Frigidaire FFMV162LM Wiring diagram

Frigidaire Air Conditioners Wiring diagram - FFMV162LM.
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MICROWAVE OVEN TECH SHEET

CAUTION

Disconnect from Electrical Supply Before Servicing Unit

PRECAUTIONS TO BE OBSERVED BEFORE AND

DURING SERVICING TO AVOID PROSSIBLE

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 operating.
2. Proper door closing.
3. Seal and sealing surfaces ( Arcing,

wear and other damage.)

4. Damage  to or loosening of hinges

and latch.

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. Waveguide or 

transmission line. And cavity for proper
alignment, integrity and connection.

D. Any detective or  mis-adjusted

components in the interlock, monitor, door 
seal, and microwave generation and 

transmission systems shall be repaired. 
replaced. or adjusted by producers.

designed 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. 

F. Do not attempt to operate  the oven if  the 

door glass is broken.

Parts Layout

Schematic Diagram

Warning : Power must be disconnected before servicing this appliance

Wiring Diagram

Warning : Power must be disconnected before servicing this appliance

NOTE: Door is open

Made in china

MODEL NO. :

NOTE: For servicing replacement use 16GA,105 C thermoplastic covered wire

except for high voltage leads or as noted on special leads.

1

12

RD-5

BR-22

OG-18

GN-23

GY-26

BL-25

BK-24

WH-31

YW-32

BK-17

WH-15

T/TABLE 
MOTOR

FAN 
MOTOR

WH-16

YW-7

WH-15

OG-18

WH-16

BL-20

YW-6

BK-17

OVEN 
LAMP

GN-23

BL-20

YW-19

YW-21

COOKTOP 
LAMP

WH-12

BK-10

POWER 
RELAY

WH-30

GN-28

YW-29

OG-27

BL-25

VENT 
MOTOR

CAVITY 
THERMOSTAT

BK-2

BK-1

BK-2

BK-3

MGT 
THERMOSTAT

BOTTOM 
THERMOSTAT

BK-4

BK-3

GY-26

BK-24

HOOD 
THERMOSTATA

OG-27

WH-31

YW-32

DOOR 
SENSING 
SWITCH

YW

-7

YW

-6

PRIMARY 
SWITCH

BK-

4

BK-

8

MONITOR 
SWITCH

WH

-1

1

WH

-9

YW

-2

9

GN

-2

8

MOTOR 
CONDENSER

BK

WH

BK

WH

GND

NOISE 
FILTER

BK-

1

WH

-1

2

OUT

IN

BK

WH

POWER 
CORD

WH

-1

1

BK-

1

0

WH

-9

BK-

8

H.V.TRANS

H.V.CAPACITOR

MGT TUBE

FA

F

H.V.DIODE

WH

RD

RD

RD

P C B

PK:PINK

GN:GREEN

BL:BLUE

YW:YELLOW

RD:RED

BK:BLACK
GY:GREY

WH:WHITE

OG:ORANGE BR:BROWN

GROUND

HARNESS  LEADS

PARTS LEADS

OVEN 
THERMOSTAT

VENT MOTOR

MOTOR 
CONDENSER

NOISE FILTER

OVEN LAMP

H.V.CAPACITOR

MAGNETRON

H.V.TRANSFORMER

FAN MOTOR

HOOD THERMOSTAT

BOTTOM 
THERMOSTAT

PRIMARY 
SWITCH

DOOR 
SENSING 
SWITCH

MONITOR 
SWITCH

COOK TOP 
LAMPS

T/TABLE 
MOTOR

H.V.DIODE

MAGNETRON 
THERMOSTATA

VE
N

T R

E

LAY

HI (RY5)

7

VENT

MOTOR

T.

P

.

LOW 

(RY4)

ON 

(RY3)

L.V.T

SUB RELAY

(RELAY 1)

LA

M

P

 REL

AY

1

8

H

OOD

 T

H

E

R

M

A

L           

CUT

-O

UT

(40/
70)

9

MO
TO
R

C

APA
C

IT

O

R

6

COOKTOP 

LAMP

L

L

3

4

L

OVEN

LAMP

120V

FAN 

MOTOR

FM

120V

TURNTABLE

MOTOR

TTM

12

POWER RELAY

(RELAY 2)

MAGNETRON

H.V.

CAPACITOR

11

F

FA

H.V.

TRANS

H.V.DIODE

22 B

R

10 B

K

8 B
K

7 Y
W

18 OG

15 W

H

16 W

H

17 B

K

6 Y
W

20 B

L

19 Y

W

21 Y

W

23 GN

29 Y

W

28 GN

30 W

H

5 R
D

26 GY

25 B

L

24 B

K

32 Y

W

31 W

H

27 OG

SWITCH (BOTTOM)

SENSE

DOOR

CAVITY 

THERMAL 

CUT-OUT

(1 10/0)

M

G

T T

H

E

R

M

A

L    

CUT

-O

UT

(1

6 0/

95

)

B

O

TTO

TH
E

R

M

A

CUT

-O

UT

(1

2 0/

0 )

PK:PINK

GN:GREEN

BL:BLUE

YW:YELLOW

RD:RED

BK:BLACK
GY:GREY

WH:WHITE

OG:ORANGE BR:BROWN

IN

TE

R

LO

C

K

 ( U

PPER

)

PR
IM

AR
Y

S

IN

G

LE

 PH
ASE
  

P

O

WE
R

 SU
PP
LY

 :

ON
LY

FIL

TE

R

 ASS'Y

FU
SE

BK

WH

GN

GN

1 B
K

2 B
K

3 B
K

4 B
K

C

O

N

TR

O

L P.W
.B. 
A

SS'
Y

12 W

H

11 W

H

9 W
H

MONITOR 

INTERLOOK

SWITCH

3. Measure resistance .( ohm meter scale: Rx1000)

Filament winding

Primary winding to ground

Primary winding
Secondary winding

Transformer

from the outlet before removing the  

Disconnect the power supply cord  

7. Normal temperature rise for this model is 9.9  C to 10.3  C at ‘HIGH’.
NOTE 1: Variations or errors in the test procedure will cause a variance in the temperature rise.

SWITCH

Component tests

Switch Chart

CHECK BY

DOOR

CAUTION MICROWAVE RADIATION

DOOR
CLOSE

Primary
Interlock

Disconnect the wires at the Primary Interlock Switch.
Check from the common terminal
to the normally opened terminal.

_

+

Door sensing
Interlock

Disconnect the wires at the sensing interlock Switch.
Check from the common terminal and
Normally closed terminal 

_

+

Monitor
Interlock

Disconnect the wires at the Monitor Switch.
Check from the common terminal and
Normally closed terminal .

+

_

(    ) CONTINUITY
(    )  NO CONTINUITY

_

+

DOOR
OPEN

L

N

Primary
Interlock
Switch

Door
Sensing
Switch

Monitor
Interlock
Switch

DOOR
CLOSE

L

N

Primary
Interlock
Switch

Door
Sensing
Switch

Monitor
Interlock
Switch

Note: These Diagrams are not intended to show a complete circuit, they represent the position of switches  

during “DOOR OPEN” and “DOOR CLOSED”. (continuity checks only)  

OUTPUT POWER OF MAGNETRON

PERSONNEL SHOULD NOT ALLOW EXPOSURE TO MICROWAVE RADIATION FROM MICROWAVE   
GENERATOR OTHER PARTS CONDUCTING MICROWAVE ENERGY.   

The output power of the magnetron can be measured by performing a water temperature rise test.
Equipment needed:
* Two 1-liter cylindrical borosilicate glass vessel (Outside diameter 190 mm)
* One glass thermometer with mercury column
NOTE: Check line voltage under load. Low voltage will lower the magnetron output.

Make all temperature and time tests with accurate equipment.

1. Fill the one liter glass vessel with water.
2. Stir water in glass vessel with thermometer, and record glass vessel’s temperature (“T1”, 10   1  C).

+

_

3. After moving the water into another glass vessel, place it in the center of the cooking tray.

Set the oven to high power and operate for 47 seconds exactly.
( 3 seconds included as a holding time of magnetron oscillation)

4. When heating is finished, stir the water again with the thermometer and measure the temperature ( “T2”).
5. Subtract T1 from T2. This will give you the water temperature rise. (     T )
6. The output power is obtained by the following formula;

Output =       4.187x1000x     T+0.55xMcx(T2-T0)

42

45 : Heating Times (sec)

( 3 seconds included as a holding time 

of magnetron oscillation.) 

4.187 : Coefficient for water

1000 : Water ( cc )

T : Temperature Rise (T2-T1)

T0 : Room Temperature

Mc : Cylindrical borosilicate glass weight

Additional power test should be made if temperature rise is marginal.

NOTE 2: Output power in watts is computed by multiplying the temperature rise (step 5) by a factor

of 91 times the of centigrade temperature.

WARNING

Personal injury/Product Hazard

outer cabinet from the unit.  

Discharge the high voltage capacitor  

and remove the lead wires from  
The primary winding of the high voltage   

transformer before conducting any of
the following tests.
Conduct all operation tests with 1 liter
of water in the oven.
Conduct a microwave energy test 

after performing any test or repairs

to the microwave.
Check that all wire leads are in the
Correct position before operating
The microwave oven.

Grasp wire connectors when 

removing  the wire leads from 

microwave parts.

Failure to follow these instructions may

result in electrical shock or other
Personal injury or in product damage.

High voltage components

Components

Secondary
Terminal

Filament
Terminals

Primary
Terminal

Magnetron

Cooling
Fins

Capacitor

Diode

Some inexpensive
Meters may indicate
Infinite resistance in
both directions

Ventilation Motor

Test

1. Remove wire leads.

2. Measure resistance .( ohm meter scale: Rx1)

Filament winding to ground

1. Remove wire leads. Install the magnetron seal in the 

correct position .Check that the seal is in good condition.

2. Measure resistance .( ohm meter scale: Rx1)

Filament winding

3. Measure resistance .( ohm meter scale: Rx1000)

Filament to chassis

1. Remove wire leads. 

2. Measure resistance .( ohm meter scale: Rx1000)

Terminal to terminal

Terminal to case

1.  Measure continuity. Forward .( ohm meter scale: Rx1000)

2.  Measure continuity. Reverse .( ohm meter scale: Rx1000)

1. Remove wire leads. 
2. Measure resistance .( ohm meter scale: Rx1)

2 level: White and Blue wire

Results

Approx. 0.334+2% ohm.
Approx. 118.7+2% ohm.
0 ohm..

Normal: Infinite.

Normal: Infinite.

Normal: Less than 1 ohm

Normal: Infinite.

Normal:

Momentarily indicates several
ohm, and then gradually
returns to infinite.

Normal: Infinite.

Normal: Continuity.

Abnormal: Infinite.

Normal: Infinite.

Abnormal: Continuity.

Approximately 35.2 ohms

T/Table Motor

Fan Motor

Other component tests

1. Remove wire leads.

2. Measure resistance. ( ohm meter scale: 

Rx1000)

Normal:

Approximately: 3.3k ohms 

1. Remove wire leads.

2. Measure resistance. ( ohm meter scale: 

Rx1)

Normal:

Approximately: 97.4 ohms 

MODEL NO. : 

p/n 316495069

(C)/FMV152K; C/FFMV162L;C/FFMV164L

(C)/FMV152K; C/FFMV162L;C/FFMV164L

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