Sanyo Microwave Oven SM GA0005 User Guide

EM-W3000W  
Microwave Oven  
Service Manual  
REFERENCE NO. SM-GA0005  
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SAFETY PRECAUTIONS  
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 misaligned 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.  
THIS MANUAL, AS WELL AS THE INFORMATION CONTAINED IN IT, IS TO BE USED ONLY BY AN  
AUTHORIZED SERVICE TECHNICIAN FAMILIAR WITH AND KNOWLEDGEABLE OF PROPER  
SAFETY AND SERVICING PROCEDURES AND POSSESSING HIGH QUALITY TEST EQUIPMENT  
ASSOCIATED WITH MICROWAVE AND ELECTRICAL APPLIANCE REPAIR.  
ALL INDIVIDUALS WHO ATTEMPT REPAIRS BY IMPROPER MEANS OR ADJUSTMENT SUBJECT  
THEMSELVES AND OTHERS TO THE RISK OF SERIOUS OR FATAL INJURY.  
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EM-W3000W Microwave Oven Explode Drawing  
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EM-W3000W Microwave Oven Parts /Components List  
PART NO. PART CODE NO  
NAME  
Oven cavity  
QTY  
PART NO. PART CODE NO  
NAME  
QTY  
1
P01  
P02  
P03  
P04  
P05  
P06  
P07  
P08  
P09  
P10  
P11  
P12  
GA-1000AP30P01  
GA-1000AP30P02  
GA-1000AP30P03  
GA-1000AP30P04  
GA-1000AP30P05  
GA-1000AP30P06  
GA-1000AP30P07  
GA-1000AP30P08  
GA-1000AP30P09  
GA-1000AP30P10  
GA-1000AP30P11  
1
1
1
2
1
1
1
4
4
1
1
1
P26  
P27  
P28  
P29  
P30  
P31  
P32  
P33  
P34  
P35  
P36  
P37  
P38  
P39  
P40  
B01  
B02  
B03  
B04  
B05  
B06  
B07  
B08  
B09  
GA-1000AP30P26  
GA-1000AP30P27  
Door latch  
Choke cover  
Touch key board  
Door release button  
Button spring  
Control panel  
PC board holder  
Lower hinge  
Foot  
1
GA-1000AP30P28 Inner viewing barrier  
1
GA-1000AP30P29  
GA-1000AP30P30  
GA-1000AP30P31  
GA-1000AP30P32  
GA-1000AP30P33  
GA-1000AP30P34  
GA-1000AP30P35  
GA-1000AP30P36  
GA-1000AP30P37  
GA-1000AP30P38  
GA-1000AP30P39  
GA-1000AP30P40  
GA-1000AP30B01  
GA-1000AP30B02  
GA-1000AP30B03  
GA-1000AP30B04  
GA-1000AP30B05  
GA-1000AP30B06  
GA-1000AP30B07  
GA-1000AP30B08  
GA-1000AP30B09  
Shaft  
1
Washer  
1
Mica sheet  
Roller ring  
Ring wheel  
Glass tray  
1
1
3
Foot pin  
1
Bottom enclosure  
Button lever  
Upper hinge  
Outer enclosure  
Insulating film  
Wire harness  
Power cord  
Sponge  
1
1
GA-1000AP30P12 Microswitch mounting  
bracket  
1
1 set  
1
P13  
P14  
P15  
P16  
P17  
P18  
P19  
P20  
P21  
P22  
P23  
P24  
P25  
GA-1000AP30P13  
GA-1000AP30P14  
GA-1000AP30P15  
GA-1000AP30P16  
GA-1000AP30P17  
GA-1000AP30P18  
GA-1000AP30P19  
GA-1000AP30P20  
GA-1000AP30P21  
GA-1000AP30P22  
GA-1000AP30P23  
GA-1000AP30P24  
GA-1000AP30P25  
Inner rotary arm  
Outer rotary arm  
Shock proof rubber  
Air duct  
1
1
2
1
1
1
1
1
1
1
1
1
1
1
Foam cushion  
Foam cushion  
Owner's manual  
Plastic bag  
Plastic film  
Foam cushion  
Carton  
2
2
Wind baffle  
Bracket  
1
1
Fan blade  
1
Fan shroud  
2
H.V.capacitor holder  
Door frame  
1
Packing belt  
Wrapping nail  
1
Door window  
Door  
12  
Latch spring  
COMPONENT NO.  
COMPONENT CODE NO.  
GA-1000AP30C01  
GA-1000AP30C02  
GA-1000AP30C03  
GA-1000AP30C04  
GA-1000AP30C05  
GA-1000AP30C06  
GA-1000AP30C07  
GA-1000AP30C08  
GA-1000AP30C09  
GA-1000AP30C10  
GA-1000AP30C11  
GA-1000AP30C12  
GA-1000AP30C13  
GA-1000AP30C14  
GA-1000AP30C15  
Name  
PC board  
Model  
QTY  
C01  
C02  
C03  
C04  
C05  
C06  
C07  
C08  
C09  
C10  
C11  
C12  
C13  
C14  
C15  
GAL9823N-04B  
GAL-1000U-1  
1
1
Transformer  
Microswitch  
Microswitch  
Fuse socket  
Oven lamp  
Magnetron  
Thermostat  
Thermostat  
Turntable motor  
H.V.Capacitor  
H.V.Diode  
Fan Motor  
Microswitch  
Fuse  
V-5230Q or VP533B-OFB  
VP331B-OD  
1
2
1
1
1
1
1
1
1
1
1
1
1
FB65  
KEI T22/125V 20W  
2M248J-N  
KSD180  
KSD105  
SM012 or M2CJ49Z  
CH85 1.0μF 2200V  
HVM12(450mA)  
SP-6309-120  
V-5220Q or VP532B-OFB  
65TS 125V 20A  
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1. THE HEATING PRINCIPLE OF MICROWAVE  
Microwave is one kind of radio wave whose wavelength is very short, frequency is very high. Therefore, it is  
called ultrahigh frequency electromagnetic wave. Microwave can heat food mainly result in the mutual affect of  
the food in the microwave field and the microwave field itself.  
Under the affect of microwave field, the thermal effect mechanism produced from the mutual affect of the  
microwave and the food includes two aspects. One is Dielectric loss of polar molecule; the other is conductive  
loss of ion.  
Usually, food is constituted of organism (plant and animal). The organism is formed by all kinds of polar water  
molecule, polar protein molecule, and all sorts of saltion. The center of gravity of the positive and negative charge  
in the molecule is not coinciding. In normal condition, the molecule is in irregular order due to its thermal action,  
thus the food do not appear polarity. (FIG.1-la). Under the action of outer electric field, the positive end of the  
polar molecule trend to the negative electric field, the negative end of polar molecule trend to the positive electric  
field, and somewhat arrange in order through the direction of the electric field (FIG.1-1c). This phenomenon  
usually is called “TORQUE POLARITY”. When the outer electric field apply for the opposite polarity, the polar  
molecule then arrange an opposite direction order accordingly (FIG.1-1b). If the direction of the outer electric field  
changed repeatedly, the polar molecule would repeatedly sway accordingly. During the swaying, it is  
understanding that the polar molecule would produce heat due to somewhat similar friction among them. When  
the electric field is applied for ultrahigh frequent microwave field from the outside, its direction would change tens  
billion times per second, so do the molecule. This kind of molecule swaying producing similar frictional heat from  
the interference and block of the action strength among the molecule, and changed to microscopic microwave  
heating. Microwave heating not only concerned the nature of the matter itself, but also closely connected with the  
electric strength and frequency. When the frequency is low, the molecule swaying rate and the acute degree of  
the mutual friction among the molecule is low, and would produce much heat. When the frequency is too high, as  
the swing of the polar molecule is with rotating inertia, it made the swing do not in line with the changing rhythm  
of the electric field because of the friction drag, thus, actually lowed the polar molecule swaying speed. The  
friction dragging degree is concerning about the magnelectric wave frequency, polar molecule shape, and the  
matter’s sticky degree. To different matter’s molecule, there is different special frequency zone. Those absorbing  
microwave energy from this zone are most capable to turn microwave energy to heat energy.  
(a)  
(b)  
(c)  
Fig.1-1  
Apart from the above said action, there is another action which is electric ion under the action of microwave field,  
act fiercely accompanied with the acceleration of electric field. The positive ion transfer to the negative polarity of  
the field while the negative ion does opposite. Accompanying with the changing electric field, the electric ion  
hanging accordingly. During the transferring, heat produced with the crash among the ion. This kind of action  
takes the main effect to those microwaves heating of high salt molecule.  
No matter it is the polar molecule swaying or the ion transferring, they both are turning the microwave energy  
which the heating matter got from the microwave field to heat energy. From the analysis of theory, we can draw  
such a conclusion that the power which a unit of volume matter absorbed from the microwave field as the  
following formula:  
Pa=KE fErtgδ  
Pa Stands for the power the heated matter adsorbed from the microwave field.  
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K Stands for a constant  
E Stands for the microwave frequency.  
f Stands for the microwave frequency.  
tgδ Stands for loss angle tangent of the heated matter.  
Er Stands for relative dielectric constant of the heated matter.  
2. THE STRUCTURE AND WORKING PRINCIPLE OF MICROWWAVE OVEN.  
Microwave oven can be classified to many kinds  
according to various construction, volume and control  
function. But anyhow, the main electric parts are all  
composed of high voltage rectification, cooling system.  
Microwave generator, electric control system and  
heating chamber (FIG.2-1). Its working process are as  
follows: 120V power frequency voltage transferred to  
the rectifier through electric control system, and then be  
changed to 4000V direct volt-age by the rectifier, and be  
then transferred to the microwave generator, the  
generator stars working to transfer the microwave  
energy to the heating chamber for heating food through  
wave guide tube. At the same time, the electric control  
system set off the cooling system to cool the working  
rectifier and the microwave generator to keep the oven  
working steadily from a too high temperature. If  
120V  
something wrong with the cooling system cause the temperature too high, the control system would cut off the  
power automatically to prevent microwave generator being damaged form the high temperature. Now, we’d like to  
introduce the working principle of each part of the widely used model, mechanical control and touch control  
microwave oven.  
2.1  
HIGH VOLTAGE RECTIFYING CIRCUIT.  
At present, home use microwave oven adopt this high voltage rectifying circuit as shown at diagram 2-2.The  
circuit is a single phase, semi-wave, double voltage rectifying circuit. The circuit has only a high voltage capacitor,  
a high voltage diode, a magnetic leakage transformer besides the magnetron, is very simple.  
The working principle of the circuit: 120V power boosted through the transformer, output about 2000V alternating  
high voltage current when the high voltage winding is at the positive half-circle, the high voltage winding is at the  
negative half-circle, the diode is cut off and the magnetron is conducted. The electricity charged at the positive  
half-circle of the capacitor is series connected with the positive phase of the winding voltage, and got a doubled,  
about 4000V direct high voltage, then transferred to between the cathode and the anode of the magnetron.  
120V  
120V  
Fig.2-3  
Fig.2-2  
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2.2  
MICROWAVE GENERATER.  
Microwave generator is the heart of microwave oven. The quality of a microwave oven mostly depends on the  
quality of the microwave generator. A microwave generator is mainly composed of magnetron and its power  
supply circuit, FIG.2-3 is the typical circuit diagram of the present used microwave oven’s generator. The power  
supply circuit is composed of rectifying circuit and filament circuit.  
Usually, we adopt continuous wave magnetron. It can turn the direct energy which is applied to the magnetron  
after being high voltage rectified to microwave energy, the power supply circuit supply a direct high voltage  
between the cathode and anode of the magnetron, a filament voltage to the cathode filament of the magnetron.  
The working process of the magnetron: When the anode volt-age gradually rises from zero, the anode current is  
approx.zero, the power is very small as well. When the anode voltage rises to “THRESHOLD” voltage value, the  
magnetron starts oscillating, and the anode current would increase obviously, provided the anode voltage rises a  
little more, the anode current would increase a lot (FIG.2-4), and would reach the rate value quickly.  
If the anode voltage is undulating, it would cause the anode  
current swing fiercely, even made the magnetron stop oscillating.  
For keeping a steady output, the power supply circuit of the  
oven must supply a stead direct current voltage. The filament  
voltage of the magnetron must be supplied by an alternating  
current voltage. For simplifying the circuit, it would be supplied  
by the same leakage magnetic transformer with the anode  
power (high voltage power). The filament of the magnetron  
which the present used microwave ovens are all treated through  
some special technology, and all have the cold start character.  
But when in cold start, there still is a very strong surge electric  
field attached to the surface of the anode, and would be harmful  
to the anode. In order to reduce the surge voltage, the filament  
of the magnetron must be connected as the FIG.2-3 shown. In  
this figure, when the anode current of the magnetron circulates,  
anode current  
Ib(mA)  
the filament current should flow to the FA end from the lower  
end.  
Fig.2-4  
2.3  
COOLING SYSTEM  
In the working process of the microwave oven, the magnetron often makes the anode temperature rise due to  
anode loss  
caused by the electronics strike the oven surface and the heat radiate of the cathode. To prevent the anode  
temperature rise too high, thus affect the working steady and its life span, it is necessary to cool the magnetron.  
According to the different models and rate output of the magnetron, compelling wind cooling and flowing  
water-cooling can be adopted. Usually, the home used microwave oven adopts the compelling wind cooling  
method, and all are fixed with cooling fin.  
Cooling system includes fan motor, air duct, air entrance, air vent etc. The flowing direction of the cooling wind  
should. Be parallel to the cooling fin of the magnetron. Generally, we adopt the method of air blast rather than air  
absorb. And all the cabinet of the oven is with air entrance and air vent, the hot wind blowing through the  
magnetron is guided with air tube to improve the cooling effect. In the technical parameter chart of the magnetron,  
it usually will give out the requirement of cooling wind. A shortage of cooling wind would damage the character of  
the magnetron, even burn out the magnetron. The amount that the fan blasted should not be less than the  
requirement. When fix the fan, attention must be paid to prevent the cool wind from blowing directly to the glass  
part of the magnetron to avoid blasting.  
2.4  
ELECTRIC CONTROL SYSTEM.  
To those mechanical control microwave oven, electric control system mainly composes of interlock switch, timer,  
power distributor and thermal cutout, etc. The electric control system of those tough control microwave oven is  
mainly composed of interlock switch, computer controller and thermal cutout, etc.  
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2.4.1 DOOR INTERLOCK SWITCH  
Drawing 2-5(a) is the circuit and construction diagram  
of the door interlock switch of a microwave oven. It  
mainly consists of interlock switches (S1, S2), and  
monitor switch (S3), door hook and starting mechanism  
of the door interlock switch.  
fuse  
main latch switch  
S1  
There fixed hooks on the oven door, and opened two  
rectangle hole at the corresponding place at the right of  
the oven and the hook. Inside each rectangle hole,  
there fixed a micro switch. When the oven door closed,  
the two hook on it would insert into the rectangle hole,  
and just push down several micro switches. At that time,  
S1, S2 are closed, S3 is cut off, and the microwave  
oven is under preparation of working.  
L
E
N
pilot switch  
S3  
2
S
door closed  
assistant latch switch  
(a)  
To that mechanical control microwave oven, no sooner  
you turn the time switch to set the heating time than the  
Fig.2-5  
power would be supplied to the back to start the oven. To those touch  
control microwave oven, hardly do you set the heating time and power,  
and touch the start button when the power would supplied to the back to  
start the oven.  
tch holder  
itch  
latch switch holder  
latch switch  
When pressing down the door release button or pulling the door handle  
to open the door, the safety interlock switches S1, S2 are cut off, and  
the monitor switch S3 is closed, and the microwave oven would stop  
operating immediately. Provided due to some man - made or the  
appliance itself reasons, when the door is open, and the safety interlock  
switches S1, S2 are not automatically cut off, due to the existence of the  
door hook  
pilot switch  
witch  
monitor switch (S3) which is still at conducted condition, the monitor  
switch would immediately make the 120V voltage short-circuited and  
blow up the fuse, and will never let the microwave oven working when  
the door is open.  
screw  
latch switch  
pilot switch  
door hook  
From this we can understand the function of the interlock switch is  
when the door is unclosed, the oven wouldn’t work, when the door is  
opened when the oven is working, it would stop the working  
immediately (FIG.2-5b).  
screw  
door release button  
2.4.2 TIME AND POWER DISTRIBUTOR  
Fig.2-5(b)  
Time and power distributor is mainly composed of timer motor and two  
sets of gear switch S4 and S5. When the timer is at zero position, the gear switches are cut off, when the heating  
time is settled, the gear switch is closed. When started  
the oven, the time motor starts working. When it  
transformer  
reaches the settled time, it would cut off the gear  
timer & power motor  
switch (s4) to step the oven working. The gear switch  
(S5) is designed for controlling the output of the  
microwave oven, actually for controlling the output of  
the magnetron. It mainly by the method which make  
120V  
the magnetron working internally at the same working  
point to change the output of the magnetron. This  
S4  
S5  
method was called “CONDUCTION RATIO CONTROL”.  
But there is another method which is called  
“ELECTRIC LEVEL CONTROL” which is through  
Fig.2-6  
changing the working point (such as anode voltage or magnetic field) to change the output of the magnetron.  
Because of conduction ratio control method is low cost, high function and high reliability, it is widely used for  
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those microwave oven which have the power control function.  
FIG.3-1 is the power control circuit diagram of brand microwave oven, WP700. This is a typical instance of  
conduction ratio control. This oven adopt time and power controller as a whole. When a 120V, 60Hz alternating  
current is inputted, the time and power motor is always at working condition. At the FIG.2-7, S5 is always  
conducted. Made the S5 working 30 seconds as a circle, the conduct time can be successively adjusted from 5  
seconds to 30 seconds. When power select switch is set at “HIGH”, S5 is always conducted, the output of the  
microwave oven is 700W(full power) when the power select switch is set at defrost position, S5 would conduct for  
14.4 seconds, and cut off for 15.5 seconds, and the average output of the oven is 336W.  
2.4.3 THERMAL CUTOUT  
Thermal cutout actually is a thermal sensor switch, usually, it is fixed on the shell of the magnetron, and series  
connected with the primary circuit of the magnetron to control the power input. At normal condition, the thermal  
cutout is always conducted (FIG.2-8). When something wrong with the cooling system that cause some abnormal  
conditions, such as molding or thermal breakdown, which made the temperature of the magnetron reach the limit  
value. Then, the thermal cutout would work to turn off the power to prevent the magnetron from being damaged.  
2.4.4 HEATING CHAMBER  
Heating chamber is the place where the microwave and the food affect mutually. There are lots kinds of chamber.  
Accord-ing to the working characters, it can be classified to carton type, cavity type, radiation type, slow type  
(surface wave type), etc. The present adopt chamber for food cooking microwave oven is the typical carton type  
heating. (FIG.2-8). The heating chamber is mainly composed of oven door and oven cavity. From the microwave  
theory, it is a microwave resonant cavity that can contain many kinds of oscillating models simultaneously.  
Microwave enters into the oven cavity through the wave guide and the coupling appliance, and most of its energy  
is absorbed by the food after it is reflected in the cavity repeatedly, those which haven’t been absorbed will be  
reflect to the magnetron. A good designed oven cavity should have a good impedance matching with the  
magnetron, the energy should be less reflect, and distribute evenly in the oven cavity, improve the heating  
efficiency. Generally, at the same input power, the larger the cavity, the less the energy density a unit volume  
would have in the oven, and the more energy on the inside wall of the cavity would lose, thence, it would certainly  
slow down the heating speed, low the heating efficiency. Moreover, too big of the cavity would either waste the  
material or appears very heavy. The material for cavity usually use non - magnetic stainless steel or zinc - plating  
steel, and have no high requirements for the conducting rate. The inside coating of the cavity requires beautiful in  
look, durable when use (should be resistant against damp, heat, acid and alkali), it should also comply with the  
food health requirements.  
1.  
2.  
3.  
4.  
5.  
6.  
7.  
8.  
Safety interlock switch  
Door window  
Air vent  
Roller Shaft  
Turntable supporter  
Glass tray  
control panel  
door release button  
To improve the heating evenness there often fixed a turntable glass tray at the bottom of the cavity (FIG. 2-8). It is  
through changing the relative place of the microwave and the heating matter to improve the heating evenness.  
The turntable tray is usually made of heat – resistant glass, the glass contains some dielectric loss, it can,  
somewhat, protect the magnetron when the cavity loading less.  
There often fixed a dust – proof, low – loss and heat – resistant dielectric cover (such as mica sheet). Sometimes,  
an impedance matching metal stick was fixed near the coupling or in the wave guide.  
The door is designed for inspecting, taking and placing the heating food, it is also one side of the cavity (FIG .2 -  
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8). It is the most liable place where microwave leakage occurs. Especially, after a long time using, the microwave  
leakage would enlarge at the hinge and the hook. Anyway, mechanic damage would also cause large amount of  
microwave leakage. Therefore, the main methods designed for preventing microwave leakage of the door are as  
follows:  
1) Assemble a layer of steel filament or a thin metal plate with many holes at the middle of the window to made it  
is possible to observe the heating as well as shielding the microwave.  
2) The widely used seal measurement at present  
is to assemble a current – resistant construct  
between the door and the doorframe. FIG.2-9 is  
current-resistant  
constructure  
the typical construction fig of the door. It was  
designed  
according  
to  
the  
theory  
of  
“THETRANSFERING LINE ONE–FOURTHWAVE  
LENGTH IMPEDANCE CHANGER”. Although  
there is no connecting point from a mechanical  
point. It is sealed at the seam from the point of  
electricity, so it is called “CURRENT-RESISTANT”.  
Recently, with the installation of noise filter in the  
current resistant trough, the effect to restrain the  
microwave leakage (include high subharmonic)  
have been much improved.  
front door plate  
noise filter  
oven door  
Fig.2-9  
3. TYPICAL CIRCUIT ANALYASIS OF MICROWAVE OVEN  
We have introduced the structure and the working principle of the microwave oven previously. We shall analyze  
the complete set circuit of the microwave oven link with the practical circuit at this chapter.  
SCHEMATIC DIAGRAM  
NOTE: Door is closed  
MAGNETRON  
Unit is not operated  
FA  
F
POWER  
RELAY  
PRIMARY  
SWITCH  
C
FUSE  
HIGH  
VOLTAGE  
CAPACITOR  
L
MONITOR  
SWITCH  
TURN-  
TABLE  
MOTOR  
120V  
60Hz  
FAN  
MOTOR  
OVEN  
LAMP  
HIGH  
VOLTAGE  
DIODE  
FM  
MT  
L
THERMAL  
CUTOUT  
(MAG.)  
(OVEN)  
MAIN  
RELAY  
N
HIGH  
VOLTAGE  
TRANSFORMER  
SECONDARY  
SWITCH  
DIGITAL PROGRAMMER CIRCUIT  
LOW VOLTAGE  
TRANSFORMER  
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Fig.3–1 is the practical circuit diagram of a microwave oven. Its corresponding working conditions are as follows:  
The door closed, SW1 and SW2 turned on, SW3 closed, power control relay has no power, R1, R2 is cut off.  
When cooking, touch the starting switch to power the timer and the power relay. RY1, RY2 closed the power  
supply to the anode of the magnetron and the filament, changing the power frequency electric energy to  
microwave energy, the microwave energy then transferred to the heating chamber for food heating. At the same  
time, the lamp turned on, the fan motor begins to cool the magnetron. The turntable motor set off to drive the food  
around and making the food heated evenly. The microcomputer begins reckon the time, when it reached the sets  
time, power relay are cut off, the power of the lamp, all the motor and the magnetron are cut off, the food –  
heating process ended. During the heating, if the door was opened, the interlock S1, S2 will cut off, S3 will close,  
all the motors and the magnetron will also be cut off, the lamp will turn on, the oven stop heating immediately. If  
heating need go on, just push down the starting button and closed the door, the oven will continue its working.  
When something wrong with the fan motor or the air vent was blocked that breakdown the cooling system, the  
magnetron temperature would rise high very quickly. When the temperature reached the working point of the  
thermal cutout (S6), S6 will be cut off immediately to cut off the power supply to the magnetron and the  
magnetron will stops working right away. The PC board is cut off to prevent the magnetron from being damaged  
by overheating. When the thermal cutout is cut off, the magnetron, motors and the lamp would stop working  
simultaneously. Moreover, the thermal cutout has the self - resuming character, when the temperature lowered, it  
will resume to close condition.  
Circuit diagram of computer controlled microwave ovens:  
Circuit diagram for mechanical controlled microwave ovens:  
4. HOW TO ASSEMBLE AND DISASSEMBLE MICROWAVE OVEN COMPONENTS  
In the following pages, we will introduce the ways in which the various parts of a typical microwave oven can be  
disassembled and assembled.  
4.1  
THE CABINET  
To disassemble the cabinet  
1. Pull out the power plug.  
2. Loosen the four screws at the back of the oven with a “+”- screwdriver. (FIG.4-1a)  
3. Push the cabinet back 25mm according to the arrow direction shown at FIG.4-1 (b), and the cabinet can be  
taken off.  
To assemble the cabinet  
1. Put the cabinet on the oven, and push it full ahead.  
2. Check whether the up, right and left troughs have been inserted with the curved with the curved rim of the  
oven (FIG.4-1 (b)). If the cabinet and the oven are not tallied exactly, then it should be reassembled or those  
untallied parts should be smoothed.  
3. Tighten those four screws, please make sure that one of the screws should have a plum blossom shape  
washer to keep a good earth.  
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4.2  
THE DOOR COMBINATION  
six-angle screw  
To disassemble,  
1. Pull out the power plug.  
2. Take off the cabinet.  
hinge(up)  
oven  
3. Loosen the two six –angle screws of left hinge (up)  
with a socket wrench (FIG.4 - 2).  
4. Push the door release button to have the hook out  
(FIG.4 -3).  
5. Pull the hinge with the door out of the oven  
together, and take off the washer of the hinge (low)  
shaft (FIG.4 - 2).  
6. Pick up the ten inverse hooks which around the  
cover  
with  
a
small  
screwdriver  
carefully(ATTENTION: the cover is made of  
plastics, and is very liable to be broken), and take  
out the cover.  
Fig.4-2  
7. Take off the two screws at the door side  
with a “+”-screwdriver  
latch switch holder  
8. Take off the hinge (up)(FIG.4- 2).  
latch switch holder  
latch switch  
9. Apart the doorframe from the doorplate  
latch switch  
(FIG.4-2).  
door hook  
door hook  
10. Take off the hook spring with a pointed  
pilot switch  
plier, then the hook combination.  
pilot switch  
11. Clamp the window plate with hand, push it  
down according to the arrow direction,  
and take it off.  
(b)  
(a)  
Fig.4-3  
To assemble the door combination(see sketch  
4-2 to 4-5)  
1. Apply proper silicon grease or lubricating  
grease on the “★” mark of the hook first, then fix the hook on the oven door, and the spring on its place  
(FIG.4 - 5), check whether the hook is operating in normal.  
2. Apply proper silicon grease or lubricating grease on the “mark of the hinge (UP), install the hinge (UP) in  
the hole at right above of the door as FIG.4 - 2, then install the window on the door as FIG.4 - 1, make sure  
the hook won’t out. Then tighten each hook on the window to the trough of the door. After assembled, check  
whether the door hook is working in normal.  
3. Tear off the back protective paper of the window, then the sides of adhesive tape as FIG.4 – 1, and stick it on  
the window, Tear three right sides protective paper about 10mm, and fix the window in the doorframe as  
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FIG.4 – 1.  
4. Tear off the adhesive protective paper of the lining and stick it on the door as FIG.4 – 1, slip the hook on the  
doorframe, and fix the doorframe on the door, tighten it with “+” – screws. After assembled, check whether  
the hook working in normal and whether the hinge (UP) is its position.  
5. According to the FIG. 4 4 shown, paste the inner lining inside the doorframe, make sure it is pasted  
smoothly, and should have no air bubble.  
6. Slip the washer in the hinge shaft, then put the hinge shaft in the hinge hole on the bottom of the oven, the  
hinge in the rectangle hole on the left above, and hooked it with the door hook.  
7. Place a 0.15mm thin paper between the door and the oven, level the door and the oven, then push the door  
close to the oven, and tighten the two screws of the hinge (UP) and paint them.  
4.3  
THE CONTROL PANEL AND THE DOOR RELEASE MECHANISM.  
1. Pull out the power plug.  
2. Take off the cabinet.  
3. Discharge between one end of the capacitor and the baseboard with a  
screwdriver.  
To disassemble  
1. Pull out the terminal plug of the time and power distributor.  
2. Take off the screw which fix the control panel with a “+” – screwdriver  
(FIG.4 - 6)  
3. Take off the control panel.  
To assemble,  
(1) Place the two buckles under the control panel into the two rectangle  
holes under the oven as FIG.4 – 6, then make close of the control panel and  
the oven with being fixed with a screw. Plug in the terminal plug.  
4.4  
THE MAGNETRON.  
Firstly, do as 1,2,3, steps at of this part.  
To disassemble,  
1. Take off the screw beside the oven lamp (FIG.4 - 8).  
2. Take out the four screws which fixed the magnetron, and take the magnetron off (FIG.4 - 7).  
screwe  
magnetron  
screwe  
magnetron  
thermal cutout  
magnetron holder  
magnetron holder  
lamp shade  
Fig.4-8  
Fig.4-7  
To assemble the magnetron,  
1. Check whether the copper filament weaved washer of the magnetron antenna has been placed well. It  
should not be fixed if there is no copper filament weaved washer, for it may cause the magnetron and the  
oven can’t earth well, and cause large amount of microwave leakage. Attention : When a new oven matches  
a magnetron, the meatl lustre at “★” mark should be polished with a sand paper (FIG.4 -7).  
2. Aim the head of the magnetron antenna to the hole of the wave guide housing, tighten the four screws of the  
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magnetron vertically, and also tighten the screws of the lampshade (FIG.4 - 8).  
3. Plug in the two terminals of the magnetron filament and the thermal cutout.  
4.5  
THE TRANSFORMER.  
Firstly, do as the 1,2,3, steps at of this part.  
Dismantling steps for the transformer: (as FIG.4 -9).  
1. Pull out all the terminal of the transformer.  
2. Turn the microwave over.  
3. Take off the right baseboard with the transformer after loosened the four screws, which fix the board on the  
oven. (4-10).  
4. Take off the four screws, a, b, c, d with a “+”- screwdriver.  
5. Take off the right baseboard, the seat and the rubber space between the transformer and the oven.  
screw  
base board  
transformer  
seat  
Fig.4-10  
Fig.4-9  
to mount the transformer,  
1. Place the transformer as the FIG.4 - 9, tear off the protective paper of the rubber lining tape, stick it on the  
transformer as shown on the figure. Then put on the seat and the right base board, make sure the screw  
hole are tallied, then tighten the four screws for the high voltage winding is earthing here.  
2. Fix the transformer on the oven as FIG.4-10.tear off the protect paper of the rubber spacer, set it between the  
transformer and the oven, make sure the adhesive side is sticked on the oven.  
3. Plug in all the terminals of the transformer precisely.  
4.6  
THE FAN MOTOR.  
Firstly, do as the 1, 2, 3, steps of of this part.  
To disassemble,  
1. Pull out the two terminal of the fan motor (FIG. 4 11).  
2. According to the FIG.4 –12, pull out the lead plug which  
marked “A” and “C” from the thermal cutout and the fuse  
housing separately, and take off the earthing screw which  
marked “B” (FIG.4 -12).  
lead  
power supply cord  
fan motor  
3. Take out the power supply cord from the trough as the  
figure shows.  
Fig.4-11  
4. Loosen the screws shown on the FIG.4 –13 with a “+” –  
screwdriver, and take off the fan holder.  
5. Take off the fan from the fan motor shaft as FIG.4 –14, then the fan motor.  
to mount the fan motor,  
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1. Assemble the fan motor as FIG.4 – 14. Drip the glue on  
the “★”place of the fan motor shaft, and fix the fan on the  
motor, make sure it must be fixed to the bottom of the  
shaft. Attention: The fan motor shaft should not be curved,  
the fan should have no abnormal stick up. After assembled,  
check whether the running fan would knock the fan holder.  
earthing screw  
2. Assemble the fan holder as FIG.4 – 13, Then connect the  
power supply cord with the two wires of the fan motor, and  
tighten the screws as FIG.4 – 11 and FIG.4 – 12.  
fuse housing  
power supply cord  
Fig.4-12  
back board  
fan motor  
fan  
screw  
Fig.4-14  
Fig.4-13  
4.7  
THE CAPACITOR.  
Firstly, do as the 1, 2, 3, steps of of this part.  
To disassemble,  
1. Pull the wires of the capacitor out (4-15).  
fan holder  
capacitor  
2. Loosen and take out the screw which fix the capacitor clip  
with a “+” – screwdriver, and take out the clip and the  
capacitor. (4-15).  
diode  
screw  
To assemble,  
1. Place the capacitor in the capacitor clip with the end which  
have three foot near the diode (4-16).  
Fig.4-15  
2. Insert one end of the clip in the fan holder trough (FIG.4-15).  
3. Tighten the screw, which fix the capacitor clip.  
4. Plug in all the plugs of the capacitor.  
magnetron  
4.8  
THE DIODE.  
capacitor  
Firstly, do as the 1, 2, 3, steps of of this part.  
H.V.fuse  
Fig.4-16  
To disassemble,  
transformer  
1. Pull out the diode plug, which plugged in the  
capacitor.  
diode  
2. Loosen the screw, which fixed the diode, and  
take the diode off.  
To assemble,  
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1. Insert one end of the diode to one feet of the capacitor’s connect piece.  
2. Fix the diode with one screw (pay attention to the polarity of the diode, refer to FIG.4 - 16).  
4.9  
THE TURNTABLE COMBINATIOM.  
Firstly, do as the 1, 2, 3, stops of of this part.  
To disassemble,  
1. Turn the microwave oven over (FIG. 4- 17).  
2. Take off the two screws which fix the middle base board with a  
“+” – screwdriver and take off the middle cover (FIG.4 - 18).  
3. Loosen out the two screws of turntable motor with a “+”-  
screwdriver, take out the turntable motor and pull out the two  
wires (4 -17).  
Fig.4-17  
Assembling steps:  
1. Put the motor shaft into its connecting hole, and fix the motor  
with two screws (FIG.4 - 17).  
2. Plug in the two wires.  
3. Assemble and fix the middle base board with two screws  
(FIG.4 - 18).  
4. Turn the oven back.  
5. As the FIG.4 – 19 shown, fix in the turntable shaft supporter,  
the place in the roller ring and the glass tray as FIG .4 – 20.  
Fig.4-18  
turntable shaft supporter  
roller ring  
Fig.4-19  
4.10 THE DOOR SAFTY INTERLOCKS.  
Firstly, do as the same with 1, 2, 3, steps of of this part.  
Steps for dismantling:  
(1) Pull out the terminal plugs of the interlock switch and the pilot switch.  
(2) Loosen out the two screws which fixed the switch holder with a “+”- screwdriver, and take the switch holder  
off.  
(3) Take off the interlock switch and the pilot switch from the holder.  
(4) Take off the switch connecting lever arm and the working lever from the holder.  
Assembling steps:  
(1) Slip on the connecting lever arm and the working lever into the switch holder.  
(2) Assemble the interlock switch and pilot switch to the switch holder, make sure they are assembled correctly.  
(3) Tightly fix the holder with two screws.  
(4) Check the position of the hook and the switch holder. Close the door, push and pull the low and up part of the  
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door to check whether the door is flexible. If it does, back  
and front position of the holder should be adjusted.  
Provided the up hook is loose, the door should be pushed  
more closely to the oven, and pull the holder inside closely  
after loosen the screw which fix the holder, then, tighten the  
screw and check whether it is still loose. If it is not or the  
loose is minor, it would be OK. Open the door, then close it  
lightly, check whether the hook is in position, if not,  
readjustment is needed. If the loose is at lower part of the  
door, the adjust methods is the same with the above said  
steps but the screw is the one below (FIG.4 - 21).  
screw  
latch switch hold  
front door pla  
Fig.4-21  
4.11 THE CONTROL PANEL OF  
MICROWAVE OVEN  
A
TYPICAL  
Pull out the power plug.  
light tough switch  
PC board  
Take off the cabinet.  
control panel  
Discharge between one end of the capacitor and the  
baseboard with a screwdriver.  
Means of dismantling the PC board and door release  
mechanism:  
(1) Pull out all the terminal plug of the PC board.  
(2) Loosen out the two screws which fix the control panel  
with a “+”- screwdriver (FIG.4 -6).  
(3) Take off the control panel.  
Fig.4-22  
(4) Take off the three “+”- screws which fix the PC board  
as the FIG.4 – 22.  
(5) Take off the range terminal plugs as FIG.4 – 24 shown, that is press the two places according to the arrow  
direction at the figure, while pull it up about 2mm, then off  
the row plastic board.  
light tough switch  
(6) Take off the PC frame.  
(7) Tear off the undried glue of the light touch switch (FIG.4  
- 23).  
control panel  
to assemble the PC board and door release mechanism,  
(1) Tear off the undried glue patch of the light tough switch  
(1) and (2) as the Fig.shown, and place them into the  
rectangle hole of the surface of the plastic board.  
(2) After uprighted the light tough switch, tear off the  
protective paper on the back, and stick it on the plastic  
board smoothly.  
Fig.4-23  
(3) Tear off the protective paper of the light touch switch (2), and stick the switch on the back of the plastic board  
smoothly.  
(4) Assemble in the PC frame and PC board as FIG .4 –22,  
and fix them with three “+”- screwes.  
(5) Fix the range wires as FIG.4-24, the means are: Insert  
the range wires first, make sure that its notch is tallied with  
the flange of the row seat, then, press it down to its normal  
position.  
(6) Fix the control panel on the oven (FIG.4-6).  
(7) Plug in the terminal plugs of the PC board.  
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5. BREAKDOWN ANALYSIS AND THE MEANS OF OVERHAULING  
Before overhauling a microwave oven, you should judge the breakdown and the cause correctly, then you can  
repair it with corresponding ways. The overhauling must be proceed in order, any hasty conclusion is not  
recommendable, otherwise over-working would be done when repair. The microwave oven may occur compound  
breakdown due to all kinds of different reasons, thus, when overhaul, they all should be taken into consideration.  
Special attention must be given to the microwave leakage and the electric insulation when examine because they  
may do harmful to the repairing staff.  
5.1  
EXAMINING THE BREAKDOWN CAUSES.  
How to examine a microwave oven with breakdown? A better means which demonstrated in practical operating  
are through inspecting and listening. On the basis of large amounts of perceptual knowledge, you can judge and  
analysie the break down quickly and correctly.  
5.1.1 INSPECTION.  
Inspect whether the oven shape is disordered and where is the disordered position, If any. It is normal if the  
cabinet disordered a little, but abnormal if the oven, the door disordered, the door hook broken, the door crooked,  
or there are too much looseness between the door and the oven after the door is closed .  
5.1.2 LISTENING.  
Listening to the sound of the oven operating and the noise of the fan. Minor “wen wen” noise, cycling“kala”noise  
and “shishi” noise should be considered as normal. But it is abnormal if the following noises occur:  
(1) Sound “wen wen ” noise.  
(2) Long time “shishi” noise.  
(3) Strike sound like “Pipa pipa”  
5.2  
5.2.1 EXAMINE THE MICROWAVE INSULATING RESISTANCE  
Measure the insulating resistance with avometer or  
SPOT EXAMINING STEPS OF THE MICROWAVE OVEN  
a
a
megaohmmeter the value should not be less than 2 megaohms.  
Otherwise, part examination should be taken at once. Such as  
checking whether the motor, the thermal cutout, the transformer or  
the capacitor are electricity leaking.  
glass tray  
5.2.2 EXAMINATION OF THE RESISTANCE VALUE OF THE  
MICROWAVE OVEN.  
Close the door, set the time (the oven is at operating condition but  
the power plug haven’t been plugged in ), measure the two feet (L -  
N) of the power plug with R×1 grade of an avometer, the resistance  
value should be about 2.5 ohm. If open circuit occurs, then you must  
Fig.5-1  
check whether the 8A fuse is brokenthe primary winding of the transformer is open circuitthe thermal cutout is  
open circuit or not, you must check whether the interlock device is put through or all the plugs are connected well.  
If short circuit occurred or the resistance less than 1.5 ohms, you  
should check whether the primary winding of the power transformer  
is short – circuited or part short – circuited.  
5.2.3 EXAMINATION OF MICROWAVE LEAKAGE.  
Measure the microwave leakage with a microwave leakage measure.  
Place a graduate of 275ml water at the middle of the glass tray of the  
oven (FIG.5 - 1). Close the door, power set high, time set to 3  
minutes, press the starting button to operate the oven. After rectified  
the microwave leakage measure, measure around the door crack,  
those hole position of the window and the air vent at four sides of the  
oven with the probe of the measure. When measure, the moving  
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speed of the probe should not exceed 25mm per second, and  
the measuring direction should be the same with the outing  
direction of the probe should not exceed 25mm per second, and  
the measuring direction should be the same with the outing  
direction of the microwave leakage (FIG.5 - 2)..  
When measuring the ultimate value of microwave leakage of all  
the measure position should not exceed 1 milliwatt/cm2, of  
should be considered as abnormal.  
Fig.5-3  
5.2.4 EXAMINE WHEN THE OVEN AT OPERATING, BUT THE  
FOOD CAN’T BE HEATED.  
(1) Examine when the lamp is on, the glass tray is cycling, the  
fan operating in normal:  
Take off the cabinet, starting the oven, measure the plug of the  
transformer with an avometer to see whether it is enough to  
120V. If it is enough to 120V, then the secondary high voltage of  
the transformer should be examined as FIG.5 – 3.  
Measure it with the 2500V-alternating grade of model 500  
avometer. One rod of the avometer connects the iron core of the  
transformer, the other rod connects the secondary high voltage  
plug (FIG.5 - 4). The avometer reading should be about 2100V  
(when measure, be careful with the high voltage). If no voltage  
Fig.5-4  
at all, it indicates that the transformer has broken, and should be  
replaced by a new one. If it is enough to 2100V, then check the  
filament voltage of the transformer with alternating 10V grade of  
an avometer, the value should be about 3.4V (FIG.5 - 5).  
If there is no voltage at all, it indicates the transformer has  
broken, and should be replaced by a new one. If it is enough to  
3.4V, check the filament resistance of the magnetron, measure  
the filament plug with the R×1 grade of a avometer (FIG.5 - 6). If  
it is open – circuited, it indicates the magnetron has broken, and  
should be replaced by a new one. It is normal if the resistance  
very small. Then check whether the magnetron steel has broken,  
if broken, replace with a new magnetron.  
Fig.5-5  
If there is no problem with the magnetron, check the high  
voltage diode then. Measure the diode with R×10K grade of an  
avometer, the “+” rod end of the avometer connect the cathode  
of the diode, the “-” rod end of the avometer connect the anode  
of the diode (FIG.5 - 7).  
magnetron  
The avometer reading should be about 150 thousand ohms.  
The change the rod to different electrode, the reading should be  
∞” . If the reading is very small, and near to short circuit, it  
indicates the high voltage diode has been punctured, and  
should be replaced by a new one.  
If the high voltage diode is OK, then check the forwarding plug  
of the transformer to see whether it is enough to 120V. If it is not  
enough, check the micro – switch of the time and power  
distributor. Connect the two rods of the avometer to the 1,2 place  
of the timer with R×1K grade. It is normal if the reading is “0”  
when at cut off condition. If the reading is “∞”, it indicates the  
micro switch has broken, and the timer should be replaced by a  
new one. If all the above examination shows normal ,then check  
whether the terminal plug of the magnetron and the capacitor  
have loosened, if it is loosened, pinch it tightly with a pliers.  
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5.2.5 EXAMINE THE STARTING AND THE 8A FUSE OF THE  
MICROWAVE OVEN.  
Pull out the power plug, take off the cabinet, discharge the  
capacitor, measure the resistance value of the primary  
winding and the secondary winding of the transformer with an  
avometer (FIG.5 – 10 and FIG.5 - 9). The resistance value of  
the primary winding should be about 2.2 ohms, the secondary  
winding should be about 130 ohms. Otherwise, it indicates the  
transformer has broken, and should be replaced by a new  
one.  
If the transformer is normal, then the high voltage capacitor  
should be checked. Pull out the connecting plug of the  
capacitor, and measure it with R×1 grade of an avometer, the  
two rods of the avometer connect the two polarity of the  
capacitor. When they just connected, the reading of the  
avometer should be zero, then increases to nine megaohm  
slowly. Change the rod to different polarity, the reading repeat  
from zero to nine megaohm (FIG.5 - 11), it means the  
capacitor is normal. If the indicator of the avometer can’t point  
out from zero to nine megaohms, it indicates the high voltage  
capacitor has broken, and should be replaced by a new one.  
Fig.5-8  
If it is normal between the two pole of the capacitor, then the  
insulation between the capacitor pole and the cabinet should  
be measured with R×10K grade of an avometer. The  
resistance value should be “∞” (FIG.5 - 12). If it is short  
circuited or have a number reading, it indicates that the  
capacitor has been punctured or electricity leaked, and should  
be replaced by a same model, same capacity one.  
Fig.5-9  
Fig.5-10  
Fig.5-11  
Fig.5-12  
If the resistance value of the capacitor’s two pole are “∞”, the capacitor is normal. Then check the earth of the  
magnetron’s two filaments to see whether they are short –  
circuited (FIG.5 - 13). If they are short – circuited and the  
magnetron  
filament strikes the shell of the magnetron, it indicates the  
magnetron has broken, and should be replaced by a new,  
same model one.  
If the magnetron is also normal, then test the pilot switch.  
Pull out the two plugs of the switch. Measure it with the R×1  
grade of avometer, the two rod connect the plug of the  
switch, the resistance value should be “∞” (FIG.5 - 8).  
Then press down the pilot switch with a screwdriver, if the  
reading of the avometer pointed to zero, it indicates the pilot  
switch has broken, and should replace it with a new, same  
model one.  
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5.3  
REPAIRING METHOD OF SEVERAL BREAKDOWN  
1. Repair when there occurred large amounts microwave  
leakage. There are many factors which may cause microwave  
leaking. Following mentioned may be the main causes of  
microwave leakage:  
(1) The door deformed, the hinge loosed or damaged that  
caused the door can not close tightly.  
(2) The door pressing cover or the embed piece damaged or  
come off.  
(3) Obvious damage or uneven of the oven.  
(4) There are filth between the door and the oven.  
(5) The door and the oven are serious loosed after the door  
closed.  
(6) The crack of the door shielding net cover.  
Before repairing, check whether the above listed point are  
existed, if not, can you start the microwave oven. Place a graduate of about 275ml water at the middle of the  
glass tray, close the door, time set at 3 minutes, power at high, make the oven operating in normal. Rectify the  
microwave leakage measure, measure the amount of the microwave leakage around the oven with its probe. If  
there are places which the leakage exceeds the standard requirement, then repair them accordingly. If the  
leakage amount exceeds 1 milliwatt/cm2 at the left door crack,  
door pushing  
part at  
right above  
then pull out the power plug, take down the cabinet, adjust the  
screws of the hinge (up and low) as figure5-14 to less the gap  
between the door and the oven. Then measure again, the  
leakage amount should be less than 1 milliwatt/cm2. Generally,  
it should be controlled below 0.75 milliwatt/cm2 with some  
allowance.  
screw  
micro switch  
If the leakage occurred at the right door crack, adjust the  
screws which fix the interlock holder and the hook. If the  
leakage is the larger side at the right – above of the oven, then  
adjust the upper screw as FIG.5 – 15. Loosen out the screw,  
push the door close to the oven to hook the door hook with the  
plastic parts, then tighten the Screw again. If the leakage is  
larger at the right – below, then adjust the lower screw as FIG. 5  
door pushing  
part at  
right below  
screw  
– 15. Loosen the screw, push the door close to the oven to hook the door hook with the switch holder tightly, then  
tighten the screw again, and open and close the door repeatedly, to check whether the door can operate flexibly,  
whether the hook and the switch are in their normal position. If it is not in position, then adjust the door hook and  
the switch holder repeatedly to make them to normal position, to put through the interlocks, to cut off the pilot  
switch, to less the loose between the door and the oven, then measure the leakage with microwave measure  
again.  
If the leakage still exceeds standard requirement, then inspect whether the right oven is even or not, if not,  
smooth it. Then adjust the door and the oven to eliminate their loose to the ultimate.  
If there still exist microwave leakage, measure near the  
magnetron with the probe of the microwave leakage mea-sure.  
If the leakage is larger, the oven should be turned off and  
check whether the four screws which fix the magnetron have  
been loosed, if loosed, twist them tightly with socket wrench. If  
the four screws are fixed, then the magnetron should be taken  
down to check the copper filament weaved washer of the  
magnetron has been placed well or whether the wave guide  
housing coupling has been oxidized or have lacquer on it. If do  
have, scrape the oxidized layer or the lacquer off. When fix the  
magnetron, the copper filament weaved washer must be  
placed well, the screws must be twist tightly. Then turn on the  
oven and measure again until it comply with the requirement. If  
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the microwave leakage is larger at those hole position of the window board. The oven should be turned off to  
inspect whether there are crack among them (fig.5 - 16). If several holes formed a crack, it would enlarge the  
microwave leakage. If that is the case, it indicates the door has broken, and should be replaced with a new door.  
2. Means of repair when the oven can heat, but the turntable glass can’t move  
Firstly, check whether the turntable holder is placed correctly. If it is correct, then pull out the power plug and take  
down the turntable combination, measure the resistance value of the turntable motor R×1K grade of a avometer.  
If it is open – circuited, it indicates the turntable motor has broken, and should be replaced by a new, same model  
one. If the resistance value is between 15 –22 K, it indicates the turntable motor is normal. Then check the  
connecting shaft weave. If the plastics which the shaft insert in has broken, a new shaft weave should replace it .  
3. Repair when the oven can heat, but the lamp is not on.  
Pull out the power plug, take down the cabinet an discharge the capacitor.  
Pull out the two terminal plugs of the lamp. Measure the two plugs of the lamp with the R×100 grade of a  
avometer.  
If it is open – circuited, it indicates the lamp has broken, and should be replaced by a same model one.  
4.Means of repair when the oven stop working after several minutes operating.  
The phenomenon indicates the thermal cutout is playing its protective role, and you should check whether the fan  
is working in normal. Turn off the oven, pull out the power plug, take down the cabinet, discharge the capacitor,  
then turn the fan with hand to see whether it is moving flexibly. If not, it indicates that the oil bearing of the fan  
motor has run off the oil, and should take down the fan combination to repair the motor. Loosen the two screws  
which fix the bearing out the shaft and the bearing, and rinse them with kerosene (ATTENTION: The bearing can  
only be wiped with a silk which moistened with kerosene rather than be washed in the kerosene because there  
are felt on it. If the felt are soaked with kerosene, then the engine oil can not be sucked up. ). After the bearing  
being cleaned, the felt should be refueled fully with engine oil (for when the oven is operating, the engine oil  
empty into the oil bearing slowly). Fix the bearing cover with two screws, turn the fan around till it can move  
flexibly. Then install them to the oven, and plug in the two terminal plugs.  
If the fan can move flexibly, then the winding of the fan motor should be examined. Measure the winding with  
R×100 grade of a avometer, if it is open – circuited, it indicates the winding of the fan motor has broken, and  
should be re-placed by a new, same model one.  
5.4  
THE CHARACTERS REQUIREMENTS OF MICROWAVE AFTER IT HAS BEEN REPAIRED  
After being repaired, the microwave oven should have a 30 minutes trial operation. It can be used only when it  
has been demonstrated that it is in good conditions of safety, heating and defrosting. The oven must have the  
following identifications when it at trial operating:  
5.4.1 INSULATION:  
Before conducted, measure the insulation resistance among those electric metal parts and the nonelectric metal  
cabinet with a 500V.D.C. Megaohmmeter. The resistance value should not be less then 2 megaohm.  
Testing condition: Door closed, power at “high”, time set at 3 minutes. This is the operating condition of the oven,  
but the power plug is not connected.  
5.4.2 MICROWAVE LEAKAGE:  
Microwave leakage can not be tell by watching or touching. To be responsible for the user, the amount of  
microwave leakage should be measured strictly, and should not exceed 5 milliwatt/cm2, according to the IEC  
STANDARD. Some countries stipulate that the maximum microwave leakage should not exceed 1 milliwatt/cm2.  
For safety concern, we must control the leakage under 1 milliwatt/cm2 after the oven being repaired, otherwise, it  
should be repaired again. Test must be proceeded completely and comply with the following procedures:  
Put a graduate of about 275ml water at the middle of the turntable glass tray of the oven, insert the power plug,  
close the door, power set high, time set 3 minutes to make the oven in operation. Rectify the microwave leakage  
measure first, measure around the door crack the metal net of the door and the air vent with the probe of the  
measure when measuring, the moving speed of the probe should not exceed 25mm/sec. The measuring direction  
of the probe must be the same with the outgoing direction of the microwave leakage.  
5.4.3 MICROWAVE HEATING.  
Place a graduate of about 250ml water on the turntable tray. Close the door, power set high, time set 4 minutes  
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(To those 700W microwave oven) to make the oven operating in normal. When the bell of the timer rings, open  
the oven door, the water should have boiled. If it have not been boiled yet, but is very hot, check whether the  
voltage is less than 120V. If the voltage below 120V but the water can be boiled after a little more time beating, it  
is normal.  
5.4.4 MICROWAVE DEFROST:  
Place a graduate of about 200ml water on the turntable glass tray of the oven, power set middle, time set 4  
minutes to make the oven operating in normal. When the bell of the time ring, open the door. It would be normal if  
the water is lukewarm.  
6. CRITICAL PARTS SERVICING  
6.1  
IMPORTANT THINGS TO DO PRIOR TO CRITICAL PARTS SERVICING:  
The following instructions are CRITICAL to the owner’s safety. Be sure to follow all the instructions. Contact the  
manufacturer or distributor if you have any question.  
1. If the oven is operative prior to servicing, a Microwave Leakage Test (a. k. a. Microwave Emission Check)  
should be performed prior to servicing the oven Refer to Section 7.3, Microwave Leakage Test. For the  
detailed check procedures.  
2. In the event that any microwave oven found to have microwave emission level in excess of 4 mW/cm2. The  
following procedures should be followed:  
(1). .Inform the distributor; importer, or manufacturer the finding. Record it in the logbook as well.  
(2). .Repair the unit at no cost to the owner.  
(3). .Investigate the oven and ascertain the cause of the excessive leakage.  
(4). .Hold the oven in your facility and instruct the owner not to use the unil until the oven has.  
3. In the event that the oven operates with the door open. The following procedures should be followed:  
(1). Tell the user not to operate the oven.  
(2). Hold the oven in your facility until it is investigated and repaired.  
(3). Contact the manufacturer and CDRH (FDA) immediately.  
6.2  
INTERLOCK ASSEMBLY REPLACEMENT AND ADJUSTMENT.  
1. If you suspect defective primary, secondary or monitor interlock switches, use your ommeter (digital or  
analog type) to check the electrical continuity.  
2. Make sure the power cord is pulled out and the high-voltage capacitor is discharged before the electrical  
continuity check.  
3. Set the ohmmeter to “Low Resistance” range and connect both leads (alligator clips) to the switch terminals.  
4. Open the door and notice the meter reading the primary or secondary interlock switch should show an  
“infinite” resistancc when the door is open. Replace it when it is defective. The monitor interlock should show  
a “zero or near zero” resistance when the door is open. When the door is closed, the readings will be  
opposite.  
5. If the oven has been rendered inoperative due to the failure of the monitored safety (primary and /or  
secondary ) interlock(s). You should replace all of the monitored safety interlock switched and the monitor  
switch.  
6. Refer to Chapter 4, Sections I and X for how to remove and assemble the interlock and monitor switches.  
7. Always refer to Section 0.4 for adequate wiring diagram. Monitor interlock must always be installed. Repeat  
Step 6.2.4 to check electrical continuity.  
8. Perform required checks and tests as described in Chapter 7 before releasing the oven to the owner.  
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7. COMMON BREAKDOWN OF MICROWAVE OVEN AND MEANS OF REPAIRING  
PHENOMENON  
CAUSE  
REPAIRING MEANS  
8A fuse broken.  
Change a new fuse.  
The primary and secondary winding of the  
transformer are short – circuited.  
Change a new transformer.  
Change a new capacitor.  
Change a new pilot switch.  
1. When starting the  
oven, the lamp is not on,  
the turntable tray can’t  
rotate and the food can’t  
be heated  
The earthing or the polarity of the polarity of  
the capacitor is punctured.  
Change  
switch.  
a
new interlock  
The pilot switch can’t cut off.  
The interlock switch hasn’t closed.  
Adjust the connection or  
replace it by a new one.  
Change a new hook.  
The power plug and the socket are not in  
good connection.  
The door hook broken.  
The primary and secondary winding, the  
filament of the transformer are open –  
circuit-ed.  
2.When starting the  
oven, the lamp is on, the  
turntable rotating, the fan  
cycling but the food can’t  
be heated.  
Change a new transformer.  
Change the magnetron.  
The magnetron filament is open – circuited,  
the magnetic steel of the magnetron broken  
or the magnetron is air leaking.  
Change the time power  
distributor  
or  
the  
Time and power distributor broken.  
micro-switch.  
The plugs of the magnetron or the capacitor  
loosed.  
Fix them.  
3. The food can be  
heated, but the lamp is  
not on  
The lamp broken.  
The plug falls off.  
Change a new lamp  
Insert the plug again  
The turntable motor broken  
Change the turntable motor  
Inset the plug securely  
Change the weave  
4. The food can be  
heated but the turntable The plug fall off  
tray is not rotating.  
Connecting shaft weave broken  
The winding of the fan motor in  
open-circuited.  
1.Change the fan motor  
2.Change the fan  
3.Insert the plug  
5. The oven can heat  
within 2-3 minutes, but  
can not heat from the  
fourth minutes  
The fan falls off  
The plug of the fan motor falls off  
The turnatable shaft is griped with the  
mo-tor bearin  
4.Overhauling them  
5.Repairing it  
The cooling vent blocked  
6. When starting the  
oven, it can’t heat, and The high voltage diode was punctured  
with “wenwen” noise.  
Change a new diode  
7. The oven can heat, but  
The iron core of the transformer loosed  
with sound “shishi” noise  
Change a new transformer  
The door deformed  
Mend the door  
Change the door  
Adjust the gap  
Change the oven  
The door metal net cracked  
The gap of the door crack is too large  
The welding point of the oven falls off  
8. Large amount of  
The screws which fix the magnetron loosed Tighten the screws  
microwave leakage  
The wave guide connection oxidized  
Scrape the oxidized and  
tighten the screws  
The magnetron copper filament washer is  
too thin cause the wave guide opening not Thick the copper filament  
in good earth. washer  
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After long time using, the wear and the rust  
–eaten enlarged the gap of the door shaft Adjust the hinge to rectify the  
and the shaft hole, thus cause the door position of the door.  
9. The door can’t open  
crooked.  
Change the hook.  
The door hook broken.  
10. The door release Worn out and aged after long time  
Overhaul it or renew it  
button fall off  
operating  
The earthing insulation resistance of all the Test where is the leaking  
motors or the transformer are less than 2 place, then repair it or change  
11. Electricity leaking  
megaohms.  
those damaged components.  
SPECIFICATIONS  
Power Consumption:  
120V~60Hz, 1450W  
Microwave Power Output:  
Operation Frequency:  
Outside Dimensions(H×W×D):  
Oven Cavity Dimensions(H×W×D):  
Oven Capacity:  
1000W  
2450MHz  
11.9×20.5×17.1 in.  
8.5×13.7×15.0 in.  
1.1cu.ft  
Cooking Uniformity:  
Turntable System (Φ12 3/8” )  
Approx. 45.2lbs.  
Net Weight:  
25  
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