30" AR Wiring current flow

1. 30" AR Wiring current flow

2. - SELECT PROGRAM - Operation Overview Normal Lights, alarms and fans Sabbath Sabbath Mode

3. Operation

4. 30” All Refrigerator Schematic COOLING OPERATION This is the Schematic Diagram for the 30” All Refrigerator. In order to begin this training move the cursor over the Main Power Switch. Using your mouse, left Click the switch to begin.

5. 30” All Refrigerator Schematic COOLING OPERATION When the Main Power switch is turned on, Line Voltage and Neutral are sent to the High Voltage board. Line Voltage is supplied at E10 (L) and Neutral is supplied at E9 (N). This supplies the on-board transformer to provide DC operating voltage. ADVANCE

6. 30” All Refrigerator Schematic COOLING OPERATION The N.C. Light Relay supplies Neutral to the cavity lights and the Sabbath Mode Relay. When set to Sabbath Mode via the Keypad input, the Light relay is energized. This removes the Neutral side from the cavity lights and Sabbath relay coil. This is explained under the Sabbath ModeSection ADVANCE

7. 30” All Refrigerator Schematic COOLING OPERATION Line Voltage is also supplied from the Main Power switch to E3. This is the common Line voltage feed for the Compressor Relay and the Evaporator Fan relay. ADVANCE

8. 30” All Refrigerator Schematic COOLING OPERATION When the unit is switched ON and the temperature is set, the DC Fan Relay energizes and sends 30 VDC from E1 to Terminal # 4 in the Temperature Translator. This is connected to the coil of the SPDT relay. ADVANCE

9. 30” All Refrigerator Schematic COOLING OPERATION 30 VDC enters the Temperature translator and the internal relay energizes. The Relay contact closes to the Normally open contact ADVANCE

10. < 180k Ω 30” All Refrigerator Schematic COOLING OPERATION With the relay engaged, the 180k Ω resistor is brought into the circuit The board reads this as a temperature of approximately 11° F. The LV board thinks the simulated Freezer is too warm and will turn on the cooling system. ADVANCE

11. 30” All Refrigerator Schematic < 3.5 volts D.C. COOLING OPERATION The L.V board will now close the compressor relay on the H.V. board. 120 volts is sent to the inverter and the condenser fan motor. Click mouse to advance At the same time 3.5 Volts D.C is sent to the inverter Click mouse to advance The compressor and condenser fan motor will begin operation ADVANCE

12. 30” All Refrigerator Schematic COOLING OPERATION At the same time that the compressor and condenser fan motor are running, the evaporator fan relay also closes. Click mouse to advance 120 volts is sent to the upper door switch (N.O.) as well as the N.C. contact of the Sabbath mode relay Click mouse to advance From there, the voltage enters the temperature translator and supplies primary voltage to the internal transformer ADVANCE

13. 30” All Refrigerator Schematic COOLING OPERATION With power supplied to terminals 1 (L) and 2 (N) of the internal transformer of the Temperature Translator , 24 VDC is produced on the secondary side at terminals #5 and #6. Click mouse to advance 24 volts is sent to the upper and lower cavity fan motors. The fan motors activate and begin to circulate air throughout the compartment. ADVANCE

14. 30” All Refrigerator Schematic COOLING OPERATION When the Fresh Food Compartment is cold enough, the thermistor is read by the LV Board. The L.V. board will now need to cycle off the fans and the compressor. ADVANCE

15. 30” All Refrigerator Schematic COOLING OPERATION The L.V. board now opens the DC fan relay, removing the 30 volts being sent to the internal relay, terminal #4 of the temperature translator. ADVANCE

16. 30” All Refrigerator Schematic COOLING OPERATION The relay now closes the N.C. contact. This removes the 180k resistor from the circuit and brings the 560k on-line. ADVANCE

17. < 560k Ω 30” All Refrigerator Schematic COOLING OPERATION With the relay engaged, the 560k Ω resistor is brought into the circuit The board reads this as a temperature of approximately -23° F. The L.V board interprets this as a satisfied Freezer Thermistor and will now shut off the cooling system. ADVANCE

18. 30” All Refrigerator Schematic COOLING OPERATION The L.V. board now opens both the compressor relay and the evaporator fan relay. ADVANCE

19. 30” All Refrigerator Schematic COOLING OPERATION With the compressor relay open, we no longer have 120 volts to the compressor and condenser fan motor. ADVANCE

20. 30” All Refrigerator Schematic COOLING OPERATION At the same time, the Evaporator fan relay also opens. With the primary voltage removed from the Temperature Translator, we remove our 24 VDC to the evaporator fans. The unit has now shut off. ADVANCE

21. Sabbath Mode

22. In Normal operation, the Light Relay is always closed. This provides constant Neutral for the cavity lights and the Sabbath Mode Relay When the Sabbath Mode is activated via the keyboard program, the Light Relay on the H.V. Board is energized. This causes the N.C. contact to Open. ADVANCE

23. 30” All Refrigerator Schematic SABBATH MODE When the Sabbath Mode is activated, the relay will energized and the N.C. contact will open. As you can see, we no longer have a neutral feed to the cavity lights or the Sabbath Mode relay. The light relay will stay engaged until the unit is taken out of Sabbath Mode. ADVANCE

24. 30” All Refrigerator Schematic SABBATH MODE In Normal Mode operation, when the unit is operating (Compressor, Condenser fans and evaporator fans) and you open the door, the cavity lights come on and the evaporator fan stops. Above we have the door closed and the cavity fans are running. The Compressor and condenser fans are running as well. Lets see what happens we the door is opened. ADVANCE

25. 30” All Refrigerator Schematic SABBATH MODE With the door open, The lower Light switch closes and sends line voltage to the cavity lights. We have voltage present BUT because the light relay is open there is no neutral return so the lights do not operate. Click mouse to advance ADVANCE

26. 30” All Refrigerator Schematic SABBATH MODE At the same time that voltage is being sent to the cavity lights, it is also being sent to the coil of the Sabbath Mode relay. Click mouse to advance With no Neutral return to the coil, the NC contacts in the relay remain closed. So even though the fan switch contacts are open, we still have a closed circuit to the Primary coil of the Temperature Translator fan transformer. ADVANCE

27. 30” All Refrigerator Schematic SABBATH MODE Therefore, when the unit is set to Sabbath Mode, the lights will not turn on and the cavity fans will continue to run with the door open. Also in Sabbath Mode the door open alarm feature is disabled. ADVANCE

28. Lights, alarms and fans

29. 30” All Refrigerator Schematic Lights, alarms and fans When ever the door is opened, the fans will shut off (AR units only) and the lights will turn on. Click the Door Light Switch to open the door

30. 30” All Refrigerator Schematic Lights, alarms and fans Line voltage travels through the door light switch to all the cavity lights. ADVANCE

31. 30” All Refrigerator Schematic Lights, alarms and fans Neutral runs from E12, through the Light relay and exits E13. Click mouse to advance From E13, neutral flows into the lights ADVANCE

32. 30” All Refrigerator Schematic Lights, alarms and fans When the door is open and the lights come on, line voltage is also sent to the board to E8 (freezer) and E7 (Refrig). ADVANCE

33. 30” All Refrigerator Schematic Lights, alarms and fans When the door is open and the lights come on, line voltage is also sent to the board to E8 (freezer) and E7 (Refrig). This is the signal voltage to the HV Board that the door is open. When the built-in timer expires, the Door Alarm signal will tone. Closing the door will remove the voltage and the alarm will reset. ADVANCE

34. 30” All Refrigerator Schematic Lights, alarms and fans When ever the door is opened and the unit is in Sabbath mode, the fans continue to run. If set to standard operation, the fans will shut off (AR units only) This is controlled by the use of a device called the Sabbath mode Relay Click the Door Fan Switch to open the door

35. 30” All Refrigerator Schematic Lights, alarms and fans With the Door open, the door fan switch contacts open. Voltage no longer flows through the switch. ADVANCE

36. 30” All Refrigerator Schematic Lights, alarms and fans With the Door open, the lower light switch closes and provides power for the lights and the door open alarm. It also supplies voltage to the Sabbath Mode relay coil. ADVANCE

37. 30” All Refrigerator Schematic Lights, alarms and fans With a neutral return through the NC light relay on the HV board, the relay will engage and open the NC contact Click mouse to advance With the Sabbath mode relay engaged, and the door fan switch contact open, we have removed line voltage from the primary of the step down transformer inside the Temperature translator ADVANCE

38. 30” All Refrigerator Schematic Lights, alarms and fans With power removed from the primary of the step down transformer we no longer have 24 VDC to the cavity fans. The fans stop and the lights are on ADVANCE

39. 30” All Refrigerator Schematic • Condition: • Normal Operation • Door Closed • Lights Off • Cooling fans running • Compressor and …Condenser operating Open Door EXIT

40. 30” All Refrigerator Schematic • Condition: • Normal Operation • Door open • Lights On • Cooling fans off • Compressor and …Condenser operating Close Door EXIT

41. 30” All Refrigerator Schematic • Condition: • Sabbath Mode • Door Closed • Lights off • Cooling fans running • Compressor and …Condenser operating Open Door EXIT

42. 30” All Refrigerator Schematic • Condition: • Sabbath Mode • Door open • Lights off • Cooling fans running • Compressor and …Condenser operating Close Door EXIT