Maytag AOCS3040, AOES3030 manual Auto Latch Motor, Convection Fan Motor, Convection Element Testing

Page 15

Testing Procedures

!WARNING

To avoid risk of electrical shock, personal injury or death; disconnect power to unit before servicing.

Auto Latch Motor

Do not remove latch motor from latch assembly. If latch motor is defective, replace latch assembly.

1.Disconnect power.

2.Slide oven out from wall cutout approximately 6 inches to gain access to control panel screws.

3.Remove screws securing control panel to unit, and pull control panel out of unit to gain access to latch assembly.

4.Disconnect lead wires from latch motor.

5.Connect jumper cord leads to latch motor.

6.Connect jumper cord to 110 AC power source.

7.Replace if latch motor fails to operate.

8.Reverse procedure to reconnect.

Convection Fan Motor

1.Turn off power to oven.

2.Remove oven from wall cutout.

3.Remove access fan plate to gain access to convection fan motor.

4.Disconnect wires from motor terminal connectors.

5.Attach ohmmeter leads to terminal tabs on motor.

6.A resistance reading of 15-30 ohms should be indicated but may vary with each motor tested. This test is to check the motor winding for an open or shorted winding. If zero or infinite ohms is indicated, the motor winding has failed and the motor must be replaced.

Door Latch Assembly

Auto Latch Switches

Both unlock and lock door latch switches may be replaced.

1.Perform steps 1 through 3, from “Auto Latch Motor”.

2.Disconnect lead wires from door latch switch (unlock).

3.Set ohmmeter to the RX1 scale.

4.Attach meter leads to door latch switch (unlock).

5.Depress actuator arm. The meter should read continuity.

6.Reverse procedure to reconnect.

7.Use the same procedure to test the door latch switch (lock).

L1 L2 COM NO COM NO

 

M

 

 

 

 

 

 

 

 

 

Unlock

120 VAC

Lock

Switch

Switch

Motor

S.P.N.O.

S.P.N.O.

 

 

 

Convection Element Testing

1.Disconnect power to oven.

2.Remove screws securing oven door to hinges and remove door.

3.Remove screws securing fan cover to gain access to convection element.

4.Remove screws securing convection element, and pull gentally outward to gain access to wire terminals.

5.Remove wire connector from element.

6.Attach ohmmeter leads to each of the element terminals. Set ohmmeter to RX1 or RX10 scale.

7.Low ohms or continuity should be indicated.

Broil Element Testing

1.Disconnect power to oven.

2.Remove screws securing oven door to hinges and remove door.

3.Remove screws securing broil element reflector.

4.Gentally pull downward and out to gain access to wire terminals.

5.Remove wire connector from element.

6.Attach ohmmeter leads to each of the element terminals. Set ohmmeter to RX1 or RX10 scale.

7.Low ohms or continuity should be indicated.

Bake Element Testing

1.Disconnect power.

2.Remove oven from wall cutout.

3.Remove screws securing element panel.

4.Remove screws securing element access plate.

5.Remove wire connector from element.

6.Attach ohmmeter leads to each of the element terminals. Set ohmmeter to RX1 or RX10 scale.

7.Low ohms or continuity should be indicated.

Double Switch

©2003 Maytag Appliances Company

16021875 Rev. 0

15

Image 15
Contents Service Table of Contents Maytag Appliances Company Important Information All Appliances Recognize this symbol as a safety precautionSelf-Cleaning OvenGeneral Information Oven OperationCooking Guide Convection Broiling Rack Oven Rack PlacementConvection Pan Placement Pan PlacementTilting Control Panel Removing Oven DoorReplacing Oven Door Replacing Oven LightCleaning Oven Parts Cleaning Materials General Directions Care and CleaningIllustration Component Test Procedure Results Component Testing InformationERC mylar touch system Selecting Options Field Selectable OptionsClock Time Format 12 or 24 hour format Clock Time Base 60 or 50 Hz input line frequencyElement Conditions Oven Temperature Sensor Testing ProceduresOven Door Switch Oven High Limit/Fan SwitchAuto Latch Motor Convection Element TestingBroil Element Testing Bake Element TestingERC/P.C. Board Oven High Limit/Fan Control SwitchRemoving and Replacing Oven Control PanelBake Element Automatic Oven Door Latch AssemblyDoor Plunger Light Switch Oven SensorOven Door Removal Frameless Door DisassemblyOven Light Bulb/Oven Light Socket Oven Tank RemovalVent Assembly/Smoke Eliminator Outer Trim AssemblyOven Door Hinge Door Assembly 16021875 Rev Appendix a Line Voltage Requirements Oven DImensionsPackaging Material Oven LocationOption Connecting WiringInstallation Instructions Centerline of cabinet AOES3030 or AOCS3040 Wall Oven Stacked Installation CabinetTop cutout Tilt Loosen screw Pivot screw AOES3030 or AOCS3040 Wall Oven Installed Side-by-SideThis page intentionally left blank for notes Appendix B Programming Instructions-ERC for AOES3030 Electronic Oven Control OptionsSpecial Oven Control Functions Quick Reference Instructions Broiling Delayed BakeBake Timed BakeDelayed Self-Cleaning Interrupt Self-Cleaning CycleService Tones and Codes Adjusting Oven TemperatureService Information Quick Test ProcedurePad Response Transformer/Relay Module Function Switch Connection Check ProcedureTemperature Calibration Offset ERC Warnings and Failure CodesOven Light Relay-K10 Display Filament VoltageDoor Lock Relay-K3 This page intentionally left blank for notes Appendix C Programming Instructions-ERC for AOCS3040 Programming Instructions-ERC for AOCS3040 Self-CleaningConvection Delayed Bake or Convection BakeBake and Convection Bake Timed Bake or Convection BakeDehydration Tips Delayed ConvectionBroil and Convection Broil Convection DehydrationPres Oven Cancel pad Canceling Self-Cleaning CycleConvection DLB, Conv. Element and Fan on Connection, test control panel continuity Convection Fan Relay-K1 Convection Element Relay-K2

AOCS3040, AOES3030 specifications

The Maytag AOES3030 and AOCS3040 are two standout models in the Maytag lineup, offering robust performance and thoughtful design, making them ideal for modern households. These models reflect Maytag's commitment to durability, convenience, and user-friendly features.

The AOES3030 is known for its spaciousness, featuring a large oven capacity that allows home cooks to prepare multiple dishes at once, making it perfect for family gatherings or meal prepping. Its cooking surface is crafted with high-quality materials, ensuring durability and ease of cleaning. One of the key technologies incorporated into the AOES3030 is the Precision Cooking System. This innovation optimizes the cooking process by utilizing advanced sensors that monitor and adjust cooking times and temperatures, ensuring perfectly cooked meals every time.

In contrast, the AOCS3040 offers a versatile cooking solution with its unique range of features. The AOCS3040 is equipped with a powerful induction cooktop that allows for rapid heating and precise temperature control. Induction cooking is known for its energy efficiency as it directly heats pots and pans without heating the surrounding area, thus minimizing energy waste. Furthermore, the AOCS3040 includes a built-in oven with a self-cleaning feature, taking the hassle out of maintaining a pristine cooking environment.

Both models showcase Maytag's commitment to reliable performance, incorporating heavy-duty components that are built to last. They are designed with user-friendly controls that are intuitive, enhancing the overall cooking experience. Another noteworthy aspect of both models is their sleek, modern design, which includes stainless steel finishes that can seamlessly blend into any kitchen decor.

Safety features are also a priority, with each model incorporating child locks and automatic shut-off options, making them suitable for households with children. With their blend of innovative technologies, user-focused features, and robust construction, the Maytag AOES3030 and AOCS3040 set a high standard for kitchen appliances, offering both style and function for the modern chef. These models demonstrate that Maytag continues to innovate while honoring the brand's legacy of reliability.