Maytag
111990" Automatic DryersService Manual
16000132Issued 1990
Revised 2/98
Contents
SECTION 1. ELECTRICAL TEST EQUIPMENT " 1-1APPLIANCE TEST METER 1-1CLAMP-ON AMMETER '. . . . . . . . . . . . . . . . . . . . . . . . .. 1-3MOTOR TEST CORD 1-4VOLTAGE CHECKS 1-5TEMPERATURE READINGS RANGE (50°F. to 300°F.) 1-6
SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-1WILL NOT RUN 2-1WILL NOT DRY ' 2-2WILL NOT SHUT OFF ,............................... 2-2MISCELLANEOUS ,................................... 2-6MICROPROCESSOR BOARD CONTROL MODELS 2-7DRYER (MICROPROCESSOR BOARD CONTROL) 2-11FAULT CODE 2-15
SECTION 3. SERVICE PROCEDURES 3-1ACCESS TO CONTROL PANEL COMPONENTS 3-1CONTROL PANEL ASSEMBLY COMPONENTS 3-1MICROPROCESSOR BOARD CONTROL 3-10FRONT PANEL AND COMPONENTS 3-13TUMBLER AND RELATED COMPONENTS 3-17THERMOSTATS 3-24BLOWER 3··27DRIVE MOTOR AND IDLER ASSEMBLY ,........................ 3-28HEATING ELEMENT AND RELATED COMPONENTS -- ELECTRIC MODELS 3-31GAS VALVE AND RELATED COMPONENTS 3-34CABINET AND TOP COVER 3-41
SECTION 4. PRE-INSTALLATION CONSIDERATIONS 4-1LOCATING DRYER 4-1EXHAUSTING 4-2ADJUSTING MAIN BURNER 4-6ELECTRICAL REQUIREMENTS 4-8ELECTRICAL CONNECTIONS 4-10A!?DITIONAL INFORMATION 4-12PERSONAL SAFETY PRECAUTIONS '.' . . .. 4-12
SECTION 5. GENERAL INFORMATION 5-1HEAT SOURCE 5-1MODEL CHART 5-2SCHEMATICS 5-3
ED/GD401 1090 Contents
ED/GD401 1090 Contents ii
INTRODUCTION
This service manual is intended to assist you in diagnosing conditions which maydevelop. Electrical component testing is for the most part, made with an appliancetest meter and consists of checking for open or closed circuits. Mechanical checksare made through sight and sound, along with the use of a clamp-on ammeter.
This manual is designed for the technician who is familiar with the operation andconstruction of Maytag products. Information contained in this manual is intendedfor use by a qualified service technician, familiar with proper and safe proceduresto be followed when repairing an electrical appliance. All tests and repairs shouldbe performed by a qualified service technician equipped with proper tools andmeasuring devices. All component replacements should be made by a qualifiedservice technician, using only MA yeOR replacement parts.
Improper assembly or adjustment may occur if service or repair is attempted bypersons other than qualified service technicians or if parts other than MA yeORreplacement parts are used. Improper assembly or adjustment can cause hazardous conditions.
There can be risk of injury or electrical shock while performing services or repairs.Injury or electrical shock can be serious or even fatal.
The first and most important step of any service call is to accurately determine whatthe complaint is. This is best accomplished by questioning the customer, findingout what the prodUct is or isn't doing and why they feel a problem exists.
Section 1 covers Electrical Test Equipment. This sections also covers general useof the equipment; an Appliance Test Meter, Clamp-On Ammeter and Motor TestCord.
Section 2 covers Electrical-Mechanical Troubleshooting and a list of possible complaints. Find the complaint which you feel best matches that provided by the customer and turn to the appropriate page(s). You will find a list of possible electricaland mechanical problems for the complaint, which have been listed in there order
\
of:
1. Ease in checking.
2. Probability.
ED/GD401 1090 INTRODUCTION Iii
Systematically eliminating these possibilities will allow you to find and correct theproblem.
Section 3 covers Service Procedures. This section will provide information onlocation of components, disassembly and/or reassembly procedures, the purpos,eand/or function of the part and in some instances specific checks to be made.
Section 4 covers Pre-Installation Considerations. This provides information onlocation and exhausting of dryer, main burner adjustment, electrical requirementsand connections.
Section 5 covers General Information. This section covers brief specifications,cycle descriptions and schematics.
\ ....
ED/GD401 1090 INTRODUCTION iv
SECTION 1. ELECTRICAL TEST EQUIPMENT
The equipment required to serviceMaytag products depends largely uponthe condition encountered. Locating amalfunction will often require the use ofelectrical testing equipment such as:
• Appliance Test Meter
• Clamp-on Ammeter
• Motor Test Cord
APPLIANCE TEST METER
Probably the easiest means of testingelectrical components is ~'continuity
testing" with an Appliance Test Meter.Continuity is a complete or continuouspath from one point in an electricalcircuit to another point.
The obvious advantages of being ableto check electrical components and circuits without power applied is one ofthe features of the ohmmeter. Multipleranges allow accurate determination ofresistances of both single componentsand entire circuit paths. Resistance ismeasured in "ohms".
An Appliance Test Meter is a multipurpose tester combining an AC-DCvoltage tester with a multi-rangeohmmeter.
\ SF2
APPLIANCE TEST METER
SET METER FOR USE AS FOLLOWS:
1. Calibrate meter by touching testprobes together and turningadjusting dial until meter reads "0"on the ohm scale. Recheck calibration whenever adjusting dial forohms settings is changed. (Replacebattery if adjustment will not bringmeter reading to "0".)
2. Select the scale most easily readand place test probes on respectiveterminals. When checking a switch,the reading would normally beeither open or closed. A reading of70 on the R x 10 scale would forexample be 700 ohms resistance.
ED/GD401 1090 SECTION 1. ELECTRICAL TEST EQUIPMENT 1-1
~f~
~.,~"] QCAUTION ---------------,
Always be sure the power has beendisconnected before making resistance measurements. Failure to doso will result in damage to yourmeter! Internal batteries provide allthe power needed to make resistance checks. They should bechecked at least once a year andreplaced as needed.
For the most part, we will only be concerned with continuity. Is there a pathor not? References are made betweena "closed" (continuity) reading and an"open" (no continuity) reading. Onenote, when you get an "open" reading,try a higher resistance range (setting).A very high resistance appea~s as an"open" on the lower ranges. For bestaccuracy alw~ys "re-zero" meter whenchanging ranges and/or the physicalposition of the meter.
Continuity testing, as related to an elec-\
tricarcomponent, is the check of a partfor an "open" or "closed" circuit.
Electrical components fall into twogeneral categories.
1. Loads- Devices that use orconsume electricity: Examples
ED/GD401 1090
would include drive motor, heatingelements, lamps, timer and solenoidcoils.
2. Switches - Devices that control thesupply of electricity to the load orloads in a circuit. Examples includedoor switches, timer contacts,selector switch and relay contacts.
Continuity test of "load" devices willshow varying levels of resistance fromvery low for some transformer andmotor windings to very high for sometimer motors and components on electronic control boards. Usually it ismore important to know if there is apath for current .flow through a device(continuity) than to know the exactresistance (ohms) of the device.
Continuity tests of switches will showvirtually no resistance, even low valuesindicates burned or dirty contacts in aswitch.
Continuity testing is a process of eliminating those electrical componentsinvolved in a given function of theappliance, until the inoperative part isfound. By reviewing the list of possibleelectrical problems under a given condition, and then performing appropriatecontinuity checks on the parts involved,you should be able to locate the electrical component which is inoperative.
When checking components or circuitpaths for continuity, external wiringshould be disconnected to eliminatefalse readings through external paths.Isolate what you want to test.
The following shows typical resistancevalues for some of the componentsfound on Maytag dryers.
Heating Element -- 10.23 ohms.
SECTION 1. ELECTRICAL TEST EQUIPMENT 1-2
Gas Valve
Disconnect radiant sensor and igniterwires. Measure across igniter wires origniter plug from valve to get a resistance value of -- 425-450 ohms.
Measure across sensor wires to get aresistance of -- 450-475 ohms.
Drive Motor
Red terminal to Gray terminal -- 1.5ohms.
In order to measure the individualwindings the red and gray wires willhave to be pulled off of the start switch.
Run winding only -- 2.25 ohms.
Start Winding only -- 3 ohms.
Glow Bar Igniter
Because of the make-up of the igniter,the resistance will vary over a ratherwide range. Values from 180 ohms to400 ohms would be typical with anigniter at room temperature.
These values are provided so that youmay have an idea of the resistance thatyou can see in testing. These resistances are not meant to be used as theexact values to determine whether at;omponent should be replaced. They
\
are provided so that you may have anidea of the resistance that you can seein testing components.
EDIGD401 1090
CLAMP-ON AMMETER
Each circuit in an appliance has a"normal" current draw which is an indication of the performance of that circuit.Current draw levels, less than or morethan normal, give clues to malfunctions.The clamp-on ammeter measures thesecurrents without breaking the circuit bymeasuring the strength of the magneticfield developed around each conductor.Current is read by separating the conductors and clamping the jaws of theammeter around each conductor onwhich current is to be read. Lowamperage readings indicate problemssuch as damaged heating elements,etc. High amperage readings indicatethe unit being tested is operating underan increased mechanical or electricalload.
SECTION 1. ELECTRICAL TEST EQUIPMENT 1·3
Note: Overloads on a circuit breakeror fuse can be traced to the productbeing tested or the circuit breaker (orfuse) by checking the product's currentdraw. If the amperage reading is lessthan the breaker reading, the breakeror fuse box is at fault.
USE OF AMMETER ON DRYER
There are two currents of concern to usin an electric dryer; the heatingelement current and the drive motorcurrent. These currents can be measured by use of a "split line cord" extension for the dryer cord or by attachingthe ammeter to the respective powerline wires at the dryer terminal block.Current measured should be 21 ampson the heating element side of the line,24 amps on the drive motor side of theline and 4 amps on the center orneutral line.
A
\".
MOTOR TEST CORD
The motor test cord may be used. toelectrically check operation of the drivemotor while still installed in the unit.Testing of the motor in this mannerdetermines whether or not it will runindependently of other electrical components.
Two test leads are required to checkoperation of the drive motor. To checkthe motor for running, hook up testcord as shown.
WHORGY
OVERLOAD'- ,PROTECTOR ( ", \
START RUN'\
I \,START : AD
YEL 0 RUN 0--- I
START Q . CENT. SWITCH~~N 0----- -q-oBLK
BU ....,', ... /.......... __ ....
DRIVE MOTOR
Location of terminals on motor may vary from drawing.
ED/GD401 1090 SECTION 1. ELECTRICAL TEST EQUIPMENT 1-4
CHECKING HEAT CONTACTS,MOTOR CENTRIFUGAL SWITCH
1. Disconnect dryer power source.
2. Gain access to motor and removeblue and black leads from motorswitch.
3. Use either of the following testmethods using appropriate caution.
A. Live test -- USE CAUTION
1. Using a double insulated spade connector, connect blue and black wiresremoved from motor switch.
2. Reconnect dryer to power and setfor heat cycle.
3. Start dryer, if heat is produced,replace motor switch on motor. Ifno heat, continue additional circuitchecks.
B. Continuity Check
(Insulate wires removed from motorsWitch.)
1. Using clip adapters, attach meterprobes to the blue and black motorswitch terminals.
2. Arrange probe leads away from anymoving parts and set meter on RX1range.
3. Reconnect dryer to power sourceand start dryer, continuity on meterindicates good switch. No continuity, replace motor switch ormotor.
4. Open door to stop dryer. When\ motor stops, motor switch contacts
must open, if not replace switch ormotor.
ED/GD401 1090
VOLTAGE CHECKS
For the most part these checks willconsist of taking readings at the wallreceptacle in order to delermine theavailability of voltage to the product.Voltage checks on individual components of a product are not recommended due to the possibility ofelectrical shock. Component parttesting is best accomplished throughcontinuity checks with an ApplianceTest Meter.
Note: Use of the meter on voltagehigher than the indicated range maycause permanent damage to the meter.To prevent damage, first select highestrange for readings which fall within thelower scale.
SET UP METER FOR USE AS FOLLOWS:
1. Turn selector knob to desired meterfunction and appropriate range.
2. Plug black lead into socket marked (negative).
3. Plug red lead into socket marked +(positive).
4. Place test leads into receptacle inorder to determine voltage available.
SECTION 1. ELECTRICAL TEST EQUIPMENT 1-5
TEMPERATURE READINGSRANGE (50°F. to 300°F.)
Air temperature readings can be takenat the lint filter by removing the filterand placing the accessory temperatureprobe (Part NO. 38562) directly in thelint filter opening. Cycling of the thermostats can actually be observed ascan the temperature of the exhaustedair.
SET UP METER FOR USE AS FOLLOWS:
1. Turn selector knob to TEMP.
2. Insert black negative lead of temperature probe into socket marked (negative).
3. Insert red positive lead of temperature probe into socket marked +(positive).
4. To calibrate meter, touch black plugfrom red positive lead to black negative lead and turn calibration dialuntil needle aligns with CAL.
5. Probe is ready to use -- read bluescale on meter face marked TEMP.
ED/GD401 1090 SECTION 1. ELECTRICAL TEST EQUIPMENT 1-6
SECTION 2. ELECTRICAL - MECHANICALTROUBLESHOOTING
WILL NOT RUN
Dryer won't start or run.
• All wires are hooked up to their corre-sponding terminals.
• Dryer is plugged in.
• Blown fuse or circuit breaker.
• Door switch.
• Push-to-start switch.
• Timer.
• Drive motor.
• Thermal fuse.
Drive motor runs -- drum won't turn.
• Belt off or broken.
• Motor pulley loose or off.
• Idler tension spring.
• Idler pulley.
Dryer runs a few minutes and thenstops --Motor overload protectoropens.
• Lint build-up around drive motor.
• Low voltage.
• Blower impeller blocked.
e, Drive motor.\\.
Dryer blows fuses or trips circuitbreaker.
Electric Models
• The amperage readings are at 240volts. One line will be 24 amps andthe other line will be 21 amps. Theneutral line will be at 4 amps. If youhave the above amperage readings,the problem is not the dryer. Checkthe fuse box, circuit breaker or housewiring.
• Shorted heating element.
• Incorrect wiring or a wire shorting toground.
• Drive motor.
Gas Models
• During ignition the dryer will draw 7amps. With the burner on, the dryerwill draw 4.5 amps. If the dryer isdrawing the above amperage and thefuse blows, the problem is not thedryer. Check the fuse box, circuitbreaker or house wiring.
• Igniter.
• Incorrect wiring or a wire shorting toground.
• Drive motor.
CAUTION ---------------------------,
Always disconnect power supply before making any continuity checks or resistance readings.
ED/GD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2.,.1
WILL NOT DRY
Dryer won't heat (motor runs).
ELECTRIC MODELS
• Blown fuse or tripped circuit breaker.
• Open heating element.
• Hi-limit thermostat.
• Regulating thermostat.
• Temperature selector switch.
• Timer.
• Cycle selector switch (where used).
• Drive motor start switch.
Improper Drying -- Clothes Wrinkled -Harsh -- Taking too long
• Lint filter is clean.
• Restriction in exhaust.
• Exhaust hood door stuck.
• Exhaust too long.
• Poor make-up air.
• Incorrect drum speed. Adjust motorpulley or wrong motor pulley.
• Blower impeller bound.
• Be sure element or gas valve cycleson and off.
• Shorted heating element - electricdryers only.
• Customer ove'tloading dryer.
• Check clothing labels for fabriccontent.
WILL NOT SHUT OFF
Time Dry Models
• Timer motor.
• Timer.
AUTO DRY MODELS
• Set timer for time dry. Check voltageacross timer motor. If timer will notadvance, replace timer.
• When valve or element cycles off,should have power to timer motor, ifnot, proceed with next check.
• Dryer cycling on hi-limit thermostat.Check following.
• Lint filter clean.
• Restriction in exhaust.
• Exhaust hood door stuck.
• Exhaust too long.
• Regulating thermostat.
• Customer is overloading dryer.
ELECTRONIC CONTROL MODELS
The electronic control and timer areused to complete the drying cycle andcool-down period for these dryermodels. The dryer starts out with thedrive motor running, the timer motorrunning, the heat cycling and the electronic control disabled. As the timeradvances to a certain point in the cycle,
CAUTION -------------------------,
Always disconnect power supply before making any continuity checks or resistance readings.
ED/GD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-2
the electronic control becomes operational as cam number two opens. Ashort time later, the timer motor is deenergized when cam number one forthe timer motor opens. It is during thisstall period that the electronic controlsystem uses the wet clothes fallingacross the sensor in the drum to discharge the capacitor and keep thedryer running.
There are three dryness levels; MoreDry, Normal Dry and Less Dry. Thesedryness levels have been accomplishedby placing resistors on the electroniccontrol (printed circuit board) androuting the bypass wiring accordingly.The level of resistance in the circuit ,determined by the dryness levelselected, affects the charge-up rate ofthe capacitor and accomplishes thedesired dryness level. As the clothesget dry, the capacitor is able to buildup a charge to a point where the neonbulb fires, thus triggering the gate on aSCR. When this happens, a circuit ismade through the SCR, energizing thecoil in the relay. This takes only a splitsecond and the relay's coil is then heldenergized through a set of contacts inthe relay.
Also, when the coil in the relay is energized, the timer motor is activatedthrough another set of contacts in therelay. The timer advances and openscam number three for the heater andthe dryer begins a timer controlled
CAUTION
cool-down period. The amount of cooldown time will depend upon the cycleselected: Regular - 6 minutes,Permanent-Press - 13 minutes andPermanent-Press with Press Care - 33minutes. NOTE: These times areapproximate. The timer then advancesto where cam number 1A opens, deenergizing the drive motor and thecycle ends.
TROUBLESHOOTING
When the dryer does not go into cooldown and shut off with dry clothes, youneed to know whether you have acontrol problem or a sensor problem.Troubleshooting the electronic controlis made easier if we break the circuitdown into parts. We can separate thetwo parts by disconnecting the W-BUwire in the control panel at the plasticcoupler. The upper part contains theelectronic control assembly which consists of the edgeboard connectorassembly, printed circuit boardassembly and relay. The lower partconsists of the sensor assembly locatedon the tumbler front bulkhead.
Separating the two areas by pulling thewires apart at the coupler will showwhere the problem is located. If thedryer is started without any clothes inthe drum and shuts off in about 20minutes without the sensor circuithooked up, then the sensor must bekeeping the dryer from shutting off.
Always disconnect power supply before making any continuity checks or resistance readings.
ED/GD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-3
NOTE: This amount of time is forRegular Fabrics on a Less Dry setting.A setting of Normal Dry or More Drywill add more time before the dryershuts off. If the dryer does not shut off,then the problem is in the electroniccontrol assembly.
Sensor Assembly
1. Disconnect power supply.
2. Remove front panel.
3. Remove wires going to the sensorbars.
4. Check with ohmmeter to make surethere is NO continuity across thesensor bars. If you have continuityacross the sensor bars the capacitorcannot build a charge, it will continually bleed off.
CAUTION
Always disconnect power supplybefore making continuity orresistance checks.
5. Check to make sure the sensor bar(the one not connected to cabinetground) is not shorted to cabinetground. If this sensor bar has aleakage path to cabinet ground, thecapacitor cannot build a cllarge andwill continually bleed off. Useohmmeter to ~heck from sensor barto cabinet ground.
Electronic Control Assembly
If dryer does not go into cool-down andshut off with the sensor disconnectedthe problem is in the electronic controlassembly. While the dryer is running,observe the neon bulb on the electroniccontrol (printed circuit board). Whenthe capacitor reaches approximately 72volts, the neon bulb "fires" (flashes),the SCR conducts, the relay coil isenergized and the contacts in the relayclose.
If neon bulb "FIRES" but timer doesnot advance (timer motor is not energized):
1. Check relay coil for continuity orresistance.
A. Disconnect power supply.
B. Remove BK and BR wires fromrelay (refer to electrical wiringdiagram).
C. Attach meter leads across theseterminals and complete check. Ifchecking resistance, you should seeabout 2200 ohms of resistance. Nocontinuity, replace relay.
2. Check continuity across contactsO-BK to RD in relay. When closed,this set of contacts is used to keepthe coil energized.
A. Disconnect power supply.
B. Remove wires O-BK and RDfrom relay.
CAUTION --------------------------,
Always disconnect po~er supply before making any continuity checks orresistance readings.
ED/GD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-4
C. Remove BK wire from buzzer.
D. Attach motor test cord to the BKwire (removed from buzzer) and tothe O-BK wire (removed from relay).
E. Plug motor test cord into outlet(coil in relay should now be energized).
F. Check for continuity from terminal RD on relay to terminal O-BKon relay. No continuity, replacerelay.
CAUTION SHOULD BE EXERCISEDWHENEVER WORKING AROUNDLIVE VOLTAGE.
3. Check continuity across contactsW-BK to RD in relay. When closed,this set of contacts is used to energize the timer motor by bringing theneutral side of the power supplythrough the relay, to the timermotor.
A. Disconnect power supply.
B. Remove wires W-BK, O-BK andRD from relay.
C. Remove BK wire from buzzer.
D. Attach motor test cord to the BKwire (removed from buzzer) and tothe O-BK wire (removed from relay).
E. Plug motor test cord into outlet(coil in relay should now be energized).
\"-
CAUTION
F. Check for continuity from terminal RD on relay to terminal W-BKon relay. No continuity, replacerelay.
4. Replace electronic control (printedcircuit board).
If neon bulb does not "FIRE":
1. Check capacitor.
A. Disconnect power supply.
B. Remove electronic control(printed circuit board).
C. Set ohmmeter to an ohm scale,such as Rx100.
D. Place meter leads into openingsin the edgeboard connector wherecapacitor leads terminate. First,make sure you have discharged thecapacitor by shorting the leads. Usea piece of insulated wire with theends stripped.
E. Needle should deflect to one sideand then slowly drop back to zero.
F. Failure to deflect the needlewould indicate an open capacitor.Failure of the needle to drop backwould indicate a shorted capacitor.Replace edgeboard connectorassembly.
2. Replace electronic control (printedcircuit board).
Always disconnect power supply before making any continuity checks or resistance readings.
ED/GD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-5
MISCELLANEOUS
Dryer noisy.
• Thumping sound. Check for loosedrum baffle.
• Thumping sound. Rear drum roller(s)worn or misaligned.
• Thumping sound. Check drum forrough spots.
• Ticking sound. Loose wire hittingcabinet or other component.
• Ticking sound. Check for an objectcaught in the blower.
• Scraping sound. Front or rearbulkhead felt seal out of position.
• Scraping sound. Teflon bearingsmounted to the front bulkhead worn.
• Popping or squealing sound. Checkfor a sticky belt or frayed belt.
Buzzer will not buzz at end of cycle.(Auto Dry Models)
• Be sure all wires are connected andwired correctly on the timer, buzzerand drive motor.
• Buzzer.
• Motor centrifugal switch sticking inrun position.
Buzzer stays on too long or goes offtoo quickly.(Auto Dry Models)
• Length of time the buzzer stays on isdependent upon the time it takes themotor to slow down, allowing themotor switch to reset. The normaltime increment is between 2 and 3seconds.
Buzzer will not buzz during Press CareSetting.
• With dial set on auto dry permanentpress and the press care "on" buttondepressed, the buzzer will sound atthe end of the normal 14 minute cooldown. After this, the dryer will continue to tumble clothes in cool air for24 minutes. If buzzer does not sound,proceed on.
• Buzzer signal on.
• Miswired press care switch or timer.
• Buzzer.
• Timer.
Buzzer will not periodically buzz duringpermanent press cool down.
• Timer.
CAUTION ---------------~---------,
Always disconnect power supply before making any continuity checks or resistance readings.
ED/GD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-6
MICROPROCESSOR BOARDCONTROL MODELS
The microprocessor board receivesinput information from the various components involved with the operation ofthe dryer; such as the dryness sensorand the thermistor. It uses this information to determine the necessarycontrol for the completion of the cycle.
One of the ways it accomplishes this isthrough the use of control relays. Acontrol relay (S.P.S.T.) is placed in themotor circuit for both the gas and electric dryer. Another relay (S.P.S.T.) isplaced in the heat circuit for the electricdryer only. With these relays themicroprocessor board is capable ofusing a low voltage circuit to control ahigh voltage circuit. We can call thesetwo circuits the control circuit and thecontrolled circuit. NOTE: The controlfor the gas dryer's gas valve circuit isdifferent and is covered later.
The control circuit for the drive motorconsists of the microprocessor boardand the Motor Relay's coil. The controlled circuit for the drive motor consists of the Motor Relay's switchcontacts, thermal fuse and cut-off drive,motor and door switch. The microprocessor board starts the drive motorby sending 24 VDC to the MotorRelay's coil. When energized, the coilcreates a magnetic field that closes the
CAUTION
switch contacts in the relay and provides a path for voltage to the motor.When the microprocessor board determines it needs to stop the motor, itremoves the 24 VDC to the relay's coil.The switch returns to its normally openposition and the path for voltage to themotor is opened.
The control circuit and controlled circuitfor the heating element on the electricdryer operate on the same principle asthe motor relay's circuits. When themicroprocessor board wants to energize the heating element it sends 24VDC to the coil in the Heater Relay anda path for voltage is completed throughthe switch contacts to the heatingelement. When the 24 VDC areremoved from the coil the switch contacts open and the path for voltage tothe heating element is opened.
TROUBLESHOOTING
When trying to determine what iscausing the problem (drive motor willnot run or heating element will notcome on), separate the two circuits toisolate the problem area. Start with thecontrol circuit (it has to function beforethe controlled circuit will work). Determine what is involved in this circuit andproceed to check the components. Ifthese components are found to be functioning correctly, focus on the controlled circuit. Determine what isinvolved and proceed in checking thecomponents.
Always disconnect power supply before making any continuity checks or resistance readings.
ED/GD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-7
CONTROL CIRCUIT
Drive motor will not run (gas and electric):
1. Disconnect the power supply.
CAUTION
Always disconnect power supplybefore making continuity orresistance checks.
2. Make continuity check or resistancecheck on Motor Relay's coil.
A. Remove wire connectors O-BKand W-BU on the Motor Relay.
B. Attach meter leads across terminals O-BK and W-BU. You shouldsee about 470 ohms of resistance ifchecking resistance.
C. No continuity, replace the relay.
CAUTION:Use extreme care when checkingvoltage.
3. Check for 24 VDC across the coil onthe Motor Relay. To check for thisvoltage the dryer has to be in aprogram.
A. Place meter leads across wireconnectors O-BK and W-8U on theMotor Relay (the relay has two sizesof terminals; the smaller terminalsfor DC and the larger terminals forAC).
\.
CAUTION
Note: You are checking DC voltage,set and use meter accordingly.
B. No voltage, suspect the microprocessor, transformer, edgeboardconnector AA or power supply.
CONTROLLED CIRCUIT
1. Check for continuity across theMotor Relay's switch contacts withthe coil energized.
A. Disconnect power supply.
B. Remove wire connectors R-BKand GY.
C. Attach the meter's leads acrossterminals R-BK and GY.
D. Connect power supply_
CAUTION SHOULD BE EXERCISEDWHENEVER WORKING AROUNDLIVE VOLTAGE.
E. No continuity across switch contacts with coil energized, replace therelay.
2. Another method of checking.
A. Disconnect the power supply.
B. Remove and connect wires R-BKand GY together (the wires connectors are insulated, a jumper willhave to be used).
_......,~
Always disconnect power supply before making any continuity checks orresistance readings.
ED/GD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-8
C. Connect power supply.
D. If motor runs, the switch in therelay has failed, replace relay.
3. Check drive motor. Refer to Electrical Test Equipment section fordrive motor test.
,- CAUTION ----------,I
Always disconnect power supplybefore making continuity orresistance checks.
4. Make continuity checks on thermalfuse and cut-off. No continuity,replace.
5. Make continuity check on doorswitch with door closed. No continuity, replace.
CONTROL CIRCUIT
No heat (electric dryer):
1. Check for continuity or resistanceacross the coil on the Heater Relay.
A. Disconnect power supply.
B. Place meter leads across YL andW-BU.
C. Should see about 310 ohms ifreading resistance. No continuity,replace relay.
\ CAUTION
CAUTION:Use extreme care when checkingvoltage.
2. Check 24 DC voltage to relay.
A. Place meter leads across wireconnectors YL and W-BU.
NOTE: Checking DC voltage, setand use meter accordingly.
B. Make voltage check. No voltage,suspect microprocessor board,transformer, edgeboard connectorAA or power supply.
CONTROLLED CIRCUIT
1. Check for continuity across switchcontacts in Heater Relay.
A. Disconnect power supply.
B. Remove wire connectors BK andBK from relay.
C. Place meter leads across terminals BK and BK on relay.
D. Connect power supply.
CAUTION SHOULD BE EXERCISEDWHEN WORKING AROUND LIVEVOLTAGE.
E. Make continuity check. No continuity, replace relay.
Always disconnect power supply before making any continuity checks orresistance readings.
EDIGD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-9
2. Another method for testing is tobypass the Heater Relay.
A. Disconnect power supply.
B. Remove wire connectors BK andBK (wire connectors are insulated,jumper wire will have to be used).
C. Connect power supply. Ifheating element is energized, relayhas failed, replace relay.
CAUTION
Always disconnect power supplybefore making continuity orresistance checks.
3. Check for continuity across 1600
Limit Thermostat (when cool). Noconti nUity, replace thermostat.
4. Check for continuity across Hi-LimitThermostat. No continuity, replacethermostat.
Note: When checking continuity orresistance always isolate what youwant to check.
5. Check for continuity or resistanceacross the Heater (heating element).Should see about 11 ohms (240 voltelement), about 8 ohms (208 voltelement) when checking resistance.No continuity, replace heatingelement.
6. Check continuity across centrifugal$witch on motor switch.
A. Remove wire connectors BU andBK from motor switch.
B. Attach meter leads across terminals SU and BK on switch.
C. Use small screwdriver to movecentrifugal lever on the drive motorto the "run" position.
D. Check for continuity across terminals BU and BK, no continuity,replace motor switch.
HEA T CIRCUIT FOR THE GAS DRYER
No heater control relay is placed inseries with the gas valve on the gasdryer. The control for this circuit isdone on the microprocessor boarditself. The L1 side of the power supplyis routed to the microprocessor boardthrough edgeboard connector SB (referto schematic). The microprocessorboard determines when the gas valveshould be energized and relays L1 backthrough edgeboard connector BB andcompletes the circuit for the gas valve.
Will not heat (gas dryer):
CAUTION -----------,
Always disconnect power supplybefore making continuity or resistance checks.
1. Check continuity across 1600 LimitThermostat (when cool). No continuity, replace.
CAUTION -----------------------.,
Always disconnect power supply before making any continuity checks orresistance readings.
ED/GD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2·10
2. Check continuity across Hi-LimitThermostat. No continuity, replace.
3. Check continuity across centrifugalswitch on motor switch.
A. Remove wire connectors BU andBK from motor switch.
B. Attach meter leads across BUand BK terminals on the switch.
C. Use small screwdriver to movethe centrifugal lever on the drivemotor to "run" position.
D. Check for continuity across BUand BK, no continuity, replacemotor switch.
4. Check gas valve. Refer to sectioncovering gas valve.
5. Check for the L1 side of the voltageto the gas valve. The L1 side is controlled by the microprocessor board.Wiring is completed throughedgeboard connector B (pin 3 andpin 1).
CAUTION:Use extreme care when checkingvoltage.
A. Dryer must be in a program thatis calling for heat.
B. Use voltmeter to check from terminal BK on 1600 Limit Thermostatto cabinet ground (be sure polarityis correct) with dryer calling forheat.
C. No voltage (120 VAC), suspectmicroprocessor, edgeboard con-
\ nector BB, transformer or powersupply.
DRYER (MICROPROCESSORBOARD CONTROL)
A microprocessor board provides thecontrol for this dryer. It accomplishesthis control with several components.The components involved are the transformer, thermistor, control relays,dryness sensor and lint filter switch.
To start the dryer the user selects thedesired program by pressing the indicated pad on the menu. There are 17of these pads from which the user canselect the programs and options for thedryer. Behind the pads are actuators(push rods) that activate switches onthe microprocessor board to initiate theprogram and options. NOTE: Anoption can be selected only after aprogram has been selected.
No test board is available to checkmicroprocessors. Therefore, all othercomponents in this section should bechecked first. If no problem is found,replace microprocessor.
TRANSFORMER
A step-down transformer, consisting ofa primary winding and three secondarywindings, is used to provide the necessary voltages to the microprocessorboard. The primary side of the transformer receives the voltage (120 voltsmeasure across L1 and Neutral). Thetransformer then steps this voltagedown through the secondary windingsinto the voltages needed to power the
CAUTION -------------------------,
Always disconnect power supply before making any continuity checks or resistance readings.
EDIGD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-11
microprocessor board and provide thevoltages that the microprocessor boarduses to control or operate the variousfunctions of the dryer. The output voltages on the secondary side are 20.7VAC, 22.6 VAC and 3.8 VAC (thiswinding has a center tap that provides1.9 VAC when measured from thecenter tap to either of the outsideleads).
VARISTOR
The varistor is a semiconductor device(solid state) connected across theprimary input terminals on the transformer. Its function is to protect themicroprocessor board against voltagesurges or spikes. The resistance of thevaristor decreases as the voltageacross it increases. If the voltageexceeds the "threshold" of the varistor,its resistance will decrease rapidly tothe point of providing a short circuitacross the primary terminals. This maytrip circuit breaker or open fuse ordestroy varistor. If varistor isdamaged, replace transformer.
TROUBLESHOOTING
Because the transformer provides thepower to the microprocessor board itshould be checked first if it appears themicroprocessor board or any of thecomponents in its circuitry is not func-
CAUTION
tioning properly. In checking or troubleshooting the transformer it isimportant to remember the transformeronly transforms or changes the voltageto different values. It does not rectifythe voltage to DC, that is done on themicroprocessor board., NOTE: Thereare two sizes of spade terminals usedon the transformer. The two largespade term!nals are used for theprimary winding and the smaller spadeterminals are used for the secondarywindings.
NO POWER
Primary Side:
1. Is dryer plugged into power supply?
2. Is voltage (120 VAC) present atprimary side?
CAUTION:Use extreme care when checkingvoltage.
3. Check for voltage (120 VAC).
A. Attach meter leads to wire connectors R-BK and W-BR.
B. Make voltage check, should see120 VAC (voltage value may vary), ifnot, check power supply.
4. Disconnect power.
5. Remove wire connectors R-BK andW-BR from primary side of transformer.
Always disconnect power supply before making any continuity checks orresistance readings.
ED/GD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-12
6. Check for continuity across theseterminals. No continuity, replacetransformer. If checking resistancethere should be about 42 ohmsacross primary leads.
Secondary Side:
CAUTION ----------,
Always disconnect power supplybefore making continuity or resistance checks.
1. Check for continuity on secondarywindings. NOTE: The resistancevalues of the secondary windingsare small and may not be detectableunless using a digital meter. Theseare approximate values: Y-BK toY-BK 2 ohms, W-OR to W-OR 1ohm and PK to PK 5 ohms.
2. Remove wire connectors Y-BK andY-BK from secondary winding.
3. Check for continuity across terminals on this secondary winding. Nocontinuity, replace transformer.
4. Remove wire connectors W-OR, BUand W-OR from secondary winding.
5. Check for continuity from BU to bothW-OR terminals. No continuity,replace transformer.
CAUTION
6. Remove wire connectors PK and PKfrom secondary winding.
7. Check for continuity across terminals on this secondary winding. Nocontinuity, replace transformer.
Voltage checks on the secondarywindings.
CAUTION:Use extreme care when checkingvoltage.
1. Attach meter leads across terminalsY-BK and Y-BK on secondarywinding. Should see 20.7 VAC, novoltage replace transformer ifprimary and power supply checkokay.
2. Disconnect power supply.
A. Remove wire connectors W-OR,BU and W-OR from secondarywinding.
B. Attach meter leads across terminals W-OR and W-OR on secondarywinding.
C. Connect power supply. Makevoltage check. Should see 3.8 VACacross W-OR and W-OR (1.9 VACfrom BU to either of the W-OR terminals), no voltage, replace transformer if primary and power supplycheck okay.
Always disconnect power supply before making any continuity checks orresistance readings.
ED/GD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-13
3. Attach meter leads across terminalsPK and PK. Make voltage check.Should see 22.6 VAC, no voltage,replace transformer if primary "andpower supply check okay.
Note: These voltages may varyslightly.
FAULT CODE
The microprocessor board has thecapability to detect certain problemsassociated with the operation of thedryer. When the microprocessor boarddetects one of these problems it displays a fault code in the dryer's displaywindow. The fault code is displayed asa letter F followed by a number thatcorresponds to the problem. Themicroprocessor board makes the dryerinoperative for all but one of the faultcodes. Fault code F-9 is the exception,it does not appear in the display(unless a certain procedure is followed)and does not make the dryer inoperative.
FAULT CODES
F-1
• Door circuit - board componentfailure.
• Dryer inoperative.
• Can appear anytime.
• Replace microprocessor board.
F-2
• Low temperature sensed (40° belowzero).
• Dryer inoperative.
• Can appear after the first 1 1/2minutes of a cycle calling for heat.
• Open in thermistor circuit.
• Room temperature (unlikely).
F-3
• High temperature sensed (above200°F.).
• Dryer inoperative.
• Can occur anytime a cycle is callingfor heat.
• Check venting.
• Short circuit in thermistor circuit.
CAUTION -------------------------,
Always disconnect power supply before making any continuity checks or resistance readings.
ED/GD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-14
F-4
• Motor transistor on board failure.
• Dryer inoperative.
• Can occur only on start up.
• Replace microprocessor board.
F-9
• Low voltage (below about 95 volts).
• Dryer will operate and fault code isnot displayed.
• Can occur anytime but will only showup and be cleared on request.
• To check for F-9, press OFF pad andwhile holding OFF pad, press thePAUSE/RESUME pad and hold for 2seconds. This sequence will show alldisplay segments and then display aF-9 if low voltage has occurred sincelast check.
• Check electrical circuit that dryer ison.
CLEARING THE FAULT
• Disconnect power supply.
• Correct problem.
• Restore power.
CAUTION ------------------------,
Always disconnect power supply before making any continuity checks or resistance readings.
ED/GD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-15
\.
ED/GD401 1090 SECTION 2. ELECTRICAL - MECHANICAL TROUBLESHOOTING 2-16
SECTION 3. SERVICE PROCEDURES
ACCESS TO CONTROL PANELCOMPONENTS
ALL MODELS
1. Remove inner screws.
2. Tip control panel assembly forward.
Note: When reinstalling, engagetabs on console in openings ofbackup plate.
ED/GD401 1090
CONTROL PANEL ASSEMBLYCOMPONENTS
TYPES OF CONTROLS
There are four basic types of controlsused to determine the operating time ofMaytag dryers; they are Timer, Automatic Control, Electronic Control andMicroprocessor.
Timer Control
These models utilize an electrical timerwhich the user sets to the number ofminutes recommended in the operatinginstructions or as experience indicatesnecessary.
The timer knob and dial are attached tothe timer shaft. At the other end of theshaft is a cam which controls both thedrying time and the cool-down.
With the timer set at 20 minutes asshown in the drawing the circuit is completed through the timer to the drivemotor and heater circuit.
SECTION 3. SERVICE PROCEDURES 3-1
HEATERMOTORPOWER
~~
/./
./ coo,GOWN
\COOL \
GOWN \
As the timer advances towards the offposition, the switch arm drops into stepone. This breaks the circuit to theheater. Since the circuit is still made tothe drive motor, the tumbler will continue to rotate and the air will continueto be pulled through the tumblercooling the load before the dryer shutsoff.
HEATERMOTORPOWER
LJ~
When an air fluff selection is made,only the circuit to the drive motor andtimer motor is made.
HEATERMOTOR LJPOWER
Auto Dry Models
The length of the cool-down perioddepetlds upon the cycle selection. Permanent Press has an extended cooldown to lower the temperature of thegarments so as to minimize wrinklingwhich would result from the warm garments coming to rest at the bottom ofthe tumbler.
ED/GD401 1090
The auto dry models operate on theprinciple that as long as the load beingdried is damp, and rapid evaporation istaking place, the temperature of thedryer and exhaust air will remain relatively low. It also follows that as theload gives up moisture and the rate ofevaporation slows down, less BTU's orheat is used in evaporation and thetemperature of the load and exhaust air
SECTION 3. SERVICE PROCEDURES 3-2
increases. With this in mind, let's lookat the circuitry.
With the timer set in this position, thecircuits are completed to the heatsource and drive motor.
POWER
Note: The switch controlling the timermotor is open.
TO HEAT
CYCLINGTHERMOSTAT
MOTORTO TIMER
WITH CYCLING THERMOSTATCALLING FOR HEAT
(NORMAL)
At the beginning of the cycle the load isdamp, the heat input is used up inevaporation of the moisture and thereis little increase in the air temperature.As the load becomes drier, less heat isused up in evaporation and the temperature of the load and exhaust air startsto rise. The exhaust air is beingpushed over the regulating thermostatand as the temperature of the exhaustair rises so does that of the thermostat.Once the thermostat reaches a temperature of approximately 1400 F the circuitis broken to the heat source and at thesame time is completed to the timermotor.
DRIVE MOTOR
HEAT SOURCE
TIMER MOTOR
l'TIMER
SET HERE
When the timer is set to a degree ofdryness, the circuit is completed to theheat source and the drive motor. Thedifference between this control and a,standard timer operated dryer is thefact that the timer motor is not initiallyin the circuit. To see how the controlworks, let's assume that the load to bedried is a normal load with the garments of somewhat uniform weight, theauto regular setting is selected and thedial set on the middle mark between"more dry" and "less dry".
As indicated in the timer schematicbelow, the maximum timer controlleddrying time on an auto-dry regularsetting is approximately 31 minutesplus a five"minute cool-down. Since weset the dial to the middle mark we haveset the timer at about the mid point orfor approximately 15 minutes of timeddry.
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3-3
POWER
CYCLING THERMOSTATHAS REACHED TEMPERATURE
(OPEN)
At this point the unheated air is coolingthe load and the timer motor isadvancing the timer towards the offposition.
In this example, after a total of approximately 13 minutes of heat off time thetimer will have advanced to the pointwhere Cam 2 closes the timer motorswitch which in turn advances the timerout of the heat portion of the cycle andinto the cool-down period.
Each time the thermostat cycles theheat period is shorter and the heat off(timer motor on) time is longer.
will take a relatively long period oftime. By the same token, the moisturecontent and the evaporation rate takingplace during the first heat off periodmakes it shorter than subsequent heatoff periods.
CYCLINGTHERMOSTAT
TO HEATMOTORTO TIMER
As the temperature of the tumbler, theitems being dried and the exhaust airdecrease, so does the temperature ofthe thermostat. When the thermostatcools to a temperature of approximately1250 F. the thermostat returns to itsnormal position breaking the circuit tothe timer motor and again completingthe circuit to the heating element or gasvalve.
A selection of the middle mark is agood starting point. Experience gainedfrom drying a few loads will enable theoperator to pick a point, either more orless dry, which is most pleasing. Oncethis point is determined, it can be usedfor most loads as the automatic control,based upon time and temperature, willautomatically adjust itself to the size ofload.
Note: The temperatures quoted are theoperating temperatures of the thermostat and not the temperature of theclothing or exhaust air. Because of itsmass, the thermostat will heat up andcool down slower than the air temperature.
Because of the moisture content andthe evaporation rate, the first temperatur'e rise and cycling of the thermostat
\.
If the operator is drying a poorly mixedload; bulky items such as cotton socksalong with lightweight flat items itwould be desirable to move the dial tothe "more dry" so that more time isavailable to condition the load or toallow the moisture to surface on thebUlky items. This is not necessary on amore uniform load of either bulky orlightweight items.
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3-4
TIMER
A timer is a motor driven package ofswitches that establishes a sequence ofoperation.
To Replace Timer:
1~\ Pry out cap.
2. Remove nut and dial.
3. See Access To Control Panel Components.
4. Remove timer screws.
ED/GD401 1090
TIMER MOTOR
1. See Access To Control Panel Components.
2. Remove two screws securing motorto timer.
Note: It may be necessary to removetimer.
SECTION 3. SERVICE PROCEDURES 3·5
TEMPERATURE SWITCH
A switch that allows selection of temperatures.
1. See Access To Control Panel Components.
2. Remove switch from back-up plateby removing two screws holdingswitch to back-up plate.
CONTROL PANEL
1. Remove timer dial.
2. See Access To Control Panel Components.
3. Remove end caps.
4. Insert a flat bladed screwdriverbetween the top portion of thecontrol panel and back-up plate andgently pry the two apart.
5. Disengage notches of control panelfrom slots in bottom of back-upplate.
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3-6
BUZZER
Many model dryers incorporate abuzzer which signals the end of thecycle on all dry selections. The buzzeris wired in parallel with the timer contacts for the drive motor.
1. See Access To Control Panel Components.
2. Remove buzzer by removing onescrew securing mounting bracket toback-up plate.
3. On some models note the shaft ofbuzzer and corresponding slot inpivot arm of slide lever.
ADJUSTABLE BUZZER ADJUSTABLE SLIDE LEVER
The lever on the end of cycle signal canbe adjusted by the customer. Thesignal control lever is raised toincrease and lowered to reduce oreliminate the buzzer tone.
1. Remove buzzer. One screw securesbuzzer to mounting bracket.
2. Remove slide lever with pivot arm.Note position of pivot arm, slidelever and retaining plate for futuremounting procedures. Two screwssecure mounting plate for lever.
PUSH-TO-START SWITCH
1. See Access To Control Panel Components.
,2. Remove two screws holding switch\ and bracket to back-up plate.
ED/GD401 1090
AUTO-DRY SWITCH
1. See Access To Control Panel Components.
2. Remove switch by taking out twoscrews holding switch to back-upplate.
PRESS CARE SWITCH
1. See Access To Control Panel Components.
2. Remove switch.
SECTION 3. SERVICE PROCEDURES 3-1
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3·8
ELECTRONIC CONTROL MODELS
As in the other control systems, thesole purpose of the electronic control isto shut the dryer off at the end of thedrying cycle. The electronic controlsystem reacts to moisture in the clothesto keep the dryer running until theclothes are dry.
For testing and electrical operation, seeSection 2.
CONTROL PANEL REMOVED
Electronic Control Models
The electronic control assembly, in conjunction with the sensor assembly, isused for determining when the clotheshave reached the selected drynesslevel. This assembly consists of threecomponents: edgeboard connectorassembly, relay and electronic controlboard (printed circuit board). Thesecomponents are located in the left handcorner of the control console.
ED/GD401 1090
To remove the electronic controlassembly components:
1. Disconnect the power supply.
2. Remove the two inside screws oncontrol panel and tilt panel forward.
3. To remove the electronic controlboard (printed circuit board).
A. Grasp the board on both sideswith thumb and fingers.
B. Pull straight back while twistingthe board back and forth in a sideways motion. Note which side of theboard is facing up.
4. To remove relay:
A. Disconnect the wires going tothe relay.
B. Remove the two screws securingthe relay to the bracket.
5. To remove the edgeboard connectorassembly:
A. Remove the two screws securingthe assembly to the back-up plate.
B. Disconnect the remaining wiresto remove assembly.
DRYNESS SWITCH
1. Gain access to control panel.
2. Remove switch.
SECTION 3. SERVICE PROCEDURES 3-9
MICROPROCESSOR BOARD CONTROL
The microprocessor board receives input information from the various componentsinvolved with the operation of the dryer; such as the dryness sensor and thethermistor. It uses this information to determine the necessary control for the completion of the cycle.
CONTROL PANEL REMOVED - Microprocessor Models
To remove microprocessor board:
1. Disconnect power supply.
2. Remove the two inside screws on control panel and tilt panel forward.
3. Disconnect the three edgeboard connectors from the microprocessor board.
4. Remove the eight nuts securing the microprocessor board to the mountingpanel.
To remove mounting panel assembly:
Remove the four nuts securing the mounting panel to the back-up plate.
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3-10
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3-11
To remove transformer:
1. Disconnect power supply_
2. Remove the two inside screws oncontrol panel and tilt panel forward.
3. Disconnect the wires going to thetransformer.
4. Remove the two screws securing thetransformer to the dryer top cover.
To remove motor relay:
1. Disconnect power supply.
2. Remove the two inside screws onthe control panel and tilt panelforward.
3. Disconnect the wires going to therelay.
4. Remove the two screws securing therelay to the dryer top cover.
To remove heater relay (ElectronicDryer Only):
1. Disconnect power supply.
2. Remove the two inside screws oncontrol panel and tilt panel forward.
3. Disconnect the wires going to therelay.
4. Remove the two screws securing therelay to the dryer top cover.
\.
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3-12
FRONT PANEL AND COMPONENTS
\
DOOR HINGES
~~ ~~~, FRONT PANEL
~ ~ SCREWS
INNERDOOR
GAS VALVEACCESS DOORGAS MODELS
ONLY
OUTERDOOR
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3-13
FRONT PANEL REMOVAL
1. Remove screws.
2. Lift up on front panel and swingbottom of panel away from dryer todisengage top of panel from dryertop.
JUFl'UPSWING OUT
3. Front panel may be set off to oneside or if necessary, the door switch
EO/GD401 1090
wires may be disconnected and thefront panel removed completelyfrom the unit.
DOOR SEAL
1. Open door.
2. Grasp one end and pull gasket fromdoor.
3. When installing the door gasket, thethicker end fits behind the tabs onthe door.
4. Install one end of the gasket at thebottom of the door and work thegasket behind each tab.
Note: It may be necessary to cut 1/2"from one end of the replacementgasket.
DOOR REMOVAL
1. Open door.
2. Support door and remove fourscrews (two from upper hinge andtwo from lower hinge) which holdthe door.
SECTION 3. SERVICE PROCEDURES 3-14
3. Remove door.
TO DISASSEMBLE DOOR
1. Remove door hinge screws fromdoor.
2. Remove two screws on edge of dooropposite hinges and two screwsfrom bottom of door.
3. Remove screw holding door handleand separate door halves.
FLUSH MOUNTED HANDLE
1. Remove cross head screw fromupper inside door panel securinghandle to door.
2. Pull handle out.
ED/GD401 1090
DOOR STRIKE
1. Remove cross head screw on rightedge of door panel.
2. Disengage clip and strike frompanel.
DOOR HINGES
1. Remove door from dryer.
2. Remove front panel because eachdoor hhlge is backed up by aretaining clip which will fall fromplace when the hinge is removed.
3. Remove two screws holding eachhinge to the front panel.
4. Remove two screws holding hingesto door panel.
DOOR SWITCH
1. Remove front panel.
2. Squeeze the expanded end of thelatch together and remove latch.
FRONT PANEL SEAL
To maintain the proper air flow patternand therefore the desired dryingresults, the seal which fits around thedoor opening in the inner front panelmust be in place and in good shape.
1. Remove front panel.
2. Remove old seal.
3. Install replacement seal by rollingseal over the front panel lip.
SECTION 3. SERVICE PROCEDURES 3-15
\.
FRONT PANEL
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3·16
TUMBLER AND RELATED COMPONENTS
TUMBLERREAR
OUTLET
~FRONT
BEARING
~~~ / ~ AND PAD
SENSOR
INTERIOR LIGHT(120V - 7 Watt)
The drum light is at the upper center ofthe tumbler opening. It is wired inseries with the door switch so that thelight comes on, illuminating the drum,only when the door is open.
L~GHT REPLACEMENT
1. Open door.
2. Unscrew bulb.
ED/GD401 1090
LIGHT RECEPTACLE
1. Remove screws from Front Paneland swing panel aside.
2. Remove wires.
3. Remove nut from left hand mountingtab.
4. Pull up on receptacle to disengagefrom tumbler front.
SECTION 3. SERVICE PROCEDURES 3-17
DRYNESS SENSOR
To remove the dryness sensor:
1. Disconnect power supply.
2. Remove the front panel.
3. Remove the wires going to thedryness sensor, W-BK and W-BK.
4. Remove the two screws securing thedryness sensor to the bulkhead.
To check the dryness sensor:
CAUTION -----------,
Always disconnect power supplybefore making continuity or resistance checks.
1. Disconnect power supply.
2. Remove both wires going to thesensor bars.
3. Check for continuity across thesensors. Attach meter across theterminal on each sensor. If youhave continuity, replace drynesssensor.
4. Check for circuit to ground fromeither sensor bar. Replace bothwire connectors on the spade terminals. Place one meter lead on thesensor bar inside the drum andplace the other meter lead oncabinet ground. If you have continuity, check to make sure the wireconnectors are not making contactwith the front bulkhead. The insulated wire connector goes on theterminal closest to the bulkhead.
ED/GD401 1090
TUMBLER FRONT
The tumbler front holds the front of thetumbler in the correct position and provides the bearing surfaces for thetumbler to ride on.
1. Remove front panel.
2. Remove four screws holdingtumbler front to cabinet.
3. Remove screw holding ground wireto cabinet.
4. Disconnect wires from retainer.
5. Pull tumbler front out and away fromtumbler.
Note: Two tabs on each side of thetumbler front fit into notches in the frontof the cabinet. These must be disengaged to remove tumbler front.
LINT FILTER SWITCH
The lint filter switch produces a "CheckFilter" warning in the dryer's display ifthe lint filter is not removed andreplaced after the dryer goes into cooldown at the end of a cycle or at the endof Air Fluff. Leaving the filter out willalso activate the warning. The switch isa reed switch mounted on the outletduct assembly and connected to themicroprocessor board throughedgeboard connector CC (refer to schematic). Its contacts are closed by amagnet that is staked to one side of thelint filter. The contacts close when thelint filter is inserted into place in theoutlet duct assembly. When the lintfilter is removed the contacts will open.
Note: The switch does not prevent thedryer from operating, its function is toproduce a warning to make operator
SECTION 3. SERVICE PROCEDURES 3-18
aware of the necessity for cleaning thelint filter.
To remove lint filter switch:
1. Disconnect power supply.
2. Remove the front panel.
3. Separate the plastic wire connectorby pUlling apart.
4. Remove the two screws that securethe switch to the outlet ductassembly.
To check the lint filter switch:
CAUTION ----------,
Always disconnect power supplybefore making continuity or resistance checks.
1. Separate plastic connector bypUlling apart.
2. Check for continuity. Attach meteracross wire BR and BR on switchside of plastic connector. Removeand replace lint filter to check foropening and closing of the switch'scontacts.
COMPLETE OUTLET DUCT
The outer half of the outlet duct is heldto the front of the tumbler front.
1> Remove front panel.
2. Remove four hex screws and onepozi-drive screw holding outer outletduct to tumbler front.
3. Remove front bulkhead.
ED/GD401 1090
4. Remove outlet duct.
TUMBLER FRONT BEARING AND PADS
At the bottom inside of the tumblerfront are two polyteflon bearings whichrest on cork pads. These bearingsprovide a surface for the front of thetumbler to ride on. If it is necessary toreplace a front bearing, remove thetumbler front, drill out old rivets andrivet new bearings on. In positioningthe bearing and pad, the projections onboth should face the tumbler. Thisallows the bearing to stick out beyondthe metal of the tumbler front.
·Bearing
Note: Two tabs on each side of thetumbler front fit into notches in the frontof the cabinet. These must be disengaged to remove tumbler.
TUMBLER FRONT SEAL
The seal fits around the back circumference of the tumbler front. It is a naturalfelt seal which is doubled over for selfadjusting tension. The surface whichcomes in contact with the revolvingtumbler, is coated with a layer of Teflonto provide a slick durable wear surface.
The seal is held in position by formedlocking tabs.
1. Remove tumbler front.
SECTION 3. SERVICE PROCEDURES 3-19
2. Remove the old seal by prying thelocking tabs out with a regularscrewdriver.
The Teflon coated side (which is thelighter of the two colors) goes againstthe tumbler. The seal is then looped ina "U" shape so the slot edge of thelighter colored side is to the tumblerfront. Rubber adhesive is used to holdthe seal overlap.
Bend tabs back over seal with a pair ofpliers.
TUMBLER ALSO RIDES AGAINSTLIGHT COLORED SIDE
TUMBLER AND BEL T
The tumbler is a round cylinder with nopermanently attached front or back.Tumbler speed is 47 RPM. It isdesigned so there is no front or back.Installation can be made without regardto which way it came out of a dryer.
To Remove Tumbler and Drive Belt:
1. Remove front panel.
2. Remove tumbler front.
3. Reach under tumbler and removedrive belt from motor and idlerpulleys.
THIS SID~AGAINSTTUMBLER BACK
I 4. Slip belt off tumbler.
5. Pull tumbler out of cabinet.
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3-20
INSTALLING DRIVE BELT
1. Install tumbler.
2. Place belt over the top of the dryertumbler with the smooth sideagainst the tumbler and position itabout 1 1/2" in front of the backscrews which hold the clotheslifters. In order to get the beltbetween the bottom of the tumblerand the blower, it will be necessaryto lift up on the tumbler.
3. The best position to take whileinstalling the belt is to sit on thefloor facing and as close to thedryer as possible. Place your leftarm along the left side of thetumbler and your right arm alongthe bottom of the tumbler (as closeto the blower as possible).
4\ With the right hand, loop the beltover the top of the motor pulleymaking certain the grooves of thebelt are against the pulley and thatthe belt is properly seated into thepulley.
ED/GD401 1090
5. With the left hand, loop the beltunder the motor pulley.
6. With the right hand, position the beltover the top of the idler pulley andbegin to work it around the circumference of the idler pulley whilepushing the pulley up and to the left.
Note: It is neither necessary noradvantageous to push extremelyhard on the pulley. This tends toput the idler pUlley and motor pUlleyin a bind and also puts a strain onthe installer so he cannot work efficiently with his hands to completethe belt installation.
7. Once tl'1e belt is almost around theentire circumference of the idlerpulley, use the left hand to push thebelt over"the bottom of the idlerpulley while at the same timemaking certain that the belt isbetween the idler pulley and the beltgUide.
SECTION 3. SERVICE PROCEDURES 3-21
8. With the belt completely installed,feel with both hands to see that it isproperly positioned in the motorpulley and in the approximatemiddle of the idler pulley. Whenyou have determined by feeling thatit is installed correctly, lift up andpush back while slowly turning thetumbler one or two revolutions in aclockwise direction to allow the beltto properly align itself.
CLOTHES LIFTER
There are three tumbler clothes liftersused to aid in tumbling the clothes.Two of the lifters are 1" higher than theother. Location makes no difference.
1. Remove front panel.
2. R~move two screws holding eachlifter to the tumbler.
ED/GD401 1090
For ease in replacing a clothes lifteryou will find a locating tab on theunderside of the lifter. Pilot holes arealso found in the tumbler. When theclothes lifter is installed, the tab isinserted into the slot in the tumbler.This correctly aligns the screw holes inthe lifter with those in the tumbler.
ROLLER AND BEARING ASSEMBL Y
The tumbler roller consists of a rubbertire bonded to a plastic hub.
There are two roller and bearingassemblies attached to the tumblerrear. Normally the rollers will runslightly behind the drum radius. If therollers are riding up on the tumblerradius, check for bent rear rollerbrackets. If a bracket is bent, replacetumbler rear.
1. Remove front panel.
2. Remove tumbler front.
3. Remove tumbler.
4. Remove retaining ring from groovein shaft.
5. Remove fiber washer.
6. Remove roller.
7. To remove roller shaft remove nuton back.
Note: There is a spacer washer behindthe roller. When replacing parts becertain the order of the replacement iscorrect.
SECTION 3. SERVICE PROCEDURES 3·22
00
Lubricate with MAYTAG 55975 S.B.L.
TUMBLER REAR FEL T SEAL
The seal fits around the front circumference of the tumbler rear. It is a naturalfelt seal which is doubled over for selfadjusting tension. The surface whichcomes in contact with revolving tumbleris coated with a layer of Teflon toprovide a slick durable wear surface.
1. The felt seal for the rear tumbler canbe replaced from the front of thedryer. However, for ease in servicing, we recommend removal ofthe tumbler rear from the dryer.
2. Remove the old seal by prying thelocking tabs out with a regularscrew driver.
3. The Teflon coated side (which is thelight of the two colors) goes againstthe tumbler. The seal is then loopedin a "U" shape so the slot edge ofthe light colored side is cemented tothe tumbler back. Rubber adhesiveis used to hold the seal overlap.
4. Install new seal and bend tabs backover seal with a pair of pliers.
\.
ED/GD401 1090
TUMBLER ALSO RIDES AGAINSTLIGHT COLORED SIDE
ITHIS SIDE AGAINSTTUMBLER BACK
TUMBLER REAR
The tumbler rear is secured to the backpanel by four screws. It is finished withan epoxy powder coat which is a verysmooth surface, resistant to scratchesand abrasion.
The tumbler rear acts as a support fortwo roller assemblies which support thetumbler and weight of the load.
Removal:
1. Remove front panel.
2. Remove tumbler front.
3. Remove tumbler and belt.
4. Remove heat cone.
5. From back of dryer, remove fourscrews holding tumbler backassembly and remove assembly.
SECTION 3. SERVICE PROCEDURES 3-23
THERMOSTATS
THERMOSTATS
There are three different kinds of thermostats in these dryers.
1. Bi-Metal type~
2. Resistance type (Multi-temperature).
3. Thermal Fuse type.
All react essentially to temperature withdirect effect on heat on or heat off functions of a dryer.
To remove those located on blowercover:
1. Remove 2 screws from Front Paneland swing panel out.
2. Remove wires from thermostat.
3. Remove screws securing thermostatto cover.
1600 THERMOSTAT - MicroprocessorModels
Bi-Metal Type
The 160° thermostat functions as a backup to the thermistor. It is mounted onthe blower cover. The thermistor, inconjunction with the microprocessorboar~ and heater relay, is used tocontrol the cycling of the temperaturebetween 135°F and 155°F. The 160°thermostat is placed in series with thegas valve I heating element and willopen the heat circuit in the event thethermistor fails to open the circuit attemperatures above 155°F.
ED/GD401 1090
To remove the 1600 thermostat:
1. Disconnect power supply.
2. Remove front panel.
3. Remove the thermostat covermounted to the base (electric dryeronly).
4. Disconnect wires from the thermostat.
5. Remove the two screws securing thethermostat to the blower cover.
To check the 1600 thermostat:
CAUTION ----------,
Always disconnect power supplybefore making continuity or resistance checks.
Check for continuity across thermostatat room temperature. Attach meteracross terminals BK and PU. No continuity, replace.
THERMISTOR - Microprocessor Models
Resistance Type
The thermistor is a semiconductordevice (solid state) that has a negativetemperature coefficient of resistance;its resistance decreases as its temperature increases and vice versa. Thethermistor functions as the "sensingcontrol" for the dryer's heat circuit. No..cycling thermostat is used. It ismounted on the blower cover and is
SECTION 3. SERVICE PROCEDURES 3-24
connected to the microprocessor boardthrough edgeboard connector CC (referto schematic). Mounted on the blowercover puts the thermistor in the air flowof the air being exhausted from thedrum. The increasing or decreasingtemperature of the exhausted airchanges the resistance of thethermistor. The microprocessor boarduses this input information to controlthe heat circuit. On the electric dryerthe microprocessor board controls the24 DC voltage to the heater relay, onthe gas dryer it controls the L1 side ofthe power supply through edgeboardconnector BB (refer to schematic).
To remove thermistor:
1. Disconnect power supply.
2. Remove front panel.
3" Remove the thermostat covermounted to the base (electric dryeronly).
4. Remove the two wires, PK-BK andPK-BK, from the thermistor.
5. Remove the two screws that attachthe thermistor to the blower cover.
ED/GD401 1090
Check the thermistor:
1. Remove the two wires on thethermistor, PK-BK and PK-BK.
2. Place ohm meter across these wiresand check resistance of thethermistor. At room temperature,77°F, you should read about 10,000ohms. At 140°F you should readabout 1750 ohms.
Note: Do not check with line voltage(120 VAC), the thermistor is part of thelow voltage circuitry.
THERMAL FUSES
The function of the thermal fuse andthermal cut-off is to stop the dryer inthe event an over heating conditionshould occur. The electric dryer has athermal fuse mounted on the right sideof the heat cone and a thermal cut-offmounted on the blower cover. The gasdryer has a thermal cut-off mounted onthe blower cover. Both are referred toas "thermal fuse" on the electricalschematic. The thermal fuse and cut-offare placed in series with the drivemotor. If one of these should open, thedrive motor will stop and the circuitthrough the centrifugal switch for thegas valve / heating element will alsoopen, breaking the heat circuit. Thethermal fuse and thermal cut-off are notinterchangeable or resettable and mustbe replaced after the over heatingproblem is corrected.
Note: If one of these thermal devicesopens, it indicates something hascaused an unusual amount of heat tobuild up around the device. If thishappens, depending on the model,REPLACE the hi-limit thermostat andcycling thermostat or the hi-limit ther-
SECTION 3. SERVICE PROCEDURES 3-25
mostat and the 160° thermostat andthermistor/microprocessor board combination along with the thermal devicethat failed.
To remove thermal fuse or cut-off:
1. Disconnect power supply.
2. Remove front panel.
3. Remove thermostat cover mountedto the base (electric dryer only).
4. Disconnect the wires from thethermal cut-off.
5. Remove the two screws attachingthe thermal cut-off to the blowercover.
6. For the fuse mounted on the heatcone (electric dryer only).
A. Remove the screw that securesthe fuse bracket to the heat cone.
B. Remove wires and the twoscrews that attach the fuse to thebracket.
To check the thermal fuse or thermalcut-off:
CAUTION ---------.,
Always disconnect power supplybefore making continuity or resistance checks.
1. Disconnect power supply.
ED/GD401 1090
2. Remove front panel.·
3. Remove wires from the thermal fuseor thermal cut-off.
4. Check for continuity. Attach meteracross the terminals of the fuse orcut-off. No continuity, replace fuse.
MUL T1-TEMPERA TURE
Resistance Type
These thermostats have 3 temperatureoptions depending on resistors in thecircuit. For example, no resistor(internally in thermostat or at selectorswitch); cycling temperature will be150°, Full voltage (through internalresistor in thermostat); cycling temperature will be 140°.
If a series circuit is selected usingresistor in thermostat and resistor atselector switch, cycling temperature willbe 145°.
To replace thermostat:
1. Disconnect power supply.
2. Remove front panel.
3. Remove thermostat cover mountedto the base (electric dryer only).
4. Disconnect wires.
5. Remove two screws attachingthermosat to blower cover.
SECTION 3. SERVICE PROCEDURES 3-26
BLOWER
RETAININGRING
COVER FORBLOWER
SEAL FOR BLOWER
The felt seal for the blower is securedto the lip of the cover for the blower. Ifa seal is replaced, clean surface anduse Maytag Part No. 55978 rubberadhesive to hold seal.
COVER FOR BLOWER
1. Remove front panel.
2. Remove tumbler front.
3. Remove six screws holding cover toblower housing.
4. Remove screw holding cover to\ base.
5. It is not necessary to remove wiresfrom thermostats to gain access toblower. Simply lay blower coverforward.
ED/GD401 1090
BLOWERHOUSING
BLOWER IMPELLER
The blower impeller is attached directlyto the motor shaft and behind theblower cover.
1. Remove blower cover.
2. Remove clip retaining ring.
3. Compress and remove clamparound hub of impeller.
4. Work impeller back and forth whilepulling off shaft.
BLOWER HOUSING
1. Remove blower impeller.
2. Remove clip retaining ring locatedbehind blower impeller.
3. Remove four screws holding blowerhousing to motor mounting bracket.
SECTION 3. SERVICE PROCEDURES 3-27
4. Remove blower housing.
5. When replacing blower housing becertain the clip retaining ring isproperly replaced into the groove inthe motor shaft.
EXHAUST DUCT PIPE
One end of the exhaust duct pipe isheld to the back of the cabinet by onescrew. It fits over the blower housingon the opposite end.
the heat source when motor reachesspeed.
The external motor switch is secured tothe motor with two screws.
1. Remove front panel.
2. Remove tumbler front.
3. Remove tumbler.
4. Remove two screws holding switchto drive motor.
MOTOR PULLEY
DRIVE MOTOR AND IDLERASSEMBLY
Shown is the 2-groove, 60 Hz, 47 rpmpulley. This identifies the pulley for 60Hz. operation. 50 Hz. has 3 grooves.
A switching device in a motor used tochange the path of electricity from bothstart and run windings to run windingonly. It also completes the circuit to
1. Remove front panel.
2. Remove tumbler front.
3. Remove tumbler.
4. Place hexhead wrench in set screw.
5. Using a hammer or rubber mallet,stri ke the end of the hexheadwrench, as shown.
NOTE GROOVES
IDLERPULLEY
MOTORPULLEY &
SETSCREW
SPACER
IDLER ARM& SHAFT
IMOTORBASE
MOTORCLIPS
<~MOTOR -J - ~ / ~SWITCH /~
. '.DRIVE
MOTOR
MOTOR SWITCH
GROUNDWIRE ~---_I
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3·28
MOTORSUPPORT
MOTOR PULLEY ADJUSTMENT
Positioning of the pUlley on the motorshaft is important for proper alignmentwith the idler assembly. The distancefrom the back of the motor pulley to theface of the motor support must be 3/8".A metal gage (Maytag Part No. 38623)is available which can be used to properly position the pulley.
To use the gage, simply place thethicker part against the motor supportand the thinner end between the pulleyand the mounting ring. With the proper3/8" dimension established, tighten thepulley set screw.
ED/GD401 1090
When replacing the motor pulley makesure the set screw aligns with the flatside of the motor shaft. Tighten setscrew securely.
DRIVE MOTOR AND BASE
1. Remove front panel.
2. Remove tumbler front.
3. Remove tumbler.
4. Remove two screws securing motorbase to base frame.
5. Remove wires from motor andunhook idler spring.
6. Slide motor base tab from baseframe.
7. Remove motor and blower assemblyfrom cabinet.
8. Remove blower component frommotor..
Note: When installing motor, besure to slide motor base tab intoslot in base frame.
SECTION 3. SERVICE PROCEDURES 3-29
9. Using pliers or screwdriver, roll theclips off of the motor mounts.
10. Remove motor from motor base.
IDLER ASSEMBL Y
1. Remove front panel.
2. Remove tumbler front.
3. Remove tumbler.
4. Remove spring and screw holdingassembly.
Note: When replacing the idlerassembly apply a light coating of 56016Maytag center seal grease to the motorsupport where it is contacted by thespacer for the idler.
ED/GD401 1090
IDLER PULLEY
1. Pry clip from groove in shaft with asmall screwdriver.
2. A fiber washer is located on bothsides of the pulley. Be certain theseare replaced when you reassemblethese parts.
SECTION 3. SERVICE PROCEDURES 3-30
HEATING ELEMENT AND RELATED COMPONENTS ~- ELECTRICMODELS
JumperWII'lI
H.atar
CoM~
-~I'I
\ HIgh LImIt~.} Thermoetat
UpperCoRa
HEAT CONE
1. Remove front panel.
'2. Remove screws holding heater cone\,
shield to base. Remove shield fromdryer.
3. Remove screw in front of coneholding cone to base and remove
ED/GD401 1090
screw in back of cone holding conetab to inlet air duct.
4. Remove wires to terminal posts.
5. Pull cone out of dryer.
SECTION 3. SERVICE PROCEDURES 3-31
HEA TfNG ELEMENT
The heating element is coiled andstrung through insulators in the heatcone. The standard dryer is equippedwith a heating element designed todraw approximately 5300 watts whenoperated on 240 volts.
1. Remove heat cone.
2. Remove four screws holding conehalves together and lay halves sideby-side.
3. Remove nuts from insulatorsholding ends of element.
4. Using pliers, squeeze and straighteninsulator clips and push clips out ofheat cone halves. Thread insulatorsoff of original element.
\"-
ED/GD401 1090
STRAIGHTENTAB AND PULLTHROUGH
5. Inspect insulators, replace any thatare damaged.
6. Drop insulators over new element.
7. Place looped ends of new elementover terminal studs and replacenuts. (Don't overtighten, you maycrack insulator.)
8. Reinsert insulator clips and secureby twisting tabs with pliers. Maintain slight tension on the element asclips are reinstalled. (See Photo.)
9. Be very careful when installing newelement so the element is notstretched. If you come up short orlong on element at the end, go backand readjust the element from thebeginning. Do not stretch the lastpart of the element to fit. Check forcracked insulators. Any that aredamaged should be replaced.
10. Be sure element does not touchinsulators. Also, make sure theelectrical connections are tight.
SECTION 3. SERVICE PROCEDURES 3-32
HI-LIMIT THERMOSTAT
The hi-limit thermostat in an electricdryer is located on the heat cone. It ismany times referred to as the safetythermostat. This thermostat is locatedclose to the heating element and in theevent of an overheating condition, willcycle the heat off qUickly. If a dryer isfound to be cycling on the hi-limit,check for an air flow restriction.
To replace:
1. Remove front panel.
2. Loosen back screw.
3. Remove front screw.
4. Remove wires and slide thermostatout.
ED/GD401 1090
INLET DUCT
To replace the inlet duct, it will be necessary to remove tumbler rear. Theinlet duct is secured to the tumbler rearby three screws, one at the top and twoat the bottom under the felt seal.
SECTION 3. SERVICE PROCEDURES 3·33
GAS VALVE AND RELATED COMPONENTS
The gas controls utilize a direct ignitionsystem (there is no pilot light). Thethree major components of the gas are:Igniter, Radiant Sensor and Gas Valve.
1. IGNITER -- When the controls callfor heat, line voltage is applied tothe igniter. This causes the igniterto heat up becoming cherry red. Itcan reach a temperature of approximately 2200° F in about 30 seconds.
ED/GD401 1090
Gas contacting igniter at this temperature will ignite immediately.
2. RADIANT SENSOR -- The radiantsensor operates much like a regularthermostat. It is mounted to theside of the combustion cone over anopening which exposes the sensorto the igniter and burner flame.
In its normal condition, the contactsin the radiant sensor are closed andthe circuit is completed to the
SECTION 3. SERVICE PROCEDURES 3-34
HOLDINGCOIL
The complete system functions asfollows:
IGNITER
BK
I' :\ RADIANT" .) SENSOR
BK
BK
RCOIL R
VALVE 1 VALVE 2
~HOLDING r--...;:B:;.:.K~... ..,
COIL~r······
R·
R
TOMOTOR
The sensor, igniter and gas valveare all interrelated and function asan ignition and heat source.
At the start of the cycle, the sensor contacts are closed, the igniter is at roomtemperature and the gas valve isclosed blocking the flow of gas.
igniter. As the igniter heats up, theheat radiated by the igniter causesthe radiant sensor contacts to openbreaking the circuit to the igniter.
3. GAS VALVE -- The gas valve isactually two gas valves, one inseries with the other. This is asafety feature providing added protection against gas released in theevent of a failure of one of thevalves to seat properly.
The first valve is opened byasolenoid which has two separatecoils built into one solenoid. Thissolenoid uses what is termed a splitcoil. The coils are referred to as theholding coil and the booster coil.
BOOSTERCOIL
Both coils are needed to lift thearmature and open the valve. Theholding coil is strong enough to
\
, keep the valve open once the arma-ture has been lifted.
The second of the two valves isoperated by the traditional one coilsolenoid. This is called a secondarycoil.
SECONDARYCOIL
First, note on the wiring diagram thatthe radiant sensor contacts are wiredacross the secondary coil. This effectively bypasses current around the secondary coil when the radiant sensor
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3-35
contacts are closed. Valve 2 cannotopen with the radiant sensor contactsclosed.
The booster coil and the igniter arealso wired in parallel. Note that whilethese two components are in parallelwith each other, they are wired inseries with the radiant sensor and secondary coil combination. When theradiant sensor contacts are closed, fullline voltage is available to the boostercoil and to the igniter. When theradiant sensor contacts open currenthas to flow through the secondary coilon Valve 2 in order to get to thebooster coil and to the igniter. A significant voltage drop develops across thesecondary coil. While the parallelbooster coil and igniter are still in thecircuit, they become ineffective due tothe greatly reduced voltage available tothem.
Operation: Dryer controls calling forheat.
PHASE I
Power reaches the valve assembly bymeans of the Molex wiring connector.The black valve harness wire isnormally the "hot" side of the line andthe red is normally the neutral side ofthe line and is completed through themotor centrifugal switch.
\Radiant sensor contacts clo~ed.
The holding coil, booster coil andigniter all receive line voltage. Theholding coil and booster coil develop
ED/GD401 1090
the necessary magnetic pull to openValve 1. The igniter, operating at linevoltage, begins to get very hot. Theheat radiated by the igniter affects theelement of the radiant sensor.
IGNITER
Because the secondary coil on Valve 2is bypassed by the radiant sensor contacts, Valve 2 remains closed and prevents the release of gas.
PHASE /I
The igniter is now hot and Valve NO.1is open. With the igniter hot, two thingsoccur:
1. As the igniter is heated, its resistance decreases.
2. The heat from the igniter causes theradiant sensor switch to open.
SECTION 3. SERVICE PROCEDURES 3-36
PHASE 11/
Valve 1 is being held open by theholding coil and with the radiant sensorcontacts open because of the intenseheat from the igniter, the current pathsin the circuit change.
1. With the sensor contacts open, thesecondary coil is no longerbypassed. It is now in series withthe parallel combination of thebooster coil and the igniter.
120VOLTS
SECONDARY} 116COIL VOLTS
BOOSTER ,--..........--, IGNITER} 4COIL 10-40 VOLTS
700 OHMS ~-r---' OHMS
IGNITER
,8K ~HOLDING ~-r---=8;;,;;,;K;"'---4~__'"
8~~1] lli I)8~~~1_ t -w-- W
M~~OR t t ~ !;::":::'!"!l. 800S+TE-R -;1t_~ ..:::- COIL _ -R+
VALVE 1 VALVE 2
Because of the very low resistanceof the hot igniter, most of the linevoltage is dropped across the secondary coil. Only a small percentage is dropped across thebooster coil and igniter.
ED/GD401 1090
2. The secondary coil now opens Valve2 releasing gas across the stillextremely hot igniter. The burnerflame is ignited.
While the igniter will cool, the tip ispositioned in the burner flame whichkeeps it hot and the resistance low.
The ignition cycle is now completedand the drying cycle begins.
The gas valve as shipped with the dryeror for repair is set for use with naturalgas, Because of differences in operating pressure and heat content ofother gases, the valve must be converted to use fuels other than naturalgas.
Conversion kits are available to convertfrom natural to L.P.G. and back fromL.P.G. to natural. Check parts catalogfor correct part number.
SECTION 3. SERVICE PROCEDURES 3-37
GAS CHART
GAS TYPE NATURAL LPG
BTU PER CU. FT. 1075 2500
PRESSURE INCHES 3.5 11
SPECIFIC GRAVITY 0.65 1.53
DRILL SIZE 42 54
COIL REPLACEMENT
To replace the coils on this valve, unplug the dryer from the wall receptacle. Fromthe front through the gas valve access door, unplug the wire harness from the gasvalve coils. Notice the holding and booster coils are now molded together and athree-prong connector is used to conoect them. The secondary coil uses a twoprong connector. Once the coils have been unplugged, remove the two screws thatsecure the coil holding bracket. Remove the bracket and lift the coils off. Replacecoils, bracket and wire harness.
Note: The coil positioning tabs and matching holes in the coil holding bracket foreach coil.
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3-38
IGNITER
The igniter is used to ignite the gas asit comes from the gas valve. It islocated on the left side of the burner(as viewed from the front of the dryer).The igniter is very fragile and must behandled carefully. Should you find anigniter which has shattered, replaceigniter. Operate dryer and see if igniterstays on. If igniter stays on longer than40 seconds, replace radiant sensor.
1. Remove front panel.
2. Unplug igniter from gas valve (plugtype connector).
3. Remove screw and washer holdingigniter to burner.
'RADIANT SENSOR\""
The radiant sensor acts much like athermostat.
1. Remove front panel.
2. Remove wires from sensor.
ED/GD401 1090
3. Remove screw holding sensor toheat cone.
4. Pull tab on sensor bracket from slotin heat cone.
HI-LIMIT THERMOSTAT
The hi-limit thermostat is many timesreferred to as the safety thermostat.This thermostat is located close to theheat source.
If a dryer is cycling on the hi-limit thermostat, check for restrictions in the airflow pattern.
1. Remove front panel.
2. Loosen back screw.
3. Remove front screw.
4. Remove wires and slide thermostatout.
GAS VALVE REMOVAL
1. Remove front panel.
2. Shut off gas supply and disconnectsupply line to valve.
3. Remove two screws holding valveand burner assembly to base.
4. Disconnect wire harness' at valvecoils.
5. Disconnect wires from radiantsensor molex.
6. Slide valve bracket out of slot inbase and remove valve and burnerassembly.
7. Remove two screws holding valvebracket and burner to underside ofgas valve.
SECTION 3. SERVICE PROCEDURES 3-39
ORIFICE
The orifice can be removed with a 3/8"wrench.
ED/GD401 1090
HEAT CONE
1. Remove front panel.
2. Remove gas valve.
3. Remove screw in front of coneholding cone to base.
4. Remove one screw at back of coneholding cone tab to inlet air duct.
5. Pull cone out of dryer.
INLET DUCT
This duct serves to channel heated airinto dryer tumbler.
1. Remove front panel.
2. Rernove tumbler front, tumbler andbelt.
3. Remove screws securing heat coneto base and to inlet duct.
4. Remove tumbler back. Note fourscrews are accessible from behinddryer.
5. Remove screws securing inlet duct.
SECTION 3. SERVICE PROCEDURES 3·40
CABINET AND TOP COVER
CONSOLE
1. Remove control panel assembly.
2. Remove eight screws, two on eachside and four across the front,holding console to top cover.
TOP COVER
1. Remove front panel.
~2. Remove two screws (one in each
front corner) which hold top cover tocabinet.
3. Remove main wire harness wiringfrom components on control panel.
FRONT CABeNETPANEL
I4. Remove control panel assembly.
I
5. Pull main wire harness throughI
I opening in top cover.
6. Remove console.
7. Push top cover back to disengagefrom cabinet and remove top cover.
CABINET REMOVAL
1. Remove front panel.
2. Remove top cover assembly.
3. Remove tumbler.
4. Remove tumbler rear.
5. Remove six screws (three on eachside) holding cabinet to base frame.Remove screws at front corners andacross back. Remove cabinet.
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3-41
ED/GD401 1090 SECTION 3. SERVICE PROCEDURES 3-42
SECTION 4. PRE-INSTALLATION CONSIDERATIONS
LOCATING DRYER
Dryer should be located as close to the washer as possible, considering availabilityof gas, electricity and location that makes exhausting practical.
For proper operation, it is important to make sure the room where dryer is locatedhas adequate make-up air. This is especially important in any areas such asbedroom, bathroom or closet.
On gas dryers, adequate clearance must be maintained to insure adequate air forcombustion and proper operation of the dryer. The area where the dryer is locatedmust not obstruct the flow of combustion or ventilating air. When locating a Maytagdryer, the following dimensions should be taken into consideration.
When installing the dryer the following minimum clearances to combustibles shallapply: clearance to wall: sides - 0 inches, top - 0 inches with outside exhaust, rear- 0 inches with outside exhaust, 6 inches with inside exhaust.
Dimensions
1
34em --lScm
72.3 emIf-'--- 28'1,'
, ~] . •. . . -. . , .. . , .......CORDI. I .•.
~_.~. -CORDING TO ADJU$'f'M[NT ===-OF LEY[UNG UGS ::::=::=.f:=D\~$ ~L 3'.4'
• 9.5 em •
'.J ~ 2",~ 137/16"213/16"
7.1 em31,
9.Sem
27'-j I
72.3 em58.Bem 28'1,' I
\\I I
~1 Y2- I a,..··'....~ 3.8em IlOCk
, . •. . ... ~~43%' I110.8 em I E
Ir"u .~
"",,: . . . ..C;; ,
1 ,U _._-- I: 1~~em
CORDING TO ADJUSTMENT ====Of L[VW.. LEGS I -$ ;::::::::;\L _ ====
3'.4'~ 0 0 • 9.5 em •
..J l- I •
ELECTRIC GAS
Plus space between cabinet and floor.
ED/GD401 1090 SECTION 4. PRE-INSTALLATION CONSIDERATIONS 4-1
EXHAUSTING
DO NOT EXHAUST DRYER INTO ANYWALL, CEILING, CRAWL SPACE OR ACONCEALED SPACE OF A BUILDING,VENT CONNECTION, GAS VENT ORCHIMNEY. THIS COULD CREATE AFIRE HAZARD FROM LINT EXPELLEDBY THE DRYER. FOR THE SAMEREASON, WE RECOMMEND ONLYMETAL EXHAUST DUCT TO MINIMIZERESTRICTED AIR FLOW AND RELIABLY INSURE THE CONTAINMENT OFEXHAUST AIR, HEAT AND LINT.NEVER INSTALL A SCREEN OVEREXHAUST OUTLET. NEVER USEPLASTIC OR OTHER COMBUSTIBLEDUCTWORK. FREQUENTLY CHECKAND CLEAN VENT HOOD TO ASSUREPROPER OPERATION.
A clothes dryer produces combustiblelint and the area around the clothesdryer should be kept free of lint. It isrecommended that the dryer beexhausted to the outside using 4" rigidor flexible metal ducting.
When located in a bedroom, bathroomor closet, the dryer must be exhaustedto the outside of the dwelling.
Once location of the exhaust outlet isdetermined, a 4 1/4" hole should be cutin the wall to accept the exhaust hood.To permit sufficient air circulationunder the exhaust hood, there shouldbe no less than a 12" clearancebetween the bottom of the exhausthood'and the ground. When possible,the exhaust hood should not exhaust
ED/GD401 1090
directly into a window well. DO NOTTERMINATE EXHAUST UNDER AHOUSE OR PORCH.
Note: Where the exhaust hood is to beinstalled through masonry, a specialmasonry saw is necessary to cut thehole.
Install the exhaust hood and securewith screws to the outside wall and sealwith caulking compound.
The exhaust hood may also be installedthrough a window by installing awindow plate. Window plates are available. Install as shown.
Install ductwork from the dryer toexhaust hood. All joints must be madeso exhaust end of one pipe is inside theintake end of next pipe. On flexiblemetal ductwork, all joints should besecured with a clamp. DO NOT usesheet metal screws when assemblingrigid ducting. These should be taped.
SECTION 4. PRE-INSTALLATION CONSIDERATIONS 4-2
FLEXIBLE DUCTWORK L1MITA TlONS
Flexible metal ductwork should notexceed 34' of straight 4" ducting. Theexhaust hood is equivalent to 8' of ductand each 90 degree bend is equivalentto 8'. As an example, if an exhausthood is used and two 90 degree bends,the maximum straight run would be 10'.
Note: If the radius of a bend with 4"duct is 12" or greater, the bend can beconsidered a straight run. No morethan three 90 degree bends should beused in any run with an exhaust hood.
RIGID DUCTWORK LIMITATIONS
Rigid metal ductwork should notexceed 50' of straiglit 4" duct. Each 90degree elbow and the exhaust hoodshould be considered equivalent to 8''a{ straight ductwork. For example, if anexhaust hood and two 90 degreeelbows are used, the maximum straightduct allowed would be 26'. Not morethan three 90 degree elbows should beused in any rigid ductwork run with anexhaust hood. Four feet of straight
ED/GD401 1090
duct should be allowed between 90degree elbows.
GUIDE FOR PROPER EXHAUSTING
1. Keep the duct as short as possible.The longer the duct the more frictionand resistance to air flow.
2. Keep the number of elbows and thedegree of bend to a minimum tominimize air resistance due todynamics. We recommend that notover 3 elbows be installed in theduct.
3. The smoother the inside sUrfa~e ofthe duct, the less the friction and thegreater the air flow. It is because ofthis that we recommend usingsmooth rigid aluminum ductwork.Flexible ductwork has a spiralwashboard surface which increasesfriction and sets up dynamic turbulence which decreases air flow.
4. Never reduce the area of the duct.A 4" round duct has an area ofapproximately 12.57 square inches.The area of the duct should neverbe reduced below this figure.
5. Dryers should be exhausted to theoutside of the building.
6. Do not exhaust dryer into any wall,ceiling, crawl space, a concealedspace of a bUilding, vent connection,gas vent or chimney. A lint accumulation in such an area creates a firehazard.
7. When located in a bedroom,bathroom or closet, the dryer mustbe exhausted to the outside of thedwetring.
8. Do not install vent hood at groundlevel. There should be a 12"(30.5cm) clearance between the
SECTION 4. PRE-INSTALLATION CONSIDERATIONS 4-3
bottom of the exhaust hood and theground.
9. All exhaust duct joints should betaped to prevent lint and moistureladen air from being expelled intothe building.
10. The exhaust duct and vent hoodshould be checked periodically andcleaned as necessary to prevent alint build-up.
CFM AIR FLOW PERFORMANCE LENGTH of STRAIGHTDUCT
RIGID - FLEXIBLE*Note 2
160+ Best 23' - 13'
150 Good 34' - 18'
140 Acceptable 45' - 26"
130 Marginal *Note 1 50' - 34'
NOTE No.1
Chart lists this as the maximum for"marginal" operation. Under this condition, the exhaust duct and vent hoodmust be free of lint, the lint filter mustbe clean and the dryer must not beoverloaded. If these conditions are notme(~he dryer could cycle on the hilimit thermostat extending the dry time.It is for this reason that we list this as"marginal" operation and the maximumducting.
ED/GD401 1090
NOTE No.2
The figures for flexible duct apply onlyto the flexible metal duct. For othertypes of flexible ducts, refer to manufacturer's design data concerning airfriction loss. Friction 1055 in inches ofwater, as measured by a manometer,should never exceed .58" of watercolumn.
SECTION 4. PRE-INSTALLATION CONSIDERATIONS 4-4
LEFT SIDE OR BASE EXHAUST
If dryer is to be exhausted out the leftside or through base, use the accessory 304652 exhaust kit, instructionsare included with the kit.
oNonexhausted Installations
Always exhaust gas dryers to theoutside.
NOTE -------------,
IN CANADA, ALL DRYERS MUST BEEXHAUSTED TO THE OUTSIDE.
If the installer has determined that anonexhausted installation will be made,a 303736 exhaust deflector should beIn,stalled. Maintain a 6/1 clearancebetween the back of the control paneland the wall.
Note: A dacron mesh lint bag, Part No.3011353, is available for use on nonex-
ED/GD401 1090
hausted installations. Although the lintscreen and the lint bag will retain mostof the lint expelled, a certain amount ofline will be expelled into the laundryarea. AN ACCUMULATION OF LINTCREATES A FIRE HAZARD. THEREFORE, FREQUENT CLEANING OR VACUUMING OF THE LINT ACCUMULATIONIS NECESSARY.
ADDITIONAL FACTS ABOUTEXHAUSTING
These large capacity Maytag dryers aredesigned to move 180 cubic feet of airper minute. As exhaust ducting isadded, it imposes resistance to the flowof air which must be overcome by thedryer exhaust fan. This resistance isdue to static, velocity and dynamicpressure which is expressed in inchesof water column as measured by amanometer.
There are two types of pressure losses:
1. Static or friction losses and
2. Velocity or dynamic losses.
Static or friction losses. (We will referto this as friction.)
Friction losses are caused by the actualrubbing of the air molecules along thesides of the duct. Pressure losses instraight runs of duct are referred to asfriction losses. The pressure woulddrop due to friction losses betweenpoints 1 and 2 of the duct in the following drawing.
SECTION 4. PRE-INSTALLATION CONSIDERATIONS 4-5
~_3 _
------_/
Dynamic losses result from air turbulence which occur when the air flowchanges direction or when there is achange in the cross-section area of theduct.
1. A change of cross-sectional area i5illustrated in the above drawing.The reducer deceases the crosssectional area which increases thevelocity and results in dynamicpressure loss. The amount of friction through a reducer variesdirectly with the square of thevelocity of air. This simply meansthat the resistance through areducer is very high as compared toa straight run of duct.
Proper operation and efficientdrying is dependent upon proper airflow. The dryer is designed for useof a 4" duct and reductions in theduct are not recommended.
2..Dynamics\
Between 2 and 3 in the drawing, areducer has been added to the duct.
ED/GD401 1090
The reducer opposes the air flow·and sets up air turbulence whichresults in a pressure loss.
There are many factors influencingair flow such as the considerationslisted under Guide for ProperExhausting. In addition to theseitems, the operator's practices alsoaffect air flow, efficiency and theresulting drying times.
A. Failure to clean the lint filterregularly will result in a reduction inair flow and will cause the dryer totake longer to dry the clothes.
B. Overloading restricts proper airflow through the drum which willalso decrease efficiency and extendthe dry time.
ADJUSTING MAIN BURNER
To adjust main burner flame, loosenscrew holding air shutter and rotateshutter until a yellow flame appears.Then reverse the rotation of the shutteruntil the yellow disappears and theburner has a steady blue flame. Toachieve this, it may be necessary toadjust the flame until only a very smallyellow flame is at the tip of the blueflame. After a period of about fiveminutes, all of the yellow should disappear. If not, readjust the shutterslightly. When the desired results areachieved, tighten the screw to lock theshutter in place.
SECTION 4. PRE-INSTALLATION CONSIDERATiONS 4-6
Additionally, a 1/8" N.P.T. (Natural PipeThread) plugged tapping, accessible fortest gage connection, must be installedimmediately upstream of the gas supplyconnection to the dryer. Refer to yourlocal gas utility or plumbing contractorshould you have questions on theinstallation of the plugged tapping.
GAS CONNECTION
AGA Recommends:
DRYER
1/8" NPTPLUG
Gas operated dryers are equipped witha burner orifice for operation onNATURAL gas. If the dryer is to beoperated on LP gas, it must be converted correctly for safety and properperformance. Conversion kits fromNATURAL to LPG, or LPG to NATURALare available. If other conversions arerequired, check with local gas utility forspecific information concerning conversion requirements.
NOTE -----------,
The conversion should always beperformed by a qualified servicetechnician.
\'.
A 1/2" gas supply line is recommendedand must be reduced to connect to the3/8" gas line on the dryer.
ED/GD401 1090
The dryer and its individual shutoffvalve must be disconnected from thegas supply piping system during anypressure testing of the system at testpressures in excess of 1/2 P.S.I.G.
In other words, if the test pressure isabove 1/2 P.S.I.G., disconnect pipe fordryer before testing pipe. If it is lessthan 1/2 P.S.I.G. it's ok to leave connected but shut off internal shut-offvalve in dryer.
The gas supply should be connected tothe dryer uSing pipe joint compound ora Teflon@ tape on male thread connections.
Note: Any pipe joint compound usedmust be resistant to the action of anyliquified petroleum gas.
Turn on gas supply and open theshutoff at the gas valve. Check all gas
SECTION 4. PRE-INSTALLATION CONSIDERATIONS 4-7
connections for leaks using a soap solution. If bubbles occur, tighten connections and recheck. DO NOT use anopen flame to check for gas leaks.
Note: As a courtesy, many local gasutilities will inspect a gas applianceinstallation. Check with your utility tosee if this service is provided in yourarea.
GAS IGNITION
This dryer uses an automatic ignitionsystem to light the main burner whenthe dryer is turned on.
ELECTRICAL REQUIREMENTS
OBSERVE ALL NA TlONAL ELECTRICALCODES AND LOCAL CODES ANDORDINANCES
ELECTRICAL SERVICE -- GAS MODELS
120 VOL TS, 60 HZ ONL Y
A 120 volt, 60 Hz, 15 ampere fusedelectrical supply is required. An individual branch (or separate) circuitserving only this appliance is recommended. DO NOT USE AN EXTENSIONCORD unless it meets all requirementsas outlined for grounding, polarizing(3-wire) and capacity. Wire size should
\
be afleast No. 14.
BEFORE PLUGGING IN POWER ~ORD,
OPERATION, OR TESTING, followgrounding instructions In GroundingSection.
ED/GD401 1090
GROUNDING -- 120 VOLTS, 60 HZ
IMPORTANT SAFETY PRECAUTIONS
Warning: To prevent unnecessary riskof fire, electrical shock or personalinjury, all wiring and grounding mustbe done in accordance with theNational Electrical Code and localcodes and ordinances. It is the personal responsibility and obligation ofthe appliance owner to provide adequate electrical service for this appliance.
ELECTRICAL GROUND IS REQUIREDON THIS APPLIANCE
This appliance is equipped with apower supply cord having a 3-pronggrounding plug. For your safety, thiscord must be plugged into a mating3-prong type wall receptacle which isproperly Wired, grounded andpolarized.
If a mating wall receptacle is not available, contact a qualified electrician to
SECTION 4. PRE-INSTALLATION CONSIDERATIONS 4-8
have the wall receptacle replaced. Ifthere is any question, local buildingofficials or electrical utility should alsobe consulted.
WARNING ----------,
DO NOT UNDER ANY CIRCUMSTANCES, REMOVE THE ROUNDGROUNDING PRONG FROM POWERSUPPLY CORD.
ADDITIONAL GROUND PROCEDURE -WHERE LOCAL CODE PERMITS
An external ground wire, clamp andscrews are provided for assistance inmeeting local codes. Where approved,it is recommended this additionalground be installed. A proper externalground MUST be determined prior towire hookup. Consult local buildingofficials and qualified electrician in theevent any questions exist.
WARNING ----------,
ALL GROUNDING AND WIRINGMUST BE DONE IN ACCORDANCEWITH NATIONAL AND LOCALCODES.
U.S. MODELS
The National Electrical CodeANSIINFPA, NO. 70, Latest Revisionand local codes and ordinances.
1GROUNDSCREW CLAMP
WIRE
CANADIAN MODELS
The Canadian Electrical Code C.22.1Part 1 and Local Codes.
ELECTRIC MODELS
UNITED STATES ONLY
Electric models are equipped with aground strap for grounding the dryer,which is connected at the factory to theP2 terminal post. To avoid the possibility ofelectrical shock, the dryer must
ED/GD401 1090 SECTION 4. PRE-INSTALLATION CONSIDERATIONS 4-9
not be connected to a 120 volt 2-wirecircuit.
The use of the ground strap is permitted by the national electrical code;however, if use of the ground strap isprohibited by local codes, the dryermust be grounded in accordance withlocal codes.
ELECTRICAL CONNECTIONS
GAS MODELS
Maytag gas operated dryers aredes~gried for operation on 120 volt, 60Hz AG approved electrical service, protected by a 15 amp fuse or comparablecircuit breaker.
ED/GD401 1090
On gas- models, the electrical powercord comes already attached to thedryer. Plug the power cord into anearby 120volt, 3-prong properly wiredgrounded receptacle.
ELECTRIC MODELS
Canadian Models - 120/240 Volt
ALL CANADIAN MODELS ARESHIPPED WITH THE POWER CORDATTACHED.
The dryer power cord should beplugged into a 30 amp receptacle andfused through a 30 amp fuse on bothsides of the line.·
NOTE -----------,
It is not permissible to convert adryer in Canada to 208 volts.
SECTION 4. PRE-INSTALLATION CONSIDERATIONS 4-10
U.S. Models - 120/240 volt or 120/208volt
Maytag electric dryers are manufactured to operate on 120/240 volt, 60 HzAC approved electrical service. Shouldthe dryer be operated on a 208 voltelectrical system, the dryer must beconverted. A heating element kit isavailable, Part No. 304837, which isused to convert the dryer from 240 voltto a 208 volt system.
The circuit should be fused through a30 amp fuse or comparable circuitbreaker, on both sides of the line. Theservice cord receptacle should bewired with no smaller than a No. 10wire and be sure a strain relief is used. 2. The neutral line of the service cord
must always be connected to the P2service post. The two 120 volt linesof the service cord then go to the P1and P3 terminal block posts asshown.
120V
N.
120V
Note: The service cord is not providedw-lth electric model dryers. Connect thepower cord as follows:
1. Remove the terminal block coverplate on the back panel of the dryerto gain access to the terminal block.
ED/GD401 1090
3. Be sure terminal block nuts are tightand replace terminal block cover.
4. Plug power cord into receptacle.
SECTION 4. PRE-INSTALLATION CONSIDERATIONS 4-11
ADDITIONAL INFORMATIONMOBILE HOME INSTALLA TION
ALCOVE OR CLOSET INSTALLA TlON
When the dryer is to be installed in analcove area or a closet, clearanceshould be provided around the dryerfor an adequate air supply and for easeof installation and servicing. Clearances for the companion automaticwasher should also be considered. Anappliance installed in a closet shallhave no other fuel burning applianceinstalled in the same closet. The dryermust be exhausted to the outside tominimize excessive lint accumulationand to maintain good drying. Werecommend allowance for more clearance than the minimum installationclearances as shown.
Make Up Air Openings.
Each opening area must have aminimum of 36 square inches ( more isbetter). These openings must not beobstructed. (Louvered door with equivalent air opening is acceptable.)
Maytag dryers are certified by theAmerican Gas Association and bearinga label stating they are suitable forinstallation in mobile homes. Wheninstalled in mobile homes, the installation must conform to the ManufacturedHome Construction and SafetyStandard Title 24 CRF, Part 32-80.
When installing a dryer in a mobilehome, provisions for anchoring thedryer should be made. An anchorbracket kit is available, Part No. 303740.Instructions for installing the anchorbrackets are contained in each kit.
All mobile home installations must beexhausted to the outside with theexhaust duct termination securely fastened to the mobile home structure,using materials that will not supportcombustion. Exhaust the dryer usingflexible metal exhausting materials, andlocate in an area that provides adequate make-up air. The exhaust ductmay not terminate beneath the mobilehome.
With a gas dryer, to prevent the possibility of hazard due to electrical shock,never plug dryer electric cord into areceptacle which is not adequatelygrounded and in accordance with localand national codes. See installationinstructions with dryer.
PERSONAL SAFETYPRECAUTIONS
MAKE UP AIR OPENINGS•FRONT VIEW
CL~~l~
CD "" 36"
'----,17" rt• B D 9 @ -l i-O·
D 36"v·
0'1-- - o· /4
-i 1-2- IDE VIEW ,
ED/GD401 1090 SECTION 4. PRE-INSTALLATION CONSIDERATIONS 4-12
Electrical dryers with a UL symbol onthe data plate have been listed withUnderwriters' Laboratories, Inc.; thosewith a CSA symbol on the data platehave been listed with Canadian Standards Association. Gas dryers with anA.G.A. symbol on the data plate havebeen listed with The American GasAssociation; those with a CGA symbolon the data plate have been listed withthe Canadian Gas Association. Nevertheless, as with any equipment usingelectrical and moving parts, there is apotential hazard. To use this appliancesafely, the operator should becomefamiliar with the instructions for operation of the dryer and always exercisecare while using the appliance.
1. To avoid possibility of fire or explosion:
A. Items containing foam rubber(may also be labeled Latex foam) orfoam rubber-like materials must notbe dried on a heat setting. Foamrubber materials, when heated, canunder certain circumstancesproduce fire by spontaneous combustion.
B. Any material on which youhave used a cleaning solvent, orwhich is saturated with flammableliquids or solids, should not beplaced in the dryer until all traces ofthese flammable liquids or solidsand their fumes have been removed.There are many highly flammableitems used in homes, such as:acetone, denatured alcohol, gasoline, kerosene, some liquid household cleaners, some spot removers,turpentine, waxes and waxremovers.
ED/GD4011090
2. CHILDREN SHOULD NEVER BE PERMITTED TO OPERATE, OR PLAY IN,WITH OR AROUND THIS DRYER.
SECTION 4. PRE-INSTALLATION CONSIDERATIONS 4-13
\ ....
ED/GD401 1090 SECTION 4. PRE-INSTALLATION CONSIDERATIONS 4-14
SECTION 5. GENERAL INFORMATION
,
GENERAL SPECIFICATIONS
DIMENSIONS Height to top of control cover 43-5/8" - 110.8 cm
Height to top of cabinet 36" - 91.4 cm
Width 28 112" - 72.4 cm
Depth (including 1 1/2" over-27" - 68.6 cm
hang)
CAPACITYA full washer load is a full
dryer load.
MOTORThermoprotected automatic
1/2 HP, 115 V, 60 HZ.motor.
AIR FLOWPer minute exhausted from
180 cu. ft.dryer.
DRUM SPEED 47 RPM
ROTATIONClockwise when viewed from
the front.
HEAT SOURCE
ELECTRIC - 240 VoltsGAS
1. Single port valve - capable of providing 22,000 BTU.
2\ Direct ignition by igniter bar.
3. The circuit should be fused with a 15amp fuse or comparable circuitbreaker. Maximum draw is 6 amps.
ED/GD401 1090
1. Nichrome helix coil rated at 5300watts aL240 volts, AC.
2. Total wattage - including drivemotor - 5600.
3. The circuit should be fused with a 30amp fuse or comparable circuitbreaker on both sides of the line.Maximum draw is 25 amps.
SECTION 5. GENERAL INFORMATION 5-1
MODEL CHART
DRYERS OF THE 1990 LINE
MODELS CONTROL TYPEHEAT CYCLE PRESS DRUM DAMP WRINKLE AIR
SETTING SIGNAL CARE LIGHT DRY RELEASE FLUFF
09900 ELEC & TIME 5 ADJUST OPT X X X 99
09800 E ELEC & TIME 3 ADJUST OPT X X X 20
09700 E ELEC & TIME 3 X OPT - X X 20
08600 E AUTO & TIME 2 X OPT - X X 15
08500 AUTO & TIME 3 X OPT - X X 15
08420 E AUTO & TIME 2 X X - X X 20
08410 AUTO & TIME 1 X X - X X 20
08300 AUTO & TIME 2 X - X X 15
08200 AUTO ONLY 2 X - - - 25
08000 E AUTO ONLY 1 X - - - - 25
07800 E AUTO & TIME 3 X X - X X 20
07600 E AUTO & TIME 3 X - - X X 15
07500 AUTO ONLY 2 X X - - 60
07400 TIME DRY 2 - - - X X 20
05910 AUTO & TIME 3 X OPT - X X 15
04910 AUTO & TIME 2 X - - X X 15
04000 AUTO ONLY 1 X - - - - 25
Abbreviation Description
E Canadian Model in Electric Only
OPT Optional Press Care Feature
EDfGD401 1090 SECTION 5. GENERAL INFORMATION 5-2
SCHEMATICS
ELECTRIC MODELS PAGE NUMBER GAS MODELS PAGE NUMBER
DE9900 5-4 DG9900 5-5
DE9900 (Canada) 5-32
DE9800 5-6 DG9800 5-7
DE9800 (Canada) 5-33
DE9700 5-8 DG9700 5-9
DE9700 (Canada) 5-34
DE8600 5-10 DG8600 5-11
DE8600 (Canada) 5-35
DE8500 5-12 DG8500 5-13
DE8420 5-14 DG8420 5-15
DE8420 (Canada) 5-36
DE8410 .5-16 DG8410 5-17
DE8410 (Canada) 5-37
DE8300 5-18 DG8300 5-19
DE8200 5-20 DG8200 5-21
DE8200 (Canada) 5-38
DE8000 5-22 DG8000 5-23
DE8000 (Canada) 5-39
DE7800 5-24 DG7800 5-25
DE7800 (Canada) 5-40
DE7600 5-26 DG7600 5-27
DE7600 (Canada) 5-41
DE7500 5-28 DG7500 5-29
DE7500 (Canada) 5-42
DE7400 5-30 DG7400 5-31
DE7400 (Canada) 5-43
DE5910 5-12 DG5910 5-13
, ,DE4910 5-18 DG4910 5-19,DE4000 5-22 DG4000 5-23
DE4000 (Canada) 5-39
ED/GD401 1090 SECTION 5, GENERAL INFORMATION 5-3
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ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-4
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R-BK 30
THERMISTOR
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NEUTRAL LINE IDENTifiED 8Y .015TRACER AND TIN PLATED TERMINAL
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ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-5
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@ YL-YB
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o WB-RD
CAM CIRCUITSNO.
R-BK
THERMALFUSE
(HEATERJ,.._,I,
.... _/
CAM INFORMATION AND CONTACT DATA
DOORSWITCH GY
GND~
N /OPEN \-VM,P--- ) YL
'\, CL /'--L2
Ll
ELECTRICAL WIRING DIAGRAM
HI-LIMITTH'ST
CApACIToR
I
BR40 2 E C3 DO4 G N
PK27 5 E Nr-~W:::----;R:::D";-4:-5----16 B E
_ 47 7 0 Cr--~~=-j8 A T
O-BK9 9 R 0BK35 10 D R
WH21 Ii
12
SENSORGN
~DRYNESSSWITCHRELAY
TERMINALBLOCK
L1~ N \L2GROUNDSTRAP
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-6
DG9800
D
BU
--, CYCLING"TH'STJ
/1
WRD
YL 0
DRYNESSSWITCH
WRD
: /-, HI-LIMITIl::\ ill I ( TH'STlea:: 1\L J \ ....
BR TEMPSWITCH
W-RD
W-BV
ISENSOR
? RADIANT~ SENSOR
"'--o~~--{}.,
CIRCUITBOARD
LD- LESS DRYND- NORMAL DR YMD- MORE DRY
r=- 0-3-
RELAYSWITCH
DEL- DELICATEMED- MEDIUMREG- REGULAR
GY
o-rlI~~--I
BK
YL BUZZER
WBK
II
I I IL J
CENT SWITCH
FUNCTION
TIMER MOTOR
DRIVE MOTOR
BUZZER/PULSER •• 'ON' 5 SECONOS EVERY 5 MINUTES
HEATER
HEATER
ELECTRONIC CONTROL DISABLE
@
YL-OR
I /OVERLOAD ..J..-.--J
PROTECTOR I \I 'IIIIRIVINIIII
RDI
GY
® WB-BR
@ BK-GY
® YL-BU
@ YL-YB
Q) WB-RD
GY TIMERTHERMAL MOT0R..-_
R- FUSE 1--' / '\BK INTERIOR I,) \ )
LIGHT GY
CAM CIRCUITSNO.
CAM INFORMATION AND CONTACT DATA
/OPEN- \\ I YL
',':t..-.~/::~==I------t'-~~~---;:==========:::::----IdRELAY SELECTOR SWITCH CODES BKSWITCH
DOORSWITCH GY
N
GND-=:L
Ll
ELECTRICAL SCHEMATICr------------,
PUSHTO
STARTSWITCH
LI
POWERCORD
N G
WH42
WBKI
RELAY
SENSORGN
~DRYNESSSWI·TCH
O-BK9
IC
BR40 2 E C A3 D 0 P4 G N5 E N A
PK276 B E C
W-RD457 0 C I
W- 47 8 A T TO-BK9 9 R 0 0BK35 10 D R RWH21
II12
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-7
BU
-- .... CYCLING\TH'STJ
/..-
YL ®
WRD
TIME DRY
DRYNESSSWITCH
W-RD
DI
15M
IBM
lOOK
PERM PRESS'III PRESS CARE
1M
CIRCUIT 15M
BOARD
o PERM 0
~ PRESS ~REG
BUZZER/PULSER •• 'ON' 5 SECONDS EVERY 5 MINUTES
Y-BK ~~ BUZZER ..--__,I"..--1oI-..:D:;3__-_-,- .,...---JI--_'=:O
I
TIMER MOTOR
HEATER
HEATER
DRIVE MOTOR
ELEC-TRONIC CONTROL DISABLE
YL-OR
I /OVERLOAD .J--I
PRO TECTOR I \I "IIIIRIUINIIII
RDI
® YL-BU
@ YL-YB
® WB-BR
@ BK-GY
CD WB-RD
CAM INFORMATION AND CONTACT DATA
CAM CIRCUITS FUNCTIONNO.
r CAPACITOR (,) !W::~SOR¥T" BK
DOOR: RELAYSWITCH I I SWITCH '\
N I/O~N~ tENT-smTC~ 7)-VM\r---CL.../~Id.y:.:LL-'=f======t!=;;;~==;~~~~~~~~~;=~------l--~"-~EAT I NGL2 ,--' RELAY BK ELEMENT
SWITCH SELECTOR SWITCH CODESDEL- DELICATE LD- LESS DRYMED- MEDIUM ND- NORMAL DRYREG- REGULAR MD- MORE DRY
GND~
L1
ELECTRICAL SCHEMATIC DE9700
ELECTRICAL WIRING DIAGRAM
CAPACIToR
HI-LIMITTH'ST
SENSOR IGN 2.--- BR40 E C
-L 3 DODRYNESS 4 G NSWIT CH ~_---!:P~K2!O.!7~__-" ~ ~ ~
,..-_+-_W.!!C-::.!:R!MD.:!c45~ 7 0 C
o BK9 8 A T,..---=-"-",,,- 9 R 0BK35 10 D R
WH21 II
12
RELAY
PUSHTO
STARTSWITCH
THERMALFUSE
(HEATER)
BK 33
BR 32
y-o BK9,.
TERMINALBLOCK
LI ~ N \ L2GROUNDSTRAP
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-8
CAM INFORMATION AND CONTACT DATA
DG9700LD- LESS DRYND- NORMAL DRYMD- MORE DRY
RELAYSWITCH
SELECTOR SWITCH CODES
IJ""""'D~3- YL 0~ IBM BU
RELAYDRYNESS
W- JSWITCH
BR CIRCUIT15M
BOARD W-RD
15M --, CYCLING"TH'STJ
/I
DI
lOOK TH'ST1M
BR TEMPSWITCH
DEL- DELICATEMED- MEDIUMREG- REGULAR
ORGY
RELAYSWI TCH
O_rl14-~-
BK
FUNCTION
TIMER MOTOR
• 'ON' 5 SECONDS EVERY 5 MINUTES
Y-BK ~ YL
~ YL BUZZER
BUZZER/PULSER •HEATER
ELECTRONIC CONTROL DISABLE
HEATER
DRIVE MOTOR
IIII BK
I I,"",",--.r---.c I
I I IL J
CENT SWITCH
YL-OR
I IOVERLOAD J..--J
PROTECTOR I \I 'IIIIRIUINIIII
ROI
®WB-BR
® YL-BU
@ YL-YB
CD WB-RD
@ BK-GY
CAM CIRCUITSNO.
DOORSWITCH
N /OPEN-~~-u+"\~ I YL
, CL /'--
GND~
L1
ELECTRICAL SCHEMATIC~------------,
CAPACIToR
BR40
I
2 E C3 D 0
W-BU32 4 G NPK27 5 E N
r--W----=R""'O""45:-------i6 B E~-+--...!!..:"-'-""-"-----i 7 a c
~--:I!.W:::J-;m.:u7-i 8 A Tr-_--'O~-:.;;B:':K:"-9--\9 R 0
r---=B",K",,35";,-;-i1 a D RWH21 II
12
SENSORGN
~DRYNESSSWITCH
PUSHTO
STARTSWITCH
RELAY
GNLI
POWERCORD
ED/GD401 1090 SECrlON 5. GENERAL INFORMATION 5-9
L1
CAM INFORMATION AND CONTACT DATA AUTO I PRESS I~ I AUTO
I0
I I~l8ITlCT FUNCTION REGF TIME DRY
III. CIRCUITS PERM PRESS CARE F F
@ YB BR DRIVE MOTOR
@iGY BR I PRESS CAREI
W:YB OR 1TIMER MOTORI
G)YL BU I HEATER ~
I01 YL BK I BUZZER/HEATER -4/\YL-RD \ BUZZER/PULSER * I I
* 'ON' 5 SECONDS EVERY 5 MINUTES
\
W-RDr---I I
:to ..J: TEMP:~ 0 iSWI TCHI I,-__ -.J
BK
W-RD
BK
DE8600
HI-LIMITTH'ST
CYCLING /TH'ST "
\\ .
1- .:.:YL=6 BU
HEATER
RD
OR
RD
THERMALFUSE
GY (HEATER)~~G~YOh~~YL~
THERMAL BUZZERfH-<~~---t=-'----, F USE
ELECTRICAL SCHEMATIC
PRESS CARE ~K t CD ~BKSWITCH ~I/-~ !2'I \ \f:.)\ I BR OR\......._.....~/fO'~r=====;~~~ ~f-J~----'!RpjD
I
: ~ I CENT= ~B=Uc:i.___ : SWITCH
I BK
: : I\._- 1
GND
DOORSWITCH
OPENN
/' .... -'e-WH I \
\ I YL\
/....--~
CLOSEDL2
BU 44BR 46
THERMALFUSE
WIRING CONNECTION DIAGRAM
Y-BK 43
OR 20
Ll ~ N \ L2GROUNDSTRAP
DOORRD
SWITCH 30
'"...0>><'"",'" '"'>< :r
>-'" ~ BU 28
TERMINALBLOCK
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5·10
W-RD,---I 1
:", ~: TEMP:i:! Cl:SWITCHr 11 -.J
BKRD
BUW-RD
"III\
YL
DG8600
/I
HI-LIMIT 1
TH'ST \,
CYCLINGTH'ST
GAS VALVE
1
1
IL ~
RADIANTSENSOR
BK
BU
RD
BUZZER
GY YL
OR
RD
TIMERMOTOR OR
RDII CENT:SWITCH1 BK
I,..t--o,.
II
/ \THERMAL\. / FUSE
----,/-- ..... " I
( ) :'.......... I
III
RIUIN I
IIIII
RD GY
1I 1 1~-- __ ~ I
1
II
BU I
YL
ELECTRICAL SCHEMATIC
OVERLOADPROTECTOR
• 'ON' 5 SECONDS EVERY 5 MINUTES
OR 20
DOORSWITCH
OPEN--," '-WH
I e \( ,
YL\
/,---CLOSED
CAM INFORMATION AND CONTACT DATA AUTO IAIR citUFFI 0 I AUTO
I0
I I~COIITlCT FUNCTION PERM PRESS PRESS ~ REGF TIME DRY
NO.CIRCUITS
CARE F
@ YB BR DRIVE MOTOR
@GY BR I PRESS CARE
I
G)YB OR I TIMER MOTORI
G)IYL PU HEATER ~
G)IYL BK BUZZER/HEATER -YL-RD BUZZER/PULSER •
PUSH TOSTART
SWITCH
PRESS CARESWITCH--," '-
PK I e\: I BR\ _,'"'0==----------'
' ...... _......
L1
N
PRESSCARE
SWITCH
GND~
BK 32
GAS VALVE
BK 54
HI-LIMITTH'ST
YL 34
GY51
THERMALFUSE
GY 50
RD30
RD31
WH 42
GY47
IOH-+-+----t-, WH42
YL 35
WIRING CONNECTION DIAGRAM
DOORSWITCH
BU 41
NEUTRAL LINE IDENTIFIED BY .015TRACER AND TIN PLATED TERMINAL
GN
POWERCORD
LI
GY 47
BUZZER
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-11
W-RD
TEMPSWITCH
1
G1:01
1I___ ...1
BK
HEATER
DE5910 - DE8500
RD
~K l CD JBK
@ ®OR
RD YL BU
THERMAL W-ROFUSE
(HEATER) GY YL CYCLING /GYTH' S T (
THERMAL \
FUSE BUZZER \
OR
/~ -"t \ TI MERI
\ tMOTOR HI-LIMIT\ /.... / TH'STRD
ELECTRICAL SCHEMATICOR 20
• 'ON' 5 SECONDS EVERY 5 MINUTES
CAM INFORMATION AND CONTACT DATA AUTO I PRESS I~ I AUTO
I0
I I~F T.IME DRYcOlilcr CIRCUITS FUNCTION PERM PRESS CARE F REG F1«1.
@ YB BR DRIVE MOTOR
@GY BR I PRESS CARE
(DYB OR TIMER MOTORI
G) YL BU HEATER ~
(i)IYL BK BUZZER/HEATER -4 JIYL-RD BUZZER/PULSER • I
PRESS CARESWITCH/" .... -'e
PK I I...,.,:>'B:o:.R'-- --'
\ .......... _..... '/
I
: ,.:...... CENT= -=BUd---. SWITCHI ~_-o=Bc..:.K-----------------=Bc..:.K---~I I1 IL. _
L1
GND
DOORSWITCH
OPEN
Nt/ .... -'e-
WH I \\ I YL\
/....... _/
CLOSEDL2
RES I STOR
/
BU44
YBK43
Ll ~ N \ L2GROUNDSTRAP
BU44
BUZZERBR 46
CYCLINGTH'ST
THERMALFUSE
(HEATER)
W~RING CONNECTION DIAGRAM
BK 32
ED/GD401 1090 SECTION S. GENERAL INFORMATION 5-12
CAM INFORMATION AND CONTACT DATA IAIR FLUFFj 0 I AUTO
I ~ I l~AUTO OR TIME DRYCOl!TlCT CIRCUITS FUNCTION PERM PRESS PlAERSES ~ REGIll.
@ YB BR DRIVE MOTOR
@GY BR PRESS CARE
(BYB OR I TIMER MOTORI
G) YL PU HEATER ~
I
G)IYL BK BUZZER/HEATER ill!4/IYL - RD BUZZER/PULSER • I ~
BK
DG5910 DG8500
YL
CYCLINGTH'ST
RADIANTSENSOR
BUI II I
BKL----------------~GAS VALVE
BUZZER
OR
RO
OR
/- ..... ," \ TIMER\ 'MOTOR" .".J
l~K®
ROII CENT:SWITCHI BK
')THERMAL '--_-l-_--"G-'-<Y:>+-" rioY,,---,L:..;
/ FUSE
ELECTRICAL SCHEMATIC
I;-+--0..
II
! Il- I
BU
1---_:::---
OVERLOAD I ( ...
PROTECTOR: \ )I --IIIS Rr U
R NT
OR 20
CLOSED
DOORSWITCH
OPENI/--~'
WH I \\ J YL YL\.. --./'!-O---"--'--=-------'---=Q--+....--~
PRESS CARESWI TCH
/.-- ......" .,\ I BR\ ... __ ..... /
L1 • "ON" 5 SECONDS EVERY 5 MINUTES
PRESSCARE
SWITCH
GND~
N
BK 32
VALVE
HI- LIMITTH'S1
CYCLINGTH'ST
YL 34
THERMALFUSE
GY51
GY 50
RO30
RO31
WH 42
GY
47 ~----------------~'--::!.::;
Iml-+-l-~-WH42
YL 35
DOORSWITCH
BU 4\
BU 44
NEUTRAL LINE IDENTIFIED BY .015TRACER AND TIN PLATED TERMINAL
G
YL 48
LI -N
GY 47
BUZZER
POWERCORD WIRING CONNECTION DIAGRAM
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-13
CAM INFORMATION AND CONTACT DATA AUTOI AIR 1
0
I
AUTO I ~ ITiME DRY I~COKlACT CIRCUITS FUNCTION PERM PRESS FLUFF ~ REGIII.
CD YB GY DRIVE MOTOR
®:YBOR TIMER MOTOR
®:YLBU HEATER ~
I
(i)YL BK BUZZER/HEATER ~4 YL-RD BUZZER/PULSER • I ~ I
BK 32
W-RD,---I I
:1;3 G:J: TEMP10:: a,SWITCHI II I,-__ --1
BK
W-RD
DE8420
HEATER
HI-LIMITTH'ST
CYCLI NG /TH'ST (
\\
HEATER
I-- Y:...=LO
BU
t~K CD JBK
CDOR
RD
GY YL
BUZZER
OVERLOAD ORPROTECTOR
// -,
I \ TIMERI\ 'MOTOR\, .... /
I
WH
ELECTRICAL WIRING DIAGRAM
TERMINALBLOCK
BU 28
• 'ON' 5 SECONDS EVERY 5 MINUTES
L1 ~ N \ L2GROUNDSTRAP
I
: I I CENTBU I rt' :SWITCH=-=--+--------=--=0--. I BK BK
I L...-4If--b-"""-------t----------------'-"-"-------': : IL. J
L1
GND
DOORSWITCH
OPENN
//..---.WH I \
\ I YL\
/'--_/CLOSED
L2
ELECTRICAL SCHEMATICOR 20
r-THERMAL
". FUSE>- (HEATER)'"
BUZZER N".
-'>-
BU 44
YL 42
THERMALFUSE HI- LIMIT
TH'ST
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5·14
Ll
CAM INFORMATION AND CONTACT DATA AUTO 0 AUTO 0 0AIR F F TIME DRY FtoIlTAtT CIRCUITS FUNCTION PERM PRESS FLUFF F REG F FI-
CD YB-GY DRIVE MOTOR
o YB-OR: TIMER MOTOR
G) YL BU I HEATER ~
o YL-BK I BUZZER/HE:ATER ill4 YL -RD BUZZER/PULSER * ~ I
* 'ON' 5 SECONDS EVERY 5 MINUTES
W-RDr---I II ...J II", wiI'" Cl IIll: II I1__ _.J
BK TEMPSWITCH
DG8420
RD
HI-LIMIT/TH'ST t
\,RADIANTSENSORWH
/ -, TIMER" \MOTOR\ I'..... ..,/
ELECTRICAL SCHEMATIC
---,-, I
) I
j :III
RIUINI
IIII
I RD BUI .......l--Q---J :
: ~ CENT L JBU I :SWITCH GAS VALVE
1--------=-=0-1- .._ L..----bB~K~ -+--"'B~KL_ ___'
I ...-r. ;L ~ I
DOORSWITCH
OPEN
BU/'--'e-\\ I YL\
/"----CLOSED
N
GND----L
LI NG
OR 20
YL 48
DOORSWITCH
YL 35
WH42
IHI--+-+--, R031
GY50
GY51
THERMALFUSE
BK 32
NEUTRAL LINE IDENTifiED BY .015TRACER AND TIN PLATED TERMINAL
POWERCORD
ELECTRICAL WIRING DIAGRAM SECTION 5. GENERAL INFORMATION 5-15
Ll
CAM INFORMATION AND CONTACT DATA AUTO AIR0
AUTO0
JCONTACT FUNCTION PERM PRESS FLUFF FREG
F TIME DRYIll. CIRCUITS F F
CD YB GY DRIVE MOTOR
e.g) VB-OR I TIMER MOTOR
(l)I YL - BU I HEATER .~
G) YL-BK BUZZER/HEATER 1lI4 'IYL-RD I BUZZER/PULSER • ~ I
• 'ON' 5 SECONDS EVERY 5 MINUTES
5-16
CYCLINGTH'ST
HI- LIMITTH'ST
DE8410
HEATER
SECTION 5. GENERAL INFORMATION
THERMALFUSE
(HEATER)
THERMALFUSE
GY31
t~K @) JBK
CDCD YL
ORBURD YL
GY YL -,/ -- ,,
\ CYCUNGI
BUZZER\ ,
TH'ST'\ /
OR
OR
/ -- -'\I
" TIMER ,---IHI-LIMIT (\ 'MOTOR
'\ .... --/
TH'ST \ ....WH
RD
---,-, I
) 1/ 1
- IIII
RIUIN 1
II1II
GY
ELECTRICAL SCHEMATIC
ELECTRICAL WIRING DIAGRAM
YL 42
TERMINALBLOCK
PUSH TOSTARTSWITCH
'".....J>-
,......>'"
THERMALFUSE
(HEATER)GY /,...'~ GY
l.-H::>------O;:-;:;,-------,
'"...)Cr-')~~10'"1:l£::r.Z
>- 1D ~ ~ "'B"'-U--"2'-".S -l
\'-
I 1: I 1 CENT
BU 1 'i' :SWITCH=--+---------==°1-.. 1.-1.....-p:B"-CKO- -+- ---J BK
: I IL I
L1~ N \ L2GROUND
ED/GD401 1090 STRAP
GND
DOORSWITCH
OPEN
N/' ...... -'e-
WH I \I YL
~/'\,_/
CLOSEDL2
BUZZER
L1
CAM INFORMATION AND CONTACT DATAAUTO I AIR I0 I AUTO I~.I TIME DRY I~CONTACT CIRCUITS FUNCTION PERM PRESS FLUFF ~ REG
NO.
G) YB GY DRIVE MOTOR
0:YB OR TIMER MOTOR
G)'YL BU I HEATER ~
I Io YL BK I BUZZER/HEATER
~4 YL-RD BUZZER/PULSER * I* 'ON' 5 SECONDS EVERY 5 MINUTES
H!-L1MITTH'ST
CYCLINGTH'ST
DG8410
I II IL J
GAS VALVE
THERMALFUSE
BU
GY51
GY50WH
42
11--1-++0 RD31
YL 35
~Kl [~K @) lB~(i)
CD CD YLYL BU
ORGY RD
GY/ "" "-
"GYI iCYCLINGYL I\ I TH'ST
BUZZER "~- /OR
OR PU
/ ""," TIMER ,
"I \MOTOR \ HI-LIMITI\ I I TH'ST,
"- ""/ /
""WH RD
ELECTRICAL SCHEMATIC
YL 48
DOORSWITCH
OR 20
G
I
: I CENTBU I ~ SWITCH
1----------=-=°1--.- L---bB=c.K'--- +--=cB"-'K
: ..-:. iL I
LI N
GND--.L DOOR
SWITCHOPEN
N,/ .....-i
BU I \I I YL\
/"'-""CLOSED
NEUTRAL LINE IDENTIFIED 8Y .015TRACER AND TIN PLATED TERMINAL
POWERCORD
ELECTRICAL WIRING DIAGRAM
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-17
o AIR 0~ FLUFF ~TIME DRY
AUTO 0PERM PRESS ~
TIMER MOTOR
HEATER
DRIVE MOTOR
CAM INFORMATION AND CONTACT DATAFUNCTION
L1BKf----QBU
BK BK
BK
BK
,\ CYCLING;' TH'ST
/
W-RD
"\ W-RDI
/ TEMP I I
/ SWITCH:~ ;j:. I'" Cl I
W-BR I Ic_
Y-BK
/~
HEATING!ELEMENT \ ..
'\ TIMER)MOTOR
/
~ HI-LIMIT I
THERMOSTAT'--,
OR
WH
OR
, THERMAL\ FUSE
/ (HEATER)
YL
PUSH TOSTARTSWITCH
GY
BUZZER
RD~_v-'
I : CENT
=-=---t--------"'=q--.'T"" I SWI TCHI I BK BK
I i.-4t__-O='-'----------+---------='-'-------'I I II 1 IL I
GNDDOOR
SWITCHOPEN
/..-- .....
N I fiWH I \
\ I YL\
/....-_/CLOSED
L2
ELECTRICAL SCHEMATIC
BK32
WRD38
TEMPSWITCH
Y-BK 21
H 1- LIMITTH'ST
CYCLINGTH'ST
DE4910 - DE8300
BK 33
THERMALFUSE
(HEATER)
GY31
ELECTRICAL WIRING DIAGRAM
TERMINALBLOCK
BU 26
DOORSWITCH
r;===::::;l YL 35
,-- --'G'-'-Y_4'-',7 r'G'-'Y-'2=-:4'--- ---,
Ll ~ N \ L2GROUNDSTRAP
r-f'I')NQ')NNNC\l
:l£:::.:::I::::J:lDlD~~
\'.
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-18
CAM INFORMATION AND CONTACT DATA AUTO 0 AUTO 0 0 AIR 0CONTACT FUNCTION REG
FPERM PRESS
F TIME DRY FFLUFF ~
II. CIRCUITS F F F
CD BK YB HEATER
®BU GY I DRIVE MOTOR ~
I
® BK OR I TIMER MOTOR ~ ~
LlBK BK
BU o-------jBK
W-RD
TEMP :--- :SWITCH 1
,§ LiJ'I~ 0:1_ -1
BK
RADIANTSENSOR
I II IL J
"\ CYCLING/ TH'ST
/
-, HI-LiMIT\ TH'STI
/
-- RD
BK
BU
DG4910 - DG8300
-\ TIMER)MOTOR
~/
OR
OR
WH
~
/II\
'-..
RD
....) THERMAL/ FUSE
GY
® BUZZER ([)GY
ELECTRICAL SCHEMATIC
PUSH TOSTARTSWITCH
OVERLOAD ,--/- --;:---,PROTECTOR, ( ) I
,\ II '" _/ :I ,
: IIS R IIT U II A N II R IIT,I I
YL I :I II1 I : CENT
I- --..:::.B"<U:}-I_.i""" I SWI TCHI I BK BK
I j......4.--O="-'---------f-------=L.-----;::....,.-;".....,...,...,,....,..,.,:--------.JI I I GAS VALVEL I :
GND~
BUZZERY-BK 21
GY50
CYCLINGTH'ST
HI-LIMITTH'ST
W-RD 38
TEMPSWITCH
\.
LI N G
DOORSWITCH
YL 35
NEUTRAL LINE IDENTIFIED 8Y .015TRl\CER l\ND TIN PLl\TED TERMINAL
THERMALFUSE BK
32
POWERCORD
ED/GD401 1090
ELECTRICAL WIRING DIAGRAM
SECTION 5. GENERAL INFORMATION 5-19
CAM INFORMATION AND CONTACT DATA AUTO 0 AUTO 0 0F F AIR FLUFF FCOIITItT CIRCUITS FUNCTION PERM PRESS F REG F FI.
CD BK-YB HEATER
®BU GY DRIVE MOTOR
®BK OR TIMER MOTOR ~
BK
-,\ W-RD\
./ TEMP C-...I:SWITCHILU LU I,0: 0 I
W-BR I IL __ .J
BK DE8200CD
Y-BK
W-RD
/"
"/f \ CYCLINGI\ I TH'ST\ /
/
OR
-\ TIMER)MOTOR
/
- HI-LIMIT I
THERMOSTAT\..
OR
OR
WH
//
fI\
' ...
BUZZER
OVERLOAD_....-,- PROTECTOR
o------iBK
THERMALFUSE
(HEATER)
/-
!.AIf--1D---'R 0 HEAT ING {I : CENT ELEMENT \ ..
;-r-.. 'SWITCH BK=--f---------"--'q--- L:.....-bl ~B~K -+ ~BK~ _...I
: I 1I I 'L I
Ll
GNDDOOR
SWITCHOPEN
/-- .....
N / .WH I \
\ I YL\ ,
"----CLOSEDL2
ELECTRICAL SCHEMATIC
BK:32
WRD:38
5-20
TEMPSWITCH
Y-BK 21
HI- LIMITTH'ST
CYCLINGTH'ST
SECTION 5. GENERAL INFORMATION
BK :3:3
THERMALFUSE
THERMALFUSE
(HEATER)
GY:31
ELECTRICAL WIRING DIAGRAM
TERMINALBLOCK
BU 28
DOORSWITCH
r;=:=::':::::;-] YL :3 5
BU 26
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BUZZER
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ED/GD401 1090 STRAPI
CAM INFORMATION AND CONTACT DATA AUTO~I
AUTO 0 0COMlltT FUNCTION PERM PRESS REG
F AI R FLUFF FNO.
CIRCUITS F F
CD BK YB HEATER
0IBU-GY I DRIVE MOTOR'I I
0:BK OR I TIMER MOTOR ~
I
Ll
W-RD
TEMP :--- :SWI TCH 1
1§ ;;J I
,~ c I1_ ...J
BK
DG8200
RADIANTSENSOR
I II IL J
,\ CYCLING/ TH'ST
"
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BU
BK
BK
OR
OR
WH
BUZZER CDGY
RUN
BK
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o-----iBK
PUSH TOSTARTSWITCH
OVERLOAD 1"--;- ---;:---1PROTECTOR 1 I )
I \I "_,,II
DOOR 1 sSWITCH ITI A
OPEN I R/----. : T
BU I', IYL I
,"l/r,Lo-'-----'-'=<}-+-e RD'___ YL : ~~~
CLOSED I I : CENTI- -=::B"'<U:}I_.rr I SWI TCH
I I BK BKI -'-I.....-0,~-----t------~L.-.------;:;'G·A"S-;V:TA..,L·V"'E,.--------'
~ I :
N
GND.r-
ELECTRICAL SCHEMATIC
BUZZERY-BK 21
GY50
CYCLINGTH'ST
HI-LIMITTH'ST
W-RD 38
TEMPSWITCH
\'.
LI N G
DOORSWITCH
THERMALFUSE BK
32
NEUTRAL LINE IDENTIFIED BY .015TRACER AND TIN PLATED TERMINAL
POWERCORD ELECTRICAL WIRING DIAGRAM
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-21
CAM INFORMATION AND CONTACT DATA AUTO ~I AUTO0 0
OOIl:T FUNCTION PERM PRESSF AIR FLUFF F
Ill, CIRCUITS F REG F F
CD BK BU HEATER ~
o GY YL: DRIVE MOTOR
G) BK-OR: TIMER MOTOR ~
L1 BK
OPEN DOOR~K /--).\ SWITCH
( I\, __ .....·,,':'O-G-Y---,----"-'<)
CLOSEDBUZZER
Yl
Yl
BK
OR
OR
-," TIMER
jMOTOR
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PU
,/
II\
"
WH---,
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III
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(HEATER)" ,/
THERMAL(FUSE "
WH
I
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I BK
: : I1. 1
N
GNDr-
ELECTRICAL SCHEMATIC
HI- LIMITTH'ST
CYCLINGTH'ST
THERMALFUSE
Yl54
DE4000 - DE8000
BU 44
Yl 51
THERMALFUSE
RD 49 (HEATER)
RD49
TERMINALBLOCK
GY 47
BU 26
Ll~ N \L2GROUNOELECTRICAL WIRING DIAGRAMSTRAP
ED/GD401 1090 SECTION 5, GENERAL INFORMATiON 5-22
CAM INFORMATION AND CONTACT DATA AUTO 01 AUTO0 0 AIR 0
OOACT FUNCTION REG ~ PERM PRESSF TIME DRY F FLUFF ~
Ill. CIRCUITS F F
CD BK YB HEATER
®:BU-GY DRIVE MOTOR ~
(D:BKOR I TIMER MOTOR ~ ~
I
L1BK
BKI----Q
BUZZER
GY
BK
OR
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TEMPSWITCH
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OR
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YL
PUSH TOSTART
SWITCH
RD~o--"IJ-'
1 : CENT=--+----------==a--..rr' I SWITCH
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: I 1, I 'L I
GND
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/.... --'e-WH I \
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CLOSEDL2
W-RD 38
RESISTOR
BK32
DE7600
BK 32BK 33
THERMALFUSEHI- LIMIT
TH'ST
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(HEATER)
ELECTRICAL WIRING DIAGRAM
ELECTRICAL SCHEMATIC
TERMINALBLOCK
BU 28
DOORSWITCH
r;====:;l YL 35
r- -'G'-'-Y-=4:c.;7 r'G'-'Y-'2""4'-- ---,
Ll ~ N \ L2GROUNDSTRAP
,....,.,NcnNNN(\J
~x:I:::Z:
lDlD~~
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ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-23
CAM INFORMATION AND CONTACT DATAAUTO I AIR I~ I AUTO I ~ ITIME DRY I~ClIIITICT CIRCUITS FUNCTION PERM PRESS FLUFF F REGIll.
CD YB GY DRIVE MOTOR
0 1YB OR I TIMER MOTORI
G) YL BU I HEATER ~
I I
~ YL BK I BUZZER/HEATER Ii4 YL -RD I BUZZER/PULSER * I ~ I
DE7800
Y-
t® @)jBKBK
®OR
RO YL BU
THERMAL W-ROFUSE
(HEATER) GY YL CYCLING /GYTH'ST I
I
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OR
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WH BK
TEMPSWITCH
RDHEATER
---,-, I
) I/ I
- IIII
RIUINI
IIIII
ELECTRICAL SCHEMATICOR 20
PUSH TOSTARTSWITCH
1--
OVERLOAD I /PROTECTOR: \.
IIIISITIAIRITII
YL YL
* 'ON' 5 SECONDS EVERY 5 MINUTES
I
: I I CENTBU I 'i'" iSWITCH::.=.--+--------=-"0-_ I BK BK
1 LAll---I:>"'-"------f--------------="------': : IL I
L1
GND
DOORSWITCH
OPEN
N/,;'--~
WH I \\ I\
/"---~
CLOSEDL2
BK 32
THERMALFUSE
CYCLINGTH'ST
GY31
THERMALFUSE
(HEATER)
RD41
RD 41
PUSH TOSTARTSWITCH
ELECTRICAL WIRING DIAGRAM
BU 44
YL 42
TERMINALBLOCK
BU 28
DOORSWITCH
r;:::===::;l YL 35
'"........>-
Ll~ N \ L2GROUNDSTRAP
\.
BUZZER
EDIGD401 1090 SECTION 5. GENERAL INFORMATION 5-24
DG7800ELECTRICAL SCHEMATIC
* 'ON' 5 SECONDS EVERY 5 MINUTES
DOORSWITCH
OPEN
BU/",---.\
\ I YL\
/"----'CLOSED
CAM INFORMATION AND CONTACT DATA 0AUTO
0 0AUTO AIR F F TIME DRY FCOKTACT FUNCTION PERM PRESS FLUFF F REG F F1«1. CIRCUITS
CD YB GY DRIVE MOTOR
(g)IYB OR I TIMER MOTOR
G)IYL BU HEATER ~
0IYL-BK I BUZZER/HEATER ~
4 IIYL-RD I BUZZER/PULSER * ~
Ll
N
GND~
LI NG
OR 20
YL 48
DOORSWITCH
YL 35
WH42
If-If-+--+--, RD31
WH 42BU 41
GY50
GY51
THERMALFUSE
HI-LIMITTH'ST
BK 32
POWERCORD
NEUTRAL LINE IDENTIFIED BY .015TRACER AND TIN PLATED TERMINAL
ELECTRICAL WIRING DIAGRAM SECTION 5. GENERAL INFORMATION 5-25
CAM INFORMATION AND CONTACT DATA AUTO ~IAUTO 0 0
COIIKT FUNCTION PERM PRESS REGF AIR FLUFF F
II. CIRCUITS F F
G) BK-BU HEATER
0:GY-YL: DRIVE MOTOR
G):BK OR TIMER MOTOR ~
Ll BK BK
RD
HI-LIMITTH'ST
RADIANTSENSOR
"
\ TIMERjMOTOR
OR
OR
WH
,,II\
"
RO
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RIUINI
1IIII
YL
YL
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: 'IIISITIAIRITIII·
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, "'THERMALFUSE
I
i I I CENTBU I ~ iSWITCH BU I I
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WH
OPEN DOOR~K /--~\ SWITCH
I I GY
\.. "-_.... GY
CLOSED
YL
BUZZER
GND~
N
DG8000
HI-LIMITTH'ST
OR 20
YL 16
WH 42
BU 44
RD 49
RO
THERMALFUSE
RO49
BU 38
ELECTRICAL WIRING DIAGRAM
o BUZZER
ELECTRICAL SCHEMATIC
DG4000GY 47
NEUTRAL LINE IDENTIFIED BY .015TRACER AND TIN PLATED TERMINAL
R-BK 8
POWERCORD
LI
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-26
CAM INFORMATION AND CONTACT DATACOITACT CIRCUITS FUNCTION
Ill.
AUTO 0 AUTO 0REG ~ PERM PRESS ~ TIME DRY
o AIR 0~ FLUFF ~
Q) BK YB HEATER
® BU GY DRIVE MOTOR
@) BK-OR TIMER MOTOR
LlBK
BU o------lBKBK DG7600
TEMPSWITCH
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BK
RADIANTSENSOR
,\CYCLING/ TH'ST
/
W-RD
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/
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BK
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_.I'
OR
OR
WH
/-
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GY
CD BUZZER CDGY
DOORSWITCH
OPEN-- ....N ,"' ..
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CLOSED I CENT BU 1
~ SWITCH :I------------'===<l,-.. L:.....---{)~BK~---__1-------B~K~-L------------------__:---:_---------_~_ ___l
\ \ GAS VALVEI IL _
GND-.L
ELECTRICAL SCHEMATIC
BUZZER
Y-BK 21
GY50
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LI N G
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NEUTRAl LINE IDENTIFIED BY .015TRACER AND TIN PLATED TERMINAl
WH 42
GY51
THERMAL.FUSE
IGNITERRD 23
WH ,..24 N,-+-,,..-=~
,RADIANT ii:SENSOR
BK25
2B
RD 55
POWERCORD ELECTRICAL WIRING DIAGRAM SECTION 5. GENERAL INFORMATION 5-27
W-RDr---I I
:'" iiJi TEMPIi:! °ISWITCHI II I1 ...J
BK
DE7500
HI-LIMITTH'ST
HEATER
W-RD
CYCLING /"TH'ST (
\\
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[~K CD JBK
®OR
RD
GY YL
BUZZER
OVERLOADPROTECTOR OR
/, ,
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"WH
ES
ELECTRICAL SCHEMATIC
PUSH TO 1---
START I '"SWITCH: \
I '-IIISITIAIRITII
YL YL
CAM INFORMATION AND CONTACT DATA AUTO
I~I I ~ I 1~COITlCT CIRCUITS FUNCTION PERM PRESS AUTO AIR FLUFFIll. WITH PRESS CARE REG
CD YB GY DRIVE MOTOR
o YB OR I TIMER MOTORII Io YL-BU: HEATER ~
Io YL-BK BUZZER/HEATER !!il4/IYL-RD BUZZER/PULSER * I ~
• 'ON' 5 SECONDS EVERY 5 MINUT1
I RD
: I I CENT= __t- ~B~Uj.I_rj' : SWI TCHI I I BK
: ! I1.._- 1
L1
GND
DOORSWITCH
OPEN".-- .....
N WH/ .,
I\
""'-'CLOSEDL2
BK 32
HEATER
HI- LIMITTH'ST
THERMALFUSE
THERMALFUSE
(HEATER)
GY31
RD41
TERMINALBLOCK
BU 28
N.....J>-
.......>'"
Ll ~ N \ L2GROUND ELECTRICAL WIRING DIAGRAMSTRAP
BUZZER
* ON 5 SECONDS EVERY 5 MINUTES
CAM INFORMATION AND CONTACT DATA AUTO 0 AUTO 0 0CONTACT FUNCTION PERM PRESS F F AIR FLUFF F
/G. CIRCUITS WITH PRESS CARE F REG F F
CD YB GY DRIVE MOTOR
0 YB OR I TIMER MOTORI
® YL-BU I HEATER ~I
@ YL BK I BUZZER/HEATER ~
YL-RD BUZZER/PULSER * ~. .Ll
W-RDr----I II ..11I", wiIw 01Ill:: II I1 ...J
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BK 32
DG7500
RD
BUW-RD
HI-LIMIT/'TH'ST t
\
"
YL
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\\
YL
RD
THERMALFUSE
BUZZER
GY
GY51
OR
OR
GY50
WH
/ -, TIMER/ \MOTOR\ J'...... ..../
PUSH TOSTARTSWITCH
WH42
GY
GY
IH-f-+-->RD31
YL 35
ELECTRICAL SCHEMATIC
YL 48
DOORSWITCH
OR 20
CLOSED
G
WH 42BU 41
---,-, I
) !I
DOOR :SWITCH R I
UIOPEN N I
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\
LI N
N
GND--.e:::---
NEUTRAL LINE IDENTIFIED BY .015TRACER AND TIN PLATED TERMINAL
POWERCORD
ELECTRICAL WIRING DIAGRAM SECTION S. GENERAL INFORMATION 5-29
CAM INFORMATION AND CONTACT DATAAIR 1:1 TI ME DRY
I~lTi ME DRY
comCT CIRCUITS FUNCTION FLUFF ~ PERM PRESS REGULARIll,
CD BK GY DRIVE MOTOR
o BK-WB: HEATER
TEMPSWITCH ~D
DG7400
RADIANTSENSOR
BUI 11 I
IBKL---GA-S-VALVE-----~
r---I II ...J I,~ wIIe>: °1I II I1 ...I
L.:.'-"'-- -, BK
CYCLiNG /'TH'ST \
\
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'-
GY
WH
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GY
PUSH TOSTARTSWITCH
CLOSED
1---
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II
DOOR I
SWiTCH :¥OPEN : ~
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\ I YL YL' ...... __ ....../,"o---'-'-''-----'-'=Q--re RO
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1 I I BK
: : IL I
L1
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N
ELECTRICAL SCHEMATICGY 50
BU 41WH 42
BK32
W-RO 38
TEMPSWITCH
GAS VALVE
HI- LIMITTH'ST
CYCLINGTH'ST
BK 54
THERMALFUSE
GY51
GY50
RO30
WH42
DOORSWITCH
GLI N
NEUTRAL LINE IDENTIFIED BY ,015TRACER AND TIN PLATED TERMINAL
POWERCORD ELECTRICAL WIRING DIAGRAM
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-31
L1 DE9900 CANADA
HEATERRELAY
HEATER
\HI-LIMIT) TH'ST
YL BK-I
IIII
- I
BK
RBK
MOTORRELAY
R-BK
INTERIORLAMP
THERMALFUSE
(HEATER)
MICROPROCESSORCONTROL
CONNECTOR AA
2 3 6
GY
RBK
RD
DOORSWITCH/.--,~OPEN GY
WH ( , RD
\" _-'~/~C'oLO:':'S"-EO--------'
LINT FILTERSWITCH/'--'e-
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TRANSFORMER
R-BK
00 00000003 II
DRYNESSSENSOR
0
7 Y-BK
Y-BK I6 I
W-OR I5 I
W-OR I4 I
BU I3 I
PK I2 I
PK 22.6V I II I
L___ - I
W-BR
14 W-BK
13 o+'!LW-:!,B~K---r-----'
12 ot-'B::..:;R,-------,
II BR
I0 o+P,-,-K,--,-B~K'-,
9 PK-BK '--<l~~.-K> THERMISTOR
N
CONNECTOR BB I IMICROPROCESSOR CENT I .r!--o..
L2 CONTROL SWITCH: :='---------------------------.:=B"'-Uct--+. :
L__L J
GNO---.e:-
ELECTRICAL SCHEMATIC
160 0
LIMITTH'ST
HI-LIMITTH'ST
W-BR 55
HEATERRELAY
BK 33
GY31
BK 37
W-BU 9W-BU 10
RD 35
GYTHERMAL 34
FUSE(HEATER)
RD 17
DOORSWITCH
THERMISTOR
RBK20
R-BK 21
3 II
CONNECTOR BBMICROPROCESSOR CONTROL
ELECTRI CAL WI RI NG 01 AGRAM
. WH 29R-BK 32
R-BK 39
TERMINALBLOCK
BU 28
W-BR 14BK 37
DRYNESSSENSOR
14W-BK 44
s:: 13W-BK 43
12BR 53
On IIBR 52
;:00 PK-BK 19°OZ 10 PK-BK IBO-o~ 9Z;:on
Y-BK 7~O-l 7;:OO~ 6
Y-BK 6
OJTI 5W-OR 5
IUJg 4W-OR 4
UJ 3BU 3
0 PK 2;:0 2 PK I
I
Ll N L2fl L I -.l,
GNDL_= ~
POWER CORD
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-32
BU
"'HI-LIMIT) TH'ST
--, CYCLING" TH'STI
,/
WRD
YL ®
HEATINGW-BR ELEMENT
DE9800CANADA
r- 0-3 -
I IBM
CIRCUIT15M
BOARD W-RO
15M
01
lOOK1M
CAPACITOR I\ ,
RELAYSWITCH
0- rlle-,-----iBK
YLBUZZER ,.-----.-'I4-"-=---,---,-----l>----Q
OR
GY
ELECTRICAL SCHEMATIC
• 'ON' 5 SECONDS EVERY 5 MINUTESBUZZER/PULSER •
DRIVE MOTOR
TIMER MOTOR
ELECTRONIC CONTROL DISABLE
HEATER
HEATERYL-OR
@BK-GY
® WB-BR
o YL-BU
@ YL-YB
CD WB-RD
DOORSWITCH GY
CAM INFORMATION AND CONTACT DATA
CAM CIRCUITS FUNCTIONNO.
N
,f-...I
1""'1--..-.....-1 II I I/OPEN' \ L J
I CENT SWITCH
-V1"<,~ ~6Y~LL-'=f~==~~~E=;;;;~==;~~;;~;;;;;==~-----L-J" CL/
L2 '-~ RELAY SELECTOR SWITCH CODESSWITCH
DEL- DELICATE LD- LESS DRYMED- MEDIUM ND- NORMAL DRYREG- REGULAR MD- MORE DRY
INTERIORLIGHT
L1
ELECTRICAL WIRING DIAGRAM
CApACIToR
WBR55
HI-LIMITTH'ST
I
2 E C3 D 04 G N5 EN
,..-----'-"""',------l6 B E.---t---'=""""'----::::-::-=_:_:~ 7 0 C
OBK9 BAT.----':::-'-=="'---i 9 R 0
BK35 10 D RWH21 II
12
SENSORGN
---.e--DRYNESSSWITCH
PUSHTO
STARTSWITCH
THERMALFUSE
(HEATER)
BR 32
BK 33
RDI4
\
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-33
HEATINGELEMENT
,\\I
/1
W-BR
BU
--, CYCLING
" TH'STI
./
WRD
YL 0
DE9700CANADA
1M
CIRCUITBOARD0- rlI..-,-----iBK
OR
GY
ELECTRICAL SCHEMATIC
• 'ON' 5 SECONDS EVERY 5 MINUTES
Y-BK~ YL YL r-D~~ BUZZER r-----.---'I4-'-..::.....----,r------,---II----Q
I
TIMER MOTOR
BUZZER/PULSER •
HEATER
HEATER
DRIVE MOTOR
ELECTRONIC CONTROL DISABLE
YL-OR
® WB-BR
® YL-BU
@ YL-YB
@ BK-GY
CD WB-RD
CAM INFORMATION AND CONTACT DATA
CAM CIRCUITS FUNCTIONNO.
CAPACITOR (,) !W::~SOR
DOOR RELAYSWITCH SWITCH
N /OPE~ -=-..."..\-- ~'~Y~LL~f~:=:~~:=:t!=;;;=~==;~;;;~;~;;;==~-----L-J, CL/
L2 '-~ RELAY SELECTOR SWITCH CODESSWITCH
DEL- DELICATE LD- LESS DRYMED- MEDIUM ND- NORMAL DRYREG- REGULAR 'MO- MORE DRY ,
L1
ELECTRICAL WIRING DIAGRAM
CApACIToR
WBR55
HI-LIMITTH'ST
I
2 E C3 DO4 G N
PK27 5 E N,----;W;:---=R7D4~5;----j 6 B E
,--t----'=-'=''--:-::-c::-::-::-::-l7 0 C,-----""="'~-l8 A T0-BK9 9 R 0BK35 10 DR
WH21 II
12
SENSORGN
~DRYNESSSWITCH
PUSHTO
STARTSWITCH
RDI4
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ED/GD401 1090 SECTION 5. GENERAL INFORMATiON 5-34
L1
CAM INFORMATION AND CONTACT DATAAUTO I"''' I~~E DR I~comeT CIRCUITS FUNCTION PERM PRESS CARE F REG ~. YIll.
@ YB BR DRIVE MOTOR
@GY BR I PRESS CAREI
G)YB OR I TIMER MOTORI
G)YL BU 1 HEATER ~
I I
(1)1 YL BK I BUZZER/HEATER ~4 YL -RD I BUZZER/PULSER • I ~ I
• 'ON' 5 SECONDS EVERY 5 MINUTES
W-RDr---I I
:", iil: TEMP:~ c:SWITCHI I,-__J
BK
W-RD
W-BR
CYCLING ,,
TH'ST "\\
HI-LIMITTH'ST
HEATER
1- Y:.:;L:o BU
DE8600 CANADA
BUZZER
GY YL
OR
RDo
RD
ELECTRICAL SCHEMATIC
PRESS CARE ! ~K CD !BKSWITCH ~ ~
/--~\ BR <>-= ---,0~>"'-'-;:=====-_____l ORTH ERMAL r-t_--,-R:.:::D-o
FUSE
I I
: ~ I CENT= -=-=<BUcl---- : SWI TCH
I ~--P"B"'-K--------------.l...----------Ji : IL I
GND---.e::- DOOR
SWITCHOPEN
N/''--'e-
WH I \\ I YL\
/'"---CLOSEDL2
TEMPSWITCH
BU 44BR 46
BUZZER
\ DOORRD
SWITCH 30,..,...'",,""
lDN N
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TERMINALBK 32
BLOCK
Y-BK 43
OR 20
BU 44
Ll N L2
~,~ WIRING CONNECTION DIAGRAM
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-35
HEATER
,\ HI-LIMIT) TH'ST
W-BR
".-- ....../ ,
I 'CYCLING\ ) TH'ST, /
~ Y:.:;L-o BU
DE8410 CANADA
RO
BUZZER
GY YL
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./
OR
OR
WH
/-
II,,
'-
ELECTRICAL SCHEMATICOR 20
GY
PUSH TOSTARTSWITCH
TIMER MOTOR
* 'ON' 5 SECONDS EVERY 5 MINUTES
BUZZER/HEATERBUZZER/PULSER *
HEATER
DRIVE MOTOR
CLOSED
Ll
---," 1
) I
_/ :I
DOOR :SWITCH n:
OPEN N :I/--~ I
WH I \ I\ I YL I\, ./J..Q-.LC.':'---~dl-+" ;_..e----ol --' RD
: I : CENTL2 BU I rt'""' :SWITCH:=.--.J-------~a- __ 1 BK
1 i....-tl--{).!:!.~---+_-----------!
: : IL I
N
GND~
HI-LIMITTH'ST
WBR55
THERMALFUSE ~ -=~
(HEATER)
THERMALFUSE
GY31
RD41
TERMINALBLOCK
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\.
BUZZER
Ll N L2
~'"~ED/G.D401 1090
ELECTRICAL WIRING DIAGRAMSECTION 5. GENERAL INFORMATION 5-36
W-RDr---I I
::B iiJ: TEMPIn: °ISWITCHI 1I I1 ...J
BK
W-RD
BU
W-BR
YL
CYCLING /TH'ST "
\\
HI-LIMITTH'ST
HEATER
DE8420 CANADA
GY YL
RD
BUZZER
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,//
OR
OR
WH
/~
II\,
--
OVERLOADPROTECTOR
'\ THERMAL) FUSE
ELECTRICAL SCHEMATICOR 20
* 'ON' 5 SECONDS EVERY 5 MINUTES
DOORSWITCH
OPENWH
/........ -'e-,\ I YL\
""---~CLOSED
CAM INFORMATION AND CONTACT DATA AUTO AIR0 AUTO 0 0
t01ITAtT FUNCTION PERM PRESS FLUFF FREG
F TIME DRY FIll. CIRCUITS F F F
CD YB-GY DRIVE MOTOR ~
0 YB-
OR TIMER MOTOR
~ YL-BU HEATER ~
I
G) YL-BK BUZZER/HEATER ~4/IYL-RD BUZZER/PULSER * I ~
Ll
1
: 1 I CENTL2 BU I 'i" :SWITCH=--+-----------"-'''0-_ 1 BK
1 J,...-l...-..p.:::"'-----f-----------'--------i : 1L I
N
GNO-.e-
BK 32
TEMPSWITCH
HI-LIMITTH'ST
WBR55
THERMALFUSE
THERMALFUSE
(HEATER)
YL 42
BU 44
TERMINALBLOCK
,....v>c.o
\.
Ll N L2
~':~ ELECTRI CAL WI RI NG 01 AGRAM SECTION 5. GENERAL INFORMATION 5-31
CAM INFORMATION AND CONTACT DATAAUTO '\ 0 AUTO I~
0COIllACT CIRCUITS FUNCTION PERM PRESS ~ REG
AI R FLUFF FIll. F
CD BU GY DRIVE MOTOR
G)IBK OR TIMER MOTOR ~
@):BK YB HEATERI
W-RD
BK
r--
TEMP I 1
SWITCH:~ ;;J:,,,, 0 1I 1L __ ..I
," CYCLING/ TH'ST
/
....," HEATING
../ ELEMENT
W-RD
Y-BK
WBR
-\ TIMER)MOTOR
//
OR
OR
WH
/'
fr\
' ....
OVERLOADPROTECTOR
BUZZER
0-------1 BK
!.A"-()--l RD
I : CENT= __+- .-::e."<:i----.7 1SWI TCH BK
I 1 BK BK: i.-I
..----t>1"'""--------t------.L.----- ----.J
1 I 1L I
L1
GND~ DOOR
SWITCHOPEN
N/,..--~
WH I \\ I YL\
/,--'CLOSED
L2
ELECTRICAL SCHEMATIC DE8200 CANADA,.-- ....::G~Y..::4~7 rG~Y~2=.:4~ ---,
TEMPSWITCH
WRD38
WRD38
WBR55
HI-LIMITTH'ST
HEATER
THERMALFUSE
GY31
THER MAL ~--_----!.~~
FUSE(HEATER)
GY31
WIRING CONNECTION DIAGRAM
TERMINALBLOCK
DOORSWITCH
r.====;- YL 35
I'..>'"
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ED/GD401 1090 SECTiON 5. GENERAL INFORMATION 5-38
CAM INFORMATION AND CONTACT DATA AUTO \ AUTO 0 0COITACT FUNCTION PERM PRESS REG
F AIR FLUFF FNO. CIRCUITS F F
CD BK-BU HEATER
0 1GY YL DRIVE MOTOR
G)IBK OR TIMER MOTOR ~
I
L1 BK BK
OPEN DOORR- /--'.~ SWI TCHBK I \
\ I" ..... _ ....."f-O-
G-Y---,-----"-'-0
CLOSED
BUZZER
YL
YL
OR
OR
"
\ TIMERjMOTOR
CYCLINGTH'ST
CYCLINGTH'ST
HI-LIMITTH'ST
WBR55
,~HI-L1MITI TH' ST
PU
W-BR
THERMALFUSE
BK
YL54
YL 51
THERMALFUSE
(HEATER)
WH
BU 44
CANADADE4000 - DE8000
RD 49
RD
o BUZZER
ELECTRICAL SCHEMATICGY 47
RD49
TERMINALBLOCK
THERMAL /' '\FUSE \ I
(HEATER) , /
/.THERMAL\
FUSEWH
----," I
) I OVERLOAD, __ / :PROTECTOR
III
RIUINI
IIII
I I RD
: ~ : CENTL:..:2=-- ..........:B"-"'uJ--. :SWI TCH
I l-41--p=.BK"-- ---'
: i IL. I
N
GND~
\.
L1 N L2~"~
ELECTRICAL WIRING DIAGRAM
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-39
CAM INFORMATION AND CONTACT DATA~UTO I~ !TIME DRY I~COIUCT CIRCUITS FUNCTION PERM PRESS FLUFF ~ REG
II.eu YB-GY DRIVE MOTOR §
o YB-OR: TIMER MOTOR
G)IYL-BU I HEATER ~
I
@ YL-BK I BUZZER/HEATER !!4 'IYL-RD BUZZER/PULSER' ~ I
TEMPSWITCH
W-RD
1
Gi:01
11___ ...J
BK
W-RD
BU
W-BR
YL
CYCLING /TH' S T "
\\
HI-LIMITTH'ST
HEATER
DE7800 CANADA
BUZZER
GY YL
RD
-,\ TIMER'MOTOR
//
OR
OR
WH
f-BK
®
OVERLOADPROTECTOR
ELECTRICAL SCHEMATICOR 20
• 'ON' 5 SECONDS EVERY 5 MINUTES
CLOSED
L1
PUSH TO :--~START ISWITCH: \.
1\
DOOR I
SWITCH :¥OPEN :~// .... -'e- :T
WH I \ 1\ I YL YL 1', ....../"-O-..L:..='--------'-=Cl-\-+..
: I 1 CENTL:..:2=-_-+ -"'B"(u}-'__rt"" :SWI TCH
I ~B...:.~----+-----------'-----------'I I1 I ''--- --_1
N
GND~
YL 42
BK 32
HI-LiMITTH'ST
THERMALFUSE
(HEATER)
THERMALFUSE
BU 44
.....,.>'"
TERMINAL'--+--+----1---' BLOCK
\. ~",,,,Ol
~NC\lC\I
1::M:::r:::I:
>- lD ~ ~ rBc=.U...::2"'8 -j \
BUZZER '"......J>-
L1 N L2
~~~ ELECTRICAL WIRING DIAGRAM
ED/GD401 1090 SECTION S. GENERAL INFORMATION 5-40
o AIR 0~ FLUFF ~TIME DRY
oFF
CI) BK YB HEATER
G) BK-OR TIMER MOTOR
CAM INFORMATION AND CONTACT DATACOITACT CIRCUITS FUNCTION
Ill.
® BU GY DRIVE MOTOR
TEMPSWITCH
W-RD
I
ct:01
\I___ ..J
BK
DE7600CANADA
W-BR
Y-BK
W-RD
CYCLING /
TH'ST "\\
HI-LIMITTHERMOSTAT
HEATINGELEMENT
'\ TIMER)MOTOR
~/
OR
OR
WH
/~
(,\
"
OVERLOADPROTECTOR
BUZZERTHERMAL
FUSE(HEATER)/--,
L1
RD:...----,..r
I : CENTL::..:2=-_-t- ....::..:;q-_.rr' I SWITCH
1 1 BK
: 1 11 1 1L. I
DOORSWITCH
OPEN~-,
N WH / .•\
-=----~:>f:-e-...- "',J<I>-'Yc=L__--'-Y=..,L0--......\", ~'-~
CLOSED
GND----L
ELECTRICAL SCHEMATIC
RESISTOR
TEMPSWITCH
BK 32
W-RD 38
CYCLINGTH'ST
Y-BK 2\
HI-LIMITTH'ST
HEATER
BK 33
THERMALFUSE
(HEATER)
THERMALFUSE
GY31
WH22
TERMI.NALBLOCK
WIRING CONNECTION DIAGRAM
DOORSWITCH
r;::::~=;lYL 3sL...-'::i--'==c=--1l...------.
.- .::..;GY'-4..:...:,7 ,...::G'-'-Y-=2:-'4 -,
r-rt)NcnN(\IN(\I
:!ltC~::I:::I:
mm~~
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-41
W-RDr---I 1
i'" ..JI TEMPIl:! ~:SWITCHI II I1 ...I
BK
W-RD
BU
W-BR
YL
CYCLING /'TH'ST "
\,
HI-LIMITTH'ST
HEATER
DE7500 CANADA
BUZZER
RD
GY YL
-,j TIMER'MOTOR
_/
OR
OR
WH
/-
II\,
....
•
l~K®
GY
ELECTRICAL SCHEMATIC
* 'ON' 5 SECONDS EVERY 5 MINUTES
THERMALFUSE
(HEATER)
PUSH TOSTART YLSWITCH
CAM INFORMATION AND CONTACT DATA AUTO
I~ IAUTO I~ I AIR FLU~QIlTICT FUNCTION PERM PRESS
Ill. CIRCUITS WITH PRESS CARE REG
(i) YB-GY DRIVE MOTOR
0:YB OR I TIMER MOTOR
G) YL-BU I HEATER ~
I
G) YL BK I BUZZER/HEATER
~YL -RD BUZZER/PULSER *L1
DOORSWITCH
OPEN--,/' ..
WH I \\ I YL', ../.J.<>....L'-':'----'-"°l-+.. j...._.__-P--JRD
CLOSED : I I CENTL2 BU I rt" ISWITCH=-=---+--------"-"<:1--_1
I J..-4.--~BK~---+_---------.L---------I
: ! IL I
N
GND.-L
BK 32
HI-LIMITTH'ST
WBR55
THERMALFUSE
THERMALFUSE
(HEATER)
YL 42
TERMINALBLOCK
'"<t
..J>-
'"<t
~~~~I:::.::J:::I:
>- ltl ~ ~ r=B"'-U..=2"'-B --I
BUZZER
L1 N L2
~ ELECTRICAL WIRING DIAGRAM
ED/GD401 1090 SECTION 5. GENERAL INFORMATION 5-4'
CAM INFORMATION AND CONTACT DATA AIR 0 TIME DRY 0 TIME DRYF FtOIITlCT CIRCUITS FUNCTION FLUFF F PERM PRESS F REGULAR1111.
G) BK-GY DRIVE MOTOR
o BK-WB I HEATER
HEATER
THERMAL
BK(FUSE
(HEATER) CDGY
GY
CYCliNG /' -TH'ST I
I\\ , ,
BK c---}.-"GYI I
"~ " :<.? di TEMP,
I \ TIMER HI-LIMIT IITH'ST I I~ 0ISWITCH
\ ,MOTOR \ 1 1, ,1 I"- -"1_- _..J
WHBK
PUSH TOSTART
SWITCH
1
: 1 I CENTBU 1 rt' :SWITCH W-BR
-==---I---------~::I_I---e ;'_.a--b!B~K~ _1_---------L------------J
: i 1~-- I
Ll
GND~ DOOR
SWITCHOPEN
N WHI .........-~\
\ I YL\
"'--""CLOSEDL2
ELECTRICAL SCHEMATIC DE7400 CANADAGY 24
BK 32
TEMPSWITCH
HI-liMITTH'ST
WBR55
CYCLINGTH'ST
THERMALFUSE
THERMALFUSE
(HEATER)
TERMINALBLOCK
r.=~~::;-] YL 35
DOORSWITCH
.., NO'IN NN
"" :C:CCD ~ ~ ~B~U.:.2~8---------1
Ll N L2
~"F~ED/GD401 1090
ELECTRICAL WIRING DIAGRAMSECTION 5. GENERAL INFORMATION 5-43
\.
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Maytag Appliances Sales Company
Customer Service240 Edwards St.Cleveland, TN 37311
. -