4
R-2275
R-2285
OPERATION SEQUENCE
OFF CONDITION
Closing the door activates all door interlock switches
(1st latch switch, 2nd latch switch, 3rd latch switch and stop
switch)
IMPORTANT
When the oven door is closed, the monitor switch contacts
COM-NC must be open. When the microwave oven is
plugged in a wall outlet (220 -230 volts, 50Hz), the line
voltage is supplied to the point A5+A7 in the control panel.
Figure O-1 on page 29 or 30
1. The digital display shows
NOTE: When the door is opened or after cooking, oven
lamp and blower motor work for 1 minute.
MICROWAVE COOKING CONDITION
Touch MICROWAVE POWER LEVEL button and enter a
desired cooking time with the rotating ELECTRONIC TIMER.
And then touch START key
Function sequence Figure O-2 on page 29 or 30
CONNECTED COMPONENTS
RELAY
Oven lamp / Blower motor
RY1
High voltage transformer T1
RY3
High voltage transformer T
RY4
1. The line voltage is supplied to the primary winding of the
high voltage transformer. The voltage is converted to
about 3.3 volts A.C. output on the filament winding and
high voltage of approximately 2000 volts A.C. on the
secondary winding.
2. The filament winding voltage (3.3 volts) heats the mag-
netron filament and the high voltage (2000 volts) is sent
to the voltagedoubling circuit, where it is doubled to
negative voltage of approximately 4000 volts D.C..
3. The 2450 MHz microwave energy produced in the
magnetron generates a wave length of 12.24 cm. This
energy is channelled through the waveguide (transport
channel) into the oven cavity, where the food is placed
to be cooked.
4. When the cooking time is up, a signal tone is heard and
the relays RY3+RY4 go back to their home position. The
circuits to the high voltage transformers T1+T2 are cut
off. The relay RY1 remains and oven lamp and blower
motor work for 1 minute.
5. When the door is opened during a cook cycle, the
switches come to the following condition.
CONDITION
DURING
DOOR OPEN
SWITCH
CONTACT
COOKING
(NO COOKING)
1st latch switch
COM-NO
Closed
Open
Monitor switch
COM-NC
Open
Closed
2nd latch switch
COM-NO
Closed
Open
Stop switch
COM-NO
Closed
Open
3rd latch switch
COM-NO
Closed
Open
The circuits to the high voltage transformers T1+T2 are
cut off when the 1st latch, 2nd latch, 3rd latch and stop
switches SW1+SW2+SW3+SW5 are made open. The
blower motor BM and remains on even if the oven door
is opened after the cooking cycle has been interrupted,
because the relay RY1 stays closed. Shown in the
display is the remaining time, but the program is can-
celled if the oven is not started within 3 minutes.
6. MONITOR SWITCH CIRCUIT
The monitor switch SW4 is mechanically controlled by
oven door, and monitors the operation of the 1st latch
switch SW1.
6-1. When the oven door is opened during or after the cycle
of a cooking program, the 1st, 2nd, 3rd latch and stop
switches SW1+SW2+SW3+SW5 must open their con-
tacts first. After that the contacts (COM-NC) of the
monitor switch SW4 can be closed.
6-2. When the oven door is closed, the contacts (COM-NC)
of the monitor switch SW4 must be opened first. After
that the contacts (COM-NO) of the 1st, 2nd, 3rd latch
and stop switches SW1+SW2+SW3+SW5 must be
closed.
6-3. When the oven door is opened and the contacts of the
1st latch switch SW1 remain closed, remains closed,
the fuse F2 F6.3A will blow, because the monitor switch
is closed and a short circuit is caused.
MICROWAVE VARIABLE COOKING
When the microwave oven is preset for variable cooking
power, the line voltage is supplied to the high voltage
transformers T1+T2 intermittently within a 32 second time
base through the contacts of the relays RY3+RY4.
The following levels of microwaves power are given.
32 sec. ON
18 sec. ON
8 sec. ON
6 sec. ON
NOTE: The ON/OFF time ratio does not exactly corre-
spond to the percentage of microwave power, be-
cause approx. 2 seconds are needed for heating up
the magnetron filament.
TWO MAGNETRON OPERATION SYSTEM
Two magnetrons MG1+MG2 are equipped in order to get
higher microwave power output. The primary windings of the
high voltage transformers T1+T2 are connected so that each
magnetron can be oscillated alternatively according to the
frequency of the power supply. Refer to the Figure 1 and 2.
Approx. 50%
Approx. 20%
Approx. 10%
