2.1. Adjustment of primary latch
switch, secondary latch switch
and short switch.
1. Mount the Primary latch switch, the Secondary latch switch
and the short switch to the door hook assembly as shown in
ILL.
NOTE:
No
specific
individual
adjustments
during
installation of the Primary latch switch, Secondary
latch switch or Short switch to the door hook are
required.
2. When mounting the door hook assembly to the oven
assembly, adjust the door hook assembly by moving it in
the direction of the arrows in the illustration so that the oven
door will not have any play in it. Check for play in the door
by pulling the door assembly. Make sure that the latch keys
move smoothly after adjustment is completed. Completely
tighten the screws holding the door hook assembly to the
oven assembly.
3. Reconnect the short switch and check the continuity of the
monitor circuit and all latch switches again by following the
component test procedures.
2.2. Measurement of microwave
output
The output power of the magnetron can be determined by
performing IEC standard test procedures. However,due to the
complexity of IEC test procedures, it is recommended to test
the magnetron using the simple method outlined below.
Necessary Equipment:
*1 liter beaker *Glass thermometer
*Wrist watch or stopwatch
NOTE:
Check the line voltage under load.Low voltage will
lower the magnetron output. Take the temperature
readings and heating time as accurately as possible.
1. Fill the beaker with exactly one liter of tap water.Stir the
water using the thermometer and record the water’s
temperature. (recorded as T1).
2. Place the beaker on the center of glass tray.
Set the oven for High power and heat it for exactly one
minute.
3. Stir the water again and read the temperature of the water.
(recorded as T2).
4. The normal temperature rise at High power level for each
model is as shown in table.
TABLE (1L-1min.test)
RATED OUTPUT
TEMPERATURE RISE
1200W
Min. 18.5°F(10.3°C)
1300W
Min. 19.8°F(11.1°C)
2 MEASUREMENTS AND ADJUSTMENTS
8
NN-P994SFR
/ NN-P994BFR
Summary of Contents for INVERTER NN-T995
Page 2: ...2 NN P994SFR NN P994BFR ...
Page 3: ...3 NN P994SFR NN P994BFR ...
Page 5: ...1 SCHEMATIC DIAGRAM 1 1 APH 5 NN P994SFR NN P994BFR ...
Page 6: ...1 2 CPH 6 NN P994SFR NN P994BFR ...
Page 7: ...1 3 RPH 7 NN P994SFR NN P994BFR ...
Page 11: ...5 EXPLODED VIEW AND PARTS LIST 5 1 EXPLODED VIEW 11 NN P994SFR NN P994BFR ...
Page 22: ...6 DIGITAL PROGRAMMER CIRCUIT 6 1 P994 FR APH CPH 22 NN P994SFR NN P994BFR ...
Page 23: ...23 NN P994SFR NN P994BFR ...
Page 24: ...6 2 NN T995SF APH CPH T995SF SM RPH T985SF APH 24 NN P994SFR NN P994BFR ...
Page 25: ...25 NN P994SFR NN P994BFR ...
Page 26: ...6 3 NN T955SF APH T994SFR APH 26 NN P994SFR NN P994BFR ...
Page 27: ...27 NN P994SFR NN P994BFR ...
Page 28: ...6 4 NN T975SF T965SF T945SF T935SF APH T964SFR APH 28 NN P994SFR NN P994BFR ...
Page 29: ...29 NN P994SFR NN P994BFR ...
Page 30: ...6 5 NN H965 APH CPH H935 APH 30 NN P994SFR NN P994BFR ...
Page 31: ...31 NN P994SFR NN P994BFR ...
Page 32: ...6 6 NN S935 APH 32 NN P994SFR NN P994BFR ...
Page 33: ...33 NN P994SFR NN P994BFR ...
Page 34: ...6 7 NN S955 RPH S934 FR APH 34 NN P994SFR NN P994BFR ...
Page 35: ...35 NN P994SFR NN P994BFR ...
Page 36: ...6 8 NN S955 APH S954 FR APH 36 NN P994SFR NN P994BFR ...
Page 37: ...37 NN P994SFR NN P994BFR ...
