Installation and service manual, Sequence of operation, Energy saving recommendations – Lochinvar F0600187510 User Manual

Installation and Service Manual

ENERGY SAVING
RECOMMENDATIONS

1. Keep the pool covered when not in use. This will cut heating

cost, reduce water evaporation, conserve chemicals and reduce
load on the filtering system.

2. Reduce pool thermostat to 78°F or lower.

3. Use an accurate pool thermometer to monitor water

temperature.

4. Use a time clock to start filter pump no earlier than 6 a.m.

during pool season. This is the time when nightly heat loss
stabilizes.

5. Turn the pool heater “OFF” and drain during long periods when

the pool will not be used (winter, vacations, etc).

6. Follow a regular program of preventative maintenance for your

pool heater each new swimming season. Check heat exchanger,
controls, burners and operation of the pool heater.

7. For pools used only on weekends, the thermostat may be set

lower than 78ºF during the week. Lower setting to a range that
can be easily achieved in one day's operation of the pool heater.

SEQUENCE OF OPERATION

OVERVIEW
This sequence of operation can be considered the order of events in
sequential order that occur after the pool heater has received a call
for heat. The process begins with 120VAC power entering the pool
heater and ends with the pool heater going into an idle state after
completion of a successful call for heat.

Note: The following

descriptions do not include remotely connected devices that may
be connected to the pool heater. Refer to the wiring diagram for
actual point to point wiring connections that show power delivery.

1. Place the POWER switch in the “ON” position.
2. 120VAC power is supplied to the control transformer along with

L1 and F1 on the ignition module.

3. 24VAC is supplied to the adjustable high limit control.
4. 24VAC is then supplied to the 110°F mixed water limit control

and onto the 200°F fixed limit control.

5. If equipped, 24VAC is supplied to a low water cut-off and then

to the optional high and low gas pressure switches.

6. 24VAC is supplied to the terminal strip and onto the switching

contacts of the digital temperature control.

7. The digital temperature control will then call for heat.
8. 24VAC is then supplied to the water pressure switch and the

flow switch (if equipped).

9. 24VAC is then supplied to the TH terminals on the ignition

module.

10. As power is applied to the TH terminals on the ignition

module, 120VAC is switched from the F2 terminal to start the
combustion air fan(s).

11. 24VAC is supplied to the C terminal of the air pressure switch.

As the low air switch makes, power is supplied to the optional
louver/venter enable contact relay.

12. 24VAC is then supplied to the PS terminals on the ignition

module.

13. The combustion air fan operates for the pre-purge period.
14. At the end of the pre-purge period, 120VAC is applied to the

hot surface igniter and the trial for ignition light.

15. The hot surface igniter proves 1800°F (982°C) ignition

temperature by the current draw through the ignition module.

16. The ignition module supplies voltage to the MV terminals onto

the gas valve(s).

17. The first stage gas valve opens and supplies gas to the orifice

inlet to pre-mix.

18. The gas/air mixture is forced into the burner and out of the

burner ports under pressure.

19. The hot surface igniter lights the gas/air mixture and then

serves as a flame sensor to prove main burner flame by
rectification.

20. Burners for all stages are now firing at rated input on the

500,000 through 750,000 Btu/hr models.

21. On the 990,000 through 2,070,000 Btu/hr models

approximately 50% of the input is now energized.

22. 24VAC is supplied to a digital temperature control which times

out and then energizes the next 50% of the gas valves.

23. The remaining gas valves open and supply gas to the orifice

inlet to pre-mix.

24. The gas/air mixture is forced out of the burner ports and light

by carry-over from the burners currently firing.

25. The heater is now firing at full rated input.

HEAT TRANSFER PROCESS

26. Heated products of combustion pass over the heat exchanger

transferring heat to the water.

27. The rate of flue product movement is controlled by “V” baffles

on the heat exchanger to maximize heat transfer.

28. Flue products pass into the flue collector and are exhausted

from the unit.

END OF SEQUENCE

29. Set point temperature for the pool water is satisfied.

30. Power to the gas valves is turned “OFF”.

31. The combustion air fan runs for a 30 second post purge timing

and turns “OFF”.

32. The unit is now in a Standby Mode waiting for the next “Call

for Heat”.

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