Sharp R-380E Service Manual

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Page 1

R-380E

SHARP CORPORATION

SERVICE MANUAL

S7107R380EPJ/

MICROWAVE OVEN

MODEL R-380E

In interests of user-safety the oven should be restored to its original condition and only parts identical to those specified should be used.

TABLE OF CONTENTS

Page

CAUTION, MICROWAVE RADIATION............................................................................................................. 1

WARNING..........................................................................................................................................................1

PRODUCT SPECIFICATIONS ......................................................................................................................... 2

GENERAL INFORMATION................................................................................................................................2

APPEARANCE VIEW ....................................................................................................................................... 3

OPERATION SEQUENCE................................................................................................................................ 4

FUNCTION OF IMPORTANT COMPONENTS ................................................................................................ 6

SERVICING ...................................................................................................................................................... 7

TEST PROCEDURE......................................................................................................................................... 9

TOUCH CONTROL PANEL.............................................................................................................................16

COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE........................................................... 21

MICROWAVE MEASUREMENT .................................................................................................................... 27

WIRING DIAGRAM......................................................................................................................................... 28

PICTORIAL DIAGRAM ................................................................................................................................... 29

POWER UNIT CIRCUIT ..................................................................................................................................30

CPU UNIT CIRCUIT ........................................................................................................................................31

PRINTED WIRING BOARD .............................................................................................................................32

PARTS LIST ................................................................................................................................................... 33

INST

ANT

COOK

STOP

CLEAR

ART

T A

/ P

E A

E X

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R-380E

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R-380E

SERVICE MANUAL

MICROWAVE OVEN

R-380E

GENERAL IMPORTANT INFORMATION

This Manual has been prepared to provide Sharp Corp. 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.

CAUTION

MICROWAVE RADIATION

DO NOT BECOME EXPOSED TO RADIATION FROM THE MICROWAVE GENERATOR OR OTHER PARTS CONDUCTING MICROWAVE ENERGY.

Service engineers should not be exposed to the microwave energy which may radiate from the magnetron or other microwave generating devices if it is improperly used or connected. All input and output microwave connections, waveguides, flanges and gaskets must be secured. Never operate the device without a microwave energy absorbing load attached. Never look into an open waveguide or antenna while the device is energized.

WARNING

Never operate the oven until the following points are ensured. (A) The door is tightly closed. (B) The door brackets and 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 parts list are used at voltages more than 250V.

Removal of the outer wrap gives access to potentials above 250V.

All the parts marked "∆" on parts list may cause undue microwave exposure, by themselves, or when they are damaged, loosened or removed.

SHARP CORPORATION

OSAKA, JAPAN

PRODUCT SPECIFICATIONS

APPEARANCE VIEW

OPERATING SEQUENCE

FUNCTION OF IMPORTANT COMPONENTS

SERVICING AND TROUBLESHOOTING CHART

TEST PROCEDURE

TOUCH CONTROL PANEL ASSEMBLY

COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE

MICROWAVE MEASUREMENT

WIRING DIAGRAM

PARTS LIST

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R-380E

ITEM DESCRIPTION

Power Requirements 230 - 240 Volts

50 Hertz

Single phase, 3 wire earthed Power Consumption 1.7kW Power Output 1150 watts nominal of RF microwave energy (IEC Test Procedure)

Operating frequency 2450 MHz Case Dimensions Width 520 mm

Height 302 mm including foot

Depth 436 mm Cooking Cavity Dimensions Width 374 mm

Height 227 mm

Depth 399 mm Turntable diameter 335 mm Control Complement Touch Control System

Clock ( 1:00 - 12:59)

Timer (0 - 99 minutes 99 seconds)

Microwave Power for Variable Cooking

Repetition Rate;

HIGH ............................................... Full power throughout the cooking time

M . HIGH ............................................................approx. 70% of Full Power

MEDIUM .............................................................approx. 50% of Full Power

M . LOW..............................................................approx. 30% of Full Power

LOW....................................................................approx. 10% of Full Power

HELP PAD, SENSOR INSTANT REHEAT PADS

SENSOR COOK PADS, EXPRESS DEFROST PAD

EASY DEFROST PAD, SLOW COOK PAD

MORE( ), LES( ) PADS, NUMBER PADS

POWER LEVEL PAD, CLOCK PAD

TIMER PAD, STOP/CLEAR PAD

INSTANT COOK/START PAD Set Weight Approx. 17 kg

PRODUCT SPECIFICA TIONS

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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R-380E

APPEARANCE VIEW

1. Door handle

2. Oven lamp

3. Door hinges

4. Door safety latches

5. See through door

6. Door seals and sealing surfaces

7. Coupling

8. Wave guide cover

9. Touch control panel

10.Digital readout

11.Ventilation openings

12.Power supply cord

13.Turntable tray

14.Turntable support

15.Menu label

TOUCH CONTROL PANEL

NOTE: The directed feature is disabled after three minutes when the oven is not in use. This feature is automatically enabled when the door is opened and closed or the STOP/ CLEAR pad is pressed.

465

1. HELP PAD Press to select auto start, child lock, demonstration modes or info on pads. Press to get cooking information.

2. SENSOR INSTANT REHEAT PADS Press once to reheat 1 of 6 popular menus.

3. SENSOR COOK PADS Press to select Sensor Cook menus.

4. EXPRESS DEFROST PAD Press to select the Express Defrost menu.

5. MORE ( ), LESS ( ) PADS Press to increase/decrease the time in one minute increments during cooking or to alter the cooking result for the automatic operations.

6. EASY DEFROST PAD Press to defrost frozen food by entering quantity.

7. SLOW COOK PAD Press to cook slowly and for a longer time.

8. QUICK AND EASY PAD Press to select Quick and Easy menus.

9. NUMBER PADS Press to enter cooking times, clock time, weight or quantity of food.

10. POWER LEVEL PAD Press to select microwave power setting. If not pressed, HIGH is automatically selected.

11. CLOCK PAD Press to set Clock.

12. TIMER PAD Press to set Timer.

13. STOP/CLEAR PAD Press to clear during programming. Press once to stop operation of oven during cooking; press twice to cancel cooking programme.

14. INSTANT COOK/START PAD Press once to cook for 1 minute on HIGH or increase by 1 minute multiples each time this pad is pressed during cooking. Press to start oven after setting programmes.

Info Display

INST

ANT

COOK

STOP

CLEAR

STSTART

ART

TIMER

CLOCK

POWER

LEVEL

SLOW COOK

SENSOR INSTANT REHEAT

SENSOR COOK

QUICK &

EASY

PIZZA

PIERICE

DINNER

PLATE

CASSEROLE

SOUP

VEGETABLES

RICE/PASTA

MEAT DESSERTS

HELP

EXPRESS

DEFROST

EASY

DEFROST

LESS

Indicator

6 8

12 14 (See NOTE.)

Display

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R-380E

OPERATION SEQUENCE

OFF CONDITION

Closing the door activates all door interlock switches (1st. latch switch and 2nd. interlock relay control switch).

IMPORTANT When the oven door is closed, the monitor switch contacts (COM-NC) must be open. When the microwave oven is plugged in a wall outlet, rated voltage is supplied to the noise filter and the control unit.

Figure O-1 on page 25

1. The display shows flashing "88:88".

2. To set any programmes or set the clock, you must first touch the STOP/CLEAR pad.

3. : appears in the display.

NOTE: When the oven door is opened, the oven lamp

comes on at this time.

MICROWAVE COOKING CONDITION

HIGH COOKING

Enter a desired cooking time with the touching NUMBER pad and start the oven with touching START pad.

Function sequence

Figure O-2 on page 25

CONNECTED COMPONENTS RELAY Oven lamp, Fan motor, Turntable motor RY1 Power transformer RY2

1. Rated voltage is supplied to the primary winding of the power 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 wave length of 12.24 cm. This energy is channeled 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 signal tone is heard and the relays RY1+RY2 go back to their home position. The circuits to the oven lamp, power 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

CONDITION DURING DOOR OPEN

SWITCH CONTACT COOKING

(NO COOKING) 1st. latch switch COM-NO Closed Open 2nd. interlock relay

control switch

COM-NO Closed Open

Monitor switch COM-NC Open Closed

The circuits to the power transformer, fan motor and turntable motor are cut off when the 1st. latch switch and 2nd. interlock relay control switch 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 is mechanically controlled by oven door, and monitors the operation of the 1st. latch switch and 2nd. interlock relay.

6-1 When the oven door is opened during or after the

cycle of a cooking program, the 1st. latch switch and 2nd. interlock relay control switch must open their contacts first. After that the contacts (COM-NC) of the monitor switch can be closed.

6-2. When the oven door is closed, the contacts (COM-

NC) of the monitor switch must be opened. After that the contacts of the 1st. latch switch and 2nd. interlock relay control switch are closed.

6-3. When the oven door is opened and the contacts of

the1st. latch switch and 2nd. interlock relay remain closed. The fuse M10A will blow, because the monitor switch is closed and a short circuit is caused.

MEDIUM HIGH, MEDIUM, MEDIUM LOW, LOW COOKING

When the microwave oven is preset for variable cooking power, rated voltage is supplied to the power transformer intermittently within a 32-second time base through the relay contact which is coupled with the current-limiting relay. The following levels of microwave power are given.

SETTING;

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.

SENSOR COOKING CONDITION

Using the SENSOR COOK or SENSOR INSTANT REHEAT function, the foods are cooked or reheated without figuring time, power level or quantity. When the oven senses enough steam from the food, it relays the information to its microprocessor which will calculate the remaining cooking time and power level needed for best results. When the food is cooked, water vapor is developed. The sensor “senses” the vapor and its resistance increases gradually. When the resistance reaches the value set according to the menu, supplementary cooking is started. The time of supplementary cooking is determined by experiment with each food category and inputted into the LSI.

An example of how sensor works:

1. Potatoes at room temperature. Vapor is emitted very

slowly.

32 sec. ON

24 sec. ON

18 sec. ON

12 sec. ON

6 sec. ON

8 sec. OFF

14 sec. OFF

20 sec. OFF

26 sec. OFF

HIGH

MEDIUM HIGH

MEDIUM

MEDIUM LOW

LOW

Approx. 70%

Approx. 50%

Approx. 30%

Approx. 10%

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R-380E

2. Heat potatoes. Moisture and humidity is emitted rapidly. You can smell the aroma as it cooks.

3. Sensor detects moisture and humidity and calculates cooking time and variable power.

Cooking Sequence.

1. Touch each SENSOR COOK or SENSOR INSTANT REHEAT function pad to operating the sensor cooking. (See the operation manual for the proper procedure.)

NOTE: The oven should not be operated on SENSOR

COOK or SENSOR INSTANT REHEAT immediately after plugging in the unit. Wait two minutes before cooking on SENSOR COOK or SENSOR INSTANT REHEAT.

2. The coil of shut-off relay (RY-1) is energized, the turntable motor, oven lamp and cooling fan motor are turned on, but the power transformer is not turned on.

3. After about 16 seconds, the cook relay (RY-2) is energized. The power transformer is turned on, microwave energy is produced and first stage is started. The 16 seconds is the cooling time required to remove any vapor from the oven cavity and sensor.

NOTE: During this first stage, do not open the door or

touch STOP/CLEAR pad.

4. When the sensor detects the vapor emitted from the food, the display switches over to the remaining cooking time and the timer counts down to zero. At this time, the door may be opened to stir food, turn it or season, etc.

5. When the timer reaches zero, an audible signal sounds. The shut-off relay and cook relay are de-energized and the power transformer, oven lamp, etc. are turned off.

6. Opening the door or touching the STOP/CLEAR pad, the time of day will reappear on the display and the oven will revert to an OFF condition.

MICROWAVE

AH SENSOR

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R-380E

DOOR OPEN MECHANISM

The door is opened by pulling the door, refer to the Figure D-1.

Figure D-1. Door Open Mechanism

1ST. LATCH SWITCH AND 2ND. INTERLOCK RELAY CONTROL SWITCH

1. When the oven door is closed, the contacts (COM-NO) must be closed.

2. When the oven door is opened, the contacts (COMNO) must be opened.

MONITOR SWITCH

1. When the oven door is closed, the contacts (COM-NC) must be opened.

2. When the oven door is opened, the contacts (COMNC) must be closed.

3. If the oven door is opened and the contacts (COM-NO) of the 1st. latch switch and 2nd. interlock relay fail to open, the fuse M10A blows simultaneously with closing the contacts (COM-NC) of the monitor switch.

CAUTION: BEFORE REPLACING A BLOWN FUSE

M10A TEST THE 1ST. LATCH SWITCH, 2ND. INTERLOCK RELAY, MONITOR SWITCH AND MONITOR RESISTOR FOR PROPER OPERATION.

MONITOR RESISTOR 0.8Ω 20W

The monitor resistor prevents the fuse M10A bursting when the fuse M10A blows due to the operation of the monitor switch.

HIGH VOLTAGE FUSE

The high voltage fuse blows when the high voltage rectifier or magnetron is shorted.

FUSE M10A

1. The fuse M10A blows when the contacts (COM-NO) of the 1st. latch switch and 2nd. interlock relay remain closed with the oven door open and when the monitor switch closes.

2. If the wire harness or electrical components are shortcircuited, this fuse M10A blows to prevent an electric shock or fire hazard.

FUNCTION OF IMPORTANT COMPONENTS

OVEN THERMAL CUT-OUT

The thermal cut-out, located on the top of the oven cavity, is designed to prevent damage to the oven by fire. If the foods load is overcooked, by either error in cook time or defect in the control unit, the thermal cut-out will open. Under normal operation, the oven thermal cut-out remains closed. However, when abnormally high temperatures are reached within the oven cavity, the oven thermal cut-out will open at 125˚C, causing the oven to shut down. The defective thermal cut-out must be replaced with new one.

MAGNETRON THERMAL CUT-OUT

The thermal cut-out located near the magnetron is designed to prevent damage to the magnetron if an over heated condition develops in the tube due to cooling fan failure, obstructed air guide, dirty or blocked air intake, etc. Under normal operation, the thermal cut-out remains closed. However, when abnormally high temperatures are reached within the magnetron, the thermal cut-out will open at 95˚C causing the oven to shut down, when the magnetron has cooled to 75˚C, the thermal cut-out closes and cook cycle will resume.

TURNTABLE MOTOR

The turntable motor drives the turntable roller assembly to rotate the turntable.

FAN MOTOR

The fan motor drives a blade which draws external cool air. This cool air is directed through the air vents surrounding the magnetron and cools the magnetron. This air is channeled through the oven cavity to remove steam and vapors given off from the heating foods. It is then exhausted through the exhausting air vents at the oven cavity.

NOISE FILTER

The noise filter prevents the radio frequency interference that might flow back in the power circuit.

Latch Hook

2nd. Interlock Reley Control Switch

Latch Heads

Door

Monitor Switch

1st. Latch Switch

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R-380E

SERVICING

WARNING TO SERVICE PERSONNEL

Microwave ovens contain circuitry capable of producing very high voltage and current, contact with following parts of the high voltage circuit will result in electrocution. High voltage capacitor, Power transformer, Magnetron, High voltage rectifier assembly, High voltage fuse, High voltage harness.

REMEMBER TO CHECK 3D

1) Disconnect the supply.

2) Door opened, and wedged open.

3) Discharge the high voltage capacitor. WARNING: AGAINST THE CHARGE OF THE

HIGH-VOLTAGE CAPACITOR

The high-voltage capacitor remains charged about 60 seconds 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.

Sharp recommend that wherever possible fault-finding 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.

REMEMBER TO CHECK 4R

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.

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 microwave timer for two (2) minutes. Set the power level to HIGH and push the START button. 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 reexamine the connections to the component being tested.

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.

When all service work is completed, and the oven is fully assembled, the microwave power output should be checked and microwave leakage test should be carried out.

TROUBLESHOOTING GUIDE

IMPORTANT: If the oven becomes inoperative because

of a blown fuse M10A in the 1st. latch switch - 2nd. interlock relay - monitor switch

- monitor resistor circuit, check the 1st. latch switch, 2nd. interlock relay, monitor switch and monitor resistor before replacing the fuse M10A.

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R-380E

CK = Check / RE = Replace

MAGNETRON

POWER TRANSFORMER

H.V. RECTIFIER ASSEMBLY

HIGH VOLTAGE CAPACITOR

1ST. LATCH SWITCH

2ND.INTER LOCKRELAY

CONTROL SWITCH

MONITOR SWITCH

MONITOR RESISTOR

THERMAL CUT-OUT 95

˚C /125˚C

FAN MOTOR

TURNTABLE MOTOR

FUSE M10A

TOUCH CONTROL PANEL

KEY UNIT

RELAY (RY-1, RY-2)

FOIL PATERN ON P.W.B.

POWER SUPPLY CORD

SHORTED WIRE HARNESS

OPENED WIRE HARNESS

OVEN LAMP OR SOCKET

WALL OUTLET

MISADJUSTMENT SWITCH

HOME FUSE OR BREAKER

BLOCKED COOLING FAN

BLOCKED VENTILATION

NOISE FILTER

HIGH VOLTAGE FUSE

AH SENSOR

Home fuse blows when power supply cord is plugged into wall outlet.

FUSE M10A blows when power supply cord is plugged into wall outlet.

Display does not show anything when power supply cord is plugged into wall outlet.

Display does not operate properly when STOP/CLEAR pad is touched.

Oven lamp does not light at door opened. (Display appears.)

Oven does not start when the START pad is touched. (Display appears)

Oven lamp does not light (Display appears.)

Fan motor does not operate. (Display appears.)

Turntable motor assembly does not operate. (Display appears.)

Oven or any electrical parts does not stop when cooking time is 0 or STOP/CLEAR pad is touched.

Oven seems to be operating but little or no heat is produced in oven load. (Microwave power level is set at HIGH)

Oven does not seems to be operating properly when MEDIUM HIGH, MEDIUM, MEDIUM LOW or LOW is set. (Oven operates properly at HIGH and then the STOP/ CLEAR pad is touched the oven stops.)

Oven goes into cook cycle but shuts down before end of cooking cycle.

AH sensor does not end during Sensor Cooking condition. (Oven does not shut off after a cup of water is boiling by sensor cooking.)

Oven stops at 16 sec. after starting.

TEST PROCEDURE

ABCDEEEGFH HILMNO

RE CK CK RE CK CKCK CK CK

JKP

CONDITION

PROBLEM

POSSIBLE CAUSE

AND

DEFECTIVE PARTS

ON CONDITION

OFF CONDITION

SENSOR COOKING CONDITION

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R-380E

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 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 short 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 (1 litre water load)

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 IEC test procedure, i.e. it can be measured by using water load how much it can be absorbed by the water load. 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 ∆T (˚C) during this microwave heating period, the calorie of the water is V x ∆T.

The formula is as follows;

P x t / 4.187 = V x ∆ T+ 0.55 x mc (T2-T0)/4.187P (W) = 4.187 x V x ∆T / t + 0.55 x mc (T2-T0)/t Our condition for water load is as follows:

Room temperature (T0) ... around 20°C Power supply Voltage.............. Rated voltage

Water load..................................1000 g Initial temperature (T1) ...................... 10±1°C

Heating time.............................. 36 sec. Mass of container (mc) ......................... 330 g

T2............................ Final Temperature P = 115 x ∆T + 0.55 x mc (T2-T0)/36

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±1)˚C.

4. Select the initial and final water temperature so that the maximum difference between the final water temperature and the ambient temperature is 5˚C.

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 oven is “t + 3” sec. 3 sec. is magnetron filament heat-

up time.

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 ∆ T of 10 ˚C.

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.

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT TEST

A MAGNETRON TEST

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R-380E

Room temperature .................. To = 21˚C Initial temperature................. T1 = 11°C

Temperature after (36 + 3) = 39 sec. ................................................................ T2 = 21°C

Temperature difference Cold-Warm .............................................................. ∆T1 = 10°C

Measured output power

The equation is “P = 115 x ∆T” ........................................... P = 115 x 10°C = 1150 Watts

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT TEST

JUDGEMENT: The measured output power should be at least ± 15 % of the rated output power.

CAUTION: 1°C CORRESPONDS TO 115 WATTS REPEAT MEASUREMENT IF THE POWER IS

INSUFFICIENT.

1000g

T1˚C

T2˚C

Heat up for 39 sec.

B POWER TRANSFORMER TEST

WARNING: High voltages and large currents are present at the secondary winding and filament

winding of the power 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 ....................approx. 1.0 Ω

b. Secondary winding ...............approx. 86 Ω

c. Filament winding...................less than 1Ω

If the reading obtained are not stated as above, then the power transformer is probably faulty and should be replaced.

CARRY OUT 4R CHECKS.

C HIGH VOLTAGE RECTIFIER ASSEMBLY 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.

NOTE: FOR MEASUREMENT OF THE RESISTANCE OF THE RECTIFIER, THE BATTERIES OF

THE MEASURING INSTRUMENT MUST HAVE A VOLTAGE AT LEAST 6 VOLTS, BECAUSE OTHERWISE AN INFINITE RESISTANCE MIGHT BE SHOWN IN BOTH DIRECTIONS.

HIGH VOLTAGE RECTIFIER

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R-380E

CARRY OUT 3D CHECKS. Disconnect the leads from the monitor resistor. Using an ohmmeter and set on a low range. Check

between the terminals of the monitor resistor.

The resistance of monitor resistor is approx. 0.8 ohms.

G MONITOR RESISTOR TEST

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT TEST

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 10MΩ

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 10MΩ

resistance.

F. When the internal wire is opened in the high voltage 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.

E 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, make the necessary switch adjustment or replace the switch. CARRY OUT 4R CHECKS.

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 table below. CARRY OUT 4R CHECKS.

Table: Thermal cut-out Test

Temperature of "ON" condition Temperature of "OFF" condition Indication ofohmmeter

Parts Name (closed circuit) (˚C) (open circuit) (˚C) (When room temperature

is approx. 20˚C)

Thermal cut-out 125˚C This is not resetable type. Above 125˚C Closed circuit. Thermal cut-out 95˚C Below 75˚C Above 95˚C Closed circuit.

If incorrect readings are obtained, replace the thermal cut-out. An open circuit thermal cut-out 95˚C (MG) indicates that the magnetron has overheated, this may be

due to resistricted ventilation, cooling fan failure or a fault condition within the magnetron or HV circuit. An open circuit thermal cut-out 125˚C (OVEN) indicates that the foods in the oven may catch fire,

this may be due to over heating produced by improper setting of the cooking time or failure of the control panel.

F THERMAL CUT-OUT TEST

Page 14

R-380E

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT 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 Fan motor Approximately 405 Ω Turntable motor Approximately 12 kΩ

If incorrect readings are obtained, replace the motor. CARRY OUT 4R CHECKS

H MOTOR WINDING TEST

CARRY OUT 3D CHECKS.

1. If the fuse M10A is blown, there could be shorts or ground in electrical parts or wire harness. Check them and replace the defective parts or repair the wire harness.

2. If the fuse M10A is blown when the door is opened, check the 1st. latch switch, 2nd. interlock relay, monitor switch and monitor resistor. If the fuse M10A is blown by incorrect door switching replace the defective switch(s) and the fuse M10A.

CARRY OUT 4R CHECKS. CAUTION: ONLY REPLACE FUSE M10A WITH THE CORRECT VALUE REPLACEMENT

I BLOWN FUSE M10A

J 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 POINT

INDICATION OF OHMMETER

Between N and L Open circuit Between terminal N and WHITE Short circuit Between terminal L and RED Short circuit

If incorrect readings are obtained, replace the noise filter unit. CARRY OUT 4R CHECKS.

WHT

RED

L (min) Cx ± 20% Cy ± 20% 600µH 0.068µF 0.0022µF

CARRY OUT 3D CHECKS. If the high voltage fuse is blown, there could be a short in the high voltage rectifier or the magnetron.

Check them and replace the defective parts and high voltage fuse. CARRY OUT 4R CHECKS. CAUTION: ONLY REPLACE THE HIGH VOLTAGE FUSE WITH THE CORRECT VALUE RE-

PLACEMENT

K HIGH VOLTAGE FUSE TEST

If incorrect readings are obtained, replace the monitor resistor. CARRY OUT 4R CHECKS.

Page 15

R-380E

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT TEST

M KEY UNIT TEST

If the display fails to clear when the STOP/CLEAR pad is depressed, first verify the flat ribbon cable is making 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 connector). Use the key unit matrix indicated on the control panel schematic and place a jumper wire between the pins that correspond to the STOP/CLEAR pad making 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 3D CHECKS.

L TOUCH CONTROL PANEL ASSEMBLY TEST

The touch control panel consists of circuits including semiconductors such as LSI, ICs, etc. Therefore, unlike conventional microwave ovens, proper maintenance cannot be performed with only a voltmeter and ohmmeter. In this service manual, the touch control panel assembly is divided into two units, Control Unit and Key Unit, and also the Control Unit is divided into two units, CPU Unit and Power Unit, and troubleshooting by unit replacement is described according to the symptoms indicated.

1. Key Unit. Note: Check key unit ribbon connection before replacement. The following symptoms indicate a defective key unit. Replace the key unit. a) When touching the pads, a certain pad produces no signal at all. b) When touching a number pad, two figures or more are displayed. c) When touching the pads, sometimes a pad produces no signal.

2. Control Unit. The following symptoms indicate a defective control unit. Before replacing the control unit, perform the Key unit test (Procedure M) to determine if control unit is faulty.

2-1 In connection with pads.

a) When touching the pads, a certain group of pads do not produce a signal. b) When touching the pads, no pads 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. 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.

2-3 Other possible troubles caused by defective control unit.

a) Buzzer does not sound or continues to sound. b) Clock does not operate properly. c) Cooking is not possible.

G 1 G 2 G 3 G 4 G 5 G 6 G 7 G 8

G 9 G10 G11 G12 G13 G14

LESS

DINNER

PLATE

EASY

DEFROST

RICE /

PASTA

SOUP TIMER CLOCK MEAT

VEGETABLES

PIE

SLOW COOK

EXPRESS DEFROST

POWER

LEVEL

QUICK &

EASY

STOP

CLEAR

RICE HELP

INSTANT

COOK

START

PIZZA

DESSERTS

CASSEROLE

12345 67890

N RELAY TEST

Remove the outer case and check voltage between Pin No 1 of the 2-pin connector (A) and the normal open terminal of the relay RY1 on the power unit with an A.C. voltmeter. The meter should indicate 230 - 240 volts, if not check oven circuit.

Page 16

R-380E

To protect the electronic circuits, this model is provided with a fine foil pattern added to the primary 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 OCCURRENCE CAUSE OR CORRECTION

The rated AC voltage is not present between

1 Pin No. 2 of the 2-pin connector (A) and the Check supply voltage and oven power cord.

normal open terminal of the relay RY1.

The rated AC voltage is present to primary Low voltage transformer or secondary circuit defective. side of low voltage transformer. Check and repair.

3 Only pattern at "a" is broken. *Insert jumper wire J1 and solder. 4 Pattern at "a" and "b" are broken. *Insert the coil RCILF2003YAZZ between "c" and "d".

NOTE: *At the time of making these repairs,

make a visual inspection of the varistor. Check for burned damage and examine the transformer with a tester for the presence of layer short-circuit (check the primary coil resistance). If any abnormal condition is detected, replace the defective parts.

CARRY OUT 4R CHECKS.

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT TEST

O PROCEDURES TO BE TAKEN WHEN THE FOIL PATTERN ON THE PRINTED WIRING BOARD

(PWB) IS OPEN

RY1 and RY2 Relay Test These relays are operated by D.C. voltage. Check voltage at the relay coil with a D.C. voltmeter during the microwave cooking operation.

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 OPERATIONAL VOLTAGE CONNECTED COMPONENTS

RY1 APPROX. 25.0V D.C. Oven lamp / Turntable motor / Cooling fan motor RY2 APPROX. 24.0V D.C. Power transformer

CARRY OUT 4R CHECKS.

RY1

VRS1

RY3

(J1)

P AH SENSOR TEST

Checking the initial sensor cooking condition WARNING : The oven should be fully assembled before following procedure.

(1)The oven should be plugged in at least two minutes before sensor cooking. (2)Room temperature should not exceed 35˚C. (3)The unit should not be installed in any area where heat and steam are generated. The unit should

not be installed, for example, next to a conventional surface unit. Refer to the “INSTALLATION INSTRUCTIONS” of the operation manual.

(4)Exhaust vents are provided on the back of the unit for proper cooling and air flow in the cavity. To

permit adequate ventilation, be sure to install so as not to block these vents. There should be some space for air circulation.

(5)Be sure the exterior of the cooking container and the interior of the oven are dry. Wipe off any

moisture with a dry cloth or paper towel.

(6)The Sensor works with food at normal storage temperature. For example, chicken pieces would

be at refrigerator temperature and canned soup at room temperature.

(7)Avoid using aerosol sprays or cleaning solvents near the oven while using Sensor settings. The

sensor will detect the vapor given of by the spray and turn off before food is properly cooked.

Page 17

R-380E

(8)

If the sensor has not detected the vapor of the food, ERROR will appear and the oven will shut off.

Water load cooking test WARNING : The oven should be fully assembled before following procedure.

Make sure the oven has been plugged in at least two minutes before checking sensor cook operation. The cabinet should be installed and screws tightened. (1)Fill approximately 200 milliliters of tap water in a 1000 milliliter measuring cup. (2)Place the container on the center of tray in the oven cavity. (3)Close the door. (4)Touch the CLOCK once, the POWER LEVEL pad twice, the START pad once, the number pad

1 once and the number pad 4 once. Now, the oven is in the sensor cooking condition, and "AH20",

"SENSOR" and "COOK" will appear in the display. (5)The oven will operate for the first 16 seconds, without generating microwave energy. NOTE: ERROR will appear if the door is opened or STOP/CLEAR pad is touched during first stage

of sensor cooking. (6)After approximately 16 seconds, microwave energy is produced. If ERROR is displayed or the oven does not turn off, replace the AH sensor or check the control unit, refer to explanation below. If the oven stops after 5 minutes and ERROR is displayed, the AH sensor is normal. Check other parts except the AH sensor.

TESTING METHOD FOR AH SENSOR AND/OR CONTROL UNIT

To determine if the sensor is defective, the simplest method is to replace it with a new replacement sensor. (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)Remove the AH sensor. (5)Install the new AH sensor. (6)Reconnect all leads removed from components during testing. (7)Re-install the outer case (cabinet). (8)Reconnect the power supply cord after the outer case is installed. (9)Reconnect the oven to the power supply and check the sensor cook operation as follows:

9-1. Fill approximately 200 milliliters of tap water in a 1000 milliliter measuring cup. 9-2. Place the container on the center of tray in the oven cavity. 9-3. Close the door. 9-4. Touch the CLOCK pad once, the POWER LEVEL pad twice, the START pad once, the

number pad 1 once and the number pad 4 once.

9-5. The control panel is in automatic Sensor operation.

9-6. The oven turns off automatically, and the time for detecting moisture will be displayed. If new sensor dose not operate properly, the problem is with the control unit, and refer to explanation below.

CHECKING CONTROL UNIT

(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 sensor connector that is mounted to control panel. (5)Then connect the dummy resistor circuit (see fig.) to the sensor connector of control panel. (6)Disconnect the leads to the primary of the power transformer. (7)Ensure that these leads remain isolated from other components and oven chassis by using

insulation tape. (8)After that procedure, re-connect the power supply cord. (9)Check the sensor cook operation proceed as follows:

9-1. Touch the CLOCK pad once, the POWER LEVEL pad twice, the START pad once and the

number pad 1 once and the number pad 4 once. 9-2. The control panel is in the sensor cooking operation. 9-3. After approximately 25 seconds, push plunger of select switch for more than 3 seconds. This

condition is same as judgement by AH sensor. 9-4. After approximately 3 seconds, the display shows “ X X . X X “ which is the time for detecting

moisture. If the above is not the case, the control unit is probably defective.

If the above is proper, the AH sensor is probably defective.

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT TEST

Page 18

R-380E

TOUCH CONTROL PANEL ASSEMBLY

OUTLINE OF TOUCH CONTROL PANEL

The touch control section consists of the following units. (1) Key Unit

(2) Control Unit (The Control Unit consists of Power Unit and LSI Unit).

The principal functions of these units and the 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 through P00-P07. When a key pad is touched, a signal is completed through the key unit and passed back to the LSI through P14-P17, AIN6 and AIN7 to perform the function that was requested.

Control Unit

Control unit consists of LSI, ACL circuit, indicator circuit, power source circuit, relay circuit, buzzer circuit, synchronizing signal circuit, absolute humidity sensor circuit and back light circuit.

1) ACL

This circuit generates a signal which resets the LSI to the initial state when power is supplied.

2) Indicator Circuit

This circuit consists of 40 segments and 16 common electrodes using a Liquid Crystal Display.

3) Power Source Circuit

This circuit generates voltages necessary in the control unit from the AC line voltage.

In addition, the synchronizing signal is available in order to compose a basic standard time in the clock circuit.

Symbol Voltage Application

VC -5V LSI(IC1)

4) Relay Circuit

A circuit to drive the magnetron, fan motor, turntable motor and light the oven lamp.

5) Buzzer Circuit

The buzzer is responsive to signals from the LSI to emit audible sounds (key touch sound and completion sound).

6) 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.

7) 2nd. Interlock Relay Control Switch

A switch to “tell” the LSI if the door is open or closed.

8) Back Light Circuit

A circuit to drive the back light (Light emitting diodes LD10-LD15).

9) Absolute Humidity Sensor Circuit

This circuit detects moisture of the cooking food to allow its automatic cooking.

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT TEST

(10) Disconnect the power supply cord, and then remove outer case. (11) Open the door and block it open. (12) Discharge high voltage capacitor. (13) Disconnect the dummy resistor circuit from the sensor connector of control panel. (14) Carry out necessary repair. (15) Reconnect all leads removed from components during testing and repairing. (16) Re-install the outer case (cabinet). (17) Reconnect the power supply cord after the outer case is installed. Run the oven and check all

functions.

(18) Carry out "Water load cooking test" again and ensure that the oven works properly.

R1,R2 : 22Ω ± 1% 1/2W R3 : 4.3kΩ ± 5% 1/4W R4 : 1MΩ ± 5% 1/4W

Sensor Dummy Resistor Circuit

Plunger

NC NO

COM

R3 R4

1 2 3

F-1 F-2

F-3

To connector (F) on Control Unit.

CONNECTOR

Page 19

R-380E

1 COM5 OUT Common data signal : COM11. Connected to LCD signal COM11. 2 COM4 OUT Common data signal : COM12. Connected to LCD signal COM12. 3 COM3 OUT Common data signal : COM13. Connected to LCD signal COM13. 4 COM2 OUT Common data signal : COM14. Connected to LCD signal COM14. 5 COM1 OUT Common data signal : COM15. Connected to LCD signal COM15. 6 COM0 OUT Common data signal : COM16. Connected to LCD signal COM16.

7-10 VL1-VL4 IN

Power source voltage input terminal.

Standard voltage for LCD.

11 VL5 IN

Power source voltage input terminal.

Standard voltage for LCD. Connected to GND.

12-14 C3-C1 IN Terminal not used.

15 VLIN IN Terminal not used. 16 VREG OUT Terminal not used. 17 NC Terminal not used. 18 VSS IN

Power source voltage : -5.0V.

The power source voltage to the LSI is input to VSS terminal. Connected to VC. 19-21 P27-P25 OUT Terminal not used. 22-26 P24-P22 IN Used for initial balancing of the bridge circuit (absolute humidity sensor).

27 P47 IN

To input signal which communicates the door open/close information to LSI.

Door close "H" level signal (0V). Door open "L" level signal (-5V).

28 P46 OUT Terminal not used. 29 P45 OUT

Oven lamp, fan motor and turntable motor driving signal.

To turn on and off shut off relay (RY1). The square

waveform voltage is delivered to the RY1 driving

circuit and RY2 control circuit.

30 P44 OUT Magnetron high-voltage circuit driving signal.

To turn on and off the cook relay (RY2). The

signals holds "L" level during microwave cooking

and "H" level while not cooking. In other cooking

modes (variable cooking) the signal turns to "H"

level and "L" level in repetition according to the

power level.

(ON and OFF times for other power level.) 31 P43 Terminal not used. 32 CNTR0 OUT

Signal to sound buzzer (2.0 kHz).

A: key touch sound. B: Completion sound.

33 P41 OUT Terminal not used. 34 INT0 IN

Signal synchronized with commercial power source frequency.

This is the basic timing for time processing of LSI.

35 P07 OUT Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to AIN7, P14, P15, P16 and P17 terminal while one of G1 line keys on key matrix is touched.

36 P06 OUT

Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to AIN7, P14, P15, P16 and P17 terminal while one of G2 line keys on key matrix is touched.

37 P05 OUT

Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to AIN7, P14, P15, P16 and P17 terminal while one of G3 line keys on key matrix is touched.

38 P04 OUT

Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to AIN7, P14, P15, P16 and P17 terminal while one of G4 line keys on key matrix is touched.

39 P03 OUT

Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to AIN7, P14, P15, P16 and P17 terminal while one of G5 line keys on key matrix is touched.

LSI

The I/O signal of the LSI is detailed in the following table.

Pin No. Signal I/O Description

20.0 msec.

During cooking

H : GND

L : -5V

100 PERCENT

70 PERCENT

H : GND

L : -5V H : GND

L : -5V

OFF

OFF OFF

24 sec.

8 sec.

0.12 sec.

2.4 sec.

H : GND

L : -5V H : GND

L : -5V

20.0 msec.

H : GND

L : -5V

Page 20

R-380E

Pin No. Signal I/O Description

40 P02 OUT Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to AIN7, P14, P15, P16 and P17 terminal while one of G6 line keys on key matrix is touched.

41 P01 OUT

Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to AIN7, P14, P15, P16 and P17 terminal while one of G7 line keys on key matrix is touched.

42 P00 OUT

Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to AIN7, P14, P15, P16, P17 and AIN6 terminal while one of G8 line keys on key matrix is touched.

43 P17 IN

Signal coming from touch key.

When either G9 line on key matrix is touched, a corresponding signal out of P00-P07 will be input into P17. When no key is touched, the signal is held at "H" level.

44 P16 IN

Signal similar to P17.

When either G10 line on key matrix is touched, a corresponding signal will be input into P16.

45 P15 IN Signal similar to P17.

When either G11 line on key matrix is touched, a corresponding signal will be input into P15.

46 P14 IN Signal similar to P17.

When either G12 line on key matrix is touched, a corresponding signal will be input into P14.

47 AIN7 IN Signal similar to P17.

When either G13 line on key matrix is touched, a corresponding signal will be input into AIN7.

48 AIN6 IN Input terminal to judge the model.

The signal out of P04 will be input into AIN6 through G4 line on key matrix. The LSI will judge the model by this signal.

49 AIN5 IN

AH sensor input.

This input is an analog input terminal from the AH sensor circuit, and connected to the A/D converter built into the LSI.

50 AIN4 IN Used for initial balancing of the bridge circuit (absolute humidity sensor). This input is an analog

input terminal from the AH sensor circuit, and connected to the A/D converter built into the LSI.

51 RESET IN

Auto clear terminal.

Signal is input to reset the LSI to the initial state when power is applied. Temporarily set "L" level

the moment power is applied, at this time the LSI is reset. Thereafter set at "H" level 52 NC Terminal not used. 53 XCOUT OUT Terminal not used. 54 XCIN IN Connected to VC. 55 NC Terminal not used. 56 VCC IN

Power source voltage: GND(0V).

The power source voltage to drive LSI is input to VCC terminal. 57 OSCSEL IN Connected to VC(-5V). 58 XOUT OUT

Internal clock oscillation output.

Output to control oscillation input of XIN. 59 VSS IN

Power source voltage: -5.0V.

The power source voltage to the LSI is input to VSS terminal. Connected to VC. 60 NC Terminal not used. 61 XIN IN

Internal clock oscillation frequency control input setting.

The internal clock frequency is set by inserting the ceramic filter oscillation circuit with respect

to XOUT terminal. 62 NC Terminal not used.

63-66 AIN3-AIN0 IN

Terminal to change cooking input according to the Model.

By using the A/D converter contained in the LSI, DC voltage in accordance with the Model in

operation is applied to set up its cooking constant. 67 COM8 OUT Common data signal : COM8. Connected to LCD signal COM8.

. 68 COM9 OUT Common data signal : COM7. Connected to LCD signal COM7.

69 COM10 OUT Common data signal : COM6. Connected to LCD signal COM6. 70 COM11 OUT Common data signal : COM5. Connected to LCD signal COM5. 71 COM12 OUT Common data signal : COM4. Connected to LCD signal COM4. 72 COM13 OUT Common data signal : COM3. Connected to LCD signal COM3. 73 COM14 OUT Common data signal : COM2. Connected to LCD signal COM2. 74 COM15 OUT Common data signal : COM1. Connected to LCD signal COM1.

75-102

SEG67-SEG40

OUT Terminal not used.

103-142

SEG39-SEG0 OUT Segment data signal.

Connected to LCD.

Page 21

R-380E

(1) Structure of Absolute Humidity Sensor

The absolute humidity sensor includes two thermistors as shown in the illustration. One thermistor is housed in the closed vessel filled with dry air while another in the open vessel. Each sensor is provided with the protective cover made of metal mesh to be protected from the external airflow.

(2) Operational Principle of Absolute Humidity Sensor

The figure below shows the basic structure of an absolute humidity sensor. A bridge circuit is formed by two thermistors and two resistors (R1 and R2). The output of the bridge circuit is to be amplified by the operational amplifier. Each thermistor is supplied with a current to keep it heated at about 150˚C, the resultant heat is dissipated in the air and if the two thermistors are placed in different humidity conditions they show different degrees of heat conductivity leading to a potential difference between them causing an output voltage from the bridge circuit, the intensity of which is increased as the absolute humidity of the air increases. Since the output is very minute, it is amplified by the operational amplifier.

(3) Detector Circuit of Absolute Humidity Sensor Circuit

This detector circuit is used to detect the output voltage of the absolute humidity circuit to allow the LSI to control sensor cooking of the unit. When the unit is set in the sensor cooking mode, 16 seconds clearing cycle occurs

ABSOLUTE HUMIDITY SENSOR CIRCUIT

than the detector circuit starts to function and the LSI observes the initial voltage available at its AIN5 terminal. With this voltage given, the switches SW1 to SW5 in the LSI are turned on in such a way as to change the resistance values in parallel with R98 ~ R102. Changing the resistance values results in that there is the same potential at both F-3 terminal of the absolute humidity sensor and AIN4 terminal of the LSI. The voltage of AIN5 terminal will indicate about -2.5V. This initial balancing is set up about 16 seconds after the unit is put in the Sensor Cooking mode. As the sensor cooking proceeds, the food is heated to generate moisture by which the resistance balance of the bridge circuit is deviated to increase the voltage available at AIN5 terminal of the LSI. Then the LSI observes that voltage at AIN5 terminal and compares it with its initial value, and when the comparison rate reaches the preset value (fixed for each menu to be cooked), the LSI causes the unit to stop sensor cooking; thereafter, the unit goes in the next operation automatically. When the LSI starts to detect the initial voltage at AIN5 terminal 16 seconds after the unit has been put in the Sensor Cooking mode, if it is not possible to balance the bridge circuit due to disconnection of the absolute humidity sensor, ERROR will appear on the display and the cooking is stopped.

1) Absolute humidity sensor circuit

ventilation opening for sensing

Sensing part (Open vessel)

Sensing part (Closed vessel)

Thermistors

SW1 SW2

SW3 SW4 SW5

P20 P21 P22 P23 P24

LSI (IC1)

AIN4

AIN5

620k

300k

150k

75k

37.4k

23 22

15k

4.7k

1234

8765

0.01uF

0.1uF

0.01uF

VA : -15V

R90

330

C92

F-2

1.8k

IC2

F-1

F-3

3.57k

3.32k

VC : -5V

0.1

C. Thermistor in closed vessel S. Thermistor in open vessel

R98 R99

R96

R91

360k

R93

R92

R94

R95

D90

R100 R101

R102

R97

Operational amplifier

Output voltage

S : Thermistor open vessel

C : Thermistor closed vessel

Absolute humidity (g/m )

utput voltage

Absolute humidity vs, output voltage characteristic

The relation between signals and LCD are as follows:

LSI signal LCD LSI signal LCD LSI signal LCD (Pin No.) segment (Pin No.) segment (Pin No.) segment

SEG 39 (103).......... SEG 1 SEG 25 (117)..........SEG 15 SEG 12 (130) ........ SEG 28

SEG 38 (104).......... SEG 2 SEG 24 (118)..........SEG 16 SEG 11 (131) ........ SEG 29

SEG 37 (105).......... SEG 3 SEG 23 (119)..........SEG 17 SEG 10 (132) ........ SEG 30

SEG 36 (106).......... SEG 4 SEG 22 (120)..........SEG 18 SEG 9 (133) ........ SEG 31

SEG 35 (107).......... SEG 5 SEG 21 (121)..........SEG 19 SEG 8 (134) ........ SEG 32

SEG 34 (108).......... SEG 6 SEG 20 (122)..........SEG 20 SEG 7 (135) ........ SEG 33

SEG 33 (109).......... SEG 7 SEG 19 (123)..........SEG 21 SEG 6 (136) ........ SEG 34

SEG 32 (110).......... SEG 8 SEG 18 (124)..........SEG 22 SEG 5 (137) ........ SEG 35

SEG 31 (111).......... SEG 9 SEG 17 (125)..........SEG 23 SEG 4 (138) ........ SEG 36

SEG 30 (112).......... SEG 10 SEG 16 (126)..........SEG 24 SEG 3 (139) ........ SEG 37

SEG 29 (113).......... SEG 11 SEG 15 (127)..........SEG 25 SEG 2 (140) ........ SEG 38

SEG 28 (114).......... SEG 12 SEG 14 (128)..........SEG 26 SEG 1 (141) ........ SEG 39

SEG 27 (115).......... SEG 13 SEG 13 (129)..........SEG 27 SEG 0 (142) ........ SEG 40

SEG 26 (116).......... SEG 14

143 COM7 OUT Common data signal : COM9. Connected to LCD signal COM9. 144 COM6 OUT

Common data signal : COM10. Connected to LCD signal COM10.

Pin No. Signal I/O Description

Page 22

R-380E

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.

2. Shapes of Electronic Components

3. 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 sup-

ply of the oven: CAUTION: THE HIGH VOLTAGE TRANSFORMER OF THE MICROWAVE OVEN IS STILL LIVE DURING SERVICING PRESENTS A HAZARD.

Therefore, when checking the performance of the touch control panel, put the outer cabinet on the oven to avoid touching the high voltage transformer, or unplug the primary terminal (connector) of the high voltage transformer to turn it off; the end of such connector must be insulated with an insulating tape. After servicing, be sure to replace the leads to their original locations.

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 (sensor-related 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 proper 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 proper; 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 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 proper, and short both ends of the door sensing switch (on PWB) of the touch control panel, which brings about 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 it is also possible to check the sensor-related controls of the touch control panel by using the dummy resistor(s).

4. 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) Oscilloscope: Single beam, frequency range: DC10MHz type or more advanced model.

3) Others: Hand tools

5. 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.

TOUCH CONTROL PANEL SERVICING

approx. 1M ohm

Transistor KRC243M

Transistor 2SB1238

Page 23

R-380E

HIGH VOLTAGE RECTIFIER, HIGH VOLTAGE FUSE AND HIGH VOLTAGE CAPACITOR REMOVAL

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. Visually check the door and cavity face plate for damage (dents, cracks, signs of arcing etc.).

Carry out any remedial work that is necessary before operating the oven. Do not operate the oven if any of the following conditions exist;

1. Door does not close firmly.

2. Door hinge, support or latch hook is damaged.

3. The door gasket or seal or 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.

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 manners.

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, High voltage rectifier assembly and High voltage fuse.

2) Hot parts: Oven lamp, Magnetron, High voltage transformer and Oven cavity.

3) Sharp edge: Bottom plate, Oven cavity, Waveguide flange, Chassis support and other metallic plate.

4) Movable parts (to prevent a fault) Fan blade, Fan motor, Switch.

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.

1. Rest transformer on the bottom plate with its primary

terminals toward the oven face plate.

2. Secure transformer with four screws to bottom plate.

3. Re-connect wire leads (primary and high voltage) to

power transformer and filament leads of transformer to magnetron and high voltage capacitor. Refer to "PICTORIAL DIAGRAM".

4. Re-install outer case and check that oven is operating

properly.

OUTER CASE REMOVAL

To remove the components, procedure as follows.

1. Disconnect oven from power supply.

2. Remove four(4) screws from rear and one (1) screw along the right side edge of case.

1. CARRY OUT 3D CHECKS.

2. Disconnect wire leads (primary and high voltage) from power transformer.

3. Disconnect filament leads from the magnetron and the high voltage capacitor.

4. Remove four (4) screws holding transformer to bottom plate.

5. Remove transformer from bottom plate.

Re-install

POWER TRANSFORMER REMOVAL

3. Slide the entire case back out about 1 inch(3 cm) to free it from retaining clips on the cavity face plate.

4. Lift entire case from the unit.

CAUTION: DISCONNECT OVEN FROM POWER SUP-

PLY BEFORE REMOVING OUTER CASE.

1. CARRY OUT 3D CHECKS.

2. Disconnect the brown and blue wires of power supply

cord from the noise filter.

3. Disconnect the wire leads of the main wire harness

Page 24

R-380E

from the noise filter.

4. Disconnect the high voltage fuse from the power transformer.

5. Disconnect filament lead of the power transformer from the high voltage capacitor.

6. Disconnect high voltage wire of the high voltage rectifier assembly from the magnetron.

7. Remove one (1) screw holding capacitor holder to the oven cavity rear plate.

8. Remove one (1) screw holding high voltage rectifier assembly to capacitor holder.

9. Disconnect rectifier terminal from capacitor. Now, the high voltage rectifier assembly is free.

10.Disconnect high voltage fuse from capacitor. Now, the high voltage fuse is free.

11.Remove the high voltage capacitor from the capacitor holder. Now, the high voltage capacitor is free.

CAUTION: WHEN REPLACING HIGH VOLTAGE

RECTIFIER AND HIGH VOLTAGE CAPACITOR, GROUND SIDE TERMINAL OF THE HIGH VOLTAGE RECTIFIER MUST BE SECURED FIRMLY WITH A GROUNDING SCREW.

MAGNETRON REMOVAL

Removal

1. CARRY OUT 3D CHECKS.

2. Disconnect wire leads from magnetron.

3. Remove the five (5) screws holding chassis support to oven cavity front plate, oven cavity rear plate, magnetron and fan duct.

4. Remove the chassis support from oven.

5. Carefully remove the four (4) screws holding magnetron to waveguide flange.

6. Lift up magnetron with care so that magnetron antenna is not hit by any metal object around antenna.

7. Remove the two (2) screws holding the magnetron duct to the magnetron.

8. Remove the magnetron duct from the magnetron.

9. Now, the magnetron is free.

Re-install

1. Re-install the magnetron duct to the magnetron with the two (2) screws.

2. Re-install the magnetron to waveguide flange with the four (4) screws.

3. Insert the two (2) tabs of the chassis support to the oven cavity front plate and back plate.

4. Re-install the chassis support to oven cavity front plate, oven cavity rear plate, magnetron and fan duct with the five (5) screws.

5. Reconnect the wire leads to the magnetron. Refer to "PICTORIAL DIAGRAM".

6. Re-install outer case and check that the oven is operating properly.

CAUTION: WHEN REPLACING MAGNETRON, BE

SURE THE R.F. GASKET IS IN PLACE AND MOUNTING SCREWS ARE TIGHTENED SECURELY.

1. CARRY OUT 3D CHECKS.

2. Pushing the lever of positive lock® connector.

3. Pull out the positive lock® connector. CAUTION: WHEN YOU (SERVICE ENGINEERS) CON-

NECT THE POSITIVE LOCK® CONNECTORS TO THE TERMINALS, CONNECT THE POSITIVE LOCK® SO THAT THE LEVER FACE YOU (SERVICE ENGINEERS).

POSITIVE LOCK® CONNECTOR REMOVAL

Figure C-1. Positive lock® connector

1. Open covers of the terminal insulator by using small flat type screw driver.

2. Remove the receptacle from the terminal insulator.

3. Now, the terminal insulator is free.

Installation

1. Insert the receptacle into terminal insulator.

2. Close covers of the terminal insulator, as shown illustlated below.

TERMINAL INSULATOR REPLACEMENT

CONTROL PANEL ASSEMBLY REMOVAL

1. CARRY OUT 3D CHECKS.

2. Disconnect the wire leads from panel components.

3. Remove the one (1) screw holding the control panel assembly to the oven flange.

Slide the control panel assembly upward and remove it.

5. Now, individual components can be removed. NOTE: 1. Before attaching a new key unit, wipe off

remaining adhesive on the control panel frame

Terminal

Push

Pull down

Lever

Positive lock® connector

Terminal insulator

Flat type screw driver

Receptacle

Covers

Page 25

R-380E

surfaces completely with a soft cloth soaked in alcohol.

2. When attaching the key unit to the control panel frame, adjust the upper edge and right edge of the key unit to the correct position of control panel frame.

3. Stick the key unit firmly to the control panel frame by rubbing with soft cloth not to scratch.

CPU UNIT NOTE: Handle the CPU unit carefully so that the ribbon

cable does not come off. Because the ribbon cable is sticked on the LCD and the printed wiring board only by heated paste.

1. CARRY OUT 3D CHECKS.

2. Bend the tab of the partition angle holding the lamp socket.

3. Lift up the oven lamp socket.

4. Pull the wire leads from the oven lamp socket by pushing the terminal hole of the oven lamp socket with the small flat type screw driver.

5. Now, the oven lamp socket is free.

OVEN LAMP AND LAMP SOCKET REMOVAL

Figure C-3. Oven lamp socket

TURNTABLE MOTOR REMOVAL

1. Disconnect oven from power supply.

2. Remove turntable and turntable support from oven cavity.

3. Lay the oven on it's backside. Remove the turntable motor cover by snipping off the material in four corner.

4. Where the corners have been snipped off bend corner areas flat. No sharp edge must be evident after removal of the turntable motor cover.

5. Disconnect wire leads from turntable motor.

(See "Positive lock connector removal")

6. Remove two (2) screws holding turntable motor to oven cavity.

7. Now the turntable motor is free.

8. After replacement use the one (1) screw to fit the turntable motor cover.

NOTE: The one (1) screw to fit the turntable motor cover

should be XHTSD40P08RV0.

COOLING FAN MOTOR REMOVAL

1. CARRY OUT 3D CHECKS.

2. Disconnect the wire leads from the fan motor.

3. Remove the magnetron and the chassis support from the waveguide, referring to "MAGNETRON REMOVAL".

4. Release the snap of the main wire harness from the fan duct.

5. Remove one (1) screw holding the fan duct assembly to the oven cavity.

6. Release the main wire harness from the hole of the fan duct.

7. Release the fan duct from the waveguide flange.

8. Release the fan duct assembly from the oven cavity.

9. Remove the fan blade from the fan motor shaft according the following procedure.

1) Hold the edge of the rotor of the fan motor by using a pair of grove joint pliers.

CAUTION: * Make sure that any pieces do not enter the gap

between the rotor and the stator of the fan motor because the rotor is easily shaven by pliers and metal pieces may be produced.

* Do not touch the pliers to the coil of the fan motor

because the coil may be cut or injured.

* Do not disfigure the bracket by touching with the

pliers.

2) Remove the fan blade from the shaft of the fan motor by pulling and rotating the fan blade with your hand.

3) Now, the fan blade will be free.

CAUTION: * Do not reuse the removed fan blade because the

hole (for shaft) may be larger than normal.

10.Remove the two (2) screws holding the fan motor to the fan duct.

11.Now, the fan motor is free.

INSTALLATION

1. Install the fan motor to the fan duct with the two (2) screws.

2. Install the fan blade to the fan motor shaft according the following procedure.

1) Hold the center of the bracket which supports the shaft of the fan motor on the 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.

Figure C-2. CPU unit

Oven lamp socket

Terminal

Wire lead

Terminal hole

Flat type small screw driver

Printed wiring board

of CPU unit

Liquid Crystal

Display (LCD)

Ribbon cable

Page 26

R-380E

CAUTION: * Do not hit the fan blade strongly when installed

because the bracket may be disfigured.

* Make sure that the fan blade rotates smooth after

installation.

* Make sure that the axis of the shaft is not slanted.

3. Catch three holes of fan duct on three tabs of the waveguide flange.

4. Install the fan duct assembly to the oven cavity with the one (1) screw.

5. Insert the snap of the main wire harness to the hole of the fan duct and insert the main wire harness into the hole of the fan duct.

6. Install the chassis support and the magnetron to oven cavity.

7. Connect the wire leads to the fan motor, referring to the pictorial diagram.

Side View

Rear View

POWER SUPPLY CORD REPLACEMENT

1. CARRY OUT 3D CHECKS.

2. Remove the one (1) purse lock holding the wire leads of the main wire harness and the earth wire of the power supply cord.

3. Remove the single (1) screw holding the green/ yellow wire to the bottom plate.

4. Disconnect the leads of the power supply cord from the noise filter, referring to the Figure C-4 (a).

5. Release the moulding cord stopper of the power supply cord from the square hole of the oven cavity back plate, referring to the Figure C-4 (b).

6. Now, the power supply cord is free.

Re-install

1. Insert the moulding cord stopper of power supply cord into the square hole of the rear cabinet, referring to the Figure C-4 (b).

2. Install the earth wire lead of power supply cord to the bottom 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.

4. Hold the the wire leads of the main wire harness and the earth wire of the power supply cord with the one (1) purse lock.

5. Re-install outer case and check that the oven is operating properly.

1ST. LATCH SWITCH, 2ND. INTERLOCK RELAY CONTROL SWITCH AND MONITOR

SWITCH REMOVAL

1. CARRY OUT 3D CHECKS.

2. Disconnect wire leads from the switches.

3. Remove two (2) screws holding latch hook to oven flange.

4. Remove latch hook assembly from oven flange.

5. Push outward on the two (2) retaining tabs holding switch in place.

6. Switch is now free.

Re-install

1. Re-install each switch in its place. The 1st. latch and

monitor switches are in the lower position and the 2nd. interlock relay control switch is in the upper position.

2. Re-connect wire leads to each switch. Refer to pictorial diagram.

3. Secure latch hook (with two (2) mounting screws) to oven flange.

4. Make sure that the monitor switch is operating properly and check continuity of the monitor circuit. Refer to chapter "Test Procedure" and Adjustment procedure.

Figure C-4 (a). Power Supply Cord Replacement Figure C-4 (b) Power Supply Cord Replacement

Gap

Rotor

Bracket

Stator

Groove joint pliers

Coil

Shaft

Axis

Stator

Rotor

These are the positions that should be pinched with pliers.

Shaft

Table

Center of bracket

Power Supply Cord

Oven Cavity Back Plate

Bottom Plate

Screw

Green/Yellow Wire

Brown Wire

Blue Wire

Fuse M10A

Purse Lock

White Wire

Red Wire

Noise Filter

WHT

RED

Power Supply Cord

Oven Cavity Back Plate

Square Hole

Moulding Cord Stopper

Page 27

R-380E

If the 1st. latch switch, 2nd. latch switch, stop switch and monitor switch do not operate properly due to a misadjustment, the following adjustment should be made.

1. Loosen the two (2) screws holding latch hook to the oven cavity front flange.

2. With door closed, adjust latch hook by moving it back and forth, and up and down. In and out play of the door allowed by the upper and lower position of the latch hook should be less than 0.5mm. The vertical position of the latch hook should be adjusted so that the 1st. latch switch and stop switch are activated with the door closed. The horizontal position of the latch hook should be adjusted so that the plunger of the monitor switch and 2nd. latch switch are pressed with the door closed.

3. Secure the screws with washers firmly.

4. Check all switches operation. If each switch has not activated with the door closed, loosen screw and adjust the latch hook position.

After adjustment, check the following.

1. In and out play of door remains less than 0.5mm when in the latched position. First check upper position of latch hook, pushing and pulling upper portion of door toward the oven face. Then check lower portion of the latch hook, pushing and pulling lower portion of the

door toward the oven face. Both results (play in the door) should be less than 0.5mm.

2. The contacts of the 1st. latch switch and stop switch open within 0.9mm gap between right side of cavity face plate and door when the door is open.

3. Monitor switch contacts close when door is opened.

4. The 2nd. latch switch contacts open when the door is opened.

5. Re-install outer case and check for microwave leakage around door with an approved microwave survey meter. (Refer to Microwave Measurement Procedure.)

Figure C-5. Latch Switch Adjustments

1ST. LATCH SWITCH, 2ND. INTERLOCK RELAY CONTROL SWITCH AND MONITOR

SWITCH ADJUSTMENT

REMOVAL

1. Disconnect the power supply cord.

2. Open button and open the door slightly.

3. Insert a putty knife (thickness of about 0.5mm) into the gap between the choke cover and door frame as shown in Figure C-6 to free engaging parts.

4. Pry the choke cover by inserting a putty knife as shown Figure C-6.

5. Release choke cover from door panel.

6. Now choke cover is free.

7. Release two (2) pins of door panel from two (2) holes of upper and lower oven hinges by lifting up.

8. Now, door panel with door frame is free from oven cavity.

NOTE: When carrying out any repair to the door, do

not bend or warp the slit choke (tabs on the door panel assembly) to prevent microwave leakage.

Figure C-6. Door Disassembly

9. Remove the four (4) screws holding the door panel to the door frame.

DOOR REPLACEMENT

10.Release door panel from eight (8) tabs of door frame.

11.Now, door panel with sealer film is free.

12.Tear sealer film from door panel.

13.Now, door panel is free.

14.Slide latch head upward and remove it from door frame with releasing latch spring from door frame and latch head.

15.Now, latch head and latch spring are free.

16.Remove the door screen from the door frame.

17.Now, door screen is free.

RE-INSTALL

1. Re-install door screen to door frame.

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 by fitting eight (8) tabs of door frame to eight (8) holes of door panel.

4. Hold the door panel to the door frame with the four (4) screws.

5. Put sealer film on door panel. Refer to “Sealer Film” about how to handle new one.

6. Catch two (2) pins of door panel on two (2) hole of upper and lower oven hinges.

7. Re-install choke cover to door panel by pushing.

Note: After any service to the door; (A) Make sure that 1st. latch switch, 2nd. interlock

relay control switch and monitor switch are operating properly. (Refer to chapter “Test Procedures”.).

(B) An approved microwave survey meter should be

used to assure compliance with proper microwave

Choke Cover

Door Frame

Putty Knife

Latch Hook

2nd. Interlock Reley Control Switch

Latch Heads

Door

Monitor Switch

1st. Latch Switch

Page 28

R-380E

radiation emission limitation standards.

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 center 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 lighttight. 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.

Sealer film

Backing film

Adhesive tape

Figure C-7. Door Replacement

SEALER FILM

Installation

1. Put the adhesive tape on the backing film of the sealer film as shown in Fig. C-8.

2. Tear the backing film by pulling the adhesive tape.

3. Put the pasted side of the sealer film on the door panel.

Figure C-8. Sealer film

Upper Oven Hinge

Lower Oven

Hinge

Lower Oven Hinge

Slit Choke of Door Panel

Choke Cover

Page 29

R-380E

MICROW AVE 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 5cm 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 book. 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 centre 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.

mW cm

Microwave leakage measurement at 5 cm distance

SHARP

Page 30

R-380E

SCHEMATIC

NOTE: CONDITION OF OVEN

1.DOOR CLOSED

2.CLOCK APPEARS ON DISPLAY

NOTE: " " indicates components with potentials above 250V.

SCHEMATIC

NOTE: CONDITION OF OVEN

1. DOOR CLOSED

2. COOKING TIME PROGRAMMED

3. START KEY TOUCHED

Figure O-2. Oven Schematic-Cooking Condition

Figure O-1. Oven Schematic-OFF Condition

POWER TRANSFORMER

MAGNETRON

H.V. RECTIFIER

H. V. FUSE

0.75A

TURNTABLE MOTOR

FAN MOTOR

OVEN LAMP

MONITOR SWITCH

THERMAL CUT-OUT 95˚C (MG)

1ST. LATCH SWITCH

TTM

N.O.

COM.

RY-1

N.O.

COM.

THERMAL CUT-OUT 125˚C (OVEN)

RY-2

MONITOR

RESISTOR

0.8/20W

EARTH

BLU

BRN

G-Y

FUSE M10A

LINE CROSS CAPACITOR

0.068µ/AC250V

NOISE SUPPRESSION COIL

LINE BYPASS

CAPACITOR

0.0022µ/AC250V

LINE BYPASS

CAPACITOR

0.0022µ/AC250V

NOISE FILTER

230-240V 50Hz

CAPACITOR

1.13µ AC2300V

2ND. INTERLOCK RELAYCONTROL SWITCH

CONTROL UNIT

AH SENSOR

POWER TRANSFORMER

MAGNETRON

H.V. RECTIFIER

H. V. FUSE

0.75A

CAPACITOR

1.13µ AC2300V

TURNTABLE MOTOR

FAN MOTOR

OVEN LAMP

2ND. INTERLOCK RELAYCONTROL SWITCH

MONITOR SWITCH

CONTROL UNIT

THERMAL CUT-OUT 95˚C (MG)

1ST. LATCH SWITCH

TTM

N.O.

COM.

RY-1

N.O.

COM.

THERMAL CUT-OUT 125˚C (OVEN)

NOISE FILTER

RY-2

MONITOR

RESISTOR

0.8/20W

EARTH

BLU

BRN

230-240V 50Hz

G-Y

FUSE M10A

LINE CROSS CAPACITOR

0.068µ/AC250V

NOISE SUPPRESSION COIL

LINE BYPASS

CAPACITOR

0.0022µ/AC250V

LINE BYPASS

CAPACITOR

0.0022µ/AC250V

AH SENSOR

Page 31

R-380E

23456

123456

Figure S-1. Pictorial Diagram

HIGH VOLTAGE

CAPACITOR

HIGH VOLTAGE

FUSE

H.V.

RECTIFIER

HIGH VOLTAGE COMPONENTS

OVEN LAMP

AND SOCKET

MAGNETRON

TURNTABLE

MOTOR

POWER

TRANSFORMER

GRY

RED

GRY

RED

WHT

YLW

WHT

BLK

RED

ORG

Black Mark

WHT

RED

WHT

THERMAL

CUT-OUT (MG)

NOISE FILTER

FAN MOTOR

MONITOR

RESISTOR

THERMAL

CUT-OUT (OVEN)

BLK

RED

GRY

WHT

BLK

BLU

BRN

POWER

SUPPLY

CORD

EARTH

NEUTRAL

LIVE

N L

WHT

RED

NOTE:

Neutral (WHT) wire must

be connected to the

terminal with black mark

on the oven light socket.

COM.

MONITOR

SWITCH

COM.

N.O.

N.C.

2ND. INTERLOCK

RELAY CONTROL

SWITCH

1ST. LATCH

SWITCH

COM.

RED

ORG

YLW

BLK

YLW

RED

GRN

GRY

WHT

GRY

WHT

GRY

WHT

YLW

BLK

RY2

RY1

SP1

IC1

SECONDARY

INTERLOCK

RELAY

CN-A

CN-B

CN-G

CN-C

CN-A

CONTROL UNIT

(CPU UNIT)

(POWER UNIT)

(Lower)

(Upper)

(Oven side)

(Cabinet side)

GRN

RED

CN-B

GRN

BLK

AH SENSOR

RED

WHT

123

CN-F

Page 32

R-380E

23456

123456

Figure S-2. Power unit Circuit

–

A 1

B 2

B 1

CN-A

R4 27

VRS1

(J1)

D7D8

1SS270A1SS270A

10G471K

C1 0.1µ/50v

C3 0.1µ/50v

ZD1

HZ16-1

C5 10µ/35v

C2 1000µ/35v

C4 10µ/35v

R1 2.4k

1SS270A1SS270A

D1-D4 11ES1

R5 4.7k

R2 680 1/2w

R3 510 1/2w

R6 3.3k

Q2 2SB1238

SP1 PKM22EPT

Q1 2SB1238

RY1

RY2

Q3 KRC243M

CN-C 12PIN LEAD WIRE HARNESS

LED

GND

VA INT VR

BUZZER

MICRO

OVEN LAMP TURNTABLE MOTOR FAN MOTOR

MICRO

2ND. INTERLOCK RELAY CONTROL SWITCH

OVEN LAMP TURNTABLE MOTOR FAN MOTOR

C10

C 2

C 3

C 1 C 4 C 9

C 5

C 6

C 7

C 8

C11

C12

A 2

COM

Page 33

R-380E

Figure S-3. CPU Unit Circuit

23456

123456

C-2

C-4

C-3

CN-C

CN-F

: IF NOT SPECIFIED, 1/10W ± 5%

CN-G

C-10

C-9

C-1

C-6

C-5

C-7

C-8

C-12

C-11

F-1

F-2

F-3

G 1 G 2 G 3 G 4 G 5 G 6 G 7 G 8

G 9

G10

G11

G12

G13

G14

–

C10 47µ/16v

LD10 LD11 LD12 LD13

LD14LD15

C11 0.1µ/50v

C91 0.1µ/50v

C40 0.01µ/25v

C60

C61

C62

C63

C64

C65

C90 0.1µ/50v

C14 0.01µ/25v

(J11) 4.7k

(J13) 4.7k

(J15) 4.7k

(J17) 4.7k

(J10)

(J12)

(J14)

(J16)

AIN0

AIN5AIN4

P20

P07 P06 P05 P04 P03 P02 P01 P00

P17

P16

P15

P14

AIN7

AIN6

P21 P22 P23

P45

P44

CNTR0

P24

COM0

COM5

SEG34

SEG39

COM15

COM8

AIN1

VL1

VL2

VL3

VL4

AIN2

AIN3

R12 15k

R40 4.7k

R60

15k

R61

15k

R62

15k

R63

15k

R64

15k

R65

15k

R66

15k

R74 270k

R75 270k

R76 270k

R77 270k

R78 270k

R79 270k

R67

15k

D20

MA152WA

R92 1.8kF R93 360kF

R11 15k

R19

4.7k

R18

4.7k

R17

4.7k

R16

4.7k

R15

4.7k

R10 1k

R90

330

C92

0.01µ/25v

C93

0.01µ/25v

R41 15k

R68 15k

R69 15k

R70 15k

R71 15k

R72 15k

R73 15k

C60-C65 330pF/50v

R94 4.7k

D90 MA152WA

R97 15k

R91

3.32kD

R96

3.57kD

R95 15k

R98

620k

R99

300k

R100

150kF

R101

75kF

R102

37.4kF

C12

0.1µ/50v

C20

0.1µ/50v

C15

0.1µ/50v

C16

0.1µ/50v

C17

0.1µ/50v

C18

0.1µ/50v

C13

0.01µ/25v

ZD10

UDZ4.3B

Q10

2SA1037AK

Q11

DTA143EAK

CF1

CST4.00MGW

SEG34

SEG35

COM5

108

109

144

COM4

COM3

COM2

COM1

COM0

VL1

VL2

VL3

VL4

VL5

C3C2C1

VLIN

VREG

VSS

P27

P26

P25

P24

P23

P22

P21

P20

P47

P46

P45

P44

P43

CNTR0

P05 COM6

COM16

COM15

COM14

COM13

COM12

COM11

COM10

COM9

SEG40

SEG39

SEG38

SEG37

SEG36

SEG35

SEG34

SEG33

SEG32

SEG31

SEG30

SEG29

SEG28

SEG27

SEG26

SEG25

SEG24

SEG23

SEG22

SEG21

SEG20

SEG19

SEG18

SEG17

SEG16

SEG15

SEG14

SEG13

SEG12

SEG11

SEG10

SEG9

SEG8

SEG7

SEG6

SEG5

SEG4

SEG3

SEG2

SEG1

COM1

COM2

COM3

COM4

COM5

COM6

COM7

COM8

COM7

SEG0

SEG1

SEG2

SEG3

SEG4

SEG5

SEG6

SEG7

SEG8

SEG9

SEG10

SEG11

SEG12

SEG13

SEG14

SEG15

SEG16

SEG17

SEG18

SEG19

SEG20

SEG21

SEG22

SEG23

SEG24

SEG25

SEG26

SEG27

SEG28

SEG29

SEG30

SEG31

SEG32

SEG33

P04

P03

P02

P01

P00

P17

P16

P15

P14

AIN7

AIN6

AIN5

AIN4

RESET

XCOUT

XCIN

VCC

OSCSEL

XOUT

VSS

XIN

AIN3

AIN2

AIN1

AIN0

COM8

COM9

COM10

COM11

COM12

COM13

P41

INT0

P07

P06

SEG36

SEG37

SEG38

SEG39

SEG40

SEG41

SEG42

SEG43

SEG44

SEG45

SEG46

SEG47

SEG48

SEG49

SEG50

SEG51

SEG52

SEG53

SEG54

SEG55

SEG56

SEG57

SEG58

SEG59

SEG60

SEG61

SEG62

SEG63

SEG64

SEG65

SEG66

SEG67

COM15

COM14

IC-2

BA4558

IC-1

Q20

DTA143EAK

Q30

DTA143EAK

Q21

DTA123JAK

12345

67890

SENSOR DEFROST TURNTABLE OFF COOK

HELP

GND

INT

LEDVRVA

OVEN LAMP

TURNTABLE

MOTOR

FAN MOTOR

BUZZER

MICRO

DOORNCAH SENSOR

NOTE

LESS

DINNER

PLATE

EASY

DEFROST

RICE /

PASTA

SOUP

TIMER CLOCK

MEAT

VEGETABLES

PIE

SLOW

COOK

EXPRESS

DEFROST

POWER

LEVEL

QUICK &

EASY

STOP

CLEAR

RICE HELP

INSTANT

COOK

START

PIZZA

DESSERTS

CASSEROLE

Page 34

R-380E

Figure S-4. Printed Wiring Board

23456

123456

DIP

SP1

RY2

RY1

VRS1

RY3

(D20)

(J2)

(J1)

(D10)

(R9)

ZD1

CN - C

CN - A

(CN - B)

(CN - D)

SH - B SH - A

(RED) (GREEN)

Page 35

R-380E

∆

* *

∆

* *

PARTS LIST

Note: The parts marked "∆" may cause undue microwave exposure.

The parts marked "*" are used in voltage more than 250V.

REF. NO. PART NO. DESCRIPTION Q'TY CODE

ELECTRIC PARTS

1- 1 QSW-MA137WRE0

1st. latch switch/ 2nd. interlock relay control switch

2AH 1- 2 FPWBFA329WRK0 Noise filter 1 AS 1- 3 QSW-MA138WRE0 Monitor switch 1 AH 1- 4 RTHM-A116WRE0 Thermal cut-out 125˚C 1 AK 1- 5 QACCAA047WRE0 Power supply cord 1 AP 1- 6 FH-DZA088WRK0 High voltage rectifier assembly 1 AP 1- 7 RC-QZA293WRZZ High voltage capacitor 1 AV 1- 8 RV-MZA295WRE0 Magnetron 1 BF 1- 9 RMOTEA403WRZZ Fan motor 1 AZ 1-10 QSOCLA024WRE0 Oven lamp socket 1 AH 1-10 QSOCLA022WRE0 Oven lamp socket (Interchangeable) 1 AG 1-11 RLMPTA069WRE0 Oven lamp 1 AK 1-12 RMOTDA173WRE0 Turntable motor 1 AX 1-12 RMOTDA169WRE0 Turntable motor (Interchangeable) 1 AW 1-13 RTHM-A117WRE0 Thermal cut-out 95˚C 1 AK 1-14 RTRN-A640WRZZ Power transformer 1 BP 1-15 QFS-IA002WRE0 High voltage fuse 1 AQ 1-16 RR-WZA022WRE0 Monitor resistor 0.8 ohm 20W 1 AK 1-17 QFS-CQ001YBE0 Fuse M10A 1 AE 1-18 FDTCTA197WRK0 AH sensor assembly 1 BC

CABINET PARTS

2- 1 GCABUA690WRP0 Outer case cabinet 1 AZ 2- 2 GDAI-A316WRW0 Bottom plate 1 AX 2- 3 GLEGPA074WRE0 Foot 2 AC 2- 4 GLEGPA077WRF0 Leg 1 AH

CONTROL PANEL PARTS

3- 1 DPWBFC100WRKZ Power unit (New Zealand only) 1 BB 3- 1A QCNCMA446DRE0 2-pin connector(CN-A) 1 AC 3- 1B QCNCMA275DRE0 2-pin connector(CN-B) 1 AB 3- 1C FW-VZA232DRE0 12-pin harness (CN-C) 1 AE C1 RC-KZA087DRE0 Capacitor 0.1µF 50V 1 AA C2 VCEAB31VW108M Capacitor 1000µF 35V 1 AF C3 RC-KZA087DRE0 Capacitor 0.1µF 50V 1 AA C4-5 VCEAB31VW106M Capacitor 10µF 35V 2 AA D1-4 VHD11ES1///-1 Diode (11ES1) 4 AB D5-8 VHD1SS270A/-1 Diode (1SS270ATA) 4 AA Q1-2 VS2SB1238//-3 Transistor (2SB1238) 2 AA Q3 VSKRC243M//-3 Transistor (KRC243M) 1 AB R1 VRD-B12EF242J Resistor 2.4k ohm 1/4W 1 AA R2 VRD-B12HF681J Resistor 680 ohm 1/2W 1 AA R3 VRD-B12HF511J Resistor 510 ohm 1/2W 1 AB R4 VRD-B12EF270J Resistor 27 ohm 1/4W 1 AB R5 VRD-B12EF472J Resistor 4.7k ohm 1/4W 1 AA R6 VRD-B12EF332J Resistor 3.3k ohm 1/4W 1 AA RY1 RRLY-A076DRE0 Relay (OMIF-S-124LM) 1 AK RY2 RRLY-A113DRE0 Relay (DU24D1-1P(M)-R) 1 AM SP1 RALM-A014DRE0 Buzzer (PKM22EPT-THAI) 1 AG T1 RTRNPA112DRE0 Transformer 1 AS VRS1 RH-VZA032DRE0 Varistor (10G471K) 1 AE ZD1 VHEHZ161///-1 Zenor diode (HZ16-1) 1 AA 3- 2 DPWBFC193WRKZ CPU unit 1 BF 3- 3 FPNLCB580WRKZ Control panel frame with key unit 1 BA 3- 3-1 FUNTKB078WREZ Key unit 1 AW 3- 4 PSHEPA672WRE0 LED sheet 1 AK 3- 5 LHLD-A185WRF0 LCD holder 1 AL 3- 6 XEPSD30P08XS0 Screw ; 3mm x 8mm 4 AA

OVEN PARTS

4- 1 PDUC-A724WRF0 Air separater 1 AU 4- 2 PPACGA084WRF0 TTM packing 1 AF 4- 3 PHOK-A116WRFZ Latch hook 1 AH 4- 4 LBNDKA143WRW0 Capacitor holder 1 AC 4- 5 NFANJA043WRE0 Fan blade 1 AK 4- 6 PDUC-A728WRW0 Fan duct 1 AT 4- 7 FOVN-A461WRTZ Oven cavity 1 BD 4- 8 LANGFA196WRWZ Chassis support 1 AG 4- 9 PCUSGA529WRP0 Cushion 1 AC 4-10 LANG-A067WRPZ Magnetron duct 1 AG 4-11 LANG-A078WRWZ Barrier 1 AF 4-12 NCPL-A053WRFZ Coupling 1 AE

Page 36

R-380E

∆ ∆

HOW TO ORDER REPLACEMENT PARTS

To have your order filled prompty and correctly, please furnish the following information.

1. MODEL NUMBER 3. PART NO.

2. REF. NO. 4. DESCRIPTION

Note: The parts marked "

∆" may cause undue microwave exposure.

The parts marked "*" are used in voltage more than 250V.

REF. NO. PART NO. DESCRIPTION Q'TY CODE

∆

4-13 PCUSUA511WRP0 Cushion 1 AC 4-14 PCOVPA349WRE0 Waveguide cover 1 AE 4-15 PCUSGA339WRP0 Cushion 2 AG 4-16 PCUSUA527WRP0 Cushion 1 AE

4-17 PCUSUA512WRP0 Cushion 1 AB 4-18 PCUSUA474WRP0 Cushion 2 AC 4-19 LANG-A079WRWZ Air guide 1 AF 4-20 PCUSGA533WRP0 Cushion 1 AD 4-21 PCUSUA157WRP0 Cushion 1 AC

4-22 PCUSUA576WRPZ Cushion 1 AE 4-23 PCUSGA551WREZ Cushion 1 AC 4-24 LANGTA368WRWZ Sensor mounting angle 1 AK 4-25 PCUSUA376WRP0 Cushion 2 AF

4-26 LANG-A065WRWZ Sensor mounting guide 1 AH

DOOR PARTS

5- 1 FDORFA332WRT0 Door panel 1 BB 5- 2 PSHEPA382WRE0 Sealer film 1 AH 5- 3 GWAKPA816WRRZ Door frame 1 AW 5- 4 HPNL-A745WRRZ Door screen 1 AR 5- 5 LSTPPA193WRFZ Latch head 1 AE

5- 6 MSPRTA187WRE0 Latch spring 1 AC 5- 7 XEPSD40P08000 Screw : 4mm x 8mm 6 AA 5- 8 PCUSUA461WRP0 Cushion 1 AB 5- 9 PCUSUA553WRPZ Cushion 1 AC 5-10 PCUSUA554WRPZ Cushion 1 AB

5-11 GCOVHA417WRFZ Choke cover 1 AG

MISCELLANEOUS

6- 1 FROLPA079WRK0 Turntable support 1 AQ 6- 2 NTNT-A079WRF0 Turntable tray 1 AR 6- 3 FW-VZB758WRE0 Main wire harness 1 AT 6- 4 FW-VZB752WRE0 Switch harness 1 AG

6- 5 PZET-A012WRE0 Terminal insulator 1 AB 6- 6 TCAUHA214WRR0 Caution label 1 AC 6- 7 TSPCND107WRRZ Rating label 1 AF 6- 8 TINSEA900WRRZ Instruction book 1 AN 6- 9 LHLDWA011WRE0 Purse lock M 1 AB

6-10 TLABMA733WRRZ Menu label 1 AH

SCREWS,NUTS AND WASHERS

7- 1 XHPSD40P08K00 Screw : 4mm x 8mm 8 AA 7- 2 XHPSD30P06000 Screw : 3mm x 6mm 3 AA 7- 3 XHTSD40P08RV0 Screw : 4mm x 8mm 7 AA 7- 4 XOTSE40P08000 Screw : 4mm x 8mm 1 AA

7- 5 XOTSD40P12RV0 Screw : 4mm x 12mm 13 AA 7- 6 XOTSD40P12000 Screw : 4mm x 12mm 10 AA 7- 7 LX-CZ0052WRE0 Special screw 2 AA 7- 8 XHPSD40P08000 Screw : 4mm x 8mm 4 AA

Page 37

R-380E

23456

123456

OVEN AND CABINET PARTS

4-15

7-5

1-10

2-1

4-13

4-18

1-11

7-2

4-14

4-2

4-22

6-4

7-6

1-12

7-1

7-5

1-7

1-8

4-10

4-16

1-6

7-1

2-3

7-5

7-6

1-9

4-6

1-3

1-2

1-17

1-15

7-7

7-6

4-23

4-9

1-16

7-2

1-13

7-3

4-8

4-4

4-15

4-18

7-6

1-4

4-7

4-11

7-3

7-6

4-25

7-4

4-25

4-24

7-8

7-6

4-19

4-12

6-10

6-2

6-1

4-1

7-6

2-4

4-20

7-3

1-5

7-1

4-5

2-2

7-1

4-3

7-3

1-1

7-1

1-14

7-3

7-6

1-18

1-5

6-6

4-17

7-1

4-21

4-26

Page 38

R-380E

23456

123456

CONTROL PANEL PARTS

MISCELLANEOUS

DOOR PARTS

3-2

3-1

3-5

3-4

3-6

3-3-1

3-6

3-3

6-7

Actual wire harness may be different from illustration.

6-3

6-5

6-9

5-11

5-1

5-3

5-4

5-7

5-6

5-7

5-2

5-5

5-10

5-9

5-8

6-4

Page 39

R-380E

PACKING AND ACCESSORIES

DOOR PROTECTION SHEET SPADPA204WRE0

TOP PAD ASSEMBLY FPADBA428WRKZ

PLASTIC BAG SSAKHA034WREZ

Not replaceable items.

PACKING CASE SPAKCD624WREZ

BOTTOM PAD ASSEMBLY FPADBA429WRKZ

6- 2 TURNTABLE TRAY

6- 8 INSTRUCTION BOOK & PRINTING MATTER

6- 1 TURNTABLE SUPPORT

TRAY PACK SPADFA451WRE0

INTO THE OVEN CAVITY

Page 40

R-380E

2001SHARP CORP. (7K0.300E) Printed in Australia