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R-430DK
Operation Manual
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Sharp R-430DK Service Manual

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R-430DK R-430DW R-430DQ R-440DK R-440DW
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
Page PRECAUTIONS TO BE OBSERVED BEFORE AND DURING SERVICING TO
AVOID POSSIBLE EXPOSURE TO EXCESSIVE MICROWAVE ENERGY....................INSIDE FRONT COVER
BEFORE SERVICING ......................................................................................................INSIDE FRONT COVER
WARNING TO SERVICE PERSONNEL............................................................................................................... 1
MICROWAVE MEASUREMENT PROCEDURE................................................................................................... 2
FOREWORD AND WARNING ............................................................................................................................. 3
PRODUCT SPECIFICATIONS ............................................................................................................................. 4
GENERAL INFORMATION ................................................................................................................................. 4
OPERATION ........................................................................................................................................................ 6
TROUBLESHOOTING GUIDE ........................................................................................................................... 10
TEST PROCEDURE .......................................................................................................................................... 12
TOUCH CONTROL PANEL ............................................................................................................................... 21
COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE ............................................................... 32
PICTORIAL DIAGRAM....................................................................................................................................... 38
POWER UNIT CIRCUIT ..................................................................................................................................... 40
LSI UNIT CIRCUIT ............................................................................................................................................. 41
PRINTED WIRING BOARD................................................................................................................................ 44
PARTS LIST....................................................................................................................................................... 45
PACKING AND ACCESSORIES ........................................................................................................................ 50
S70M147R430DE
R-430DK R-430DW R-430DQ R-440DK R-440DW
MICROWAVE OVEN
MODELS
SERVICE MANUAL
SHARP ELECTRONCS CORPORATION
This document has been published to be used for after sales service only. The contents are subject to change without notice.
Service Headquarters: Sharp Plaza, Mahwah, New Jersey, 07430-2135
R-430D
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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.
(c) Before turning on microwave power for any service test or inspection within the microwave generating
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.
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.
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W ARNING TO SERVICE PERSONNEL
Microwave ovens contain circuitry capable of pro­ducing very high voltage and current, contact with following parts
may result in a severe, possibly
fatal, electrical shock. (Example) High Voltage Capacitor, High Voltage Power Trans-
former, Magnetron, High Voltage Rectifier Assem­bly, High Voltage Harness etc..
Read the Service Manual carefully and follow all instructions.
Before Servicing
1. Disconnect the power supply cord , and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
WARNING:RISK OF ELECTRIC SHOCK.
DISCHARGE THE HIGH-VOLTAGE CAPACITOR BEFORE SERVICING.
The high-voltage capacitor remains charged about 60 seconds after the oven has been switched off. Wait for 60 seconds and then short-circuit the connection of the high­voltage capacitor (that is the connecting lead of the high­voltage rectifier) against the chassis with the use of an insulated screwdriver.
Whenever troubleshooting is performed the power supply must be disconnected. It may in, some cases, be necessary to connect the power supply after the outer case has been removed, in this event,
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Disconnect the leads to the primary of the power transformer.
5. Ensure that the leads remain isolated from other components and oven chassis by using insulation tape.
6. After that procedure, reconnect the power supply cord.
When the testing is completed,
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Reconnect the leads to the primary of the power transformer.
5. Reinstall the outer case (cabinet).
6. Reconnect the power supply cord after the outer case is installed.
7. Run the oven and check all functions.
After repairing
1. Reconnect all leads removed from components during testing.
2. Reinstall the outer case (cabinet).
3. Reconnect the power supply cord after the outer case is installed.
4. Run the oven and check all functions.
Microwave ovens should not be run empty. To test for the presence of microwave energy within a cavity, place a cup of cold water on the oven turntable, close the door and set the power to HIGH and set the microwave timer for two (2) minutes. When the two minutes has elapsed (timer at zero) carefully check that the water is now hot. If the water remains cold carry out Before Servicing procedure and re-examine the connections to the component being tested.
When all service work is completed and the oven is fully assembled, the microwave power output should be checked and a microwave leakage test should be carried out.
Don't Touch ! Danger High Voltage
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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±5oC (68oF) 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.
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SHARP ELECTRONICS CORPORATION
SHARP PLAZA, MAHWAH,
NEW JERSEY 07430-2135
SERVICE MANUAL
MICROWAVE OVEN
R-430DK/DW/DQ
R-440DK/DW
FOREWORD
This Manual has been prepared to provide Sharp Electronics Corp. Service Personnel with Operation and Service Information for the SHARP MICRO­WAVE OVENS, R-430DK, R-430DW, R-430DQ, R-440DK & R-440DW.
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.
WARNING
Never operate the oven until the following points are ensured: (A) The door is tightly closed. (B) The door brackets and hinges are not defective. (C) The door packing is not damaged. (D) The door is not deformed or warped. (E) There is no other visible damage with the oven.
Servicing and repair work must be carried out only by trained service personnel.
DANGER
Certain initial parts are intentionally not grounded and present a risk of electrical shock only during servicing. Service personnel - Do not contact the following parts while the appliance is energized; High Voltage Capacitor, Power Transformer, Magnetron, High Voltage Rectifier Assembly, High Voltage Harness; If provided, Vent Hood, Fan assembly, Cooling Fan Motor.
All the parts marked “*” on parts list are used at voltages more than 250V.
Removal of the outer wrap gives access to voltage above 250V.
PRODUCT DESCRIPTION
GENERAL INFORMATION
OPERATION
TROUBLESHOOTING GUIDE AND TEST PROCEDURE
TOUCH CONTROL PANEL
COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE
WIRING DIAGRAM
PARTS LIST
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ITEM DESCRIPTION
Power Requirements 120 Volts / 13.8 Amperes/1650Watts
60 Hertz Single phase, 3 wire grounded
Power Output 1200 watts (IEC-705 TEST PROCEDURE)
Operating frequency of 2450MHz
Case Dimensions Width 21-21/32"
Height 12-3/8" Depth 18-7/16"
Cooking Cavity Dimensions Width 15-23/32"
1.6 Cubic Feet Height 9-21/32" Depth 17-7/8" Tray Size 14-1/8"
Control Complement Touch Control System
Clock ( 1:00 - 12:59 ) 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
R-430DK Sensor Cooking Pads, Breakfast Bar pads, Lunch on the run pad, One R-430DW Dish Dinner pad, Super Defrost pad, MINUTE PLUS pad, Compu R-430DQ Defrost pad, Beverage Center Pad, Number Selection Pad, Kitchen Timer Pad, Clock pad, Power Level Pad, Stop/Clear Pad, Start Touch Pad. R-440DK
TOUCH SCREEN, MINUTE PLUS pad, STOP/CLEAR pad
R-440DW START pad, ONE TOUCH SENSOR pads 6 X 6 NO GUESS
COOKING pads More From Your Microwave pad
Beverage Center pad, Defrost pad, Set Up pad
Cavity Light Yes Safety Standard UL Listed FCC Authorized
DHHS Rules, CFR, Title 21, Chapter 1, Subchapter J
SPECIFICATION
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.
Electrical Requirements The electrical requirements are a 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
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adapter properly grounded and polarized. If the extension cord must be used, it should be a 3-wire, 15 amp. or higher rated cord. Do not drape over a countertop or table where it can be pulled on by children or tripped over accidentally.
CAUTION: DO NOT UNDER ANY CIRCUMSTANCES CUT OR RE-
MOVE THE ROUND GROUNDING PRONG FROM THIS PLUG.
OVEN DIAGRAM
1. One touch door open button. Push to open door.
2. Door latches. The oven will not operate unless the door is securely closed.
3. Removable turntable support.
4. Removable turntable. The turntable will rotate clockwise or counterclockwise.
5. Oven lamp. It will light when oven is operating or door is opened.
6. Oven door with see-through window.
7. Ventilation openings. (Rear)
8. Auto-Touch control panel.
9. Time display: Digital display, 99 minutes 99 seconds.
10.Coupling.
11.Wave guide cover.
12.Power supply cord
R-430D R-440D
TOUCH CONTROL PANEL
1
6
5
4
2
10
11
12
9
7
8
3
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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 flashing"SHARP SIMPLY 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.
COOKING CONDITION
Program desired cooking time by touching the NUMBER pads. Program the power level by touching the POWER LEVEL pad and then a Number 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/fan motor RY-2 power transformer
2. 120 volts A.C. is supplied to the primary winding of the power transformer and is converted to about 3.3 volts A.C. output on the filament winding, and approximately 2370 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, the monitor switch, door sensing switch, secondary interlock switch, relay (RY1) and primary interlock relay 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 electrically monitors the operation of
the secondary interlock switch and primary interlock relay and is mechanically associated with the door so that it will function in the following sequence.
(1) When the door opens from the closed position, the
primary interlock relay (RY2) and secondary interlock switch open their contacts. And contacts of the relay (RY1) remains closed. Then the monitor switch contacts close.
(2) When the door is closed from the open position, the
monitor switch contacts open first. Then the contacts of the secondary interlock switch and door sensing switch
close. And contacts of the relay (RY1) open. If the secondary interlock switch and primary interlock relay (RY2) fail with the contacts closed when the door is opened, the closing of the monitor switch contacts will form a short circuit through the monitor fuse, secondary interlock switch, relay (RY1) and primary interlock relay (RY2), 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) which is operated by the control unit within a 32 second 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.
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SENSOR COOKING CONDITION
Using the SENSOR function, food is 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. the sensor "senses" the vapor and its resistance increase 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: (Potatoes)
1. Potatoes at room temperature. Vapor is emitted very slowly.
2.Heat Potatoes. Moisture and humidity is emitted very 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 one of the SENSOR pads. NOTE: The oven should not be operated on sensor
immediately after plugging in the unit. Wait two minutes before cooking on SENSOR.
2. The coil of shut-off relay (RY-1) is energized, the turntable motor are turned on, but the power transformer is not turned on.
3. After about 16 seconds, the cook relay (RY-2) is energized. The power transformer is turned on, microwave energy is produced and first stage is started. The 16 seconds is the cooling time required to remove any vapor from the oven cavity and sensor.
NOTE: During this first stage, do not open the door or touch
STOP/CLEAR pad.
4. When the sensor detects the vapor emitted from the food, the display switches over to the remaining cooking time and the timer counts down to zero. At this time, the door may be opened to stir, turn or season food.
5. When the timer reaches zero, an audible signal sounds. The shut-off relay and cook relay are de-energized and the power transformer, oven lamp, etc. are turned off.
6. Opening the door or touching the STOP/CLEAR pad, the time of the day will reappear on the display and the oven will revert to an OFF condition. When the timer reaches zero, an audible signal sounds.
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Figure O-2 Oven Schematic - Cooking Condition
Figure O-1 Oven Schematic - Off Condition
SCHEMATIC
NOTE: CONDITION OF OVEN
1. DOOR CLOSED
2. CLOCK APPEARS ON DISPLAY
120V AC 60 Hz
OVEN LAMP
TURN­TABLE MOTOR
FAN MOTOR
MONITOR SWITCH
H.V. RECTIFIER
MAGNETRON
SECONDARY INTERLOCK SWITCH
TTM
OL FM
CAVITY TEMP. FUSE
A1
A2
COM.
COM.
COM.N.O.
N.C.
N.O.
DOOR SENSING SWITCH
(RY-1)
(RY-2)
CONTROL UNIT
PRIMARY INTERLOCK RELAY
B1 B2
GRN
POWER TRANSFORMER
MONITOR FUSE 20A
MAGNETRON TEMP. FUSE
CAPACITOR 1.0µF AC 2300V
AH SENSOR
SCHEMATIC
3. VARIABLE COOKING CONTROL "HIGH"
2. COOKING TIME PROGRAMMED
1. DOOR CLOSED
NOTE: CONDITION OF OVEN
4. "START" PAD TOUCHED
120V AC 60 Hz
OVEN LAMP
TURN­TABLE MOTOR
FAN MOTOR
MONITOR SWITCH
H.V. RECTIFIER
MAGNETRON
SECONDARY INTERLOCK SWITCH
TTM
OL FM
MONITOR FUSE 20A
CAVITY TEMP. FUSE
MAGNETRON TEMP. FUSE
A1
A2
COM.
COM.
COM.N.O.
N.C.
N.O.
DOOR SENSING SWITCH
(RY-1)
(RY-2)
CONTROL UNIT
PRIMARY INTERLOCK RELAY
B1 B2
GRN
POWER TRANSFORMER
CAPACITOR 1.0µF AC 2300V
AH SENSOR
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DESCRIPTION AND FUNCTION OF COMPONENTS
DOOR OPEN MECHANISM
The door is opened by pushing the open button on the control panel, refer to the Figure D-1. When the open button is pushed, the open button pushes up the switch lever, and then the switch lever pushes up the latch head. The latch heads are moved upward and released from latch hook. Now the door will open.
Figure D-1. Door Open Mechanism
DOOR SENSING AND SECONDARY INTERLOCK SWITCHES
The secondary interlock switch is mounted in the lower position of the latch hook and the door sensing switch in the primary interlock system is mounted in the upper position of the latch hook. They are activated by the latch heads on the door. When the door is opened, the switches interrupt the power to all high voltage 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.
MONITOR SWITCH
The monitor switch is activated (the contacts opened) by the latch head on the door 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 (RY2) 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 primary interlock relay (RY2) and secondary interlock switch 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 (RY2) 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 (RY2), RELAY (RY1), 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.
TURNTABLE MOTOR
The turntable motor rotates the turntable located on the bottom of the oven cavity, so that the foods on the turntable cook evenly during cooking. The turntable may turn in either direction.
COOLING FAN MOTOR
The cooling fan motor drives a blade which draws external cool air. This cool air is directed through the air vanes surrounding the magnetron and cools the magnetron. This air is channelled through the oven cavity to remove steam and vapors given off from the heating foods. It is then exhausted through the exhausting air vents at the oven cavity.
MONITOR FUSE
1. The monitor fuse blows when the contacts (COM-NO) of the primary interlock relay (RY2) and secondary interlock switch remain closed with the oven door open and when the monitor switch closes.
2. If the wire harness or electrical components are short­circuited, this monitor fuse blows to prevent an electric shock or fire hazard.
CAVITY TEMPERATURE FUSE
The cavity temperature fuse located on the top of the oven cavity, is designed to prevent damage to the oven by fire. If the food load is overcooked, by either error in cook time or defect in the control unit, the cavity temperature fuse will open. Under normal operation, the cavity temperature fuse remains closed. However, when abnormally high temperatures are reached within the oven cavity, the cavity temperature fuse will open at 302oF(150oC) causing the oven to shut down. NOTE: This is fuse. It does not reset.
MAGNETRON TEMPERATURE FUSE
The magnetron temperature fuse located near the magnetron is designed to prevent damage to the magnetron if an over heated condition develops in the tube due to cooling fan failure, obstructed air guide, dirty or blocked air intake, etc. Under normal operation, the magnetron temperature fuse remains closed. However, when abnormally high tempera­tures are reached within the magnetron, the magnetron tem­perature fuse will open at 302oF(150oC) causing the oven to shut down. NOTE: This is fuse. It does not reset.
Door Sensing Switch
Monitor Switch
Switch Lever
Secondary Interlock Switch
Latch Heads
Door
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TROUBLESHOOTING GUIDE
Never touch any part in the circuit with your hand or an uninsulated tool while the power supply is connected.
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, relay (RY1)
primary interlock relay (RY2), door sensing switch and secondary interlock switch before replacing the monitor fuse. If the monitor fuse is replaced, the monitor switch must also be replaced. Use part FFS-BA016/ KIT as an assembly.
IMPORTANT: Whenever troubleshooting is performed with the power supply cord disconnected. It may in, some cases, be
necessary to connect the power supply cord after the outer case has been removed, in this event,
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Disconnect the leads to the primary of the power transformer.
5. Ensure that the leads remain isolated from other components and oven chassis by using insulation tape.
6. After that procedure, reconnect the power supply cord.
When the testing is completed
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Reconnect the leads to the primary of the power transformer.
5. Reinstall the outer case (cabinet).
6. Reconnect the power supply cord after the outer case is installed.
7. Run the oven and check all functions.
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A MAGNETRON ASSEMBLY TEST
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
Home fuse or circuit breaker blows when power cord is plugged into wall receptacle
Monitor fuse blows when power cord is plugged into wall receptacle.
All letters and indicators do not appear in display when power cord is first plugged into wall outlet.
Display does not operate properly when STOP/CLEAR key is touched. (Buzzer should sound and ":" or time of day should appear in display.)
Oven lamp does not light when door is opened.
Oven lamp does not go out when door is closed.
Oven lamp lights but fan motor and turntable motor do not operate.
Oven does not go into cook cycle when START pad is touched
Oven seems to be operating but little or no heat is produced in oven load. (Food incompletely cooked or not cooked at all at end of cook cycle.)
Oven goes into a cook cycle but extremely uneven heating is produced in oven load (food).
Oven does not cook properly when programmed for Cooking Power 5 mode. (Operates properly on Cooking Power 10 (HIGH) mode.)
Oven goes into COMPU DEFROST but food is not defrosted well.
AH sensor does not end during sensor cooking condition. (Oven does not shut off after a cup of water is boiling by sensor cooking)
Oven stops at 16 sec. after starting.
OFF CONDITION
PROBLEM
CONDITION
SHORT IN POWER CORD
SHORT OR OPENED WIRING
MAGNETRON
POWER TRANSFORMER
H.V. RECTIFIER ASSEMBLY
HIGH VOLTAGE CAPACITOR
CAVITY TEMPERATURE FUSE
MAGNETRON TEMPERATURE FUSE
PRIMARY INTERLOCK SYSTEM
SECONDARY INTERLOCK SWITCH
MONITOR SWITCH
MONITOR FUSE
OVEN LAMP OR SOCKET
COOLING FAN MOTOR
TURNTABLE MOTOR
TOUCH CONTROL PANEL
WRONG OPERATION
LOW VOLTAGE
DIRTY OVEN CAVITY
KEY UNIT
RELAY (RY1)
COMPU DEFROST
FOIL PATTERN ON PWB.
AH SENSOR
POSSIBLE CAUSE
AND
DEFECTIVE PARTS
TEST PROCEDURE
RE RE
ABCDEEFFGH
RE RE
CKICKCKCK
J K L M N
COOKING CONDITION
CK = Check / RE = Replace
TEST PROCEDURES
PROCEDURE
LETTER
COMPONENT TEST
SENSOR COOKING CONDITION
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R-430DK R-430DW R-430DQ R-440DK R-440DW
B POWER TRANSFORMER TEST
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Disconnect the 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 90 ohms; the resistance of the filament coil should be less than 1 ohm.
5. Reconnect all leads removed from components during testing.
6. Reinstall the outer case (cabinet).
7. Reconnect the power supply cord after the outer case is installed.
8. Run the oven and check all functions.
(HIGH VOLTAGES ARE PRESENT AT THE HIGH VOLTAGE TERMINAL, SO DO NOT ATTEMPT TO MEASURE THE FILAMENT AND HIGH VOLTAGE.)
TEST PROCEDURES
PROCEDURE
LETTER
COMPONENT TEST
4. 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.
5. 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.
6. Reconnect all leads removed from components during testing.
7. Reinstall the outer case (cabinet).
8. Reconnect the power supply cord after the outer case is installed.
9. Run the oven and check all functions.
MICROWAVE OUTPUT POWER
The following test procedure should be carried out with the microwave oven in a fully assembled condition (outer case fitted).
HIGH VOLTAGES ARE PRESENT DURING THE COOK CYCLE, SO EXTREME CAUTION SHOULD BE OBSERVED.
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 10(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 38 to 78oF(21 to 42.6oC) 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.
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R-430DK R-430DW R-430DQ R-440DK R-440DW
TEST PROCEDURES
PROCEDURE
LETTER
COMPONENT TEST
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. 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 an open circuit 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.
5. Reconnect all leads removed from components during testing.
6. Reinstall the outer case (cabinet).
7. Reconnect the power supply cord after the outer case is installed.
8. Run the oven and check all functions.
D HIGH VOLTAGE CAPACITOR TEST
E CAVITY TEMPERATURE FUSE TEST
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. A continuity check across the cavity temperature fuse terminals should indicate a closed circuit unless the temperature of the cavity temperature fuse reaches approximately 302oF(150oC). An open cavity temperature fuse indicates overheating of the oven, exchange the cavity temperature fuse and check inside of oven cavity and for improper setting of cooking time or operation of control unit. Check for restricted air flow through the vent holes of the oven cavity, especially the cooling fan and air guide.
5. Reconnect all leads removed from components during testing.
6. Reinstall the outer case (cabinet).
7. Reconnect the power supply cord after the outer case is installed.
8. Run the oven and check all functions.
MAGNETRON TEMPERATURE FUSE TEST
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. A continuity check across the magnetron temperature fuse terminals should indicate a closed circuit unless the temperature of the magnetron temperature fuse reaches approximately 302oF(150oC). An open magnetron temperature fuse indicates overheating of the magnetron. Check for restricted air flow to the magnetron, especially the cooling fan air guide.
5. Reconnect all leads removed from components during testing.
6. Reinstall the outer case (cabinet).
7. Reconnect the power supply cord after the outer case is installed.
8. Run the oven and check all functions.
C HIGH VOLTAGE RECTIFIER TEST
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. 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.
5. Reconnect all leads removed from components during testing.
6. Reinstall the outer case (cabinet).
7. Reconnect the power supply cord after the outer case is installed.
8. Run the oven and check all functions.
NOTE: Be sure to use an ohmmeter that will supply a forward bias voltage of more than 6.3 volts.
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R-430DK R-430DW R-430DQ R-440DK R-440DW
TEST PROCEDURES
PROCEDURE
LETTER
COMPONENT TEST
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Before performing this test, make sure that the secondary interlock switch and the primary interlock relay are operating properly, according to the above Switch Test Procedure. Disconnect the wire lead from the monitor switch (COM) 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, reconnect the wire lead to the monitor switch (COM) terminal and check the continuity of the monitor circuit.
CAUTION: IF THE TEMPERATURE FUSE INDICATES AN OPEN CIRCUIT AT ROOM TEMPERA-
TURE, REPLACE TEMPERATURE FUSE.
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Isolate the switch and connect the ohmmeter to the common (COM.) and normally open (NO) terminal of the switch. The meter should indicate 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.
5. Reconnect all leads removed from components during testing.
6. Reinstall the outer case (cabinet).
7. Reconnect the power supply cord after the outer case is installed.
8. Run the oven and check all functions.
PRIMARY INTERLOCK SYSTEM TEST
DOOR SENSING SWITCH
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Isolate the switch and connect the ohmmeter to the common (COM.) and normally open (NO) terminal of the switch. The meter should indicate 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.
5. Reconnect all leads removed from components during testing.
6. Reinstall the outer case (cabinet).
7. Reconnect the power supply cord after the outer case is installed.
8. Run the oven and check all functions.
NOTE: If the door sensing switch contacts fail in the open position and the door is closed, the cooling fan,
turntable and oven light will be activated by RY1.
PRIMARY INTERLOCK RELAY (RY2)
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Disconnect two (2) wire leads from the male tab terminals of the Primary Interlock Relay. Check the state of the relay contacts using a ohmmeter. The relay contacts should be open. If the relay contacts are closed, replace the circuit board entirely or the relay itself.
5. Reconnect all leads removed from components during testing.
6. Reinstall the outer case (cabinet).
7. Reconnect the power supply cord after the outer case is installed.
8. Run the oven and check all functions.
F SECONDARY INTERLOCK SWITCH TEST
G MONITOR SWITCH TEST
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R-430DK R-430DW R-430DQ R-440DK R-440DW
H BLOWN MONITOR FUSE TEST
TEST PROCEDURES
PROCEDURE
LETTER
COMPONENT TEST
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. If the monitor fuse is blown when the door is opened, check the primary interlock relay, secondary interlock 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 monitor switch must be replaced with "monitor fuse and monitor switch assembly" part number FFS-BA016/KIT, even if the monitor switch operates normally. The monitor fuse and monitor switch assembly is comprised of a 20 ampere fuse and switch.
5. Reconnect all leads removed from components during testing.
6. Reinstall the outer case (cabinet).
7. Reconnect the power supply cord after the outer case is installed.
8. Run the oven and check all functions.
The touch control panel consists of circuits including semiconductors such as LSI, ICs, etc. Therefore, unlike conventional microwave ovens, proper maintenance cannot be performed with only a voltmeter and ohmmeter. In this service manual, the touch control panel assembly is divided into two units, Control Unit and Key Unit, and also the Control Unit is divided into two units, LSI Unit and Power Unit, and troubleshooting by unit replacement is described according to the symptoms indicated.
Before testing,
1) Disconnect the power supply cord, and then remove outer case.
2) Open the door and block it open.
3) Discharge high voltage capacitor.
4) Disconnect the leads to the primary of the power transformer.
5) Ensure that these leads remain isolated from other components and oven chassis by using insulation tape.
6) After that procedure, re-connect the power supply cord.
1. Key Unit.
NOTE ;
1) Disconnect the power supply cord, and then remove outer case.
2) Open the door and block it open.
3) Discharge high voltage capacitor.
4) Check Key unit ribbon connection before replacement.
5) Reconnect all leads removed from components during testing.
6) Re-install the outer case (cabinet).
7) Reconnect the power supply cord after the outer case is installed.
8) Run the oven and check all functions.
I TOUCH CONTROL PANEL ASSEMBLY TEST
5. Reconnect all leads removed from components during testing.
6. Reinstall the outer case (cabinet).
7. Reconnect the power supply cord after the outer case is installed.
8. Run the oven and check all functions.
Monitor Switch
Secondary Interlock Switch
Screw Driver
Ohmmeter
RED
WHT/WHT
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R-430DK R-430DW R-430DQ R-440DK R-440DW
The following symptoms indicate a defective 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. If the Key unit is defective.
1) Disconnect the power supply cord, and then remove outer case.
2) Open the door and block it open.
3) Discharge high voltage capacitor.
4) Replace the Key unit.
5) Reconnect all leads removed from components during testing.
6) Re-install the outer case (cabinet).
7) Reconnect the power supply cord after the outer case is installed.
8) Run the oven and check all functions.
2. Control Unit The following symptoms indicate a defective control unit. Before replacing the control unit, perform the Key unit test (Procedure J) to determine if control unit is faulty.
2-1 In connection with pads.
a) When touching the pads, a certain group of pads do not produce a signal. b) When touching the pads, no pads produce a signal.
2-2 In connection with indicators
a) At a certain digit, all or some segments do not light up. b) At a certain digit, brightness is low. c) Only one indicator does not light. d) The corresponding segments of all digits do not light up; or they continue to light up. e) Wrong figure appears. f) A certain group of indicators do not light up. g) The figure of all digits flicker. h) The following symptoms indicate a defective LSI unit.
• When touching the keys on the touch screen, a certain key produces no signal at all.
• When touching a number key on the touch screen, two figures or more are displayed.
• When touching the keys on the touch screen, sometimes a key produces no signal.
2-3 Other possible problems 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.
When testing is completed,
1) Disconnect the power supply cord, and then remove outer case.
2) Open the door and block it open.
3) Discharge high voltage capacitor.
4) Reconnect all leads removed from components during testing.
5) Re-install the outer case (cabinet).
6) Reconnect the power supply cord after the outer case is installed.
7) Run the oven and check all functions..
TEST PROCEDURES
PROCEDURE LETTER COMPONENT TEST
J KEY UNIT TEST
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. 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. If the control unit responds by clearing with a beep the key unit is faulty and must be replaced. If the control unit does not respond, it is faulty and must be replaced. If a specific pad does not respond, the above method may be used (after clearing the control unit) to determine if the control unit or key pad is at fault.
5. Reconnect all leads removed from components during testing.
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R-430DK R-430DW R-430DQ R-440DK R-440DW
Popcorn
COMPU
DEFROST
Custom
Help
Stop
Clear
Baked
Potatoes
5
4
3
21
09876
Power
Level
Minute
Plus
Frozen Snacks
Ground
Meat
Start
Touch On
G 8
G 9
G10
G11
G12
G13
G14
G 7 G 6 G 5 G 4 G 3 G 2 G 1
Beverage
Center
One Dish
Dinners
Frozen
Vegetables
Clock
Kitchen
Timer
Fish/
Seafood
Sensor Reheat
Rice
Lunch on
the Run
Fresh
Vegetables
Frozen entrees
Poultry
Breakfast
Bar
Super
Defrost
WARNING : The oven should be fully assembled before following procedure. (1)Place one cup of water in the center of the turntable tray in the oven cavity. (2)For R-430DK/DW/DQ, Close the door, touch the " Compu Defrost " pad three times and touch the
number pad 5. And then touch the start pad. For R-440DK/DW, Close the door, touch the Defrost pad and select compu Defrost. Then select Steaks/
Chops/Fish. (Now, weight 0.5lb is set.) And then touch the start pad.
(3)The oven is in Compu Defrost cooking condition. (4)The oven will operate as follows 1ST STAGE 2ND STAGE
WEIGHT
LEVEL TIME LEVEL TIME
0.5lb 60% 25sec. 40% 20sec.
(5) If improper operation is indicated, the control unit is probably defective and should be checked.
6. Re-install the outer case (cabinet).
7. Reconnect the power supply cord after the outer case is installed.
8. Run the oven and check all functions.
TEST PROCEDURES
PROCEDURE
LETTER
COMPONENT TEST
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Disconnect the leads to the primary of the power transformer.
5. Ensure that these leads remain isolated from other components and oven chassis by using insulation tape.
6. After that procedure, re-connect the power supply cord.
7. Remove the outer case and check voltage between Pin No. 1 of the 2 pin connector (A) and the common terminal of the relay RY1 on the control unit with an A.C. voltmeter. The meter should indicate 120 volts, if not check oven circuit.
RY1 and RY2 Relay Test
These relays are operated by D.C. voltage Check voltage at the relay coil with a D.C. voltmeter during the microwave cooking operation.
DC. voltage indicated ............. Defective relay.
DC. voltage not indicated ........ Check diode which is connected to the relay coil. If diode is good,
control unit is defective.
RELAY SYMBOL OPERATIONAL VOLTAGE CONNECTED COMPONENTS
RY1 Approx. 24.0V D.C.(R-430D) & 24.8V D.C.(R-440D) Oven lamp / Turntable motor / Cooling fan motor RY2 Approx. 23.0V D.C.(R-430D) & 23.9V D.C.(R-440D) Power transformer
8. Disconnect the power supply cord, and then remove outer case.
9. Open the door and block it open.
10. Discharge high voltage capacitor.
11. Reconnect all leads removed from components during testing.
12. Re-install the outer case (cabinet).
13. Reconnect the power supply cord after the outer case is installed.
14. Run the oven and check all functions.
L COMPU DEFROST TEST
K RELAY TEST
R-430DK/DW/DQ R-440DK/DW
Set Up
Pasta
Grains
Beverage
Center
Frozen
Food
START
Vegetables
MINUTE
PLUS
Defrost
3+6
More from
Your
Microwave
Baked
Potatoes
Reheat
Poultry
Fish /
Seafood
Meat
Popcorn
STOP
CLEAR
G 1
G 5
G 6
G13
G12
G11
G15
G 2 G 3 G14
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R-430DK R-430DW R-430DQ R-440DK R-440DW
1) Disconnect the power supply cord, and then remove outer case.
2) Open the door and block it open.
3) Discharge high voltage capacitor.
4) Follow the troubleshooting guide given below for repair.
STEPS OCCURRENCE CAUSE OR CORRECTION
1 Only pattern at "a" is broken. *Insert jumper wire J1 and solder. 2 Pattern at "a" and "b" are broken. *Insert the coil RCILF2003YAZZ between "c" and "d".
5) Make a visual inspection of the varistor. Check for burned damage and examine the transformer with a tester for the presence of layer short-circuit (for R­430D K/DW/DQcheck the primary coil resistance which is approximately 210 ohm ± 15%). (for R-440DK/DW/DQ check the primary coil resistance which is approximately 133 ohm ± 10%). If any abnormal condition is detected, replace the defective parts.
6) Reconnect all leads removed from components during testing.
7) Re-install the outer case (cabinet).
8) Reconnect the power supply cord after the outer case is installed.
9) Run the oven and check all functions.
2. Follow the troubleshooting guide given below, if indicator does not light up after above check and repairs are finished.
1) Disconnect the power supply cord, and then remove outer case.
2) Open the door and block it open.
3) Discharge high voltage capacitor.
4) Disconnect the leads to the primary of the power transformer.
5) Ensure that these leads remain isolated from other components and oven chassis by using
insulation tape.
6) After that procedure, re-connect the power supply cord.
7) Follow the troubleshooting guide given below for repair.
STEPS OCCURRENCE CAUSE OR CORRECTION
The rated AC voltage is not present between
1 Pin No. 1 of the 2-pin connector (A) and the Check supply voltage and oven power cord.
common terminal of the relay RY1.
2
The rated AC voltage is present at primary Low voltage transformer or secondary circuit defective. side of low voltage transformer. Check and repair.
8) Disconnect the power supply cord, and then remove outer case.
9) Open the door and block it open.
10) Discharge high voltage capacitor.
11) Reconnect all leads removed from components during testing.
12) Re-install the outer case (cabinet).
13) Reconnect the power supply cord after the outer case is installed.
14) Run the oven and check all functions.
M FOIL PATTERN ON THE PRINTED WIRING BOARD TEST
To protect the electronic circuits, this model is provided with a fine foil pattern added
to the primary on the PWB, this foil pattern acts as a fuse.
TEST PROCEDURES
PROCEDURE
LETTER
COMPONENT TEST
1. Foil pattern check and repairs.
T1
AC
VRS1
OMIF
DU
CN - A
(J1)
a
b
c
d
12
XA
VH
(J1)
VRS1
RY1
a
b
d
c
R-430DK/DW/DQ
R-440DK/DW
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R-430DK R-430DW R-430DQ R-440DK R-440DW
TEST PROCEDURES
PROCEDURE
LETTER
COMPONENT TEST
Checking the initial sensor cooking condition Warning: The oven should be fully assembled before following procedure.
1) The oven should be plugged in at least two minutes before sensor cooking.
2) Room temperature should not exceed 9 5oF(35oC).
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 conventional surface unit. Refer to the "INSTALLATION INSTRUCTIONS" of the operational manual.
(4)Exhaust vents are provided on the back of the unit for proper cooling and air flow in the cavity. To permit
adequate ventilation, be sure to install so as not to block these vents. There should be some space for air circulation.
(5)Be sure the exterior of the cooking container and the interior of the oven are dry. Wipe off any moisture
with dry cloth or paper towel.
(6)The Sensor works with food at normal storage temperature. For example, chicken pieces would be
at refrigerator temperature and canned soup at room temperature.
(7)Avoid using aerosol sprays or cleaning solvents near the oven while using Sensor settings. The
sensor will detect the vapor given of by the spray and turn off before food is properly cooked.
(8)If the sensor has not detected the vapor of the food, ERROR will apear and the oven will shut off.
Water load cooking test Warning: The oven should be fully assembled before following procedure.
Make sure the oven the oven has been plugged in at least two minutes before checking sensor cook operation . the cabinet should be installed and screws tightened. (1) The oven should be plugged in at least two minutes before sensor cooking (2) Fill approximately 200 milliliters (7.2 oz) of tap water in 1000 milliliters measuring cup. (3) Place the container on the center of tray in the oven cavity. (4) Close the door. (5) For R-430DK/DW/DQ, Touch SENSOR REHEAT pad once and touch the start pad. Now, the oven is in the sensor cooking condition "SENSOR REHEAT" will appear in the display. For R-440DK/DW, Touch Reheat pad. Now, the oven is in the sensor cooking condition and "REHEAT" will appear in the display for approx. 7 sec. and then "SENSING" will appear. (6) The oven will operate for the first 16 seconds, without generating microwave energy. NOTE: ERROR will appear if the door is opened or STOP/CLEAR pad is touched during the first stage
of sensor cooking. (7) After approximately 16 seconds, microwave energy is produced, and the display should start to count down the remaining cooking time and the 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 explaination 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 the power supply cord, and then remove outer case. (2) Open the door and block it open. (3) Discharge high voltage capacitor. (4)Remove the AH sensor. (5)Install the new AH sensor. (6)Reconnect all leads removed from components during testing. (7)Re-install the outer case (cabinet) (8) Reconnect the power supply cord after the outer case is installed. (9)Reconnect the oven to the power supply and check the sensor cook operation as follows:
9-1. Fill approximately 200 milliliters (7.2 oz) of tap water in a 1000 milliliter measuring cup. 9-2. Place the container on the center of tray in the oven cavity. 9-3. close the door. 9-4. For R-430DK/DW/DQ, Touch SENSOR REHEAT pad and touch the Start pad. For R-440DK/DW, touch REHEAT pad 9-5.The control panel is in automatic sensor operation. 9-6.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 does not operate properly, the problem is with the control unit, and refer to explanation below.
N AH SENSOR TEST
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R-430DK R-430DW R-430DQ R-440DK R-440DW
CHECKING CONTROL UNIT
(1) Disconnect the power supply cord, and then remove outer case. (2) Open the door and block it open. (3) Discharge high voltage capacitor. (4) Disconnect the sensor connector that is mounted to control panel. (5) Then connect the dummy resistor circuit (see fig.) to the sensor connector of control panel. (6) Disconnect the leads to the primary of power transformer. (7) Ensure that these leads remain isolated from other components and oven chassis by using insulation tape. (8) After that procedure, re-connect the power supply cord. (9) Check the sensor cook operation proceed as follows: 9-1 For R-430DK/DW/DQ, Touch SENSOR REHEAT pad and touch start pad. For R-440DK/DW, Touch Reheat pad. 9-2 The control panel is in the sensor cooking operation. 9-3 For R-430DK/DW/DQ, after approximately 30 seconds, push plunger of select switch for more than 3 seconds. For R-440DK/DW, after approximately 50 seconds, push plunger of select switch for more than 3 seconds. This condition is same as judgement by AH sensor. 9-4 After approximately 3 seconds, the display shows "xx.xx" which is 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. (10)Disconnect the power supply cord, and then remove outer case. (11)Open the door and block it open. (12)Discharge high voltage capacitor. (13)Reconnect the sensor connector that is mounted to control panel. (14)Carry out the necessary repair. (15)Reconnect all leads removed from components during testing and repairing. (16)Re-install the outer case (cabinet) (17)Reconnect the power supply cord after the outer case is installed. Run the oven and check all
functions
(18)Carry out the "water load cooking test" again and ensure that the oven work properly.
TEST PROCEDURES
PROCEDURE
LETTER
COMPONENT TEST
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R-430DK R-430DW R-430DQ R-440DK R-440DW
TOUCH CONTROL PANEL ASSEMBLY
OUTLINE OF TOUCH CONTROL PANEL FOR R-430DK/DW/DQ
The touch control section consists of the following units. (1)Key Unit
(2)Control Unit (The Control Unit consists of Power Unit and
LSI Unit).
The principal functions of these units and the signals com­municated among them are explained below.
Key Unit
The key unit is composed of a matrix, signals generated in the LSI are sent to the key unit through P110-P117. When a key pad is touched, a signal is completed through the key unit and passed back to the LSI through P100, P101, P102, P103, ANI6 and ANI7 to perform the function that was requested.
Control Unit
Control unit consists of LSI, ACL circuit, indicator circuit, power source circuit, relay circuit, buzzer circuit, synchro­nizing signal circuit and back light circuit.
1) ACL
This circuit generates a signal which resets the LSI to the initial state when power is supplied.
2) Indicator Circuit
This circuit consists of 40 segments and 16 common electrodes using a Liquid Crystal Display. The Liquid Crystal Display (LCD) is derived by LCD Driver IC3.
3) Power Source Circuit
This circuit generates voltages necessary in the control unit from the AC line voltage. In addition, the synchronizing signal is available in order to compose a basic standard time in the clock circuit.
Symbol Voltage Application
VC -5V LSI(IC1)
4) Relay Circuit
A circuit to drive the magnetron, fan motor, turntable motor and light the oven lamp.
5) Buzzer Circuit
The buzzer is responsive to signals from the LSI to emit audible sounds (key touch sound and completion sound).
6) Synchronizing Signal Circuit
The power source synchronizing signal is available in order to compose a basic standard time in the clock circuit. It accompanies a very small error because it works on commercial frequency.
7) Door Sensing Switch
A switch to “tell” the LSI if the door is open or closed.
8) Back Light Circuit
A circuit to drive the back light (Light emitting diodes LD10- LD19).
9) Absolute Humidity Sensor Circuit
This circuit detects moisture of the cooking food to allow its automatic cooking.
LSI(IXA037DR): R-430DK/DW/DQ
The I/O signal of the LSI(IXA037DR) is detailed in the following table.
Pin No. Signal I/O Description
1-2 P26-P27 OUT Terminal not used. 3-5 P70-P72 OUT Terminal not used.
6 IC IN Connected to VC. 7 X2 OUT Internal clock oscillation output.
Output to control oscillation input to X2.
8X1INInternal clock oscillation frequency control input setting.
The internal clock frequency is set by inserting the ceramic filter oscillation circuit with respect to X1.
9 VDD1 IN Power source voltage: GND(0V).
The power source voltage to drive LSI is input to VDD1 terminal. 10 XT1 IN Connected to GND. 11 XT2 OUT Terminal not used.
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R-430DK R-430DW R-430DQ R-440DK R-440DW
12 RESET IN Auto clear terminal.
Signal is input to reset the LSI to the initial state when power is applied. Temporarily set "L" level the moment power is applied, at this time the LSI is reset. Thereafter set
at "H" level. 13 INTP0 IN Connected to VC. 14 INTP1 IN Signal synchronized with commercial power source frequency.
This is the basic timing for time processing of LSI.
15 P02 OUT Terminal not used. 16 P03 OUT Magnetron high-voltage circuit driving signal.
To turn on and off the cook relay (RY2).
The signals holds "L" level during
microwave cooking and "H" level while not
cooking. In other cooking modes (variable
cooking) the signal turns to "H" level and
"L" level in repetition according to the power
level.
(ON and OFF times for other power level.)
17 P04 OUT Oven lamp, fan motor and turntable motor driving signal
To turn on and off shut off relay (RY1). The
square waveform voltage is delivered to
the RY1 driving circuit and RY2 control
circuit.
18 P05 OUT Terminal not used. 19 P110 OUT Key strobe signal.
Signal applied to touch-key section. A pulse signal is input to ANI7, P100, P101,
P102 and P103 terminal while one of G8 line keys on key matrix is touched.
Pin No. Signal I/O Description
20 P111 OUT Key strobe signal.
Signal applied to touch-key section. A pulse signal is input to ANI7, P100, P101,
P102 and P103 terminal while one of G7 line keys on key matrix is touched. 21 P112 OUT Key strobe signal.
Signal applied to touch-key section. A pulse signal is input to ANI7, P100, P101,
P102 and P103 terminal while one of G6 line keys on key matrix is touched. 22 P113 OUT Key strobe signal.
Signal applied to touch-key section. A pulse signal is input to ANI7, P100, P101,
P102 and P103 terminal while one of G5 line keys on key matrix is touched.
23 P114 OUT Key strobe signal.
Signal applied to touch-key section. A pulse signal is input to ANI6, ANI7, P100, P101, P102 and P103 terminal while one of G4 line keys on key matrix is touched.
24 P115 OUT Key strobe signal.
Signal applied to touch-key section. A pulse signal is input to ANI7, P100, P101, P102 and P103 terminal while one of G3 line keys on key matrix is touched.
25 P116 OUT Key strobe signal.
Signal applied to touch-key section. A pulse signal is input to ANI7, P100, P101, P102 and P103 terminal while one of G2 line keys on key matrix is touched.
26 P117 OUT Key strobe signal.
Signal applied to touch-key section. A pulse signal is input to ANI7, P100, P101, P102 and P103 terminal while one of G1 line keys on key matrix is touched.
16.7 msec.
H : GND
L : -5V
100 %
70 %
H : GND
L : -5V
H : GND
L : -5V
ON
ON
OFF
OFF
24 sec.
8 sec.
OFF
16.7 msec.
During cooking
H : GND
L : -5V
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R-430DK R-430DW R-430DQ R-440DK R-440DW
27 AVSS IN Connected to VC.
28-31 ANI0-ANI3 IN Terminal to change cooking input according to the Model.
By using the A/D converter contained in the LSI, DC voltage in accordance with the Model in operation is applied to set up its cooking constant.
32 ANI4 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.
33 ANI5 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.
34 ANI6 IN Input terminal to judge the model.
The signal out of P114 will be input into ANI6 through G4 line on key matrix. The LSI will judge the model by this signal.
35 ANI7 IN Signal coming from touch key.
When either G13 line on key matrix is touched, a corresponding signal out of P110 ­P117 will be input into ANI7. When no key is touched, the signal is held at "H" level.
36 VDD0 IN Power source voltage : GND(0V).
The power source voltage to drive LSI is input to VDD0 terminal.
37 AVREF IN A/D converter power source voltage : GND(0V).
The power source voltage to drive the A/D converter. Connected to GND.
38 P100 IN Signal similar to ANI7.
When either G12 line on key matrix is touched, a corresponding signal will be input into P100.
39 P101 IN Signal similar to ANI7.
When either G11 line on key matrix is touched, a corresponding signal will be input into P101.
40 VSS1 IN Power source voltage : -5.0V.
The power source voltage to the drive LSI is input to VSS1 terminal. Connected to VC.
41 P102 IN Signal similar to ANI7.
When either G10 line on key matrix is touched, a corresponding signal will be input into P102.
42 P103 IN Signal similar to ANI7.
When either G9 line on key matrix is touched, a corresponding signal will be input into P103.
43 P30 OUT Terminal not used.
44-48 P31-P35 OUT Used for initial balancing of the bridge circuit (absolute humidity sensor).
49 P36 OUT Signal to sound buzzer (2.0 kHz).
A: key touch sound. B: Completion sound.
50 P37 IN To input signal which communicates the door open/close information to LSI.
Door close "H" level signal (0V). Door open "L" level signal (-5V).
Pin No. Signal I/O Description
A
B
0.1 sec.
2.0 sec.
H : GND
L : -5V H : GND
L : -5V
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R-430DK R-430DW R-430DQ R-440DK R-440DW
Pin No. Signal I/O Description
51-54 COM0-COM3 OUT Terminal not used.
55 BIAS IN Terminal not used. 56 VLC0 IN Terminal not used.
57-58 VLC1-VLC2 IN Terminal not used.
59 VSS0 IN Power source voltage: -5.0V.
The power source voltage to the LSI is input to VSS0 terminal. Connected to VC. 60-83 S0-S23 OUT Terminal not used. 84-97 P97-P82 OUT Data output terminal to LCD driver IC3. 98-99 P81-P80 OUT Terminal not used.
100 P2 5 OUT Terminal not used.
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R-430DK R-430DW R-430DQ R-440DK R-440DW
ABSOLUTE HUMIDITY SENSOR CIRCUIT R-430DK/DW/DQ
(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 150oC (302oF), the resultant heat is dissipated in the air and if the two thermistors are placed in 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 inceases. 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 then the detector circuit starts to function and the LSI observes the initial voltage available at its AN1 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 R107 ~ R111 of IC2 . Changing the resistance value results in that there is the same potential at both F-3 terminal of the absolute humidity sensor and AN0 terminal of the LSI. The voltage of AN1 terminal will indicat about 16 seconds about -2.50 V. 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 AN1 terminal of the LSI. Then the LSI observes that the voltage at AN1 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 AN1 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
Absolute humidity output voltage characteristics
SW1 SW2
SW3 SW4 SW5
P31 P32 P33 P34 P35
LSI (IC1)
ANI4
ANI5
620k 300k 150k
75k
37.4k
44
47 48
32
33
46
45
47k
47k
10k
1234
5678
0.01uF
0.015uF
0.01uF
VA : -15V
VA : -15V
R90
C
90
C
91
C
93
C
92
S
F-2
1.8k
IC2
F-1
F-3
C
3.57k
3.32k
VC : -5V
0.1
uF
C. Thermistor in closed vessel S. Thermistor in open vessel
R98 R99
R96
R91
360k
R93
R92
R94
R95
D90
R100 R101
R102
R97
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R-430DK R-430DW R-430DQ R-440DK R-440DW
This circuit generates a signal which resets the LSI (IC1) to the initial state when power is supplied.
7) Indicator Circuit
This circuit consists of 100 x 160 dots using a Liquid Crystal Display. The Liquid Crystal Display (LCD) is drived by IC5.
8) Power Source Circuit
This circuit generates voltages necessary in the control unit from the AC line voltage. In addition, the synchronizing signal is available in order to compose a basic standard time in the clock circuit.
Symbol Voltage Application
VC +5V LSI(IC1)
9) Relay Circuit
A circuit to drive the magnetron, fan motor, turntable motor and light the oven lamp.
10) Buzzer Circuit
The buzzer is responsive to signals from the LSI to emit audible sounds (key touch sound and completion sound).
11) Synchronizing Signal Circuit
The power source synchronizing signal is available in order to compose a basic standard time in the clock circuit. It accompanies a very small error because it works on commercial frequency.
12) Door Sensing Switch
A switch to “tell” the LSI if the door is open or closed.
13) Back Light Circuit
A circuit to drive the back light (Light emitting diodes LED1 and LED2).
14) Absolute Humidity Sensor Circuit
This circuit detects moisture of the cooking food to allow its automatic cooking.
15) Touch Screen
The touch screen is composed of a matrix, signal generated in the LSI are sent to the key unit through P41, P42, P43 and P44. When a key is touched, a signal is completed through the touch screen and passed back to the LSI through PB1, PB2, PB3, PB4 and PB5 to perform the function that was requested.
TOUCH CONTROL PANEL ASSEMBLY
OUTLINE OF TOUCH CONTROL PANEL FOR R-440DK/DW The touch control section consists of the following units. (1) Key Unit
(2) Control Unit (The Control Unit consists of Power Unit
and LSI Unit).
The principal functions of these units and the signals communicated among them are explained below.
Key Unit
The key unit is composed of a matrix, signals generated in the LSI are sent to the key unit through P93, P94, P95 and P40. When a key pad is touched, a signal is completed through the key unit and passed back to the LSI through PB1, PB2, PB3, PB4, PB5 and AN1 to perform the function that was requested.
Control Unit
Control unit consists of LSI, IC, ACL circuit, indicator circuit, power source circuit, relay circuit, buzzer circuit, synchronizing signal circuit, key unit circuit, touch screen circuit, absolute humidity sensor circuit and back light circuit.
1) IC1 (LSI)
This is a microcomputer, responsible for controlling the entire control unit.
2) IC2
This is a read only memory IC, responsible for giving IC1 the all programmes.
3) IC3
This is an amplifier IC. This IC controls the contrast of LCD and amplify the sensor signal.
4) IC4
This is a memory IC. This memorizes the contrast of LCD.
5) IC5
This IC drives the LCD.
6) ACL
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R-430DK R-430DW R-430DQ R-440DK R-440DW
1 TIOCA2 OUT Terminal not used. 2 A20 OUT Terminal not used. 3 Vcc IN Power source voltage : +5.0V.
The power source voltage to drive LSI is input to Vcc terminal. Connected to Vcc.
4 TMO0 OUT Signal to sound buzzer.
A: key touch sound (short beep). B: Completion sound (melody or long beep).
5 PB1 IN Signal coming from touch key.
When either G11 line on key matrix is touched, a corresponding signal out of P93, P94, P95, P40, P41, P42, P43 and P44 will be input into PB1. When no key is touched, the signal is held at "H" level.
6 PB2 IN Signal similar to PB1.
When either G12 line on key matrix is touched, a corresponding signal will be input into PB2.
7 PB3 IN Signal similar to PB1.
When either G13 line on key matrix is touched, a corresponding signal will be input into PB3.
8 PB4 IN Signal similar to PB1.
When either G6 line on key matrix is touched, a corresponding signal will be input into PB4.
9 PB5 IN Signal similar to PB1.
When either G5 line on key matrix is touched, a corresponding signal will be input into PB5.
10-11 PB6-PB7 OUT Terminal not used.
12 RESO OUT Terminal not used. 13 Vss IN Power source voltage: GND(0V).
The power source voltage to drive LSI is input to Vss terminal. 14 TxD0 OUT Data signal is output to a memory IC (IC4). 15 P91 OUT Clock signal is output to a memory IC (IC4). 16 RxD0 OUT Terminal not used. 17 P93 OUT Key strobe signal.
Signal applied to key unit section. A pulse signal is input to PB1-PB5 terminal while
one of G1 line keys on key matrix is touched. 18 P94 OUT Key strobe signal.
Signal applied to key unit section. A pulse signal is input to PB1-PB5 terminal while
one of G2 line keys on key matrix is touched. 19 P95 OUT Key strobe signal.
Signal applied to key unit section. A pulse signal is input to PB1-PB5 and AN1
terminal while one of G3 line keys on key matrix is touched. 20 P40 OUT Key strobe signal.
Signal applied to key unit section. A pulse signal is input to PB1-PB5 terminal while
one of G14 line keys on key matrix is touched. 21 P41 OUT Key strobe signal.
Signal applied to touch screen section. A pulse signal is input to PB1-PB5 terminal
while one of G7 line keys on key matrix is touched. 22 P42 OUT Key strobe signal.
Signal applied to touch screen section. A pulse signal is input to PB1-PB5 terminal
while one of G8 line keys on key matrix is touched. 23 P43 OUT Key strobe signal.
Signal applied to touch screen section. A pulse signal is input to PB1-PB5 terminal
while one of G9 line keys on key matrix is touched. 24 Vss IN Power source voltage : GND(0V).
The power source voltage to drive LSI is input to VSS terminal.
LSI(IXA029DR) : R-440DK/DW
The I/O signal of the LSI(IXA029DR) is detailed in the following table.
Pin No. Signal I/O Description
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25 P44 OUT Key strobe signal.
Signal applied to touch screen section. A pulse signal is input to PB1-PB5 terminal while one of G10 line keys on key matrix is touched.
26 P45 OUT Oven lamp, fan motor and turntable motor driving signal
To turn on and off shut off relay (RY1). The square waveform voltage is delivered to the RY1 driving circuit and RY2 control circuit.
27 P46 OUT Magnetron high-voltage circuit driving signal.
To turn on and off the cook relay (RY2). The signals holds "H" level during microwave cooking and "L" level while not cooking. In other cooking modes (variable cooking) the signal turns to "L" level and "H" level in repetition according to the power level.
(ON and OFF times for other power level.)
28 P47 OUT Terminal not used.
29-36 D8-D15 OUT Data signal is output to IC2 and IC5.
37 Vcc IN Power source voltage : +5V.
The power source voltage to drive LSI is input to Vcc terminal. Connected to VCC.
38-45 A0-A7 OUT Address signal is output to IC2 and IC5.
46 Vss IN Power source voltage : GND (0V).
The power source voltage to drive LSI is input to Vss terminal.
47-58 A8-A19 OUT Address signal is output to IC2 and IC5.
59 Vss IN Power source voltage : GND (0V).
The power source voltage to drive LSI is input to Vss terminal. 60 WATT IN Connected to VCC. 61 P61 OUT Envelope signal to sound buzzer.
A: key touch sound (short beep). B: Completion sound (melody or long beep). 62 P62 OUT Reset signal is output to IC5. 63 P67 OUT Terminal not used. 64 STBY IN Connected to VCC. 65 RES IN Auto clear terminal.
Signal is input to reset the LSI to the initial state when power is applied. Temporarily
set "L" level the moment power is applied, at this time the LSI is reset. Thereafter set
at "H" level. 66 NMI IN Connected to GND. 67 Vss IN Power source voltage : GND (0V).
The power source voltage to drive LSI is input to Vss terminal. 68 EXTAL OUT Internal clock oscillation output.
Output to control oscillation input to EXTAL. 69 XTAL IN Internal clock oscillation frequency control input setting.
The internal clock frequency is set by inserting the ceramic filter oscillation circuit
with respect to XTAL. 70 Vcc IN Power source voltage : +5V.
The power source voltage to drive LSI is input to Vcc terminal. Connected to VCC. 71 AS OUT Terminal not used. 72 RD OUT Read strobe signal is output to RD terminal of IC5.
Pin No. Signal I/O Description
16.7 msec.
During cooking
H : +5V
L : GND
100 PERCENT
70 PERCENT
H : +5V
L : GND H : +5V
L : GND
ON
ON
OFF
OFF
24 sec.
8 sec.
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73 HWR OUT Write strobe signal is output to WR terminal of IC5. 74 LWR OUT Terminal not used.
75-76 MD0-MD1 IN Connected to VCC.
77 MD2 IN Connected to GND. 78 Avcc IN A/D converter power source voltage : +5V.
The power source voltage to drive the A/D converter. Connected to VCC.
79 Vref IN A/D converter power source voltage : +5V.
The power source voltage to drive the A/D converter. Connected to VCC.
80 AN0 IN Terminal to judge whether the model has the sensor cooking function or not.
By using the A/D converter contained in the LSI, DC voltage in accordance with the Model in operation is applied to judge whether the model has the sensor cooking function or not.
81 AN1 IN Input terminal to judge the model.
The signal out of P95 will be input into AN1 through G15 line on key matrix. The LSI will judge the model by this signal.
82 AN2 IN Terminal to change cooking input according to the model.
By using the A/D converter contained in the LSI, DC voltage in accordance with the
Model in operation is applied to set up its cooking constant. 83 AN3 IN Connected to VCC. 84 AN4 IN To input signal which communicates the door open/close information to LSI.
Door close "H" level signal (+5V). Door open "L" level signal (GND). 85 AN5 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. 86 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. 87 DA1 OUT The signal for the power source to drive the LCD is output to IC3. 88 Avss IN A/D converter power source voltage : GND(0V).
The power source voltage to drive the A/D converter. Connected to GND. 89 IRQ0 IN Signal synchronized with commercial power source frequency.
This is the basic timing for time processing of LSI.
90-91 P81-P82 OUT Terminal not used.
92 CS1 OUT Chip select signal is output to CS terminal of IC5. 93 CS0 OUT Chip select signal is output to CE terminal of IC2. 94 Vss IN Power source voltage : GND (0V).
The power source voltage to drive the LSI is input to Vss terminal.
95-99 PA0-PA4 OUT Used for initial balancing of the bridge circuit (absolute humidity sensor).
100 PA5 OUT Clock signal is output to IC5.
Pin No. Signal I/O Description
16.7 msec.
H : +5V
L : GND
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R-430DK R-430DW R-430DQ R-440DK R-440DW
ABSOLUTE HUMIDITY SENSOR CIRCUIT (R-440DK/DW)
(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 150½C (302½F), 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 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 R47 ~ R52. Changing the resistance values results in that there is the same potential at both F-3 terminal of the absolute humidity sensor and AN5 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. 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 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
Sensing part (Open vessel)
Sensing part (Closed vessel)
Thermistors
ventilation opening for sensing
S
C
R3
R1
R2
+
Operational amplifier
Output voltage
S : Thermistor open vessel
C : Thermistor closed vessel
2
Absolute humidity (g/m )
O
utput voltage
Absolute humidity vs, output voltage characteristic
R43 1.8K
VA : +15V VC : +5V
R
42 3.57K
R
41 3.32K
S
C
R47 47K R48 620K
R49 300K
R50 150K
R51 75K
R52 37.4K
R44 360K
R45 10K
3
F2
8
4
1
2
IC3
+
-
R40 330
C40 0.1µF
D40
R46 47K
86
PA4
PA3
PA2
PA1
PA0
AN5
SW1
SW2
SW3
SW4
SW5
AN6
LSI (IC1)
85
95
96
97
98
99
C41 0.015µF
C. Thermistor in closed vessel S. Thermistor in open vessel
C42 0.01µF
C43 0.01µF
F3
F1
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R-430DK R-430DW R-430DQ R-440DK R-440DW
1. Precautions for Handling Electronic Components
This unit uses CMOS LSI in the integral part of the circuits. When handling these parts, the following precautions should be strictly followed. CMOS LSI have extremely high impedance at its input and output terminals. For this reason, it is easily influenced by the surrounding high voltage power source, static electricity charge in clothes, etc. and sometimes it is not fully protected by the built-in protection circuit. In order to protect CMOS LSI.
1) When storing and transporting, thoroughly wrap them in aluminium foil. Also wrap all PW boards containing them in aluminium foil.
2) When soldering, ground the technician as shown in the figure and use grounded soldering iron and work table
approx. 1M ohm
TOUCH CONTROL PANEL SERVICING
5) Re-connect the power supply cord after the outer case is installed.
6) Run the oven and check all functions.
A. On some models, the power supply cord between the
touch control panel and the oven itself is so short that the two can’t be separated. For those models, check and repair all the controls (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, 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 activates 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 activates an operational state that is equivalent to the oven door being closed. Connect an external power source to the power input terminal of the touch control panel, then it is possible to check and repair the controls of the touch control panel it is also possible to check the sensor­related controls of the touch control panel by using the dummy resistor(s).
3. Servicing Tools
Tools required to service the touch control panel assembly.
1) Soldering iron: 30W (It is recommended to use a soldering iron with a grounding terminal.)
2) Oscilloscope: Single beam, frequency range: DC-10MHz type or more advanced model.
3) Others: Hand tools
4. Other Precautions
1) Before turning on the power source of the control unit, remove the aluminium foil applied for preventing static electricity.
2) Connect the connectors of the key unit to the control unit being sure that the lead wires are not twisted.
3) After aluminium foil is removed, be careful that abnormal voltage due to static electricity etc. is not applied to the input or output terminals.
4) Attach connectors, electrolytic capacitors, etc. to PWB, making sure that all connections are tight.
5) Be sure to use specified components where high precision is required.
2. Servicing of Touch Control Panel
We describe the procedures to permit servicing of the touch control panel of the microwave oven and the precautions you must take when doing so. To perform the servicing, power to the touch control panel is available either from the power line of the oven itself or from an external power source.
(1)Servicing the touch control panel with power supply
of the oven: CAUTION: THE HIGH VOLTAGE TRANSFORMER OF THE MICROWAVE OVEN IS STILL LIVE DURING SERVICING AND PRESENTS A HAZARD.
Therefore, before checking the performance of the touch
control panel,
1) Disconnect the power supply cord, and then remove outer case.
2) Open the door and block it open.
3) Discharge high voltage capacitor.
4) Disconnect the leads to the primary of the power transformer.
5) Ensure that these leads remain isolated from other components and oven chassis by using insulation tape.
6) After that procedure, re-connect the power supply cord.
After checking the performance of the touch control panel,
1) Disconnect the power supply cord.
2) Open the door and block it open.
3) Re-connect the leads to the primary of the power transformer.
4) Re-install the outer case (cabinet).
2. Shapes of Electronic Components
Transistor 2SD1859
R-430DK/DW/DQ
R-440DK/DW
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R-430DK R-430DW R-430DQ R-440DK R-440DW
To remove the outer case, proceed as follows.
1. Disconnect the power supply cord.
2. Open the oven door and block it open.
3. Remove the two (2) screws from the lower portion of the rear cabinet using a T20H Torx type or GTXH20-100 screw driver.
4. Remove the remaining two (2) screws from rear and four (4) screws along the right side of outer case.
5. Slide the entire outer case back out about 1 inch (3 cm) to free it from retaining clips on the cavity face plate.
6. Lift entire outer case from the unit.
Microwave ovens contain circuitry capable of producing very high voltage and current, contact with following parts may result in severe, possibly fatal, electric shock. (Example) High Voltage Capacitor, Power Transformer, Magnetron, High Voltage Rectifier Assembly, High Voltage Harness etc..
WARNING:
Avoid possible exposure to microwave energy. Please follow the instructions below before operating the oven.
WARNING AGAINST HIGH VOLTAGE:
OUTER CASE REMOVAL
COMPONENT REPLACEMENT AND ADJUSTMENT PROCEDURE
To prevent an electric shock, take the following pre­cautions.
1. Before wiring,
1) Disconnect the power supply cord.
2) Open the door block it open.
3) Discharge the high voltage capacitor and wait for 60 seconds.
2. Don’t let the wire leads touch to the following parts;
1) High voltage parts: Magnetron, High voltage transformer, High voltage capacitor and High voltage rectifier assembly.
2) Hot parts: Oven lamp, Magnetron, High voltage transformer and Oven cavity.
WARNING FOR WIRING
1. Disconnect the power supply cord.
2. Make sure that a definite” click” can be heard when the microwave oven door is unlatched. (Hold the door in a closed position with one hand, then push the door open button with the other, this causes the latch leads to rise, it is then possible to hear a “click’ as the door switches operate.)
3. Visually check the door and cavity face plate for damage (dents, cracks, signs of arcing etc.).
Carry out any remedial work that is necessary before operating the oven. Do not operate the oven if any of the following conditions exist;
1. Door does not close firmly.
2. Door hinge, support or latch hook is damaged.
3. The door gasket or seal is damaged.
4. The door is bent or warped.
5. There are defective parts in the door interlock system.
6. There are defective parts in the microwave generating and transmission assembly.
7. There is visible damage to the oven.
Do not operate the oven:
1. Without the RF gasket (Magnetron).
2. If the wave guide or oven cavity are not intact.
3. If the door is not closed.
4. If the outer case (cabinet) is not fitted.
3) Sharp edge:
Bottom plate, Oven cavity, Waveguide flange, Chassis support and other metallic plate.
4) Movable parts (to prevent a fault)
Fan blade, Fan motor, Switch, Switch lever, Open button.
3. Do not catch the wire leads in the outer case cabinet.
4. Insert the positive lock connector until its pin is locked and make sure that the wire leads do not come off even if the wire leads are pulled.
5. To prevent an error function, connect the wire leads correctly, referring to the Pictorial Diagram.
Please refer to ‘OVEN PARTS, CABINET PARTS, CONTROL PANEL PARTS, DOOR PARTS’, when carrying out any of the following removal procedures:
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R-430DK R-430DW R-430DQ R-440DK R-440DW
POWER TRANSFORMER REMOVAL
Re-install
1. Rest transformer on the bottom plate with its primary terminals toward the oven face plate.
2.
Secure transformer with four screws to bottom plate.
3. Re-connect wire leads (primary and high voltage) to power transformer and filament leads of transformer to magnetron and high voltage capacitor. Refer to "PICTORIAL DIAGRAM" on page 33.
4. Re-install outer case and check that oven is operating properly.
1. Disconnect the power supply cord and then remove outer case.
2. Open the oven door and block it open.
3. Discharge high voltage capacitor.
4. Disconnect wire leads (primary and high voltage) from power transformer and the filament leads from the magnetron and capacitor terminals.
5. Remove four (4) screws holding transformer to bottom plate.
6. Remove transformer from bottom plate.
CAUTION: 1. DISCONNECT OVEN FROM POWER SUP
PLY BEFORE REMOVING OUTER CASE.
2. DISCHARGE THE HIGH VOLTAGE CA­PACITOR BEFORE TOUCHING ANY OVEN COMPONENTS OR WIRING.
NOTE: When replacing the outer case, the 2 special
Torx screws must be reinstalled in the same locations.
HIGH VOLTAGE RECTIFIER AND HIGH VOLTAGE CAPACITOR REMOVAL
1. Disconnect the power supply cord and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Disconnect the high voltage wire A from the high voltage capacitor.
5. Disconnect the high voltage wire of high voltage rectifier assembly from the magnetron.
6. Disconnect the filament lead (short one) of the power transformer from the high voltage capacitor.
7. Remove one (1) screw holding capacitor holder with the high voltage rectifier to the base plate.
8. Disconnect rectifier terminal from capacitor. High voltage rectifier assembly is now free.
9. Remove capacitor holder. Capacitor is now free.
CAUTION: WHEN REPLACING HIGH VOLTAGE RECTI-
FIER AND HIGH VOLTAGE CAPACITOR, GROUND SIDE TERMINAL OF THE HIGH VOLTAGE RECTIFIER MUST BE SECURED FIRMLY WITH A GROUNDING SCREW.
MAGNETRON REMOVAL
Removal
1. Disconnect the power supply cord and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Disconnect wire leads from magnetron.
5. Remove the two (2) screws holding the chassis support to the magnetron and the oven cavity front flange.
6. Slide the magnetron duct slightly so that the two (2) screws at left hand side of the magnetron appear.
7. Carefully remove the four (4) screws holding magnetron to waveguide flange.
8. Remove the magnetron with care so that the magnetron antenna is not hit by any metal object around the antenna.
9. Now, the magnetron is free.
Re-install
1. Re-install the magnetron to waveguide flange with care to prevent damage to the magnetron antenna.
2. Secure the magnetron with the four (4) screws.
3. Hold the chassis support to the oven cavity front plate and the magnetron with the two (2) screws.
4. Reconnect the wire leads to the magnetron. Refer to "PICTORIAL DIAGRAM" on page 33.
5. Re-install outer case and check that the oven is operating properly.
CAUTION: WHEN REPLACING MAGNETRON, BE SURE
THE R.F. GASKET IS IN PLACE AND MOUNT­ING SCREWS ARE TIGHTENED SECURELY
Special screw
Screw Driver (Type: TORX T20 H or GTXH20-100)
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R-430DK R-430DW R-430DQ R-440DK R-440DW
CONTROL PANEL ASSEMBLY REMOVAL (R-430DK/DW/DQ)
POSITIVE LOCK® CONNECTOR (NO-CASE TYPE) REMOVAL
Figure C-2. Positive lock® connector
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Push the lever of positive lock® connector.
5. Pull down on the positive lock® connector.
CAUTION: WHEN CONNECTING THE POSITIVE LOCK
®
CONNECTORS TO THE TERMINALS, CON­NECT THE POSITIVE LOCK® SO THAT THE LEVER FACES YOU.
1. Disconnect the power supply cord and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Disconnect the wire leads from panel components.
5. Remove the one (1) screw holding the control panel assembly to the oven cavity front plate.
6. Slide the control panel assembly upward and remove it.
7. Now, individual components can be removed.
NOTE: 1. Before attaching a new key unit, wipe off remaining
adhesive on the control panel frame surfaces completely with a soft cloth soaked in alcohol.
2. When attaching the key unit to the control panel frame, adjust the upper edge and right edge of the key unit to the correct position of control panel frame.
3. Stick the key unit firmly to the control panel frame by rubbing with soft cloth not to scratch.
LSI UNIT NOTE: Handle the LSI unit carefully so that there is no
excessive force applied to the ribbon connection.
LSI unit
1. Disconnect the power supply cord.
2. Remove turntable and turntable support from oven cavity.
3. Lay the oven on it's backside. Remove the turntable motor cover by snipping off the material in four corners.
4. Where the corners have been snipped off bend corner areas flat. No sharp edges must be evident after removal of the turntable motor cover.
TURNTABLE MOTOR REMOVAL
5. Disconnect wire leads from turntable motor. (See "Positive lock connector removal")
6. Remove one (1) screw holding turntable motor to oven cavity.
7. Now the turntable motor is free.
8. After replacement use the one (1) screw to fit the turntable motor cover.
1.
Disconnect the power supply cord and remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Remove the oven lamp from 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. Remove the oven lamp socket from the magnetron duct by turning the socket counterclockwise.
7. Remove the oven lamp from the socket by turning the oven lamp.
8. Now, the oven lamp and the oven lamp socket are free.
OVEN LAMP AND LAMP SOCKET REMOVAL
Figure C-1. Oven lamp socket
Printed wiring board
of LSI unit
Liquid Crystal
Display (LCD)
Ribbon cable
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R-430DK R-430DW R-430DQ R-440DK R-440DW
COOLING FAN MOTOR REMOVAL
REMOVAL
1. Disconnect the power supply cord and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Disconnect the wire leads from the fan motor.
5. Remove the two (2) screws holding the fan motor to the oven cavity back plate.
6. Remove the fan blade from the fan motor shaft according to the following procedure.
7. Hold the edge of the rotor of the fan motor by using a pair of groove joint pliers.
CAUTION: * Make sure that no metal pieces 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.
8. Remove the fan blade from the shaft of the fan motor by pulling and rotating the fan blade with your hand.
9. Now, the fan blade and the fan motor will be free.
CAUTION: * Do not reuse the removed fan blade because the hole
(for shaft) may be larger than normal.
INSTALLATION
1. Install the fan blade to the fan motor shaft according to the following procedure.
2. Hold the center of the bracket which supports the shaft of the fan motor on the flat table.
3. Apply the screw lock tight into the hole (for shaft) of the fan blade.
4. 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.
5. Install the fan motor to the the oven cavity back plate with the two (2) screws.
6. Connect the wire leads to the fan motor, referring to the pictorial diagram.
Side View
Rear View
1.
Disconnect the power supply cord and remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Disconnect wire leads from the switches.
5.
Remove two (2) screws holding latch hook to oven flange.
6. Remove latch hook assembly from oven flange.
7. Push outward on the two (2) retaining tabs holding switch in place.
8. Switch is now free. At this time switch lever will be free, do not lose it.
Re-install
1. Re-install each switch in its place. The secondary interlock/ monitor switches are in the lower position and the door sensing switch is in the upper position.
2. Re-connect wire leads to each switch. Refer to pictorial diagram.
DOOR SENSING SWITCH/SECONDARY INTERLOCK SWITCH AND MONITOR SWITCH REMOVAL
AH SENSOR REPLACEMENT
REMOVAL
1.
Disconnect the power supply cord and remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
4. Remove the two (2) screws holding the AH sensor to the sensor duct.
5. Disconnect the AH sensor harness from the connector CN-F on control unit.
6. AH sensor is now free
RE-INSTALL
1.
Insert the new AH sensor into the sensor duct.
2. Install two (2) screws to secure the AH sensor.
3. Route the AH sensor harness across the oven cavity top plate and through the large opening.
4. Connect the AH sensor harness to CN-F on control unit.
5. Re-install the outer case cabinet and check for proper operation.
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R-430DK R-430DW R-430DQ R-440DK R-440DW
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.
DOOR SENSING SWITCH/SECONDARY INTERLOCK SWITCH AND MONITOR SWITCH ADJUSTMENT
1. Disconnect the power supply cord, and then remove outer case.
2. Open the door and block it open.
3. Discharge high voltage capacitor.
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.
4. Loosen the two (2) screws holding latch hook to the oven cavity front flange.
5. With door closed, adjust latch hook by moving it back and
forth, and up and down. In and out play of the door allowed
by the upper and lower position of the latch hook should be less than 0.5mm. The vertical position of the latch hook should be adjusted so that the door sensing switch and secondary interlock switch are activated with the door closed. The horizontal position of the latch hook should be adjusted so that the plunger of the monitor switch is pressed with the door closed.
6. Secure the screws with washers firmly.
7. Check the operation of all switches. If each switch has not activated with the door closed, loosen screw and adjust the latch hook position.
After adjustment, check the following.
1. In and out play of door remains less than 0.5mm when in the latched position. First check upper position of latch hook, pushing and pulling upper portion of door toward the oven face. Then check lower portion of the latch
Figure C-3. Latch Switch Adjustments
hook, pushing and pulling upper portion of door toward the oven face. Both results (play in the door) should be less than 0.5mm.
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 REPLACEMENT
REMOVAL
1. Disconnect the power supply cord.
2. Push the open button and open the door slightly.
3. Insert a putty knife (thickness of about 0.5mm) into the gap between the choke cover and door frame as shown in Figure C-4 to free engaging parts.
4. Pry the choke cover by inserting a putty knife as shown Figure C-4.
5. Release choke cover from door panel.
6. Now choke cover is free.
7. Release two (2) pins of door panel from two (2) holes of upper and lower oven hinges by lifting up.
8. Now, door panel with door frame is free from oven cavity.
Figure C-4. Door Disassembly
9. Release the door panel from twelve (12) tabs of door frame.
10.Remove the door panel from the door frame.
11.Now, door panel with sealer film is free.
12.Tear sealer film from door panel.
13.Now, door panel is free.
14.Slide latch head upward and remove it from door frame with releasing latch spring from door frame and latch head.
15.Now, latch head and latch spring are free.
16.Remove door screen from door frame
17.Now, door frame is free.
RE-INSTALL
1. Re-install door screen to door frame.
2. Re-install the latch spring to the latch head. Re-install the latch spring to the door frame. Re-install latch head to door frame.
3. Re-install door panel to door frame by fitting twelve (12) tabs of door frame to twelve (12) holes of door panel.
4. Put sealer film on door panel. Refer to “Sealer Film” about how to handle new one.
5. Catch two (2) pins of door panel on two (2) hole of upper and lower oven hinges.
Choke Cover
Door Frame
Putty Knife
Door Sensing Switch
Monitor Switch
Switch Lever
Secondary Interlock Switch
Latch Heads
Door
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R-430DK R-430DW R-430DQ R-440DK R-440DW
6. Re-install choke cover to door panel by pushing.
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.
After any service, make sure of the following :
1. Door latch heads smoothly catch latch hook through latch holes and that latch head goes through center of latch hole.
2. Deviation of door alignment from horizontal line of cavity face plate is to be less than 1.0mm.
3. Door is positioned with its face pressed toward cavity face plate.
4. Check for microwave leakage around door with an approved microwave survey meter. (Refer to Microwave Measurement Procedure.)
Note: The door on a microwave oven is designed to act as
an electronic seal preventing the leakage of microwave energy from oven cavity during cook cycle. This function does not require that door be 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.
Figure C-5. Door Replacement
SEALER FILM
Installation
1. Put the adhesive tape on the backing film of the sealer film as shown in Fig. C-6.
2. Tear the backing film by pulling the adhesive tape.
3. Put the pasted side of the sealer film on the door panel
Figure C-6. Sealer film
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R-430DK
R-430DW
R-430DQ
R-440DK
R-440DW
6
45
1
2
3
6
45
1
2
3
A
B
C
D
E
F
G
H
A
B
C
D
E
F
G
H
Figure S-1. Pictorial Diagram R-430DK/DW/DQ
HIGH VOLTAGE CAPACITOR
HIGH VOLTAGE WIRE A
H.V. RECTIFIER
POWER SUPPLY CORD 120V 60Hz
HIGH VOLTAGE COMPONENTS
OVEN LAMP AND SOCKET
MAGNETRON
COM.
MONITOR SWITCH
COM.
N.O.
COM.
COM.
N.O.
N.O.
N.C.
DOOR SENSING SWITCH
SECONDARY INTERLOCK SWITCH
TURNTABLE MOTOR
NOTE: Hot (ORG) wire must be connected to the terminal with blue mark on the oven light socket.
POWER TRANSFORMER
COM.
NO
NOTE: The neutral (WHT/GRY) wire must be connected to the terminal with "N" mark on the power supply cord.
RED
WHT
BRN
RED
WHT
WHT
ORG
WHT
RED
BLK
RED
BLU
PNK
GRN
GRN
to Oven cavity
WHT
WHT
RED
BLK
WHT
WHT
BLUE MARK
WHT
RED
WHT
CAVITY TEMP. FUSE
MAGNETRON TEMP. FUSE
FAN MOTOR
MONITOR
FUSE
&
HOLDER
RED
RED
WHT
1
WHT
GRY
WHT
ORG
BLU
GRN
ORG ORG
RY2
RY1
PRIMARY INTERLOCK RELAY
CN-A
CN-A
T1
1
12
2
CONTROL UNIT
(LSI UNIT)
(POWER UNIT)
H
N
NOTE: The grounding conductor of the power supply cord has been grounded by power supply cord fixing screw. The screw must always be kept tight.
GRY
PNK
GRN
2 1
CN-B
CN-B
BRN
WHT
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R-430DK
R-430DW
R-430DQ
R-440DK
R-440DW
6
45
1
2
3
6
45
1
2
3
A
B
C
D
E
F
G
H
A
B
C
D
E
F
G
H
HIGH VOLTAGE CAPACITOR
HIGH VOLTAGE WIRE A
H.V. RECTIFIER
POWER SUPPLY CORD 120V 60Hz
HIGH VOLTAGE COMPONENTS
OVEN LAMP AND SOCKET
MAGNETRON
COM.
MONITOR SWITCH
COM.
N.O.
N.C.
DOOR SENSING SWITCH
SECONDARY INTERLOCK SWITCH
TURNTABLE MOTOR
NOTE: Hot (ORG) wire must be connected to the terminal with blue mark on the oven light socket.
POWER TRANSFORMER
COM.
NO
NOTE: The neutral (WHT/GRY) wire must be connected to the terminal with "N" mark on the power supply cord.
RED
WHT
RED
WHT
WHT
ORG
WHT
PNK GRN
GRN
to Oven cavity
WHT
WHT
RED
BLK
WHT
WHT
BLUE MARK
WHT
RED
WHT
CAVITY TEMP. FUSE
MAGNETRON TEMP. FUSE
FAN MOTOR
MONITOR
FUSE
&
HOLDER
RED
RED
WHT
1
WHT
GRY
WHT
GRN
ORG ORG
CN-A
H
N
NOTE: The grounding conductor of the power supply cord has been grounded by power supply cord fixing screw. The screw must always be kept tight.
GRY
PNK
GRN
2 1
CN-B
CN-B
BRN
WHT
BRN
B LU
BLK
AH SENSOR
RED
WHT
1 2 3
CN-F
RED
BLK
BLU
ORG
RED
RY2
RY1
IC1
PRIMARY INTERLOCK RELAY
CN-A
(LOWER)
(UPPER)
CN-G
CN-C
CN-C
CN-F
T1
1
1
2
2
1
1
15
11
3
CONTROL UNIT
(CPU UNIT)
(POWER UNIT)
Figure S-1. Pictorial Diagram R-440DK/DW
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R-430DK R-430DW R-430DQ R-440DK R-440DW
6
45
1
2
3
6
45
1
2
3
A
B
C
D
E
F
G
H
A
B
C
D
E
F
G
H
Figure S-2(b). Power Unit Circuit for R-440DK/DW
+
+
+ –
A 1
CN-A
R4 27
D5
T1
134
D1
D3
D2
D4
6
ab
c
d
VRS1
(J1)
D7D8
1SS270A1SS270A
10G471K
C1 0.1µ/50v
C3 0.1µ/50v
ZD1
HZ16-1
C5 10µ/35v
C2 1000µ/35v
C4 10µ/35v
R1 2.4k
1SS270A1SS270A
D1-D4 11ES1
D6
R5 4.7k
R2 680 1/2w
R3 510 1/2w
R6 3.3k
Q2 2SB1238
SP1 PKM22EPT
Q1 2SB1238
RY1
RY2
Q3 KRC243M
CN-C 12PIN LEAD WIRE HARNESS
LED
GND
VC
VA INT VR
BUZZER
MICRO
NC
NC DOOR
SENSING SWITCH
OVEN LAMP TURNTABLE MOTOR FAN MOTOR
AC
AC
MICRO
DOOR SENSING SWITCH
OVEN LAMP TURNTABLE MOTOR FAN MOTOR
C10
C 2
C 3
C 1 C 4 C 9
C 5
C 6
C 7
C 8
C11
C12
A 2
NO
NO
COM
COM
B 2
B 2
+ –
A 1
NO
NO
COM
COM
B 1
A 2
C 3 C 5
C 6
T1
AC
INT VR
VA
GND
BZ/EN
BUZZR
MICRO
N.C
N.C
AC
MICRO
OVEN LAMP FAN MOTOR TURNTABLE MOTOR
OVEN LAMP FAN MOTOR TURNTABLE MOTOR
DOOR SENSING SWITCH
NOTE
: IF NOT SPECIFIED, 0.1µF / 50V
DOOR SENSING SWITCH
AC120V 60Hz
CN-A
CN-C
11P LEAD WIRE HARNESS
SP30
RY1
GND
RY2
ab
c
d
D1
D1 S1NB10
R2 91 1w
Q1 2SD1859
R3 91 1w
ZD1
HZ16-1
R1
VRS1
(J1)
10G471K
2.4k
1/4w
C2 1000µ/35v
C1
C 4
C11
C10
C 9
C 7
C 8
C 2
C 1
B 2
Figure S-2(a). Power Unit Circuit for R-430DK/DW/DQ
Page 43
41
R-430DK
R-430DW
R-430DQ
R-440DK
R-440DW
6
45
1
2
3
6
45
1
2
3
A
B
C
D
E
F
G
H
A
B
C
D
E
F
G
H
Figure S-3(a). CPU Unit Circuit R-430DK/DW/DQ
C-4 C-2
C-3
C-1
C-5
C-8
C-12
C-11
F-1 F-2 F-3
G 9
G10G11G12
G13
G14
G 8 G 7 G 6 G 5 G 4 G 3 G 2 G 1
+ –
C-7
LD16
LD19 LD18 LD17
LD10 LD11 LD12
LD13LD14LD15
C10 47µ/16v
C11 0.1µ/50v
C40 0.01µ/25v
C65 330p/50v
C64 330p/50v
C63 330p/50v
C62 330p/50v
C61 330p/50v
C60 330p/50v
C91
0.015µ/25v
C12
0.1µ
/50v
C13
0.01µ
/25v
C20
0.1µ /50v
C92
0.01µ
/25v
C93 0.01µ/25v
C90
0.1µ
/50v
C14
0.01µ
/25v
(J10) (J11)
4.7K
(J13)
4.7K
(J15)
4.7K
4.7K
(J12)
(J14)
(J17) (J16)
ZD10
UDZ4.3B
R96 3.57KDR91 3.32KD
R12 15k
R93 360kF
R80
1M
P26
S20
S19
S18
S17
S16
S15
S14
S13
S12
S11
S10
S 9
S 8
S 7
S 6
S 5
S 4
S 3
S 2
S 1
S 0
VSS0
VLC2
VLC1
VLC0
BIAS
COM3
COM2
COM1
COM0
P27
P70
P71
P72
I C
X 2
X 1
VDD1
XT1
XT2
RESET
INTP0
INTP1
P02
P03
P04
P05
P110
P111
P112
P113
P114
P115
P116
P117
AVSS
ANI0
ANI1
ANI2
P37S21 S22 S23 P97 P96 P95 P94 P93 P92 P91 P90 P87 P86 P85 P84 P83 P82 P81 P80 P25
P36
P35
P34
P33
P32
P31
P30
P103
P102
VSS1
P101
P100
VDD0
ANI7
ANI6
ANI5
ANI4
ANI3
AVREF
R102 37.4kF
R40 4.7k
R67
15k
R66
15k
R65
15k
R64
15k
R63
15k
R62
15k
R61
15k
R60
15k
R79 270k
P103
P102
P101
P100
ANI7
ANI6
R78 270k
R77 270k
R76 270k
R75 270k
R74 270k
R101 75kF
R100 150kF
R99 300k
R98 620k
R10 1k
R11 15k
R68 15k
R69 15k
R70 15k
R71 15k
R72 15k
R73 15k
R41 15k
R92 1.8kF
R90 330 1w
R94 10k R95 47k
R97 47k
130
31
50
5180
81
100
CF1 CST4.00MGW
Beverage
center
Compu Defrost
Minute
Plus
Frozen snacks
Lunch on
the Run
Kitchen
Timer
Start
Touch On
Power Level
Breakfast
Bar
Fish/
seafood
Frozen
vegetables
Frozen entrees
Super
Defrost
Custom
Help
Baked
potatoes
Clock
Sensor reheat
Stop
Clear
One Dish
Dinners
Popcorn
Fresh
vegetables
Ground
meat
Rice
Poultry
54321 09876
EDCBA
Q30 DTA143EKA
Q20 DTA143EKA
D20 1SS355
D41 1SS355
Q21 DTA123JKA
Q11 DTA143EKA
Q10 2SA 1037AK
D90 MA152WA
IC2 BA4558
56
E D C B A
78
1234
GND
Indicator Circuit ( See Fig. S-4 )
CPU UNIT
DOOR SENSING SWITCH
CN-F AH SENSOR
NOTE
: IF NOT SPECIFIED 1/10W ± 5%
INT GND
VR
LED
VC
VA
NC
MICRO
(BROWNER)
BUZZER
OVEN LAMP TURNTABLE MOTOR FAN MOTOR
IC1 IXA037DR
KEY UNIT
C-6
C-10
C-9
Page 44
42
R-430DK
R-430DW
R-430DQ
R-440DK
R-440DW
6
45
1
2
3
6
45
1
2
3
A
B
C
D
E
F
G
H
A
B
C
D
E
F
G
H
46
GND1 VLCD1
COM99 COM98
COM51
COM100
SEG160 SEG159 SEG158
SEG3 SEG2
SEG1 COM50 COM49
COM3
COM2
COM1
VCC1
V50
18
27
4142434445
123
4
26252423222120
19
A13
AN0
Vref
Avcc
MD2
NC
VCC
V0
Cd
NC
14
85
NC
NC
GND
MD1
MD0
LWR
HWR
RD
AS
Vcc
XTAL
EXTAL
Vss
NMI
RES
STBY
P67
P62
P61
WAIT
Vss
A19
A18
A17
A16
A15
A14
A13
A12
8079787776757473727170696867666564636261605958575655545352
51
A3
1
TI0CA2
A20
Vcc
TM00
PB1
PB2
PB3
PB4
PB5
PB6
PB7
RES0
Vss
TxD0
P91
RxD0
P93
P94
P95
P40
P41
P42
P43
Vss
P44
P45
P46
P47
D8
D9
2345678
9
101112131415161718192021222324252627282930
A2A1A0
CE
GND
0E
D0
D8
A14
A15
A16
BYTE
GND
D15/A-1
D7
D14 28 29 30 31 32 33 34 35 36 37 38 39 40
D6A12 A11 A10
A9 A8 NC NC
A18
81
AN1 AN2 AN3 AN4 AN5 AN6 DA1 Avss IR00
P81
P82 CS1 CS0
Vss PA0 PA1 PA2 PA3 PA4 PA5
82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99
100
A17
A7 A6 A5 A4
D13
D5
D12
D4 VCC VCC
50
A11 A10 A9 A8 Vss A7 A6 A5 A4 A3 A2 A1 A0 Vcc D15 D14 D13 D12 D11 D10
49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31
GND D11
D3 D10
GND
A2 A1 A0
148
5
SDA SCL WP VCC
D2
D9
D1
17 16 15 14 13 12 11 10
9 8 7 6 5
V40 V30 V20
V10 GREF IREFM IREFP VLCD2 VLCD3 VCC2 GND2 GND3 VCC3 OSC1 OSC2
OSC
CO DCON
CL1
FLM
M M/S RES
CS
RS WR
RD
VCC4 GND4
DB0 DB1 DB2 DB3 DB4 DB5 DB6 DB7
VCC5 GND5 VCC6 VLCD4 GND6
45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
C6
C4
C3
F1
WH-1 WH-1
F2
F3
C11
C10
C9
C7
C8
C2
C1
C5
VR
VA
GND
INT
AH SENSOR
BUZZER ENV.
BUZZER
OVEN LAMP TURNTABLE MOTOR FAN MOTOR
MICROR
NC
NC
DOOR SENSING SWITCH
CN-C
G 5
G 1
Set UP
Pasta
Grains
Defrost
3+6
Frozen
Food
MINUTE
PLUS
START
TOUCH SCREEN
CPU UNIT
KEY UNIT
Popcorn
Meat
STOP
CLEAR
More from
Your
microwave
Fish/
Seafood
Reheat
Beverage
Center
Vegetables
Baked
Potatoes
Poultry
G 2 G 3 G14 G 7 G 8 G 9 G10 G14
G6
G13
G12
G11
G15
+
+ –
+ –
+ –
C11 0.1µ/50v
0.1µ/50v
D40 MA152WK
0.1µ/50v
C17 0.1µ/50v
C12 0.1µ/50v
C64 330pF/50v
C63 330pF/50v
C62 330pF/50v
C61 330pF/50v
C60 330pF/50v
C65 330pF/50v
C13 47µ/16v
C14 0.01µ/25v
C16 0.01µ/25v
C130 0.01µ/25v
C19 0.1µ/25v
D80
R82
3.3k
1/4w
R81 27
R92 20kF
TH1
5G2M40B333J
R90 43kF
R91 18kF
(J80)
0 ohm
D81
D80-81
1SS355
C15 0.1µ/25v
IC6
M51953AFP
C40 0.1µ/50v
C110 0.01µ/25v
C112
0.1µ /25v
IC1 IXA029DR
IC2 IXA030DR
C98
0.01µ
/25v
IC4
NOTE : : IF NOT SPECIFIED, 1/10W ± 5%
LIQUID CRYSTAL DISPLAY
IC5 IXA031DR
100 x 160 Dots
C20
0.01µ /25v
C18
0.1µ /25v
C42 0.01µ/25v
C22
10µ
/35v
C21
0.1µ
/25v
C43 0.01µ/25v
C91 0.1µ/25v
C92 0.1µ/25v
C93 0.1µ/25v
C94 0.1µ/25v
C96 0.1µ/25v
C97 0.1µ/25v
C95 0.1µ/25v
C41
0.015µ /25v
R46 47k
R20 15k
R68 15k
R69 15k
R70 15k
R71 15k
R72 15k
R73 15k
R13 4.7k
R47 47k R48 620k R49 300k R50 150kF R51 75kF R52 37.4kF
23
IC3
4
1
-
+
8
5
6
4
IC3 8
7
-
+
VA
R41 3.32kD
Q30 KRA101S
Q20 KRA102S
Q31 KRC101S
Q32 KRC101S
D21 MA152WK
D20 MA152WK
Q22 KRC101S
Q21 KRC101S
VR
R80
4.7k
Q80 KTC1027
LED1 LED2
R10 470 1/2w
(R101) 4.7k
(J13) 4.7k
R98 1M
(J10) 4.7k
(J11)
CF1
CST12.00MTW
(J12)
Q10 KTC1027
Q12 KRC101S
VCC
Vcc
VR
R40 330 1w
R43 1.8kF
R21 4.7k
R79 270k
R78 270k
R77 270k
R76 270k
R75 270k
R74 270k
R66 15k
R65 15k
R64 15k
R63 15k
R110
4.7k
R111
4.7k
R100 4.7k
R113
150
1/2w
R112
47k
R62 15k
R61 15k
R60 15k
R67 15k
R44 360kF
R45 10k
R42
3.57kD
R11
1.2k
1/4w
ZD10
UDZ5.6B
C10 10µ/35v
C30 10µ/35v
R30 3.3k
C44
C45
Figure S-3(b). CPU Unit Circuit R-440DK/DW
Page 45
43
R-430DK
R-430DW
R-430DQ
R-440DK
R-440DW
6
45
1
2
3
6
45
1
2
3
A
B
C
D
E
F
G
H
A
B
C
D
E
F
G
H
Figure s-4. Indicator circuit for R-430DK/DW/DQ
VC
GND
IC1 P83
OSC4
VC1
VC2
VC3
VC4
VC5
CF
CE
CD
CC
CB
CA
COM8
COM9
COM10
COM11
COM12
COM13
COM14
COM15
COM16
SEG39
SEG38
SEG37
SEG36
SEG35
OSC3
VD1
OSC2
OSC1
VSS
BZ
COM0
COM1
COM2
COM3
COM4
COM5
COM6
COM7
SEG0
SEG1
SEG2
SEG3
SEG4
SEG5
SEG6
SEG7
SEG8
SEG10
COM16 COM15 COM14 COM13 COM12 COM11 COM10 COM9 SEG40 SEG39 SEG38 SEG37 SEG36 SEG35 SEG34 SEG33 SEG32 SEG31 SEG30 SEG29 SEG28 SEG27 SEG26 SEG25 SEG24 SEG23 SEG22 SEG21 SEG20 SEG19 SEG18 SEG17 SEG16 SEG15 SEG14 SEG13 SEG12 SEG11 SEG10 SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG3 SEG2 SEG1 COM1 COM2 COM3 COM4 COM5 COM6 COM7 COM8
VDD
NC NC
RESET
TEST VREF
R03 R02 R01 R00 P13 P12 P11 P10 P03 P02 P01 P00 K03 K02 K01 K00 NC NC NC
SEG11 SEG12 SEG13 SEG14 SEG15 SEG16 SEG17 SEG18 SEG19 SEG20 SEG21 SEG22 SEG23 SEG24 SEG25 SEG26 SEG27 SEG28 SEG29 SEG30 SEG31 SEG32 SEG33 SEG34
SEG9
1
100
76
7551
25
IC3 IZA951DR
26
50
R134 15k
R132 33k R133 510k
R120 4.7k
R121 4.7k
R122 4.7k
R123 4.7k
R124 4.7k
R125 4.7k
R126 4.7k
R127 4.7k
R128 4.7k
R129 4.7k
R130 4.7k
R131 4.7k
C124 0.1µ/50v
C120 0.1µ/50v C121 0.1µ/50v C122 0.1µ/50v C123 0.1µ/50v
C126
0.1µ/50v
C125
0.1µ/50v
C127
0.1µ/50v
C129
0.1µ/50v
C128
0.1µ/50v
IC1 P82
IC1 P96 IC1 P95 IC1 P94 IC1 P93 IC1 P92 IC1 P91 IC1 P90 IC1 P87 IC1 P86 IC1 P85 IC1 P84
IC1 P97
NOTE
: IF NOT SPECIFIED, 1/10W ± 5%
SENSOR DEFROST COOK HELP
LIQUID CRYSTAL DISPLAY
Page 46
44
R-430DK R-430DW R-430DQ R-440DK R-440DW
6
45
1
2
3
6
45
1
2
3
A
B
C
D
E
F
G
H
A
B
C
D
E
F
G
H
Figure S-5(b) . Printed Wiring Board of Power Unit R-440DK/DW
R3
CN - C
Q1
SH-A
(GREEN)
E
B
R2
D20
RY3
XA
VH
QKITPB031MREO
(J1)
VRS1
CN - A
R1
ZD1
C2
C1
VH
CN - B
SH-B
SP30
D22
RY1
RY2D21
T1
P
S
7
1
3
5
D U
D U
D U
O M
O M
O M
DIP
D1
11 1
1
1
2
2
12
WH - 1
SH - B
SH - A
1
C3 C4
C5
R3
C2
F
C1
10 D4 D2 D1
D3
(J1)
D9
(D10)
RY3
(CN - D)
D8
ZD1
VRB
DU
R2
R1
R6
R5
SP1
3
E
B
D6
D5
Q2
R4
2
6
11
P
S
RY2
T1
AC
VRS1
5
D7
OMIF
DU
987
E
Q1
B
4
E
RY1
AC
OL
TTM
FM
B Q3
(CN - C)
CN - C
CN - B
CN - A
1
1
9
12
1
1
12
XA
VH
2
2
Figure S-5(a) . Printed Wiring Board of Power Unit R-430DK/DW/DQ
Page 47
45
R-430DK R-430DW R-430DQ R-440DK R-440DW
REF. NO. PART NO. § DESCRIPTION Q'TY CODE
PARTS LIST
Note: The parts marked “” may cause undue microwave exposure.
The parts marked “*” are used in voltage more than 250V. "§" MARK: PARTS DELIVERY SECTION.
* *
*
*
ELECTRIC PARTS
1- 1 RC-QZB018MRE0 M High voltage capacitor 1 AQ 1- 2 FH-DZB008MRY0 M High voltage rectifier assembly 1 AM 1- 3 QSOCLB006MRE0 M Oven lamp socket 1 AE 1- 4 RLMPTA068WRE0 M Oven lamp 1 AE 1- 5 RMOTEA346WRE0 M Fan motor 1 AR
1- 6 QFSHDB003MRE0 M Fuse holder 1 AD 1- 7 FFS-BA016/KIT M
Monitor switch (V-16G-2C25) and fuse assembly (20A 250V AC)
1AF
1- 8 QSW-MA085WRE0 M
Secondary interlock switch and door sensing switch (V-16G-3C25)
2AE 1- 9 QFS-TA013WRE0 M Magnetron temperature fuse 150oC 1AE 1- 10 QFS-TA014WRE0 M Cavity temperature fuse 150oC 1AF
1- 11 RV-MZA255WRE0 M Magnetron 1 BE 1- 12 RMOTDA211/KIT M Turntable motor 1 AL 1- 13 RTRN-B064MRE0 M Power transformer 1 BD 1- 14 FACCDB003WRE0 M Power supply cord 1 AM 1- 15 FDTCTA198WRK0 M AH sensor 1 AN
CABINET PARTS
2- 1 GDAI-B057MRP0 M Base plate 1 AR 2- 2 GLEGPB004MRF0 M Foot 4 AB 2- 3 GCABUB092MRP0 M Outer case cabinet [R-430DK & R-440DK] 1 AV 2- 3 GCABUB093MRP0 M Outer case cabinet [R-430DW & R-440DW] 1 AV 2- 3 GCABUB094MRP0 M Outer case cabinet [R-430DQ] 1 AX
CONTROL PANEL PARTS
3- 1 CPWBFB043MRU0 M Control unit [R-430DK/DW/DQ] 1 BM 3- 1 CPWBFB044MRU0 M Control unit [R-440DK/DW] 1 BM 3- 1-1 DPWBFB095MRU0 M Power unit [R-440DK/DW] 1 AY 3- 1A QCNCMA275DRE0 J 2-pin connector (CN-A) 1 AB 3- 1B QCNCMA275DRE0 J 2-pin connector (CN-B) 1 AB 3- 1C FW-VZB146MRE0 J 12P wire harness (CN-C) [R-430DK/DW/DQ] 1 AG 3- 1C FW-VZB260DREZ J 11P wire harness (CN-C) [R-440DK/DW] 1 AG C1 RC-KZA087DRE0 J Capacitor 0.1 uF 50V 1 AA C2 VCEAB31VW108M J Capacitor 1000 uF 35V 1 AF C3 RC-KZA087DRE0 J Capacitor 0.1 uF 50V 1 AA C4-5 VCEAB31VW106M J Capacitor 10 uF 35V 2 AA D1 RSRCDA013DRE0 J Diode Bridge (S1NB10)[R-440DK/DW] 1 AB D1-4 VHD11ES1///-1 J Diode (11ES1) 4 AB D5-8 VHD1SS270A/-1 J Diode (1SS270ATA) 4 AA Q1 VS2SB1859//-3 J Transistor (2SD1859R)[R-440DK/DW] 1 AA Q1-2 VS2SB1238//-3 J Transistor (2SB1238)[R-430DK/DW/DQ] 2 AA Q3 VSKRC243M//-3 J Transistor (KRC243M) 1 AB R1 VRD-B12EF242J J Resistor 2.4k ohm 1/4W 1 AA R2 VRD-B12HF681J J Resistor 680 ohm 1/2W 1 AA R2-3 VRD-B13AA910J J Resistor 91 ohm 1 W 2 AA R3 VRD-B12HF511J J Resistor 510 ohm 1/2W 1 AB R4 VRD-B12EF270J J Resistor 27 ohm 1/4W 1 AA R5 VRD-B12EF472J J Resistor 4.7k ohm 1/4W 1 AA R6 VRD-B12EF332J J Resistor 3.3k ohm 1/4W 1 AA RY1-2 RRLY-A113DRE0 J Relay (DU24D1-1PR(M)) 2 AG SP1 RALM-A014DRE0 J Buzzer (PKM22EPT) 1 AG T1 RTRNPB009MRE0 J Transformer [R-430DK/DW/DQ] 1 AM T1 RTRNPA113DRE0 J Transformer [R-440DK/DW] 1 AM VRS1 RH-VZA032DRE0 J Varistor (10G471K) 1 AE ZD1 VHEHZ161///-1 J Zener diode (HZ16-1) 1 AA 3- 1-2 DPWBFC041WRKZ J LSI unit [R-440DK/DW] 1 AB 3- 2 FPNLCB285MRK0 M Control panel frame with key unit [R-430DK] 1 AX 3- 2 FPNLCB286MRK0 M Control panel frame with key unit [R-430DW] 1 AX 3- 2 FPNLCB287MRK0 M Control panel frame with key unit [R-430DQ] 1 AX 3- 2 FPNLCB305MRK0 M Control panel frame with key unit [R-440DK] 1 AX 3- 2 FPNLCB306MRK0 M Control panel frame with key unit [R-440DW] 1 AX 3- 2- 1 FUNTKB230MRE0 M Key unit [R-430DK] 1 AW 3- 2- 1 FUNTKB231MRE0 M Key unit [R-430DW] 1 AW 3- 2- 1 FUNTKB232MRE0 M Key unit [R-430DQ] 1 AW 3- 2- 1 FUNTKB250MRE0 M Key unit [R-440DK] 1 AW 3- 2- 1 FUNTKB251MRE0 M Key unit [R-440DW] 1 AW
Page 48
46
R-430DK R-430DW R-430DQ R-440DK R-440DW
REF. NO. PART NO. § DESCRIPTION Q'TY CODE
∆ ∆ ∆
3- 2- 2 JBTN-B094MRF0 M Open button [R-430DK & R-440DK] 1 AE 3- 2- 2 JBTN-B095MRF0 M Open button [R-430DW & R-440DW] 1 AE 3- 2- 2 JBTN-B096MRF0 M Open button [R-430DQ] 1 AE 3- 2- 3 MSPRTA050WRE0 M Open button spring 1 AA 3- 3 LHLD-B013MRF0 M LCD holder 1 AF 3- 4 PSHEPB027MRE0 M LED sheet 1 AF 3- 5 XEPSD30P10XS0 J Screw; 3mm x 10mm [R-430DK/DW/DQ] 3 AA 3- 5 XEPSD30P10XS0 J Screw; 3mm x 10mm [R-440DK/DW] 5 AA
OVEN PARTS
4- 1 LBNDKB007MRP0 M H.V. Capacitor band 1 AB 4- 2 LANGTB048MRP0 M Chassis support 1 AE 4- 3 PHOK-B018MRF0 M Latch hook 1 AF 4- 4 MLEVPB016MRF0 M Switch lever 1 AD 4- 5 PDUC-B104MRF0 M Magnetron duct 1 AF
4- 6 NFANPB006MRE0 M Fan blade 1 AC 4- 7 PDUC-B088MRF0 M Fan duct 1 AC 4- 8 ------------ M Oven cavity (Not a replaceable part) 1 -­4- 9 PCOVPB085MRP0 M Waveguide cover 1 AD 4- 10 PPACGB014MRF0 M Turntable motor packing 1 AA
4- 11 PDUC-B106MRP0 M AH sensor duct 1 AG 4- 12 PCUSGB033MRP0 M Cushion 1 AA
DOOR PARTS
5 -1 FCOV-B156MRK0 M Door frame assembly [R-430DK] 1 AQ 5 -1 FCOV-B157MRK0 M Door frame assembly [R-430DW] 1 AQ 5 -1 FCOV-B158MRK0 M Door frame assembly [R-430DQ] 1 AQ 5 -1 FCOV-B168MRK0 M Door frame assembly [R-440DK] 1 AQ 5 -1 FCOV-B169MRK0 M Door frame assembly [R-440DW] 1 AQ 5-1-1 LSTPPB021MRF0 M Latch head 1 AE 5-1-2 MSPRTA046WRE0 M Latch spring 1 AB
5- 2 FDORFB062MRT0 M Door panel 1 AW 5- 3 PSHEPB021MRE0 M Sealer film 1 AE 5- 4 GCOVHB038MRF0 M Choke cover 1 AG 5- 5 HPNL-B092MRE0 M Door screen [R-430DK & R-440DK] 1 AK 5- 5 HPNL-B093MRE0 M Door screen [R-430DW & R-440DW] 1 AM 5- 5 HPNL-B094MRE0 M Door screen [R-430DQ] 1 AM
MISCELLANEOUS
6- 1 FW-VZB125MRE0 M Stop switch harnnes 1 AF 6- 2 FW-VZB168MRE0 M Main wire harnnes [R-430DK/DW/DQ] 1 AU 6- 2 FW-VZB177MRE0 M Main wire harnnes [R-440DK/DW] 1 AU 6- 3 QW-QZB016MRE0 M High voltage wire A 1 AC 6- 4 FROLPB025MRK0 M Turntable support 1 AN 6- 5 NTNT-A095WRE0 M Turntable tray 1 AM
6- 6 TCAUAB037MRR0 M Monitor caution label 1 AA 6- 7 TCAUAB038MRR0 M DHHS/Screw caution label 1 AB 6- 8 TINSEB241MRR0 M Operation manual [R-430DK/DW/DQ] 1 AD 6- 8 TINSEB239MRR0 M Operation manual [R-440DK/DW] 1 AD 6- 9 TCADUB004MRP0 M RECIPE CARD 1 AC 6- 10 TLABBB007MRE0 M Cavity hole cover 1 AA
SCREWS,NUTS AND WASHERS
7- 1 LX-BZA041WRE0 M Special screw 1 AA 7- 2 LX-CZ0052WRE0 M Special screw 3 AA 7- 3 XHTSD40P12RV0 M Screw : 4mm x 12mm 1 AA 7- 4 LX-BZ0081YBE0 M Special screw 4 AA 7- 5 XOTSD40P12000 M Screw : 4mm x 12mm 8 AA
7- 6 XCBSD30P08000 M Screw : 3mm x 8mm 2 AA 7- 7 LX-CZA038WRE0 M Special screw 2 AA 7- 8 XHTSD40P08RV0 M Screw : 4mm x 8mm 3 AA 7- 9 LX-CZA070WRE0 M Special screw (Torx tamper proof screw) 2 AB 7- 10 XCPSD30P08000 M Screw : 3mm x 8mm 2 AA
Page 49
47
R-430DK R-430DW R-430DQ R-440DK R-440DW
HOW TO ORDER REPLACEMENT PARTS
To have your order filled promptly and correctly, please furnish the following information.
1. MODEL NUMBER
2. REF. NO.
3. PART NO.
4. DESCRIPTION
Order Parts from the authorized SHARP parts Distributor for your area. Defective parts requiring return should be returned as indicated in the Service Policy.
Notes:
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48
R-430DK R-430DW R-430DQ R-440DK R-440DW
6
45
1
2
3
6
45
1
2
3
A
B
C
D
E
F
G
H
A
B
C
D
E
F
G
H
OVEN AND CABINET PARTS
2-3
4-7
6-7
1-5
4-6
4-8
4-11
7-2
7-10
1-15
4-9
6-10
6-5
6-4
2-1
7-10
1-12
4-10
7-2
7-2
7-5
4-3
1-13
7-3
7-6
1-10
7-6
1-9
7-8
7-8
4-2
7-5
1-11
1-3
1-4
7-4
1-8
1-8
4-4
7-1
4-1
1-1
1-2
2-2
2-2
2-2
2-2
7-5
7-5
4-12
7-5
6-6
1-7
1-6
4-5
1-14
7-9
7-7
7-9
7-7
Page 51
49
R-430DK R-430DW R-430DQ R-440DK R-440DW
6
45
1
2
3
6
45
1
2
3
A
B
C
D
E
F
G
H
A
B
C
D
E
F
G
H
CONTROL PANEL PARTS
Actual wire harness may be different from illustration.
6-3
6-2
6-1
DOOR PARTS
MISCELLANEOUS
5-1
5-1-2
5-1-1
5-3
5-4
5-5
5-2
3 - 2
3-2-1
3-2-2
3-2-3
3-1-2
3-1-1
3 - 1
3 - 5
3 - 5
3 - 5
3 - 5
3 - 3
3 - 4
3 - 1
3 - 2
3-2-1
3-2-3
3-2-2
R-430DK/DW/DQ R-440DK/DW
Page 52
50
R-430DK R-430DW R-430DQ R-440DK R-440DW
PACKING AND ACCESSORIES
Non-replaceable items.
DOOR PROTECTION SHEET
PLASTIC BAG
PACKING CASE
TOP PAD ASSEMBLY
INTO THE OVEN CAVITY
6-5 TURNTABLE TRAY
6-4 TURNTABLE SUPPORT
6-8 OPERATION MANUAL
TRAY PACK
BOTTOM PAD ASSEMBLY
TRAY HOLDER
6-9 RECIPE CARD
Page 53
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R-430DK R-430DW R-430DQ R-440DK R-440DW
Notes:
Page 54
52
R-430DK R-430DW R-430DQ R-440DK R-440DW
'00 SHARP CORP. (8M3.20E) Printed in U.S.A
COPYRIGHT © 2000 BY SHARP CORPORATION
ALL RIGHTS RESERVED.
No part of this publication may be repro­duced, stored in retrieval systems, or trans­mitted in any form or by any means, elec­tronic, mechanical, photocopying, recording, or otherwise, without prior written permission of the publisher.
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