Goodman Mfg AMV8 XVII. Before Leaving AN Installation, XVIII. Repair and Replacement Parts

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UPRIGHT FILTER REMOVAL

To remove filters from an external filter rack in an upright upflow installation, follow the directions provided with external filter rack kit.

Clean, wash and dry a permanent filter. When using a metal filter, both sides should be sprayed with a dust adhesive as recommended on adhesive container. Spray adhesives for use with permanent metal filters can be found at some hardware stores. BE SURE AIRFLOW DIRECTION ARROW POINTS TOWARDS THE BLOWER.

Inspect filter. If your dirty filter is the disposable type, replace dirty with the same type and size filter. If your dirty filter is a permanent metal filter, clean as follows:

Wash, rinse, and dry the permanent filters. Both sides should then be sprayed with a filter adhesive as is recommended on the adhesive container. Many hardware stores stock spray adhesives for use with permanent filters.

If badly torn or uncleanable, these filters must be replaced by equal size permanent, high velocity filters. Throwaway filters must not be used as replacement for permanent filters. Under normal use, permanent filters should last for several years.

INDUCED DRAFT AND CIRCULATOR BLOWER MOTORS

The bearings in the induced draft blower and circulator blower motors are permanently lubricated by the manufacturer. No further lubrication is required. Check motor windings for accumulation of dust which may cause overheating. Clean as necessary.

FLAME SENSOR (QUALIFIED SERVICER ONLY)

Under some conditions, the fuel or air supply can create a nearly invisible coating on the flame sensor. This coating acts as an insulator causing a drop in the flame sense signal. If the flame sense signal drops too low the furnace will not sense flame and will lock out. The flame sensor should be carefully cleaned by a qualified servicer using emery cloth or steel wool. Following cleaning, the flame sense signal should be as indicated in the Specifications Sheet.

IGNITER (QUALIFIED SERVICER ONLY)

If the igniter and the surrounding air are at about 70°F and the igniter wires are not connected to any other electrical components, the resistance of the igniter should not exceed 200 ohms. If it does, the igniter should be replaced.

BURNERS

WARNING

TO PREVENT PERSONAL INJURY OR DEATH, DO NOT REMOVE ANY INTERNAL COMPARTMENT COVERS OR ATTEMPT ANY ADJUSTMENT. ELECTRICAL COMPONENTS ARE CONTAINED IN BOTH COMPARTMENTS. CONTACT A QUALIFIED SERVICE AGENT AT ONCE IF AN ABNORMAL FLAME APPEARANCE SHOULD DEVELOP.

Periodically during the heating season make a visual check of the burner flames. Turn the furnace on at the thermostat. Wait a few minutes, since any dislodged dust will alter the normal flame appearance. Flames should be stable, quiet, soft and blue with slightly orange tips. They should not be yellow. They should extend directly outward from the burner ports without curling downward, floating or lifting off the ports.

CLEANING (QUALIFIED SERVICER ONLY)

1.Shut off electric power and gas supply to the furnace.

2.Remove screws securing manifold to burner bracket. Slightly pull manifold out and away from burner bracket. Burners will drop. Re-secure manifold to burner bracket.

3.Tilt burners to slotted side of burner bracket. Rotate burners clockwise to remove.

4.Use bottle brush to clean burner insert and inside of burner.

5.Replace burner (opposite of removal). Ensure burners are fully seated on burner bracket tabs and are properly aligned.

6.Turn on electric power and gas supply to the furnace.

7.Check furnace for proper operation. Refer to “Operational Checks” section to verify burner flame characteristics.

XVII. BEFORE LEAVING AN INSTALLATION

Cycle the furnace with the thermostat at least three times. Verify cooling and fan only operation.

Review the Owner’s Manual with the homeowner and discuss proper furnace operation and maintenance.

Leave literature packet near furnace.

XVIII. REPAIR AND REPLACEMENT PARTS

When ordering any of the listed functional parts, be sure to provide the furnace model, manufacturing, and serial numbers with the order.

Although only functional parts are shown in the parts list, all sheet metal parts, doors, etc. may be ordered by description.

Parts are available from your Amana distributor. Functional Parts List-

Single Stage Gas Valve

Blower/Box Gasket

Natural Gas Orifice

Rollout Limit Switch

Propane Gas Orifice

Auxiliary Limit Switch

Burner

Heat Exchanger

Hot Surface Igniter

Door Switch

Flame Sensor

Transformer

Gas Manifold

Blower Wheel

Ignition Control

Blower Housing

Blower Mounting Bracket

Blower Cutoff

Pressure Switch

Blower Motor

Pressure Switch Hose

Motor Mount Bracket

Induced Draft Blower

Capacitor

Collector Box

 

IO-247A

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Contents Installation & Operating Table of Contents XII. Start-up Procedure and Adjustment XIV. Safety Circuit DescriptionXV. Troubleshooting XVI. MaintenanceII. Safety To the InstallerHomeowner Notice To the OwnerAdditional Safety Considerations Electrostatic Discharge ESD PrecautionsIII. Product Application American National Standards InstituteIV. Location Requirements and Considerations National Fire Protection AssociationCSA International National Fire Protection Association, IncThermostat Influences Furnace SuspensionThermostat Location Existing Furnace RemovalCombustion and Ventilation AIR Requirements Z223.1 Section GeneralEquipment Located in Unconfined Spaces Space, UnconfinedSpecially Engineered Installations Louvers and Grilles VI. Category I Venting Vertical VentingMinimum Vent VII. Exterior Masonry Chimneys Category I Furnaces only Checklist SummaryCheck 1 Proper Chimney Termination Check 3 Chimney Crown Condition Check 4 Debris in CleanoutCheck 5 Liner Condition Check 7 Complete the Installation Check 6 Dilution AIRFIX 1 Liner Termination FIX 2 -CHANGE Venting ArrangementsWiring Harness VIII. Electrical ConnectionsVolt Line Connections Junction BOX RelocationVolt Thermostat Wiring Single Stage Thermostat ApplicationSetting the Heat Anticipator Volt Dehumidistat WiringSINGLE-STAGE Thermostat Application Fossil Fuel ApplicationsHigh Altitude Derate IX. GAS Supply and PipingAltitude NAT. GAS Orifice Size Meter Time in Minutes and Seconds for Normal Input Rating of Furnaces Equipped for USE with NaturalGAS AT 0 2,000 Feet Altitude GAS Piping ConnectionsGAS Piping Checks Upflow InstallationsPropane GAS Tanks and Piping Circulating AIR and Filters Propane GAS Piping ChartsDuctwork AIR XI. Sequence of Operation Integrated Ignition Control XII. START-UP Procedure and Adjustment White-Rodgers Model 36E54 Connected to ManometerGAS Manifold Pressure Measurement and Adjustment GAS Input Rate Measurement Natural GAS onlyTemperature Rise Circulator Blower Speed AdjustmentAdjust Blower Heat OFF Delay Circulator Blower FAN Timing AdjustmentXIII. Safety Circuit Description XIII. Operational ChecksXV. Troubleshooting XVI. MaintenanceXVII. Before Leaving AN Installation XVIII. Repair and Replacement PartsTroubleshooting Chart Continuously Wiring Diagram Are Subject to Change Without Notice

AMV8 specifications

Goodman Manufacturing has long been recognized as a key player in the HVAC industry, and the Goodman AMV8 stands out as a remarkable addition to their lineup of high-efficiency air conditioning units. Designed with the latest technological advancements, the AMV8 focuses on providing enhanced performance, energy efficiency, and reliability, making it a popular choice among homeowners and contractors alike.

One of the primary features of the Goodman AMV8 is its high SEER (Seasonal Energy Efficiency Ratio) rating, which typically reaches up to 16 SEER. This impressive rating signifies that the unit is capable of delivering substantial energy savings compared to older models. By using less electricity to cool your home, the AMV8 not only impacts utility bills positively but also contributes to reducing your carbon footprint.

The Goodman AMV8 is built with a powerful and efficient scroll compressor, known for its ability to operate quietly while maintaining a smooth and reliable performance. The advanced design minimizes vibration, ensuring a quieter operation, which is particularly appealing for residential settings. Additionally, the unit features a multi-speed ECM blower motor that enhances airflow consistency and operational efficiency.

Construction quality is also noteworthy with the Goodman AMV8. The cabinet is made of durable galvanized steel, coated with a corrosion-resistant finish that protects against rust and weather-related wear and tear. This durability extends the lifespan of the unit and provides assurance of quality to consumers.

Another characteristic that elevates the AMV8 is its integrated comfort control system. This feature allows users to easily manage cooling settings, ensuring optimal comfort throughout the home. The intelligent design of the unit includes a communicator control board, which optimizes system performance and simplifies installation.

The Goodman AMV8 also incorporates environmentally conscious technologies, including the use of R-410A refrigerant. This refrigerant is known for its efficiency and lack of ozone depletion potential, aligning with standards for environmentally friendly HVAC options.

In summary, the Goodman AMV8 is a high-efficiency air conditioning unit that showcases impressive features such as a high SEER rating, a reliable scroll compressor, a durable exterior, and advanced comfort control capabilities. Its commitment to energy efficiency and environmental consideration make it an exemplary choice for those seeking a dependable and cost-effective cooling solution for their homes. Whether for new installations or replacements, the AMV8 stands as a testament to Goodman Manufacturing's dedication to quality and innovation in HVAC technology.