SEQUENCE OF OPERATION

Power on.

Heater in standby mode.

Thermostat calls for heat.

Blower motor starts.

Blower operation closes the normally open blower prover/ blocked outlet safety pressure switch.

On proof of airflow, Honeywell S8680J flame control module energized.

45 seconds prepurge cycle begins.

Following prepurge cycle, the pilot gas valve is energized.

At the same time, the electronic spark generator in the module produces a high voltage spark pulse output.

The voltage generates a spark at the ignitor that lights the pilot.

If the pilot does not light (or flame signal is less than 1 micro

A)within 15 seconds system locks out and must be reset by turning burner switch “OFF” for a minimum of 1 minute. During system lockout, blower still runs.

When the pilot flame is established (flame is sensed by flame rod), the main gas valve is energized.

Main gas flows to main burner where it’s ignited by the pilot flame. Now heater is in Heating Mode.

During the Heating Mode:

If gas line pressure drops below the setting point, the flame module is de-energized, gas valves closed, blower still runs.

If gas line pressure drops below the setting point then gas line pressure increases to above the setpoint, heater starts again from purging cycle.

If gas line pressure fluctuates around the setpoint too quick

(less than a second) burner may still run with excessive gas valve ON/OFF cycle you must turn off the unit immediately, re-adjust the gas line regulator and/or install a larger gas supply line!

If the blower inlet and/or intake hood, or flue outlet/hood is/are blocked for any reason, the safety switches will open, which will de-energize the flame control module.

The spark generator is off.

The flame module monitors pilot flame current. Should the flame failure occur during the Heating Mode, the unit will start again from purging cycle.

Thermostat is satisfied, switch opens.

Power is interrupted to the flame control module and blower motor. Gas valves are closed.

Heater is in Standby Mode.

Thermostat is satisfied, switch opens.

Power is interrupted to burner, turning off blower and ignition control module. Solenoid and main gas valves are closed.

Insufficient blower pressure causes safety pressure switches to open.

WATER TEMPERATURE CONTROL

DANGER

THIS WATER HEATER IS EQUIPPED WITH AN ADJUSTABLE THERMOSTAT TO CONTROL WATER TEMPERATURE. HOT WATER TEMPERATURES REQUIRED FOR AUTOMATIC DISHWASHERAND LAUNDRY USE CAN CAUSE SCALD BURNS RESULTING IN SERIOUS PERSONAL INJURY AND/OR DEATH. THE TEMPERATUREAT WHICH INJURY OCCURS VARIES WITH THE PERSON’S AGE AND TIME OF EXPOSURE. THE SLOWER RESPONSETIMEOFCHILDREN,AGEDORDISABLEDPERSONS INCREASES THE HAZARDS TO THEM. NEVER ALLOW SMALL CHILDREN TO USE A HOT WATER TAP, OR TO DRAW THEIR OWN BATH WATER. NEVER LEAVE A CHILD OR DISABLED PERSON UNATTENDED IN A BATHTUB OR SHOWER.

THE WATER HEATER SHOULD BE LOCATED IN AN AREA WHERE THE GENERAL PUBLIC DOES NOT HAVE ACCESS TO SET TEMPERATURES.

SETTING THE WATER HEATER TEMPERATURE AT 120°F (49°C) WILL REDUCE THE RISK OF SCALDS. Some states or provinces require settings at specific lower temperatures.

Below you will find listed the approximate time-to-burn relationship for normal adult skin. Short repeated heating cycles caused by small hot water uses can cause temperatures at the point of use to exceed the thermostat setting by up to 20F°. If you experience this type of use, you should consider using lower temperature settings to reduce scald hazards.

Temperature

Time to Produce 2nd & 3rd

Setting

Degree Burns on Adult Skin

180°F (82°C)

Nearly instantaneous

170°F (77°C)

Nearly instantaneous

160°F (71°C)

About 1/2 second

150°F (66°C)

About 1-1/2 seconds

140°F (60°C)

Less than 5 seconds

130°F (54°C)

About 30 seconds

120°F (49°C)

More than 5 minutes

 

 

Valves for reducing point-of-use temperature by mixing cold and hot water are available. Also available are inexpensive devices that attach to faucets to limit hot water temperatures. Contact a licensed plumber or the local plumbing authority.

The water temperature is controlled by a thermostat, fig. 2, which has two sensing elements. One sensor is located near the top of the tank and the other is near the center. The thermostat is set in the lowest position before the heater leaves the factory.

The dial is adjustable and may be set for 1200 (49°C) to 1800F (82°C) water temperature, but 1200F (49°C) is the recommended starting point. It is suggested the dial be placed on the lowest setting which produces an acceptable hot water supply. This will always give the most energy efficient operation. The temperature control has a 4F° fixed differential.

ADJUSTMENT PROCEDURE (Initial Start-Up)

A minimum dynamic gas supply pressure of 8” w.c. for natural gas is required before making any adjustment to the gas control pressure regulator. Attempts to adjust the regulator during periods of low gas supply pressure could result in overfiring of the heater when the gas supply pressure returns to normal.

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State Industries 740A, 540A, 650A warranty Sequence of Operation

740A, 540A, 650A specifications

State Industries is well-known for its high-quality water heating solutions, and among its product lineup, the 650A, 540A, and 740A models stand out for their advanced features and technology. Each of these models cater to different needs, making them versatile choices for both residential and commercial applications.

The State Industries 650A model is designed for efficient hot water delivery, featuring a powerful heating element that ensures rapid heating of water. It has an impressive recovery rate, which is crucial for homes with higher hot water demands. The 650A also integrates a robust insulation system that minimizes heat loss, ensuring energy efficiency. With a capacity of 65 gallons, it is perfectly suited for larger households or small commercial setups.

Next in the lineup is the 540A model, which strikes a balance between performance and size. With a capacity of 54 gallons, this model is ideal for medium-sized homes. It employs advanced heating technology that significantly reduces energy consumption while providing consistent hot water supply. The 540A is also equipped with a user-friendly digital interface that allows homeowners to monitor temperatures and set preferences with ease. Additionally, it features durable construction materials, promoting longevity and reliability in everyday use.

Finally, the 740A model offers the highest capacity of the three, boasting an extensive 74-gallon storage tank. This model is particularly advantageous for larger families or businesses that require substantial hot water availability. Similar to the 650A, the 740A employs advanced insulation techniques, ensuring that energy loss is minimized. It's also equipped with smart technology that allows for remote monitoring and adjustment, providing convenience for busy homeowners.

All three models utilize high-efficiency heating elements and are designed for easy installation and maintenance. They incorporate safety features such as temperature and pressure relief valves to ensure safe operation. Moreover, these units are built to meet or exceed industry standards, making them a reliable choice for anyone looking to invest in a hot water solution. Overall, State Industries continues to lead the market with innovative products like the 650A, 540A, and 740A, catering to diverse hot water needs with efficiency and reliability.