Sharp R930AK - 1.5 CF 900 Watts Convection Sensor Interactive, Charcoal, R-930AK, R-930AW Service Manual

R-930AK R-930AW

In the interest 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

CONVECTION

MICROWAVE OVEN

Page PRECAUTIONS TO BE OBSERVED BEFORE AND DURING SERVICE TO

AVOID POSSIBLE EXPOSURE TO EXCESSIVE MICROWAVE ENERGY ...................INSIDE FRONT COVER

BEFORE SERVICING ...........................................................................................................................................1

MICROWAVE MEASUREMENT PROCEDURE ...................................................................................................2

FOREWORD.......................................................................................................................................................... 3

PRODUCT SPECIFICATIONS ..............................................................................................................................4

GENERAL INFORMATION................................................................................................................................... 4

OPERATION..........................................................................................................................................................6

TROUBLESHOOTING GUIDE ............................................................................................................................13

TEST PROCEDURE ............................................................................................................................................14

TOUCH CONTROL PANEL .................................................................................................................................21

COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE ................................................................27

PICTORIAL DIAGRAM ........................................................................................................................................33

CONTROL PANEL CIRCUIT ...............................................................................................................................34

PRINTED WIRING BOARD .................................................................................................................................35

PARTS LIST ........................................................................................................................................................36

PACKING AND ACCESSORIES .........................................................................................................................39

R-930AK R-930AW

S6710R930APW/

MODELS

R-930AW

SER VICE MANU AL

SHARP ELECTRONICS CORPORATION

Service Headquarters: Sharp Plaza, Mahwah, New Jersey 07430-2135

MIX CONV DEFROST SENSOR

COOKLBS OZ KG HELP

Interactive

Convection

CUSTOM

HELP

MINUTE

PLUS

COMPU

DEFROST

SENSOR

COOKT

COMPU

BROIL

COMPU

ROAST

COMPU

BAKE

PREHEAT CONVEC BROIL

SLOW COOK

KITCHEN

TIMER

POWER LEVEL

ST OP

TCLEAR

START

TOUCH ON

CLOCK

LOW MIX

BAKE

HIGH MIX



ROAST

POPCORN

ELEVATE PKG

SENSOR REHEAT

12345

1 Baked potatoes 2 Frozen vegetables 3 Fresh veg-soft 4 Fresh veg-hard 5 Frozen entrees 6 Hot dogs 7 Bacon 8 Fish, seafood

1 Hamburgers 2 Chicken pieces 3 Steaks 4 Fish steaks 1 Chicken 2 Turkey 3 Turkey breast 4 Pork 1 Bundt cake 2 Cookies 3 Muffins 4 French fries

100˚F 150˚F 275˚F 300˚F 325˚F

67890

350˚F 375˚F 400˚F 425˚F 150˚F

SMART & EASY

CONVECTION

R-930AK R-930AW

PRECAUTIONS TO BE OBSERVED BEFORE AND DURING SERVICING TO AVOID POSSIBLE EXPOSURE TO EXCESSIVE MICROWAVE ENERGY

(a) Do not operate or allow the oven to be operated with the door open. (b) Make the following safety checks on all ovens to be serviced before activating the magnetron or other

microwave source, and make repairs as necessary: (1) interlock operation, (2) proper door closing, (3) seal and sealing surfaces (arcing, wear, and other damage), (4) damage to or loosening of hinges and latches, (5) evidence of dropping or abuse.

compartments, check the magnetron, wave guide or transmission line, and cavity for proper alignment, integrity, and connections.

(d) Any defective or misadjusted components in the interlock, monitor, door seal, and microwave

generation and transmission systems shall be repaired, replaced, or adjusted by procedures described in this manual before the oven is released to the owner.

(e) A microwave leakage check to verify compliance with the Federal Performance Standard should be

performed on each oven prior to release to the owner.

R-930AK R-930AW

BEFORE SERVICING

Before servicing an operative unit, perform a microwave emission check as per the Microwave Measurement Procedure outlined in this service manual. If microwave emissions level is in excess of the specified limit, contact SHARP ELECTRONICS CORPORATION immediately 1- (800) 237-4277.

If the unit operates with the door open, service person should 1) tell the user not to operate the oven and 2) contact SHARP ELECTRONICS CORPORATION and Food and Drug Administration's Center for Devices and Radiological Health immediately.

Service personnel should inform SHARP ELECTRONICS CORPORATION of any certified unit found with emissions in excess of 4mW/cm2. The owner of the unit should be instructed not to use the unit until the oven has been brought into compliance.

R-930AK R-930AW

MICROWAVE MEASUREMENT PROCEDURE

A. Requirements:

1) Microwave leakage limit (Power density limit): The power density of microwave radiation emitted by a microwave oven should not exceed 1mW/cm2 at any point 5cm or more from the external surface of the oven, measured prior to acquisition by a purchaser, and thereafter (through the useful life of the oven), 5 mW/cm2 at any point 5cm or more from the external surface of the oven.

2) Safety interlock switches Primary interlock relay and door sensing switch shall prevent microwave radiation emission in excess of the requirement as above mentioned, secondary interlock switch shall prevent microwave radiation emission in excess of 5 mW/cm2 at any point 5cm or more from the external surface of the oven.

B. Preparation for testing: Before beginning the actual measurement of leakage, proceed as follows:

1) Make sure that the actual instrument is operating normally as specified in its instruction booklet. Important:

Survey instruments that comply with the requirement for instrumentation as prescribed by the performance standard for microwave ovens, 21 CFR 1030.10(c)(3)(i), must be used for testing.

2) Place the oven tray in the oven cavity.

3) Place the load of 275±15 ml (9.8 oz) of tap water initially at 20±5˚C (68˚F) in the center of the oven cavity.

The water container shall be a low form of 600 ml (20 oz) beaker with an inside diameter of approx. 8.5 cm (3-1/2 in.) and made of an electrically nonconductive 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) Set the cooking control on Full Power Cooking Mode

5) Close the door and select a cook cycle of several minutes. If the water begins to boil before the survey is completed,

replace it with 275 ml of cool water.

C. Leakage test:

Closed-door leakage test (microwave measurement)

1) Grasp the probe of the survey instrument and hold it perpendicular to the gap between the door and the body of the oven.

2) Move the probe slowly, not faster than 1 in./sec. (2.5 cm/sec.) along the gap, watching for the maximum indication on the meter.

3) Check for leakage at the door screen, sheet metal seams and other accessible positions where the continuity of the metal has been breached (eg., around the switches, indicator, and vents). While testing for leakage around the door pull the door away from the front of the oven as far as is permitted by the closed latch assembly.

4) Measure carefully at the point of highest leakage and make sure that the highest leakage is no greater than 4mW/cm2, and that the secondary interlock switch does turn the oven OFF before any door movement.

NOTE: After servicing, record data on service invoice and microwave leakage report.

R-930AK R-930AW

SERVICE MANUAL

CONVECTION

MICROWAVE OVEN

R-930AK / R-930AW

FOREWORD

This Manual has been prepared to provide Sharp Electronics Corp. Service Personnel with Operation and Service Information for the SHARP CONVECTION MICROWAVE OVENS R930AK / R-930AW.

It is recommended that service personnel carefully study the entire text of this manual so that they will be qualified to render satisfactory customer service.

Check the interlock switches and the door seal carefully. Special attention should be given to avoid electrical shock and microwave radiation hazard.

SHARP ELECTRONICS CORPORATION

SHARP PLAZA, MAHWAH,

NEW JERSEY 07430-2135

PRODUCT DESCRIPTION

GENERAL INFORMATION

OPERATION

TROUBLESHOOTING GUIDE AND TEST PROCEDURE

TOUCH CONTROL PANEL

COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE

WIRING DIAGRAM

PARTS LIST

R-930AK R-930AW

SPECIFICATION

ITEM DESCRIPTION

Power Requirements 120 Volts

13.0 Amperes (Microwave) / 13.0 Amperes (Convection) 60 Hertz / Single phase, 3 wire grounded

Power Output 900 watts (IEC 705 Test Procedure)

Operating frequency of 2450MHz Convection Power Output 1450 Watts Case Dimensions Width 24-5/8" Height 14-7/8" Depth 19-1/8" Cooking Cavity Dimensions

(1.5 Cubic Feet ) Width 16-1/8" Height 9-5/8" Depth 16-1/8" Control Complement Touch Control System

Timer (0 - 99 min. 99 seconds)

Microwave Power for Variable Cooking

Repetition Rate;

P-HI...........................................Full power throughout the cooking time

P-90 .............................................................approx. 90% of Full Power

P-80 .............................................................approx. 80% of Full Power

P-70 .............................................................approx. 70% of Full Power

P-60 .............................................................approx. 60% of Full Power

P-50 .............................................................approx. 50% of Full Power

P-40 ..............................................................approx. 40% of Full Power

P-30 ..............................................................approx. 30% of Full Power

P-20 .............................................................approx. 20% of Full Power

P-10 ..............................................................approx. 10% of Full Power

P-0 ............................................. No power throughout the cooking time

Convection Temperature for Variable Cooking

CONVECTION.............................................. 100 - 450˚F Temp. control

LOW MIX. BAKE...............................350˚F with 10% microwave power

HIGH MIX. ROAST...........................300˚F with 30% microwave power

SLOW COOK..........................................300˚F for 4 hours (no preheat)

BROIL............................................................................450˚F (preheat)

CUSTOM HELP pad, SENSOR REHEAT pad, MINUTE PLUS pad, POPCORN pad

COMPU DEFROST pad, SENSOR COOK pad, COMPU BROIL pad

COMPU ROAST pad, COMPU BAKE pad, REHEAT pad, CONVEC pad

BROIL pad, SLOW COOK pad, HIGH MIX / ROAST pad, LOW MIX / BAKE pad

Number and temperature selection pads, KITCHEN TIMER pad, CLOCK pad

STOP/CLEAR pad, POWER LEVEL pad, START / TOUCH ON pad

Oven Cavity Light Yes Safety Standard UL Listed FCC Authorized

DHHS Rules, CFR, Title 21, Chapter 1, Subchapter J

GENERAL INFORMATION

GROUNDING INSTRUCTIONS

This oven is equipped with a three prong grounding plug. It must be plugged into a wall receptacle that is properly installed and grounded in accordance with the National Electrical Code and local codes and ordinances. In the event of an electrical short circuit, grounding reduces the risk of electric shock by providing an escape wire for the electric current.

WARNING: Improper use of the grounding plug can result in a risk of electric shock.

R-930AK R-930AW

Electrical Requirements The electrical requirements are a 115 -120 volt 60 Hz, AC only, 15 or 20 amp. fused electrical supply. It is recommended that a separate circuit serving only this appliance be provided. When installing this appliance, observe all applicable codes and ordinances. A short power-supply cord is provided to reduce risks of becoming entangled in or tripping over a longer cord. Where a two-pronged wall-receptacle is encountered, it is the personal responsibility and obligation of the customer to contact a qualified electrician and have it replaced with a properly grounded three-pronged wall receptacle or have a grounding adapter properly grounded and polarized. If an extension cord must be used, it should be a 3-wire, 15 amp. or more cord. Do not drape over a countertop or table where it can be pulled on by children or tripped over accidentally.

3-Pronged Plug

Grounded Receptacle Box

Grounding Pin

3-Pronged Receptacle

CAUTION: DO NOT UNDER ANY CIRCUMSTANCES CUT OR REMOVE THE ROUND GROUNDING PRONG FROM THIS PLUG.

OVEN DIAGRAM

1. Ventilation openings. (Rear side)

2. Oven door with see-through window.

3. Oven lamp.

4. Turntable support.

5. Removable turntable. The turntable will rotate clockwise or counterclockwise.

6. Safety door latches. The oven will not operate unless the door is securely closed.

TOUCH CONTROL PANEL

MIX CONV DEFROST SENSOR

COOK LBS OZ KG HELP

7. Wave guide cover.

8. Door open button.

9. Auto-Touch control panel.

10. Lighted digital display.

11. Convection air openings.

12. Removable low rack. (Broiling trivet)

13. Removable low rack. (Baking rack)

14. Turntable motor shaft.

15. Power supply cord.



11 6

Interactive

Convection

CUSTOM

HELP

MINUTE

PLUS

COMPU

DEFROST

SENSOR

COOKT

COMPU

BROIL

COMPU

ROAST

COMPU

BAKE

PREHEAT CONVEC BROIL

SLOW COOK

KITCHEN

TIMER

POWER

LEVEL

ST OP

TCLEAR

START

TOUCH ON

CLOCK

LOW MIX

BAKE

HIGH MIX



ROAST

POPCORN

ELEVATE PKG

SENSOR

REHEAT

12345

1 Baked potatoes 2 Frozen vegetables 3 Fresh veg-soft 4 Fresh veg-hard 5 Frozen entrees 6 Hot dogs 7 Bacon 8 Fish, seafood

1 Hamburgers 2 Chicken pieces 3 Steaks 4 Fish steaks

1 Chicken 2 Turkey 3 Turkey breast 4 Pork

1 Bundt cake 2 Cookies 3 Muffins 4 French fries

100˚F 150˚F 275˚F 300˚F 325˚F

67890

350˚F 375˚F 400˚F 425˚F 150˚F

R-930AK R-930AW

OPERATION

DESCRIPTION OF OPERATING SEQUENCE

The following is a description of component functions during oven operation.

OFF CONDITION

Closing the door activates the door sensing switch and secondary interlock switch. (In this condition, the monitor switch contacts are opened.) When oven is plugged in, 120 volts A.C. is supplied to the control unit. (Figure O-1).

1. The display will show "SHARP SIMPLY THE BEST PRESS CLEAR AND PRESS CLOCK". To set any program or set the clock, you must first touch the STOP/CLEAR pad. The display will clear, and " : " will appear.

NOTE: When the door is opened, the oven lamp comes on.

2. A signal is input to the control unit, energizing the coil of shut-off relay (RY-4). RY4 contacts close, completing a circuit to the damper motor. The damper motor now operates moving the damper to the open position, thereby closing the contacts of the damper switch inputs a signal to the control unit. The coil of relay RY-4 is de-energized, opening its contacts, thereby turning off the damper motor.

COOKING CONDITION

Program desired cooking time Variable Cooking Control by touching the NUMBER pads and the power level pad. When the START pad is touched, the following operations occur:

1. The contacts of relays are closed and components connected to the relays are turned on as follows. (For details, refer to Figure O-2)

RELAY CONNECTED COMPONENTS RY-1 Oven lamp/Turntable motor RY-2 Power transformer RY-3 Heating element RY-4 Damper motor RY-5 Convevtion motor RY-6 Fan motor

2. 120 volts A.C. is supplied to the primary winding of the power transformer and is converted to about 3 volts A.C. output on the filament winding, and approximately 2360 volts A.C. on the high voltage winding.

3. The filament winding voltage heats the magnetron filament and the H.V. winding voltage is sent to a voltage doubler circuit.

4. The microwave energy produced by the magnetron is channelled through the waveguide into the cavity feedbox, and then into the cavity where the food is placed to be cooked.

5. Upon completion of the cooking time, the power transformer, oven lamp, etc. are turned off, and the generation of microwave energy is stopped. The oven will revert to the OFF condition.

6. When the door is opened during a cook cycle, monitor switch, door sensing switch, the primary interlock relay and the secondary interlock switch are activated with the

following results. The circuits to the turntable motor, the cooling fan motor, and the high voltage components are de-energized, the oven lamp remains on, and the digital read-out displays the time still remaining in the cook cycle when the door was opened.

7. The monitor switch is electrically monitoring the operation of the primary interlock relay and the secondary interlock switch and is mechanically associated with the door so that it will function in the following sequence.

(1)When the door opens from a closed position, the primary

interlock relay and the secondary interlock switch open their contacts, and then the monitor switch contacts close.

(2) When the door is closed from the open position, the

monitor switch contacts first open, and then the contacts of the primary interlock relay and the secondary interlock switch close.

If the primary interlock relay and the secondary interlock switch fail with their contacts closed when the door is opened, the closing of the monitor switch contacts will form a short circuit through the monitor fuse, primary interlock relay and the secondary interlock switch, causing the monitor fuse to blow.

POWER LEVEL P-0 TO P-90 COOKING

When Variable Cooking Power is programmed, the 120 volts A.C. is supplied to the power transformer intermittently through the contacts of relay (RY-2). RY-2 is operated by the control unit within an varying time base. Microwave power operation is as follows:

VARI-MODE ON TIME OFF TIME Power 10(P-HI) 32 sec. 0 sec.

(100% power) Power 9(P-90) 30 sec. 2 sec.

(approx. 90% power) Power 8(P-80) 26 sec. 6 sec.

(approx. 80% power) Power 7(P-70) 24 sec. 8 sec. (approx. 70% power)

Power 6(P-60) 22 sec. 10 sec. (approx. 60% power)

Power 5(P-50) 18 sec. 14 sec. (approx. 50% power)

Power 4(P-40) 16 sec. 16 sec. (approx. 40% power)

Power 3(P-30) 12 sec. 20 sec. (approx. 30% power)

Power 2(P-20) 8 sec. 24 sec. (approx. 20% power)

Power 1(P-10) 6 sec. 26 sec. (approx. 10% power)

Power 0(P-0) 0 sec. 32 sec. (0% power)

Note: The ON/OFF time ratio does not correspond with

the percentage of microwave power, because approx. 2 seconds are needed for heating of the magnetron filament.

R-930AK R-930AW

CONVECTION COOKING CONDITION

PREHEATING CONDITION

Program desired convection temperature by touching the CONVECTION pad and the Temperature pad. When the START pad is touched, the following operations occur:

1. The coil of shut-off relays (RY1, RY3,RY5 and RY6) are energized, the oven lamp, cooling fan motor, turntable motor and convection motor are turned on.

2. The coil of relay (RY4) is energized by the control unit. The damper is moved to the closed position, opening the damper switch contacts. The opening of the damper switch contacts sends a signal to the LSI on the control unit de-energizing the relay (RY4) and opening the circuit to the damper motor.

3. The coil of heater relay (RY3) is energized by the control unit and the main supply voltage is applied to the heating element.

4. When the oven temperature reaches the selected preheat temperature, the following operations occur: 4-1 The heater relay is de-energized by the control unit

temperature circuit and thermistor, opening the circuit to the heating element.

4-2. The oven will continue to function for 30 minutes,

turning the heater on and off, as needed to maintain the selected preheat temperature. The oven will shut-down completely after 30 minutes

CONVECTION COOKING CONDITION

When the preheat temperature is reached, a beep signal will sound indicating that the holding temperature has been reached in the oven cavity. Open the door and place the food to be cooked in the oven. Touch the CONVEC pad first and then touch the Temperature pad. And program desired cooking time by touching the Number pads. When the START pad is touched, the following operations occur:

1. The numbers on the digital read-out start to count down to zero.

2. The oven lamp, turntable motor, cooling fan motor and convection motor are energized.

3. Heater relay (RY3) is energized (if the cavity temperature is lower than the selected temperature) and the main supply voltage is applied to the heating element to return to the selected cooking temperature.

4. Upon completion of the cooking time, the audible signal will sound, and oven lamp, turntable motor, cooling fan motor and convection motor are de-energized. At the end of the convection cycle, if the cavity air temperature is above 275˚F, the circuit to RY6 will be maintained (by the thermistor circuit) to continue operation of the cooling fan motor until the temperature drops below 245˚F, at which time the relay will be de-energized, turning off the fan motor. Relay RY5 will however, open as soon as the convection cycle has ended, turning off the convection fan motor.

5. At the end of the convection cook cycle, shut-off relay (RY4) is energized turning on the damper motor. The damper is returned to the open position, closing the damper switch contacts which send a signal to the control unit, de-energizing shut-off relay (RY4).

AUTOMATIC MIX COOKING CONDITION

Touch the HIGH MIX/ROAST or the LOW MIX/BAKE pad

first. And then program desired cooking time by touching the Number pads. The LOW MIX/BAKE pad is preprogrammed for 350˚F with 10% microwave power, while the HIGH MIX/ ROAST pad is preprogrammed for 300˚F with 30% microwave power. When the START pad is touched, the following operations occur:

1. The numbers on the digital read-out start to count down to zero.

2. The shut-off relays (RY1,RY2,RY3,RY5 and RY6) are energized, turning on the oven lamp, turntable motor, cooling fan motor and convection fan motor.

3. The shut-off relay (RY4) is energized. The damper door is closed from the open position.

4. The heater relay (RY3) is energized, applying the main supply voltage to the heating element.

5. Now, the oven is in the convection cooking condition.

6. When the oven temperature reaches the selected temperature, the following operations occur: 6-1. The power supply voltage is alternated to the heating

element and power transformer.

6-2. The heating element operates through the heater

relay (RY3) contacts and the power transformer operates through the primary interlock relay (RY2) contacts.

6-3. These are operated by the control unit to supply

alternately within a 32 second time base, convection heat and microwave energy.

The relationship between the convection and microwave power operations are as follows.

Note: The ON and OFF time ratio does not correspond

with the percentage of microwave power, because approx. 2 seconds are needed for heating of the magnetron filament.

12 SEC. 20 SEC.

32 SEC.

LOW MIX

BAKE

HIGH MIX

ROAST

MICROWAVE POWER

= APPROX. 30%

CONVECTION

TEMPERATUE

= 300˚F

MICROWAVE POWER

= APPROX. 10%

CONVECTION

TEMPERATUE

= 350˚F (180˚C)

26 SEC.6 SEC.

OFF

(MICRO.)

(CONVEC.)

(MICRO.)

(CONVEC.)

Note: During alternate Microwave/Convection operation,

the convection heater is energized only if the cavity temperature drops below the set temperature.

SENSOR COOKING CONDITION

Using the SENSOR COOK function, the foods are cooked 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.

R-930AK R-930AW

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.

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 SENSOR COOK pad.

NOTE: The oven should not be operated on SENSOR

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

2. Select desired Sensor setting.

3. Touch START pad. The coil of shut-off relay (RY1, RY6) is energized, the oven lamp and cooling fan motor are turned on, but the power transformer is not turned on.

4. 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.

5. 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.

6. 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.

7. 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.

COMPU BROIL/ COMPU ROAST/ COMPU BAKE

COMPU BROIL/ ROAST/ BAKE will automatically compute the oven temperature, microwave power and cooking time for baking, roasting and broiling. Set the desired program by touching the COMPU BROIL/ ROAST/ BAKE pad, and number pad. Enter the weight by touching the Number pads. When the START pad is touched, the following operations occur:

1. The COOK indicator will light and the Convection Fan Symbol will rotate.

2. The cooking time will appear on the display and start counting down to zero. The cooking time is adjusted automatically according to the weight of the food.

3. The shut-off relays (RY1, RY5 and RY6) are energized, turning on the oven lamp, turntable motor, cooling fan motor and convection motor. The power supply voltage is applied to the heating element.

4. Now, the oven is in the convection cooking mode.

5. When the oven temperature has reached the programmed convection temperature, the oven goes into the programmed cooking mode.

6. At the end of the COMPU BROIL/ ROAST/ BAKE cycle, the damper is returned to the open position and the oven will go to the off condition. The cooling fan will remain on until the oven has cooled.

COMPU DEFROST COOKING

The COMPU DEFROST key is a special function key to defrost meats and poultry faster and better. COMPU DEFROST automatically defrosts roast beef, etc.. When the COMPU DEFROST is selected and the food weight is entered by using the COMPU DEFROST pad, the oven will cook according to the special cooking sequence.

FIRE SENSING FEATURE (MICROWAVE MODE)

This model incorporates a sensing feature which will stop the oven's operation if there is a fire in the oven cavity during microwave cooking. This is accomplished by the LSI repeatedly measuring the voltage across the temperature measurement circuit (thermistor) during it's 32-seconds time base comparing the obtained voltage measurements. If the most recent voltage measured is 300mV greater than the previous voltage measured, the LSI judges it as a fire in the oven cavity and switches off the relays to the power transformer, fan motor and convection motor. The LSI also stops counting down and closes the damper door so that no fresh air will enter the oven cavity. Please refer to the following section for a more detailed description.

Operation

Please refer to the timing diagrams below.

1. The thermistor operates within a 32-seconds time base and it is energized for three (3) seconds and off for 29 seconds. Two (2) seconds after the thermistor is energized, the voltage across the temperature measurement circuit is sampled by the LSI and twenty one (21) seconds after the thermistor is cut off the LSI turns on the cooling fan for six (6) seconds.

2. The above procedure is repeated. If the difference between the first voltage measured (in step 1) and the voltage measured when the procedure is repeated (step

2) is greater than 300mV the LSI makes the judgment that there is a fire in the oven cavity and will switch off the relays to the power transformer, fan motor and convection motor. The LSI also stops counting down and closes the damper door so that no fresh air will enter the oven cavity.

3. Once the fire sensor feature has shut the unit down, the programmed cooking cycle may be resumed by pressing the "START" pad or the unit may be reset by pressing the "CLEAR" pad.

MICROWAVE

AH SENSOR

CONVECTION

MOTOR

THERMISTOR

Sensing 

Voltage

OFF

0 2 24 30 64 (sec.)

3 sec.

Sensing the voltage across the temperature measurement circuit.

6 sec.

32 (sec.)

R-930AK R-930AW

Figure O-2. Oven Schematic-Microwave Cooking Condition

IMPORTANT: During sensor cooking operation, the fire sensing operation sequence will not begin until the AH sensor has

SCHEMATIC

1. DOOR CLOSED.

2. COOKING TIME PROGRAMMED.

3. “START” PAD TOUCHED.

Figure O-1. Oven Schematic-OFF Condition

SCHEMATIC

NOTE: CONDITION OF OVEN

1. DOOR CLOSED.

2. CLOCK APPEARS ON DISPLAY.

detected vapors and initiated a sensor cooking cycle. This is because the operation of the convection fan would interfere with the AH sensor's vapor detection.

SCHEMATIC DIAGRAM

CONV. THERMAL CUT-OUT

MONITOR SWITCH

OVEN LAMP

FAN MOTOR

A-5

A-3

A-1

E-6

CONTROL UNIT

DAMPER SWITCH

THER- MISTOR

DOOR SENSING SWITCH

AH SENSOR

DAMPER MOTOR

CONVECTION MOTOR

TURNTABLE MOTOR

HEATIMG ELEMENT

MAGNETRON

POWER  TRANSFORMER

H.V. RECTIFIER

CAPACITOR

0.94µ

RY4

RY5

RY6

RY1

SECONDARY INTERLOCK SWITCH

OUTER CASE SWITCH

120V 60Hz

TTM

COM. (RY1)

E-5E-4E-3E-2E-1F-3F-2F-1

RY3

RY2 PRIMARY  INTERLOCK RERAY

N.O. (RY1)

COM. (RY3)

COM. (RY2)

N.O. (RY2)

N.O. (RY3)

A-9

A-7

MAGNETRON  TEMPERATURE FUSE

FUSE

RY2

CONV. THERMAL CUT-OUT

MONITOR SWITCH

OVEN LAMP

FAN MOTOR

A-5

A-3

A-1

E-6

CONTROL UNIT

DAMPER SWITCH

THER- MISTOR

DOOR SENSING SWITCH

AH SENSOR

DAMPER MOTOR

CONVECTION MOTOR

TURNTABLE MOTOR

HEATIMG ELEMENT

MAGNETRON

POWER  TRANSFORMER

H.V. RECTIFIER

CAPACITOR

0.94µ

RY4

RY5

RY6

RY1

SECONDARY INTERLOCK SWITCH

OUTER CASE SWITCH

120V 60Hz

TTM

COM. (RY1)

E-5E-4E-3E-2E-1F-3F-2F-1

RY3

RY2 PRIMARY  INTERLOCK RERAY

N.O. (RY1)

COM. (RY3)

COM. (RY2)

N.O. (RY2)

N.O. (RY3)

A-9

A-7

MAGNETRON  TEMPERATURE FUSE

FUSE

RY2

R-930AK R-930AW

SCHEMATIC

1. DOOR CLOSED.

2. CONVECTION PAD TOUCHED.

3. DESIRED TEMP. TOUCHED.

4. COOKING TIME PROGRAMMED.

5. “START” PAD TOUCHED.

SCHEMATIC

1. DOOR CLOSED.

2. MIX COOKING PAD TOUCHED.

3. COOKING TIME PROGRAMMED.

4. “START” PAD TOUCHED.

5. RY2 AND RY3 WILL ALTERNATELY CLOSE. DURING COOK CYCLE.

Figure O-4. Oven Schematic-Convection Cooking Condition

Figure O-3. Oven Schematic-Automatic Mix Cooking Condition

CONV. THERMAL CUT-OUT

MONITOR SWITCH

OVEN LAMP

FAN MOTOR

A-5

A-3

A-1

E-6

CONTROL UNIT

DAMPER SWITCH

THER- MISTOR

DOOR SENSING SWITCH

AH SENSOR

DAMPER MOTOR

CONVECTION MOTOR

TURNTABLE MOTOR

HEATIMG ELEMENT

MAGNETRON

POWER  TRANSFORMER

H.V. RECTIFIER

CAPACITOR

0.94µ

RY4

RY5

RY6

RY1

SECONDARY INTERLOCK SWITCH

OUTER CASE SWITCH

120V 60Hz

TTM

COM. (RY1)

E-5E-4E-3E-2E-1F-3F-2F-1

RY3

RY2 PRIMARY  INTERLOCK RERAY

N.O. (RY1)

COM. (RY3)

COM. (RY2)

N.O. (RY2)

N.O. (RY3)

A-9

A-7

MAGNETRON  TEMPERATURE FUSE

FUSE

RY2

CONV. THERMAL CUT-OUT

MONITOR SWITCH

OVEN LAMP

FAN MOTOR

A-5

A-3

A-1

E-6

CONTROL UNIT

DAMPER SWITCH

THER- MISTOR

DOOR SENSING SWITCH

AH SENSOR

DAMPER MOTOR

CONVECTION MOTOR

TURNTABLE MOTOR

HEATIMG ELEMENT

MAGNETRON

POWER  TRANSFORMER

H.V. RECTIFIER

CAPACITOR

0.94µ

RY4

RY5

RY6

RY1

SECONDARY INTERLOCK SWITCH

OUTER CASE SWITCH

120V 60Hz

TTM

COM. (RY1)

E-5E-4E-3E-2E-1F-3F-2F-1

RY3

RY2 PRIMARY  INTERLOCK RERAY

N.O. (RY1)

COM. (RY3)

COM. (RY2)

N.O. (RY2)

N.O. (RY3)

A-9

A-7

MAGNETRON  TEMPERATURE FUSE

FUSE

RY2

R-930AK R-930AW

OUTER CASE SWITCHES

The two outer case switches are mounted near the power supply cord at the oven cavity rear plate. When the outer case cabinet is installed with the screws, one of the screws pushes the actuator and then the actuator pushes each plungers of the two outer case switches and their contacts are closed. When a cabinet mounting screw which is pushing the actuator is removed, the two outer case switches interrupt the circuit to the all components.

WARNING

The circuit to all components can be connected to the power supply without the outer case cabinet by reinstalling the cabinet mounting screw. BUT AT THAT TIME, NEVER TOUCH ANY PARTS OF THE HIGH VOLTAGE CIRCUIT TO AVOID ELECTROCUTION.

OUTER CASE  CABINET

OUTER CASE SWITCHES

ACTUATOR

This outer case mounting screw is pushing the actuator.

THERMISTOR

The thermistor is a negative temperature coefficient type. The temperature in the oven cavity is detected through the resistance of the thermistor, and then the control unit causes the heater relay to operate, thus the current to the heating element is turned ON/OFF.

MAGNETRON TEMPERATURE FUSE.

The temperature fuse located on the waveguide is designed to prevent damage to the magnetron if an over heated condition develops in the megnetron due to cooling fan failure, obstructed air guide, dirty or blocked air intake, etc. Under normal operation, the temperature fuse remains closed. However, when abnormally high temperatures are reached within the magnetron, the temperature fuse will open at 302˚F(150˚C) causing the oven to shut down.

CONV. THERMAL CUT-OUT

The thermal cut-out located on the left side of the thermal protection plate (left) is designed to prevent damage to the heater unit if an over heated condition develops in the heating unit due to convection fan failure, thermistor failure, obstructed air ducts, dirty or blocked air intake, etc. Under normal operation, the thermal cut-out remains closed. However, when abnormally high temperatures are reached within the heater unit, the thermal cut-out will open at 302˚F(150˚C) causing the oven to shut down. When the thermal cut-out has cooled, the thermal cut-out closes at 266˚F(130˚C).

DOOR SENSING AND SECONDARY INTERLOCK SWITCHES

The door sensing switch in the primary interlock system is mounted in the upper position on the latch hook, the secondary interlock switch is mounted in the lower position on the latch hook. They are activated by the latch heads on the door. When the door is opened, the switches interrupt the circuit to all components. A cook cycle cannot take place until the door is firmly closed thereby activating both interlock switches. The primary interlock system consists of the door sensing switch and primary interlock relay located on the control circuit board.

DESCRIPTION AND FUNCTION OF COMPONENTS

Figure D-1. Door sensing switch, monitor switch and

secondary interlock switches

MONITOR SWITCH

The monitor switch is mounted on the middle position of latch hook. It is activated (the contacts opened) by the lower latch head while the door is closed. The switch is intended to render the oven inoperative by means of blowing the monitor fuse when the contacts of the primary interlock relay and secondary interlock switch fail to open when the door is opened.

Functions:

1. When the door is opened, the monitor switch contact

close (to the ON condition) due to their being normally closed. At this time the door sensing and secondary interlock switches are in the OFF condition (contacts open) due to their being normally open contact switches.

2. As the door goes to a closed position, the monitor switch

contacts are first opened and then the door sensing switch and the secondary interlock switch contacts close. (On opening the door, each of these switches operate inversely.)

3. If the door is opened, and the primary interlock relay and

secondary interlock switch contacts fail to open, the monitor fuse blows simultaneously with closing of the monitor switch contacts.

CAUTION: BEFORE REPLACING A BLOWN MONITOR

FUSE TEST THE DOOR SENSING SWITCH, PRIMARY INTERLOCK RELAY, SECONDARY INTERLOCK SWITCH AND MONITOR SWITCH FOR PROPER OPERATION. (REFER TO CHAPTER “TEST PROCEDURE”).

NOTE: MONITOR FUSE AND MONITOR SWITCH ARE

REPLACED AS AN ASSEMBLY.

DOOR SENSING SWITCH

MONITOR FUSE

MONITOR SWITCH

SECONDARY INTERLOCK SWITCH

R-930AK R-930AW

TROUBLESHOOTING GUIDE

When troubleshooting the microwave oven, it is helpful to follow the Sequence of Operation in performing the checks. Many of the possible causes of trouble will require that a specific test be performed. These tests are given a procedure letter which will be found in the “Test Procedure”section.

IMPORTANT: If the oven becomes inoperative because of a blown monitor fuse, check the monitor switch, primary interlock

relay, door sensing switch and secondary interlock switch before replacing the monitor fuse. If monitor fuse is replaced, the mintor switch must olso be replaced at the same time. Use part FFS-BA012WRK0 as an assembly.

HEATING ELEMENT

The heating element is located at the left side of the oven cavity. It is intended to heat air driven by the convection fan. The heated air is kept in the oven and force-circulated and reheated by the heating element.

CONVECTION COOKING SYSTEM

This oven is designed with a hot air heating system where food is not directly heated by the heating element, but is heated by forced circulation of the hot air produced by the heating element. The air heated by the heating element is circulated through the convection passage provided on the outer casing of the oven cavity by means of the convection fan which is driven by the convection motor. It then enters the inside of the oven through the vent holes provided on the left side of the oven. Next, the hot air heats the food on the turntable and leaves the oven cavity through the vent in the center of the oven cavity left side wall. Without leaving the oven, this hot air is reheated by the heating element, passes through the convection passage and enters the inside of the oven cavity again, in a continuing cycle. In this way, the hot air circulates inside the oven cavity to raise its temperature and, at the same time, comes into contact with the food being cooked. When the temperature inside the oven cavity reaches the selected temperature, the heating element is de-energized. When the temperature inside the oven cavity drops below the selected temperature, the heating element is energized again. In this way, the inside of the oven cavity is maintained at approximately the selected temperature. When the convection time reaches 0, the heating element is de-energized and the convection fan stops operating and the oven shuts off.

DAMPER OPEN-CLOSE MECHANISM

Usually, the damper is in the open position except during convection cooking. Damper position is set automatically by damper motor, damper switch, motor cam and damper shaft. These components are operated by a signal that judges if microwave cooking or convection cooking operation is selected by the control unit.

Microwave Cooking:

Damper is in the open position, because a portion of cooling air is channelled through the cavity to remove steam and vapors given off from the heating foods. It is then exhausted at the top of the oven cavity into a condensation compartment. Convection Cooking:

Damper is in the closed position, so that no hot air will be allowed to leak out the oven cavity.

Damper Operation

1. When power supply cord is plugged in: 1-1. When power supply cord is plugged in, a signal is

sensed in the control unit, and operates shut-off relay (RY4).

1-2. Contacts of shut-off relay (RY4) close, the damper

motor is energized, opening the damper door.

1-3. When the damper is moved to the open position by

the damper cam the damper switch is closed (ON position).

1-4. The signal from damper switch is re-sensed in the

control unit and shut-off relay (RY4) is turned off.

1-5. The 120 volts A.C. to the damper motor is removed

and the motor turns off.

2. When oven is microwave cooking: Damper is in the open position.

3. When oven is convection cooking: 3-1. Damper motor is energized by touching the

convection, temperature and START pads.

3-2. When damper is in the closed position (damper

switch is OFF), its signal is sensed by the control unit, and shut-off relay (RY4) is de-energized.

3-3. The damper is held in the closed position during the

convection cooking operation.

3-4. At the end of the convection cooking, shut-off relay

(RY4) is energized, and the damper is returned to the open position.

NOTE: If the damper door is not in the proper position,

closed during convection or open during microwave, the control unit will stop oven operation after 1 minute.

DAMPER DUCT

DAMPER

DAMPER CAM

DAMPER MOTOR

DAMPER SWITCH

DAMPER SHAFT

Figure D-2. Damper Mechanism

R-930AK R-930AW

A MAGNETRON B POWER TRANSFORMER C H.V. RECTIFIER ASSEMBLY D HIGH VOLTAGE CAPACITOR E SECONDARY INTERLOCK SWITCH F PRIMARY INTERLOCK SYSTEM G MONITOR SWITCH H MONITOR FUSE

I MAGNETRON TEMPERATURE FUSE

J CONV. THERMAL CUT-OUT K CONVECTION HEATER L THERMISTOR M DAMPER MOTOR N DAMPER SWITCH P OUTER CASE SWITCH Q TOUCH CONTROL PANEL R KEY UNIT S RELAY RY-1 S RELAY RY-2 S RELAY RY-3 S RELAY RY-4 S RELAY RY-5 S RELAY RY-6 U FOIL PATERN ON PWB. V AH SENSOR

Replace OVEN LAMP OR SOCKET Replace FAN MOTOR Replace TURNTABLE MOTOR Replace CONVECTION MOTOR

Check LOOSE WIRING Check SHORTED IN POWER CORD Check NO POWER AT OUTLET Check LOW VOLTAGE

POSSIBLE CAUSE

AND

DEFECTIVE PARTS

TEST PROCEDURE

CONDITION

COOKING CONDITION

(MICROWAVE) (CONVECTION)

(SENSOR

COOKING)

OFF CONDITION

Home fuse blows when power cord is plugged into wall receptacle.

Monitor fuse blows when power cord is plugged into wall receptacle

88:88 does not appear in display when power cord is first plugged into

wall receptacle.

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

(The time of day should appear on the display with beep sound.)

Oven lamp does not light with door opened.

Oven lamp does not light in cook cycle. (It light when door is opened).

Cooking cycle runs 1 minute then shuts down.

Oven lamp light, but turntable motor does not operate.

Turntable motor operates normally but cooling fan motor does not

operate.

Oven does not go into a cook cycle, when START pad is touched.

Low or no power is produced during microwave cooking (The food is

heated incompletely or not heated at all)

Extremely uneven heating is produced in oven load (food).

Function of variable cooking does not operate properly except HIGH

power.

Function of COMPU DEFROST does not operate properly.

CONV indicator lights, but oven does not go into cook cycle when

START pad is touched.

CONV indicator lights, but heating element does not heat.

Temperature in the oven cavity is lower or higher than preset.

Cooling fan motor runs intermittently or all the time.

Convection cycle runs 4 minutes and 15 seconds then shuts down.

Oven in the sensor cooking condition but AH sensor does not end or AH

sensor turns off about max. 30 min. after start.

PROBLEM

R-930AK R-930AW

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT TEST

HIGH VOLTAGES ARE PRESENT DURING THE COOK CYCLE, SO EXTREME CAUTION SHOULD BE OBSERVED.

DISCHARGE THE HIGH VOLTAGE CAPACITOR BEFORE TOUCHING ANY OVEN COMPONENTS OR WIRING.

To test for an open filament, isolate the magnetron from the high voltage circuit. A continuity check across the magnetron filament leads should indicate less than 1 ohm.

To test for a shorted magnetron, connect the ohmmeter leads between the magnetron filament leads and chassis ground. This test should indicate an infinite resistance. If there is little or no resistance the magnetron is grounded and must be replaced.

Power output of the magnetron can be measured by performing a water temperature rise test. This test should only be used if above tests do not indicate a faulty magnetron and there is no defect in the following components or wiring: silicon rectifier, high voltage capacitor and power transformer. This test will require a 16 ounce (453cc) measuring cup and an accurate mercury thermometer or thermocouple type temperature tester. For accurate results, the following procedure must be followed carefully:

1. Fill the measuring cup with 16 oz. (453cc) of tap water and measure the temperature of the water with a thermometer or thermocouple temperature tester. Stir the thermometer or thermocouple through the water until the temperature stabilizes. Record the temperature of the water.

2. Place the cup of water in the oven. Operate oven at POWER HI(HIGH) selecting more than 60 seconds cook time. Allow the water to heat for 60 seconds, measuring with a stop watch, second hand of a watch or the digital read-out countdown.

3. Remove the cup from the oven and again measure the temperature, making sure to stir the thermometer or thermocouple through the water until the maximum temperature is recorded.

4. Subtract the cold water temperature from the hot water temperature. The normal result should be 22 to 43˚F(12.2 to 23.8˚C) rise in temperature. If the water temperatures are accurately measured and tested for the required time period the test results will indicate if the magnetron tube has low power output (low rise in water temperature) which would extend cooking time or high power output (high rise in water temperature) which would reduce cooking time. Because cooking time can be adjusted to compensate for power output, the magnetron tube assembly should be replaced only if the water temperature rise test indicates a power output well beyond the normal limits. The test is only accurate if the power supply line voltage is 120 volts and the oven cavity is clean.

A MAGNETRON ASSEMBLY TEST

B POWER TRANSFORMER TEST

DISCHARGE THE HIGH VOLTAGE CAPACITOR BEFORE TOUCHING ANY OVEN COMPONENTS OR WIRING.

Disconnect the primary input terminals and measure the resistance of the transformer with an ohmmeter. Check for continuity of the coils with an ohmmeter. On the R x 1 scale, the resistance of the primary coil should be less than 1 ohm and the resistance of the high voltage coil should be approximately 84.4 ohms; the resistance of the filament coil should be less than 1 ohm.

(HIGH VOLTAGES ARE PRESENT AT THE HIGH VOLTAGE TERMINAL, SO DO NOT ATTEMPT TO MEASURE THE FILAMENT AND HIGH VOLTAGE.)

C HIGH VOLTAGE RECTIFIER TEST

DISCHARGE THE HIGH VOLTAGE CAPACITOR BEFORE TOUCHING ANY OVEN COMPONENTS OR WIRING.

Isolate the rectifier from the circuit. Using the highest ohm scale of the meter, read the resistance across the terminals and observe, reverse the leads to the rectifier terminals and observe meter reading. If a short is indicated in both directions, or if an infinite resistance is read in both directions, the rectifier is probably defective and should be replaced.

D HIGH VOLTAGE CAPACITOR TEST

DISCHARGE THE HIGH VOLTAGE CAPACITOR BEFORE TOUCHING ANY OVEN COMPONENTS OR WIRING.

R-930AK R-930AW

If the capacitor is open, no high voltage will be available to the magnetron. Disconnect input leads and check for short or open between the terminals using an ohmmeter. Checking with a high ohm scale, if the high voltage capacitor is normal, the meter will indicate continuity for a short time and should indicate approximately 10 MΩ once the capacitor is charged. If the above is not the case, check the capacitor with an ohmmeter to see if it is shorted between either of the terminals and case. If it is shorted, replace the capacitor.

E SECONDARY INTERLOCK SWITCH TEST

Isolate the switch and connect the ohmmeter to the common (COM.) and normally open (NO) terminal of the switch. The meter should indicated an open circuit with the door open and a closed circuit with the door closed. If improper operation is indicated, replace the secondary interlock switch.

F PRIMARY INTERLOCK SYSTEM TEST

DOOR SENSING SWITCH Isolate the switch and connect the ohmmeter to the common (COM.) and normally open (NO) terminal of the switch, the meter should indicated an open circuit with the door open and a closed circuit with the door closed. If improper operation is indicated, replace the door sensing switch.

PRIMARY INTERLOCK RELAY Disconnect two (2) wire leads from the common (COM.) and normally open (NO) terminal of the primary Interlock relay (RY2). Check the state of the relay contacts using a ohmmeter. The relay contacts should be open. If the relay contacts are closed, replace the relay itself.

G MONITOR SWITCH

Disconnect the oven from power supply. Before performing this test, make sure that the secondary interlock switch and the primary interlock relay are operating properly, according to the above Test Procedures. Disconnect the wire lead from the monitor switch (NC) terminal. Check the monitor switch operation by using the ohmmeter as follows. When the door is open, the meter should indicate a closed circuit. When the monitor switch actuator is pushed by a screw driver through the lower latch hole on the front plate of the oven cavity with the door opened (in this condition the plunger of the monitor switch is pushed in), the meter should indicate an open circuit. If improper operation is indicated, the switch may be defective. After testing the monitor switch, re-connect the wire lead to the monitor switch (NC) terminal and check for continuity of monitor circuit.

SCREW DRIVER

MONITOR SWITCH

OHMMETER

SECONDARY INTERLOCK SWITCH

COM.

N.C.

H BLOWN MONITOR FUSE

If the monitor fuse is blown when the door is opened, check the primary interlock relay, secondary interlock switch, door sensing switch and monitor switch according to the "TEST PROCEDURE" for those switches before replacing the blown monitor fuse.

CAUTION: BEFORE REPLACING A BLOWN MONITOR FUSE, TEST THE PRIMARY INTERLOCK

RELAY, SECONDARY INTERLOCK SWITCH, DOOR SENSING SWITCH AND MONITOR SWITCH FOR PROPER OPERATION.

If the monitor fuse is blown by improper switch operation, the monitor fuse and switch must be replaced with "monitor fuse and switch assembly" part number FFS-BA012WRK0, even if the monitor switch operates normally. The monitor fuse and switch assembly is packed with 20 ampere fuse and switch.

I TEMPERATURE FUSE TEST

A continuity check across the temperature fuse terminals should indicate a closed circuit unless the temperature of the magnetron reaches approximately 302˚F (150˚C). If the temperature fuse has opened, replace the temperature fuse.

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT TEST

R-930AK R-930AW

J THERMAL CUT-OUT TEST

A continuity check across the thermal cut-out terminals should indicate a closed circuit unless the temperature of thermal cut-out reaches 302˚F(150˚C). The thermal cut-out resets automatically at approximately 266˚F(130˚C). If the thermal cut-out has opened under the normal condition, replace the same item as in the parts list. An open thermal cut-out indicates overheating of heater unit. Check for restricted air flow to the heater unit through the vent hole of the oven cavity, especially the heater duct and convection fan.

Make sure the heating element is fully cooled and test as follows; a. Disconnect wire leads and measure the resistance with an ohmmeter. On the R x 1 scale, the

resistance between the heating element terminals should be approximately 10.2Ω.

b. Disconnect wire leads and measure the insulation resistance with 500V - 100MΩ insulation

resistance meter. The insulation resistance between heating element terminal and cavity should be more than 0.5MΩ.

K HEATING ELEMENT TEST

Disconnect connector-E from the control unit. Measure the resistance of the thermistor with an ohmmeter. Connect the ohmmeter leads to Pin No’s E-3 and E-4.

L THERMISTOR TEST

M DAMPER MOTOR TEST

If the meter does not indicate above resistance, replace the thermistor

Room Temperature Resistance 68˚F(20˚C) - 86˚F(30˚C) Approx. 350kΩ - 155KΩ

When the power cord is plugged into the wall receptacle and 120 volts A.C. is supplied to the damper motor, the motor operates until the damper is opened and the damper switch closes. Then the damper motor stops operation. If the damper motor does not operate, check for A.C. voltage with a voltmeter at the motor.

1. Disconnect the power cord from the wall receptacle.

2. Disconnect the wire leads of motor and connect the meter leads to the wire leads of main wire harness.

3. Re-connect the power cord into the wall receptacle. If 120 volts A.C. is indicated at the wire leads, replace the motor and if 120 volts A.C. is not indicated, check the wire harness and control unit.

Disconnect the wire leads from the switch terminals and connect ohmmeter leads to the common (COM.) and normally open (N.O.) terminals of the switch.

1. When switch actuator is pushed by the damper motor cam, the meter should be indicated a closed circuit.

2. When power cord is plugged into the wall receptacle, the damper motor operates and damper cam will start to rotate. When the switch actuator is released, the meter should be indicated an open circuit. If improper operation is indicated, replace the damper switch.

N DAMPER SWITCH TEST

O CHECKING TEMPERATURE IN THE CONVECTION MODE

It is difficult to measure the exact temperature in the convection oven. An accurate thermocouple type temperature tester must be used. A low priced bi-metal type thermometer is not reliable or accurate. The temperature should be checked with outer case cabinet installed, approx. 5 minutes after preheat

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT TEST

An open temperature fuse indicates overheating of the magnetron assembly, check for restricted air flow to the magnetron through the opening in the chassis, especially the cooling duct and cooling fan.

R-930AK R-930AW

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 connecter). Use the key unit matrix indicated on the control panel schematic and place a jumper wire between the pins that correspond to the STOP/CLEAR pad making momentary contact.

Q 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 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. Replace the control unit.

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) All digits in the figure 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. d) Proper temperature measurement is not obtained.

Note: When defective components, the Control Unit or Key Unit are replaced, the defective part or parts

must be properly packed for return in the shipping carton, with its cushion material, in which the new replacement part was shipped to you.

R KEY UNIT TEST

P OUTER CASE SWITCH TEST

Isolate the switch and connect the ohmmeter to the common (COM.) and normally open (NO) terminal of the switch. The meter should indicated an open circuit when its plunger is release, and a closed circuit when its plunger is pushed. If improper operation is indicated, replace the outer case switch.

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT TEST

temperature is reached (audible signal sounds four times). The temperature experienced may be approx. 30˚F more or less than indicated on the display, however, in most cases the food cooking results will be satisfactory. Difference in power supply voltage will also affect the oven temperature. The Household power supply voltage may sometimes become lower than the rated voltage (120 V) and cause under-cooking. If the power supply voltage is 10% lower than the rated voltage, longer cooking time is required by 10% to 20%.

R-930AK R-930AW

T COMPU DEFROST TEST

(1) Place one cup of water in the center of the turntable tray in the oven cavity. (2) Close the door, touch the "COMPU DEFROST" pad twice and touch the Number pad "5". And then touch

the "START" pad. (3) After 2 sec. Now the oven is in COMPU DEFROST cooking condition. (4) The oven will operate as follows.

WEIGHT 1ST STAGE 2ND STAGE 3RD STAGE 4TH STAGE

LEVEL TIME LEVEL TIME LEVEL TIME LEVEL TIME

0.5lbs 70% 47sec. 0% 52sec. 50% 32sec. 30% 40sec.

(5) If improper operation is indicated, the control unit is probably defective and should be checked.

S RELAY TEST

Remove the outer case and check voltage between Pin Nos. 7 and 9 of the 9- pin connector (A) on the control unit an A.C. voltmeter. The meter should indicate 120 volts, if not check the oven circuitry.

Shut-off, Cook and Heater 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 or convection 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. 19.0V D.C. Oven lamp / Turntable motor RY2(COOK) Approx. 18.0V D.C. Power transformer RY3(HEATER) Approx. 18.0V D.C. Heating element RY4 Approx. 19.0V D.C. Damper motor RY5 Approx. 19.0V D.C. Convection motor

RY6 Approx. 19.0V D.C. Cooling fan motor

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT TEST

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 a 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.

G 1

G 2

G 3

G 4

G 5 G 6 G 7 G 8 G 9 G10 G11 G12

STOP

CLEAR

SENSOR

REHEAT

LOW MIX

BAKE

SLOW COOK

CUSTOM

HELP

KITCHEN

TIMER

POWER

LEVEL

CLOCK

MINUTE

PLUS

COMPU

DEFROST

COMPU

BROIL

COMPU

ROAST

COMPU

BAKE

BROIL

SENSOR

COOK

POPCORN

350˚F 375˚C 400˚F 425˚F 450˚F

67890

100˚F 150˚F 275˚F 300˚F 325˚F

12345

CONVEC

PREHEAT

START

TOUCH ON

HIGH MIX

ROAST

o 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.

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

(PWB) IS OPEN.

R-930AK R-930AW

V AH SENSOR TEST

Checking the initial sensor cooking condition

(1) The oven should be plugged in at least two minutes before sensor cooking. (2) Room temperature should not exceed 95˚F (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".

(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 vapour given of by the spray and turn off before food is properly cooked.

(8) After 30 minutes if the sensor has not detected the vapour of the food, ERROR will appear and the

oven will shut off.

Water load cooking test

Make sure the oven has been plugged in at least five minutes before checking sensor cook operation. The cabinet should be installed and screws tightened. (1) Fill approximately 200 milliliters (7.2 oz) 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 SENSOR COOK pad and number pad 1. Now, the oven is in the sensor cooking condition and

"BAKED POTATO" will appear in the display.

(5) Touch Start pad. The oven will operate for the first 16 seconds, without generating microwave energy. When the AH sensor is defective (open or short), Error will appear in the display after 16 seconds cleaning

time. If ERROR appears check sensor wire connections and/or AH sensor.

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT TEST

Problem: POWER ON, indicator does not light up.

STEPS OCCURRENCE CAUSE OR CORRECTION

1 The rated voltage is not applied to POWER Check supply voltage and oven power cord.

terminal of CPU connector (CN-A).

2 The rated voltage is applied to primary side Power transformer or secondary circuit defective.

of power 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 an ohmmeter for the presence of layer short-circuit (check the primary coil resistance which is approximately 175Ω ± 10%). If any abnormal condition is detected, replace the defective parts.

357 9

CN - A

VRS1

CONV M FAN M POWER

(J1)

R-930AK R-930AW

Plunger

NC NO

COM

R3 R4

1 2 3

F-1 F-2

F-3

To connector (F) on Control Unit.

CONNECTOR

TEST PROCEDURES

PROCEDURE

LETTER

COMPONENT TEST

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, and the display should start to count

down the remaining cooking time and oven should turn off after water is boiling (bubbling). If the oven does not turn off, replace the AH sensor or check the control unit, refer to explanation below.

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 oven from power supply and remove outer case. (2) Discharge the high voltage capacitor. (3) Remove the AH sensor. (4) Install the new AH sensor. (5) Re-install the outer case. (6) Reconnect the oven to the power supply and check the sensor cook operation proceed as follows:

6-1. Fill approximately 200 milliliters (7.2 oz) of tap water in a 1000 milliliter measuring cup. 6-2. Place the container on the center of tray in the oven cavity. 6-3. Close the door. 6-4. Touch SENSOR COOK pad and number 1 pad. 6-5. Touch Start pad. The control panel is in automatic Sensor operation. 6-6. The display will start to count down the remaining cooking time, and the oven will turn off

automatically after the water is boiling (bubbling).

If new sensor dose not operate properly, the problem is with the control unit.

CHECKING CONTROL UNIT

(1) Disconnect oven from power supply and remove outer case. (2) Discharge the high voltage capacitor. (3) Disconnect the wire leads from the cook relay. (4) Disconnect the sensor connector that is mounted to lower portion of control panel. (5) Then connect the dummy resistor circuit (see fig.) to the sensor connector of control panel. (6) Reconnect the oven to the power supply and check the sensor cook operation proceed as follows:

6-1. Touch SENSOR COOK pad and number 1 pad.

6-2. Touch Start pad. The control panel is in the sensor cooking operation.

6-3. After approximately 20 seconds, push plunger of select switch for more than 3 seconds. This

condition is same as judgement by AH sensor.

6-4. After approximately 3 seconds, the display shows " X X . X X " which is the remaining cooking

time, and the display count down. If the above is not the case, the control unit is probably defective. If the above is proper, the AH sensor is probably defective.

R1,R2 : 22Ω ± 1% 1/2W

R3 : 4.3kΩ ± 5% 1/4W

R4 : 1MΩ ± 5% 1/4W

Sensor Dummy Resistor Circuit

R-930AK R-930AW

The touch control section consists of the following units as shown in the touch control panel circuit.

(1) Key Unit (2) Control 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 P10 - P17 generated in the LSI are sent to the key unit. When a key pad is touched, a signal is completed through the key unit and passed back to the LSI through R24 - R27 to perform the function that was requested.

Control Unit

Control unit consists of LSI, power source circuit, synchronizing signal circuit, ACL circuit, buzzer circuit, temperature measurement circuit, absolute humidity sensor circuit and indicator circuit.

1) LSI

This LSI controls the temperature measurement signal, AH sensor signal, key strobe signal, relay driving signal for oven function and indicator signal.

2) Power Source Circuit

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

3) Synchronizing Signal Circuit

The power source synchronizing signal is available in order to compose a basic standard time in the clock circuit. It incorporates a very small error because it works on commercial frequency.

TOUCH CONTROL PANEL ASSEMBLY

OUTLINE OF TOUCH CONTROL PANEL

4) ACL Circuit

A circuit to generate a signals which resetting the LSI to the initial state when power is applied.

5) Buzzer Circuit

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

6) Temperature Measurement Circuit : (OVEN THERMISTOR)

The temperature in the oven cavity is sensed by the thermistor. The variation of resistance according to sensed temperature is detected by the temperature measurement circuit and the result applied to LSI. The LSI uses this information to control the relay and display units.

7) Absolute Humidity Sensor Circuit

This circuit detects the humidity of a food which is being cooked, to control its automatic cooking.

8) Door Sensing Switch

A switch to inform the LSI if the door is open or closed.

9) Relay Circuit

To drive the magnetron, heating element, fan motor, convection motor, damper motor, turntable motor and light the oven lamp.

10) Indicator Circuit

Indicator element is a Fluorescent Display. Basically, a Fluorescent Display is triode having a cathode, a grid and an anode. Usually, the cathode of a Fluorescent Display is directly heated and the filament serves as cathode. The Fluorescent Display has 8-digits, 16-segments are used for displaying figures.

R-930AK R-930AW

1 VCC IN Connected to GND. 2 VEE IN Anode (segment) of Fluorescent Display light-up voltage: -30V.

Vp voltage of power source circuit input.

3 AVSS IN Power source voltage: -5V.

VC voltage of power source circuit input.

4 VREF IN Reference voltage input terminal.

A reference voltage applied to the A/D converter in the LSI. Connected to GND.(0V)

5 AN7 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.

6 AN6 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. 7-9 AN5-AN3 IN Heating constant compensation terminal. 10 AN2 IN Input signal which communicates the door open/close information to LSI.

Door closed; "H" level signal(0V).

Door opened; "L" level signal(-5V). 11 AN1 IN Input signal which communicates the damper open/close information to LSI.

Damper opened; "H" level signal(0V:GND).

Damper closed; "L" level signal(-5V). 12 AN0 IN Temperature measurement input: OVEN THERMISTOR.

By inputting DC voltage corresponding to the temperature detected by the thermistor,

this input is converted into temperature by the A/D converter built into the LSI. 13 P55 OUT Digit selection signal.

The relationship between digit signal and digit are as follows;

Digit signal Digit

P03........................... 1st.

P02.......................... 2nd.

P01...........................3rd.

P00........................... 4th.

P37........................... 5th.

P36.......................... 6th.

P35.......................... 7th.

P55.......................... 8th.

Normally, one pulse is output in every ß period, and input to the grid of the Fluorescent Display.

14 P54 OUT Oven lamp and turntable motor driving signal. (Square Waveform : 60Hz)

To turn on and off the shut-off relay(RY1). The square waveform voltage is delivered to the relay(RY1) driving circuit.

15 P53 OUT Convection motor driving signal.

To turn on and off shut-off relay(RY5). "L" level during CONVECTION; "H" level otherwise.

16 P52 OUT Cooling fan motor driving signal.

To turn on and off shut-off relay(RY6). "L" level during both microwave and convection cooking; "H" level otherwise.

DESCRIPTION OF LSI

LSI(IZA797DR):

The I/O signals of the LSI(IZA797DR) are detailed in the following table.

Pin No. Signal I/O Description

P03

ß(60Hz)

GND VP

P02

P01

P00

P37

P36

P35 P55

OFF

During

cooking

GND

(Convection)

OFF

During cooking

GND

During cooking

16.7 msec.

R-930AK R-930AW

17 P51 OUT Magnetron high-voltage circuit driving

signal.

To turn on and off the cook relay(RY2). In P-HI operation, the signals holds "L" level during microwave cooking and "H" level while not cooking. In other cooking modes (P-90, P-80, P-70, P-60, P-60, P-50, P-40, P-30, P-20, P-10, P-0) the signal turns to "H" level and "L" level in repetition according to the power level.

18 P50 OUT Damper motor relay driving signal.

To turn on and off shut-off relay(RY4).

19 P47 OUT Heating element driving signal.

To turn on and off shut-off relay(RY3). "L" level during convection cooking; "H" level otherwise. During convection cooking, the signal becomes "H" level when the temperature of the oven cavity exceeds the

predetermined temperature. 20-21 P46-P45 OUT Terminal not used. 22 P44 OUT Timing signal output terminal for temperature measurement(OVEN THERMIS-

TOR).

"H" level (GND) : Thermistor OPEN timing.

"L" level (-5V) : Temperature measuring timing.(Convection cooking) 23 P43 OUT Signal to sound buzzer.

A: key touch sound.

B: Completion sound.

C: When the temperature of the oven cavity

reaches the preset temperature in the preheating mode, or when the preheating hold time (30 minutes) is elapsed.

24 P42 OUT Timing signal output terminal for temperature measurement(OVEN).

"H" level (GND) : Ttermistor OPEN timing.

"L" level (-5V) : Temperature measuring timing.(Convection cooking) 25 INT1 IN Signal to synchronize LSI with commercial power source freqency.

This is the basic timing for all real time

processing of LSI.

26 P40 IN Connected to GND. 27 RST IN Auto clear terminal.

Signal is input to reset the LSI to the initial state when power is applied. Temporarily

set to "L" level the moment power is applied, at this time the LSI is reset. Thereafter

set at "H" level. 28/29 XCIN/XCOUT OUT Terminal not used. 30 XIN IN Internal clock oscillation frequency setting input.

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

respect to XOUT terminal. 31 XOUT OUT Internal clock oscillation frequency control output.

Output to control oscillation input of XIN. 32 VSS IN Power source voltage: -5V.

VC voltage of power source circuit input. 33 P27 IN Signal coming from touch key.

When any one of G-1 line keys on key matrix is touched, a corresponding signal from

P17 - P17 will be input into P27. When no key is touched, the signal is held at "L" level.

Pin No. Signal I/O Description

VARI MODE ON TIME OFF TIME

P-HI (100% power) 32 sec. 0 sec. P-90 (approx. 90% power) 30 sec. 2 sec. P-80 (approx. 80% power) 26 sec. 6 sec. P-70 (approx. 70% power) 24 sec. 8 sec. P-60 (approx. 60% power) 22 sec. 10 sec. P-50 (approx. 50% power) 18 sec. 14 sec. P-40 (approx. 40% power) 16 sec. 16 sec. P-30 (approx. 30% power) 12 sec. 20 sec. P-20 (approx. 20% power) 8 sec. 24 sec. P-10 (approx. 10% power) 6 sec. 26 sec. P-0 (0% power) 0 sec. 32 sec.

OFF

H : GND

OFF

During

cooking

GND

(Convection)

H: GND

0.1 sec

2.0 sec

1.0 sec

16.7 msec.

H : GND

L (-5V)

R-930AK R-930AW

34 P26 IN Signal similar to P27.

When any one of G-2 line key on key matrix is touched, a corresponding signal will be input into P26.

35 P25 IN Signal similar to P27.

When any one of G-3 line key on key matrix is touched, a corresponding signal will be input into P25.

36 P24 IN Signal similar to P27.

When any one of G-4 line key on key matrix is touched, a corresponding signal will be input into P24.

37 P23 OUT Segment data signals.

The relation between signals and indicators are as follows:

Signal Segment Signal Segment Signal Segment Signal Segment

P23............. P1 P17.............P5 P13 .............P9 P07........... P13

P22............. P2 P16.............P6 P12 ...........P10 P06........... P14

P21............. P3 P15.............P7 P11 ...........P11 P05........... P15

P20............. P4 P14.............P8 P10 ...........P12 P04........... P16

38-40 P22-P20 OUT Segment data signal.

Signal similar to P23.

41 P17 OUT Segment data signal.

Signal similar to P23.

Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to P24-P27 terminal while one of G-12 line keys on key matrix is touched.

42 P16 OUT Segment data signal.

Signal similar to P23.

Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to P24-P27 terminal while one of G-11 line keys on key matrix is touched.

43 P15 OUT Segment data signal.

Signal similar to P23.

Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to P24-P27 terminal while one of G-10 line keys on key matrix is touched.

44 P14 OUT Segment data signal.

Signal similar to P23.

Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to P24-P27 terminal while one of G-9 line keys on key matrix is touched.

45 P13 OUT Segment data signal.

Signal similar to P23.

Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to P24-P27 terminal while one of G-8 line keys on key matrix is touched.

46 P12 OUT Segment data signal.

Signal similar to P23.

Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to P24-P27 terminal while one of G-7 line keys on key matrix is touched.

47 P11 OUT Segment data signal.

Signal similar to P23.

Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to P24-P27 terminal while one of G-6 line keys on key matrix is touched.

Pin No. Signal I/O Description

R-930AK R-930AW

Pin No. Signal I/O Description

48 P10 OUT Segment data signal.

Signal similar to P23.

Key strobe signal.

Signal applied to touch-key section. A pulse signal is input to P24-P27 terminal while

one of G-5 line keys on key matrix is touched. 49-53 P07-P03 OUT Segment data signal.

Signal similar to P23. 54-56 P02-P00 OUT Digit selection signal.

Signal similar to P55. 57-59 P37-P35 OUT Digit selection signal.

Signal similar to P55. 60-64 P34-P30 OUT Used for initial balancing of the bridge circuit (absolute humidity sensor).

(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 (302˚F), 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

Operational amplifier

Output voltage

S : Thermistor open vessel

C : Thermistor closed vessel

Absolute humidity (g/m )

Output voltage

Absolute humidity vs, output voltage characterist

than the detector circuit starts to function and the LSI observes the initial voltage available at its AN6 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 R50-1. Changing the resistance values results in that there is the same potential at both F-3 terminal of the absolute humidity sensor and AN7 terminal of the LSI. The voltage of AN6 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 AN6 terminal of the LSI. Then the LSI observes that voltage at AN6 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 AN6 terminal 16 seconds after the unit has been put in the Sensor Cooking mode, if it is not possible to balance, of 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 openings

View of sensor case removed

Sensing part  (Open vessel)

Sensing part  (Closed vessel)

Sensing part  (Open vessel)

Sensing part  (Closed vessel)

Cross section view

Sensor  case

Thermistor element

SW2

SW1

SW3 SW4 SW5

P30

P31

P32 P33 P34

LSI (IC1)

AN7

AN6

620k

300k 150k 75k

37.4k

6 7

62 61 60

47k

10k

0.01µF

0.015µF

0.01µF

360k

VA : -15V

R51

F-2

1.8k

F-1

F-3

3.57k

3.32k

VC : -5V

0.1

µF

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

IC2(IZA495DR)

R-930AK R-930AW

SERVICING

approx. 1M ohm

Transistor 2SB910M

Transistor

DTA123ES KRA101M KRA223M KRC243M

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 supply

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 sensorrelated 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: DC - 10MHz 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 aluminum foil applied for preventing static electricity.

2) Connect the connector of the key unit to the control unit being sure that the lead wires are not twisted.

3) After aluminum 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.

R-930AK R-930AW

COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE

CAUTION: DISCONNECT OVEN FROM POWER SUPPLY BEFORE REMOVING OUTER CASE.

DISCHARGE HIGH VOLTAGE CAPACITOR BEFORE TOUCHING ANY OVEN COMPONENTS OR WIRING AFTER REMOVING OUTER CASE.

OUTER CASE SWITCHES REPLACEMENT

Removal

1. Disconnect the oven from the power supply and remove the outer case.

2. Discharge high voltage capacitor.

3. Remove the one (1) screw holding the switch holder to the oven cavity rear plate.

4. Release the one (1) tab of the switch holder from the one (1) hole of the oven cavity plate.

5. Disconnect the wire leads from the outer case switches.

6. Remove the switch holder (outer case switch assembly) from the oven cavity rear plate.

7. Push on the one (1) retaining tab holding the outer case switch.

8. Turn the outer case switch clockwise around the pole.

9. Now, the outer case switch is free.

NOTE: Do not lose the actuator because it will be loose after

the outer case switches are removed.

Re-install

1. Re-install the actuator to the switch holder by inserting the tab of the actuator into the square hole on the switch holder, as shown in Figure C-1.

2. Re-install the outer case switches to the switch holder, as shown in Figure C-1.

POWER TRANSFORMER REMOVAL

3. Re-connect the wire leads to the outer case switches, referring to the Pictorial diagram.

4. Re-install the one (1) snap of the main wire harness to the hole of the switch holder.

5. Catch the one (1) tab of the switch holder to the one (1) hole of the oven cavity rear plate.

6. Re-install the switch holder (outer case switch assembly) to the oven cavity rear plate with the one (1) screw.

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

Switch  holder

Outer case  switch

Actuator

Figure C-1. Outer case switches replacement

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 followiong parts;

1) High voltage parts: Magnetron, High voltage transformer, High voltage capacitor and High voltage rectifier assembly.

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

WARNING FOR WIRING

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

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

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.

To remove the components, procedure as follows.

1. Disconnect oven from power supply.

2. Remove screws from rear and along the side edge of case.

3. Slide the entire case back out about 1 inch (3 cm) to free

OUTER CASE REMOVAL

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. Disconnect oven from power supply and remove outer case.

2. Discharge high voltage capacitor.

3. Disconnect filament leads of transformer from the magnetron and capacitor.

4. Disconnect high voltage lead of capacitor from the

R-930AK R-930AW

POSITIVE LOCK® CONNECTOR (NO-CASE TYPE) REMOVAL

Push the lever of positive lock® connector. Pull down on the positive lock® connector.

CAUTION: WHEN YOU CONNECTING THE POSITIVE

LOCK® CONNECTORS TO THE TERMINALS, INSTALL THE POSITIVE LOCK® SO THAT THE LEVER FACES YOU.

Figure C-2. Positive lock®connector

Terminal

Push

Pull down

Lever

Positive lock® connector

CONVECTION MOTOR REMOVAL

Disconnect oven from power supply and remove outer case.

2. Discharge the high voltage capacitor.

3. Disconnect wire leads from the convection motor. Remove the convection fan belt.

4. Remove two (2) screws holding the convection motor mounting angle to the heater duct and base cabinet.

5. Take out the convection motor assembly from the unit. The convection motor assembly is now free.

6. Remove two (2) screws and nuts holding the motor to mounting angle.

7. Remove pulley (M) from the motor shaft. Convection motor is now free.

1. Disconnect oven from power supply and remove outer case.

2. Discharge the high voltage capacitor.

3. Disconnect the high voltage wire leads and rectifier assembly from high voltage capacitor and magnetron.

4. Disconnect filament lead of transformer from high voltage capacitor.

HIGH VOLTAGE CAPACITOR REMOVAL

HIGH VOLTAGE RECTIFIER ASSEMBLY REMOVAL

magnetron.

CAUTION: WHEN REPLACING THE SILICON RECTIFIER

ASSEMBLY, THE GROUND SIDE TERMINAL MUST BE SECURED FIRMLY WITH A GROUNDING SCREW.

1. Disconnect oven from power supply and remove outer case.

2. Discharge the high voltage capacitor.

3. Remove one (1) screw holding the rectifier assembly to the capacitor holder.

4. Disconnect the rectifier assembly from the capacitor and

MAGNETRON REMOVAL

1. Disconnect oven from power supply and remove outer case.

2. Discharge the high voltage capacitor. Disconnect filament lead of transformer from magnetron. Disconnect high voltage wire lead from magnetron.

3. Carefully remove four (4) mounting screws hold the magnetron to waveguide, when removing the screws holding the magnetron to prevent it from falling.

4. Remove the magnetron from the unit with care so the magnetron tube should not hit by any metal object around the tube.

CAUTION: WHEN REPLACING THE MAGNETRON, BE

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

transformer.

5. Disconnect wire leads from the transformer.

6. Remove two (2) screws holding the transformer to the base cabinet.

Re-install

1. Rest the transformer on the base cabinet with its primary terminals toward rear cabinet.

2. Insert the two edges of the transformer into two metal tabs of the base cabinet.

3. Make sure the transformer is mounted correctly to the corners underneath those tabs.

4. After re-installing the transformer, secure the transformer

with two screws to the base cabinet, one is with outer tooth washer and the other is without outer-tooth washer.

5. Re-connect the wire leads (primary and high voltage) and high voltage lead to the transformer and filament leads of transformer to the magnetron and capacitor, referring to the “Pictorial Diagram”.

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

NOTE HOT (ORANGE) WIRE MUST BE CONNECTED

TO THE POWER TRANSFORMER TERMINAL NEAREST TO THE TRANSFORMER MOUNTING SCREW.

5. Disconnect high voltage wire lead of capacitor from transformer.

6. Remove one (1) screw and washer holding the rectifier from the capacitor holder.

7. Remove one (1) screw holding the capacitor holder to the rear cabinet.

8. Remove the capacitor from the holder.

R-930AK R-930AW

FAN MOTOR REMOVAL

1. Disconnect the oven from power supply. Remove the turntable tray, and the turntable support out of the oven cavity.

2. Turn the oven upside down and remove one (1) screw holding the turntable motor cover to the base plate and take off the turntable motor cover.

TURNTABLE MOTOR REMOVAL

3. Disconnect wire lead from the turntable motor.

4. Remove the two (2) screws holding the turntable motor and coupling mounting plate to the oven cavity bottom.

5. Turntable motor, Coupling mounting plate and Thermal protection plate bottom will be free.

DAMPER ASSEMBLY REMOVAL

1. Disconnect oven from power supply and remove outer case.

2. Discharge the high voltage capacitor.

3. Disconnect wire leads from damper motor and damper switch.

4. Remove two (2) oven side screws holding damper motor

angle to thermal protection plate (right).

5. Damper assembly is free.

6. Remove one (1) screw holding damper motor to damper motor angle and one (1) screw holding damper switch to damper motor angle.

7. Damper motor and switch are free.

HEATER UNIT ASSEMBLY REMOVAL

(HEATING ELEMENT/CONVECTION FAN/CONVECTION MOTOR/THERMISTOR)

THERMISTOR REMOVAL

1. Disconnect oven from power supply and remove outer case cabinet.

2. Discharge the high voltage capacitor. Disconnect wire leads from H.V. capacitor and remove four (4) screws holding rear cabinet to bottom plate and three (3) screws holding to heater unit assembly and two (2) screws holding steam duct to top of oven cavity. Disconnect wire leads from power supply cord terminals.

3. Disconnect wire leads from thermistor. Remove two (2) screws from thremistor.

4. Disconnect wire leads from convection motor, thermal cut-out and heater element.

5. Remove nine (9) screws holding heater duct to the oven cavity.

6. Remove two (2) screws holding heater duct to base cabinet. Release two (2) snap bands holding wire harness to the thermal cover (convection).

7. The heater unit is now free.

HEATING ELEMENT REMOVAL

1. Remove two (2) screws holding heating element to heater duct.

2. Loosen two (2) screws holding holders to heater duct and take heating element out of heating element holders.

3. Heating element is free.

NOTE: After installed the heating element completely,

bent top of the heating element holder to inside using by long nose pliers as shown following illustration.

Long nose plier

Heating element  holder

Heating  element

1. Disconnect oven from power supply and remove outer case.

2. Discharge high voltage capacitor.

3. Bend the tab of the air guide holding the lamp socket.

4. Lift up the oven lamp socket.

5. 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.

6. Now, the oven lamp socket is free.

OVEN LAMP AND LAMP SOCKET REMOVAL

Figure C-3. Oven lamp socket

Oven lamp socket

Terminal

Wire lead

Terminal hole

Flate type small screw driver

1. Disconnect oven from power supply and remove outer case.

2. Discharge high voltage capacitor.

3. Disconnect the wire leads from the fan motor.

4. Remove one (1) screw holding the fan motor grounding wire to the air guide (Right).

5. Remove three (3) screws holding the chassis support to the rear cabinet, waveguide and control panel back plate.

6. Remove the chassis support from the oven.

7. Remove one (1) screw holding the magnetron air guide to the waveguide.

R-930AK R-930AW

CONTROL PANEL ASSEMBLY AND CONTROL UNIT REMOVAL

To remove the control panel, procedure as follows:

1. Disconnect oven from power supply and remove outer case.

2. Discharge high voltage capacitor.

3. Disconnect connector CN-A, CN-E and CN-F from the control unit.

4. Disconnect the wire leads from the relays RY1, RY2 and RY3.

5. Remove one (1) screw holding the control panel back plate to the chassis support.

6. Remove two (2) screws holding the bottom edge of the back plate to the cabinet base.

7. Remove one (1) screw holding the back plate to the oven cavity flange.

8. Lift up and pull the control panel assembly forward.

Replacement of individual component is as follows;

CONTROL UNIT AND KEY UNIT

1. Disconnect the wire connector from the control unit.

2. Remove the four (4) screws holding the panel frame to the back plate.

3. Separate the panel frame and back plate.

4. Remove the three (3) screws holding the control unit to the panel frame.

5. Lift up the control unit and disconnect the key connector from the control unit.

6. Now, the control unit and frame assembly are separated.

NOTE; 1. Before attaching a new key unit, remove remaining

adhesive on the control panel frame surfaces completely with alcohol and so on.

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

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

8. Remove the magnetron air guide from the waveguide.

9. Disconnect wire leads from the fan motor.

10. Release the main harness from the hole of the fan duct.

11. Release the thermistor harness from the hole of the fan duct.

12. Release one (1) tab holding the fan duct to the rear cabinet.

13. Release one (1) tab holding the fan duct to the air guide (Right).

14.Remove the fan duct assembly from the oven.

15.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 use this removed fan blade again because the

hole (for shaft) of it may become bigger than a standard one.

16.Remove the two (2) screws and nuts holding the fan motor to the fan duct.

17.Now, the fan motor is free.

INSTALLATION

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

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

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. Reset the fan duct assembly to its place.

4. Install the tabs of fan duct to the rear cabinet and air guide.

5. Install the magnetron air guide with the one (1) screw.

6. Reinstall the main harness and thermistor harness to each hole of the fan duct.

7. Reinstall the chassis support to the control panel back plate, waveguide and rear cabinet with the three (3) screws.

8. Re-connect the wire leads to the fan motor, referring to the pictorial diagram.

9. Re-install the fan motor grounding wire to the air guide (Right) with one (1) screw.

Rear View

Coil

Gap

Rotor

Bracket

Stator

Groove joint pliers

Shaft

Axis

Stator

These are the position where should be pinched with pliers

Rotor

Shaft

Table

Center of bracket

Side View

R-930AK R-930AW

DOOR REPLACEMENT AND ADJUSTMENT

REMOVAL

1. Disconnect oven from power supply and remove the outer case. Remove turntable tray and turntable support from oven cavity.

2. Remove three (3) screws holding lower oven hinge.

3. Remove the lower oven hinge from oven cavity bottom flange.

4. Remove door assembly from upper oven hinge on the oven.

5. Door assembly is now free.

Note: When the individual parts are replaced, refer to

"Door Disassembly".

6. On re-installing door, insert the upper oven hinge into the door hinge pin. Then while holding door in place.

7. Make sure the door is parallel with oven face lines (left and upper side lines) and door latch heads pass through latch holes correctly.

8. Insert the lower oven hinge into oven cavity bottom flange and then engaged the door hinge pin. Then secure the lower oven hinge firmly with tree (3) mounting screws.

Note: After any service to the door; (A) Make sure that door sensing switch and secondary

interlock switch are operating properly. (Refer to chapter "Test Procedures".).

(B) An approved microwave survey meter should be

used to assure compliance with proper microwave radiation emission limitation standards.

DOOR ADJUSTMENT

The door can be adjusted by keeping screws of each hinge loose.

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

DOOR SENSING SWITCH/SECONDARY INTERLOCK SWITCH AND MONITOR SWITCH REMOVAL

1. Disconnect oven from power supply and remove outer case.

2. Discharge high voltage capacitor.

3. Remove the control panel assembly, refer to "Control Panel Removal".

4. Disconnect wire leads from each of the switches and fuse holder.

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

6. Remove latch hook assembly from oven flange.

7. Push outward on the one (1) stopper tabs holding each of switches place.

8. Switch is now free.

At this time switch lever will be free, do not lose it.

Re-install

1. Re-install switch lever and each interlock switch in its place. The secondary interlock switch is in the lower position and the door sensing switch is in the upper position and the monitor switch is in the middle position.

2. Re-connect wire leads to each switches and fuse holder. 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.

If the door sensing switch, secondary interlock 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 latch hook should be less than 0.5mm.

3. Secure the screws with washers firmly.

After adjustment, check the following.

1. In and out play of door remains less than 0.5mm at the latched position.

2. The door sensing switch and secondary interlock switch interrupt the circuit before the door can be opened.

3. Monitor switch contacts close when door is opened.

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

DOOR SENSING SWITCH/SECONDARY INTERLOCK SWITCH AND MONITOR SWITCH ADJUSTMENT

DOOR SENSING SWITCH

MONITOR FUSE

MONITOR SWITCH

SECONDARY INTERLOCK SWITCH

Figure C-4. Latch Switch Adjustments

R-930AK R-930AW

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 airtight, moisture (condensation)-tight or light-tight. Therefore, occasional appearance of moisture, light or sensing of gentle warm air movement around oven door is not abnormal and do not of themselves indicate a leakage of microwave energy from oven cavity. If such were the case, your oven could not be equipped with a vent, the very purpose of which is to exhaust the vapor-laden air from the oven cavity.

Figure C-5. Door Replacement and adjustment

RE-INSTALL

LOWER OVEN HINGE

UPPER OVEN HINGE

DOOR ASSEMBLY

LATCH HEADS

Remove door assembly, refer to "Door Replacement". Replacement of door components are as follows:

1. Place door assembly on a soft cloth with latches facing up.

Note: As the engaging part of choke cover and door panel

are provided at several places, do not force any particular part.

2. Insert an putty knife (thickness of about 0.5mm) into the gap between the choke cover and corner portion of door panel as shown Figure C-6 to free engaging parts.

3. Lift up choke cover.

4. Now choke cover is free from door panel.

DOOR DISASSEMBLY

CHOKE COVER

PUTTY KNIFE

FRONT

INSIDE

Upper

Lower

Bent

Door Panel

Choke cover

1 BENT

2 LIFT UP

Figure C-6. Door Disassembly

R-930AK R-930AW

TURNTABLE 

MOTOR

GRY

BRN

ORG

GRN

REDBLK

DAMPER 

MOTOR

COOLING

FAN 

MOTOR

OUTER CASE

SWITCH

(Oven side)

OUTER CASE

SWITCH

(Cabinet side)

RED

PNK

RED

BLK

OVEN

THERMAL

CUT-OUT

MAGNETRON

TEMPERATURE

FUSE

GRY

IC-1

RED

12345

PNK

RED

GRN

WHT

PPL

123456789

ORG

RY1

RY2

RY3

CN-F

CN-E

CN-A

N.O.

COM

CN-E

ORG

BLK

AH SENSOR

RED

WHT

123

CN-F

SECONDARY

INTERLOCK

SWITCH

GRY



CONTROL PANEL

HEATING

ELEMENT

MONITOR

SWITCH

CONVECTION MOTOR

POWER SUPPLY CORD

120V 60Hz

GRN

NOTE:

The grounding conductor of

the power supply cord has

been grounded by power

supply cord fixing screw.

The screw must be kept

allways tight.

NOTE:

The neutral (WHT) wire

must be connected to

the terminal with "N"

mark on the power

supply cord.

OVEN LAMP

& SOCKET

N.O.

PNK

GRY



RED

THERMISTOR

RED

MONITOR FUSE

& FUSE HOLDER

RED

MAGNETRON

RED

HIGH VOLTAGE COMPONENTS

HIGH VOLTAGE

CAPACITOR

POWER TRANSFORMER

PPL

BLK

WHT

GRY

ORG

RY6

RY4

RY5

CN-G

RY1 (COM.)

RY1 (N.O.)

BRN

RY2 (COM.)

ORG

RY2 (N.O.)

RY3 (COM.)

RED

RY3 (N.O.)

BRN

PNK

WHT

GRY

PNK

W

H

W

H

BLK

RED

GRY

GRY

ORG

NOTE:

Hot (ORG) wire must be connected to the

power transformer terminal nearest to the

transformer mounting screw.

DOOR

SENSING

SWITCH

GRN

COM

N.C.

WHT

ORG

BRN

COM.

N.O.

COM.

N.O.

COM.

N.O.

362

13579

WHT

PNK

DAMPER

SWITCH

COM

N.O.

WHT

GRY

COM

N.O.

GRY

W

H

COM

N.O.

NOTE:

Hot (YLW & PNK) wire

must be connected to the

terminal with blue mark

on the oven light socket.

GRY

PNK

BLUE MARK

RED

WHT

Figure S-1. Pictorial Diagram

R-930AK R-930AW

Figure S-2. Control Panel Circuit

–

E1 E2 E5 E6 E3 E4 F1 F2 F3

G 1

G 2

G 3

G 4

G 5 G 6 G 7 G 8 G 9 G10 G11 G12

COM

VRS1

C1 0.1µ/50v

C22 0.1µ/50v

C3 0.1µ/50v

C5 0.1µ/50v

C9 0.01µ/50v

C4 10µ/35v

C6 10µ/35v

C2 1000µ/35v

ZD2

ZD3

C11

22µ

/25v

ZD4

470 1/2w

HZ16-1

HZ5C2

HZ4A2

R7 4.7k

(J1)

D20D21D22D24

C20 10µ/35v

C21 0.1µ/50v

R30 15k

R50 15k

R63 100F

R64 2.2kF

R70 3.3k

IC1 IZA797DR

R71 3.3k

R72 3.3k

R73 3.3k

R74

3.3k

R75

3.3k

R76

3.3k

R79

3.3k

R80

3.3k

R81

3.3k

R77

3.3k

R78

3.3k

D70

D71

D72

D73

D74

D75

D76

D77

(J2)

(J4)

(J6)

(J3)

(J5)

(J7)

R100 330 1w

7G 28

6G 27

5G 26

4G 25

3G 24

2G 23

1G 22

P16

P15

P14

P13

P12

P11

P10

P9 12

P8 11

P7 10

P6 9

R91

R92

R93

100k

D25D26

D31

D23

SP40

R40 3.3k

R8 4.7k

10G471K

RY4

RY5

DAMPER

MOTOR

AC120V

60Hz

CONV.

MOTOR

FAN

MOTOR

POWER

TRANSFORMER

HEATING

ELEMENT

DOOR

SWITCH

DAMPER

SWITCH

OVEN

THERMISTOR

AH SENSOR

OVEN LAMP

TURNTABLE

MOTOR

RY6

RY2

D30

RY3

RY1

R31 4.7k

R51 4.7k

R62 75kF

CF1 4.19MHz

C70 330pF x 4

(A) (B) (C)

C30 C50 C60

Q1

2SB1238

Q4

DTA123ES

Q3

KRA101M

Q90

KRA101M

Q40

KRA101M

Q21

KRA101M

Q22

KRA101M

Q24

KRA101M

Q25

KRA101M

Q23

KRA101M

Q26

KRC243M

Q20

KRA101M

R10 18 1w

CONTROL UNIT

C10 0.1µ/50v

(VP)

FF8G

31, 32

1, 2

MIX CONV

DEFROST

SENSOR

COOK LBS OZ KG HELP

R90 100k

IC2 IZA495DR

FLUORESCENT DISPLAY TUBE

NOTE : IF NOT SPECIFIED. 1/4w ± 5%

: IF NOT SPECIFIED. 0.01µ/16v

: IF NOT SPECIFIED. 1SS270A

R11 18 1w

R3 330 1/2w

D1-4 : 11ES1

R4 750 1/2w



VREF

AN7

AN6

AN5

AN4

AN3

AN2

AN1

AN0

P55

P54

P53

P52

P51

P50

P47

P46

P45

P44

P43

P30

P31

P32

P33

P34

P35

P36

P37

P00

P01

P02

P03

P04

P05

P06

P07

P10

P11

P12

P13

P14

P15

P16

P17

P20

P21

P22

P23

P24

P25

P26

P27

P42

P40

RST

XCIN

XCOUT

XIN

XOUT

VSS

INT1

VCC 1

32 33

VEE

AVSS

STOP

CLEAR

SENSOR

REHEAT

LOW MIX

BAKE

SLOW

COOK

CUSTOM

HELP

KITCHEN

TIMER

POWER

LEVEL

CLOCK

MINUTE

PLUS

COMPU

DEFROST

COMPU

BROIL

COMPU

ROAST

COMPU

BAKE

BROIL

SENSOR

COOK

POPCORN

KEY UNIT

350˚F 375˚C 400˚F 425˚F 450˚F

67890

100˚F 150˚F 275˚F 300˚F 325˚F

12345

CONVEC

PREHEAT

START

TOUCH ON

HIGH MIX

ROAST

R-930AK R-930AW

Figure S-3. Printed Wiring Board

654321

1357 9

45 78

33 64

CONV HEATER

COM

RED BRN

ORG

BLK

PINK RED (BRN

RED)

D25

RY3

RY2

RY1

RY5

RY4

RY6

C11

R10 R11

D31 D30

D24

D23

Q40

Q25

Q24

Q21

Q20

ZD3

ZD4

10 11 12

(J7)

(J2) (J4)

(J6)

(J5) (J3)

C10

(C81)

(C80)

(C45)

(R47)

(C46)

(C47)

(R48)

(R49)

(CN - D)

(CN - G)

CN - G

CN - F

CN - E

(ONLY 9X58PJ)

C21

C22 C1

C60

C50

C30

(R45)

R91 R92 R93

R64

R80 R81

R73

D70 D71 D72 D73 D74 D75 D76 D77

R72 R71 R70

R79

R78 R77 R76

R75

R74

R86(J8)

R90

R100

R40

DAMP

DOOR

OVEN

TEMP

R50

R51

R31

R30

POWER TRANS

POWER

OL TTM

R62

C20

CN - A

ZD2

Q23

Q26

Q22

R63

D26

D21

D20

D22

VRS1

DAMP M CONV M FAN M POWER

(J1)

S1 S2

(R46)

IC1

IC2

IC3

(R85)

(CF1)

(ONLY

PHR)

CF1

C70

Q90

DIP



R-930AK R-930AW

PARTS LIST

◊Refer to "MPORTANT" described at end of parts list.

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

ELECTRICAL PARTS

1- 1 FACCDA048WRE0 Power supply cord 1 AT 1- 2 FFS-BA012WRK0

Monitor fuse 20A and monitor switch (V-5220D-070) assembly

1AH 1- 3 QFSHDA009WRE0 Fuse holder 1 AF 1- 4 QSW-MA110WRE0 Secondary interlock switch & outer case switches 3 AK 1- 5 FH-HZA041WRE0 Thermistor 1 AN 1- 6 QSW-MA110WRE0 Damper and door sensing switches 2 AK 1- 7 QFS-TA013WRE0 Magnetron temperature fuse 150˚C 1 AG 1- 8 RTHM-A085WRE0 Oven thermal cut-out 150˚C 1 AL 1- 9 RMOTDA192WRE0 Damper motor 1 AS 1-10 RLMPTA071WRE0 Oven lamp 1 AK 1-10 RLMPTA027WRE0 Oven lamp (Interchangeable) 1 AG 1-11 QSOCLA021WRE0 Oven lamp socket 1 AG 1-13 RMOTEA283WRE0 Convection fan motor 1 AZ 1-14 RMOTEA300WRE0 Fan motor 1 AZ 1-15 RHET-A136WRE0 Heating element 1 AW 1-16 RTRN-A527WRE0 Power transformer 1 BP 1-17 RC-QZA173WRE0 H.V.capacitor 1 AX 1-17 RC-QZA211WRE0 H.V.capacitor (Interchangeable) 1 AV 1-18 FH-DZA053WRK0 H.V.rectifier assembly 1 AP 1-19 RV-MZA256WRE0 Magnetron 1 BL 1-19 RV-MZA114WRE0 Magnetron (Interchangeable) 1 BG 1-19 RV-MZA222WRE0 Magnetron (Interchangeable) 1 BN 1-20 RMOTDA222WRE0 Turntable motor 1 AY 1-21 FDTCTA183WRK0 AH sensor assembly 1 AY

CABINET PARTS

2- 1 GCABUA463WRP0 Outer case cabinet [R-930AW] 1 BF 2- 1 GCABUA457WRP0 Outer case cabinet [R-930AK] 1 BF 2- 2 TMAPCA732WRR0 Schematic diagram 1 AC 2- 3 FDAI-A179WRY0 Base cabinet 1 AX 2- 3-1 GCOVHA156WRP0 Turntable motor cover 1 AB 2- 3-2 XHTSD40P08RV0 Screw; 4mm x 8mm 1 AA 2- 4 GLEGPA019WRE0 Foot 4 AD 2- 5 GCABDA087WRW0 Rear cabinet 1 AS 2- 6 LHLDKA009WRF0 Cord holder 1 AG 2- 7 LBNDKA036WRP0 Capacitor holder 1 AG 2- 8 FHNG-A092WRM0 Oven hinge (Lower) 1 AF 2- 9 PHOK-A043WRF0 Latch hook 1 AM 2-10 MLEVPA122WRF0 Switch lever 1 AD

CONTROL PANEL PARTS

3- 1 CPWBFA748WRK0 Control unit 1 BU 3- 1A QCNCMA227DRE0 5-pin connector(A) 1 AC 3- 1B QCNCMA267DRE0 6-pin connector(E) 1 AC 3- 1C QCNCMA237DRE0 3-pin connector(F) 1 AD 3- 1D QCNCWA057DRE0 12-pin connector(G) 1 AF 3- 1E RV-KXA077DRE0 Fluorescent display tube 1 AY 3- 1F PCUSGA381WRP0 Cushion 2 AG C1 RC-KZA087DRE0 Capacitor 0.1µF 50V 1 AB C2 VCEAB31VW108M Capacitor 1000µF 35V 1 AF C3 RC-KZA087DRE0 Capacitor 0.1µF 50V 1 AB C4 VCEAB31VW106M Capacitor 10µF 35V 1 AA C5 RC-KZA087DRE0 Capacitor 0.1µF 50V 1 AB C6 VCEAB31VW106M Capacitor 10µF 35V 1 AA C7-8 VCKYD11CY103N Capacitor 0.01µF 16V 2 AH C9 VCTYF31HF103Z Capacitor 0.01µF 50V 1 AB C10 RC-KZA087DRE0 Capacitor 0.1µF 50V 1 AB C11 VCEAB31EW226M Capacitor 22µF 25V 1 AA C20 VCEAB31VW106M Capacitor 10µF 35V 1 AA C21 VCEAB31HW104M Capacitor 0.1µF 50V 1 AM C22 RC-KZA087DRE0 Capacitor 0.1µF 50V 1 AB C30 VCKYD11CY103N Capacitor 0.01µF 16V 1 AH C50 VCKYD11CY103N Capacitor 0.01µF 16V 1 AH C60 VCKYD11CY103N Capacitor 0.01µF 16V 1 AH C70 RMPTEA009DRE0 Capacitor array 330pF x 4 1 AE CF1 RCRS-A035DRE0 Ceramic resonator (CST4.19MGW) 1 AG D1-4 VHD11ES1///-1 Diode (11ES1) 4 AB D7 VHD1SS270A/-1 Diode (1SS270ATA) 1 AA D20-26 VHD1SS270A/-1 Diode (1SS270ATA) 7 AA D30-31 VHD1SS270A/-1 Diode (1SS270ATA) 2 AA D70-77 VHD1SS270A/-1 Diode (1SS270ATA) 8 AA

R-930AK R-930AW

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

IC1 RH-IZA797DRE0 LSI 1 AX IC2 RH-IZA495DRE0 IC 1 AL Q1 VS2SB910MR/-4 Transistor (2SB910M) 1 AE Q3 VSKRA101M//-3 Transistor (KRA101M) 1 AB Q4 VSDTA123ES/-3 Transistor (DTA123E) 1 AA Q20-23 VSKRA101M//-3 Transistor (KRA101M) 4 AB Q24-25 VSKRA223M//-3 Transistor (KRA223M) 2 AB Q26 VSKRC243M//-3 Transistor (KRC243M) 1 AB Q40 VSKRA101M//-3 Transistor (KRA101M) 1 AB Q90 VSKRA101M//-3 Transistor (KRA101M) 1 AB R2 VRD-B12HF471J Resistor 470 ohm 1/2W 1 AA R3 VRD-B12HF331J Resistor 330 ohm 1/2W 1 AA R4 VRD-B12HF751J Resistor 750 ohm 1/2W 1 AA R7-8 VRD-B12EF472J Resistor 4.7k ohm 1/4W 2 AA R10-11 VRS-B13AA180J Resistor 18 ohm 1W 2 AA R30 VRD-B12EF153J Resistor 15k ohm 1/4W 1 AA R31 VRD-B12EF472J Resistor 4.7k ohm 1/4W 1 AA R40 VRD-B12EF332J Resistor 3.3k ohm 1/4W 1 AA R50 VRD-B12EF153J Resistor 15k ohm 1/4W 1 AA R51 VRD-B12EF472J Resistor 4.7k ohm 1/4W 1 AA R62 VRN-B12EK753F Resistor 75k ohm(F) 1/4W 1 AA R63 VRN-B12EK101F Resistor 100 ohm(F) 1/4W 1 AA R64 VRN-B12EK222F Resistor 2.2k ohm(F) 1/4W 1 AA R70-81 VRD-B12EF332J Resistor 3.3k ohm 1/4W 12 AA R90-93 VRD-B12EF104J Resistor 100k ohm 1/4W 4 AA R100 VRS-B13AA331J Resistor 330 ohm 1W 1 AA RY1-3 RRLY-A083DRE0 Relay (OMIF-S-118LM) 3 AK RY4-6 RRLY-A078DRE0 Relay (OJ-SH-118LM) 3 AG SP40 RALM-A014DRE0 Buzzer (PKM22EPT) 1 AG T1 RTRNPA022DRE0 Transformer 1 AN VRS1 RH-VZA032DRE0 Varistor (10G471K) 1 AE ZD2 VHEHZ161///-1 Zener diode (HZ16-1) 1 AA ZD3 VHEHZ5C2///-1 Zener diode (HZ5C-2) 1 AA ZD4 VHEHZ4A2///-1 Zener diode (HZ4A2) 1 AA 3- 2 DPNLCB438WRK0 Control panel frame with key unit [R-930AK] 1 BE 3- 2 DPNLCB439WRK0 Control panel frame with key unit [R-930AW] 1 BE 3- 2-1 FUNTKA815WRE0 Key unit [R-930AK] 1 BA 3- 2-1 FUNTKA816WRE0 Key unit [R-930AW] 1 BA 3- 2-2 JBTN-B059WRF0 Open button [R-930AK] 1 AE 3- 2-2 JBTN-B060WRF0 Open button [R-930AW] 1 AE 3- 2-3 MSPRCA050WRE0 Open button spring 1 AB 3- 3 LANGTA340WRW0 Control panel back plate 1 AK 3- 4 MLEVFA057WRW0 Open lever 1 AE 3- 5 NSFTTA042WRE0 Open shaft 1 AE 3- 6 XEPSD30P10XS0 Screw ; control unit mtg. 3 AA 3- 7 XCPSD40P12000 Screw ; control panel back plate mtg. 2 AA

OVEN PARTS

4- 1 FOVN-A314WRY0 Oven cavity assembly 1 BN 4- 2 FROLPA072WRK0 Turntable support 1 AL 4- 3 NTNT-A019WRH0 Turntable tray 1 AT 4- 4 FBRGMA002WRE0 Bearing ass’y 1 AQ 4- 5 PREFHA028WRW0 Thermal protection plate (left) 1 AR 4- 6 LANGTA196WRW0 Bearing mounting plate 1 AD 4- 7 LBNDK0054WRE0 Heater element holder 2 AB 4- 8 LFIX-A013WRW0 Bearing holder plate 1 AB 4- 9 NFANMA019WRW0 Convection fan 1 AE 4-10 NPLYBA020WRF0 Pulley (F) 1 AC 4-11 FDUC-A279WRK0 Heater duct assembly 1 AT 4-12 PFPF-A138WRE0 Thermal protection sheet (left) 1 AK 4-13 LANGKA723WRP0 Glass mounting plate 1 AE 4-14 PCUSUA167WRP0 Cushion 2 AF 4-15 PCUSUA424WRP0 Cushion 1 AG 4-16 FDUC-A322WRW0 Steam duct assembly 1 BB 4-17 MCAMPA030WRF0 Damper cam 1 AC 4-18 NSFTTA114WRE0 Damper shaft 1 AB 4-19 FFTA-A034WRK0 Damper door ass’y 1 AM 4-20 PDUC-A269WRW0 Damper duct 1 AK 4-21 PCUSGA398WRP0 Cushion 1 AC 4-22 NCPL-A021WRF0 Turntable coupling 1 AE 4-23 PCOVPA301WRE0 Waveguide cover 1 AE 4-24 PCUSUA197WRP0 Cushion 2 AD 4-25 PGLSPA455WRE0 Light glass 1 AD 4-26 PFPF-A139WRE0 Thermal protection sheet (Right) 1 AF

R-930AK R-930AW

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

4-27 PREFHA053WRW0 Thermal protection plate (Right) 1 AP 4-28 PSKR-A153WRW0 Air guide (Bottom) 1 AK 4-29 PSKR-A323WRW0 Air guide (Right) 1 AF 4-30 LANGQA407WRW0 Convection motor mounting plate 1 AG 4-31 NPLYBA021WRF0 Pulley (M) 1 AC 4-32 NFANJA020WRE0 Fan blade 1 AE 4-33 PDUC-A270WRF0 Cooling fan duct 1 AL 4-34 LANGFA089WRW0 Chassis support 1 AE 4-35 MHNG-A165WRM0 Oven hinge (Upper) 1 AE 4-36 NBLTKA005WRE0 Convection fan belt 1 AF 4-37 MLEVFA086WRE0 Actuator 1 AD 4-38 PCUSUA196WRP0 Cushion 2 AD 4-39 PCUSUA425WRP0 Damper duct cushion 1 AG 4-40 PCUSGA353WRP0 Cushion 1 AH 4-41 PSKR-A171WRW0 Magnetron air guide 1 AE 4-42 PFPF-A064WRE0 Thermal protection sheet 1 AF 4-43 PHOK-A099WRF0 Switch holder 1 AP

DOOR PARTS

5 CDORFA769WRK0 Door panel assembly complete [R-930AK] 1 BT 5 CDORFA770WRK0 Door panel assembly complete [R-930AW] 1 BT 5- 1 DDORFA820WRY0 Door panel 1 BD 5- 2 PGLSPA499WRE0 Door glass [R-930AK] 1 AN 5- 2 PGLSPA500WRE0 Door glass [R-930AW] 1 AN 5- 3 GCOVHA155WRF0 Choke cover 1 AP 5- 4 GWAKPA492WRR0 Door frame [R-930AK] 1 AZ 5- 4 GWAKPA494WRR0 Door frame [R-930AW] 1 AZ 5- 5 LANGKA845WRW0 Glass bracket 2 AF 5- 6 LANGKA851WRT0 Latch angle 1 AF 5- 7 LSTPPA169WRF0 Latch head 1 AH 5- 8 MSPRTA081WRE0 Latch head spring 1 AA 5- 9 XCPSD40P08000 Screw; 4mm x 8mm 2 AA 5-10 XEPSD30P08XS0 Screw; 3mm x 8mm 16 AA

MISCELLANEOUS

6- 1 FAMI-A088WRM0 Low rack (Broiling trivet) 1 AW 6- 2 FAMI-A087WRM0 High rack (Baking rack) 1 AW 6- 3 TCADCA522WRR0 Cook book 1 BA 6- 4 FW-VZB342WRE0 Thermistor harness 1 AN 6- 5 FW-VZB595WRE0 Main wire harness 1 BA 6- 6 QW-QZA198WRE0 High voltage wire B 1 AN 6 -7 QW-VZA108WRE0 Grounding wire (Cooling fan motor) 1 AF 6- 8 TSPCNC464WRR0 Name plate [R-930AK] 1 AE 6- 8 TSPCNC467WRR0 Name plate [R-930AW] 1 AE 6- 9 TCAUAA200WRR0 Monitor caution label 1 AB 6-10 TCAUAA209WRR0 DHHS caution label 1 AD 6-11 TINSEA710WRR0 Operation manual 1 AH

SCREWS NUTS AND WASHERS

7- 1 XOTWW40P10000 Screw; 4mm x 10mm 14 AA 7- 2 XOTSE40P12000 Screw; 4mm x 12mm [R-930AW] 4 AA 7- 2 XOTSF40P12000 Screw; 4mm x 12mm [R-930AK] 4 AA 7- 3 XCTWW40P08000 Screw; 4mm x 8mm 2 AA 7- 4 XHTSD40P08RV0 Screw; 4mm x 8mm 1 AA 7- 5 LX-CZ0052WRE0 Special screw 2 AA 7- 6 XWVSD60-07000 Washer; 6mm x 0.7 mm 1 AA 7- 7 LX-WZA004WRE0 Washer 1 AA 7- 8 LX-CZA020WRE0 Special screw 6 AA 7- 9 XBPSD30P14K00 Screw; 3mm x 14mm 1 AA 7-10 XBPSD40P25000 Screw; 4mm x 25mm 2 AA 7-11 XBTWW40P06000 Screw; 4mm x 6mm 7 AA 7-12 XCTSD40P08000 Screw; 4mm x 8mm 7 AA 7-13 XCPSD40P10000 Screw; 4mm x 10mm 1 AA 7-14 XBPSD40P06KS0 Screw; 4mm x 6mm 2 AA 7-15 LX-WZA022WRE0 Washer 1 AB 7-16 XCPSD40P08000 Screw; 4mm x 8mm 6 AA 7-17 XCPSD30P06000 Screw; 3mm x 6mm 3 AA 7-18 LX-CZA038WRE0 Special screw 1 AA 7-19 XFPSD40P08K00 Screw; 4mm x 8mm 2 AA 7-20 XHTSD40R12RV0 Screw; 4mm x 12mm 1 AA 7-21 XCBWW30P06000 Screw; 3mm x 6mm 4 AA 7-22 XFPSD40P08000 Screw; 4mm x 8mm 6 AA 7-23 XFPSD60P14JS0 Screw; 6mm x 14mm 2 AB

R-930AK R-930AW

7-24 XOTSD40P12000 Screw; 4mm x 12mm 22 AA 7-25 XFPSD30P08000 Screw; 3mm x 8mm 2 AA 7-26 XNESD40-32000 Nut; 4mm x 3.2mm 2 AA 7-27 XNEUW40-32000 Nut; 4mm x 3.2mm 1 AA 7-28 XWSUW40-10000 Washer; 4mm x 1 mm 1 AA

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

HOW TO ORDER REPLACEMENT PARTS

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

1. MODEL NUMBER 3. PART NO.

2. REF. NO. 4. DESCRIPTION

Order Parts from the authrized SHARP parts Distributor for your area. Defective parts required return should be returned as indicated in the Service Policy.

PACKING AND ACCESSORIES

4-3 TURNTABLE TRAY

6-11 OPERATION 

MANUAL 

6-3 COOK BOOK

4-2 TURNTABLE SUPPORT

TRAY PACKING FOAM SPADPA198WRE0

CABINET COVER (R-930AK) SPADPA507WRE0

DOOR PROTECTION SHEET SPADPA178WRE0

MICROWAVE OVEN

TOP PAD ASSEMBLY FPADBA358WRK0

PLASTIC BAG SSAKHA012WRE0

TRAY HOLDER

(SPADFA348WRE0)

BOTTOM PAD ASSEMBLY FPADBA359WRK0

Not replaceable items.

PACKING CASE SPAKCC905WRE0 (R-930AK) SPAKCC909WRE0 (R-930AW)

R-930AK R-930AW

OVEN AND CABINET PARTS

1-10

1-11

7-24

2-1

7-24

2-6

7-12

7-16

7-4

7-24

1-19

7-24

4-32

7-19

4-33

4-41

4-15

7-26

1-14

7-10

TO OVEN 

BASE PLATE

7-3

4-8

4-4

4-10

7-1

4-36

4-12

1-15

7-21

7-28

7-27

4-9

7-11

1-5

7-21

7-1

7-14

7-24

4-31

1-13

4-30

4-7

7-21

4-29

4-1

4-22

4-23

7-11

7-13

7-25

4-3

4-2

1-7

2-7

7-19

1-18

7-16

7-1

1-2

1-4

4-21

1-6

4-26

4-27

4-18

4-20

7-9

7-16

4-19

1-6

1-9

7-17

4-17

7-23

7-6

1-16

4-40

4-14

7-24

2-4

2-3-2

2-3-1

7-22

4-28

7-7

1-21

4-16

4-24

7-18

4-38

4-6

7-15

4-38

4-39

x 6

7-2

6-10

7-2

4-34

4-25

4-13

7-22



6-7

6-4

6-7

7-16

1-20

2-3

1-17

7-22

7-16

4-5

7-20

1-1

7-1

2-2

2-5

7-24

7-5

4-11

6-9

6-8

7-2

2-10

2-9

1-3

7-13

2-8

7-8

4-35

7-8

1-8

7-17

4-42

4-14

7-24

1-4

4-43

4-37

R-930AK R-930AW

DOOR PARTS

CONTROL PANEL PARTS

MISCELLANEOUS

5-3

5-10

5-1

Actual wire harness may be different than illustration.

6-4

6-1

6-5

6-6

6-7

6-2

5-10

5-9

5-5

5-4

5-7

5-8

5-6

5-2

5-5

x 3

x 2

7-24

3-5

3-4

3-7

3-3

3-2

3-2-1

3-2-3

3-2-2

3-6

3-1

R-930AK R-930AW

'97 SHARP CORP. (6K2.770E) Printed in U.S.A

Sharp R930AK - 1.5 CF 900 Watts Convection Sensor Interactive, Charcoal, R-930AK, R-930AW Service Manual

Specifications and Main Features

Frequently Asked Questions

User Manual