Panasonic NN-ST462M, NN-ST452W, NN-SD452W User Manual

NN-SD452W NN-ST462M NN-ST452W

BPQ (U.K.)

EPG (Continental Europe)

ORDER NO.PAPMOSH1201015CE

Microwave Oven

NN-SD452W / NN-ST462M / NN-ST452W

CONTENTS

Page Page

1 SCHEMATIC DIAGRAM 5

2 DESCRIPTION OF OPERATING SEQUENCE

2.1. Variable power cooking control

2.2. Inverter power supply circuit

2.3. Turbo defrost, Auto cook

2.4. Sensor cooking

2.5. Steam sensor and digital programmer circuit

3 CAUTIONS TO BE OBSERVED WHEN TROUBLESHOOTING

3.1. Check the grounding

3.2. Inverter warnings

3.3. Part replacement.

3.4. When the 10A fuse is blown due to the malfunction of the

short switch:

3.5. Avoid inserting nails, wire etc. through any holes in the

unit during operation.

3.6. Verification after repair

3.7. Sharp edges

4 DISASSEMBLY AND PARTS REPLACEMENT PROCEDURE

4.1. Magnetron

4.2. Digital programmer circuit (D.P.C)

4.3. Low voltage transformer and/or power relays (RY1, RY2)

4.4. Fan motor

4.5. Door assembly

4.6. Turntable motor

4.7. Steam sensor

4.8. Inverter power supply

5 COMPONENT TEST PROCEDURE

5.1. Primary, Secondary Latch Switch interlocks & Power

Relay RY1

5.2. Short Switch

5.3. Magnetron

5.4. key board membrane (Membrane switch assembly)

5.5. Inverter power supply (U)

5.6. Temperature thermistor

6 MEASUREMENTS AND ADJUSTMENTS

6.1. Adjustment of primary latch switch, secondary latch switch

and short switch.

6.2. Measurement of microwave output

7 TROUBLESHOOTING GUIDE

7.1. (Troubleshooting) Oven stops operation during cooking

7.2. (Troubleshooting) Other problems

7.3. Troubleshooting of inverter circuit (U) and magnetron

7.4. Simple way of H.V. Inverter/magnetron troubleshooting

7.5. How to check the semiconductors using an OHM meter

7.6. H.V. INVERTER MAIN PARTS LIST (Z606YBA00QP)

8 EXPLODED VIEW AND PARTS LIST

8.1. EXPLODED VIEW

8.2. PARTS LIST

8.3. ESCUTCHEON BASE ASSEMBLY

8.4. DOOR ASSEMBLY

8.5. WIRING MATERIALS

8.6. PACKING AND ACCESSORIES

9 DIGITAL PROGRAMMER CIRCUIT

9.1. SCHEMATIC DIAGRAM (NN-SD452W)

9.2. SCHEMATIC DIAGRAM (NN-ST462M, ST452W)

1 SCHEMATIC DIAGRAM

NN-SD452W / NN-ST462M / NN-ST452W

2 DESCRIPTION OF OPERATING SEQUENCE

2.1. Variable power cooking control

High Voltage Inverter Power Supply (U) controls output power by the signal from Digital Programmer Circuit (DPC). Power relay always stay on, but PWM (Pulse Width Modulation) signal controls microwave output power.

NOTE:

The ON/OFF time ratio does not correspond with the percentage of microwave power since approximately 2 seconds are required for heating of magnetron filament.

POWER SETTING OUTPUT

BPQ EPG ON(SEC) OFF(SEC)

TURBO 1000W 100% 22 0

HIGH — 90% 22 0

DEFROST 270W 25% 15 7

MEDIUM 600W 60% 22 0

LOW 440W 45% 22 0

SIMMER 300W 30% 22 0

WARM 100W 10% 8 14

Variable Power Cooking

MANUAL MICROWAVE

POWER(%)

APPROX.

DUTY

2.2. Inverter power supply circuit

2.4. Sensor cooking

Auto sensor cooking without setting a power level or selecting a time. All that is necessary is to select an Auto Sensor Program before starting to cook.

Understanding Auto Sensor Cooking

As the food cooks, a certain amount of steam is produced. If the food is covered, this steam builds up and eventually escapes from the container. In Auto Sensor Cooking, a carefully designed instrument, called the steam sensor element, senses this escape of steam. Then, based upon the Auto Sensor Program selected, the unit will automatically determine the correct power level and the proper length of time it will take to cook the food.

NOTE:

Auto Sensor Cooking is successful with the foods and recipes found in the Auto Sensor Cooking Guide. Because of the vast differences in food composition, items not mentioned in the Cooking Guide should be prepared in the microwave oven using power select and time features. Please consult Variable Power Microwave Cookbook for procedures.

The Inverter Power Supply circuit powered from the line voltage, 230V 50Hz AC input supplies 4,000V DC to the magnetron tube, and functions in place of the H.V. transformer, the H.V. capacitor and H.V. diode.

1. The AC input voltage 230V 50Hz is rectified to DC voltage

immediately.

2. DC voltage will be supplied to the switching devices called

IGBT. These devices are switched ON-OFF by the 20 to 40 kHz PWM (pulse width modulation) signal from the microcomputer in the DPC.

3. This drives the High voltage transformer to increase voltage

up to 2,000V AC.

4. Then the half-wave doubler voltage rectifier circuit,

consisting of the H.V. diodes and capacitors, generates the necessary 4,000V DC needed for the magnetron.

5. Output power of the magnetron tube is always monitored by

the signal output from the current transformer built into the inverter circuit.

6. This signal is fed back to the microcomputer in the DPC to

determine operating conditions and output necessary to control PWM signal to the Inverter Power Supply for control of the output power.

2.3. Turbo defrost, Auto cook

When the Auto Control feature is selected and the Start pad is tapped:

1. The digital programer circuit determines the power level and

cooking time to complete cooking and indicates the operating state in the display window.

2. When cooking time in the display window has elapsed, the

oven turns off automatically by a control signal from the digital programmer circuit.

Explanation of the Auto Sensor Cooking process

1. During the first 10 second period there is no microwave activity. When calculating the T2 time by using the formula below make sure this 10 seconds is subtracted from the T1 time. In other words, T1 time starts at the end of the 10 second period.

2. T1 time The total amount of time it takes the microwave oven to switch to T2 time after the 10second period.

3. T2 time When the steam escapes from the cooking container placed in the oven, the steam sensor detects it and the microprocessor calculates the balance of cooking time. This T2 time is then shown in the display and begins counting down.

Balance of cooking time (T2 time)

The balance of cooking time which is called T2 time, can be calculated by the following formula. T2 time (in sec.) = T1 time X K factor

NOTE:

Remember, the T1 time starts after the 10 second period. The coefficient K is programmed into the microprocessor memory and they are listed in the following tables along with the P1 and P2 powers.

NOTE:

When "More" or "Less" pad is selected, the K factor varies resulting in T2 time to be increased or decreased.

Example of calculating the T2 time

Example 1: If the T1 time is measured to be 2 minutes and 40 seconds after the 10 second period.

T2 = T1 × K

= 2 min. and 40 sec. × 0.1

= 160sec. × 0.1

= 16 sec.

Category P1

BPQ Fresh EPG 1000W 1000W 0.5

Vegetable

Power 900W 900W 0.5

Power

K Factor

Standard

NN-SD452W / NN-ST462M / NN-ST452W

2.5. Steam sensor and digital programmer circuit

In order to determine if the steam sensor function of the digital programmer circuit is working, do the following test.

1. Place a water load (150 cc) in the oven.

2. Tap Sensor Reheat pad.

3. Tap Start pad.

4. Steam Sensor detects steam about 1.5 to 4 minutes after

the Start pad is tapped.

5. T1 time cooking automatically switches to remaining time

for cooking (T2).

6. The remaining cooking time (T2) appears in display

window. If the following cooking time appears, Steam Sensor function is normal.

T1 TIME T2 TIME (Remainingcooking time)

50 Sec. ~ 12 Min. 0 Sec. ~ 10 Min.42 Sec.

NN-SD452W / NN-ST462M / NN-ST452W

3 CAUTIONS TO BE OBSERVED WHEN

TROUBLESHOOTING

Unlike many other appliances, the microwave oven is a high voltage, high current device. It is free from danger in ordinary use, though extreme care should be taken during repair.

CAUTION

Servicemen should remove their watches & rings whenever working close to or replacing the magnetron.

3.1. Check the grounding

Do not operate on a two wire extension cord. The microwave oven is designed to be grounded when used. It is imperative, therefore, to ensure the appliance is properly grounded before beginning repair work.

3.2. Inverter warnings

WARNING HIGH VOLTAGE AND HIGHTEMPERATURE

(HOT/LIVE) OF THE INVERTERPOWER SUPPLY (U)

The High Voltage Inverter Power Supply generates very high voltage and current for the magnetron tube. Though it is free from danger in ordinary use, extreme care should be taken during repair.

The aluminum heat sink is also energized with high voltage (HOT), do not touch when the AC input terminals are energized. The power device Collector is directly connected to the aluminum heat sink.

The aluminum heat sink may be HOT due to heat energy, therefore, extreme care should be taken during servicing.

Grounding of the inverter circuit board

WARNING DISCHARGE THE HIGH VOLATGE

CAPACITORS

For about 30 seconds after the oven is turned off, an electric charge remains in the high voltage capacitors of the Inverter Power Supply circuit board.

When replacing or checking parts, remove the power plug from the outlet and short the inverter output terminal of the magnetron filament terminals to the chassis ground with an insulated handle screwdriver to discharge. Please be sure to contact the chassis ground side first and then short to the output terminal.

H.V. Inverter warning

WARNING FOR INVERTER POWER SUPPLY (U)

GROUNDING

Check the High Voltage Inverter Power Supply circuit grounding. The high voltage inverter power supply circuit board must have a proper chassis ground. The inverter grounding plate must be connected to the chassis. If the inverter board is not grounded it will expose the user to very high voltages and cause extreme DANGER! Be sure that the inverter circuit is properly grounded via the inverter grounding plate.

NN-SD452W / NN-ST462M / NN-ST452W

Discharging the high voltage capacitors

WARNING

There is high voltage present with high current capabilities in the circuits of the primary and secondary windings, choke coil and heat sink of the inverter. It is extremely dangerous to work on or near these circuits with the oven energized. DO NOT measure the voltage in the high voltage circuit including the filament voltage of the magnetron.

WARNING

Never touch any circuit wiring with your hand or with an insulated tool during operation.

3.3. Part replacement.

When troubleshooting any part or component is to be replaced, always ensure that the power cord is unplugged from the wall outlet.

3.4. When the 10A fuse is blown due to the malfunction of the short switch:

WARNING

When the 10A 250V fuse is blown due to the malfunction of the short switch, replace all of the components (primary latch switch, short switch and power relay RY1).

1. This is mandatory. Refer to “measurements and adjustments” for the location of these switches.

2. When replacing the fuse, confirm that it has the appropriate rating for these models.

3. When replacing faulty switches, be sure the mounting tabs are not bent, broken or deficient in their ability to hold the switches.

3.5. Avoid inserting nails, wire etc. through any holes in the unit during operation.

3.6. Verification after repair

1. After repair or replacement of parts, make sure that the screws of the oven, etc. are neither loosen or missing. Microwave energy might leak if screws are not properly tightened.

2. Make sure that all electrical connections are tight before inserting the plug into the wall outlet.

3. Check for microwave energy leakage.

CAUTION OF MICROWAVE RADIATION LEAKAGE

USE CAUTION NOT TO BECOME EXPOSED TO RADIATION FROM THE MICROWAVE MAGNETRON OR OTHER PARTS CONDUCTING MICROWAVE ENERGY.

IMPORTANT NOTICE

1. The following components have potentials above 2000V

while the appliance is operated.

• Magnetron

• High voltage transformer (Located on inverter (U))

• High voltage diodes (Located on inverter (U))

• High voltage capacitors (Located on inverter (U))

Pay special attention to these areas.

2. When the appliance is operated with the door hinges or

magnetron installed incorrectly, the microwave leakage can exceed more than 5mW/cm exchange, it is very important to check if the magnetron and the door hinges are correctly installed.

. After repair or

3.7. Sharp edges

CAUTION

Please use caution when disassembling or reassembling internal parts. Some exposed edges may be sharp to the touch and can cause injury if not handled with care.

Never insert a wire, nail or any other metal object through the lamp holes on the cavity or any holes or gaps, because such objects may work as an antenna and cause microwave leakage.

NN-SD452W / NN-ST462M / NN-ST452W

4 DISASSEMBLY AND PARTS REPLACEMENT

PROCEDURE

4.1. Magnetron

1. Discharge the high voltage capacitor.

2. Remove 1 screw holding air guide A on the magnetron.

3. Remove 1 screw holding air guide A on cavity top plate.

4. Remove 1 screws holding thermistor on the magnetron.

NOTE:

After replacement of the magnetron, tighten mounting screws properly, making sure there is no gap between the waveguide and the magnetron to prevent microwave leakage.

When replacing the magnetron, be sure the antenna gasket is in

5. Remove 1 screw holding air guide A on the wave guide, then remove the air guide A.

place.

4.2. Digital programmer circuit (D.P.C)

CAUTION

6. Remove 4 screws holding the magnetron.

CAUTION:

Be sure to ground any static electric charge built up in your body before handling the DPC.

1. Disconnect connector CN701 on H.V. Inverter board.

2. Remove 1 screw holding escutcheon base and slide the

escutcheon base upward slightly.

3. Remove all screws holding D.P.C. board on escutcheon

base.

4. Separate D.P.C board from tabs on the escutcheon base

and remove D.P.C board.

To replace membrane key board

5. Use tools such as kinfe etc. to lift the edge of escutcheon

sheet and peel off escutcheon sheet & key board membrane completely from escutcheon base.

NOTE:

1. The membrane key board is attached to the

escutcheon base with double faced adhesive tape. Therefore, applying hot air such as using a hair dryer is recommended for smoother removal.

2. When installing the new key board membrane, make

sure that the surface of escutcheon base is clean to prevent a malfunction or shorted contacts.

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