[pdf-embedder url=’http://appliancetechmanuals.com/wp-content/uploads/whirlpool/tech-sheet-12728124.pdf’ title=’tech-sheet-12728124′]Wiring Diagram Technical Information Side by Side Refrigerator

! WARNING NOTE: Refer to Service Bulletin F-897-S for complete diagnostics of Ice ‘N Water dispenser control

To avoid risk of electrical shock that can cause death or severe personal injury, disconnect unit from power before Due to a possibility of personal injury or property damage, always contact an authorized technician for servicing unless tests require power. Discharge capacitors through a 10,000-ohm resistor before handling. Wires service or repair of this refrigerator. removed during disassembly must be replaced on correct terminals to ensure proper grounding and polarization. Refer to Service Manual RS1300005 for installation, operating, disassembly, icemaker, testing, and troubleshooting information.

! CAUTION

All safety information must be followed as provided in Service Manual RS1300005.

! WARNING

To avoid risk of electrical shock that can cause death or severe personal injury, disconnect unit from power before servicing unless testing is required. Discharge capacitors through a 10,000 ohm resistor before handling. Wires removed during disassembly must be replaced on correct terminals to ensure proper grounding and polarization.

No-Load Performance, Controls in Normal Position

Kw/24 hr ±0.4 Percent Run Time Cycles/24 hr Refrigerator Center Freezer Compartment ±10% ±25% Compartment Average Food Average Food 65° 90° 110° 65° 90° 110° Temperature ±3°F Temperature ±3°F Ambient °F 65° 90° 110° 65° 90° 110° 26 cu ft 1.2 1.98 2.82 65° 90° 110° 1

37 57 75 34 35 19 33 37 39 -3 -0

Temperature Relationship Test Chart

Evaporator Evaporator Suction Line Average Total Suction Head Pressure ±7°F Wattage ±10% ± 5 PSIG Outlet Inlet Pressure ±3°F ±3°F ±2 In. Hg

Ambient °F 65° 90° 65° 90° 65° 90° 65° 90° 65° 90° 65° 90° 26 cu ft -25 -19 -24 -19 72 98 132 146 6″(vac.) 0 87 137

Schematic

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Component Specifications Dispenser Operation

! WARNING ! WARNING

To avoid risk of electrical shock that can cause death or severe personal injury, disconnect unit from power before To avoid risk of electrical shock that can cause death or severe personal injury, disconnect unit from power before servicing unless tests require power. Discharge capacitors through a 10,000-ohm resistor before handling. Wires servicing unless tests require power. Discharge capacitors through a 10,000-ohm resistor before handling. Wires removed during disassembly must be replaced on correct terminals to ensure proper grounding and polarization. removed during disassembly must be replaced on correct terminals to ensure proper grounding and polarization.

Component Specifications all parts 210/220 VAC ! CAUTION Compressor run capacitor 115VAC/60HZ unless noted Compressor 15 µfd ± 10% To avoid risk of damaging electronic circuit board. Electro-Static Wrist strap must be worn when replacing Volt …………………………………………….. electronic circuit board. Damper control Capacitance ………………………………… 965 BTUH Freezer temperature control Seconds to dispense 10 oz. water Condenser motor BTUH ………………………………………….. 60 Hz / 168 watts Watt …………………………………………… 19.5 amps± 15% Supply pressure 35 psig 45 psig 55 psig 75 psig Evaporator fan motor Current Lock rotor…………………………. 1.50 amps± 15% 6.0 Current Full load …………………………… 2.79 ohms± 15% Filter model 9.0 8.0 7.0 7.0 Overload/Relay Resistance Run windings ………………. 4.49 ohms± 15% Resistance Start windings ……………… Bypass installed Thermostat Closing temperatures Settings 50.6°F Filter model 11.0 10.0 8.0 Evaporator heater #1……………………………………………….. 42.3°F Adaptive defrost. board #4……………………………………………….. 34.1°F New filter installed Auger Motor #7……………………………………………….. Water Valve (primary) Temperatures A minimum supply pressure of 35 psig for water filter units. Minimum pressure Water Valve (secondary) Settings 9.4°F ±3° requirement ensures that water valves close and sufficient water volume is available to fill icemaker. Light switch #1 – out……………………………………….. 0.0°F ±1.5° Proper fill is 140 cc. of water in 7.5 seconds. Failure of water valves to close because of low pressure Light switch / Interlock #4 – out……………………………………….. -4.3°F ±3° DC Solenoid (Ice Chute) #7 – out……………………………………….. will result in fill-tube freeze-up or dripping at cavity. Clockwise Rotation (facing end opposite shaft) Adaptive Defrost Board (ADC) RPM 1250 RPM 4.2 watts±15%@115VAC Watt ……………………………………………. 0.063 ma± 15%@115VAC Current…………………………………………

Rotation (facing end opposite shaft) Clockwise The ADC adapts the compressor run time between defrosts to achieve optimum defrost intervals by monitoring the cold control and length the RPM…………………………………… 2800 RPM defrost heater is on. Watt……………………………………. 5.9 ±15% watts@115VAC After initial power up, defrost intervals are 6 hr.(initial), 8 hr.(minimum), 96 hr. (maximum). Defrost is delayed for 4 min. after the control cycles Note: Fan blade must be fully seated compressor off. on shaft to achieve proper airflow. 3.51 amps± 15% Optimum defrost is 15 minutes. Each additional minute the defrost thermostat remains closed, 1 hr. is subtracted from the previous defrost interval. 142°F ±6° Each minute the thermostat opens prior to optimum defrost, it extends the next defrost interval 1 hr. ADC will terminate defrost at 30 minutes even Ult. trip amps @ 158°F (70°C)………… 257°F ±3° if defrost thermostat has not opened and will reset the defrost interval to the 8 hr. minimum setting. Close temperature ………………………. 10 seconds ±5 A 6 minute delay occurs after defrost thermostat opens before compressor is allowed to run. If defrost thermostat opens within 30 seconds of Open temperature ………………………. 14 amps ±2amps beginning of defrost, delay is by passed. Four hours of continuous compressor run will initiate a defrost, and defrost interval re-sets to 8 hours. Short time trip (seconds) ……………….. Short time trip (amps @77°F (25°C) .. Power up If defrost thermostat is open, compressor is powered momentarily. ADC checks to confirm defrost thermostat is open and immediately restores compressor circuit. This check may cause compressor overload to trip in high ambient conditions. This is normal, compressor Volt ……………………………………………. 120/240 VAC should start back up within 5 minutes. Watt …………………………………………… 1000 watts If defrost thermostat is closed, defrost is powered. Current………………………………………… 10/5 amps Resistance across terminals: To Force or Terminate defrost: Toggle freezer door light switch 5 times within 6 sec Above 45°F ±5° ……………………………. Open If cold control is open, a forced defrost will not occur until the cold control closes, then the ADC will immediately switch the function to defrost. Below 15°F ±7°…………………………….. Closed If cold control is closed and defrost terminator or heater circuit is open when defrost is forced, ADC shuts unit down momentarily and immediately 115 VAC restores power to refrigeration circuit. Volt …………………………………………….. 450 ±5% watts @ 115VAC If cold control is closed, a forced defrost is immediate without any delay (When the ADC cycles the unit into defrost on it’s own defrost it is delayed Wattage ………………………………………. until 4 minutes after the compressor has been cycled off by the cold control.) Resistance…………………………………… 29 ±5% ohms When ADC is in defrost, cold control is closed and refrigeration is forced, ADC bypasses 6 minute dwell time. Input Voltage Readings and Checks Volt …………………………………………….. 120VAC, 60 HZ E2 to E4 …………………………………………….Line voltage should be present when the unit is powered See adaptive defrost board section E6 to E4 …………………………………………….Line voltage should be present when the cold control contacts are closed E5 to E4 …………………………………………….Line voltage should be present when the ADC is in defrost mode and the defrost terminator contacts are Rotation (facing end opposite shaft) Power to blue and white is clockwise. Power to orange and white is counterclockwise closed RPM …………………………………………… 17± 3 RPM E7 to E4 ……………………………………………Line voltage should be present when the freezer door is open (freezer light switch closed) Watts …………………………………………. Brown side 35w, Purple side 20w Watts ………………………………………….. Brown side 35w, Purple side 20w Output Voltage Readings and Checks Type…………………………………….. E1 to E4 ……………………………………………Line voltage should be present when the ADC is in defrost mode Volt……………………………………… SPST NC E3 to E4 ……………………………………………Line voltage should be present when the ADC is not in the defrost mode or compressor dwell mode Current………………………………….. 125/250 VAC 8 / 6 amps NOTE: Refer to Service Bulletin F-897-S for complete diagnostics of Ice ‘N Water dispenser control

Type…………………………………….. SPDT NO/NC Volt……………………………………… 125/250 VAC Current………………………………….. 8 / 6 amps

Resistance across leads ……………….. 101 ohms ± 10%

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