The pressure regulator on LP gas models is adjusted for 10.0" w.c. manifold pressure and is intended to prevent over-firing only. Do not attempt adjustment of the built-in pressure regu- lator unless the supply pressure is at least 7.0" w.c. on natu- ral gas or 14.0" w.c. on propane gas. Check the location of the ignition electrode and the flame sensor for correct gap setting.

Ignitor

Flame

 

Sensor

MAXIMUM

NUMBER

MAXIMUM

GAS ORIFICES

INPUT

of

 

 

BTUH/BURNER

 

 

(BTUH)

BURNERS

NATURAL

PROPANE (LP)

 

 

 

 

 

 

 

 

 

 

400,000

8

50,000

#30

#48

 

 

 

 

 

HEAT EXCHANGER AND BURNER ORIFICE SPECIFICATIONS

NOTE: Gas appliances located more than 2000 feet above sea level must be derated 4% per 1000 feet of total elevation and that variance in gas heating value and specific gravity require change in manifold pressure to obtain rating, it is mandatory that the input be adjusted at the installation site. All installations should be made as outlined in the latest edition of the National Fuel Gas Code ANSI Z223.1, section “Procedures To Be Followed To Place An Appliance in Operation”. Refer also to the “User’s Information Manual” supplied with the unit for additional information on the gas furnace.

Unit Shutdown

1.Set the thermostat to lowest setting.

2.Turn off the electrical power supply to the unit.

3.Remove the heat exchanger door on the side of the unit by removing screws.

4.Move the gas control valve switch to the OFF position. Do not force.

5.Close manual gas shutoff valve external to the unit.

6.Replace the heat exchanger door on the unit.

7.If cooling and/or air circulation will be desired, turn ON the electrical power.

NORMAL SEQUENCE OF OPERATION

HEATING

This unit has one (RS) Manual Reset Limit Control Switch. Check the limit to make sure it has not tripped. The limit may arrive at the job site tripped as a result of shipping shock.

If the ventor motor comes on, but the unit does not attempt ignition, check if the ALS (Automatic Reset High Limit Con- trol Switch) requires resetting.

1.With electricity and gas turned on, the system switch in the “HEAT” or “AUTO” position and the fan switch in the “AUTO” position, the thermostat will close the circuit between unit terminals R and W (R-W) when the temperature falls below the thermostat setting.

2.D1 on IIC energizes relay IDMR.

3.Relay IDMR energizes the ventor motor IDM.

4.Operation of the vent motor closes the pressure switch PS located in the burner compartment. the control then initiates a 15-second pre-purge time delay. During this period, the ventor motor will clear the combustion chamber of any residual gas.

5.After the pre-purge period, the ignition control energizes the Wl-C gas valve and simultaneously initiates a “three (3)-try” spark ignition sequence.

6.When the burners are ignited, a minimum four (4) micro-amp DC current will flow through the flame between the sensor electrode and the grounded burner.

7.When the controller proves that the flame has been established, it will keep the gas valve energized and discontinue the ignition spark. First stage manifold pressure will be approximately 2.0" w.c. for natural gas and 7.0" w.c. for propane (LP).

8.If the control is unable to ignite the burners after its initial attempt, it will initiate another purge and spark sequence. A third purge and spark sequence will be initiated if the second attempt is unsuccessful. If the third attempt is unsuccessful, the controller will close the gas valve and lock itself out. It may be reset by momentarily interrupting power. This may be accomplished by briefly lowering the room thermostat set-point below room temperature, or by shutting off the main power to the unit. (See TP-105 for more details.)

9.Integrated ignition control will close its normally open contacts after a delay of approximately 30 seconds. This action energizes contactor BC and starts the supply fan motor. Operation of the supply fan circulates air across the heat exchanger and delivers heated air to the conditioned space.

10.When the space temperature rises, the thermostat will open R-W. Opening R-W will cause the gas valve to close, and the furnace to shut down.

11.The furnace has three high temperature limit controls, which can shut down the burner. They do not shut down the ventor motor.

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Goodman Mfg ANSI Z21.47CSA-2.3 Normal Sequence of Operation, Heat Exchanger and Burner Orifice Specifications
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ANSI Z21.47CSA-2.3 specifications

Goodman Manufacturing's ANSI Z21.47/CSA 2.3 standard is pivotal in ensuring safety and performance in gas appliances and their components. This industry benchmark outlines rigorous safety regulations for residential gas conversion appliances, specifically focusing on categories like storage water heaters, pool heaters, and certain types of boilers.

One of the main features of Goodman’s offering under this standard is its emphasis on user safety. The ANSI Z21.47/CSA 2.3 certification mandates the implementation of robust safety mechanisms to prevent accidents associated with gas leaks or malfunctions. This includes enhanced safety controls and features that mitigate the risk of combustion-related incidents, ensuring peace of mind for both manufacturers and consumers.

Technologically, Goodman Mfg has integrated advanced electronic ignition systems into its products, eliminating the need for pilot lights while enhancing energy efficiency. This technology not only reduces the risk of accidental fires but also contributes to lower energy consumption, making it an environmentally friendly option. Additionally, models compliant with this standard often incorporate smart technology, allowing for remote monitoring and control. This feature further enhances user convenience and energy management, granting homeowners the ability to optimize their energy usage.

In terms of construction and design characteristics, Goodman’s appliances are built to withstand varied operating conditions. They are designed with high-quality materials that provide durability and reliability over time, essential for maintaining performance and safety. These appliances typically feature built-in corrosion protection mechanisms to prolong their lifespan, especially in humid or corrosive environments.

Moreover, Goodman’s adherence to the ANSI Z21.47/CSA 2.3 standard signifies their commitment to energy efficiency, aligning with modern-day sustainability goals. Appliances that meet this standard often exceed governmental energy efficiency mandates, making them a wise investment for consumers aiming to reduce their carbon footprint while enjoying high-performance utility.

In conclusion, Goodman Manufacturing’s adherence to ANSI Z21.47/CSA 2.3 marks a significant dedication to safety, efficiency, and innovation in the gas appliance sector. Through advanced technologies, robust safety features, and a commitment to user satisfaction, Goodman continues to set the standard for excellence in home heating and water heating solutions.
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