUT 4R CHECKS
SOI 12.06 FV
21/43
599 37 42-75
TEST PROCEDURES
PROCEDURE
LETTER
C
COMPONENT TEST
HIGH VOLTAGE RECTIFIER TEST
CARRY OUT 3D CHECKS.
Isolate the high voltage rectifier assembly from the HV circuit. The high voltage
rectifier can be tested using an ohmmeter set to its highest range. Connect the
ohmmeter across the terminal B+C of the high voltage rectifier and note the
reading obtained. Reverse the meter leads and note this second reading.
The normal resistance is infinite in one direction and more than 100 kΩ in the
other direction.
CARRY OUT 4R CHECKS
ASYMMETRIC RECTIFIER TEST
ASYMMETRIC
RECTIFIER
CARRY OUT 3D CHECKS.
HIGH VOLTAGE
RECTIFIER
Isolate the high voltage rectifier assembly from the HV circuit. The asymmetric
rectifier can be tested using an ohmmeter set to its highest range across the
terminals A+B of the asymmetric rectifier and note the reading obtained.
Reverse the meter leads and note this second reading. If an open circuit is
indicated in both direction then the asymmetric rectifier is good. If an
asymmetric rectifier is shorted in either direction, then the asymmetric rectifier
is probably faulty and must be replaced with high voltage asymmetric rectifier.
When the asymmetric rectifier is defective, check whether magnetron, high
voltage rectifier, high voltage wire or filament winding of the high voltage
transformer is shorted.
CARRY OUT 4R CHECKS
NOTE: FOR MEASUREMENT OF THE RESISTANCE OF THE RECTIFIER,
THE BATTERIES OF THE MEASURING INSTRUMENT MUST HAVE
A VOLTAGE OF AT LEAST 6 VOLTS, BECAUSE OTHERWISE AN
INFINITE RESISTANCE MIGHT BE SHOWN IN BOTH
DIRECTIONS.
D
HIGH VOLTAGE CAPACITOR TEST
CARRY OUT 3D CHECKS
A. Isolate the high voltage capacitor from the circuit.
B. Continuity check must be carried out with measuring instrument which is set
to the highest resistance range.
C. A normal capacitor shows continuity for a short time (kick) and then a
resistance of about 10 MΩ after it has been charged.
D. A short-circuited capacitor shows continuity all the time.
E. An open capacitor constantly shows a resistance about 10 MΩ because of
its internal 10 MΩ resistance.
F. When the internal wire is opened in the high voltage capacitor, the
capacitor shows an infinite resistance.
G. The resistance across all the terminals and the chassis must be infinite
when the capacitor is normal.
If incorrect reading are obtained, the high voltage capacitor must be replaced.
CARRY OUT 4R CHECKS
SOI 12.06 FV
22/43
599 37 42-75
TEST PROCEDURES
PROCEDURE
LETTER
E
COMPONENT TEST
SWITCH TEST
CARRY OUT 3D CHECKS.
Isolate the switch to be tested and using an ohmmeter check between the
terminals as described in the following table.
Table: Terminal Connection of Switch
Plunger Operation
COM to NO
COM to NC
COM; Common terminal
Released
Open circuit
Short circuit
NO;
Normally open terminal
Depressed
Short circuit
Open Circuit
NC;
Normally close terminal
If incorrect readings are obtained, replace the switch.
CARRY OUT 4R CHECKS.
F
THERMISTOR TEST
CARRY OUT 3D CHECKS
Disconnect the connector B from CPU unit. Measure the resistance of the
thermistor with an ohmmeter. Connect the ohmmeter leads to Pin No’s C1 and
C3 of the thermistor harness.
Room Temperature
20°C - 30°C
Resistance
Approximately 359.9 kΩ - 152 kΩ
If the meter does not indicate above resistance, replace the thermistor.
CARRY OUT 4R CHECKS
G
THERMAL CUT OUT TEST
CARRY OUT 3D CHECKS
Disconnect the leads from the terminals of the thermal cut-out. Then using an
ohmmeter, make a continuity test across the two terminals as described in the
below.
Table: Thermal Cut-out Test
Interr. termico TC02 170°C
Temperatura in
condizione "ON"
(circuito chiuso). (°C)
This is not
reset able type
Below 155°C
Interr. termico TC03 170°C
Below 155°C
Denominazione parte
Interr. termico TC01 145°C
Temperatura in
Indication of ohmmeter
condizione "OFF" (When room temperature
(circuito aperto). (°C) is approx. 20°C.)
Above 125°C
Closed circuit
Above 170°C
Closed circuit
Above 170°C
Closed circuit
If incorrect readings are obtained, replace the thermal cut-out.
An open circuit thermal cut-out (MG) TC01 indicates that the magnetron has
overheated, this may be due to restricted ventilation, cooling fan failure.
An open circuit thermal cut-out (GRILL) TC02 indicates that the oven cavity has
overheated, this may be due to no load operation.
An open circuit thermal cut-out (CONV.) TC03 indicates that the convection fan
winding has overheated, this may be due to restricted ventilation or locked
cooling fan or locked convection fan motor.
CARRY OUT 4R CHECKS
SOI 12.06 FV
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599 37 42-75
TEST PROCEDURES
PROCEDURE
LETTER
H
COMPONENT TEST
MOTOR WINDING TEST
CARRY OUT 3D CHECKS.
Disconnect the leads from the motor. Using an ohmmeter, check the
resistance between the two terminals as described in the table below.
Table: Resistance of Motor
Motors
Resistance
Approximately
293 Ω
Approximately
12.6 kΩ
Approximately
220 Ω
Approximately
11 kΩ
Fan motor
Turntable motor
Convection fan motor
Damper motor
If incorrect readings are obtained, replace the motor.
CARRY OUT 4R CHECKS.
I
NOISE FILTER TEST
CARRY OUT 3D CHECKS
Disconnect the leads from the
terminals of the noise filter.
Using an ohmmeter, check between
the terminals as described in the
following table.
MEASURING POINTS
Between N and L
Between terminal N and WHITE
Between terminal L and RED
INDICATION OF OHMMETER
Approx. 680 kΩ
Short circuit
Short circuit
If incorrect readings are obtained, replace the noise filter unit.
CARRY OUT 4R CHECKS
J
BLOWN FUSE F1 20A
CARRY OUT 3D CHECKS
If the fuse F1 20A is blown, there is a short or a ground in electrical parts
or wire harness. Check them and replace the defective parts or repair the
wire harness.
CARRY OUT 4R CHECKS
CAUTION: Only replace fuse F1 20A with the correct value replacement.
H
BLOWN FUSE F2 F8A
CARRY OUT 3D CHECKS
1. If the fuse F2 F8A is blown when the door is opened, check the
monitored latch switch SW1 and monitor switch SW3.
2. If the fuse F2 F8A is blown by incorrect door switching replace the
defective switch(es) and the fuse F2 F8A.
SOI 12.06 FV
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599 37 42-75
TEST PROCEDURES
PROCEDURE
LETTER
COMPONENT TEST
3. If the fuse F2 F8A is blown, there could be shorts in the asymmetric rectifier
or there is a ground in wire harness. A short in the asymmetric rectifier may
be occurred due to short or ground in H.V. rectifier, magnetron, high voltage
transformer or H.V. wire. Check them and replace the defective parts or
repair the wire harness.
CARRY OUT 4R CHECKS
CAUTION: Only replace fuse F2 F8A with the correct value replacement.
L
GRILL HEATING ELEMENT TEST (TOP) AND CONVECTION HEATING
ELEMENT TEST
CARRY OUT 3D CHECKS
Before carrying out the following tests make sure the heating element is cooled completely.
1. Resistance of heating element.
Disconnect the wire leads to the heating element to be tested. Using ohmmeter with
low resistance range. Check the resistance across the terminals of the heating
element as described in the following table.
Table: Resistance of heating element
Part name
Resistance
Grill heating element GH (top)
Approximately 44.4 Ω (22.2Ω x 2)
Convection heating element CH
Approximately 42.5 Ω
2. Insulation resistance.
Disconnect the wire leads to the heating element to be tested. check the
insulation resistance between the element terminal and cavity using 500V 100MΩ insulation tester. The insulation resistance should be more than 10 MΩ in
the cold start.
If the results of above test 1 and/or 2 are out of above specifications, the heating
element is probably faulty and should be replaced.
CARRY OUT 4R CHECKS
M
CONTROL PANEL ASSEMBLY TEST
The control panel consists of circuits including semiconductors such as LSI, ICs, etc.
Therefore, unlike conventional microwave ovens, proper maintenance can not be
performed with only a voltmeter and ohmmeter.
In this service manual, the control panel assembly is divided into two units, CPU unit and
Power Unit, and troubleshooting by replacement is described according to the symptoms
indicated.
1. Jog Switch Unit Note: Check Jog and Switch unit wire harness
connection before replacement. The following symptoms indicate a
defective Jog Switch unit. Replace the Jog Switch unit.
1-1. Tact switch
a) When touching the buttons, a certain button produces no signal at all.
b) When touching the buttons, sometimes a button produces no signal.
1-2. Potentiometer
a) When rotating the potentiometer, the cooking mode can not be
selected.
1-3. Encoder
a) When rotating the encoder, the cooking time or the weight of food can
not be entered.
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TEST PROCEDURES
PROCEDURE
LETTER
COMPONENT TEST
2. Control Panel
The following symptoms indicate a defective control unit. Before replace the control
unit, perform the Jog and Switch unit test (Procedure N) to determine if control unit is
faulty.
2-1.In connection with buttons.
a) When touching the buttons, a certain group of buttons do not produce a signal.
b) When touching the buttons, no buttons produce a signal.
2-2.In connection with indicators.
a) At a certain digit, all or some segments do not light up.
b) At a certain digit, brightness is low.
c) Only one indicator does not light up.
d) The corresponding segments of all digits do not light up; or they continue to light
up.
e) Wrong figure appears.
f) A certain group of indicators do not light up.
g) The figure of all digits flicker.
N
KEY AND JOG UNIT TEST
If the display fails to clear when the STOP pad is depressed, first verify the flat ribbon
cable is marking good contact, verify that the door sensing switch (stop switch) operates
properly; that is the contacts are closed when the door is closed and open when the door is
open. If the door sensing switch (stop switch) is good, disconnect the flat ribbon cable that
connects the key unit to the control unit and make sure the door sensing switch is closed
(either close the door or short the door sensing switch
connecter). Use the Key unit matrix indicated on the control panel schematic and place a
jumper wire between the pins that correspond to the STOP pad marking momentary
contact. If the control unit responds by clearing with a beep the key unit is faulty and must
be replaced. If the control unit does not respond, it is faulty and must be replaced. If a
specific pad does not respond, the above method may be used (after clearing the control
unit) to determine if the control unit or key pad is at fault.
CARRY OUT 4R CHECKS
O
RELAY TEST
CARRY OUT 3D CHECKS
Remove the outer case and check voltage between Pin Nos. 1 and 3 of the 4 pin
connector (E) on the
control unit with an A.C. voltmeter.
The meter should indicate 230 volts, if not check oven circuit.
Relay Test
Check voltage at the relay coil with a D.C. voltmeter during the microwave cooking
operation, grill operation, convection operation or dual operation.
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TEST PROCEDURES
PROCEDURE
LETTER
COMPONENT TEST
DC. voltage indicated .......... Defective relay.
DC. voltage not indicated .... Check diode which is connected to the relay coil. If
diode is good, control unit is defective.
RELAY SYMBOL
RY1
OPERATIONAL VOLTAGE
Approx.18.0 V D.C.
CONNECTED COMPONENT
Oven lamp / Turntable motor
RY2
Approx.18.0 V D.C.
High voltage transformer
RY3
Approx. 24.0 V D.C.
Grill (Top) heating element
RY4
Approx. 24.0 V D.C.
Convection heating element
RY5
Approx. 24.0 V D.C.
Touch control transformer
RY6
Approx. 24.0 V D.C.
Fan motor
RY7
Approx. 24.0 V D.C.
Convection motor
RY8
Approx. 24.0 V D.C.
Damper motor
CARRY OUT 4R CHECKS
P
PROCEDURES TO BE TAKEN WHEN THE FOIL PATTERN ON THE
PRINTED WIRING BOARD (PWB) IS OPEN
To protect the electronic circuits, this model is provided with a fine foil pattern added to
the input circuit on the PWB, this foil pattern acts as a fuse. If the foil pattern is open,
follow the troubleshooting guide given below for repair.
Problem: POWER ON, indicator does not light up.
CARRY OUT 3D CHECKS
STEPS
1
OCCURRENCE
3
The rated AC voltage is not
present between Pin No. 1 - 3 of
the 4 pin connector (E)
The rated AC voltage is not
present at primary side of low
voltage transformer.
Only pattern at "a" is broken.
4
Pattern at "a" and "b" are broken.
2
CAUSE OR CORRECTION
Check supply voltage and oven power
cord.
Low voltage transformer or secondary
circuit defective. Check and repair.
*Insert jumper wire J1 and solder.
(CARRY OUT 3D CHECKS BEFORE
REPAIR)
*Insert the coil code 5028 24 08-00/9
between "c" and "d (J1).
(CARRY OUT 3D CHECKS BEFORE
REPAIR)
NOTE: *At the time of these repairs,
make a visual inspection of
the varistor for burning
damage and examine the
transformer with tester for the
presence of layer short circuit
(check primary coil resistance).
If any abnormal condition is
detected, replace the defective
parts.
CARRY OUT 4D CHECKS
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JOG CONTROL PANEL ASSEMBLY
OUTLINE OF JOG CONTROL PANEL
The jog control section consists of the following units:
4) ACL
A circuit to generate a signal which resets the LSI to
the initial state when power is supplied.
(1) Key Unit
(2) Control Unit (The Control unit consists of Power
unit and CPU unit.)
5) Buzzer Circuit
The buzzer is responsive to signals from the LSI to
emit audible sounds (key touch sound and
completion sound).
The principal functions of these units and signals
communicated among them are explained below.
Key Unit
The key unit is composed of a matrix, signals generated
in the LSI are sent to the key unit from P14, P15, P16
and P17.
When a key pad is touched, a signal is completed
through the key unit and passed back to the LSI through
P70, P71, P72 and P73 to perform the function that was
requested.
6) Door Sensing Switch (Stop Switch)
A switch to "tell" the LSI if the door is open or closed.
Control Unit
Control unit consists of LSI, power source circuit,
synchronizing signal circuit, ACL circuit, buzzer circuit,
relay circuit, temperature measurement circuit, indicator
circuit, absolute humidity sensor circuit and back light
circuit.
8) Back Light Circuit
A circuit to drive the back light (Light emitting diodes
LD10 - LD19).
1) LSI
This LSI controls the temperature measurement
signal, absolute humidity sensor signal, key strobe
signal, relay driving signal for oven function and
indicator signal.
Voltage
-5.2V
Application
LSI(IC1)
3) Synchronizing Signal Circuit
The power source synchronizing signal is available in
order to compose a basic standard time in the clock
circuit. It accompanies a very small error because it
works on commercial frequency.
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9) Indicator Circuit
This circuit consists 40-segments and 16-common
electrodes using a Liquid Crystal Display.
The Liquid Crystal Display (LCD) is drived by LCD
driver IC3.
10) Temperature Measurement Circuit : (OVEN
THERMISTOR)
The temperature in the oven cavity is sensed by the
thermistor. The variation of resistance according to
sensed temperature is detected by the temperature
measurement circuit and the result applied to LSI.
The LSI uses this information to control the relay
and display units.
2) Power Source Circuit
This circuit generates voltage necessary in the
control unit.
Symbol
VC
7) Relay Circuit
To drive the magnetron, grill heating element,
convection heating element, convection motor, fan
motor, turntable motor, damper motor, touch control
transformer and light the oven lamp.
11) Damper Switch
A switch to tell the LSI if the damper is open or
close.
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SIGNALS AND TIMES FROM LSI
Signal to sound buzzer
A: Tact switch touch sound.
B: Completion sound.
C: When the temperature of the oven cavity reaches
the preset temperature in the preheating mode,
or when the preheating hold time (30 minutes) is
elapsed.
Magnetron high-voltage circuit driving signal.
To turn on and off the cook relay
(RY2). In 100% operation, the
signals hold "L" level during
microwave cooking and "H" level
while not cooking. In other
cooking modes (70%, 50%, 30%,
10%) the signal turns to "H" level
and "L" level in repetition
according to the power level.
ON/OFF time ratio in Micro
cooking
(a. 32second time base)
MICRO
ON
OFF
COOK
100%
32 sec.
0 sec.
70%
24 sec.
8 sec.
50%
18 sec.
14 sec.
30%
12 sec.
20 sec.
10%
6 sec.
26 sec.
ON/OFF time ratio in Micro
cooking
(a. 48second time base)
MICRO
ON
OFF
COOK
100%
48 sec.
0 sec.
70%
36 sec.
12 sec.
50%
26 sec.
22 sec.
30%
16 sec.
32 sec.
10%
8 sec.
40 sec.
Grill (TOP) heating element driving signal.
To turn on and off the grill heating element
relay (RY3). "L" level during grill cooking,
convection cooking or dual cooking, "H"
level otherwise. The heater relay turns on
and off within a 48 second time base in
accordance with the special program in LSI.
Power output
100%
90%
80%
70%
60%
50%
40%
30%
20%
10%
On time
48 sec.
44 sec.
40 sec.
36 sec.
32 sec.
26 sec.
22 sec.
16 sec.
12 sec.
8 sec.
OFF time
0 sec.
4 sec.
8 sec.
12 sec.
16 sec.
22 sec.
26 sec.
32 sec.
36 sec.
40 sec.
Power output
100%
90%
80%
70%
60%
50%
40%
30%
20%
10%
On time
48 sec.
44 sec.
40 sec.
36 sec.
32 sec.
26 sec.
22 sec.
16 sec.
12 sec.
8 sec.
OFF time
0 sec.
4 sec.
8 sec.
12 sec.
16 sec.
22 sec.
26 sec.
32 sec.
36 sec.
40 sec.
Convection heating element driving signal.
To turn on and off the relay (RY4). "L" level
during grill cooking, convection cooking or
dual cooking, "H" level otherwise.
The heater relay turns on and off within a 48
second time base in accordance with the
special program in LSI.
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SERVICING
1. Precautions for Handling Electronic
Components
This unit uses CMOS LSI in the integral part of the
circuits. When handling these parts, the following
precautions should be strictly followed. CMOS LSI
have extremely high impedance at its input and
output terminals. For this reason, it is easily
influenced by the surrounding high voltage power
source, static electricity charge in clothes,
etc. and sometimes it is not fully protected by the
built-in protection circuit.
In order to protect CMOS LSI.
1) When storing and transporting, thoroughly wrap
them in aluminium foil. Also wrap all PW boards
containing them in aluminium foil.
2) When soldering, ground the technician as
shown in the figure and use grounded soldering
iron and work table.
approx. 1 M ohm
2. Servicing of Touch Control Panel
We describe the procedures to permit servicing
of the touch control panel of the microwave
oven and the precautions you must take when
doing so. To perform the servicing, power to the
touch control panel is available either from the
power line of the oven itself or from an external
power source.
(1) Servicing the touch control panel with
power line of the oven:
CAUTION:
THE HIGH VOLTAGE TRANSFORMER OF THE
MICROWAVE OVEN IS STILL LIVE DURING
SERVICING AND PRESENTS A HAZARD.
Therefore, before checking the performance of
the touch control panel,
1) Disconnect the power supply cord, and then
remove outer case.
2) Open the door and block it open.
3) Discharge high voltage capacitor.
4) Disconnect the leads to the primary of the
power transformer.
5) Ensure that these leads remain isolated from
other components and oven chassis by using
insulation tape.
6) After that procedure, re-connect the power
supply cord.
After checking the performance of the touch control
panel,
1) Disconnect the power supply cord.
2) Open the door and block it open.
3) Re-connect the leads to the primary of the
power transformer.
4) Re-install the outer case (cabinet).
5) Re-connect the power supply cord after the
outer case is installed.
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6) Run the oven and check all functions.
A. On some models, the power supply cord
between the touch control panel and the oven itself is
so short that the two can’t be separated. For those
models, check and repair all the controls (sensorrelated ones included) of the touch control panel while
keeping it connected to the oven.
B. On some models, the power supply cord
between the touch control panel and the oven is long
enough that they may be separated from each other.
For those models, therefore, it is possible to check
and repair the controls of the touch control panel
while keeping it apart from the oven; in this case you
must short both ends of the door sensing switch (on
PWB) of the touch control panel with a jumper, which
brings about an operational state that is equivalent to
the oven door being closed. As for the sensor-related
controls of the touch control panel, checking them is
possible if the dummy resistor(s) with resistance
equal to that of the controls are used.
(2) Servicing the touch control panel with power supply
from an external power source:
Disconnect the touch control panel completely from
the oven, and short both ends of the door sensing
switch (SW3: STOP SWITC on PWB) of the touch
control panel, which activates an operational state
that is equivalent to the oven door being closed. Connect
an external power source to the power input
terminal of the touch control panel, then it is possible
to check and repair the controls of the touch control
panel.
3. Servicing Tools
Tools required to service the touch control panel
assembly.
1) Soldering iron: 30W
(It is recommended to use a soldering iron with a
grounding terminal.)
2) Others: Hand tools
4. Other Precautions
1) Before turning on the power source of the control unit,
remove the aluminium foil applied for preventing static
electricity.
2) Connect the connectors of the key unit to the control
unit being sure that the lead wires are not twisted.
3) After aluminium foil is removed, be careful that
abnormal voltage due to static electricity etc. is not
applied to the input or output terminals.
4) Attach connectors, electrolytic capacitors, etc. to
PWB, making sure that all connections are tight.
5) Be sure to use specified components where high
precision is required.
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COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE
WARNING: Avoid possible exposure to microwave energy. Please follow the instructions below before
operating the oven.
1. Disconnect oven from power supply.
2. Make sure that a definite "click" can be heard
when the microwave oven door is unlatched.
(Hold the door in a closed position with ona hand,
then push the open button with the other, this
causes the latch heads to rise, it is then possible to
hear a "click" as the door switches operate.)
3. Visually check the door and cavity face plate for
damage (dents, cracks, signs of arcing etc.).
1. Door does not close firmly.
2. Door hinges, support or latch hook is damaged.
3. The door gasket or seal is damaged.
4. The door is bent or warped.
5. There are defective parts in the door interlock
system.
6. There are defective parts in the microwave
generating and transmission assembly.
7. There is visible damage to the oven.
Carry out any remedial work that is necessary before
operating the oven.
Do not operate the oven if any of the following
conditions exist;
Do not operate the oven:
1. Without the RF gasket (Magnetron).
2. If the wave guide or oven cavity are not intact.
3. If the door is not closed.
4. If the outer case (cabinet) is not fitted.
Please refer to ‘OVEN PARTS, CABINET PARTS, CONTROL PANEL PARTS, DOOR PARTS’, when carrying
out any of the following removal procedures:
WARNING FOR WIRING
To prevent an electric shock, take the following
these procedures.
1. Before wiring,
1) Disconnect the power supply.
2) Open the door and wedge the door open.
3) Discharge the high voltage capacitor and wait
for 60 seconds.
2. Don't let the wire leads touch to the following
parts;
1) High voltage parts:
Magnetron, High voltage transformer, High
Voltage capacitor and High voltage rectifier
assembly.
2) Hot parts:
Grill heating element, Convection heating
element, Oven lamp, Magnetron, High voltage
transformer and Oven cavity.
3) Sharp edge:
Bottom plate, Oven cavity, Weveguide flange,
Chassis support and other metallic plate.
4) Movable parts (to prevent a fault)
Fan blade, Fan motor, Switch, Turntable
motor, Convection motor, convection fan and
colling fan.
3. Do not catch the wire leads in the outer case
cabinet.
4. Insert the positive lock connector certainly until its
pin is locked. And make sure that the wire leads
should not come off even if the wire leads is pulled.
5. To prevent an error function, connect the wire leads
correctly, referring to the Pictorial Diagram.
BUILT IN FRAME ASSEMBLY REMOVAL
To remove the built in frame assembly,
proceed as follows.
1. Remove the four screws securing the
frame assembly to the oven cavity, (two
from the
top and two from the hinge
side).
2. Remove the two screws securing the
frame assembly to the control panel frame
(accessed from the back of the frame).
3. Open the oven door fully.
4. Push down the built in frame assembly at
the bottom, where it meets the cavity
face.
SOI 12.06 FV
5. Pull the built in frame assembly away from the cavity face
6. Now the built in frame assembly is free.
TOP
SCREWS
C.P. SECURING
SCREWS
HINGE SIDE
SCREWS
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COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE
OUTER CASE REMOVAL
To remove the outer case, proceed as follows.
1. Disconnect oven from power supply.
2. Open door and wedge it open.
3. Remove the one (1) screw holding the air duct to the
oven cavity rear plate.
4. Remove athe air duct.
5. Remove the nine (9) screws from rear and along the
side edge of case.
6. Slide the entire case back about 3 cm to free it from
retaining clips on the cavity face plate.
7. Lift the entire case from the oven.
8. Discharge the H.V capacitor before carrying any
further work.
9. Do not operate the oven with the outer case
removed.
N.B. : Step 1, 2 and 8 from the basis of the 3D checks.
CAUTION: DISCHARGE HIGH VOLTAGE
CAPACITOR BEFORE TOUCHING ANY
OVEN COMPONENTS OR WIRING.
HIGH VOLTAGE COMPONENTS REMOVAL
(HIGH VOLTAGE CAPACITOR AND HIGH VOLTAGE RECTIFIER ASSEMBLY)
7. Disconnect the high voltage rectifier assembly from
the high voltage capacitor.
8. Now, the high voltage rectifier assembly and the
high voltage capacitor should be free.
To remove the components, proceed as follows.
1. CARRY OUT 3D CHECKS
2. Disconnect the filament leads of the high
voltage transformer and the high voltage wire of
the high voltage capacitor.
3. Disconnect the high voltage wire B from the high
voltage capacitor.
4. Remove one (1) screw holding earth side
CAUTION:
terminal of the high voltage rectifier assembly to
the base plate through the capacitor holder.
5. Release the capacitor holder from the base
plate.
6. Remove the high voltage capacitor from the
capacitor holder.
WHEN REPLACING HIGH VOLTAGE
RECTIFIER ASSEMBLY, ENSURE
THAT THE CATHODE (EARTH)
CONNECTION IS SECURELY FIXED
TO THE CAPACITOR HOLDER AND
BASEPLATE WITH AN EARTHING
SCREW.
HIGH VOLTAGE TRANSFORMER REMOVAL
1. CARRY OUT 3D CHECKS
2. Disconnect the main wire harness from the high
voltage transformer.
3. Disconnect the filament leads and high voltage
wire of high voltage transformer from high voltage
capacitor and the magnetron.
4. Remove the two (2) screws and one (1) washer
holding the transformer to the base plate.
5. Remove the transformer.
6. Now the high voltage transformer is free.
MAGNETRON REMOVAL
1. CARRY OUT 3D CHECKS.
2. Disconnect the H.V. wire B (part of H.V. transformer)
and filament lead of the transformer from the
magnetron.
3. Carefully remove three(3) screws holding the
magnetron to the waveguide, when removing the
screws hold the magnetron to prevent it from falling.
4. Remove the one (1) screw holding the magnetron to
the chassis support.
SOI 12.06 FV
5. Remove the magnetron from the waveguide with
care so the magnetron antenna is not hit by any
metal object around the antenna.
6. Now, the magnetron is free.
CAUTION: WHEN REPLACING THE MAGNETRON,
BE SURE THE R.F. GASKET IS IN
PLACE AND THE MAGNETRON
MOUNTING SCREWS ARE TIGHTENED
SECURELY.
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COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE
CONTROL PANEL ASSEMBLY REMOVAL
1. CARRY OUT 3D CHECKS.
2. Disconnect the main wire harness from the
control panel.
3. Remove the one (1) screw holding the control
panel to the oven cavity.
4. Lift the control panel assembly and pull it
forward. Now, the control panel assembly is free.
FAN MOTOR REPLACEMENT
REMOVAL
1. CARRY OUT 3D CHECKS.
2. Remove the one (1) screw holding the noise filter
to the chassis support.
3. Release the noise filter from the tabs of the fan
duct.
4. Remove the three (3) screw holding the chassis
support to the oven cavity front flange, back plate,
and the magnetron.
5. Remove the chassis support from the oven
cavity.
6. Disconnect the wire leads from the fan duct.
7. Remove the one (1) screw holding the fan duct to
the back plate.
8. Release the tabs of the fan duct from back plate.
9. Remove the fan duct from the oven.
10. Remove the fan blade from the fan motor shaft
according to the following procedure.
1) Hold the edge of the rotor of the fan motor by
using a pair of groove joint pliers.
CAUTION:
• Make sure that no swarf from the rotor enters
the gap between the rotor & stator of the fan
motor.
• Avoid touch the coil of the fan motor with
the pliers as the coil may become cut or
damaged.
• Avoid deforming the bracket whilst using the
pliers.
2) Remove the fan blade assembly from the shaft
of the fan motor by pulling and rotating the fan
blade with your hand.
3) Now, the fan blade is free.
11. Remove the two (2) screws holding the fan motor
to the fan duct.
12. Now, the fan motor is free.
INSTALLATION
1. Install the the fan motor to the fan duct with the
two (2) screws and nuts.
2. Install the fan blade to the fan motor shaft
according to the following procedure.
1) Hold the centre of the bracket which
supports the shaft of the fan motor on a flat
table.
2) Apply the screw lock tight into the hole (for
shaft) of the fan blade.
3) Install the fan blade to the shaft of fan motor
by pushing the fan blade with a small, light
weight, ball peen hammer or rubber mallet.
3.
4.
5.
6.
7.
CAUTION:
• Do not hit the fan blade when installing
because the bracket may be deformed.
• Make sure that the fan blade rotates
smoothly after installation.
• Make sure that the axis of the shaft is
not slanted.
Insert the tabs of the fan duct to the back plate.
Install the fan duct to the back plate with the one
(1) screw.
Re-install the chassis support to the oven cavity
with the four (4) screws.
Install the noise filter to the fan duct and the
chassis support with the one (1) screw.
Re-connect the wire leads to the fan motor.
CAUTION:
• Do not re-use the removed fan blade as
the fixing hole may be oversize.
Coil
Shaft
Groove joint
Stator
Gap
Rotor
Bracket
Rear view
SOI 12.06 FV
Shaf
Axis
Stator
Rotor
These are the position
that should be pinched
with pliers
Table
Center of
bracket
Side view
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COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE
TURNTABLE MOTOR REPLACEMENT
REMOVAL
1. Disconnect the oven from the power supply.
2. Remove the turntable and roller stay from the
oven cavity.
3. Turn the oven over.
4. Cut the three (3) bridges holding the turntable
motor cover to the base plate with cutting pliers as
shown in Figure C-1(a).
CAUTION: DO NOT DROP THE TURNTABLE
MOTOR COVER INTO THE OVEN AFTER
CUTTING THE BRIDGES. BECAUSE IT
WILL DAMAGE THE WIRE LEADS OF
THE MOTOR AND IT IS DIFFICULT TO
REMOVE IT OUT OF THE OVEN.
5. Remove the turntable motor cover from the base
plate.
6. Disconnect the wire leads from the turntable motor.
7. Remove the two (2) screws holding the turntable
motor to the oven cavity back plate.
8. Remove the turntable motor from the turntable
motor angle. Now, the turntable motor is free.
RE-INSTALL
1. Remove the any sharp edges on the turntable
motor cover and the base plate with the cutting
pliers.
2. Re-install turntable motor by locating shaft onto
coupling to the oven cavity base plate with the two
(2) screws.
3. Re-connect the wire leads to the turntable motor.
4. Insert the one (1) tab of the turntable motor cover
into the slit of the base plate as shown in Figure
C-1(b).
5. Re-install the turntable motor cover to the base plate
with the screw (code 5028 63 98-00/8) as
shown in Figure C-1(b).
Turntable
motor cover
Cutting pliers
Base plate
Tab
Bridges
Screw :
5028 63 98-00/8
Base plate
Slit
Turntable motor
cover
Figure C-1(a). Turntable motor cover removal
Figure C-1(b). Turntable motor cover re-install
CONVECTION MOTOR AND CONVECTION HEATING ELEMENT REMOVAL
1. CARRY OUT 3D CHECKS.
Now,the outer case cabinet and the air duct should
have been removed.
2. Remove the one (1) screw holding the earth wire of
the power supply cord to the back plate.
3. Release the power supply cord from the back plate.
4. Remove the two (2) screws holding the rear barrier
to the base plate.
5. Release the three (3) tabs of rear barrier from the
base plate. And remove the rear barrier.
6. Remove the one (1) screw holding the back plate to
the base plate.
7. Remove the one (1) screw holding the chassis
support to the back plate.
8. Remove the one (1) screw holding the the back plate
to the air intake duct.
9. Remove the two (2) screws holding the back plate to
the convection duct.
10. Remove the back plate from the oven cavity.
11. Disconnect the wire leads from the convection
heating elements, convection motor and thermal cutout.
12. Remove the one (1) screw holding the convection
duct to the oven cavity back plate from outside of the
oven cavity.
SOI 12.06 FV
13. Remove the seven (7) screws holding the
convection duct to the oven cavity back plate from
inside of the oven cavity.
14. Lift up the convection duct and release the three (3)
tabs of the oven cavity back plate from the
convection duct.
15. Now, the convection unit assembly is free.
CONVECTION HEATING ELEMENT REMOVAL
1. Remove the two (2) screws holding the convection
heating element to the convection duct.
2. Remove the one (1) screw holding the convection
heater angle to the convection duct.
3. Remove the one (1) screw holding the convection
heater angle and the air separate angle D to the
convection duct.
4. Remove the one (1) screw holding the convection
heater angle A to the convection duct.
5. Remove the convection heating element from the
convection duct.
6. Now, the convection heating element is free.
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599 37 42-75
COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE
5. Remove the cooling fan from the convection motor
shaft.
6. Remove the two (2) screws holding the convection
motor to the convection motor angle.
7. Remove the one (1) ring from the convection motor
shaft.
8. Now, the convection motor is free.
CONVECTION MOTOR REMOVAL
1. Remove the one (1) nut and washer from the
convection motor shaft.
2. Remove the convection fan from the convection
motor shaft.
3. Remove the pipe from the convection motor shaft.
4. Remove the two (2) screws holding the convection
motor angle to the convection duct.
POSITIVE LOCK® CONNECTOR REMOVAL
1. CARRY OUT 3D CHECKS.
2. Push the lever of positive lock® connector.
3. Pull down on the positive lock® connector.
Terminal
Positive lock
connector
CAUTION: WHEN YOU (SERVICE ENGINEERS)
CONNECT THE POSITIVE LOCK®
CONNECTORS TO THE TERMINALS,
CONNECT THE POSITIVE LOCK® SO
THAT THE LEVER FACES YOU(SERVICE
ENGINEERS).
Push
Lever
Pull down
Figure C-2. Positive lock® connector.
OVEN LAMP SOCKET REMOVAL
1. CARRY OUT 3D CHECKS.
2. Remove the wire leads as Positive lock® connector
removal above.
3. Lift up the oven lamp from its retaining clips by
pushing the tab of the air intake duct.
4. Now, the oven lamp is free.
Lock
Bulb
Socket
Figure C-3. Oven lamp.
POWER SUPPLY CORD REPLACEMENT
REMOVAL
1. CARRY OUT 3D CHECKS.
2. Remove the one (1) screw holding the green/yellow
wire to the back plate.
3. Disconnect the leads of the power supply cord from
the noise filter, referring to the Figure C-4(a).
4. Release the power supply cord from the rear cabinet.
5. Now, the power supply cord is free.
Power supply
cord
Back plate
Green/
Yellow wire
Brown wire
RE-INSTALL
1. Insert the moulding cord stopper of power supply cord
into the square hole of the power angle, referring to
the Figure C-4(b).
2. Install the earth wire lead of power supply cord to the
back plate with one (1) screw and tight the screw.
3. Connect the brown and blue wire leads of power
supply cord to the noise filter correctly, referring to the
Pictorial Diagram.
Power supply cord
Blue wire
Moulding cord stopper
Back plate
Noise filter
Square hole
Figure C-4(a). Replacement of Power Supply Cord.
SOI 12.06 FV
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Figure C-4(b). Power Supply Cord Replacement.
599 37 42-75
COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE
GRILL HEATING ELEMENTS REMOVAL
1. CARRY OUT 3D CHECKS.
2. Disconnect wire leads from the thermal cut-out
(GRILL).
3. Remove the two (2)screws holding the two (2)
terminals of the main wire harness to the two (2) grill
heating elements.
4. Remove the one (1) screw holding the exhaust duct
to the oven cavity top plate.
5. Remove the exhaust duct from the oven cavity top
plate.
6. By pushing the two (2) tabs holding the grill reflector
to the oven cavity top plate, slide the grill reflector
toward the magnetron. And then lift up the grill
reflector and remove it.
7. Remove the one (1) screw holding the grill heater
angle to the grill heater reflector.
8. Straighten the two (2) tabs of the grill heater angle
and remove the grill heater angle from the grill
reflector.
9. Remove the two (2) screws holding the earth plate to
the two (2) grill heating elements.
10. Remove the two (2) grill heating elements from the
grill reflector.
11. Now, the grill heating elements are free.
MONITORED LATCH SWITCH, MONITOR SWITCH
AND STOP SWITCH REMOVAL
1. CARRY OUT 3D CHECKS.
2. Remove the control panel assembly referring to
"CONTROL PANEL ASSEMBLY REMOVAL".
3. Disconnect the leads from all switches.
4. Remove the two (2) screws holding the latch hook to
the oven cavity.
5. Remove the latch hook.
6. Remove the switch(es) from the latch hook by
pushing the retaining tab backwards slightly and
turning the switch(es) on the post.
7. Now the switch(es) is free.
SW2:Stop switch
SW3:Monitor switch
Tab
Post
Post
SW1:Monitored
latch switch
Figure C-5. Switches
MONITORED LATCH SWITCH, STOP SWITCH AND MONITOR SWITCH ADJUSTMENT
If the monitored latch switch, stop switch and monitor
switch do not operate properly due to a mis-adjustment,
the following adjustment should be made.
1. CARRY OUT 3D CHECKS.
2. Loosen the two (2) screws holding the latch hook to
the oven cavity front flange.
3. With the door closed, adjust the latch hook by
moving it back and forward or up and down. In and
out play of the door allowed by the latch hook should
be less than 0.5 mm. The horizontal position of the
latch hook should be placed where the monitor
switch has activated with the door closed. The
vertical position of the latch hook should be placed
where the monitored latch switch and stop switch
have activated with the door closed.
4. Secure the screws with washers firmly.
5. Make sure of the all switches operation. If the latch
head has not pushed the plungers of the monitor
switch with door closed, adjust the latch hook
position. At that time, the latch head should have
pushed the plungers of the monitored latch switch
and stop switch. If the latch head has not pushed the
plungers of the monitored latch switch and stop
switch with door closed, loose two (2) screws holding
latch hook to oven cavity front flange and adjust the
latch hook position.
After adjustment, make sure of following:
1. In and out play of door remains less than 0.5 mm
when latched position. First check the latch hook
position, pushing and pulling upper portion of the
door toward the oven face.
2.
3.
4.
5.
Then check the lower latch hook position, pushing
and pulling lower portion of the door toward the oven
face. Both results (play of the door) should be less
than 0.5mm.
The contacts (COM-NO) of the stop switch and the
monitored latch switch open within 1.8mm gap
between right side of cavity face plate and door when
door is opened.
When the door is closed, the contacts (COM-NO) of
the stop switch close.
When the door is closed the contacts (COM-NC) of
the monitor switch and monitored latch switch open.
And the contacts (COM-NO) of their switches close.
Re-install outer case and check for microwave
leakage around the door with an approved
microwave survey meter. (Refer to Microwave
Measurement Procedure.)
Door
Latch
Heads
Latch hook
Tab
SW2: Stop switch
SW3: Monitor switch
SW1:Monitored
latch switch
Figure C-6. Latch Switches Adjustment.
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599 37 42-75
COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE
DOOR REPLACEMENT
REMOVAL
1. Disconnect the oven from the power supply.
2. Push the door slightly.
3. Remove the door stopper from the choke cover.
4. Lift the door upwards.
5. Now, door assembly is free from oven cavity.
6. Insert an putty knife (thickness of about 0.5mm) into
the gap between the choke cover and door frame as
shown in Figure C-7 to free engaging parts.
8. Now choke cover is free.
9. Release choke cover from door panel.
Choke Cover
Putty Knife
Door Frame
Figure C-7. Door Disassembly.
DOOR PANEL
10. Remove the eight (8) screws holding the door panel
to the door frame.
11. Now, door panel is free.
CAUTION: DO NOT DEFORM OR WARP THE TEETH
OF COMB OF THE DOOR PANEL TO
PREVENT MICROWAVE RADIATION
EMISSION FROM THE DOOR LATCH
HEAD AND SPRING
12. Slide latch head upward and remove it from door
frame with releasing latch spring from door frame
and latch head.
13. Now, latch head and latch spring are free.
DOOR HANDLE
14. Remove the two (2) screws holding the door handle
to the door frame.
15. Remove the door handle from the door frame.
6. Locate door panel hinge pins into cavity hinge
location holes.
7. Re-install the door stopper to the chock cover.
Note: After any service to the door;
(A) Make sure that the monitor switch,
monitored latch switch and stop switch are
operating properly. (Refer to chapter "Test
Procedures".).
(B) An approved microwave survey meter
should be used to assure compliance with
proper microwave radiation emission
limitation standards.
(Refer to Microwave Measurement
Procedure.)
After any service, make sure of the following :
1. Door latch heads smoothly catch latch hook
through latch holes and that latch head goes
through centre of latch hole.
2. Deviation of door alignment from horizontal line of
cavity face plate is to be less than 1.0mm.
3. Door is positioned with its face pressed toward
cavity face plate.
4. Check for microwave leakage around door with
an approved microwave survey meter. (Refer to
Microwave Measurement Procedure.)
Note: The door on a microwave oven is designed to
act as an electronic seal preventing the
leakage of microwave energy from oven cavity
during cook cycle. This function does not
require that door be air-tight, moisture
(condensation)-tight or light-tight. Therefore,
occasional appearance of moisture, light or
sensing of gentle warm air movement around
oven door is not abnormal and do not of
themselves, indicate a leakage of microwave
energy from oven cavity.
PIN
UPPER
OVEN HINGE
RE-INSTALL
1. Re-install the door handle to the door frame as
follows.
a) Insert the door handle to the door frame.
b) Hold the door handle to the door frame with the
two (2) screws.
2. Re-install the latch spring to the latch head.
Re-install the latch spring to the door frame.
Re-install latch head to door frame.
3. Re-install door panel to door frame.
DOOR SUB
ASSEMBLY
SLIT CHOCHE
DOOR
PANEL
LOWER
OVEN HINGE
4. Hold the door panel to the door frame with
eight (8) screws.
5. Re-install choke cover to door panel by clipping
into position.
PIN
CHOKE COVER DOOR
STOPPER
LOWER
OVEN HINGE
Figure C-8. Door Replacement
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599 37 42-75
MICROWAVE MEASUREMENT
After adjustment of door latch switches, monitor
switch and door are completed individually or
collectively, the following leakage test must be
performed with a survey instrument and it must be
confirmed that the result meets the requirements
of the performance standard for microwave oven.
REQUIREMENT
The safety switch must prevent microwave
radiation emission in excess of 5mW/cm2 at any
point 5 cm or more from external surface of the
oven.
PREPARATION FOR TESTING:
Before beginning the actual test for leakage,
proceed as follows;
1. Make sure that the test instrument is operating
normally as specified in its instruction booklet.
Important:
Survey instruments that comply with the
requirement for instrumentations as prescribed
by the performance standard for microwave
ovens must be used for testing.
Recommended instruments are:
NARDA 8100
NARDA 8200
HOLADAY HI 1500
SIMPSON 380M
2. Place the oven tray into the oven cavity.
3. Place the load of 275 ± 15ml of water initially at 20 ± 5°C
in the center of the oven tray. The water container should
be a low form of 600 ml beaker with
inside diameter of
approx. 8.5cm and made of an
electrically non-conductive
material such as glass or plastic.
The placing of this standard load in the oven is important
not only to protect the oven, but also to insure that any
leakage is measured accurately.
4. Close the door and turn the oven ON with the timer set for
several minutes. If the water begins to boil before the
survey is completed, replace it with 275ml of cool water.
5. Move the probe slowly (not faster that 2.5cm/sec.) along
the gap.
6. The microwave radiation emission should be measured at
any point of 5cm or more from the external surface of the
oven.
Microwave leakage measurement at 5 cm distance
TEST DATA AT A GLANCE
Parts
Fuse
Fuse
Thermal cut-out (OVEN)
Thermal cut-out (OVEN)
Thermistor
Grill heating element
Convection heating
element
Oven lamp
High voltage capacitor
Magnetron
Power transformer
Symbol
F1
F2
TC1
TC2, TC3
GH
CH
OL
C
MG
T
Value / Data
20A / 250V
F 8A
125°C Off
170°C Off / 155 °C On
Approx. 359.9 kΩ - 152 kΩ at 20°C - 30°C
Approx. 44.4 Ω (22.2 x 2) / Insulation resistance > 10 MΩ
Approx. 42.5 Ω / Insulation resistance > 10 MΩ
240-250V 25W
1.16µF AC 2100V
Filament < 1Ω / Filament – chassis ∞ ohm.
Filament winding < 1Ω
Secondary winding Approx. 160 / Primary winding Approx. 2 Ω.
WARNING: DISCONNECT THE PLUG WHEN MEASURING RESISTANCE
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599 37 42-75
SCHEMATICS
SCHEMATIC
NOTE:CONDITION OF OVEN
1. DOOR CLOSED
2. PLUGGED IN OVEN.
3. NOTHING APPEARS ON DISPLAY.
Note:
AC CORD CONNECTION
BRN: BROWN
BLU: BLUE
G-Y: GREEN AND YELLOW STRIPE
/15: SECTION AREA OF 1.5mm2 MIN.
”
Indicates components with potential
above 250V.
TC2 : GRILL
THERMAL
CUT-OFF
C: CAPACITOR
H.V. RECTIFIER
T: HIGH VOLTAGE
TRANSFORMER
GH: GRILL HEATING ELEMENTS
TURNTABLE MOTOR
FAN MOTOR
CONVECTION MOTOR
CH: CONVECTION HEATING ELEMENT
SW2:
STOP
SWITCH
SW4:
THERMISTOR DAMPER
SWITCH
SW1 :
OVEN LAMP
DAMPER MOTOR
T/C TRANSFORMER
TC1 : MAG
THERMAL
CUT-OFF
TC3:
CONV.
THERMO
CUT-OUT
F2:FUSE
F8A
NOISE SUPRESSION COIL
CONTROL
UNIT
NEUTRAL
EARTH
LIVE
F1: FUSE 20A
NOISE
FILTER
“
ASYMMETRIC
RECTIFIER
MONITORED LATCH SWITCH
SW3: MONITOR
SWITCH
Figure O-1(a) Oven Schematic-OFF Condition right after the oven is plugged in.
TC2 : GRILL
THERMAL
CUT-OFF
SW1 :
MONITORED LATCH SWITCH
H.V. RECTIFIER
T: HIGH VOLTAGE
TRANSFORMER
C: CAPACITOR
TURNTABLE MOTOR
CONVECTION MOTOR
FAN MOTOR
GH: GRILL HEATING ELEMENTS
SW2:
STOP
SWITCH
CH: CONVECTION HEATING ELEMENT
SW4:
THERMISTOR DAMPER
SWITCH
OVEN LAMP
DAMPER MOTOR
T/C TRANSFORMER
TC3:
CONV.
THERMO
CUT-OUT
F2:FUSE
F8A
TC1 : MAG
THERMAL
CUT-OFF
NOISE SUPRESSION COIL
CONTROL
UNIT
NEUTRAL
EARTH
LIVE
F1: FUSE 20A
NOISE
FILTER
SCHEMATIC
NOTE:CONDITION OF OVEN
1. DOOR CLOSED
2. “SELECTED LANGUAGE” APPEARS ON DISPLAY.
ASYMMETRIC
RECTIFIER
SW3: MONITOR
SWITCH
Figure O-1(b) Oven Schematic-OFF Condition when the oven door is opened.
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599 37 42-75
SCHEMATICS
SCHEMATIC
NOTE:CONDITION OF OVEN
1. DOOR CLOSED
2. “ . 0” APPEARS ON DISPLAY.
Note:
AC CORD CONNECTION
BRN: BROWN
BLU: BLUE
G-Y: GREEN AND YELLOW STRIPE
/15: SECTION AREA OF 1.5mm2 MIN.
”
Indicates components with potential
above 250V.
TC2 : GRILL
THERMAL
CUT-OFF
SW1 :
C: CAPACITOR
H.V. RECTIFIER
T: HIGH VOLTAGE
TRANSFORMER
GH: GRILL HEATING ELEMENTS
FAN MOTOR
CONVECTION MOTOR
TURNTABLE MOTOR
SW2:
STOP
SWITCH
CH: CONVECTION HEATING ELEMENT
SW4:
THERMISTOR DAMPER
SWITCH
OVEN LAMP
DAMPER MOTOR
T/C TRANSFORMER
TC3:
CONV.
THERMO
CUT-OUT
F2:FUSE
F8A
TC1 : MAG
THERMAL
CUT-OFF
NOISE SUPRESSION COIL
CONTROL
UNIT
NEUTRAL
EARTH
LIVE
F1: FUSE 20A
NOISE
FILTER
“
ASYMMETRIC
RECTIFIER
MONITORED LATCH SWITCH
SW3: MONITOR
SWITCH
Figure O-1(c) Oven Schematic-OFF Condition after the door oven is closed.
TC2 : GRILL
THERMAL
CUT-OFF
SW1 :
MONITORED LATCH SWITCH
H.V. RECTIFIER
T: HIGH VOLTAGE
TRANSFORMER
C: CAPACITOR
TURNTABLE MOTOR
CONVECTION MOTOR
FAN MOTOR
GH: GRILL HEATING ELEMENTS
SW2:
STOP
SWITCH
CH: CONVECTION HEATING ELEMENT
SW4:
THERMISTOR DAMPER
SWITCH
OVEN LAMP
DAMPER MOTOR
T/C TRANSFORMER
TC3:
CONV.
THERMO
CUT-OUT
F2:FUSE
F8A
TC1 : MAG
THERMAL
CUT-OFF
NOISE SUPRESSION COIL
CONTROL
UNIT
NEUTRAL
EARTH
LIVE
F1: FUSE 20A
NOISE
FILTER
SCHEMATIC
NOTE:CONDITION OF OVEN
1. DOOR CLOSED
2. COOKING TIME ENTERED.
3. START KEY TOUCHED.
ASYMMETRIC
RECTIFIER
SW3: MONITOR
SWITCH
Figure O-2 Oven Schematic-Microwave cooking Condition.
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599 37 42-75
SCHEMATICS
H.V. RECTIFIER
T: HIGH VOLTAGE
TRANSFORMER
C: CAPACITOR
TURNTABLE MOTOR
FAN MOTOR
GH: GRILL HEATING ELEMENTS
SW2:
STOP
SWITCH
CH: CONVECTION HEATING ELEMENT
SW4:
THERMISTOR DAMPER
SWITCH
CONVECTION MOTOR
CONTROL
UNIT
OVEN LAMP
DAMPER MOTOR
T/C TRANSFORMER
NOISE SUPRESSION COIL
TC1 : MAG
THERMAL
CUT-OFF
TC3:
CONV.
THERMO
CUT-OUT
F2:FUSE
F8A
NOTE: The convection cooking will be carried out as back up until
the oven cavity temperature rises to 220°C.
NEUTRAL
EARTH
LIVE
F1: FUSE 20A
NOISE
FILTER
SCHEMATIC
NOTE:CONDITION OF OVEN
1. DOOR CLOSED
2. COOKING TIME ENTERED.
3. GRILL MODE SELECTED.
4. START KEY TOUCHED.
TC2 : GRILL
THERMAL
CUT-OFF
ASYMMETRIC
RECTIFIER
SW1 :
MONITORED LATC H SWITCH
SW3: MONITOR
SWITCH
Figure O-3 Oven Schematic-Grill cooking Condition (TOP GRILL mode).
TC2 : GRILL
THERMAL
CUT-OFF
SW1 :
SW2:
STOP
SWITCH
MONITORED LATCH SWITCH
H.V. RECTIFIER
C: CAPACITOR
T: HIGH VOLTAGE
TRANSFORMER
GH: GRILL HEATING ELEMENTS
TURNTABLE MOTOR
FAN MOTOR
CONVECTION MOTOR
CH: CONVECTION HEATING ELEMENT
SW4:
THERMISTOR DAMPER
SWITCH
OVEN LAMP
DAMPER MOTOR
T/C TRANSFORMER
TC3:
CONV.
THERMO
CUT-OUT
F2:FUSE
F8A
TC1 : MAG
THERMAL
CUT-OFF
NOISE SUPRESSION COIL
NOTE: When the convection temperature 160 - 250 °C are selected,
the grill heating element will be energized as back up.
CONTROL
UNIT
NEUTRAL
EARTH
LIVE
F1: FUSE 20A
NOISE
FILTER
SCHEMATIC
NOTE:CONDITION OF OVEN
1. DOOR CLOSED
2. COOKING TIME ENTERED.
3. CONVECTION TEMPERATURE SELECTED.
4. START KEY TOUCHED.
ASYMMETRIC
RECTIFIER
SW3: MONITOR
SWITCH
Figure O-4 Oven Schematic Convection Condition.
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599 37 42-75
SCHEMATICS
”
“
Indicates components with potential
above 250V.
TC2 : GRILL
THERMAL
CUT-OFF
SW1 :
H.V. RECTIFIER
T: HIGH VOLTAGE
TRANSFORMER
C: CAPACITOR
TURNTABLE MOTOR
FAN MOTOR
CONVECTION MOTOR
GH: GRILL HEATING ELEMENTS
SW2:
STOP
SWITCH
CH: CONVECTION HEATING ELEMENT
SW4:
THERMISTOR DAMPER
SWITCH
OVEN LAMP
DAMPER MOTOR
T/C TRANSFORMER
TC1 : MAG
THERMAL
CUT-OFF
TC3:
CONV.
THERMO
CUT-OUT
F2:FUSE
F8A
NOISE SUPRESSION COIL
Note:
AC CORD CONNECTION
BRN: BROWN
BLU: BLUE
G-Y: GREEN AND YELLOW STRIPE
/15: SECTION AREA OF 1.5mm2 MIN.
CONTROL
UNIT
NEUTRAL
EARTH
LIVE
F1: FUSE 20A
NOISE
FILTER
SCHEMATIC
NOTE:CONDITION OF OVEN
1. DOOR CLOSED
2. COOKING TIME ENTERED.
3. DUAL MODE PAD TOUCHED ONCE.
4. CONVECTION TEMPERATURE SELECTED.
5. MICROWAVE POWER LEVEL SELECTED.
6. START KEY TOUCHED.
ASYMMETRIC
RECTIFIER
MONITORED LATC H SWITCH
SW3: MONITOR
SWITCH
Figure O-5(a) Oven Schematic-Dual cooking Condition (Microwave and Convection).
TC2 : GRILL
THERMAL
CUT-OFF
SW1 :
MONITORED LATCH SWITCH
H.V. RECTIFIER
T: HIGH VOLTAGE
TRANSFORMER
C: CAPACITOR
TURNTABLE MOTOR
FAN MOTOR
CONVECTION MOTOR
GH: GRILL HEATING ELEMENTS
SW2:
STOP
SWITCH
CH: CONVECTION HEATING ELEMENT
SW4:
THERMISTOR DAMPER
SWITCH
OVEN LAMP
DAMPER MOTOR
T/C TRANSFORMER
TC3:
CONV.
THERMO
CUT-OUT
F2:FUSE
F8A
TC1 : MAG
THERMAL
CUT-OFF
NOISE SUPRESSION COIL
CONTROL
UNIT
NEUTRAL
EARTH
LIVE
F1: FUSE 20A
NOISE
FILTER
SCHEMATIC
NOTE:CONDITION OF OVEN
1. DOOR CLOSED
2. COOKING TIME ENTERED.
3. DUAL MODE PAD TOUCHED TWICE.
4. MICROWAVE POWER LEVEL SELECTED.
5. START KEY TOUCHED.
ASYMMETRIC
RECTIFIER
SW3: MONITOR
SWITCH
Figure O-5(b) Oven Schematic-Dual cooking Condition (Microwave and Grill).
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599 37 42-75
SOI 12.06 FV
FM:
FAN
MOTOR
CH: CONVECTION
HEATING ELEMENT
SW4:
DAMPER
SWITCH
43/43
TC3:
CM: CONVECTION
MOTOR
NOISE FILTER
THERMAL
CUT-OUT(CONV.)
POWER SUPPLY
CORD
T: HIGH VOLTAGE
TRANSFORMER
Red wire
Long Black Tube
H.V. RECTIFIER
Black Tube
ASYMETRIC
RECTIFIER
HIGH VOLTAGE COMPONENTS
EARTH
TURNTABLE
MOTOR
TC1:
THERMAL
CUT-OUT(MAG)
DM:
DAMPER
MOTOR
TC2:
THERMAL
CUT-OUT(GRILL)
LIVE
SW1: MONITORED
LATCH
SWITCH
MONITOR
SWITCH
SW2:
STOP
SWITCH
OL:
OVEN LAMP
GH: GRILL
HEATING ELEMENT
NEUTRAL
TC1:
TRANSFORMER
CONTROL PANEL
THERMISTOR
PICTORIAL
C: H.V.
CAPACITOR
599 37 42-75