Amana Refrigerator Bottom Mount Refrigerator User Manual
Base manual covers 84” tall  
bottom mount refrigerators.  
Service  
Bottom Mount Refrigerators  
Service Manual for  
Amana®  
Refer to “Technical Sheet”, part #12074201  
for values and wiring schematics.  
This manualis tobeusedbyqualifiedappliance  
techniciansonly.Amanadoesnotassumeany  
responsibilityforpropertydamageorpersonal  
injuryforimproperserviceproceduresdonebyan  
unqualifiedperson.  
RS1200001  
Revision 0  
Appliances  
Raytheon  
November 1996  
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Contents  
Safety and Electrical Information  
Circuitry ................................................................. 33  
Freezer Compartment Refrigeration ......................  
Cycle Circuitry .................................................... 33  
Fresh Food Compartment Refrigeration ................  
Cycle Circuitry .................................................... 33  
Fresh Food and Freezer Compartment .................  
Refrigeration Cycle Circuity ............................... 33  
Adaptive Defrost Circuitry .................................. 33  
Door Disassembly Procedures  
Air Discharge Grille ............................................... 34  
Refrigerator Door ................................................... 34  
Freezer Drawer and Basket................................... 34  
Door Stops ............................................................. 34  
Door Handles ......................................................... 34  
Door Gaskets ......................................................... 34  
Inner Door Liners and Outer Door Shells .............. 34  
Refrigerator Door Switch ....................................... 34  
Cabinet Components Disassembly Procedures  
Safety Symbols, Words, and Labels ....................... 2  
Electrical Requirements .......................................... 2  
Grounding Information............................................. 2  
Installation Instructions ............................................... 5  
Sound Information ...................................................... 9  
System Diagnosis  
Pressure and Relationship Chart........................... 10  
Refrigerant Overcharge Symptoms .......................11  
Refrigerant Shortage Symptoms ............................11  
Restriction Symptoms ............................................11  
Air in System Symptoms ....................................... 12  
Low or High Ambient Temperature Installation .........  
Symptoms.............................................................. 12  
Heat Load Symptoms ............................................ 12  
HFC134a Service Information  
Health, Safety, and Handling................................. 13  
Comparison of CFC12 and HFC134a Properties.. 13  
Service Equipment ................................................ 14  
Drier Replacement ................................................ 14  
Replacement Service Compressor ....................... 15  
Refrigerant Charge ................................................ 15  
Leak Testing........................................................... 15  
Evacuation and Charging ...................................... 15  
Refrigerant Flow ....................................................... 17  
Air Flow ..................................................................... 18  
Machine Compartment Assembly ............................ 19  
Component Function and Testing ............................. 20  
Electronic Functional Description ............................. 25  
Electronic Testing Mode ........................................ 26  
Forced Defrost Activation .................................. 26  
Forced Compressor Activation........................... 26  
Open Thermistor Detect..................................... 26  
Key Board Functions ............................................. 26  
Display On Pad .................................................. 26  
Warmer Pad ....................................................... 26  
Colder Pad ......................................................... 26  
Freezer Temp Pad.............................................. 27  
Ref Temp Pad .................................................... 27  
Vacation Pad ...................................................... 27  
Max Ref Pad ...................................................... 27  
Max Frz Pad ....................................................... 27  
Alarm Off Pad .................................................... 27  
Display Off Pad .................................................. 27  
Door Open Alarm ............................................... 27  
High Temp .......................................................... 27  
Temperature Control Operation............................. 27  
Adaptive Defrost Operation ................................... 28  
Power Up Condition............................................... 28  
EEPROM Update in Control Memory ................... 28  
Accessing Program Mode .................................. 28  
Operation............................................................ 29  
Mode A Functions .............................................. 29  
Mode B Functions .............................................. 29  
Exiting Program Mode ....................................... 30  
Refrigeration and Defrost Component Checks .........  
Made at High Voltage Board ................................. 32  
Refrigerator Fan .................................................... 35  
Refrigerator Light Switch ....................................... 35  
Refrigerator Light Socket....................................... 35  
Center Mullion ....................................................... 35  
Freezer Switches and Thermistor Panel ............... 35  
Freezer Evaporator Cover..................................... 35  
Defrost Thermostat................................................ 35  
Evaporator Defrost Heater .................................... 35  
Evaporator ............................................................. 35  
Evaporator Fan Blade ........................................... 35  
Evaporator Fan Motor ........................................... 35  
Front and Rear Roller Assembly ........................... 35  
Water Valve ........................................................... 35  
Condensate Drain Pan .......................................... 36  
Shelf Support Ladders ........................................... 36  
Chef's Pantry Assembly ........................................ 36  
Refrigerator Thermistor ......................................... 36  
Machine Compartment Disassembly Procedures  
Machine Compartment Access ............................. 37  
Low and High Voltage Board and Showroom Switch  
Access ................................................................... 37  
Low Voltage Board................................................. 37  
High Voltage Board................................................ 37  
Compressor, Condenser, and Condenser .................  
Fan Access ............................................................ 37  
Capacitor ............................................................... 37  
Overload and Relay............................................... 37  
Condenser Fan Blade ............................................ 37  
Condenser Fan Motor............................................ 37  
Precondenser Pan Loop ........................................ 37  
Compressor ........................................................... 37  
Condensate Drain Pan .......................................... 38  
Condenser ............................................................. 38  
Power Disconnect Switch ...................................... 38  
Showroom Switch .................................................. 38  
Typical External Sweat Pattern ................................ 39  
Troubleshooting Guide.............................................. 40  
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Contents  
Ice Maker  
Operation ............................................................... 42  
Specifications ........................................................ 42  
Testing Procedures ................................................ 42  
Disassembly Procedures ....................................... 43  
Cover .................................................................. 43  
Module, Motor, and Support Assembly .............. 43  
Shut-off Arm ....................................................... 43  
Module and Heater Assembly ............................ 43  
Fill Cup ............................................................... 43  
Ejector Blades or Stripper .................................. 44  
Accessing Control Box ....................................... 44  
Water Fill Adjustment ............................................ 44  
Water Problems..................................................... 45  
Temperature Problems .......................................... 45  
Thermostat ............................................................ 45  
Wiring Harness ...................................................... 45  
Water Valve ........................................................... 46  
Wiring Harness ...................................................... 46  
Ice Maker Troubleshooting Chart ............................. 47  
Ice Maker Wiring Diagram and Parts Layout ........... 50  
Trim Kit Installation Instructions  
B136CKR1 and B136CKL1 Custom Handle Kit .... 51  
B136SPK1 1/4” Facia Front Enclosure Kit ............ 58  
B136SPK2 3/4” Side Panel Kit .............................. 65  
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Installation Instructions  
Uncrating  
Securing  
WARNING  
WARNING  
To avoid severe personal injury or property  
damage from refrigerator tipping over, do not  
open more than one door at a time, until  
refrigerator has been secured to the structure.  
Secure refrigerator to structure using lag bolts  
located in the refrigerator's machine  
compartment.  
To avoid severe personal injury or property  
damage from refrigerator tipping over, 2 or  
more people are required to install  
refrigerator. Take caution when removing  
refrigerator from skid. Do not drop refrigerator.  
Do not open more than one door at a time,  
until refrigerator has been secured to  
structure. Refrigerator is top heavy and easily  
tips.  
1. Locate and mark 2 wall studs to mount 2x4. See  
"Installation Specifications". Do not cover electrical  
outlet with 2x4.  
Caution  
Locate and predrill 1/4" holes in 2x4. Countersink  
2x4 for bolt heads using a wood bit. See "Installation  
Specifications".  
To avoid personal injury, wear gloves  
when performing any installation procedure.  
2. Remove 2x4 mounting board from top rear of  
refrigerator. Bolt 2x4 securely to wall studs with  
supplied bolts. If application does not have studs  
such as a framed wall mount to wall, not surface,  
using a minimum 1/4" diameter fasteners (not  
supplied). If cabinets are deeper than 24" mounting  
board must be shimmed and structurally secured to  
the 2 x 4 board. Longer bolts are required to shim  
mounting board.  
3. To avoid water line damage, verify water line is  
secure so refrigerator does not run over water line.  
See "Installation Specifications" for water line  
location.  
The 2 x 4 mounting board, for securing refrigerator to  
wall, is attached to top rear of refrigerator. Save  
cardboard to protect walls when installing refrigerator.  
1. Remove top and bottom strap.  
2. Remove top cap.  
3. Cut along dashes on carton rear with a utility knife  
extended 1/4".  
4. Remove carton, exterior packaging, and tape from  
lag screws. Do not remove nylon cord from power  
cord.  
5. Remove shipping brackets from skid by removing 4  
bolts with a 7/16" socket head screwdriver.  
6. Strap refrigerator on cart. To prevent doors from  
opening, tilt refrigerator to handle side. Remove  
refrigerator from skid.  
4. Repair any loose flooring in cutout.  
5. Tape door and drawer shut with masking tape.  
Before moving the refrigerator in place, confirm the  
finished dimensions, electrical and plumbing locations,  
and minimum door and drawer clearances are accurate.  
7. To avoid floor damage, use protective material.  
Caution  
6. Position refrigerator in front of cutout.  
7. Remove air grille assembly by lifting center blade.  
To avoid property damage, protect soft vinyl  
or other flooring with protective material when  
moving refrigerator. Verify wheels are clean  
before placing refrigerator on flooring.  
Air grille  
Center air  
grille blade  
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Installation Instructions  
8. Remove (4) 1/4" screws with a magnetic extended  
screw driver.  
9. Pull air grille assembly forward.  
12. Roll refrigerator into cutout to within 3" of being  
flush with kitchen cabinets. To avoid kitchen cabinet  
damage, place cardboard between kitchen cabinets  
and refrigerator. Push cardboard back with  
refrigerator and remove cardboard when refrigerator  
is in place. Remove power cord slack by pulling  
nylon cord straight out while pushing refrigerator  
completely into place. Power and nylon cord will  
rest along refrigerator side.  
Air grille  
assembly  
Pull nylon  
cord straight  
out  
1/4" screws  
Power cord  
must rest  
as shown  
10. Verify operation by plugging in power cord. Power  
switch will be shipped in the on position and the  
showroom switch will be shipped in the off position.  
Display should flash. Press any key. There is a 6  
minute delay before refrigerator starts. Verify  
position of each switch if there is no power to  
refrigerator.  
Showroom  
switch  
13. Level refrigerator by turning front and rear leveling  
wheel bolts clockwise to raise refrigerator and  
counterclockwise to lower refrigerator. Rotate  
stabilizing legs until firmly in place against floor.  
14. Align refrigerator with sides of kitchen cabinets  
using leveling bolts.  
Power  
switch  
15. Secure lag bolts by removing center air grille blade.  
Screw lag bolts securely into 2x4 mounting board  
using a magnetic 6" extension socket. See  
"Installation Specifications".  
11. Pull end of nylon cord around refrigerator side (side  
without 1/4" panel installed, if any) level with top of  
refrigerator door. Tape cord in place.  
Lag bolts  
WARNING  
To avoid electrical shock which can cause  
severe personal injury or death, disconnect  
power to refrigerator using power switch  
before performing any installation procedure.  
After performing installation procedure,  
connect power using power switch.  
16. Push extra nylon cord back in along side of  
refrigerator out of sight or cord can be flush with  
refrigerator.  
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Installation Instructions  
Water Connection  
Door Panel Installation  
The garden hose fitting, compression nut, and sleeve  
are located in the literature packet. Amana® Clean  
'n ClearBayonet Style Water Filtration System  
WF60 is shipped in crisper drawer. See water filter  
installation and operating instructions for  
specifics.  
Panels must not weigh more than 50 pounds per door.  
Refrigerator Door 3/4" Raised Panel  
1. Slide out handle screw insert and remove handle  
by removing screws with a Phillips  
screwdriver.  
1. Flush air and impurities from water line by  
turning on water supply and running a pint or  
more of water into a bucket.  
2. Remove plastic cap from water valve fitting.  
Connect copper tubing to water valve with  
brass nut and brass sleeve. Insert copper tubing  
completely into water valve inlet port. Connect  
brass nut on copper tubing to water valve inlet  
port fitting. Confirm copper tubing is secure by  
pulling on copper tubing.  
Handle  
Handle screw  
insert  
3. Turn on water supply to refrigerator and check  
f o r leaks. Turn off water supply to  
refrigerator and correct any leaks. Repeat  
this process until no leaks exist. Completely  
turn on water supply to refrigerator.  
4. Verify drain pan is installed and aligned.  
5. Replace toe grille with air vents to the top.  
Kitchen flooring must allow toe grille to be  
removed. See "Installation Specifications" for  
height clearance. See "Custom Finishing  
Options" when using a custom toe grille.  
Screws  
Refrigerator Door  
Air vents  
2. Align panel brackets (supplied) with center edge  
of panel. Install brackets using 1/4" screws  
(supplied).  
Clip  
3. If base panel is less than 1/4" use plastic  
shims (supplied). Shims go between bracket and  
wood to space panels to desired depth.  
4. Drive low profile screws (supplied) with  
Phillips screwdriver.  
Toe grille  
• Panel brackets must be exactly flush to 1/16"  
inboard of panel edge.  
• For ease of panel installation 2 people are  
required to lift and guide panel into trim.  
• Install 1 panel at a time.  
5. Align panel in trim and push evenly. For  
smoother installation apply bar soap on door  
trim and refrigerator trim. If panel binds loosen  
top or side door trim. Adjust panel and retighten.  
6. Install handle with screws. Install screw strip  
(supplied) by starting in one corner and pushing  
the length of the strip down.  
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Installation Instructions  
Freezer Door 3/4" Raised Panel  
Hinge Adjustment  
1. Slide out handle screw insert and remove handle  
by removing screws with a Phillips  
screwdriver. Handle is in 2 pieces, reinstall if  
pieces come apart.  
Verify proper door alignment. Wait until panels are  
installed for door settlement. Only the top hinge is  
adjustable.  
Adjust top hinge by completing the following:  
1. Remove air grille blade and air grille assembly.  
2. Loosen top hinge screws.  
Handle screw  
Screws  
insert  
Top hinge  
screws  
Handle  
Top hinge  
Freezer Door  
3. Align refrigerator door by lifting.  
4. Tighten screws.  
5. Install air grille.  
6. Replace air grille assembly.  
2. 1/2" x 3 1/2" notch is required on hinge side.  
3. Remove top handle trim and 1 side trim piece for  
ease of installation.  
4. Align panel brackets and screws.  
Interior Setup  
5. Align panel in trim and push evenly. Start at one  
end and work across. For smoother installation  
apply bar soap on door trim and freezer trim. If  
panel binds loosen top or side door trim. Adjust  
panel and retighten.  
6. Install handle with screws. Install screw strip  
(supplied) by starting in one corner and pushing  
the length of the strip down.  
1. Remove interior packaging.  
2. Turn shelves upright.  
3. Move dairy module to desired position on  
refrigerator door. See "Model Diagram".  
4. Twist cardboard in ice bin to release freezer  
t r a y.  
5. Remove literature packet from freezer tray and  
give to consumer. Complete "Installation  
Checklist" with consumer.  
Door Stop Adjustment  
1. Remove center grille blade from top air grille.  
2. Remove top air grille by removing (4) 1/4” screws  
with a magnetic screw driver. Pull assembly  
forward.  
3. Open refrigerator door so door stop arm and  
shoulder screw are accessible. Shoulder  
screws should be in 110° door opening position.  
4. Remove shoulder screw and place shoulder  
screw  
in the 90° or 120° door opening position.  
120° door  
opening  
position  
Shoulder  
screw  
110° door  
opening  
position  
Door stop arm  
90° door  
opening  
position  
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Sound Information  
Normal Operating Sounds  
This new refrigerator may be replacing a differently  
designed, less efficient or smaller refrigerator.  
Today’s refrigerators have new features and are more  
energy efficient. As a result, certain sounds may be  
unfamiliar. These sounds are normal and will soon  
become familiar. These sounds also indicate the  
refrigerator is operating and performing as designed.  
Freezer and fresh food fan air rushes and whirs.  
Sealed system (evaporator and heat exchanger)  
refrigerant flow gurgles, pops or sound like boiling  
water.  
Defrost heater sizzles, hisses or pops.  
Condenser fan air rushes and whirs.  
Compressor has a high pitched hum or pulsating  
sound.  
Ice cubes from ice maker drop into ice bucket.  
Ice maker water valve hookup buzzes when ice  
maker fills with water. This occurs whether or not  
refrigerator is connected to water supply. If  
refrigerator is not connected to water supply, stop  
sound by raising ice maker arm to off position.  
Foam insulation is very energy efficient and has  
excellent insulating capabilities. However, foam  
insulation is not as sound absorbent as previously  
used fiberglass insulation.  
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System Diagnosis  
Pressure and Relationship Chart  
Condition  
Suction  
Pressure  
Variation  
Head Pressure  
Variation from  
Normal  
T1 Inlet  
Temperature  
Variation from  
Normal  
T2 Outlet  
Temperature  
Variation from  
Normal  
T3 Suction  
Temperature  
Variation from  
Normal  
Wattage  
Variation from  
Normal  
from Normal  
Refrigerant  
Overcharge  
Increase  
Increase  
Warmer  
Warmer  
Colder  
Increase  
Decrease or Increase  
See "Refrigerant  
Shortage Symptoms"  
Refrigerant  
Shortage  
Decrease  
Colder  
Warmer  
Warmer  
Decrease  
Decrease or Increase  
See "Restriction  
Symptoms"  
Partial  
Restriction  
Decrease  
Colder  
Warmer  
Warmer  
Warmer  
Warmer  
Decrease  
Increase  
Near Normal  
Increase  
Warmer  
Air in System  
Low Ambient  
Installation  
(Reverse for  
High Ambient  
Installation)  
Decrease  
Decrease  
Colder  
Warmer  
Warmer  
Decrease  
Additional  
Heat Load  
Increase  
Increase  
Increase  
Warmer  
Warmer  
Warmer  
Warmer  
Warmer  
Increase  
Inefficient  
Compressor  
Normal or Decrease  
Warmer or Colder  
Decrease  
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System Diagnosis  
Refrigerant Overcharge Symptoms  
• Above normal freezer temperature.  
• Compressor running continuously.  
• Freezing in refrigerator due to Chef’s Pantry™  
.• High suction and head pressure.  
Restriction Symptoms  
• Refrigeration cooling occurs on low pressure side of  
partial restriction.  
• Total restriction will stop circulation of refrigerant and  
no cooling will occur.  
• High wattage.  
• Touch refrigeration lines. Most common place for  
restriction is at drier filter or capillary tube inlet or  
outlet.  
• If partial restriction there will be temperature  
difference at restriction point. Evaporator side will be  
cooler. In most cases, frost and/or condensation will  
be present. Longer time is required for system to  
equalize.  
• Kinked line will cause restriction. Visually check entire  
system for kinks.  
• Slight restriction will give same indications as  
refrigerant shortage with lower than normal back  
pressure, head pressure, wattage, and warmer  
temperatures.  
• Warm evaporator inlet and outlet temperature.  
• Below ambient suction tube temperature. Check for  
separated heat exchanger when suction temperature  
is colder than ambient.  
• Refrigerant will flood out causing suction line to frost  
or sweat, if defrost system fails and cooling coil is not  
defrosted. Correct problem instead of purging  
refrigerant.  
• Freezer colder than necessary (normal package  
temperature is 0° to 2°F).  
• Evaporator fan motor not running.  
Refrigerant Shortage Symptoms  
• Rise in refrigerator and freezer temperatures.  
Warm beverages will be first indication of  
possible refrigerant shortage. Frozen meats and  
vegetables will not thaw immediately. Some freezing  
may occur in refrigerator section due to additional run  
time because of Chef’s Pantry. Capillary line will not  
have full column of liquid with refrigerant shortage. A  
noticeable hissing sound in evaporator will be heard.  
Hissing should not be mistaken for regular refrigerant  
boiling sounds.  
• If total restriction is on discharge side of compressor,  
higher than normal head pressures and wattages will  
occur. This is only true while low side is being pumped  
out and if restriction was between compressor and  
first half of condenser.  
Diagnose restriction by completing the following:  
1. Discharge system.  
2. Replace drier-filter.  
3. Evacuate and recharge system with specified  
refrigerant charge.  
• Long or continuous run time.  
• Traces of oil caused by leak or cracked refrigerant  
line.  
If refrigerator performs normally, the following  
conditions may exist:  
• Lower than normal wattage.  
• refrigerant loss  
• Compressor will feel hot due to heat generated by  
motor windings from continuous running. Compressor  
will not be as hot as it would be with full charge and  
long run times caused by reasons such as dirty  
condenser.  
• Condenser will feel room temperature.  
• Capillary tube will feel warmer than normal.  
• If high side leak, both gauges will show lower than  
normal readings. As charge becomes less, readings  
will lower. Suction pressure gauge will probably  
indicate a vacuum.  
• If low side leak, suction pressure gauge will show  
lower than normal readings, probably in a vacuum.  
Head pressure gauge will show higher than normal.  
Readings will probably rise because of air drawn in  
through leak is compressed by compressor and  
accumulates in high side (condenser) of system.  
• Partial frosting of evaporator.  
• partially restricted drier  
• moisture in system  
If refrigerator performs as previously described,  
capillary line or condenser may be restricted. Locate  
and correct restriction point.  
Restriction reduces refrigerant flow rate and heat  
removal rate. Total restriction may be caused by  
moisture, poorly soldered joint, or solid contaminants  
in system. Moisture freezes at evaporator inlet end of  
capillary tube. Solid contaminants collect in drier.  
Wattage drops because compressor is not circulating  
normal amount of refrigerant.  
If restriction is on low side suction, pressure will be in  
a vacuum and head pressure will be near normal. If  
restriction is on high side, suction pressure will be in a  
vacuum and head pressure will be higher than normal  
during pump out period. In both cases, it will take  
longer than 10 minutes for head pressure to equalize  
with low side after compressor stops.  
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System Diagnosis  
When ambient temperature is below cut-in of  
temperature control, compressor will not operate.  
Air in System Symptoms  
Air in system can be caused by low side leak or  
improper servicing. If low side leak occurs,  
temperature control will not achieve temperatures  
and compressor will run continuously. Compressor  
will eventually pump low side into a vacuum, drawing  
air and moisture into system. Air and R134a do not  
mix. Air pressure will be added to normal head  
pressure, resulting in higher than normal head  
pressures.  
Drain traps will freeze in ambient temperatures of  
32°F.  
Heat Load Symptoms  
Increased heat load can result from addition of large  
supply of foods, excessive door openings, poor door  
sealing, interior light remaining on, etc.  
Increased heat being absorbed by refrigerant in  
evaporator will affect temperature and pressure of  
gas returning to compressor. Refrigerator and freezer  
temperatures, power consumption, discharge, and  
suction pressures are all affected by heat load.  
Pressures will be higher than normal under heavy  
heat load.  
Determine if air is present by reading head pressure  
gauge with refrigerator off and evaporator and  
condenser at same temperature. Verify temperature  
on condenser outlet tube. Temperature should be  
within 3° or 4°F of what "Pressure and Temperature  
Relationship Chart" shows for a given idle head  
pressure. If temperature of condenser outlet is  
considerably lower than idle head pressure of gauge,  
air is in system.  
Diagnose air in system by completing the following:  
1. Thoroughly check for leaks.  
2. Correct leak source. Do not attempt to purge air  
off. This could result in an undercharged system.  
3. Discharge system.  
4. Replace drier-filter.  
5. Evacuate and recharge system with specified  
refrigerant charge.  
Low or High Ambient Temperature  
Installation Symptoms  
Lower ambient air temperature reduces condensing  
temperature and temperature of liquid entering  
evaporator. Increase in refrigeration due to operation  
in lower ambient results in decrease in power  
consumption and run time. At lower ambients there is  
reduction in cabinet heat leak which is partially  
responsible for lower power consumption and run  
time.  
An increase in refrigeration will not occur below  
certain minimum ambient temperature. Temperature  
varies with type and design of refrigerator.  
Ambient temperatures lower than 55°F will affect  
efficiency. The higher the ambient temperature, the  
higher the head pressure must be to raise the high  
side refrigerant temperature above condensing  
medium. Head pressure will be higher as ambient  
temperature raises. Refrigerators installed in ambient  
temperatures lower than 55°F will not perform  
effeciently because system pressures are generally  
reduced and unbalanced. Lower head pressure forces  
less liquid refrigerant through capillary line, resulting  
in symptoms of refrigerant shortage. The lower the  
ambient temperature, the more pronounced the  
condition.  
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HFC134a Service Information  
HFC134a is alternative refrigerant for CFC12.  
HFC134a has an ozone depletion potential (ODP)  
factor of 0.0 and a global warming potential (GWP)  
factor of 0.27. HFC134a is not flammable and has  
acceptable toxicity levels. HFC134a is not  
interchangeable with CFC12. There are significant  
differences between HFC134a and CFC12 which  
must be considered when handling and processing  
refrigeration system.  
Caution  
To minimize contamination, exercise extreme  
care when servicing HFC134A sealed systems.  
No trace of other refrigerants is allowed in HFC134a  
systems. Chlorinated molecules in other refrigerants  
such as CFC12, etc. will lead to capillary tube  
plugging.  
Ester oil is used in HFC134a systems. Do not use  
mineral oil. HFC134a and mineral oils cannot be  
mixed. If mineral oils were used in HFC134a systems,  
lubricant would not return to compressor and would  
cause early compressor failure. If significant amount  
of oil has been lost from compressor, replace oil  
rather than adding oil.  
Health, Safety, and Handling  
Health, safety and handling considerations for  
HFC134A are virtually no different than those for  
CFC12.  
Health, Safety, and Handling  
CFC12  
HFC134a  
Same  
Same  
Same  
Same  
Same  
Allowable overall exposure limit 1,000 ppm  
• Ester oils used in HFC134a systems are so  
hydroscopic that by the time an inadequate system  
performance is detected, oil will be saturated with  
moisture.  
Vapor exposure to skin  
Liquid exposure to skin  
Vapor exposure to eye  
Liquid exposure to eye  
No effect  
Can cause frostbite  
Very slight irritant  
Can cause frostbite  
Above minimum exposure limit Can cause Asphyxiation,  
Tachycardia, and Cardia  
Same  
Same  
Same  
• CFC12 has much higher tolerance to system  
processing materials, such as drawing compounds,  
rust inhibitors, and cleaning compounds, than  
HFC134a. Such materials are not soluble in HFC134a  
systems. If materials were to be washed from system  
surfaces by ester oils, they could accumulate and  
eventually plug capillary tube.  
Arrhythmias  
Safety and handling  
Spill management  
Wear appropriate skin and eye  
protection. Use with adequate  
ventilation.  
Remove or extinguish ignition or  
combustion sources. Evacuate  
or ventilate area.  
• Care must be taken to minimize moisture from  
entering HFC134a system. Do not leave compressor  
or system open to atmosphere for more than 10  
minutes. Excessive moisture in HFC134a system will  
react with compressor oil and generate acid.  
• Compressor must be replaced when performing low  
side leak repair.  
Fire and explosion hazards  
May decompose if contact with  
flames and heating elements.  
Container may explode if heated  
due to resulting pressure rise.  
Combustion products are toxic.  
Procedures/rules for CFC12  
also apply for HFC134a  
Storage conditions  
Disposal procedures  
Same  
Same  
Recycle or reclaim  
Drier filter must always be replaced with service drier  
filter, part #B2150504.  
Comparison of CFC12 and HFC134a  
Properties  
Important: Unbrazing drier filter from tubing will drive  
moisture from desiccant and into system, causing  
acids to form. Do not unbraze filter drier from tubing.  
If CFC12 service drier was installed in HFC134A  
system, drier could overload due to excessive  
moisture.  
Properties/Characteristics  
Ozone Depletion Potential (ODP)  
Global Warming Potential (GPW)  
Molecular weight  
CFC12  
1.0*  
HFC134a  
0.0*  
0.27*  
102  
3.2*  
121  
Boiling point at 1 atmosphere  
Vapor pressure at 77°F (25°C)  
Liquid density at 77°F (25°C)  
Flammability  
-22°F (-30°C) -15°F (-26°C)  
80 psig  
82 lb/ft3  
No  
82 psig  
75 lb/ft3  
No  
• HFC134a compatible copper tubing, part  
#R0174075 (1/4" O.D. X 18" length) and part  
#R0174076 (5/16" O.D. X 24" length) must be used  
when replacing tubing.  
• Avoid system contamination by using Towerdraw  
E610 evaporating oil, part # R0157532, when flaring,  
swaging, or cutting refrigeration tubing.  
High-side system operating  
HFC134a approximately 3 psig  
Pressure at 65°F (18°C) ambient higher than CFC12  
Low-side system operating  
HFC134a approximately 2 psig  
Pressure at 65°F (18°C) ambient lower than CFC12  
* Compared to CFC 11 = 1  
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HFC134a Service Information  
Service Equipment  
Drier Replacement  
Prior to opening refrigeration system, recover  
HFC134a refrigerant for safe disposal.  
Listed below is equipment needed for proper  
servicing of HFC134a systems. Verify equipment is  
confirmed by manufacturer as being compatible with  
HFC134a and ester oil system.  
Every time sealed HFC134a system is repaired, drier  
filter must be replaced with, part # B2150504.  
Equipment must be exclusively used for HFC134a.  
Exclusive use of equipment only applies to italic  
items.  
Cut drier out of system by completing the following  
steps. Do not unbraze drier filter. Applying heat to  
remove drier will allow moisture into system.  
1. Score capillary tube close to drier and break.  
2. Reform inlet tube to drier allowing enough space  
for large tube cutter.  
Evacuation pump  
Check with vacuum pump supplier to verify  
equipment is compatible for HFC134a. Robinair,  
Model 15600, 2 stage, 6 cubic feet per minute pump  
is recommended.  
3. Cut circumference of drier at 1-1/4", below  
condenser inlet tube joint to drier.  
Four-way manifold gauge set, with low loss hoses 4. Remove drier.  
Leak detector  
5. Apply heat trap paste on post condenser tubes to  
Charging cylinder  
Line piercing saddle valve  
(Schroeder valves). Seals must be HFC134a and  
protect grommets from high heat.  
6. Unbraze remaining part of drier. Remove drier  
from system.  
ester oil compatible. Line piercing valves may be used 7. Discard drier in safe place. Do not leave drier with  
for diagnosis but are not suitable for evacuation or  
charging, due to minute holes pierced in tubing. Do  
not leave mechanical access valves on system.  
Valves eventually will leak. Molecules of HFC134a are  
smaller than other refrigerants and will leak where  
other refrigerants would not.  
Swaging tools  
customer. If refrigerator is under warranty, old  
drier must accompany warranty claim.  
DANGER  
To avoid death or severe personal injury, cut  
drier at correct location. Cutting drier at incorrect  
location will allow desiccant beads to scatter.  
Completely clean area of beads, if spilled.  
Flaring tools  
Tubing cutter  
Flux  
Sil-Fos  
Silver solder  
Oil for swaging and flaring  
Use only part #R0157532  
Copper tubing  
Use only part #R0174075 and #R0174076  
Dry nitrogen  
99.5% minimum purity, with -40°F or lower dew point  
Crimp tool  
Tube bender  
Micron vacuum gauge  
Process tube adaptor kit  
Heat trap paste  
ICI appliance grade HFC134a  
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HFC134a Service Information  
Replacement Service Compressor  
WARNING  
HFC134a service compressors will be charged with  
ester oil and pressurized with dry nitrogen. Before  
replacement compressor is installed, pull out 1 rubber  
plug. A pop from pressure release should be heard. If  
a pop sound is not heard, do not use compressor.  
Positive pressure in compressor is vital to keep  
moisture out of ester oil. Do not leave compressor  
open to atmosphere for more than 10 minutes.  
To avoid death or severe personal injury, never  
use oxygen, air or acetylene for pressure testing  
or cleanout of refrigeration system. Use of  
oxygen, air, or acetylene may result in violent  
explosion. Oxygen may explode on contact with  
oil and acetylene will spontaneously explode  
when under pressure.  
Evacuation and Charging  
Compressor Testing Procedures  
• Refer to “Temperature and Relationship Chart” for  
operating watts, test points, and temperature  
relationship test.  
• Temperature testing is accomplished by using 3 lead  
thermocouple temperature tester in specific locations.  
Test point T-1 is outlet on evaporator coil and T-2 is  
inlet. Test point T-3 is suction tube temperature  
midway between where armaflex ends and suction  
port of compressor (approximately 12 inches from  
compressor).  
High Side Gauge  
Low Side Gauge  
Thermistor  
Vacuum Gauge  
D
Valve  
E
Valve  
Drier/Process Tube  
Charging Hose  
C
B
Charging Hose  
Compressor  
Compressor  
Process  
Tube  
A
.6 cm Copper  
Tubing  
• Thermocouple tips should be attached securely to  
specified locations.  
F
Valve  
• Do not test during initial pull down. Allow one off cycle  
or balanced temperature condition to occur before  
proceeding with testing.  
Vacuum Pump  
Charging  
Cylinder  
• Refrigerator must operate minimum of 20 minutes  
after thermocouples are installed.  
• Turn control to colder to obtain required on time.  
• Wattage reading must be recorded in conjunction with  
temperature test to confirm proper operation.  
• Suction and head pressures are listed on  
“Temperature and Relationship Chart” Normally these  
are not required for diagnosis but used for  
confirmation on systems which have been opened.  
Refrigerant Charge  
Refrigerant charge in all capillary tube systems is  
critical and exact amount is required for proper  
performance. Factory charges are shown on serial  
plate. Do not use refrigerant other than shown on  
serial plate.  
Leak Testing  
Undetected leaks lead to repeated service calls and  
eventually result in system contaminations,  
restrictions, and burned out compressors.  
After recharging, sealed system must be thoroughly  
tested for leaks. If a very small leak is difficult to  
isolate, coat area with soap suds and observe  
location of bubbles.  
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HFC134a Service Information  
9. If no restriction exists, open valve “E” (low side  
WARNING  
manifold gauge) and pinch off high side drier  
process tube.  
To avoid severe personal injury or death from  
fire keep system free from contamination due  
to presence of air. Follow instructions exactly.  
10. Start compressor and draw remaining refrigerant  
in charging hoses and manifold into compressor  
through compressor process tube. To check high  
side pinch-off drier process tube, close valve “D”  
(high side gauge). If pinch-off is not leaking, high  
side pressure will not rise. If high side pressure  
gauge shows an increase, repeat high side pinch-  
off and open valve “D”. Repeat until high side  
pinch-off no longer leaks.  
11. Pinch-off compressor process tube and remove  
charging hose. Braze stub closed while  
compressor is operating.  
12. Unplug refrigerator from electrical outlet.  
Remove charging hose and braze high side drier  
process tube closed.  
Before opening system evaporator coil must be at  
ambient temperature to minimize moisture infiltration  
into system.  
1. After capturing refrigerant, replacing drier and  
making any repairs, evacuate system from high  
side through drier/process tube and low side  
through compressor process tube simultaneously.  
Evacuation should not be done through line  
piercing valve but through I.D. opening of tubes.  
2. With valves “C” and “F” closed to thermistor  
vacuum gauge and charging cylinder, open all  
other valves and start vacuum pump.  
3. At approximately 29 inches of vacuum, open valve  
“C” to thermistor vacuum gauge and take micron  
reading.  
4. Continue evacuating system until thermistor  
vacuum gauge registers 600 microns.  
5. At 600 microns close valve “A” to vacuum pump to  
allow micron reading in system to balance. Micron  
level will rise. If in 2 minutes, micron level  
stabilizes at 1000 microns or below, system is  
ready for charging.  
• If micron rises above 1000 micron level and  
stabilizes, open valve “A” to vacuum pump and  
continue evacuating.  
• If micron reading rises rapidly and does not  
stabilize, a leak still exists in system. Close valve  
“A” to vacuum pump and “C” to thermistor vacuum  
gauge. Invert charging cylinder and open charging  
cylinder valve “F” to add partial charge for leak  
checking. With leak detector, check manifold  
connections and system for leaks. After locating  
leak, capture refrigerant charge, repair leak, and  
begin at step 1.  
6. Once system is ready to charge, close valve “A”  
(vacuum pump), “C” (thermistor vacuum gauge),  
and “E” (low side manifold gauge).  
7. Check serial plate for correct charge and set scale  
on dial-a-charge cylinder for corresponding  
HFC134a pressure reading. Do not use captured or  
recycled refrigerant in Amana® refrigerators. Use  
of captured or recycled refrigerant voids any  
warranty.  
8. Open valve “F” to charging cylinder and let exact  
amount of refrigerant out of cylinder. Close valve.  
Low side gauge pressure should rise shortly after  
opening charging cylinder valve as system  
pressure equalizes through capillary tube. If  
pressure does not equalize, a restriction typically  
exists at capillary/drier braze joint.  
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Refrigerant Flow  
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Air Flow  
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Machine Compartment Assembly  
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Component Function and Testing  
Capacitor  
Run capacitor connects to relay terminal.  
WARNING  
To avoid electrical shock w hich can cause severe personal  
injury or death, discharge capacitor through a resistor before  
handling.  
1. Disconnect pow er to refrigerator.  
2. Remove capacitor and disconnect capacitor w ires.  
3. Discharge capacitor by shorting across terminals w ith a resistor for  
1 minute.  
4. Check resistance across capacitor terminals w ith ohmeter set on  
"X1K" scale.  
Needle should jump tow ards 0 ohms and quickly move back to  
infinity.  
If needle does not move, the capacitor is open.  
If needle reads a constant value at or near 0 ohms, the capacitor is  
shorted.  
If needle jumps tow ards 0 and then moves back to a constant high  
resistance (not infinity), the capacitor has a high resistance leak.  
Capillary tube  
Capillary is sized in diameter and length to  
feed proper amount of refrigerant to  
evaporator.  
Capillary is soldered to suction line to transfer  
heat from capillary and add additional  
superheat to gas refrigerant in compressor  
suction line.  
Capillary discharges into evaporator.  
Compressor  
When compressor electrical circuit is energized, the  
start w inding current causes PTC relay to heat. After an  
amount of starting time the start w inding circuit turns  
off. PTC relay will sw itch off the start w inding circuit  
even though compressor has not started (as w hen  
attempting to restart after momentary pow er  
interruption).  
Check for resistance betw een:  
Terminals "S" & "C"  
Terminals "R"& "C"  
Ground Test  
Disconnect pow er to refrigerator .Remove compressor leads and use an  
ohmmeter set on highest scale. Touch 1 lead to compressor body (clean  
point of contact) and the other probe to each compressor terminal. If a  
reading is obtained, compressor is grounded and must be replaced.  
With "open" PTC relay, compressor w ill not start  
because there is little or no current to start w indings.  
Overload protector w ill open due to high locked rotor  
run w inding current.  
Operation Test  
If motor w inding tests fail to show cause for failure:  
1. Disconnect pow er to refrigerator. Wire a test cord to disconnect  
sw itch.  
2. Place time delayed fuse, w ith U.L. rating equal to amp rating of motor,  
in test cord socket.  
With "shorted" PTC relay or capacitor, compressor w ill  
start and overload protector w ill quickly open due to  
high current of combined run and start w indings.  
3. Remove overload and relay.  
4. Connect start, common, and run leads of test cord on appropriate  
terminals of compressor.  
With open or w eak capacitor, the compressor w ill start  
and run as normal but w ill consume more energy.  
5. Attach capacitor leads of test cord together. If capacitor is used,  
attach capacitor leads to a good capacitor of same capacity.  
6. Plug test cord into volt-w att meter to determine start and run w attage  
as w ell as check for low voltage w hich can also be a source of  
trouble.  
7. With pow er to volt-meter, press start cord sw itch and release. If  
compressor motor starts and draw s normal w attage compressor is  
okay and trouble is in capacitor, relay, overload, freezer temperature  
control, adaptive defrost control, or elsew here.  
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Component Function and Testing  
Condenser  
Condenser is a tube and w ire construction located in  
compressor compartment. Condenser is on high  
pressure discharge side of compressor.  
• Leaks in condenser can usually be detected by using an electronic  
leak detector or soap solution. Look for signs of compressor oil w hen  
checking for leaks. A certain amount of compressor oil is circulated  
w ith refrigerant.  
Refrigerant flow s from compressor into a pre-  
condenser serpentine below drain pan to evaporate  
defrost w ater. From serpentine, refrigerant flow s into  
pre-condenser loop (Yoder loop) foamed around  
freezer door opening to help control external  
• Leaks in post condenser loop are rare as loop is a 1 piece copper  
tube.  
• In cases of minute leaks it may be necessary to separate condenser  
from rest of refrigeration system and pressurize condenser up to a  
maximum of 235 PSI w ith a refrigerant and dry nitrogen combination.  
condensation around freezer door and on flange.  
Higher pressure refrigerant gas is routed to condenser  
w here as gas temperature is reduced, gas condenses  
into high pressure liquid state. Heat transfer takes place  
because discharged gas is at higher temperature than  
air that is passing over condenser.  
WARNING  
To avoid severe personal injury or death observe the follow ing:  
Protect against a sudden eruption if high pressures are  
required for leak checking.  
High pressure compressed cases should never be used in  
refrigeration systems w ithout a reliable pressure regulator and  
pressure relief valve in the lines.  
Condenser is air cooled by fan motor. It is very  
important that adequate air flow over condenser is  
maintained. If efficiency of heat transfer from  
condenser to surrounding air is impaired, condensing  
temperature becomes higher. Higher temperature liquid  
means less heat w ill be removed during boiling in  
evaporation. This is indicated by higher that normal  
head pressures, long run time, and high w attage.  
Remove any lint, dust accumulation, etc. that w ould  
restrict normal air movement throughout the condenser.  
Drier  
Drier is placed at P.C. loop outlet and passes liquified refrigerant to  
capillary.  
Desiccant  
(20) 8 X 12 4AXH - 7 M.S. - Grams  
Drier must be changed w henever sealed refrigeration system is opened.  
Drier used in R12 sealed system is not interchangeable w ith drier used in  
R134a sealed system. Replace drier w ith part #B2150504.  
Evaporator  
Leaks in evaporator can usually be detected by the use of electronic leak  
detector or soap solution. Compressor oil is circulated w ith refrigerant so  
look for oil w hen checking for leaks.  
Inner volume of evaporator allow s liquified refrigerant  
discharged from capillary to expand into refrigerant  
gas.  
For minute leaks separate condenser from rest of refrigeration system  
and pressurize condenser up to a maximum of 140 PSI w ith a refrigerant  
and dry nitrogen combination. Recheck for leaks.  
Act of expansion cools evaporate tube and fin  
temperature to approximately -20°F, transfering heat  
from freezer section to refrigerant.  
Passing through suction line to compressor, the  
refrigerant picks up superheat (a relationship betw een  
pressure and temperature that assures complete  
vaporization of liquid refrigerant) as result of capillary  
being soldered to suction line.  
Refrigerant gas is pulled through suction line by  
compressor to complete refrigerant cycle.  
Heater,  
evaporator  
(defrost)  
See "Electronic Functional Description, Adaptive  
Defrost Circuitry"  
Check resistance across heater.  
Check defrost system by thermocoupling defrost thermostat and plugging  
refrigerator in w attmeter. Force into defrost mode. Wattmeter should read  
specified w atts (according to tech sheet) ± 20 w atts. When defrost  
thermostat reaches specified temperature (according to tech sheet) ±  
5°F., thermostat should interrupt pow er to heater.  
Ice Maker  
See “Ice Maker” section for service information.  
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Component Function and Testing  
Motor,  
Condenser fan moves cooling air across condenser coil Check resistance across coil.  
condenser psc and compressor body.  
The condenser motor is in a parallel circuit w ith the  
compressor.  
Motor, ecm  
evaporator fan  
Evaporator motor moves air across evaporator  
coil and throughout refrigerator.  
Check resistance from ground connector solder. Trace to motor frame  
must not exceed .05 ohms. Check pow er at connector to evaporator  
motor.  
Evaporator fan motor is in a parallel circuit w ith  
compressor, w ith a delay for w arm coil  
conditions.  
Motor,  
Refrigerator fan circulates cold air into refrigerator  
See "Refrigeration and Defrost Component Checks Made at High Voltage  
Board" section for D.C. voltage check at high voltage board. Check for  
voltage at motor also.  
refrigerator fan compartment.  
The refrigerator fan motor is in a series circuit w ith the  
semi conductor sw itch.  
Overload  
Overload is a temperature and current sensing type.  
1. Disconnect pow er to refrigerator.  
2. Remove relay cover and pull relay off compressor.  
3. Pull overload protector off compressor common terminal.  
3. With ohmmeter, check resistance betw een 1/4 " male terminal and  
female pin receptacle terminal w hich pushes onto compressor common  
terminal. At ambient temperature, overload protector should have less  
than 1 ohm resistance. An open overload protector w ill have infinite  
resistance.  
Overload opens w hen sensing a high current or high  
compressor temperature.  
After overload opens, overload can require up to 2  
hours to reset, depending on ambient temperature and  
residual heat load in compressor.  
Relay, PTC  
With pow er off check resistance.  
Across terminals 2 & 3:  
Normal = 3 to 12 ohms  
Shorted = 0 ohms  
When voltage is connected and PTC is cooled, current  
passes through PTC to the start w inding.  
After a short time, current w ill have heated the resistor  
in PTC and resistance w ill rise. This blocks current  
flow through PTC.  
Open = infinite ohms  
Start w inding remains in the circuit through the run  
capacitor.  
Solid state relay plugs directly on compressor start and  
run terminals. Relay terminals 2 and 3 are connected  
w ithin relay. Run capacitor is connected to relay  
terminal 3. The L2 side of 120 VAC pow er is  
connected to relay terminal 2.  
Sw itch,  
keyboard  
Switch  
Functions  
Display On  
Freezer Temp  
Ref Temp  
Warmer  
Colder  
Vacation  
Max Ref  
Max Frz  
Continuity  
Test  
1 and 3  
3 and 6  
3 and 7  
6 and 7  
4 and 6  
4 and 7  
7 and 8  
4 and 8  
4 and 5  
5 and 8  
Alarm Off  
Display Off  
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Component Function and Testing  
Sw itch,  
Opens circuit to icemaker w hen freezer door is open to Check resistance across terminals w ith:  
icemaker  
interlock, no  
prevent cycle w hile door is open.  
Sw itch arm depressed  
Sw itch arm not depressed  
Closed  
Open  
Sw itch, light nc Completes circuit to turn on light w hen refrigerator or  
freezer door is opened.  
Check resistance across terminals w ith  
Sw itch arm depressed  
Open  
COM  
NO  
Sw itch arm not depressed  
Closed  
NC  
Sw itch, pow er Shuts off all pow er to refrigerator w hen sw itch is off  
Check resistance across terminals w ith:  
DPST  
(open). Refrigerator is shipped w ith sw itch on.  
Sw itch off (open)  
Sw itch on (closed)  
no continuity betw een 1 and 2, 4 and 5  
continuity betw een 1 and 2, 4 and 5  
Sw itch,  
show room,  
SPDT  
On position completes pow er to lights and display only. Check resistance at test points:  
Off position completes circuit for normal operation. Show room operation - E3, at high voltage board to pin 3 (blue/w hite w ire)  
at high voltage w ire harness.  
Unit run - E9, at high voltage board to pin 3 (blue/w hite w ire) at high  
voltage w ire harness.  
Sw itch, slide  
Check resistance across terminals  
Sw itch up  
Middle terminal to top terminal  
Middle terminal to low er terminal  
0 Ohms  
Infinite Ohms  
Sw itch dow n  
Middle terminal to top terminal  
Middle terminal to low er terminal  
Infinite Ohms  
Sw itch, light  
Completes light circuit w hen freezer door is open.  
Check resistance across terminals w ith:  
Sw itch arm depressed  
Open  
Sw itch arm not depressed  
Closed  
Thermistor  
Senses temperatures w ithin refrigerator and freezer  
compartments  
See "Electronic Function Description, Temperature Control Operation"  
for resistance values for a given temperature.  
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Component Function and Testing  
Thermostat  
Check resistance across terminals, or for pow er at thermostat or high  
voltage board A/C output.  
Thermostat is in a series circuit betw een high voltage  
board and defrost heater.  
Opens and breaks circuit w hen thermostat senses  
preset temperature above freezing.  
After defrost thermostat opens, thermostat remains  
open until end of defrost cycle and refrigerator starts  
cooling again and defrost thermostat senses a preset  
temperature generally below freezing.  
At this temperature, defrost thermostat resets (closes)  
for next defrost cycle.  
Valve, w ater  
Valve control w ater flow to ice maker.  
Check resistance across coil w indings.  
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Electronic Functional Description  
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25  
RS1200001  
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Electronic Functional Description  
2. Check for voltage on terminal 7 on pin connector  
Electronic Testing Mode  
of high voltage board. Output voltage should  
toggle with toggling of light switch. If it does not  
toggle high voltage board needs replacing.  
3. If terminal 7 on pin connector on high voltage  
board changes with opening and closing of door,  
orange wire in low voltage harness is broken  
(check for continuity between pin 7 on high voltage  
pin connector and pin 10 of pin connector on low  
voltage board) or low voltage board needs  
replacing.  
Forced Defrost Activation  
1. Press Display On pad to activate control panel.  
2. Simultaneously press and hold Max Ref pad and  
Display Off pad for 3 seconds.  
Forced Compressor Activation  
1. Press Display On pad to activate control panel.  
2. Simultaneously press and hold Max Frz pad and  
Display Off pad for 3 seconds.  
Open Thermistor Detect  
Keyboard Functions  
If freezer or refrigerator thermistor circuit opens,  
wiring to thermistor is open or low voltage board failed.  
Freezer or refrigerator indicator light will glow and  
temperature indicators 4 through 7 will sequence one  
at a time until Alarm Off pad is pressed.  
Display On Pad  
1. Activate control panel by pressing Display On pad.  
All other pads, except for Alarm Off remain  
inactive until Display On pad is pressed. Once  
activated, pads remain programmable for at least  
10 minutes.  
2. Entry tone indicates a pad was pressed, command  
was read, and accepted. Deactivate entry tone by  
pressing and holding Display On pad for 3 to 5  
seconds. Three short beeps indicate instructions  
were accepted. Activate entry tone by pressing  
and holding Display On pad for 3 to 5 seconds.  
3. Activate temperature setting area of display by  
pressing Display On pad.  
DANGER  
High Voltage  
1. Check for line voltage on terminal E7 on high  
voltage board. With refrigerator door open there  
should be 115 VAC, with refrigerator door closed  
there should be approximately 0 VAC. If voltage  
does not change with light switch and light switch  
is turning light off and on, red/white wire is broken  
between switch and high voltage board.  
2. Check for voltage on terminal 7 on pin connector  
of high voltage board. Output voltage should  
toggle with toggling of light switch. If output  
voltage does not toggle, high voltage board needs  
replacing.  
3. If terminal 7 on pin connector on high voltage  
board changes with opening and closing of door,  
orange wire in low voltage harness is broken  
(check for continuity between pin 7 on high voltage  
pin connector and pin 10 of pin connector on low  
voltage board) or low voltage board needs  
replacing.  
4. Deactivate flashing lights (power up alarm) after  
refrigerator is first plugged in or after power  
outage by pressing Display On pad.  
Warmer Pad  
1. Raise temperature by pressing Warmer pad.  
Temperature level raises one bar at a time. If entry  
tone is active, beep will sound at each bar until top  
level is reached.  
2. If pad is pressed continually, temperature level will  
raise at accelerated rate.  
3. Activate temperature setting area of display by  
pressing Warmer pad.  
Colder Pad  
1. Lower temperature by pressing Colder pad.  
Temperature level lowers one bar at a time. If  
entry tone is active, beep will sound at each bar  
until bottom level is reached.  
DANGER  
High Voltage  
2. If pad is pressed continually, temperature level will  
lower at accelerated rate.  
3. Activate temperature setting area of display by  
pressing Colder pad.  
1. Check for line voltage on terminal E8 on high  
voltage board. With freezer door open there  
should be 115 VAC, with door closed there should  
be approximately 0 VAC. If voltage does not  
change with light switch and light switch is turning  
light off and on, violet/white wire is broken  
between switch and high voltage board.  
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Electronic Functional Description  
Freezer Temp Pad  
Door Open Alarm  
1. Activate freezer mode by pressing Freezer Temp  
pad. Freezer indicator light will glow. Freezer  
temperature will be displayed. Factory setting  
is “5” .  
2. Activate temperature setting area of display by  
pressing Freezer Temp pad.  
1. Door open alarm sounds and indicator light blinks  
if refrigerator or freezer door is open for more than  
3 minutes. Deactivate door open alarm by pressing  
Alarm Off pad or by closing refrigerator or freezer  
door.  
2. Door alarm delay can be adjusted.  
Ref Temp Pad  
High Temp Alarm  
1. Activate refrigerator mode by pressing Ref Temp  
pad. Refrigerator indicator light will glow.  
Refrigerator set temperature will be displayed.  
Factory setting is “5”.  
2. Activate temperature setting area of display by  
pressing Ref Temp pad.  
High temperature alarm sounds and indicator light  
glows if freezer temperature goes above 15°F  
(-9.5°C) for 2 hours or refrigerator temperature goes  
above 60°F (15.5°C) for 2 hours. Audio alarm stops if  
temperature falls below critical temperature and high  
temperature condition was activated.  
Deactivate alarm by pressing Alarm Off pad.  
Vacation Pad  
Temperature Control Operation  
Vacation mode defrosts refrigerator less often during  
extended non-use periods. Refrigerator will automati-  
cally go into vacation mode during extended non-use  
periods. Vacation pad is a feature reminder. Pressing  
Vacation pad does not send refrigerator into vacation  
mode or cause light to glow.  
For a temperature setting, outputs will be turned  
off/on based upon cutin/cutout temperatures,  
determined by resistance levels of freezer and  
refrigerator thermistors.  
Refrigerator and Freezer Thermistor  
Part # C8983701  
Max Ref Pad  
Temp  
°F (°C) Ohms  
Resistanc Temp  
Resistanc  
Ohms  
Activate max ref mode by pressing Max Ref pad. Max  
Ref indicator light will glow. Refrigerator temperature  
will go to level 9 (coldest) for 10 hours or until Max Ref  
pad is pressed again. To adjust Max Ref time see  
“Mode B Functions, Max Ref Run Time Duration  
Adjustment”.  
°F  
(°C)  
-20  
(-29)  
495600  
418200  
354000  
300600  
256200  
36 (2) 87510  
38 (3) 82740  
39 (4) 78300  
43 (6) 74100  
45 (7) 70170  
-15  
(-26)  
Max Frz Pad  
-9  
(-23)  
Activate Max Frz mode by pressing Max Frz pad. Max  
Frz indicator light will glow. Freezer temperature will  
go to level 9 (coldest) for 24 hours or until Max Frz pad  
is pressed. To adjust Max Frz time see “Mode B  
Functions, Max Frz Run Time Duration Adjustment”.  
-6  
(-21)  
-4  
(-18)  
5 (-15) 218850  
10 (-12) 187470  
16 (-9) 161040  
46 (8) 66450  
48 (9) 62970  
Alarm Off Pad  
1. Deactivate high temperature and door open alarm  
by pressing Alarm Off pad.  
2. Deactivate door open alarm by pressing Alarm Off  
pad for 3 seconds. Activate door open alarm by  
pressing Alarm Off pad for 3 seconds.  
3. Deactivate flashing lights (power up alarm) after  
refrigerator is first plugged in or after power outage  
by pressing Alarm Off pad.  
50  
(10)  
59670  
52290  
45900  
19 (-7) 138690  
25 (-4) 119760  
55  
(13)  
61  
(16)  
Display Off Pad  
Deactivate temperature indication area of display by  
pressing Display Off pad.  
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Electronic Functional Description  
As the temperature decreases, resistance increases.  
Adaptive Defrost Operation  
As the temperature increases, resistance decreases.  
An open thermistor or thermistor circuit will result in  
failure of refrigerator to cool. Shorted thermistor will  
result in refrigerator to run 100 percent of time except  
for defrost.  
• Defrost occurs after predetermined length of  
compressor run hours. Compressor run time  
between defrost changes or adapts, depending upon  
recent history of defrost lengths (time it takes for  
defrost terminator to open once defrost heater has  
been turned on). Defrost terminator opens at 55°F  
(13°C) and closes at 20°F (-7°C).  
• Compressor run time between defrost (CRTD) will  
be one of 3 values under normal operation: CRTD  
(1), or CRTD (2) or CRTD (3) defined as 8, 12, and  
16 hour lengths. If defrost length is low (DT-LO  
defined as 21 minutes) indicating small frost load  
CRTD for next defrost cycle is advanced to next  
level. If defrost length is high (DI - HI defined as 24  
minutes) indicating large frost load CRTD for next  
defrost cycle is lowered to next level. Initial value at  
power CRTD (0) is 4 hours.  
• Freezer temperature setting and thermistor value  
will determine if compressor/condenser fan and  
evaporator fan switches are open or closed.  
Compressor/condenser fan switch must be open for  
6 minutes before switch can close again  
(compressor dwell time).  
• Refrigerator temperature setting and thermistor  
value will determine if fresh food fan switch is to be  
open or closed.  
• Cutout and cutin temperature values must be  
reached and maintained for 15 seconds before  
output state will change (digital delay).  
• Vacation mode CRTD equals 96 hours. Vacation  
mode CRTD is interrupted with door openings.  
Defrost interval will revert back to the previous  
interval before Vacation mode.  
• Six minute dwell time occurs after defrost terminator  
opens before compressor and condenser fan motor  
will operate. Ten minute dwell time occurs after  
defrost terminator opens before evaporator fan  
motor will operate.  
Factory set freezer and refrigerator settings  
Part # 12067101  
Frozen  
Food  
Fresh  
Food  
Level  
Cut-out  
F° (C°) ±  
1.5°  
Cut-out  
F° (C°) ±  
1.5°  
• Conventional defrost can be selected.  
-10 (-23)  
-8 (-22)  
-6 (-21)  
-5 (-21)  
-4 (-20)  
-3 (-19)  
-2 (-19)  
0 (-18)  
2 (-17)  
-10 (-23)  
----  
29 (-2)  
31 (-0.6)  
33 (-0.6)  
34 (1)  
35 (2)  
36 (2)  
37 (3)  
39 (4)  
41 (5)  
----  
9
8
Power Up Condition  
7
Nine temperature indicators will flash after refrigerator  
is powered up. Refrigerator begins normal operation  
immediately, except for 6 minute dwell before  
energizing compressor circuit. Indicator lights will stop  
flashing after Display On or Alarm Off pads are  
pressed.  
6
5
4
3
2
EEPROM Update in Control Memory  
EEPROM is permanent programmable memory  
device. Once function is changed and stored in  
EEPROM, function is stored permanently and will not  
be effected by power loss.  
1
Max Ref  
Max Frz  
29 (-2)  
• After keyboard programming changes have been  
made to refrigerator and freezer temperatures, entry  
tone, and door audio alarm, status is permanently  
stored in EEPROM after keyboard is disabled.  
• Refrigerator or freezer control calibration can by  
adjusted.  
Accessing Program Mode  
1. Open refrigerator door.  
2. Press Display On pad.  
3. Press Vacation pad.  
4. Press following pads in sequence within  
6 seconds: Max Ref, Max Frz, Max Ref, Max Frz.  
5. When access is granted, audio annunciator will  
sound 3 times and control will be in program  
Mode A.  
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Electronic Functional Description  
Operation  
performed in Mode B by pressing Max Ref pad.  
Program mode has 2 submodes, Mode A and  
Mode B. Access to either mode is toggled with  
Display On pad. Entry in program Mode A is indicated  
with unmarked light glowing. Control is in program  
Mode B if light does not glow.  
Max Ref light will glow. One temperature indicator  
should glow indicating present Max Ref run time  
duration. Pressing Warmer pad decreases Max  
Ref run time by 2 hours and pressing Colder pad  
increases by 2 hours. Times are from 6 hours  
(indicated by 1 temperature indicator) to 22 hours  
(indicated by coldest temperature indicator).  
Default Max Ref run time is 10 hours.  
Mode A Functions - Freezer or Refrigerator  
Temperature  
1. Choose freezer thermistor temperature display by  
pressing Freezer Temp pad. Freezer temp  
indicator light will glow. Temperature display will  
show thermistor temperature in binary coded  
decimal (BCD) format. Indicator lights 1 through 4  
represent tens digit with 1 being most significant  
bit. Indicator lights 5 through 8 represent ones digit  
with 5 being the most significant bit. Indicator light  
9 (coldest is + - sign; light glows signifying  
negative value).  
3. Max Frz run time duration adjustment can be  
performed by pressing Max Frz pad in  
Mode B. Max Frz indicator will glow. Adjustment  
process is same as items 1 and 2. Duration times  
are in increments of 4 hours, ranging from 8 hours.  
1 setting to 40 hours at coldest setting. Default  
Max Frz run time duration is 24 hours.  
4. Refrigerator temperature offset is calibration  
adjustment. Temperatures at which refrigerator  
cuts-in and cuts-out are shifted by amount offset is  
set. Pressing Ref Temp pad while in Mode B  
causes refrigerator indicator to glow and 1 of 9  
temperature indicators to glow. Pressing Warmer  
pad or Colder pad moves offset up or down range.  
Temperature indicators and offsets and what they  
imply are shown on chart below. The low voltage  
board freezer offset temperature is 0 and  
2. Choose refrigerator thermistor temperature display  
by pressing Ref Temp pad. Refrigerator  
temperature indicator light will glow. Temperature  
display will show thermistor temperature in BCD as  
described above.  
refrigerator offset temperature +2 from factory.  
5. Enable freezer temperature offset by pressing  
Freezer Temp pad in Mode B. Freezer indicator  
will glow. Adjustment process, set point values, is  
identical to item 4.  
INDICATOR  
OFFSET  
1
+8  
+6  
+4  
+2  
0
2
3
4
5
Electronic control value column is calculated in units  
of °F. Conversion is °C = (°F - 32)/1.8.  
6
-2  
-4  
-6  
-8  
7
8
Mode B Functions  
1. Door alarm delay can be adjusted from keyboard  
when in this mode. Press Alarm Off pad, door  
open indicator will glow. One temperature  
indicator should glow indicating present delay time  
setting. Pressing Warmer pad decreases delay by  
1 and pressing Colder pad increases delay by 1.  
Delay times selected go from 1 to 9 minutes in 1  
minute increments.1 being 1 minute and 9 being 9  
minutes. Default door audio delay is 3 minutes.  
2. Max Ref run time duration adjustment can be  
Coldest  
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Electronic Functional Description  
6. Conventional/adaptive defrost mode can be  
selected by toggling Vacation pad while in Mode B.  
When vacation annunciator glows, adaptive  
defrost system has been selected. When vacation  
annunciator doesn’t glow, conventional defrost  
system is used. Conventional defrost mode uses 8  
hour CRTD value.  
7. Automatic keyboard disable activated/deactivated  
is toggled in Mode B with Display Off pad. If high  
temperature indicator glows, keyboard will disable  
after 10 minutes. If high temperature indicator  
doesn’t glow, keyboard is always enabled. Do not  
leave keyboard in a permanently enabled mode.  
8. Forced defrost is activated by pressing and  
holding Alarm Off pad for 3 seconds. Defrost  
function will begin. Program changes will be saved  
permanently in EEPROM and program mode will  
exit to run mode.  
9. Forced pulldown can be made in Mode B by  
pressing and holding Max Frz pad 3 seconds.  
Refrigeration function will begin. Program changes  
will be saved permanently EEPROM.  
Compressor, evaporator fan, damper heater, and  
condenser fan will come on.  
Exiting Program Mode  
Deactivate program mode by pressing and holding  
Display On pad for 3 seconds. Any changes made  
while working in program mode will be saved and  
audio annunciator will beep 3 times. Program mode  
will be automatically exited if there is no key closure  
for 10 minutes. However, any changes made will not  
be saved permanently if program mode is exited in this  
manner.  
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Electronic Functional Description  
WARNING  
To avoid electrical shock which can cause severe personal injury or death, disconnect power to  
refrigerator using power switch before servicing. Wires removed during disassembly must be replaced on  
proper terminals to insure correct earthing and polarization. After servicing, reconnect power using power  
switch.  
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Electronic Functional Description  
WARNING  
To avoid electrical shock which can cause severe personal injury or death, disconnect power to  
refrigerator using power switch before servicing. Wires removed during disassembly must be replaced on  
proper terminals to insure correct earthing and polarization. After servicing, reconnect power using power  
switch.  
Refrigeration and Defrost Component Checks Made at High Voltage Board  
Low voltage board input  
High voltage board input  
W1 to D11  
approximately -25 VDC  
E10 to E9 (Neutral) or ground  
approximately  
120 VAC  
Compressor/condenser fan motor  
“ON” = E4 to E9 (Neutral) ground  
approximately 120 VAC  
“OFF” = E4 to E9 (Neutral) or ground  
Compressor/condenser fan motor  
relay“OPEN” = R7 to ground  
“CLOSED” = R7 to ground  
approximately  
approximately -11 VDC  
-25 VDC  
Evaporator fan motor relay  
Evaporator fan motor  
Defrost heater  
“CLOSED” = R8 to ground  
“OPEN” = R8 to ground  
approximately -11 VDC  
-25 VDC  
“ON” = E2 to E9 (Neutral) or ground  
“OFF” = E2 to E9 (Neutral) or ground  
approximately 120 VAC  
0 VAC  
“ON” = E6 to E9 (Neutral) or ground  
“OFF” = E6 to E9 (Neutral) or ground  
approximately 120 VAC  
0 VAC  
Defrost heater relay  
Defrost terminator  
“CLOSED” = R9 to ground  
“OPEN” = R9 to ground  
approximately -11 VDC  
approximately -25 VDC  
“CLOSED” = E5 to E9 (Neutral) or ground  
“OPEN” = E5 to E9 (Neutral) or ground  
approximately 120 VAC  
0 VAC  
Fresh food fan output voltage  
High voltage board to fresh food fan  
“ON” = E1 to ground  
“OFF” = E1 to ground  
approximately -25 VDC  
0 VDC  
Fresh food fan input voltage  
Signal to high voltage board from  
low voltage board  
“ON” = R10 to ground  
“OFF” = R10 to ground  
approximately -11 VDC  
approximately -25 VDC  
Filament voltage at pins 11 and 12 = less than 5 VAC  
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Electronic Functional Description  
Circuitry  
Refer to “Technical Data Sheet”, part #12074201, for Wiring Schematic.  
Freezer Compartment Refrigeration Cycle Circuitry  
As freezer thermistor warms, resistance lessons, allowing low voltage signal to be sent to electronic control. In  
turn, 2 low voltage signals are sent by electronic control. One to compressor relay coil (C1) and another to  
evaporator fan relay coil (F1). With both relay coils energized and contacts closed, high voltage circuits to  
compressor, condenser fan motor, and evaporator fan motor are complete.  
As thermistor cools during refrigeration cycle, resistance through thermistor increases, blocking low voltage  
signal to electronic control, interrupting the cycle.  
Fresh Food Compartment Refrigeration Cycle Circuitry  
As fresh food thermistor warms, resistance lessens, allowing low voltage signal to be sent to electronic control.  
In turn, electronic control sends low voltage signal to 24 VDC fresh food fan.  
When fresh food fan motor operates, freezer air is circulated into fresh food compartment. As fresh food  
thermistor cools, resistance increases, blocking low voltage signal to electronic control. In turn, electronic  
control interrupts the signal to fresh food fan motor.  
Fresh Food and Freezer Compartment Refrigeration Cycle Circuitry  
Many times cooling will be called for in both compartments as both freezer and fresh food thermistors warm.  
Resulting is electronic control signaling for compressor, condenser fan motor, evaporator fan motor, and 24  
VDC fresh food fan to operate. Once freezer thermistor has been cooled sufficiently to block the signal to  
electronic control, the compressor, condenser fan motor, and evaporator fan motor will shut down. However,  
fresh food fan motor will continue to function until fresh food thermistor cools and blocks the signal to electronic  
control.  
If fresh food thermistor is cooled prior to freezer thermistor, the electronic control will interrupt the signal to the  
fresh food fan motor. The compressor, condenser fan motor, and evaporator fan motor will remain in operation  
through freezer thermistor.  
Adaptive Defrost Circuitry  
After proper compressor run time (either 8, 12, or 16 hours), refrigeration cycle is interrupted and a low  
voltage signal is sent form electronic control to defrost relay coil (D1 DEF). Powering of relay coil closes relay  
contact (D1), completing the high voltage circuit to the defrost heater through the closed defrost terminator  
(closes at 20°F (-7°C)). The isolator, part of high voltage PC board, recognizes the presence of line voltage to  
the defrost heater. Isolator sends a low voltage signal to electronic control which keeps count of the number of  
minutes defrost terminator remains closed (opens at 55°F (13°C)). Length of time defrost terminator remains  
closed, determines whether next defrost cycle advances by 4 hours of compressor run, stays at same interval or  
backs up by 4 hours of compressor run. If defrost terminator does not open before 30 minutes, defrost cycle will  
automatically be terminated by electronic control and refrigeration cycle will resume after a 6 minute dwell time.  
Important: When Showroom switch is off, isolator see's line voltage. In turn, isolator keeps electronic controller  
from signaling compressor, condenser fan motor, and evaporator fan motor relay coils and keeps fresh food fan  
motor off.  
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Door Disassembly Procedures  
Air Discharge Grille  
1. Remove center vane. Note placement of vane,  
curved/notches end first with curve up.  
2. Remove 4 screws.  
3. Pull grille assembly forward.  
Refrigerator Door  
Two people are required for door removal.  
1. Remove grille.  
2. Turn power switch off.  
3. Remove glide pin screw (torx #15M) from  
underside of top door hinge pin plate.  
4. Loosen four 3/8" bolts enough to raise upper hinge  
plate to clear door hinge pin.  
5. Lift door off of center hinge plate.  
6. Remove door.  
Freezer Drawer and Basket  
Pull forward and lift up.  
Door Stops  
1. Remove air discharge grille.  
2. Remove two #15 torx screws.  
Door Handles  
1. Pry off screw trim. New trim will be required for  
reassembly.  
2. Remove 6 screws on freezer door and 9 on  
refrigerator door, using a Phillips screwdriver.  
Door Gaskets  
1. Gently pull gasket away from door liner.  
2. Reinstall by beginning in bottom corner, working  
up. Align raised portion of gasket into liner track  
and apply pressure.  
Inner Door Liners and Outer Door Shells  
Replace complete door assembly.  
Refrigerator Door Switch  
1. Remove air discharge grille  
2. Remove two #1 point Phillips screws with an off set  
ratchet tool.  
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Cabinet Components Disassembly Procedures  
Refrigerator Fan  
Evaporator  
1. Remove air grille caps.  
2. Remove air grille by removing four 1/4" hex head  
screws.  
Reclaim refrigerant before proceeding with  
evaporator removal. To avoid refrigeration system  
contamination, do not leave refrigeration system or  
compressor open for more than 10 minutes.  
3. Disconnect leads.  
4. Remove fan by removing 1/4" hex head screws.  
1. Remove freezer switch and thermistor cover.  
2. Remove evaporator cover.  
3. Remove one 1/4" hex head screw from left side  
of coil and 2 from right side.  
4. Remove defrost thermostat.  
5. Remove defrost heater.  
6. Shield interior from heat source and unbraze  
suction tube at evaporator.  
7. Score and break capillary tube at inlet to  
evaporator coil.  
Refrigerator Light Switch  
An off set or ratchet #1 point Phillips driver is required.  
1. Remove air discharge grille.  
2. Remove 2 Phillips screws securing switch to top  
door hinge.  
Refrigerator Light Socket  
1. Remove cover by removing four 1/4" hex head  
shoulder screws and sliding cover to rear.  
2. Remove bulbs.  
3. Remove four 1/4" hex head screws of light socket  
housing. Unclip front and drop down.  
4. Pry socket through housing.  
Evaporator Fan Blade  
1. See Evaporator Fan Motor steps 1-4.  
2. Pull fan blade off motor shaft. When replacing fan  
blade, 1/2" of motor shaft should extend through  
hub of fan blade.  
5. Remove wiring.  
Center Mullion  
Center mullion is not replaceable.  
Evaporator Fan Motor  
1. Remove air discharge grille.  
2. Remove two 5/16" hex head screws from  
evaporator fan motor mounting bracket.  
3. Maneuver motor/bracket from housing.  
4. Remove lead and ground wires.  
5. Remove two 1/4" hex head screws from brackets.  
Freezer Switches and Thermistor Panel  
1. Remove screw retaining assembly to evaporator  
cover.  
2. Remove leads.  
3. Pry switch assemblies from cover.  
4. Remove thermistor by removing 2 screws.  
Toe Grille  
1. Remove two 1/4" hex head screws.  
2. Pull forward.  
Freezer Evaporator Cover  
1. Remove freezer shelf, freezer basket, ice service  
rack, icemaker, switch, and thermistor mounting  
plate.  
2. Remove four 1/4" hex head evaporator cover  
mounting screws.  
Front and Rear Roller Assembly  
Refrigerator can not be installed when replacing  
roller assembly.  
1. Remove toe grille  
3. Push ice maker electrical block through opening in  
panel. Remove panel.  
2. Raise front of refrigerator 4" (101.6 mm) from  
floor.  
3. Remove cotter pin from shaft.  
4. Remove leveling bolt.  
Defrost Thermostat  
1. Unclip thermostat from outlet on evaporator coil.  
2. Disconnect orange and brown leads.  
5. Drive pin out form roller assembly and out through  
access hole in cabinet.  
Evaporator Defrost Heater  
Water Valve  
1. Complete steps 1-3 of evaporator coil removal.  
2. Tip bottom of evaporator coil out.  
3. Remove 2 clips.  
4. Slide heater down and out from coil.  
5. Unplug heater leads.  
1. Remove toe grille.  
2. Disconnect water supply.  
3. Disconnect and remove output waterline.  
4. Remove two 1/4" hex head screws holding valve/  
bracket assembly to left front roller assembly.  
5. Unplug wiring harness.  
Important  
When reassembling, verify air diverter strips have  
been reinstalled properly.  
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Cabinet Components Disassembly Procedures  
Condensate Drain Pan  
Before removing drain pan, have towels ready to  
absorb condensation.  
1. Remove toe grille.  
2. Pull pan forward.  
Shelf Support Ladders  
1. Remove shelves  
2. Remove four #15 torx screws for each ladder.  
Chef's Pantry Assembly  
1. Remove drawer by sliding up and out.  
2. Remove side support rails by removing three 1/4"  
hex head screws on each side.  
Refrigerator Thermistor  
1. Remove air grille caps by removing four 1/4" hex  
head screws.  
2. Remove thermistor attached to rear of grille with  
tinnerman clip.  
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Machine Compartment Disassembly Procedures  
Machine Compartment Access  
1. Remove air discharge grille.  
2. Open refrigerator door.  
3. Remove machine compartment panel by  
removing 2 Phillips screws. Door will drop down  
and be held in place by 2 straps. Ribbon  
connector must be properly connected when  
testing.  
Capacitor  
WARNING  
To avoid electrical shock which can cause  
severe personal injury or death, discharge  
capacitor before handling.  
1. See Compressor, Condenser, Condenser Fan  
Access.  
2. Remove one 1/4" hex head screw from capacitor  
cover.  
Low and High Voltage Board and Showroom  
Switch Access  
1. See Machine Compartment Access.  
2. Remove four 1/4" hex head screws from panel.  
Overload and Relay  
1. See Compressor, Condenser, Condenser Fan  
Access.  
Low Voltage Board  
2. Remove terminal cover by springing plastic clip.  
1. See Low and High Voltage Board and Showroom  
Switch Access.  
Condenser Fan Blade  
2. Remove 4 Phillips screws.  
3. Disconnect edge connector from right edge of  
board.  
1. See Compressor, Condenser, Condenser Fan  
Access.  
2. Remove nut from motor shaft.  
3. Remove fan blade. Replace rubber washer  
behind fan blade when reassembling.  
High Voltage Board  
1. See Low and High Voltage Board and Showroom  
Switch Access.  
Condenser Fan Motor  
2. Remove board by squeezing clip tips.  
3. Mark location of wiring to showroom switch at top  
right corner of compartment.  
4. Unclip molex plug at right side.  
5. Pull board forward.  
1. See Condenser Fan Blade  
2. Remove three 1/4" hex head screws retaining  
shroud to machine compartment floor.  
3. Access mounting screws by rotating shroud front  
to right.  
6. Transfer wiring from old board to replacement  
board.  
4. Remove three 1/4" hex head screws.  
5. Unplug 2 pin wire harness.  
Important  
Precondenser Pan Loop  
Always recover refrigerants prior to any sealed system  
component repair or replacement. Replace drier when  
performing a sealed system repair with Amana drier.  
1. Remove toe grille.  
2. Remove drain pan.  
3. Remove "P" clamp from inlet/outlet ends of drain  
pan loop.  
Compressor, Condenser, and Condenser Fan  
Access  
1. See Machine Compartment Access.  
2. Unplug ribbon connector.  
4. Unbraze inlet and outlet tube joints at front left  
corner, next to water valve. Protect adjoining  
surfaces from heat source.  
3. Remove two 1/4" hex head screw retaining straps for Compressor  
control panel.  
Always replace drier when repairing refrigeration  
4. Remove control panel.  
system. Wear eye protection.  
1. See Compressor, Condenser, Condenser Fan  
Access.  
2. See Overload and Relay  
3. Remove four 7/16" hex head shoulder bolts  
mounting compressor to machine compartment  
floor.  
5. Unplug thermistor 3 pin lead.  
6. Unplug 12 pin high voltage molex plug.  
7. Remove four 1/4" hex head screws that retain low/  
high voltage compartment box to floor of machine  
compartment.  
8. Remove low/high voltage compartment.  
4. Unbraze suction and discharge tubing from  
compressor.  
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Machine Compartment Disassembly Procedures  
Condensate Drain Pan  
1. Remove toe grille plate by removing screws.  
2. Pull drain pan forward away from condenser.  
Condenser  
1. See Compressor, Condenser, Condenser Fan  
Access.  
2. See Condenser Fan Motor, steps 1-3.  
3. Remove three 1/4" hex head screws that mount  
condenser to machine compartment floor.  
4. Score capillary tube at drier and break.  
5. Unbraze condenser inlet.  
6. Slide condenser assembly out.  
7. Unbraze 3/16" copper tube from condenser to  
drier to be reused on replacement condenser and  
drier.  
Power Disconnect Switch  
1. See Machine Compartment Access.  
2. Remove leads.  
3. Pop switch out through front.  
Showroom Switch  
1. See Low and High Voltage Board and Showroom  
Switch Access.  
2. Remove screws and pull switch down.  
3. Remove leads.  
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Typical External Sweat Pattern  
Condensation Classifications  
1 = Haze or fog  
See "Troubleshooting Guide", Exterior cabinet condensation  
2 = Beading  
3 = Beads or small drops  
4 = Drops running together  
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Troubleshooting Guide  
Problem  
Possible Cause  
Loud operating sound level  
• See “Sound Information” section for explanation of  
normal operating sounds  
• Freezer too warm  
• Compressor not operating  
• Freezer temperature set too warm  
• Defective compressor  
• Defective overload or relay  
Refrigerator too cold  
• Refrigerator temperature set too cold  
• Chef's Pantry control set too cold or misaligned allowing  
freezer air to escape into refrigerator section  
• Freezer temperature set too cold  
• Restricted condenser air  
• Refrigerant shortage or restriction  
• Refrigerant overcharge  
• Freezer too warm  
• Heavy usage  
• Compressor cuts off on overload  
• High ambient  
• Restricted condenser air  
• Defective condenser fan motor  
• Loose or missing condenser fan blade  
• Improper voltage  
• Defective relay or overload  
• Compressor motor winding  
• Non-condensibles in system  
• Refrigerant overcharge  
• Freezer too warm  
• Compressor operating  
• Freezer temperature set too warm  
• Restricted condenser air  
• Defective condenser fan motor  
• Opened door  
• Heavy usage  
• Defective freezer fan motor  
• Opened defrost thermostat  
• Opened defrost heater  
• Loose or missing freezer or condenser fan blade  
• Heavily frosted evaporator  
• Refrigerant shortage or restriction  
• Inefficient compressor  
Refrigerator too warm  
• Refrigerator temperature set too warm  
• Freezer temperature set too warm  
• Return air or air supply duct blocked  
• Chef's Pantry control set too warm or air supply tube  
blocked  
• Heavy usage  
• High ambient  
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Troubleshooting Guide  
Problem  
Possible Cause  
Freezer too cold  
Long off cycle  
• Freezer temperature set too cold  
• Low ambient  
• Freezer temperature set too warm  
Short off cycle  
• Heavy usage  
• High ambient  
• Freezer temperature set too cold  
• Light constantly on  
• Poor door gasket seal  
Long or continuous run cycle  
• Heavy usage  
• High ambient  
• Inadequate condenser air flow  
• Freezer temperature set too cold  
• Loss or restricted refrigerant  
Short run cycle  
• Light usage  
• Low ambient  
• Freezer temperature set too warm  
Exterior cabinet condensation • High humidity. Design accepts beads of water on  
cabinet exterior after 4 hours with 0° to 2°F (-18° to -17°C)  
freezer food temperature and 38° to 40°F (3° to 4°C)  
refrigerator food temperature in 84% R.H. conditions.  
See “Typical Sweat Pattern” section under above  
conditions.  
• Freezer temperature set too cold  
• Poor door gasket seal  
• Insulation void  
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Ice Maker  
Specifications  
Mold heater: 185 watts, 264 ohms  
Thermostat: Close 17 ± 3°F (-8 ± 1°C)  
(bimetal)  
Opens 32° ± 3°F (0°± 1°C)  
Water fill:  
140 cc, 7.5 sec.  
Motor cycle: Stamped in circuit.  
Plug in connectors.  
One revolution of blades takes  
3 minutes plug stall time on ice  
(eject and water fill).  
Testing Procedures  
Verify ice maker has power, shut-off arm is down, and  
freezer is cold enough to close bimetal thermostat.  
• Test point L and N will verify 120 volts to ice maker  
module.  
• Test points T and H will verify bimetal thermostat is  
open or closed.  
Operation  
Thermostat closes when temperature reaches  
17° ± 3°F (-8.3° ± 1.5°C). Current flows through  
thermostat to motor. See “Ice Maker Wiring  
Diagram”. Motor is linked with drive gear. From  
module, there are copper contacts that ride on copper  
strips on backside of drive gear. As the drive gear  
rotates, contacts will make or break a circuit (tract) to  
the copper strips to operate ice maker.  
• Verify test probes go into test points 1/2 inch  
(1.25 cm).  
1. Short T and H with a shunt (insulated 14 gauge wire  
with ends stripped back 5/8 inch (1.6 cm)) to run  
motor. If motor runs, replace bimetal thermostat. If  
motor does not run, replace module.  
All components can be tested without removing ice  
maker or moving refrigerator away from installation.  
Remove cover.  
Test points are identified on module:  
N = Neutral side of line  
M = Motor connection  
H = Heater Connection  
T = Thermostat connection  
L = L1 side of line  
2. Leave jumper in for half of revolution. Touch  
heater mold. If heater mold feels warm, heater is  
working properly.  
V = Water valve connection  
3. Remove jumper. Water valve will be energized in  
last half of revolution if mold heater has not failed.  
Caution  
To avoid ice maker damage do not short any  
contacts together other than those specified.  
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Ice Maker  
Module, Motor, and Support Assembly  
1. Loosen both screws in module access ports.  
2. Disconnect shut-off arm.  
Module Ohmmeter Checks  
No Power to Ice Maker and  
Ejector Blades in End of Cycle Position  
Test Points  
L - H  
Component  
Mold and heater  
Motor  
Module Position  
Attached to support  
Separated from heater  
Ohms  
264  
3. Pull mold from support assembly.  
L - M  
16,100  
Remove module only by removing 3 screws and  
pulling module out of housing.  
Module Voltage Checks with Meter or Test Light  
Power to Ice Maker  
Shut-Off Arm  
Test Points  
L - N  
Component  
Module  
Line Voltage  
0 Volts  
Power off  
Closed  
Off  
1. Pull shut-off arm out from white bushing.  
2. Replace by pushing completely in.  
3. Follow steps below.  
Power on  
Open  
On  
T - H  
Bimetal  
L - H  
Heater  
L - M  
Motor  
On  
Off  
N - V  
Water valve  
On  
Off  
Disassembly Procedures  
Cover  
1. Pull water adjustment knob forward.  
2. Snap off cover.  
WARNING  
To avoid electrical shock which can cause  
severe personal injury or death, disconnect  
power to refrigerator using power switch before  
servicing. Wires removed during disassembly  
must be replaced on proper terminals to insure  
correct earthing and polarization. After  
Module and Heater Assembly  
1. Remove module and support assembly.  
2. Install module and support assembly on  
replacement mold and heater assembly.  
servicing, reconnect power using power switch.  
Fill Cup  
1. Remove module and support assembly.  
2. Remove ejector blades and shut-off arm.  
3. Pull fill cup from mold.  
Shut off arm  
Adjustment  
screw  
Mold attachment  
screw access ports  
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Ice Maker  
Ejector Blades or Stripper  
1. Remove module and support assembly.  
2. Install ejector blades, realigning "D" coupling with  
module cam.  
Accessing Control Box  
1. Remove motor and contact assembly from control  
box by removing 3 screws.  
2. Remove shut-off arm.  
3. Pull free.  
Water valve  
energized  
7.5 seconds  
140 cc fill  
Ejector blade  
stop position  
1:30 position  
11:00 position  
Start position:  
thermostat closes,  
motor on,  
heater on  
Ejector stall on ice,  
motor on  
(30 seconds to 5 minutes)  
4:00 position  
Mold and heater screw access ports  
Thermostat  
opens in this  
range and  
6:00 position  
heater is off  
Caution  
To avoid main assembly damage do not  
rotate blades or drive gear.  
Water Fill Adjustment  
Turning water level adjustment screw will move  
contact in relationship with contact ring segment. This  
causes contact to vary time water valve is energized.  
Contact ring is tapered at end of fill time.  
Switches will jam if turned counterclockwise and  
gears will be destroyed if turned clockwise. Advance  
ice maker into cycle by using a jumper to bridge H to  
R. Ice maker will not run if motor is defective. Shut-off  
arm must be in on position.  
There are several slotted shafts on motor assembly  
board. Do not insert screwdriver and attempt to turn  
shafts. Slots permit assembly only.  
There are nonrepairable and nonreplaceable  
components in module. When diagnosing or repairing  
ice maker, do not remove module unless replacing  
module.  
• Turning screw clockwise decreases fill time.  
• Turning screw counterclockwise increases fill time.  
• 1/2 turn equals 20 cc or 1.2 seconds.  
• Full turn equals 40 cc or 2.4 seconds.  
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Ice Maker  
Thermostat, mold heater, and wiring harness are  
replaceable. Any other failure, including motor,  
requires replacement of module assembly.  
Replacement mold assembly comes with new mold  
heater installed.  
Caution  
To avoid module damage do not rotate water  
adjustment screw more than one full turn in  
either direction.  
Thermostat  
1. Remove control box from mold by removing  
screws.  
If water valve adjustment screw falls out, put screw in  
hole and align as shown below.  
Screws  
Water  
adjustment  
screw  
2. Pull front of black housing free of mold.  
Thermostat is on mold side.  
Thermostat  
When small hole is centered in large hole, water fill  
adjustment is 7.5 seconds (normal fill time).  
Water Problems  
Poor water quality can cause ice maker to fail or  
produce unacceptable cubes. Mineral content or sand  
can restrict screen in water fill valve or particle of  
sand can keep valve from seating properly.  
Retaining clips  
3. Grasp 1 thermostat clip and pull out.  
4. Press in new thermostat. Verify pins are properly  
indexed. Electrical assembly does not need to be  
removed.  
If water valve does not close, the following could  
occur:  
• no ice production  
If replacing module, transfer clips to new mold  
support. Use new thermal bonding material.  
• small or hollow ice cubes  
• flooding of ice container  
Install water filter, part #R0183114, to eliminate bad  
taste, odor, and visible contaminates.  
Wiring Harness  
Remove wiring harness by pressing retaining tab  
and pulling forward.  
Mineral contact can cause lime build up in mold.  
Wicking of water over mold and poor cube release  
can occur. Silicone is applied at upper edges around  
fill cup and stripper.  
Temperature Problems  
Freezer temperatures above normal 0° ± 2°F  
(-18°±1°C) will slow down ice production. Increase ice  
production by setting freezer to colder setting.  
Thermostat cycling temperature (1 revolution ice  
maker) is 17° ± 3°F (-8° ± 1°C). Ice will freeze when  
these temperatures are achieved. Cycling time will be  
slower if freezer temperature is not cold enough to  
achieve mode temperatures easily.  
Press  
tab  
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Ice Maker  
Caution  
To avoid property damage, test for water  
leaks after repair or replacement of water  
valve. Do not overtighten connection to  
household water supply.  
Water Valve  
Water valve has 1 solenoid. Valve has 80 mesh  
screen water strainer. When tan encapsulated  
solenoid is energized, the amount of water entering  
ice maker mold is directly proportional to length of  
time water valve switch is held closed by timing cam.  
Inside valve is a flow washer which acts as a water  
pressure regulator. Proper ice maker fill is 140 cc  
± 10cc at 7.5 seconds of water fill at an inlet pressure  
ranging from 20 to 120 PSI (1.4 to 8.2 bar).  
Wiring Harness  
A nonresettable thermal fuse micro device 170°F  
(78°C) is spliced into red wire of ice maker wiring  
harness. Fuse will protect freezer plastic liner from  
melting if ice maker should overheat. Excessive heat  
can cause no ice production. Replacing wiring  
harness will only temporarily solve problem. Replace  
ice maker thermostats.  
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Ice Maker Troubleshooting Chart  
No or Low Ice Production  
Problem  
Action  
Warm freezer  
Adjust freezer control or repair refrigerator  
Replace module  
Broken locking tab on vertical cam  
Shorted and burned module shut-off  
switch and contacts  
Replace module  
Stalled or stripped motor  
Replace module  
2:30 Ejector Position  
Replace module  
Contaminated module.  
Motor won't run when “T” and “H” test  
points are shorted.  
Open or missing thermostat  
Replace or install thermostat  
Apply alumilastic  
No power to ice maker (harness)  
Determine discontinuity by tracing power  
Jammed cubes  
Un-jam cubes  
Notice size and density of cubes  
Check fill tube and fill-cup assembly  
Frozen fill tube  
Replace water valve  
Kinked water line  
Un-kink line and check line for weak sections  
Obstructed water line to ice maker or Clear water line  
refrigerator  
Clogged water valve  
No power to water valve  
Low water pressure  
Replace water valve  
Determine discontinuity by tracing power  
Short “T” & “H” test points for 10 seconds.  
Remove jumpers. Catch water in glass.  
Increase water pressure to 20 -120 psi (1.4 - 8.2 bar)  
140 cc's.  
Open heater circuit  
Replace mold and heater assembly  
Replace thermostat  
Closed thermostat  
Damaged heater tulips on module  
Replace module  
Short heater pins that do not  
contact module  
Replace mold and heater assembly  
Raised shut-off arm  
Lower shut-off arm to begin cycle  
Water or ice in actuator/housing hole Remove module  
Dry actuator and housing hole  
Small or burred housing hole  
Large or burred actuator O.D.  
Damaged module housing  
Repair or replace ice maker  
Replace module  
Replace module  
Deformed shut-off arm  
Replace shut-off arm  
Little or no alumilastic on thermostat  
Housing to mold screws not seated  
Heater not staked in mold  
Apply alumilastic to thermostat  
Tighten 2 screws (20-26 in.lb) (22.8 - 29.6 cm.kg)  
Replace mold and heater assembly  
Apply alumilastic  
Incorrect heater temperature  
Replace mold and heater assembly  
Apply alumilastic  
Broken shut-off lever or  
Replace module  
mislocated shut-off switch  
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Ice Maker Troubleshooting Chart  
3:00 Ejector Position  
Contaminated  
Replace module  
Un-jam cubes  
Jammed cubes  
Notice size and density of cubes  
Refrigerator or ice maker not level  
No power to ice maker  
Level refrigerator or ice maker  
Determine discontinuity by tracing power  
Excessive water-fill volume  
Adjust module screw, lower water pressure, or  
replace water valve  
Cubes falling back into mold during  
ejection  
Replace fill cup  
Check fill tube assemby  
4:00 Ejector Position  
Contaminated  
Replace mold and heater assembly  
Apply alumilastic  
Thermostat out of calibration  
Replace thermostat  
Apply alumilastic  
Open heater circuit  
Motor should oscillate  
Replace mold and heater assembly  
Apply alumilastic  
Little or no alumilastic on thermostat  
Heater not staked in mold  
Apply alumilastic to thermostat  
Replace mold and heater assembly  
Apply alumilastic  
Broken locking tabs on vertical cam  
Contaminated  
Replace module  
6:00 Ejector Position  
Replace mold and heater assembly  
Apply alumilastic  
Insufficient water to ice maker,  
small or hollow cubes  
Refer to “Hollow Ice Cubes”  
7:30 Ejector Position  
Contaminated  
Replace module  
Motor will not oscillate  
Shut-off arm stuck in ice or  
obstructed  
Remove obstruction  
Replace module  
Cubes not formed properly  
Un-Jam  
Check fill cup and fill tube assembly  
9:00 Ejector Position  
Contaminated  
Replace module  
Cube frozen to fill cup or mold  
Un-jam  
Replace fill cup and module  
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Ice Maker Troubleshooting Chart  
Excessive Ice Production  
Problem  
Action  
Shut-off arm not in actuator  
Deformed shut-off arm  
Replace shut-off arm in actuator  
Replace shut-off arm  
Replace module  
Broken shut-off lever or  
lever bypassing vertical cam  
Broken module actuator  
Replace module  
Hollow Ice Cubes  
Action  
Problem  
Low water fill volume  
Adjust module screw, clear water path,  
or replace water valve  
Improper freezer air-flow  
Direct air flow away from thermostat  
Thermostat out of calibration  
Replace thermostat  
Apply alumilastic  
Flooding or Ice in Bucket or Freezer  
Problem  
Action  
Thermostat out of calibration  
Replace thermostat  
Apply alumilastic  
Jammed cube stalled in water-fill cycle  
Remove cube  
Determine reason for stall  
Leaky water valve  
Replace water valve  
Replace water valve  
Replace module  
Excessive water fill volume  
Motor stalled in water-fill cycle  
(12:00 ejector position)  
Contaminated module  
Replace module  
Refrigerator or ice maker not level  
Excessive water pressure  
Level refrigerator or ice maker  
Decrease water pressure (20-120 psi) (1.4 - 8.2 bar)  
Replace module  
Shorted and burned module shut-off  
switch and contacts  
Broken locking tab on verticle cam  
(Stalled in water fill)  
Replace module  
Fill-tube not properly positioned in  
fill cup  
Reposition fill tube  
Fill cup water opening blocked  
Replace fill cup  
Replace fill cup  
Cubes fall over back of ice maker,  
melting in freezer  
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Ice Maker Wiring Diagram and Parts Layout  
115  
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B136CKR1 and B136CKL1 Custom Handle Kit  
Parts List  
Introduction  
Recognize this symbol as a safety  
B136CKR1  
Part Number Description  
Quantity  
precaution.  
12063501  
12063503  
12116501  
M0275148  
12063703  
Extrusion freezer door frame  
1
1
1
30"  
1
Extrusion door frame  
Installation instructions  
1" Wide double back tape  
Handle insert  
WARNING  
To avoid severe personal injury or property  
damage from refrigerator tipping over, do not  
open more than one door at a time, until  
refrigerator has been secured to structure.  
B136CKL1  
Part Number  
12063501  
12063503  
12116501  
M0275148  
12063703  
Description  
Quantity  
1
1
1
30"  
1
Caution  
Extrusion freezer door frame  
Extrusion door frame  
Installation Instructions  
1" Wide double back tape  
Handle insert  
To avoid personal injury protect hands and  
arms by wearing gloves. Trim pieces may  
have sharp edges.  
Caution  
To avoid property damage, protect soft vinyl  
or other flooring with cardboard, rugs, or other  
protective material.  
Read entire manual before installing kit. Align parts  
checking for proper fit before beginning. All necessary  
tools and materials must be available prior to  
installation. Verify all listed parts are included in kit. If  
parts are missing, contact source from whom kit was  
purchased.  
• Two people are recommended to install kit.  
• Mechanical experience is required to install kit.  
• If unable to solve a problem during installation,  
contact an authorized Amana technician. Locate  
a Factory Service Center or independent  
authorized technician by calling 1-800-628-5782  
inside U.S.A. and 1-319-622-5511 outside U.S.A.  
Service is at owner’s expense.  
This kit is designed for applications where custom  
handles are desired to replace factory installed handles.  
Kit includes trim necessary to hold custom panels in  
place on refrigerator door and freezer drawer. Custom  
handles are not provided and is the responsibility of the  
consumer to provide.  
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B136CKR1 and B136CKL1 Custom Handle Kit  
Panel Dimensions  
Panel  
Depth  
A
B
C
D
Refrigerator door without extruded handle  
Freezer door without extruded handle  
Refrigerator door with or without extruded handle  
Freezer door with extruded handle  
3/4"  
3/4"  
1/4"  
1/4"  
3/4"  
3/4"  
1/4"  
35 1/4"  
35 1/4"  
35"  
51 7/16"  
23 1/16"  
51 1/4"  
35"  
23 11/32"  
51 7/16"  
20 9/16"  
22 27/32"  
3 1/2"  
1/2"  
Refrigerator door with extruded handle  
Freezer door with extruded handle  
32 1/4"  
35 1/4"  
35"  
Freezer door without extruded handle  
Door Panels with Hinge on Right Side and Extruded Handle  
Reverse view for hinge on left side  
Hinge  
clearance  
RS1200001  
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November 1996  
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B136CKR1 and B136CKL1 Custom Handle Kit  
Refrigerator, Freezer Door Panel with Custom Handle (inches)  
Center align panel brackets on back of panel.  
Panel brackets  
3/4" Panel Mounted to 1/4" Filler Panel and Location of Panel Brackets for 3/4" Panel  
Installations  
1/4" filler  
panel  
Door trim  
3/4" raised  
overlay panel  
Panel bracket  
Front of decorator panel  
November 1996  
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B136CKR1 and B136CKL1 Custom Handle Kit  
Freezer Drawer Top Wood Spacer Right Side Hinge Cutout Dimensions For 3/4" Panels  
(inches) (actual size)  
Mount spacer to top of freezer drawer using 1" wide double sided foam tape.  
3.780  
2.892  
Radius .888  
2.563  
1.991  
.703  
.250  
Freezer Drawer Right Side Hinge Top Wood Spacer Dimensions (1/2" thick) for 3/4"  
Panels (inches)  
Mount spacer to top of freezer drawer using 1" wide double sided foam tape.  
3.780  
2.892  
Radius .888  
2.563  
.703  
1.991  
.250  
35.250  
RS1200001  
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B136CKR1 and B136CKL1 Custom Handle Kit  
Freezer Drawer Top Wood Spacer Left Side Hinge Cutout Dimensions for 3/4" Panels  
(inches) (actual size)  
Mount spacer to top of freezer drawer using 1" wide double sided foam tape.  
3.780  
2.892  
Radius .888  
2.563  
.703  
1.991  
.250  
Freezer Drawer Left Side Hinge Top Wood Spacer Dimensions (1/2" thick) for 3/4" Panels  
(inches)  
Mount spacer to top of freezer drawer using 1" wide double sided foam tape.  
3.780  
2.892  
Radius .888  
2.563  
1.991  
.703  
.250  
35.250  
November 1996  
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B136CKR1 and B136CKL1 Custom Handle Kit  
Procedures  
5. Drive low profile screws into panel with screwdriver.  
Refrigerator Door  
• Panel brackets must be exactly flush to 1/16"  
inboard of panel edge.  
• For ease of panel installation, 2 people are  
required to lift and guide panel into trim.  
• Install 1 panel at a time.  
1. Remove handle insert by prying off one end and  
pulling handle insert away from door.  
2. Remove nine 3/8" screws from refrigerator handle.  
Remove handle from door.  
Caution  
6. Align panel in trim and push evenly. For smoother  
installation, apply bar soap on door trim and  
refrigerator trim. If panel binds loosen top door trim.  
Adjust panel and retighten. See "3/4" Panel  
Mounted to 1/4" Filler Panel and Location of Panel  
Brackets for 3/4" Panel Installations", page 4.  
7. Install new refrigerator door trim by replacing nine,  
3/8" screws.  
To avoid property damage, maintain grip on  
handle after screws have been removed.  
Handle will be loose once screws have been  
removed and may fall.  
Handle  
Insert  
8. Replace handle insert. Start one edge of insert in  
track and press other edge into track while working  
up side of door.  
Freezer Drawer  
1. Remove freezer drawer handle insert by prying one  
end out of track and pulling upward, away from  
drawer.  
2. Remove five, 1" screws from freezer drawer handle.  
Lift freezer handle and handle/trim spacer off  
freezer drawer.  
Refrigerator  
handle  
3/8"  
screws  
1"  
screws  
Handle  
insert  
3. Align panel brackets (supplied) with center edge of  
panel see "Refrigerator, Freezer Door Panel with  
Custom Handle" page 4 . Install brackets using 1/4"  
screws.  
Handle/  
Trim  
spacer  
Freezer  
handle  
• Brackets and screws are provided with  
refrigerator, and not a part of this kit. Custom  
panels are consumers responsibility.  
• Panel should have handle already installed.  
• Head of screws used to mount handles to panel  
must not exceed .15" in height. Screw head  
height higher than .15" will interfere when  
installing panels. If screws head height is greater  
than .15", countersink heads in back of panel.  
4. If base panel is less than 1/4", use plastic shims.  
Shims go between bracket and wood to space  
panels to desired depth.  
3. Remove trim insert from one side trim piece by  
prying one end out of track and pulling upward away  
from the drawer.  
4. Remove five 3/8" screws from side trim. Remove  
side trim from freezer drawer.  
• Shims are provided with refrigerator, and are not  
part of this kit.  
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B136CKR1 and B136CKL1 Custom Handle Kit  
Trim  
insert  
Top trim  
Side trim  
3/8"  
screws  
5. See "Procedures, Refrigerator Door", steps 3  
through 5 for panel assembly procedure.  
6. Align panel in trim and push evenly. Start at one end  
and work across. For smoother installation, apply  
bar soap on door trim and freezer trim.  
7. Replace side trim by inserting five, 3/8" screws.  
8. Replace trim insert. Start one edge of insert in track  
and press other edge into track while working up  
side of door.  
9. Install new top trim by replacing five, 1" screws.  
10. Cut new handle insert to a length of 35 1/4". Install  
new trim insert. Start one edge of insert in track and  
press other edge into track while working up side of  
door.  
11. Optional: install filler block on top of top trim using  
1" wide double sided foam tape provided.  
• For dimensions of filler block see "Freezer Drawer  
Top Wood Spacer Right Side Hinge Cutout  
Dimensions" pages 5, or "Freezer Drawer Top  
Wood Spacer Left Side Hinge Cutout Dimensions"  
page 6 of this manual.  
• Double sided tape is provided in three, 10" strips.  
• Verify placement of filler block before applying  
double sided tape. Tape cannot be removed once  
applied to filler block.  
November 1996  
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B136SPK1 ¼" Facia Front Enclosure Kit  
Introduction  
Parts List  
Part Number Description  
Quantity  
1
2
2
2
2
10  
7
58  
1
1
1
1
8
4
8
Recognize this symbol as a safety  
precaution.  
12115803  
12128401  
12200901  
12098007  
12098005  
M0215318  
M0210417  
M0223729  
12118504  
12064304  
12064404  
12116503  
12119604  
12119605  
12119602  
Right cabinet extrusion  
Cabinet extrusion  
Cabinet bracket  
Decorator panel bracket  
Decorator panel bracket  
Small screw  
Small screw  
Small screw  
Left cabinet extrusion  
Toe grille  
Toe grille  
WARNING  
To avoid severe personal injury or property  
damage from refrigerator tipping over, do not  
open more than one door at a time, until  
refrigerator has been secured to structure.  
Caution  
To avoid property damage, protect soft vinyl  
or other flooring with cardboard, rugs, or other  
protective material.  
Installation Instructions  
Door bracket shim  
Door bracket shim  
Cabinet bracket shim  
Caution  
To avoid personal injury, wear gloves to  
protect hands and arms. Trim pieces may  
have sharp edges.  
Read entire manual before installing kit. Align parts  
checking for proper fit before beginning. All necessary  
tools and materials must be available prior to  
installation. Verify all listed parts are included in kit. If  
parts are missing, contact source from whom kit was  
purchased.  
• Two people are recommended to install kit.  
• Mechanical experience is required to install kit.  
• If unable to solve a problem during installation,  
contact an authorized Amana technician. Locate  
a Factory Service Center or independent  
authorized technician by calling 1-800-628-5782  
inside U.S.A. and 1-319-622-5511 outside U.S.A.  
Service is at owner’s expense.  
This kit is designed for applications requiring a 1/4"  
wood side panel be attached to one or both sides of the  
refrigerators. Kit may also have a 3/4" wood panel  
attached to the base panel to bring the side panel to full  
refrigerator depth. Kit includes trim and parts needed to  
attach panel to the side of refrigerator.  
RS1200001  
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November 1996  
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B136SPK1 ¼" Facia Front Enclosure Kit  
Panel Dimensions  
Side Panel Dimensions  
Panel Thickness  
¼ " Side Panels  
¾ " Side Panels  
Minimum Height  
83.125  
83.125  
Minimum Depth  
21.750  
23.982  
Panel height will vary depending how high leveling wheels have been raised when leveling  
refrigerator, and cabinet height.  
If cabinet depth is greater than 24", adjust panel accordingly.  
Optional 3/4" panel may be added to cover side extrusion as shown below, and on page 4.  
3/4" Panel  
minimum  
depth  
1/4" Panel  
minimum  
depth  
Minimum  
height  
November 1996  
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B136SPK1 ¼" Facia Front Enclosure Kit  
Location of Panel Brackets on Side Panels  
If cabinet depth is greater than 24", adjust panel size accordingly.  
Top view  
Right  
side  
Left  
side  
.186  
.828  
L-Bracket  
1/4" Panel  
21.750  
1/4" Minimum  
panel depth  
23.982  
3/4"Minimum  
panel depth  
Z-Bracket  
1/4" Panel  
.993  
.993  
Refrigerator door  
Refrigerator door panel  
Side View  
11.281  
Side  
panel  
2.500  
2.062  
L-Bracket  
Bottom  
Front  
1.50  
panel  
panel  
bracket  
bracket  
RS1200001  
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B136SPK1 ¼" Facia Front Enclosure Kit  
Full Side View of Front Panel Bracket, Bottom Panel Bracket, and L-Bracket Location  
Front panel  
bracket  
L-Bracket  
Bottom  
panel  
bracket  
November 1996  
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B136SPK1 ¼" Facia Front Enclosure Kit  
Procedures  
4. Install new front side extrusion provided with kit  
1. Remove toe grille from front of refrigerator by  
removing 2 screws and pulling forward.  
using screws removed in step 3. Replace white  
spacer strip along machine compartment side.  
• If cabinet opening is less then 84 1/4" high, side  
extrusion needs to be trimmed to desired height.  
Clip  
Front  
side extrusion  
2. Remove drain pan clip from old toe grille and snap  
onto toe grille provided. Install toe grille by  
attaching to cabinet in same holes as previous toe  
grille, with 2 truss head 1/4" sheet metal screws.  
• New toe grille will not be as wide as original toe  
grille to allow installation of new side extrusion.  
3. Remove front side extrusion and white spacer strip  
by removing 11 screws on both left and right sides.  
Retain white spacer strip located on machine  
compartment side.  
5. Mount left and right panel brackets to wood panel  
using 3/16" phillips screws provided.  
• If base panel is not 1/4" thick use plastic shims  
provided with kit to bring base panel depth up to  
1/4".  
1/4" Filler  
panel  
3/4" Raised  
overlay panel  
(Optional)  
Side  
extrusion  
Side of  
refrigerator  
Panel  
bracket  
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B136SPK1 ¼" Facia Front Enclosure Kit  
6. Mount bottom panel brackets using five, 3/16"  
phillips screws.  
9. Slide panels into place on left and right side of  
refrigerator. Verify that panel bracket is resting in  
track on bottom cabinet extrusion. For smoother  
installation, apply bar soap to cabinet extrusions  
and panel brackets.  
• If base panel is not 1/4" thick, use plastic shims  
provided with kit to bring base panel depth up to  
1/4".  
7. Mount bottom cabinet extrusion using five, 1/4" flat  
head phillips screws.  
1/4" Panel  
Bottom cabinet  
extrusion  
3/4" Panel  
(Optional)  
Panel  
bracket  
Side of  
refrigerator  
Bottom cabinet  
extrusion  
Also, front panel bracket must fit in gap in front  
side extrusion.  
8. While facing back of refrigerator, remove 7 screws  
from right edge of refrigerator cabinet.  
L-Bracket  
Slide  
panel in  
here  
Remove  
screws  
Bottom cabinet  
extrusion  
10. Line up holes in right side L-bracket with holes from  
7 screws removed in step 4. Attach L-bracket to  
back of refrigerator using 7 screws removed in  
step 4.  
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B136SPK1 ¼" Facia Front Enclosure Kit  
11. Line up holes in left side L-bracket with holes in left  
side edge of refrigerator back. Attach left side  
L-bracket to back of refrigerator using 7 truss head  
1/4" sheet metal screws.  
Left  
L-Bracket  
Right  
L-Bracket  
RS1200001  
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B136SPK2 ¾" Side Panel Kit  
Introduction  
Parts List  
Part Number  
12128401  
12200901  
12098007  
12098005  
M0215318  
M0210417  
M0223729  
12116504  
12119604  
12119605  
12119602  
Description  
Bottom cabinet extrusion  
Cabinet bracket  
Decorator panel bracket  
Decorator panel bracket  
Small screw  
Small screw  
Small screw  
Installation Instructions  
Door bracket shim  
Door bracket shim  
Cabinet bracket shim  
Quantity  
2
2
2
2
10  
7
58  
1
8
Recognize this symbol as a safety  
precaution.  
WARNING  
To avoid severe personal injury or property  
damage from refrigerator tipping over, do not  
open more than one door at a time, until  
refrigerator has been secured to structure.  
4
8
Caution  
To avoid property damage, protect soft vinyl  
or other flooring with cardboard, rugs, or other  
protective material.  
Caution  
To avoid personal injury, wear gloves to  
protect hands and arms. Trim pieces may  
have sharp edges.  
Read entire manual before installing kit. Align parts  
checking for proper fit before beginning. All necessary  
tools and materials must be available prior to  
installation. Verify all listed parts are included in kit. If  
parts are missing, contact source from whom kit was  
purchased.  
• Two people are recommended to install kit.  
• Mechanical experience is required to install kit.  
• If unable to solve a problem during installation,  
contact an authorized Amana technician. Locate  
a Factory Service Center or independent  
authorized technician by calling 1-800-628-5782  
inside U.S.A. and 1-319-622-5511 outside U.S.A.  
Service is at owner’s expense.  
This kit is designed for applications with one or both  
sides of refrigerator being exposed. Kit includes trim  
neccesary to install 3/4", or 1/4" wood panels on side of  
refrigerator to coordinate with kitchen decor.  
November 1996  
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B136SPK2 ¾" Side Panel Kit  
Panel Dimensions  
Side Panel Dimensions  
Minimum Height (Inches)  
Panel Thickness (Inches)  
Minimum Depth (Inches)  
B
A
C*  
83.125  
21.875  
22.571  
24.108  
¾ " Panels  
·
Panel height will vary depending how high leveling wheels have been raised when leveling  
refrigerator, and cabinet height.  
·
·
If cabinet depth is greater than 24", adjust panel size accordingly.  
3/4" panels may be extended to cover door gasket, door side, or door panel as shown by  
dimensions below and on page 4.  
·
Add refrigerator door panel depth to dimension C if attempting to extend side panel to cover side of  
front panel.  
Panel Depth  
*
C
B
A
Minimum  
Height  
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B136SPK2 ¾" Side Panel Kit  
Location of Panel Brackets on Side Panels  
Top View  
Left Side  
Right Side  
.186  
.828  
L-Bracket  
3/4" Panel  
Minimum  
Depth A  
Minimum  
Depth B  
Panel Bracket  
3/4" Panel  
Minimum  
Depth C  
1.118  
1.118  
Refrigerator  
Door  
.125  
C*  
Refrigerator  
Door Panel  
Side view  
11.281  
2.500  
2.062  
Bottom  
Panel  
Bracket  
1.50  
Front  
Panel  
Bracket  
L-Bracket  
November 1996  
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B136SPK2 ¾" Side Panel Kit  
Full Side View of Front Panel Bracket, Bottom Panel Bracket, and L-Bracket Location  
Front  
Panel  
Bracket  
L-Bracket  
Bottom  
Panel  
Bracket  
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B136SPK2 ¾" Side Panel Kit  
Procedure  
1. Mount left and right panel brackets to wood panel  
using 3/16" phillips screws provided.  
• If base panel is not 1/4" thick, use plastic shims  
provided with kit to bring base panel depth up to  
1/4".  
4. While facing back of refrigerator, remove 7 screws  
from right edge of refrigerator cabinet.  
1/4" filler  
panel  
3/4" raised  
overlay panel  
Panel  
bracket  
Remove  
screws  
5. Slide panels into place on left and right side of  
refrigerator. Verify that panel bracket is resting in  
track on bottom cabinet extrusion. For smoother  
installation, apply bar soap to cabinet extrusions  
and panel brackets.  
2. Mount bottom panel brackets using 5, 3/16" phillips  
screws.  
• If base panel is not 1/4" thick use plastic shims  
provided with kit to bring base panel depth up to  
1/4".  
3. Mount bottom cabinet extrusion using 5, 1/4" flat  
head phillips screws.  
Bottom cabinet  
extrusion  
Panel  
Panel  
bracket  
Side of  
refrigerator  
Bottom cabinet  
extrusion  
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B136SPK2 ¾" Side Panel Kit  
• Front panel bracket must fit in gap in front side  
extrusion.  
L-bracket  
Slide  
panel in  
here  
Bottom cabinet  
extrusion  
6. Line up holes in right side L-bracket with holes from  
7 screws removed in step 4. Attach L-bracket to  
back of refrigerator using screws removed in step  
4.  
7. Line up holes in left side L-bracket with holes in left  
side edge of refrigerator back. Attach left side  
L-bracket to back of refrigerator using 7 truss head  
1/4" sheet metal screws provided in kit.  
Left  
L-bracket  
Right  
L-bracket  
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