March 19, 2026

243297613 ICE MAKER OEM

243297613 ICE⁢ MAKER OEM is ‌an electromechanical ice-making assembly designed as⁤ a direct-replacement ice maker module for compatible refrigerators and‌ standalone ⁤icemakers. It is a ⁣self-contained unit that ‍typically incorporates⁤ the ice ‌mold, fill ⁤interface for the⁤ water ⁢inlet, an ejector/harvester mechanism, a drive motor or geartrain, and the control switch or​ electronic module that sequences fill, freeze and harvest cycles.

Inside an appliance, the ice maker controls‌ the measured delivery⁤ of⁣ water to the mold, ⁣senses when ice has frozen, ⁤and actuates the harvest mechanism to release cubes⁤ into the storage bin. the ‍component ​interacts with the ⁣appliance⁣ water supply and inlet​ valve, the refrigerator’s temperature sensing (thermostat/thermistor) and refrigeration system, and often‌ the main appliance control board or an ice-level sensor. Proper mechanical mounting, sealing of the⁣ water⁣ inlet, and correct electrical connections​ are essential for coordinated operation and to prevent leaks, incomplete fills, or unintended⁣ cycling⁢ that can affect freezer temperature management.

In ⁣this ⁢article you will find a ‍technical overview of‌ the 243297613 ice maker’s function and typical internal elements, guidance on compatibility and ​fitment considerations ⁣with various refrigerator models, common failure symptoms to ⁤recognize​ (such as no ice ​production, continuous fill, partial cubes, or water leakage), ‍systematic​ troubleshooting ‍checks to isolate electrical, ‍mechanical, and water-supply faults, and practical replacement⁢ considerations including safety ⁣precautions,⁣ connector and mounting ⁤alignment, ‌and verification tests after ‌installation.

Table‌ of Contents

Functional Role‍ and Interface‍ Specifications ‍of the Ice Maker Assembly

243297613 ICE MAKER⁢ OEM is the modular ice-production unit that controls water metering, ⁤freeze timing, and mechanical ejection of ice within the freezer compartment. The assembly contains ‌the ice​ mold, a fill-port interface to⁣ the refrigerator water valve, a motor/geartrain to rotate ejector⁢ blades, and a temperature-sensing element ‌or harvest ‌thermostat that sequences⁣ the‍ fill and harvest operations. Electrically the unit connects​ to⁤ the refrigerator harness via ⁣a‍ multi-pin⁤ connector that supplies line and neutral‌ (or⁣ low-voltage supply ⁢on some models), motor drive, heater/defrost control‌ (if present), and a thermostat feedback line;​ mechanically it mounts​ to a⁤ molded bracket and‌ uses ‍a ‍quick-disconnect ‌water inlet. In normal operation the sensor detects ⁤when the mold reaches⁤ the⁤ target freeze temperature,signals the harvest ⁤sequence,energizes the heater or⁣ changes the motor ⁢torque to release cubes,then ​opens the water valve to refill – ‍timing and sensor thresholds determine cycle frequency and cube hardness.

The part⁢ interfaces with the refrigerator control system through⁢ defined electrical and⁢ mechanical ⁢connections, so compatibility depends on matching the harness ‌pinout, mounting geometry, and water-inlet‌ thread rather than simply the external appearance.⁢ Typical troubleshooting actions for a failing unit include verifying ‌supply voltage at the connector, checking ⁤continuity of the⁢ harvest thermostat, confirming the water ⁢inlet⁢ valve actuates⁣ during⁢ the⁣ fill interval, and inspecting the‍ ejector motor​ and gears for ​mechanical binding; these checks help ​determine⁤ whether replacement of ⁤the​ 243297613 ICE MAKER ⁤OEM or a⁤ system-level ​component ​is required. practical examples: if the mold fills but cubes do not eject, isolate the motor/heater circuit ⁣and ⁤check for a stuck ejector or broken drive; if the mold never fills,⁢ measure the valve ⁤drive voltage at the‌ ice maker connector and⁣ inspect ‌the inlet fitting for blockages.

  • Electrical interface: multi-pin ⁤harness with power, motor, thermostat feedback, and ⁢optional heater output
  • Mechanical ⁢interface: bracket mounting and⁤ quick-disconnect water inlet
  • Behavioral cues: freeze-detect ⁢→ harvest → eject → refill; ‌deviations indicate sensor,⁢ drive, or valve faults
Item Description
Power Typically 115-120 VAC in‍ north America (verify unit label); some systems ⁢use low-voltage control – confirm before testing
Control signals Multi-pin connector: power, neutral/return, motor ​drive, thermostat/feedback, optional heater output
Harvest method Heater-assisted or mechanical torque-based ejection depending⁣ on⁣ design
Typical cycle time Varies with freezer‌ temperature; commonly ⁢90-240 seconds from ​freeze detection to refill
Mounting Bracketed assembly ‌with ⁣quick-disconnect water inlet and ⁤standard screw⁢ locations​ for OEM fitment

How‌ the 243297613 ICE ⁢MAKER OEM ⁢Operates: Cycle Sequence, ‌Sensors, and Control Signals

The 243297613 ICE MAKER OEM ‌integrates⁣ a ​controlled sequence ⁢of freeze, harvest, and refill operations driven by timed ⁣actuations and⁤ sensor ⁤feedback.During a⁤ normal cycle ​the module monitors a mold temperature sensor (thermistor or bimetal), accepts a harvest command from the refrigerator ⁢control board, energizes a small ⁤heater ⁣or defrost element to loosen the⁤ ice, ⁤and then powers‍ the eject ​motor‍ or actuating arm to dump‌ cubes into the ​bin. Control signals typically ⁣include⁣ a motor/drive output,a heater output,and a ⁤water-valve/solenoid command; the⁣ part⁢ translates those inputs into⁢ coordinated outputs while using the mold ⁤temperature⁢ or eject-position feedback to ⁢prevent overrun ‌or premature filling.

Compatibility depends on matching the harness pinout, mounting, and electrical interface of the host⁤ appliance: some refrigerators provide‍ low-voltage‌ DC ‌logic signals while⁣ others deliver line-voltage switching, so confirm ​pin assignments before replacement.For practical troubleshooting,​ trace the control board outputs‌ and verify continuity on the heater ​and motor, and check the ⁤temperature sensor ⁣resistance⁣ across a known temperature range;‍ common failure modes are a cold mold that never⁤ reaches harvest threshold, a stuck fill valve, or⁢ a non-responsive eject ⁤motor. Example‌ cycle steps ⁤and ⁢key sensor functions are listed ‍below to aid diagnosis‍ and integration.

  • Freeze: mold fills ​and cools until sensor reaches setpoint.
  • Harvest: heater energizes ⁢to release ⁤ice,then eject‍ motor⁢ runs.
  • Refill:⁣ water‌ valve opens briefly ⁤to refill mold and ‌cycle resets.
Item Description
Thermistor /​ Bimetal Measures mold temperature to‍ trigger harvest timing or ‌confirm ice release.
Heater Briefly warms mold surface ​during harvest​ to loosen cubes.
Eject motor / Cam Rotates the ejector to‌ expel ice into the bin after harvest.
Water valve / Fill solenoid Controlled by the board to supply ‌a metered ⁢amount ⁤of water to the mold.
Control inputs Drive and enable signals ‍from the main refrigerator controller; verify voltage⁣ and pinout for compatibility.

Common Failure Symptoms and Step‑by‑step ⁢Diagnostic procedures‍ for Ice⁤ production Issues

The‍ 243297613 ICE MAKER OEM is‍ an integrated ice-production assembly⁤ that‌ freezes measured fills of water in a​ molded⁣ tray, detects when cubes are ⁣ready, and initiates ⁣a harvest and refill‌ sequence using a motor-driven ejector and a mold heater ⁢or thermostat.​ In normal operation‌ the ‍module‍ expects⁤ a timed drive signal or⁤ enable from the⁢ refrigerator control board and​ a⁢ functioning water inlet valve; mechanical fit, connector pinout, and sensor thresholds are ⁣matched to OEM specifications so replacement compatibility‌ is persistent by part number and connector arrangement rather‌ than by appearance alone. Understanding the assembly as a subsystem that⁣ interfaces with the⁢ door, water supply, and main control board ‌clarifies failure modes that originate inside the ice maker versus those caused ‌by​ upstream​ systems (such as,‍ low water pressure or a failed ⁣inlet solenoid).

Troubleshooting follows a methodical capture of symptoms,‌ verification of control signals,⁤ and component-level electrical checks. Start by documenting⁢ the exact symptom, then put ⁣the ice maker into a service⁤ or forced cycle to observe ‌whether the motor⁢ runs, the⁢ heater energizes, and the ⁣water valve opens; ​use a multimeter ⁤to ⁤ measure ⁣continuity of the motor windings ‌and heater elements and to verify the valve coil sees the expected ‍drive voltage when⁤ a fill is commanded. ⁣If harvest is present but fill is ⁣absent, focus on the inlet valve and fill ‍tube; if fill occurs⁤ but cubes are soft or small, suspect a thermostat/heater or time-in-freeze issue. When practical, substitute‌ a known-good harness or control board‌ connector to rule out wiring or connector faults before replacing the ⁣entire ice ​maker assembly.

  • No ice production ⁢- could indicate no power/command to the module, failed motor or motor switch, or blocked ‍water supply/inlet valve.
  • Small,hollow,or slow-forming cubes ‍- typically low water ‍fill volume,reduced freeze time,or defective thermostat/heater.
  • Continuous⁤ harvest‌ or repeated cycling ⁢-‍ often a failed thermostat or control logic error causing false ready signals.
  • Water leakage or overflow during fill – check ⁢inlet‍ valve seating, fill tube alignment, and water pressure at ⁤the valve.
Item Description
Motor / Ejector Drives cube ejection ⁢and advances cam switches; verify mechanical movement‍ and winding continuity.
Mold⁣ Heater ‌/ thermostat Warms the mold during harvest and senses mold temperature; check⁤ for continuity and ‍proper operation during harvest cycle.
Water ⁢Inlet Valve Controls ‌water ​fill quantities; ⁣verify coil‌ resistance and presence of ⁢drive voltage when fill is commanded.
Control Interface Connector/harness and board ⁣signals that enable cycles; confirm ⁣pinout compatibility ⁣and⁢ presence ⁤of control pulses.

model Compatibility,⁤ Replacement ⁤Considerations,‍ Installation Procedures, and Post‑Install⁢ Troubleshooting

The 243297613‌ ICE MAKER OEM ⁣is a ​self-contained ice-making assembly that replaces⁢ the​ mold, motor/gear ​set, fill​ cup, and sensing elements in ⁢compatible refrigerators. In practice, compatibility hinges on three⁢ mechanical and electrical interfaces: the⁤ mounting pattern and screw​ locations, the water-inlet orientation and fill-cup ‌geometry, and the​ electrical‌ connector/pinout and sensing method (integral thermistor or board-driven thermostat). Before ordering or installing a ⁣replacement, compare the old unit to ​the new one for matching bracket positions and harness⁤ type and confirm whether the refrigerator control board‌ expects a resistive temp sensor or a ⁢direct thermostat signal; mismatches in any of these areas commonly produce no-fill,⁤ constant-harvest, ​or⁤ incorrect ‌cube size faults without visible ⁤mechanical‍ damage.

Install the assembly⁣ with the water ⁤supply ​shut​ off and mains power removed, transfer or⁤ secure⁤ the correct mounting fasteners, attach the‍ water line to​ the‌ fill ‍cup with ‍a clean inlet screen, ⁤and⁣ reconnect ‍the electrical ⁤harness⁢ paying attention to pin orientation. After restoring ‍water ‌and power,force or observe at ‌least one complete freeze/harvest ‍cycle while watching for ⁤correct fill level,solid cube formation,motor ‍drive⁤ noise,and​ any water leaks at the inlet; many faults can be isolated ‌by simple checks: verify ‍water supply and inlet⁢ screen cleanliness if​ ther is ‍no⁢ fill,confirm heater/thermostat continuity if the unit harvests ⁤continuously,and ensure the ejector motor turns freely if ​cubes are not being ejected. Use ⁣the checklist ‍below for quick diagnostics and the reference table for common interface​ items.

  • Confirm part fit: mounting holes,⁢ bracket clearance, and bin alignment.
  • Verify electrical connector⁢ pinout and sensor type against service manual.
  • Check water inlet: flow, ​screen cleanliness, and seal‍ integrity at ‌the​ fill cup.
  • Observe one full freeze/harvest cycle before declaring ‌failure.
Item Description
Mounting Match⁣ screw locations and orientation to ensure bin ‍clearance and ejector alignment
Connector Verify number of pins⁢ and pin⁣ functions (motor,heater/thermostat,sensor)‍ before⁤ connecting

Q&A

What is​ the 243297613 ICE⁣ MAKER⁤ OEM?

The 243297613 is an ‍OEM ‌ice-maker module assembly ‌sold as ⁤a⁤ direct-replacement⁤ ice maker for compatible refrigerators. It is a complete‌ ice-maker unit (motor/gearbox,mold,fill cup and associated sensors/heater) rather than a single small component. Always ⁤verify⁢ compatibility by ‍checking⁤ your refrigerator’s model number and the ‍OEM parts list or ‌diagram before ordering.

What common symptoms indicate the 243297613 ice maker has​ failed?

Common symptoms ⁣include: no ice ​production, only a partial or soft​ fill of water into the mold, the ejector not advancing, continuous water into ⁣the ice-maker or overflow, noisy operation, or ‌visible mechanical damage (broken gears‍ or cracked mold). These symptoms ‌can ⁤be caused by ‍the‌ ice maker itself or by related systems (water inlet valve, water supply, control board, freezer temperature), so‍ perform⁤ diagnostic‌ checks ⁤before replacement.

How do I troubleshoot ​the ice maker before replacing it?

Start with the​ simple checks: confirm the freezer⁢ temperature is in the correct range (usually about 0-5°F / -18​ to⁤ -15°C), confirm the water supply is on ‍and the water⁣ line/filter ​is not clogged, and‌ inspect the fill cup for blockages. Check the water inlet valve‌ and‌ supply pressure⁢ (low pressure ⁢frequently causes small or no ice).⁣ Listen ⁢and⁤ watch​ during a cycle: does ​the‌ motor try to run? If no, check for power at the ice-maker connector. ⁤if ⁤the unit attempts ⁤to run but won’t fill or ‍eject,the problem is likely mechanical‍ or electrical ​inside the ice-maker. If⁤ unsure, consult‍ the‌ service ‌manual or a technician‌ for further ⁢electrical diagnostics.

How‌ can⁢ a technician electrically test the 243297613 ice maker?

Turn off power and water before accessing the ice-maker. Remove the cover ​to ⁤expose the ‍connector⁢ and internal components. With the fridge powered and ​in a diagnostic or run⁣ state, measure for the ‌expected supply​ voltage at the ice-maker harness during the appropriate cycle (consult⁤ the refrigerator’s‌ wiring diagram ⁤for exact voltages-many systems ⁢use⁢ 120 VAC for fill/harvest circuits, but designs⁢ vary). Use an ohmmeter to check ‍continuity of the motor⁤ and heater⁢ circuits⁢ and⁤ a thermistor/thermostat if⁢ present. Compare measured values to the service specification.If the motor/heater‍ has ⁢an open circuit ⁣or the ​thermistor/thermostat ⁢is out of spec, ‌the ice-maker is defective. If the harness ⁣never⁢ receives proper voltage, investigate⁣ the ⁣control board, wiring, ⁤or door switches first.

How do I ‍remove and replace the 243297613 ice maker?

Basic replacement steps: 1) Unplug the refrigerator and ⁤shut off the water ⁤supply. 2) ⁢Empty the ‌freezer or move contents aside and remove the ice bucket and any trim to access the ice-maker. 3) Remove mounting screws/clips and gently lower the ice-maker ​out of ‍its bracket. 4) Disconnect the ‍electrical connector and ⁢any water tubing if applicable. 5) Install the​ replacement by reversing removal: connect ​harness, secure mounting screws, level the unit ⁣per manufacturer instructions, restore water, and restore power. after installation, run‌ a ⁢test/diagnostic cycle (or allow‌ two to four hours) to confirm proper fill and cycle.‌ If‍ you are unsure, have a‍ qualified appliance technician‍ perform the replacement.

Why is the ice maker overfilling‌ or leaking water?

Overfilling or leaking ⁢is commonly caused by ‌a faulty water ⁢inlet valve (stuck open or weak seal), incorrect water pressure, a cracked or warped ⁣ice-maker reservoir⁣ or fill​ cup, or ‌an internal​ level/float sensor ⁤failure. First ‌confirm ⁤the water supply is not overpressurized and the water valve is shutting off after the fill ​period. Inspect the inlet​ valve and tubing for leaks, and examine the ice-maker fill cup‍ for cracks or​ misalignment.​ Replace ‍the ​inlet valve‌ or the ice-maker if‌ the‍ component itself‍ is leaking or ⁢not controlling fill properly.

Why are the ice cubes small, hollow ⁣or soft when‍ using⁤ the​ 243297613?

Small or hollow ice cubes‌ usually​ indicate insufficient water volume during⁢ the fill (low water pressure, ​clogged filter, partially closed ‌shutoff valve) or elevated freezer temperature preventing full ⁣freeze. A short/failed harvest‍ cycle can also prevent full freezing time.⁢ Verify correct water pressure and a‍ clean ‍water filter, ensure the freezer temperature is within ⁢the recommended range, and confirm ​the ice-maker is ‍getting⁤ a full⁢ fill and ​adequate time to freeze before harvest. ⁣Replace the ice-maker if the fill volume is correct ‍but the internal thermostat/thermistor⁤ or cycle ‌timing is faulty.

Where⁤ should I buy a replacement 243297613 ICE MAKER OEM and ‌what about warranty?

buy from the refrigerator manufacturer’s parts ‍department, an ⁣authorized ​parts distributor, or a ‍reputable appliance-parts retailer to ensure you⁣ receive‍ a genuine OEM unit. Verify ⁢the part‍ number against your refrigerator’s ⁣model number​ before purchase.​ OEM parts typically‌ include a limited warranty-check the seller/manufacturer warranty ‌period and return policy. If the appliance is under ‍the‍ manufacturer’s ⁣warranty or an extended ⁤service ‍plan, contact them first to avoid voiding coverage.

Final Thoughts

The 243297613‌ ICE MAKER​ OEM serves⁤ as a critical component in compatible refrigeration units, responsible for the reliable formation and dispensing of ice. As an original​ equipment⁤ manufacturer part, it is indeed designed to ⁣meet the specifications and quality standards intended by ​the appliance maker, contributing to consistent performance, efficient ​operation, and prolonged service life of the ice production system.

Accurate diagnosis and selective replacement are⁢ essential ⁣to preserve appliance‌ reliability and avoid needless expense. ⁣Proper troubleshooting-preferably following manufacturer guidelines or performed by a qualified​ technician-helps⁣ distinguish between repairable faults and‌ situations that⁢ require replacing⁣ the 243297613 ice⁤ maker. When replacement is necessary, using the OEM part and⁢ adhering to ⁣recommended installation and⁤ safety procedures‍ helps restore intended ‍function ⁣and maintain warranty and performance expectations.

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