Goodman Mfg GHS8, GDS8, GMS8 User Manual

These furnaces comply with requirements embodied in the American National S tandard / National Standard of Canada ANSI Z21.47·CSA-2.3 Gas Fired Central Furnaces.

INSTALLATION & OPERATING

INSTRUCTIONS for

GMS8, GDS8 and GHS8

GAS FIRED WARM AIR FURNACE

SINGLE STAGE

(CATEGORY 1)

RECOGNIZE THIS SYMBOL AS A SAFETY PRECAUTION.

ATTENTION INSTALLING PERSONNEL

As a professional installer you have an obligation to know the product better than the customer. This includes all

safety precautions and related items.

Prior to actual installation, thoroughly familiarize yourself with this Instruction Manual. Pay special attention to all

safety warnings. Often during installation or repair it is possible to place yourself in a position which is more hazardous

than when the unit is in operation.

Remember, it is your responsibility to install the product safely and to know it well enough to be able to instruct a

customer in its safe use.

Safety is a matter of common sense...a matter of thinking before acting. Most dealers have a list of specific good

safety practices...follow them.

The precautions listed in this Installation Manual are intended as supplemental to existing practices. However, if there

is a direct conflict between existing practices and the content of this manual, the precautions listed here take

precedence.

*NOTE: Please contact your distributor or our website for the applicable product data book referred to in this manual.

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Table of Contents

I. Warnings .......................................................................................................................................................................... 3

TO THE OWNER ................................................................................................................................................ 4

O THE INSTALLER............................................................................................................................................. 4

RANSPORTATION DAMAGE .................................................................................................................................. 4

II. Safety............................................................................................................................................................................... 4

ADDITIONAL SAFETY CONSIDERATIONS .................................................................................................................. 4

LECTROSTATIC DISCHARGE (ESD) PRECAUTIONS ................................................................................................. 5

III. Product Application....................................................................................................................................................... 5

IV . Location Requirement s and Considerations............................................................................................................... 6

GENERAL ......................................................................................................................................................... 6

LEARANCES AND ACCESSIBILITY ......................................................................................................................... 7

URNACE SUSPENSION ....................................................................................................................................... 7

XISTING FURNACE REMOVAL .............................................................................................................................. 7

HERMOSTAT LOCATION ...................................................................................................................................... 7

V . Combustion and Ventilation Air Requirements............................................................................................................ 8

VI. Category I Venting (Vertical Venting)......................................................................................................................... 10

VENTING......................................................................................................................................................... 10

VII. Masonry Chimneys .................................................................................................................................................... 11

CHECKLIST SUMMARY ....................................................................................................................................... 11

HECK 1 - PROPER CHIMNEY TERMINATION. ....................................................................................................... 11

HECK 2 - ANY SOLID OR LIQUID FUEL APPLIANCES VENTED INTO THIS CHIMNEY CHANNEL ....................................... 12

HECK 3 - CHIMNEY CROWN CONDITION............................................................................................................. 12

HECK 4 - DEBRIS IN CLEANOUT ....................................................................................................................... 12

HECK 5 - LINER CONDITION. ............................................................................................................................ 12

HECK 6 - DILUTION AIR. ................................................................................................................................. 13

HECK 7 - COMPLETE THE INSTALLATION. ........................................................................................................... 13

IX 1 - LINER TERMINATION............................................................................................................................... 13

IX 2 -CHANGE VENTING ARRANGEMENTS ........................................................................................................... 13

IX 3 - REBUILD THE CROWN. ........................................................................................................................... 13

IX 4 - RELINING. ............................................................................................................................................ 13

VIII. Electrical Connections.............................................................................................................................................. 14

WIRING HARNESS ............................................................................................................................................ 14

OLT LINE CONNECTIONS........................................................................................................................... 14

115 V

OSSIL FUIEL APPLICATIONS.............................................................................................................................. 14

UNCTION BOX RELOCATION.............................................................................................................................. 14

OLT THERMOSTAT WIRING .......................................................................................................................... 15

24 V

OLT LINE CONNECTION OF ACCESSORIES (HUMIDIFIER AND ELECTRONIC AIR CLEANER) .................................... 15

115 V

AC HUM .................................................................................................................................................. 16

24 V

WINNING ....................................................................................................................................................... 16

IX. Gas Supply and Piping............................................................................................................................................... 17

GENERAL ........................................................................................................................................................17

HIGH AL TITUDE DERATE .......................................................................................................................................17

PROPANE GAS CONVERSION .............................................................................................................................. 18

AS PIPING CONNECTIONS ................................................................................................................................18

PFLOW INSTALLATIONS ..................................................................................................................................... 19

OUNTERFLOW INSTALLATIONS ............................................................................................................................. 19

AS PIPING CHECKS........................................................................................................................................ 19

ROPANE GAS TANKS AND PIPING...................................................................................................................... 19

ROPANE GAS PIPING CHARTS .......................................................................................................................... 20

X. Circulating Air and Filters ...........................................................................................................................................20

UCTWORK-AIRFLOW ........................................................................................................................................ 20

D F

ILTERS - READ THIS SECTION BEFORE INSTALLING THE RETURN AIR DUCTWORK ....................................................... 20

IRCULATION AIR FILTERS .................................................................................................................................. 20

PRIGHT INSTALLATIONS ..................................................................................................................................... 20

ORIZONTAL INSTALLA TIONS ................................................................................................................................21

XI. Sequence of Operation (Integrated Ignition Control) .............................................................................................. 21

OWER UP ..................................................................................................................................................... 21

ORMAL HEATING SEQUENCE ............................................................................................................................ 21

ONSTANT FAN ................................................................................................................................................ 21

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Table of Contents

XII. Start-up Procedure and Adjustment......................................................................................................................... 21

FURNACE OPERATION ........................................................................................................................................ 21

URNACE ST ART-UP .......................................................................................................................................... 21

URNACE SHUTDOWN ........................................................................................................................................ 21

AS SUPPLY PRESSURE MEASUREMENT .............................................................................................................. 22

HITE RODGERS 36G22 GAS VALVE ................................................................................................................. 22

AS MANIFOLD PRESSURE MEASUREMENT AND ADJUSTMENT .................................................................................. 23

HITE RODGERS 36G22 GAS VALVE ................................................................................................................. 23

AS INPUT RATE MEASUREMENT (NATURAL GAS ONLY)......................................................................................... 23

EMPERTURE RISE........................................................................................................................................... 24

IRCULAT OR BLOWER SPEED ADJUSTMENT ........................................................................................................... 24

IRCULAT O R BLOWER FAN TIMING ADJUSTMENT .................................................................................................... 24

XIII. Operational Checks .................................................................................................................................................. 25

BURNER FLAME ................................................................................................................................................25

AUXILIARY LIMIT CONTROL ..................................................................................................................................25

PRIMARY LIMIT .................................................................................................................................................25

XIV . Safety Circuit Description......................................................................................................................................... 25

GENERAL ....................................................................................................................................................... 25

NTEGRATED CONTROL MODULE .......................................................................................................................... 25

RIMARY LIMIT ................................................................................................................................................ 25

UXILIARY LIMIT............................................................................................................................................... 25

OLLOUT LIMITS .............................................................................................................................................. 25

RESSURE SWITCHES ........................................................................................................................................ 25

LAME SENSOR ............................................................................................................................................... 26

XV . T roubleshooting ......................................................................................................................................................... 26

ELECTROSTATIC DISCHARGE (ESD) PRECAUTIONS ................................................................................................. 26

IAGNOSTIC CHART .......................................................................................................................................... 26

ESETTING FROM LOCKOUT ............................................................................................................................... 26

XVI. Maintenance ............................................................................................................................................................. 26

ANNUAL INSPECTION .......................................................................................................................................... 26

ILTERS .......................................................................................................................................................... 26

ILTER MAINTENANCE ........................................................................................................................................ 26

ILTER REMOVAL ............................................................................................................................................. 27

PRIGHT FILTER REMOVAL ................................................................................................................................. 27

NDUCED DRAFT AND CIRCULATOR BLOWER MOTORS .............................................................................................. 27

LAME SENSOR (QUALIFIED SERVICER ONLY) ...................................................................................................... 27

GNITER (QUALIFIED SERVICER ONLY).................................................................................................................. 27

URNERS ....................................................................................................................................................... 27

XVII. Before Leaving an Installation ............................................................................................................................... 27

XVIII. Repair and Replacement Parts ............................................................................................................................. 27

Troubleshooting Chart s .................................................................................................................................................... 28

Wiring Diagram ................................................................................................................................................................ 30

WARNING

F THE INFORMATION IN THES E INSTRUCTIONS IS NOT FOLLOWED E XACTLY, A

FIRE OR E XPLOSIO N MAY R ESULT CAU SING PRO PERTY D AMAGE, PERSONA L INJURY OR LOSS OF LIFE.

–

O NOT STORE OR USE GASOLINE OR OTHER FLAMMABLE VAPORS AND

LIQUIDS IN THE VICINI TY OF THIS OR AN Y OTHER APP LIANC E. –

WHAT TO DO IF YOU SMELL GAS

•

• PHONE IN YOUR BUILDING.

• PHONE.

• DEPARTMENT.

– SERVICE AGENCY OR TH E GAS SUPP LIER.

DO NOT T RY TO LIGHT ANY A PPLIANCE. DO NOT T OUCH ANY EL ECTRIC AL SWIT CH; DO N OT USE A NY

IMMEDIATE LY CAL L YOUR GAS SUPPLI ER FROM A NEIGHB OR’S

FOLLOW TH E GAS SU PPLIER’ S INSTRU CTIONS .

IF YOU CAN NOT RE ACH YOUR G AS SUPPLI ER, C ALL THE F IRE

INSTALLATION AND SERVICE MUST BE PERFORMED BY A QUALIFIED INSTALLER,

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WARNING

SHOULD OVERHEATING OCCUR OR THE GAS SUPPLY FAIL TO SHUT OFF, TURN

OFF THE MANUAL GAS SHUTOFF VALVE EXTERNAL TO THE FURNACE BEFORE TURNING OFF THE ELECTRICAL SUPPLY.

CARBON MONOXIDE POISONING HAZARD

Special Warning for Installation of Furnace or Air Handling Units in Enclosed Areas such as Garages, Utility Rooms or Parking Areas

Carbon monoxide producing devices (such as an automobile, space heater, gas water heater, etc.) should not be operated in enclosed areas such as unventilated garages, utility rooms or parking areas because of the danger of carbon monoxide (CO) poisoning resulting from the exhaust emissions. If a furnace or air handler is ins tal led in an enclosed area such as a garage, utility room or parking area and a carbon monoxide producing device is operated therein, there must be adequate, direct outside ventilation.

This ventilation is necessary to avo id the da ng er o f C O poisoning which can occur if a carbon monoxide producing device continues to operate in the enclosed area. Carbon monoxide emissions can be (re)circulated throughout the structure if the furnace or air handler is operating in any mode.

CO can cause serious illness including permanent brain damage or death.

B10259-216

WARNING

O PREVENT PERSONAL INJURY OR DEATH DUE TO IMPROPER INSTALLATION,

ADJUSTMENT, ALTERATION, SERVICE OR MAINTENANCE, REFER TO THIS MANUAL. QUALIFIED INSTALLER, SERVICE AGENCY OR THE GAS SUPPLIER.

OR ADDITIONAL ASSISTANCE OR INFORMATION, CONSULT A

TO THE OWNER

It is important that you fill out the owner’s registration card and mail it today. This will assist us in contacting you should any service or warranty information change in the future. When filling in the registration card, be sure to include the model, manufacturing, and serial numbers, plus the installation date.

Your warranty certificate is also supplied with the unit. Read the warranty carefully and note what is covered. Keep the warranty certificate in a safe location for future reference.

If additional information or operating instructions are required, contact the dealer where the purchase was made.

Homeowner Notice:

If the residence is left unattended for an extended period of time (i.e., 4 hours or greater), have your heating system periodically checked to ensure proper operation. Potential circumstances beyond our control such as power outages, gas service interruptions, product installation, or component failures could result in heating system operational problems.

TO THE INSTALLER

Before installing this unit, please read this manual thoroughly to familiarize yourself with specific items which must be adhered to, including but not limited to: unit maximum external static pressure, gas pressures, BTU input rating, proper electrical connections, circulating air temperature rise, minimum or maximum CFM, and motor speed connections, and venting. These furnaces are designed for Category I venting only.

WARNING

O PREVENT POSSIBLE PERSONAL INJURY OR DEATH DUE TO ASPHYXIATION,

THIS FURNACE MUST BE

ATEGORY ROVISIONS MUST BE MADE FOR VENTING COMBUSTION PRODUCTS

OUTDOORS THROUGH A PROPER VENTING SYSTEM. COULD BE A LIMITING FCTOR IN LOCATING THE FURNACE.

III

VENTING.

ATEGORY I VENTED. DO NOT VENT USING

HE LENGTH OF FLUE PIPE

TRANSPORTATION DAMAGE

All units are securely packed in shipping containers tested according to International Safe Transit Association specifications. The carton must be checked upon arrival for external damage. If damage is found, a request for inspection by carrier’s agent must be made in writing immediately.

The furnace must be carefully inspected on arrival for damage and bolts or screws which may have come loose in transit. In the event of damage the consignee should:

1. Make a notation on delivery receipt of any visible damage to shipment or container.

2. Notify carrier promptly and request an inspection.

3. With concealed damage, carrier must be notified as soon as possible - preferably within five days.

4. File the claim with the following support documents within a nine month statute of limitations.

• Original or certified copy of the Bill of Lading, or indemnity bond.

• Original paid freight bill or indemnity in lieu thereof.

• Original or certified copy of the invoice, showing trade and other discounts or reductions.

• Copy of the inspection report issued by carrier’s representative at the time damage is reported to carrier.

The carrier is responsible for making prompt inspection of damage and for a thorough investigation of each claim. The distributor or manufacturer will not accept claims from dealers for transportation damage.

Keep this literature in a safe place for future reference.

II. SAFETY

Adhere to the following warnings and cautions when installing, adjusting, altering, servicing, or operating the furnace.

WARNING

HIS PRODUCT CONTAINS OR PRODUCES A CHEMICAL OR CHEMICALS WHICH

MAY CAUSE SERIOUS ILLNESS OR DEATH AND WHICH ARE KNOWN TO THE

TATE OF CALIFORNIA TO CAUSE CANCER, BIRTH DEFECTS OR OTHER

REPRODUCTIVE HARM.

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WARNING

TO PREVENT POSSIBLE PROPERTY DAMAGE, PERSONAL INJURY OR DEATH

DUE TO ELECTRICAL SHOCK, THE FURNACE MUST BE LOCATED TO PROTECT THE ELECTR ICAL COMPO NENTS FROM WA TER.

WARNING

HIS UNIT MUST NOT BE USED AS A "CONSTRUCTION HEATER" DURING THE FINISHING PHASES OF CONSTRUCTION ON A NEW STRUCTURE. USE MAY RESULT IN PREMATURE FAILURE OF THE UNIT DUE TO EXTREMELY LOW RETURN AIR TERMPERATURES AND EXPOSURE TO CORROSIVE OR VERY DIRTY ATMOSPHERES.

HIS TYPE OF

WARNING

EATING UNIT SHOULD NOT BE UTILIZED WITHOUT REASONABLE, ROUTINE,

INSPECTION, MAINTENANCE AND SUPERVISION. SUCH DEVICE IS LOCATED WILL BE VACANT, CARE SHOULD BE TAKEN THAT SUCH DEVICE IS ROUTINELY INSPECTED, MAINTAINED AND MONITORED. IN THE EVENT THAT THE BUILDING MAYBE EXPOSED TO FREEZING TEMPERATURES AND WILL BE VACANT, ALL WATER-BEARING PIPES SHOULD BE DRAINED, THE BUILDING SHOULD BE PROPERLY WINTERIZED, AND THE WATER SOURCE CLOSED. I N THE EV ENT THAT THE BUI LDING MA Y BE EX POSED TO FREEZIN G TEMPERATURES AND WILL BE VACANT, ANY HYDRONIC COIL UNITS SHOULD BE DRAINED AS WELL AND, IN SUCH CASE, ALTERNATIVE HEAT SOURCES SHOULD BE UT ILIZED.

F THE BUILIDNG IN WHICH ANY

ADDITIONAL SAFETY CONSIDERATIONS

• This furnace is approved for Category I Venting only.

• Provisions must be made for venting combustion products outdoors through a proper venting system. The length of flue pipe could be a limiting factor in locating the furnace.

ELECTROSTATIC DISCHARGE (ESD) PRECAUTIONS

NOTE: Discharge body’s static electricity before touching unit. An

electrostatic discharge can adversely affect electrical components. Use the following precautions during furnace installation and

servicing to protect the integrated control module from damage. By putting the furnace, the control, and the person at the same electrostatic potential, these steps will help avoid exposing the integrated control module to electrostatic discharge. This procedure is applicable to both installed and non-installed (ungrounded) furnaces.

1. Disconnect all power to the furnace. Do not touch the integrated control module or any wire connected to the control prior to discharging your body’s electrostatic charge to ground.

2. Firmly touch a clean, unpainted, metal surface of the furnaces near the control. Any tools held in a person’s hand during grounding will be discharged.

3. Service integrated control module or connecting wiring following the discharge process in step 2. Use caution not to recharge your body with static electricity; (i.e., do not move or shuffle your feet, do not touch ungrounded objects, etc.). If you come in contact with an ungrounded object, repeat step 2 before touching control or wires.

4. Discharge your body to ground before removing a new control from its container. Follow steps 1 through 3 if installing the control on a furnace. Return any old or new controls to their containers before touching any ungrounded object.

III. PRODUCT APPLICA TION

This furnace is primarily designed for residential home-heating applications. It is NOT designed or certified for use in mobile homes, trailers or recreational vehicles. Neither is it designed or certified for outdoor applications. The furnace must be installed indoors (i.e., attic space, crawl space, or garage area provided the garage area is enclosed with an operating door).

This furnace can be used in the following non-industrial commercial applications:

Schools, Office buildings, Churches, Retail stores,

Nursing homes, Hotels/motels, Common or office areas

In such applications , the furnace must be installed with the following stipulations:

• It must be installed per the installation instructions provided and per local and national codes.

• It must be installed indoors in a building constructed on site.

• It must be part of a ducted system and not used in a free air delivery application.

• It must not be used as a “make-up” air unit.

• All other warranty exclusions and restrictions apply.

To ensure proper installation and operation, thoroughly read this manual for specifics pertaining to the installation and application of this product.

WARNING

OSSIBLE PROPERTY DAMAGE, PERSONAL INJURY OR DEATH DUE TO FIRE,

EXPLOSION, SMOKE, SOOT, CONDENSTAION, ELECTRICAL SHOCK OR CARBON MONOXIDE MAY RESULT FROM IMPROPER INSTALLATION, REPAIR, OPERATION, OR MAINTENANCE OF THIS PRODUCT.

WARNING

O PREVENT PROPERTY DAMAGE, PERSONAL INJURY OR DEATH DUE TO FIRE, DO NOT INSTALL THIS FURNACE IN A MOBILE HOME, TRAILER, OR RECREATIONAL VEHICLE.

To ensure proper furnace operation, install, operate and maintain the furnace in accordance with these installation and operation instructions, all local building codes and ordinances. In their absence, follow the latest edition of the National Fuel Gas Code (NFPA 54/ANSI Z223.1), and/or CAN/CSA B149 Installation Codes, local plumbing or waste water codes, and other applicable codes.

A copy of the National Fuel Gas Code (NFPA 54/ANSI Z223.1) can be obtained from any of the following:

American National Standards Institute

1430 Broadway

New York, NY 10018

National Fire Protection Association

1 Batterymarch Park

Quincy, MA 02269

CSA International

8501 East Pleasant Valley

Cleveland, OH 44131

IO-242C 05/05

A copy of the CAN/CSA B149 Installation Codes can also be obtained from:

CSA International

178 Rexdale Boulevard

Etobicoke, Ontario, Canada M9W 1R3

The rated heating capacity of the furnace should be greater than or equal to the total heat loss of the area to be heated. The total heat loss should be calculated by an approved method or in accordance with “ASHRAE Guide” or “Manual J-Load Calculations” published by the Air Conditioning Contractors of America.

In the USA, this furnace MUST be installed in accordance with the latest edition of the ANSI Z223.1 booklet entitled “National Fuel Gas Code” (NFPA 54), and the requirements or codes of the local utility or other authority having jurisdiction. In Canada, this furnace must be installed in accordance with the current CAN/CGA-B149.1 & 2 Gas Installation Codes, local plumbing or waste water codes and other applicable codes. Additional helpful publications available from the NFP A are, NFP A 90A - Installation of Air Conditioning and Ventilating System and NFPA 90B - Warm Air Heating and Air Conditioning System.

All venting shall be in accordance with PART 7, Venting of Equipment, of the National Fuel Gas Code, ANSI Z223.1, or applicable local building and/or air conditioning codes. These publications are available from:

National Fire Protection Association, Inc.

Batterymarch Park, Quincy, MA 02269

The G**S8X of furnaces meet the California NOx emission standards and California seasonal efficiency standards. ANNUAL inspections of the furnace and its vent system is strongly recommended.

IV . LOCA TION REQUIREMENTS AND CONSIDERA TIONS

GENERAL

Model type determines which installation procedures must be used. For GMS and GHS models, you must follow instructions for Horizontal Left, Horizontal Right or Upflow installations only. GMS and GHS models are not approved for Downflow installations. For GDS models, you must follow instructions for Downflow installation only. GDS models are not approved for Horizontal or Upflow installations.

WARNING

OSSIBLE PROPERTY DA MAGE, PERSONAL INJ URY OR DEATH DUE TO FIRE,

EXPLOS ION, SMOKE , SOOT, CONDE NSTAION , ELECTRICAL SHOCK OR CAR BON MONOXIDE MAY RESUL T FROM IM PROPER INST ALLATIO N, REPAIR, OPERATIO N, OR MAINTENANC E OF THIS PRODUCT.

WARNING

O PREVENT POSSIBLE EQUIPMENT DAMAGE, PROPERTY DAMAGE, PERSONAL

INJURY OR DEATH, THE FOLLOWING BULLET POINTS MUST BE OBSERVED WHEN INSTALLING THE UNIT.

Follow the instructions listed below when selecting a furnace location. Refer also to the guidelines provided in Section V,

Combustion and Ventilation Air Requirements.

• Centrally locate the furnace with respect to the proposed or existing air distribution system.

• Ensure the temperature of the return air entering the furnace is between 55°F and 100°F when the furnace is heating.

• Provisions must be made for venting combustion products outdoors through a proper venting system. The length of flue pipe could be a limiting factor in locating the furnace.

• Ensure adequate combustion air is available for the furnace. Improper or insufficient combustion air can expose building occupants to gas combustion products that could include carbon monoxide. Refer to Section V,

Combustion and Ventilation Air Requirements.

• The furnace must be level. If the furnace is to be set on a floor that may become wet or damp at times, the furnace should be supported above the floor on a concrete base sized approximately 1-1/2" larger than the base of the furnace.

• Ensure upflow or horizontal furnaces are not installed directly on carpeting, or any other combustible material. The only combustible material allowed is wood.

• Exposure to contaminated combustion air will result in safety and performance-related problems. Do not install the furnace where the combustion air is exposed to the following substances:

chlorinated waxes or cleaners

chlorine-based swimming pool chemicals

water softening chemicals deicing salts or chemicals

carbon tetrachloride

halogen type refrigerants

cleaning solutions (such as perchloroethylene)

printing inks

paint removers

varnishes

hydrochloric acid

cements and glues

antistatic fabric softeners for clothes dryers

and masonry acid washing materials

• If the furnace is used in connection with a cooling unit, install the furnace upstream or in parallel with the cooling unit coil. Premature heat exchanger failure will result if the cooling unit coil is placed ahead of the furnace.

• If the furnace is installed in a residential garage, position the furnace so that the burners and ignition source are located not less than 18 inches (457 mm) above the floor. Protect the furnace from physical damage by vehicles.

• If the furnace is installed horizontally, the furnace access doors must be vertical so that the burners fire horizontally into the heat exchanger. Do not install the unit with the access doors on the “up/top” or “down/bottom” side of the furnace.

• Do not connect this furnace to a chimney flue that serves a separate appliance designed to burn solid fuel.

• On Counterflow Installations, the air conditioning coil must be downstream from the heat exchanger of the furnace.

• Counterflow Installation over a noncombustible floor. Before setting the furnace over the plenum opening, ensure the surface around the opening is smooth and level. A tight seal should be made between the furnace base and floor by using a silicone rubber caulking compound or cement grout.

• Counterflow Installation over a combustible floor. If installation over a combustible floor becomes necessary, use an accessory subbase (see Product Data Book applicable to your model* for details). A special accessory subbase must be used for upright counterflow unit installations over any combustible material including wood.

IO-242C 05/05

Refer to subbase instructions for installation details.

Follow the instructions with the subbase for proper installation. Do not install the furnace directly on carpeting, tile, or other combustible material other than wood flooring. (Note: The subbase will not be required if an air conditioning coil is installed between the supply air opening on the furnace and the floor.)

ent Pipe Clearance to Combustibles6" using Single Wall Connector or 1" using B-1 vent.

Top - 1"

Back - 0"

Side Clearance - 1"

FURNACE SUSPENSION

If suspending the furnace from rafters or joist, use 3/8" threaded rod and 2”x2”x3/8” angle iron as shown below. The length of rod will depend on the application and the clearances necessary.

PROVIDE 8" MINMUM CLEARANCE BETWEEN

CENTER ROD AND FURNACE CABINET

TO ALLOW FOR CIRCULATOR BLOWER REMOVAL

3/8" DIAMETER

THREADED ROD

(6 PLACES)

HOLD DOWN

NUTS

SUPPORT

NUTS

2" X 2" X 3/8"

(3 PLACES)

NGLE IRON

POSITION AS CLOSE AS POSSIBLE TO BLOWER DECK TO ALLOW FOR

CIRCULATOR BLOWER REMVOAL

Suspended Furnace

ASSURE FU RNACE IS LEV EL FROM

END TO END AND HAS A SLIGHT FORWARD T ILT WI TH THE FRONT

OF THE FURNACE 0"-3/4"

BELOW THE BA CK O F TH E F URNACE

TILT OUTWARD TO ALLOW FOR

DOOR AND CIRCULATOR BLOWER

REMOVAL

EXISTING FURNACE REMOVAL

NOTE: When an existing furnace is removed from a venting system

Front Clearance - 3"

• Adequate combustion/ combustion air must be supplied to the closet.

• Furnace must be completely sealed to floor or base. Combustion/ ventilation air supply pipes must terminate 12" from top of closet and 12" from floor of closet. DO NOT remove solid base plate for side return.

• Return air ducts must be completely sealed to the furnace and terminate outside the enclosure surfaces.

CLEARANCES AND ACCESSIBILITY

Unobstructed front clearance of 24" for servicing is recommended.

VENT

B1-VENT SINGLE

1" 6" 1" 3" 0" 1"

SIDES FRONT BACK

TOP

(PLEN U M )

Top clearance for horizontal configuration - 1"

HORIZONTAL INSTALLATION

Line contact to framing is permitted when installed in the horizontal configuration. Line contact is defined as the portion of the cabinet that is formed by the intersection of the top and side. ACCESSIBILITY CLEARANCE,WHERE GREA TER, SHOULD T AKE PRECEDENCE OVER MINIMUM FIRE PROTECTION CLEARANCE. A gas-fired furnace for installation in a residential garage must be installed so that the ignition source and burners are located not less than eighteen inches (18") above the floor and is protected or located to prevent physical damage by vehicles. A gas furnace must not be installed directly on carpeting, tile, or other combustible materials other than wood flooring.

serving other appliances, the venting system may be too large to properly vent the remaining attached appliances.

The following vent testing procedure is reproduced from the

American National Standard/National Standard of Canada for Gas-Fired Central Furnaces ANSI Z21.47-1998, CSA-2.3-M98 Section 1.23.1. The following steps shall be followed with each

appliance connected to the venting system placed in operation, while any other appliances connected to the venting system are not in operation:

a.Seal any unused openings in the venting system; b. Inspect the venting system for proper size and horizontal

pitch, as required by the National Fuel Gas Code, ANSI Z223.1 or the CAN/CSA B149 Installation Codes and these instructions. Determine that there is no blockage or restriction, leakage, corrosion and other deficiencies which could cause an unsafe condition;

c.In so far as practical, close all building doors and windows

and all doors between the space in which the appliance(s) connected to the venting system are located and other spaces of the building. Turn on clothes dryers and any appliance not connected to the venting system. Turn on any exhaust fans, such as range hoods and bathroom exhausts, so they shall operate at maximum speed. Do not operate a summer exhaust fan. Close fireplace dampers;

d. Follow the lighting instructions. Place the appliance being

inspected in operation. Adjust thermostat so appliance shall operate continuously;

e.Test for draft hood equipped appliance spillage at the draft

hood relief opening after 5 minutes of main burner operation. Use the flame of a match or candle;

f. After it has been determined that each appliance connected

to the venting system properly vents when tested as outlined above, return doors, windows, exhaust fans, fireplace dampers and any other gas burning appliance to their previous conditions of use;

g. If improper venting is observed during any of the above

tests, the common venting system must be corrected.

IO-242C 05/05

Corrections must be in accordance with the latest edition of the National Fuel Gas Code NFPA 54/ANSI Z223.1 and/or CAN/CSA B149 Installation Codes.

If resizing is required on any portion of the venting system, use the appropriate table in Appendix G in the latest edition of the National Fuel Gas Code ANSI Z223.1 and/or CAN/CSA B149 Installation Codes.

THERMOSTAT LOCATION

In an area having good air circulation, locate the thermostat about five feet high on a vibration-free inside wall. Do not install the thermostat where it may be influenced by any of the following:

• Drafts, or dead spots behind doors, in corners, or under cabinets.

• Hot or cold air from registers.

• Radiant heat from the sun.

• Light fixtures or other appliances.

• Radiant heat from a fireplace.

• Concealed hot or cold water pipes, or chimneys.

• Unconditioned areas behind the thermostat, such as an outside wall.

DRAFTS OR DEAD SPOTS

-BEHIND DOORS

-IN CORNERS

-UNDER CABINETS

Thermostat Influences

Consult the instructions packaged with the thermostat for mounting instructions and further precautions.

V . COMBUSTION AND VENTILA TION AIR REQUIREMENTS

WARNING

O AVOID PROPERTY DAMAGE, PERSONAL INJURY OR DEATH, SUFFICIENT

FRESH AIR FOR PROPER COMBUSTION AND VENTILATION OF FLUE GASES MUST BE SUPPL IED. FURNACE AREA.

Improved construction and additional insulation in buildings have reduced heat loss by reducing air infiltration and escape around doors and windows. These changes have helped in reducing heating/cooling costs but have created a problem supplying combustion and ventilation air for gas fired and other fuel burning appliances. Appliances that pull air out of the house (clothes dryers, exhaust fans, fireplaces, etc.) increase the problem by starving appliances for air.

House depressurization can cause back drafting or improper combustion of gas-fired appliances, thereby exposing building occupants to gas combustion products that could include carbon monoxide.

OST HOMES REQUIRE OUTSIDE AIR BE SUPPLIED INTO THE

HOT

COLD

If this furnace is to be installed in the same space with other gas appliances, such as a water heater, ensure there is an adequate supply of combustion and ventilation air for the other appliances. Refer to the latest edition of the National Fuel Gas Code NFP A 54/ ANSI Z223.1 (Section 5.3), or CAN/CSA B149 Installation Codes (Sections 7.2, 7.3, or 7.4), or applicable provisions of the local building codes for determining the combustion air requirements for the appliances.

This furnace must use indoor air for combustion. It cannot be installed as a direct vent (i.e., sealed combustion) furnace.

Most homes will require outside air be supplied to the furnace area by means of ventilation grilles or ducts connecting directly to the outdoors or spaces open to the outdoors such as attics or crawl spaces.

The following information on air for combustion and ventilation is reproduced from the National Fuel Gas Code NFPA 54/ANSI

Z223.1 Section 5.3.

5.3.1 General:

(a) The provisions of 5.3 apply to gas utilization equipment

installed in buildings and which require air for combustion, ventilation and dilution of flue gases from within the building. They do not apply to (1) direct vent equipment which is constructed and installed so that all air for combustion is obtained from the outside atmosphere and all flue gases are discharged to the outside atmosphere, or (2) enclosed furnaces which incorporate an integral total enclosure and use only outside air for combustion and dilution of flue gases.

(b) Equipment shall be installed in a location in which the

facilities for ventilation permit satisfactory combustion of gas, proper venting and the maintenance of ambient temperature at safe limits under normal conditions of use. Equipment shall be located so as not to interfere with proper circulation of air. When normal infiltration does not provide the necessary air, outside air shall be introduced.

be provided as required for: cooling of equipment or material, controlling dew point, heating, drying, oxidation or dilution, safety exhaust, odor control, and air for compressors.

(d) In addition to air needed for combustion, air shall be

supplied for ventilation, including all air required for comfort and proper working conditions for personnel.

(e) While all forms of building construction cannot be covered

in detail, air for combustion, ventilation and dilution of flue gases for gas utilization equipment vented by natural draft normally may be obtained by application of one of the methods covered in 5.3.3 and 5.3.4.

(f) Air requirements for the operation of exhaust fans, kitchen

ventilation systems, clothes dryers, and fireplaces shall be considered in determining the adequacy of a space to provide combustion air requirements.

5.3.2 Equipment Located in Unconfined Spaces:

In unconfined spaces (see definition below) in buildings, infiltration may be adequate to provide air for combustion ventilation and dilution of flue gases. However, in buildings of tight construction (for example, weather stripping, heavily insulated, caulked, vapor barrier, etc.), additional air may need to be provided using the methods described in 5.3.3b or 5.3.4.

IO-242C 05/05

Space, Unconfined.

For purposes of this Code, a space whose volume is not less than 50 cubic feet per 1,000 BTU per hour of the aggregate input rating of all appliances installed in that space. Rooms communicating directly with the space in which the appliances are installed through openings not furnished with doors, are considered a part of the unconfined space.

5.3.3 Equipment Located in Confined Spaces:

(a) All Air from Inside the Building: The confined space shall

be provided with two permanent openings communicating directly with an additional room(s) of sufficient volume so that the combined volume of all spaces meets the criteria for an unconfined space. The total input of all gas utilization equipment installed in the combined space shall be considered in making this determination. Each opening shall have a minimum free area of 1 square inch per 1,000 BTU per hour of the total input rating of all gas utilization equipment in the confined space, but not less than 100 square inches. One opening shall be within 12 inches of the top and one within 12 inches of the bottom of the enclosure.

NOTE: Each opening must have a free area of not less tha n on e square inch per 1000 BTU of the total input rating of all equipment in the enclosure, but not less than 100 square inches.

Chimney or Gas Vent

Water Heater

Furnace

Opening

lternate

air inlet

Chimney or Gas Vent

Water Heater

Furnace

Ventilation louvers for unheated crawl space

Ventilation louvers (each end of attic)

Outlet Air

Inlet Air

NOTE: The inlet and outlet air openings must each have a free area of not less than one square inch per 4000 BTU of the total input rating of all equipment in the enclosure.

Equipment Located in Confined Spaces; All Air from Outdoors—

Inlet Air from Ventilated Crawl Space and Outlet Air to Ventilated

Attic. See 5.3.3-b

2. When communicating with the outdoors through vertical ducts, each opening shall have a minimum free area of 1 square inch per 4,000 BTU per hour of total input rating of all equipment in the enclosure.

Chimney or Gas Vent

Water Heater

Furnace

Ventilation louvers (each end of attic)

Outlet Air

Inlet air duct [ends 1 ft (300 mm) above floor]

NOTE: The inlet and outlet air openings must each have a free area of not less than one square inch per 40 0 0 BTU of the total input rating of all equipment in the enclosure.

Opening

Equipment Located in Confined Spaces;

All Air from Inside Building. See 5.3.3-a.

(b) All Air from Outdoors: The confined space shall be provided

with two permanent openings, one commencing within 12 inches of the top and one commencing within 12 inches of the bottom of the enclosure. The openings shall communicate directly, or by ducts, with the outdoors or spaces (crawl or attic) that freely communicate with the outdoors.

1. When directly communicating with the outdoors, each opening shall have a minimum free area of 1 square inch per 4,000 BTU per hour of total input rating of all equipment in the enclosure.

Equipment Located in Confined Spaces; All Air from Outdoors

Through Ventilated Attic. See 5.3.3-b.

3. When communicating with the outdoors through horizontal ducts, each opening shall have a minimum free area of 1 square inch per 2,000 BTU per hour of total input rating of all equipment in the enclosure.

Chimney or Gas Vent

NOTE: The air duct openings must have a free area of not less than one square inch per 2000 BTU of the total input rating of all equipment in the enclosure*.

Furnace

Water Heater

Outlet air duct

Inlet air duct

*If the appliance room is located against an outside wall and the air openings communicate directly with the outdoors, each opening shall have a free area of not less than one square inch per 4,000 BTU per hour of the total input rating of all appliances in the enclosure.

Equipment Located in Confined Spaces;

All Air from Outdoors. See 5.3.3-b.

IO-242C 05/05

4. When ducts are used, they shall be of the same crosssectional area as the free area of the openings to which they connect. The minimum dimension of rectangular air ducts shall not be less than 3 inches.

NOTE: The single opening must have a free area of not less than one square inch per 3000 BTU of the total input rating of all equipment in the enclosure, but not less than the sum of the areas of all vent connectors in the confined space.

Equipment Located in Confined Spaces; All Air from Outdoors -

Single Air Opening. See 5.3.3-b.

Chimney or G as Vent

Water Heater

Furnace

Opening

Alternate Opening Location

5. One permanent opening may be permitted, provided the equipment has clearances of at least 1” from the sides and back and 6” from the front. The opening shall communicate directly with the outdoors and must be located within 12” of the top of the enclosure. The minimum free area of the opening shall be 1 square inch per 3,000 BTU per hour of total input rating of all equipment in the enclosure. The minimum free area shall not be less than the sum of the areas of all vent connectors in the confined space.

5.3.4 Specially Engineered Installations:

The requirements of 5.3.3 shall not necessarily govern when special engineering, approved by the authority having jurisdiction, provides an adequate supply of air for combustion, ventilation, and dilution of flue gases.

5.3.5 Louvers and Grilles:

In calculating free area in 5.3.3, consideration shall be given to the blocking effect of louvers, grilles or screens protecting openings. Screens used shall not be smaller than 1/4 inch mesh. If the area through a design of louver or grille is known, it should be used in calculating the size of opening required to provide the free area specified. If the design and free area is not known, it may be assumed that wood louvers will have 2025 percent free area and metal louvers and grilles will have 60-75 percent free area. Louvers and grilles shall be fixed in the open position or interlocked with the equipment so that they are opened automatically during equipment operation.

5.3.6 Special Conditions Created by Mechanical Exhausting or Fireplaces:

Operation of exhaust fans, ventilation systems, clothes dryers, or fireplaces may create conditions requiring special attention to avoid unsatisfactory operation of installed gas utilization equipment.

VI. CA TEGORY I VENTING (VERTICAL VENTING)

WARNING

O PREVENT POSSIBLE PERSONAL INJURY OR DEATH DUE TO ASPHYXIATION,

THIS FURNACE MUST BE

ATEGORY

III

VENT ING.

ATEGORY I VENTED. DO NOT VENT USING

Category I Venting is venting at a non-positive pressure. A furnace vented as Category I is considered a fan-assisted appliance and the vent system does not have to be “gas tight.” NOTE: Single stage gas furnaces with induced draft blowers draw products of combustion through a heat exchanger allowing, in some instances, common venting with natural draft appliances (i.e. water heaters). All installations must be vented in accordance with National Fuel Gas Code NFPA 54/ANSI Z223.1 - latest edition. In Canada, the furnaces must be vented in accordance with the National Standard of Canada, CAN/CSA B149.1 and CAN/CSA B149.2 - latest editions and amendments.

NOTE: The vertical height of the Category I venting system must be at least as great as the horizontal length of the venting system.

WARNING

O PREVENT POSSIBLE PERSONAL INJURY OR DEATH DUE TO ASPHYXIATION,

COMMON VENTING WITH OTHER MANUFACT URER'S INDUCED DRAFT APPLIANCS IS NOT ALLOWED.

The minimum vent diameter for the Category I venting system is as shown:

MODEL

70 4 Inc h 4 Inch

90 4 Inc h 4 Inch 115 5 Inc h 5 Inch 140 5 Inc h 5 Inch

Under some conditions, larger vents than those shown above may be required or allowed. When an existing furnace is removed from a venting system serving other appliances, the venting system may be too large to properly vent the remaining attached appliances.

Upflow or Horizontal units are shipped with the induced draft blower discharging from the top of the furnace. (“Top” is as viewed for an upflow installation.) The induced draft blower can be rotated 90 degrees for Category I venting (Figure 3). For horizontal installations, a four inch single wall pipe can be used to extend the induced draft blower outlet 1/2” beyond the furnace cabinet. Vent the furnace in accordance with the National Fuel Gas Code NFPA 54/ANSI Z223.1 - latest edition. In Canada, vent the furnace in accordance with the National Standard of Canada, CAN/CSA B149.1 and CAN/CSA B149.2 - latest editions and amendments.

MINIMUM VENT

UPFLOW COUNTERFLOW

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Venting

THIS FURNACE IS NOT DESIGN CERTIFIED TO BE HORIZONTALL Y VENTED.

Supply Air

Upflow Rotated Induced Draft Blower

To rotate the induced draft blwer counterclockwise, proceed as follows:

1. Disconnect electrical power from the furnace.

2. Disconnect the induced draft blower power leads, flue pipe, and pressure switch tubing.

3. Remove the round cutout from the appropriate side of the furnace.

4. Remove and save the four screws that hold the induced draft blower to the flue collector box.

5. Turn the induced draft blower 90 degrees clockwise, or counterclockwise. The gasket is adhered to the back plate and will rotate with the blower assembly.

6. Reinstall the induced draft blower on the flue collector box, using the four screws removed in Step 3. Tighten screws to provide an airtight seal.

7. Reconnect the induced draft blower power leads. NOTE: If the wires are not long enough, pull extra wire from the wire bundle in the blower compartment.

8. Remove and save the screw that holds the pressure switch to the furnace top panel.

9. Relocate the pressure switch to the same side as the flue outlet in the hole provided.

10. Reconnect the draft blower power leads, flue pipe, and pressure switch tubing. Make sure that all wires and the pressure switch tubing are at least one inch from the flue pipe, or any other hot surfaces.

11. Restore power to the furnace.

Counterflow units are shipped with the induced draft blower discharging from the top of the furnace. (“Top” as viewed for a counterflow installation.) Vent the furnace in accordance with the National Fuel Gas Code NFPA 54/ANSI Z223.1 - latest edition. In Canada, vent the furnace in accordance with the National Standard of Canada, CAN/CSA B149.1 AND CAN/CSA B149.2 latest editions and amendments.

WARNING

NEVER ALLOW THE PRODUCTS OF COMBUSTION, INCLU DING CARBON

MONOXIDE, TO ENTER THE RETURN DUCTWORK OR CIRCULATION AIR SUPPLY.

VII. EXTERIOR MASONRY CHIMNEYS -

CA TEGORY I FURNACES ONLY

An exterior masonry chimney is defined as a “Masonry chimney exposed to the outdoors on one or more sides below the roof line.” The ability to use a clay lined masonry chimney depends on a parameter not associated with interior chimneys. This variable is the geographic location of the installation. Researchers have discovered that the winter design temperatures have a direct impact on the suitability of this type of venting. In most situations, the existing masonry chimneys will require a properly sized metallic liner.

WARNING

OSSIBILITY OF PROPERTY DAMAGE, PERSONAL INJ URY OR DEATH

DAMAGING CONDENSATION CAN OCCUR I NSIDE MASONRY CHIMNEYS WHEN A SINGLE FAN AS SISTED VENTED WITHOUT ADEQUATE DILUTION AIR. FURNACE TO A MASONRY CHIMNEY UNLESS THE FURNACE IS COMMON V ENTED WITH A DRAFT HOOD EQUIPPED APPL IANCE OR THE CHIM NEY IS LINED WITH A METAL LINER OR CHIMNEYS MUST BE SIZED IN ACCORDANCE WITH THE APPROPRIATE VENTING

F AN 80% FURNACE IS COMMON VENTED WITH A DRAFT HOOD

TABLES. EQUIPPED APPLIANCE, THE POTENTIAL FOR CONDENSATION DAMAGE MAY STILL EXIST WITH EXTREMELY COLD CONDITIONS, LONG VENT CONNECTORS, EXTERIOR CHIMNEYS, OR ANY COMB INATION OF THESE CONDITIONS. RISK OF CONDENSATION DAMAGE IS BEST AVOIDED BY USING THE MASONRY CHIMNEY AS A PATHWAY FOR PROPERLY SIZED METAL LI NER OR METAL VENT.

Clay Tile Siz e Gene r ally 12" x 12" (24" Length)

Clean Out

ATEGORY I APPLIANCE (80%

AFUE

O NOT CONNECT AN 80%

FURNACE) IS

TYPE B METAL VENT. ALL INSTALLATIONS USING MASONRY

YPE

Crown

Throat

Damper

Breech

Wash

Clay Tile Size: 8" x 8" x12"

(Each x 24" Length)

Attic Floor

1/2" to 1" Air Space

Second Floor

First Floor

F.A.F. Vent Connector

Fan As si sted Forced Air Furnace

Natural D raf t Water Heater

Roof Line

Wat er Heater Vent Connector

Basement Floor

Typical Multiple Flue Clay Tile Chimney

CHECKLIST SUMMARY

This checklist serves as a summary of the items to be checked before venting an 80+ furnace into a masonry chimney . In addition, we recommend that a qualified serviceman use this checklist to perform a yearly inspection of the furnace venting system.

This checklist is only a summary. For detailed information on each of the procedures mentioned, see the paragraph referenced with each item.

This inspection is based upon a draft topical report, “Masonry Chimney Inspection and Relining”, issued by the Gas Research Institute. While not yet finalized, we believe this report represents the best information on this subject which is currently available.

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Proper Chimney

Termination?

(Check 1)

Yes

Line, terminate w ith

listed vent cap

(Fix 1)

Chimney channel

free of sol id and

liquid fuel

appliances?

(Check 2)

Yes

Crown in good

condition

(Check 3)

Yes

Cleanout free of

debris?

(Check 4)

Yes

Liner in good

condition? (Check 5)

Yes

Dilution air

available? (Check 6)

Yes

Change venting

arrangements

(Fix 2)

Rebuild crown

(Fix 3)

and/or Reline

(Fix 4)

Reline (Fix 4)

Termination 10 Feet Or Less From Ridge, Wall or Parapet

Complete the

installation.

(Check 7)

CHECK 1 - PROPER CHIMNEY TERMINATION.

A masonry chimney used as a vent for gas fired equipment must extend at least three feet above the highest point where it passes through the roof. It must extend at least two feet higher than any portion of a building within a horizontal distance of 10 feet. In addition, the chimney must terminate at least 3 feet above any forced air inlet located within 10 feet. The chimney must extend at least five feet above the highest connected equipment draft hood outlet or flue collar.

If the chimney does not meet these termination requirements, but all other requirements in the checklist can be met, it may be possible for a mason to extend the chimney. If this will not be practical, see Fix 1.

Termination More Than 10 Feet From Ridge, Wall or Parapet

CHECK 2 - ANY SOLID OR LIQUID FUEL APPLIANCES VENTED INTO

CHIMNEY CHANNEL

THIS

Solid fuel appliances include fireplaces, wood stoves, coal furnaces, and incinerators.

Liquid fuel appliances include oil furnaces, oil-fired boilers and oilfired water heaters.

Appliances which burn propane (sometimes referred to as LP (liquefied petroleum)) gas are considered gas-fired appliances.

IO-242C 05/05

CHECK 3 - CHIMNEY CROWN CONDITION.

Damage from condensate usually shows up first in the crown. If any of the following trouble signs are present, the condition of the crown is not satisfactory:

a) Crown leaning b) Bricks missing c) Mortar missing d) Tile liner cracked e) No tile liner f) Salt staining at mortar joints. (White stains, and mortar

becomes sandy and/or erodes.)

For problems a, b, or c, see Fix 3. If problems d, e, or f are present, see Fix 4. IMPORTANT: It may be necessary to follow both Fix 3 and Fix 4.

CHECK 4 - DEBRIS IN CLEANOUT

A cleanout (dropleg) must be present such that the upper edge of the cleanout cover is at least 12 inches below the lower edge of the lowest chimney inlet opening.

A chimney without a cleanout could become partially blocked by debris. If no cleanout is present, the chimney must be refined (Fix 4). Remove the cleanout cover, and examine the cleanout for debris. If significant amounts of any of the following are found:

• Fuel oil residue

• Bricks

• Mortar or sand

• Pieces of the tile liner

• Rusted pieces of the metallic liner - reline the chimney (Fix 4).

CHECK 5 - LINER CONDITION.

If a metal liner is present, it must be checked. It cannot be assumed that all existing metal liners are correctly installed and in good condition.

Remove the lowest existing vent connector, and examine the inside of the elbow or tee at the base of the liner. A small amount of soot may be considered acceptable, provided the installer vacuums it away. If rusted pieces of the liner have collected here, the metal liner must be removed and replaced (Fix 4).

Next, gently tap the inside of the liner with a Phillips screwdriver. If the screwdriver perforates the liner, or if the tapping does not sound like metal hitting metal, the liner must be removed and replaced (Fix 4).

Remember that all appliances must be vented inside the liner. Venting one appliance inside the liner and another appliance outside the liner is not acceptable.

Next, use a flashlight and small mirror to sight up the liner. B vent must be supported so as to not come into direct contact with the chimney walls or tile liner. If it is not, it can probably be rehung so as to be acceptable. A thimble or fire stop may be helpful here.

Flexible liners should be hung straight or nearly straight. If it is spiraled in the chimney and in good condition, it should be rehung. To do this, break the top seal; pull up and cut off the excess liner length, and refit the top seal. Use caution when doing this, as the cut edges of flexible liners may be sharp.

The surfaces of the liner must be physically sound. If gaps or holes are present, the metal liner must be removed and replaced (Fix 4). Finally, confirm that the metal liner is the correct size for the appliances to be installed. Use the GAMA tables and rules.

If a metal liner is not present, a clay tile liner must be present, or the chimney must be lined (Fix 4).

Use a flashlight and small mirror at the cleanout or vent connector to inspect the clay tile liner. If any of the following problems are present:

• Tile sections misaligned

• Tile sections missing

• Gaps between tile sections

• Signs of condensate drainage at the cleanout or vent connectors

• Mortar protruding from between tile sections

• Use of sewer pipe or drainage pipe rather than an approved fire clay tile reline the chimney (Fix 4).

Next, measure the size of the liner. It may be possible to do this from the cleanout. The liner must be at least as large as the minimum size established by the tables in National Fuel Gas Code NFPA 54/ANSI Z223.1 - latest edition and in the National S tandard of Canada, CAN/CSA B149.1 and CAN/CSA B149.2 - latest editions and amendments. If the liner is too small or too large, then the chimney must be relined (Fix 4).

CHECK 6 - DILUTION AIR.

If gas-fired appliances are to be vented into a clay tile liner, a source of dilution air is required.

Dilution air cannot be obtained through:

• Induced draft appliances

• Natural draft appliances with vent dampers

Sufficient dilution air can ordinarily be obtained through the draft hood of a natural draft appliance only if the appliance’s vent connector does not include a vent damper. If dilution air will not be available, the chimney must be relined (Fix 4).

CHECK 7 - COMPLETE THE INSTALLATION.

If Checks 1 through 6 have been satisfactory, and the liner is an acceptable size as determined by the tables in National Fuel Gas Code NFPA 54/ANSI Z223.1 - latest edition and in the National Standard of Canada, CAN/CSA B149.1 and CAN/CSA B149.2 latest editions and amendments, then the clay tile liner can probably be used as a vent for the gas appliances. However, the installer must keep in mind the following factors which may render the tile liner unsuitable for use as a vent:

• Extremely cold weather

• Long vent connectors

• Masonry chimneys with no air gap between the liner and the bricks. (In practice, this can be difficult to detect.)

• Exterior chimneys (The tables in National Fuel Gas Code NFPA 54/ANSI Z223.1 - latest edition and in the National Standard of Canada, CAN/CSA B149.1 and CAN/CSA B149.2 - latest editions and amendments assume interior chimneys.)

If, in the judgment of the local gas utility, installer, and/or local codes; one or more of the above factors is likely to present a problem, the chimney must be relined (Fix 4).

FIX 1 - LINER TERMINATION

Any cap or roof assembly used with a liner must be approved by the liner manufacturer for such use. The liner and cap/roof assembly must then terminate above the roof in accordance with the manufacturer’s instructions.

IO-242C 05/05

In some cases, a shorter extension above the roof may be possible with a liner than would be required with a masonry chimney.

For further information on relining, see Fix 4.

FIX 2 -CHANGE VENTING ARRANGEMENTS

If the masonry chimney has more than one channel, it may be possible to vent the gas appliances into one channel and vent the solid or liquid fuel appliance(s) into another channel(s). Do not vent an 80+ Furnace inside of a metal liner with other appliances vented outside the liner.

Alternatively, the homeowner may agree to discontinue use of the fireplace (solid fuel appliance). If so, the tile liner must be cleaned to remove creosote buildup. The fireplace opening must then be permanently sealed.

If oil-fired appliance(s) are being replaced by gas-fired appliance(s), the tile liner must first be cleaned to remove the fuel oil residue.

If none of the above options is practical, the Air Command 80 may need to be vented vertically with a B Vent.

Under some conditions, Furnace G*9 could be installed rather than an G*8. The G* 9 can be vented horizontally or vertically through PVC pipe.

FIX 3 - REBUILD THE CROWN

If the chimney crown is damaged, a qualified mason must repair it in accordance with nationally recognized building codes or standards. One such standard which may be referenced is the Standard for Chimneys, Fireplaces, V ent s, and Solid Fuel Burning Appliances, ANSI/NFP A 211.

FIX 4 - RELINING

Relining options include B vent and flexible liners. If the chimney has diagonal offsets, B vent probably cannot be

used. If B vent is to be used, it must be supported adequately . Supports

(such as fire stops or thimbles) must be used to prevent the B vent from coming into direct contact with the tile liner or chimney walls. Direct contact would result in higher heat loss, with an increased possibility of poor venting system performance.

It is not acceptable to vent one appliance inside the B vent and other appliances outside. The excess space between the B vent and the chimney walls must be covered at the top of the chimney by a weatherproof, corrosion resistant flashing.

The B vent should then be topped with a listed vent cap. The listed vent cap will, when installed per the manufacturer’s instructions, prevent problems due to rain, birds, or wind effects.

A B-vent installed as described in this section is considered to be an enclosed vent system, and the sizing tables in National Fuel Gas Code NFPA 54/ANSI Z223.1 - latest edition and in the National Standard of Canada, CAN/CSA B149.1 and CAN/CSA B149.2 latest editions and amendments may be used.

If a flexible liner is to be used, it must be made of the proper materials:

• For most residential applications, an aluminum liner should be acceptable.

• If the combustion air supplied to the furnace will be contaminated with compounds containing chlorine or fluorine, a liner of AL294C stainless steel should be used. Common sources of chlorine and fluorine compounds include indoor swimming pools and chlorine bleaches, paint strippers, adhesives, paints, varnishes, sealers, waxes (which are not yet dried) and solvents used during construction and remodeling. Various commercial and industrial processes may also be sources of chlorine/ fluorine compounds.

• Heavier gauge 300 and 400 series stainless steel liners were developed for use with oil or solid fuel appliances. They are not suitable for use with gas-fired appliances. Flexible liners specifically intended and tested for gas applications are listed in the UL “Gas and Oil Equipment Directory”. (UL Standard 1777).

For sizing of flexible liners, see Note 22 and the tables in the National Fuel Gas Code NFPA 54/ANSI Z223.1 - latest edition and in the National Standard of Canada, CAN/CSA B149.1 and CAN/CSA B149.2 - latest editions and amendments.

To install the liner, read and follow the liner manufacturer’s instructions and your local codes. Excess liner length should be pulled out of the chimney and cut off. Use caution when doing this, as the cut edges of flexible liners may be sharp. Do not spiral excess liner inside of the chimney. Support the liner as recommended by the liner manufacturer.

Some manufacturers of flexible liners offer an insulation sleeve designed to be added to the liner before it is installed in the chimney . (Poured insulation, either vermiculite or other materials, is no longer recommended.) Insulation will need to be added to the flexible liner if:

• It is required by the liner manufacturer’s instructions.

• The previous liner was properly sized and installed, and suffered from condensation damage.

• It is required by your local building codes.

Even if none of those three conditions exist which require additional liner insulation, the installer may wish to consider it if:

• The local climate is very cold.

• The chimney is very tall.

• The vent connectors used are very long or have a large number of elbows.

• Local experience indicates that flexible liners installed without insulation are likely to have condensation problems.

Insulation must be selected and installed in accordance with the liner manufacturer’s instructions.

Finally, cap the chimney and terminate the liner in accordance with the liner manufacturer’s instructions.

VIII. ELECTRICAL CONNECTIONS

WARNING

O AVOID THE RISK OF ELECTRICA L SHOCK, WIRING TO THE UNIT MUST BE

POLARIZED AND GROUNDED.

WARNING

O AVOID INJURY, ELECTRICAL SHOCK OR DEATH, DISCONNECT ELECTRICAL

POWER BEFORE SERVICING OR CHANGING ANY ELECTRICAL WIRING.

IO-242C 05/05

CAUTION

JUNCTION BOX RELOCATION

ABEL ALL WIRES PRIOR TO DISCONNECTION WHEN SERVICING CONTROLS.

IRING ERRORS CAN CAUSE IMPROPER AND DANGEROUS OPERATION.

ERIFY PROPER OPERATION AFTER SERVICING.

WARNING

O AVOID THE RISK OF INJURY, ELECTRICAL SHOCK OR DEATH, THE FURNACE MUST BE ELECTRICALLY GROUNDED IN ACCORDANCE WITH LOCAL CODES OR, IN THEIR ABSENCE, WITH THE LATEST EDITION OF THE

CODE.

ATIONAL ELECTRIC

WIRING HARNESS

The wiring harness is an integral part of this furnace. Field alteration to comply with electrical codes should not be required. Wires are color coded for identification purposes. Refer to the wiring diagram for wire routings. If any of the original wire as supplied with the furnace must be replaced, it must be replaced with wiring material having a temperature rating of at least 105° C. Any replacement wiring must be a copper conductor.

115 VOLT LINE CONNECTIONS

Before proceeding with electrical connections, ensure that the supply voltage, frequency, and phase correspond to that specified on the unit rating plate. Power supply to the furnace must be NEC Class 1, and must comply with all applicable codes. The furnace must be electrically grounded in accordance with local codes or, in their absence, with the latest edition of The National Electric Code, ANSI NFPA 70 and/or The Canadian Electric Code CSA C22.1.

Use a separate fused branch electrical circuit containing properly sized wire, and fuse or circuit breaker. The fuse or circuit breaker must be sized in accordance with the maximum overcurrent protection specified on the unit rating plate. An electrical disconnect must be provided at the furnace location.

Line voltage wiring must enter into the junction box provided with the furnace.

NOTE: Line polarity must be observed when making field connections.

FOSSIL FUIEL APPLICATIONS

This furnace can be used in conjunction with a heat pump in a fossil fuel application. A fossil fuel application refers to a combined gas furnace and heat pump installation which uses an outdoor temperature sensor to determine the most cost efficient means of heating (heat pump, gas furnace, or both).

A heat pump thermostat with two stages of heat is required to properly use a furnace in conjunction with a heat pump. Refer to the fossil fuel kit installation instructions for additional thermostat requirements.

Strictly follow the wiring guidelines in the fossil fuel kit installation instructions. All furnace connections must be made to the furnace integrated control module and the FURNACE terminal strip on the fossil fuel control board.

WARNING

O AVOID THE RISK OF INJU RY, ELECTRICAL SHOCK OR DEATH, THE FURNACE

MUST BE ELECTRICALLY GROUNDED IN ACCORDANCE WITH LOCAL CODES OR, IN THEIR ABSENCE, WITH THE LATEST EDITION OF THE

ATIONAL ELECTRIC

CODE.

WARNING

DGES OF SHEET METAL HOLES MAY BE SHARP. USE GLOVES AS A PRE-

CAUTION WHEN REMOVING HOLE PLUGS.

Line voltage connections can be made through either the right or left side panel. The furnace is shipped configured for a left side electrical connection. To make electrical connections through the opposite side of the furnace, the junction box must be relocated to the left side prior to making electrical connections. To relocate the junction box, perform the following steps.

WARNING

O PREVENT PERSONAL INJURY OR DEATH DUE TO ELECTRIC SHOCK,

DISCONNECT ELECTRICAL POWER.

1. Remove both doors from the furnace.

2. Remove and save the screws holding the junction box to the left side of the furnace.

3. Models that have the juction box located in the blower compartment will need to rotate the junction box 180 degrees. Models that have the junction box located in the burner compartment will need to move the juction box directly over.

4. Attach the junction box to the right side of the furnace, using the screws removed in step 2.

5. Check the location wiring. Confirm that it will not be damaged by heat from the burners or by the rotation of the fan. Also confirm that wiring location will not interfere with filter removal or other maintenance.

After the junction box is in the desired location, use washers to connect field-supplied conduit to the junction box in accordance with NEC and local codes. Connect hot, neutral, and ground wires as shown in the furnace wiring diagram. The wires and ground screw are located in the furnace junction box.

Low voltage wires may be connected to the terminal strip. IMPORTANT NOTE: To avoid possible equipment malfunction,

route the low voltage wires to avoid interference with filter removal or other maintenance.

Integrated Ignition Control

IO-242C 05/05

WARNING

O AVOID THE RISK OF INJURY, ELECTRICAL SHOCK OR DEATH, THE FURNACE MUST BE ELECTRICALLY GROUNDED IN ACCORDANCE WITH LOCAL CODES OR, IN THEIR ABSENCE, WITH THE LATEST EDITION OF THE

ODE.

ATIONAL ELECTRIC

To ensure proper unit grounding, the ground wire should run from the furnace ground screw located inside the furnace junction box all the way back to the electrical panel. NOTE: Do not use gas piping as an electrical ground. To confirm proper unit grounding, turn off the electrical power and perform the following check.

1. Measure resistance between the neutral (white) connection and one of the burners.

2. Resistance should measure 10 ohms or less.

This furnace is equipped with a blower door interlock switch which interrupts unit voltage when the blower door is opened for servicing. Do not defeat this switch.

24 VOLT THERMOSTAT WIRING

NOTE: Wire routing must not interfere with circulator blower

operation, filter removal, or routine maintenance. Low voltage connections can be made through either the right or

left side panel. Thermostat wiring entrance holes are located in the blower compartment. The following figure shows connections for a “heat only” system and “heat/cool system”.

Heating Room Thermostat

Furnace Control

Typical Field Wiring (24 VAC Control Circuit)

Y R

C G W

Heating/Cooling Room Thermostat

Furnace Control

Y R C G W

Condensing

Remote

Unit

This furnace is equipped with a 40 VA transformer to facilitate use with most cooling equipment. Consult the wiring diagram, located on the blower compartment door, for further details of 115 Volt and 24 Volt wiring.

A single-stage thermostat with only one heating stage can be used to control this furnace.

SETTING THE HEAT ANTICIPATOR

The following method should be used in measuring the amp draw of the control circuit to assure proper adjustment of the thermostat heat anticipator

R R

• Wrap the “R” leg around a clip-on amp meter 10 times.

• Energize the furnace in the heat mode.

• Record the reading.

• Divide this reading by 10.

• Set the heat anticipator on the thermostat to match this reading.

Example: If the reading on the amp meter is “4”, divide this by 10. The anticipator setting will be .4 amps.

115 VOLT LINE CONNECTION OF ACCESSORIES (HUMIDIFIER

ELECTRONIC AIR CLEANER)

AND

WARNING

O AVOID PERSONAL INJURY, ELECTRICAL SHOCK OR DEATH, DISCONNECT

ELECTRICAL POWER BEFORE SERV ICING OR CHANGING ANY E LECTRICAL WIRING.

The furnace integrated control module is equipped with line voltage accessory terminals for controlling power to an optional field-supplied humidifier and/or electronic air cleaner.

The accessory load specifications are as follows:

Humidifier 1.0 Amp maximum at 120 VAC

Electronic Air Cleaner 1.0 Amp maximum at 120 VAC

Turn OFF power to the furnace before installing any accessories. Follow the humidifier or air cleaner manufacturers’ instructions for locating, mounting, grounding, and controlling these accessories. Accessory wiring connections are to be made through the 1/4" quick connect terminals provided on the furnace integrated control module. The humidifier and electronic air cleaner hot and neutral terminals are identified as HUM and EAC. All field wiring must conform to applicable codes. Connections should be made as shown in the following illustration.

Control Module

Hot 120 VAC

EAC

Optional

Accessories

Line

{

Transformer

Hum

Air Cleaner

Humidifier

If it is necessary for the installer to supply additional line voltage wiring to the inside of the furnace, the wiring must conform to all local codes, and have a minimum temperature rating of 105°C. All line voltage wire splices must be made inside the furnace junction box.

The integrated control module humidifier terminals (HUM) are energized with 115 volts whenever the induced draft blower is energized. The integrated control module electronic air cleaner terminals (EAC) are energized with 115 volts whenever the circulator blower is energized.

Neutral 120 VAC

Transformer

EAC

Hum

Line

IO-242C 05/05

24 VAC HUM

1. 24 VAC Hum - A ¼” piggy back quick connect terminal on the pressure switch provides 24 VAC humidifier control. This terminal will be powered any time the pressure switch is closed. To connect 24 VAC hum, connect 24vac line of humidifier to piggyback on the pressure switch. The com side of the humidfier to C on the terminal strip on the control board (or to com side to 24VAC transformer). Do not connect 115V humidifier to these terminals.

TWINNING

A twin terminal located on the thermostat terminal strip can be used to twin two furnaces. This twin terminal synchronizes the circulation blowers of the two furnaces. Furnaces must be same model and heat / cool speeds the same. In addition, both furnaces must be powered by separate circuits originating from the same power leg in the main electrical box (hot and neutral must be in phase). Furnaces can be twinned to provide either single or 2-stage heat. If used as 2-stage heat the temperature rise from the register to return will be reduced during low fire operation.

To twin furnaces, ensure models are the same. Connect twin terminals on both furnaces and ensure heat and cool speeds are the same on both furnaces. For single stage operation, wire thermostat as normal to one of the furnaces. Conncect W from furnace 1 to one of the coil terminals on an isolation relay. Connect the other coil terminal to C of furnace 1. Connect R of furnace 2 to the common terminal of the isolation relay. Connect normally open (NO) to W of furnace 2.

For 2-stage operation connect twin of both furnaces. Connect one furnace to 2-stage thermostat as normal, connecting W1 on thermostat to W on this furnace. Connect W2 from thermostat to the coil terminal on isolation relay. Connect the other coil terminal to C of furnace 1. Connect common of the isolation relay to R on furnace 2 and normally open (NO) to W of furnace 2. With 2stage configuration, furnace 1 will provide low stage heat (circulator blower of furnace 2 will run at heat speed). During a call for High heat both furnaces will operate.

NOTE: Check operation of twin by turning thermostat to “fan on” or placing a jumper wire from R to G (furnace connected to thermostat). If twinning wire is working properly, both blowers will turn on at the same speed. If twinning does not work properly, check proper 24-volt polarity and ensure both furnaces are powered from the same power leg. If the 24-volt polarity is incorrect, switch common and 24-volt leads on furnace that is not working. Check operation.

Furnace 1

TWIN

Furnace 2

TWIN YW

Furnace 1

TWIN Y

2-Stage Thermostat

Furnace 2

TWIN YW

Isolation Relay

IX. GAS SUPPLY AND PIPING

GENERAL

The furnace rating plate includes the approved furnace gas input rating and gas types. The furnace must be equipped to operate on the type of gas applied. This includes any conversion kits required for alternate fuels and/or high altitude.

CAUTION

O PREVENT UNRELIABLE OPERATION OR EQUIPMENT DAMAGE, THE INLE T

GAS SUPPLY PRESSURE MUST BE AS SPECIFIED ON THE UNIT RATING PLATE WITH ALL OTHER HOUSEHOLD GAS FIRED APPLIANCES O PERATING.

Inlet gas supply pressures must be maintained within the ranges specified in the following table. The supply pressure must be constant and available with all other household gas fired appliances operating. The minimum gas supply pressure must be maintained to prevent unreliable ignition. The maximum must not be exceeded to prevent unit overfiring.

Inlet Gas Supply Pressure

Natural Gas

Propane Gas

NOTE: Adjusting the minimum supply pressure below the limits in the above table could lead to unreliable ignition. Gas input to the burners must not exceed the rated input shown on the rating plate. Overfiring of the furnace can result in premature heat exchanger failure. Gas pressures in excess of 13 inches water column can also cause permanent damage to the gas valve.

At all altitudes, the manifold pressure must be within 0.3 inches w.c. of that listed in the Product Data Book applicable to your model for the fuel used. At all altitudes and with either fuel, the air temperature rise must be within the range listed on the furnace nameplate. Should this appliance be converted to LP, refer to the instructions included in the factory authorized LP conversion kit LPT* .

Minimum: 5.0" w.c. Maximum:10.0" w.c. Minimum: 11.0" w.c. Maximum:13.0" w.c.

HIGH ALTITUDE DERATE

IMPORTANT NOTE: The furnace will naturally derate itself with altitude. Do not attempt to increase the firing rate by changing

Isolation Relay

orifices or increasing the manifold pressure. This can cause poor combustion and equipment failure.

When this furnace is installed at high altitude, the appropriate High Altitude orifice kit must be applied. The furnace is supplied with orifices sized for natural gas at altitudes up to 4,500 feet

Thermostat

IO-242C 05/05

using a heating value of approximately 1,000 Btu/hr, and should

6115NR140NR

not normally require change. Most cases will not require a change at altitudes up to 7,500 feet. For use at altitudes in excess of 4,500 feet, refer to the following table for maximum input rates based on altitude. Contact your local gas utility for the heating value of the gas. Refer to National Fuel Gas Code ANSI Z223.1 and the following section to calculate firing rates.

Maximium Firing Rates At Altitude Model (Kbtu/hr)

Altitude (ft) 45 70 90 115 140

5,000 3 9,000 58,500 78 ,000 97,500 117,000 7,500 3 5,000 52,500 70 ,000 87,500 105,000

10,000 3 4,000 51,000 68 ,000 77,000 92 ,400

* Firing r a tes may be lower than listed in table

It is important to check and adjust the input rate of the furnace to prevent an overfiring situation. Overfiring can cause premature heat exchanger failure. The input is controlled by the supply pressure, orifice size, manifold pressure and heating (calorific) value of the gas.

The supply pressure must be measured with this and all other gas burning appliances in operation. The supply pressure must be adjusted to the pressure range stated on the series and rating plate. Applications for altitudes in excess of 4,500 feet usually require an orifice change. Alternately standard de-rate for altitude from National Fuel Gas Code ANSI Z223.1 of 4% per 1000’ may be taken. Refer to the most recent version of ASNI Z223.1 for correct gas orifice. The orifices must be selected using the table below. The furnace derate is 4% for each 1,000 feet above sea level. This table is based upon a heating value of approximately 1,000 Btu/ft

ALTITUDE

0 - 2,000 #43

3,000 #44 4,000 #44 5,000 #45 6,000 #45

7,000 #46

NAT. GAS

ORIFICE SIZE

The input to the furnace must be checked AFTER reorificing. For altitudes above 4,500 feet, refer to appropriate section of the

National Fuel Gas Code, ANSI Z223.1. To calculate the input of the furnace for installations in altitudes over 7,000 feet, use the following formula:

Corrected Input = Series & Rating Plate Input - (Altitude X .04) X (Series & Rating Plate Input / 1000)

Example: Corrected input for a 90,000 Btu/hr. appliance installed at an

altitude of 6,000 ft. utilizing natural gas with a heating value of 1,000 Btu/ft

is determined by-

Corrected Input = 90,000 - (6,000 X .04) X (90,000 / 1,000) Corrected Input = 90,000 - (240 X 90) Corrected Input = 90,000 - 21,600 Corrected Input = 68,400

Using the orifices sized as shown in the table for 6,000 feet (#45), a meter time of 52.6 seconds is measured. The actual firing rate of the furnace is:

FIRING RATE

Input = 1,000 (heating value of the gas) X 3600 (constant) / 52.6 (meter time for 1 ft

Input = 3,600,000 / 52.6 Input = 68,400 Btu/h

METER TIME IN MINUTES AND SECONDS FOR NORMAL INPUT RATING

FURNACES EQUIPPED FOR USE WITH NATURAL GAS

INP UT METER

Btu/hr FT

40,000 60,000

80,000 100,000 120,000

In Canada, the series and rating plate input for the furnace apply to installations up to 4,500 feet (1370m) above sea level. Canadian certification applies to the installations of up to 4,500 feet above sea level. Installations above 4,500 feet are subject to acceptance by the local authorities having jurisdiction.

Do not derate the furnace by adjusting the manifold pressure to a lower pressure than specified on the furnace rating plate. The combination of the lower air density and a lower manifold pressure will prohibit the burner orifice from drawing the proper amount of air into the burner. This may cause incomplete combustion, flashback, and possible yellow tipping.

In some areas the gas supplier may artificially derate the gas in an effort to compensate for the effects of altitude. If the gas is artificially derated, the appropriate orifice size must be determined based upon the BTU/ft Refer to the National Fuel Gas Code, NFPA 54/ANSI Z223.1, and information provided by the gas supplier to determine the proper orifice size.

Some models require a pressure switch change due to the reduced air density above certain altitudes. Refer to the following table to determine proper pressure switch settings for your application.

A different pressure switch may be required at high altitude regardless of the BTU/ft distributor for appropriate altitude ranges and pressure switch kits.

Pressure Switch Changes

Furnac e inp ut K btu /hr Altitude (ft) Switch Setting (inch e s w.c .)

* 904BNA does not require a switch change

of gas)

SIZE

HEAT

VALUE

MIN. S EC. MIN. SE C MI N. S EC. MIN. SE C.

1 1 21 1 30 1 33 1 39

10 13 30 15 00 15 36 16 30

1 0 54 1 00 1 03 1 06

10 9 00 10 10 10 24 11 00

1 0 41 0 45 0 47 0 50

10 6 45 7 30 7 48 8 15

1 0 32 0 36 0 37 0 40

10 5 24 6 00 6 14 6 36

1 0 27 0 30 0 31 0 33

10 4 30 5 00 5 12 5 30

content of the derated gas and the altitude.

content of the fuel used. Contact your

HEAT

VALUE

900 1,000 1040 1,100

HEAT

VALUE

45 8000' 0.5 70 N

90* 8000' 0.

HEAT

VALUE

PROPANE GAS CONVERSION

WARNING

POSSIBLE PROPERTY DAMAGE, PERSONAL INJURY OR DEATH MAY OCCUR IF

THE CORRECT CONVERSION KITS ARE NOT I NSTALLED. MUST BE APPLIED TO INSURE SAFE AND PROPER FURNACE OPERATION. CONVERSIONS MUST BE PERFORMED BY A QUALIFIED INSTALLER OR SERVICE AGENCY.

HE APPROPRIATE KITS

IO-242C 05/05

This unit is configured for natural gas. The appropriate

manufacturer’s propane gas conversion kit, must be applied for propane gas installations. Refer to the “Propane Gas and/or High Altitude Installations” section for details.

Contact your distributor for a tabular listing of appropriate manufacturer’s kits for propane gas and/or high altitude installations. The indicated kits must be used to insure safe and proper furnace operation. All conversions must be performed by a qualified installer, or service agency.

GAS PIPING CONNECTIONS GENERAL

• Use two pipe wrenches when making connection to the gas valve to keep it from turning. The orientation of the gas valve on the manifold must be maintained as shipped from the factory.

• Install a manual shutoff valve between the gas meter and unit within six feet of the unit. If a union is installed, the union must be downstream of the manual shutoff valve, between the shutoff valve and the furnace.

• Tighten all joints securely.

• Connect the furnace to the building piping by one of the following methods:

– Rigid metallic pipe and fittings.

CAUTION

TO AVOID POSSIBLE UNSATISFACTORY OPERATION OR EQUIPMENT DAMAGE

DUE TO UNDERFIRING OF EQUIPMENT, USE THE PROPER SIZE OF NATURAL/PROPANE GAS PIPING NEEDED WHEN RUNNING PIPE FROM THE METER/TANK TO THE FURNACE.

When sizing a trunk line, be sure to include all appliances which will operate simultaneously when sizing a trunk line.

The gas piping supplying the furnace must be properly sized based on the gas flow required, specific gravity of the gas, and length of the run. The gas line installation must comply with local codes, or in their absence, with the latest edition of the National Fuel Gas Code, NFP A 54/ANSI Z223.1.

Natural Gas Capacity of Pipe

Length of Nominal Black Pipe Size

Pipe in Feet 1/2" 3/4" 1" 1 1/4" 1 1/2"

10 132 278 520 1050 1600 20 92 190 350 730 1100 30 73 152 285 590 980 40 63 130 245 500 760 50 56 115 215 440 670 60 50 105 195 400 610 70 46 96 180 370 560 80 43 90 170 350 530 90 40 84 160 320 490

100 38 79 150 305 460

(Pressure 0.5 psig or less and pressure drop of 0.3" W.C.; Based on

0.60 Specific Gravity Gas) BTUH Furnace Input

CFH =

Heating Value of Gas (BTU/Cubic Foot)

To connect the furnace to the building’s gas piping, the installer must supply a ground joint union, drip leg, manual shutoff valve, and line and fittings to connect to gas valve. In some cases, the installer may also need to supply a transition piece from 1/2" pipe to a larger pipe size.

The following stipulations apply when connecting gas piping.

• Use black iron or steel pipe and fittings for the building piping.

• Use pipe joint compound on male threads only. Pipe joint compound must be resistant to the action of the fuel used.

• Use ground joint unions.

• Install a drip leg to trap dirt and moisture before it can enter the gas valve. The drip leg must be a minimum of three inches long.

• Install a 1/8" NPT pipe plug fitting, accessible for test gage connection, immediately upstream of the gas supply connection to the furnace.

In Cubic Feet of Gas Per Hour (CFH)

– Semi-rigid metallic tubing and metallic fittings.

Aluminum alloy tubing must not be used in exterior locations.

– Use listed gas appliance connectors in accordance with

their instructions. Connectors must be fully in the same room as the furnace.

– Protect connectors and semi-rigid tubing against

physical and thermal damage when installed. Ensure aluminum-alloy tubing and connectors are coated to protect against external corrosion when in contact with masonry, plaster, or insulation, or subjected to repeated wetting by liquids such as water (except rain water), detergents, or sewage.

Location of Manual Valve (Installed Ah ead of Ground

oint Pipe Union)

Height Requir ed By Local Code

Ground Joint Pipe Union To Be Installed Ahead Of Gas Valve

Drip Leg

Reducing Coupling 1/2" x 1/8" with 1/8" Pipe Plug To Measure Line Gas Pressure

General Furnace Layout

UPFLOW INSTALLATIONS

When the gas piping enters through the right side of the furnace, the installer must supply the following fittings (starting from the gas valve):

• 90 degree elbows (2).

• Close nipple.

• Straight pipe to reach the exterior of the furnace .

When the gas piping enters through the left side of the furnace, the installer must supply the following fittings (starting from the gas valve):

• Straight pipe to reach the exterior of the furnace.

• A ground joint union, drip leg, and manual shutoff valve must also be supplied by the installer. In some cases, the

installer may also need to supply a transition piece from 1/ 2 inch to another pipe size.

IO-242C 05/05

COUNTERFLOW INSTALLATIONS

When the gas piping enters through the left side of the furnace, the installer must supply a straight pipe to reach the exterior of the furnace.

A ground joint union, drip leg, and manual shutoff valve must also be supplied by the installer. In some cases, the installer may also need to supply a transition piece from 1/2" to another pipe size. When the gas piping enters through the right side of the furnace, the installer must supply the following fittings (starting at the gas valve):

• 90 degree elbow.

• Close nipple.

• 90 degree elbow.

• Straight pipe to reach exterior of furnace.

GAS PIPING CHECKS

Before placing unit in operation, leak test the unit and gas connections.

WARNING

O AVOID THE POSSIBILITY OF EXPLOSION OR FIRE, NEVER USE A MATCH OR

OPEN FLAME TO TEST FOR LEAKS.

Check for leaks using an approved chloride-free soap and water solution, an electronic combustible gas detector, or other approved testing methods.

CAUTION

O PREVENT PROPERTY DAMAGE OR PERSONAL INJURY DUE TO FIRE, THE

FOLLOWING INSTRUCTIONS MUST BE PERFORMED REGARDING GAS CONNECTIONS, PRESSURE TESTING, LOCATION OF SHUTOFF VALVE AND INSTALLAT ION O F GAS P IPING.

NOTE: Never exceed specified pressures for testing. Higher

pressure may damage the gas valve and cause subsequent overfiring, resulting in heat exchanger failure.

Disconnect this unit and shutoff valve from the gas supply piping system before pressure testing the supply piping system with pressures in excess of 1/2 psig (3.48 kPa).

This unit must be isolated from the gas supply system by closing its manual shutoff valve before pressure testing of gas supply piping system with test pressures equal to or less than 1/2 psig (3.48 kPa).

PROPANE GAS TANKS AND PIPING

WARNING

IF THE GAS FURNACE IS INSTALLED IN A BASEMENT, AN EXCAVATED

AREA OR A CONFINED SPACE, IT IS STRONGLY RECOMMENDED TO CONTACT A PROPANE SUPPLIER TO INSTALL A GAS DETECTING WARNING DEVICE IN CASE OF A GAS LEAK.

INCE PROPANE GAS IS HEAVIER THAN AIR, ANY LEAKING GAS CAN

•

SETTLE IN ANY LOW AR EAS OR CONFINED SPACES .

ROPANE GAS ODORANT MAY FADE, MAK I NG THE GAS UNDETECTABLE

•

EXCEPT WITH A WARNING DEVICE.

A gas detecting warning system is the only reliable way to detect a propane gas leak. Rust can reduce the level of odorant in propane gas. Do not rely on your sense of smell. Contact a local propane

gas supplier about installing a gas detecting warning system. If the presence of gas is suspected, follow the instructions on Page 4 of this manual.

All propane gas equipment must conform to the safety standards of the National Board of Fire Underwriters, NBFU Manual 58.

For satisfactory operation, propane gas pressure must be 11 inch WC at the furnace manifold with all gas appliances in operation. Maintaining proper gas pressure depends on three main factors:

1. Vaporization rate, depending on temperature of the liquid, and “wetted surface” area of the container or containers.

2. Proper pressure regulation. (Two-stage regulation is recommended for both cost and efficiency).

3. Pressure drop in lines between regulators, and between second stage regulator and the appliance. Pipe size will depend on length of pipe run and total load of all appliances.

Complete information regarding tank sizing for vaporization, recommended regulator settings, and pipe sizing is available from most regulator manufacturers and propane gas suppliers.

Since propane gas will quickly dissolve white lead and most standard commercial compounds, special pipe dope must be used. Shellac-based compounds resistant to the actions of liquefied petroleum gases such as Gasolac®, Stalactic®, Clyde’s or John Crane® are satisfactory.

Refer to the following illustration for typical propane gas installations and piping.

200 PSIG Maximum

5 to 15 PSIG (20 PSIG Max.)

Continuous

Second Stage Regulator

11" W.C.

First Stage Regulator

Propane Gas Installation (Typ.)

PROPANE GAS PIPING CHARTS

Sizing Between First and Second Stage Regulator* Maximum Propane Capac it ie s lis t ed are based on 2 psig pressure drop at 10 psig set t ing . Capacities in 1,000 BTU/hour.

Pipe or Tubing

Length,

Feet

10 730 1,700 3,200 5,300 8,300 3,200 7,500 20 500 1,100 2,200 3,700 5,800 2,200 4,200 30 400 9 20 2,000 2,900 4,700 1,800 4,000 40 370 8 50 1,700 2,700 4,100 1,600 3,700 50 330 7 70 1,500 2,400 3,700 1,500 3,400 60 300 7 00 1,300 2,200 3,300 1,300 310

80 260 6 10 1,200 1,900 2,900 1,200 2,600 100 220 540 1,000 1,700 2,600 1,000 2,300 125 200 490 900 1,400 2,300 900 2,100 150 190 430 830 1,300 2,100 830 1,900 175 170 400 780 1,200 1,900 770 1,700 200 160 380 730 1,100 1,800 720 1,500

3/8" 1/2" 5/8" 3/4" 7/8" 1/2" 3/4"

Tubing Size, O.D. Type L

Nominal Pipe Size

Schedule 40

IO-242C 05/05

Sizing Between First and Second Stage Regulator* Maximum Propane Capacities listed are based on 2 psig pressure drop at 10 psig setting. Capacities in 1,000 BTU/hour.

Pipe or Tubing Length,

Feet

10 39 92 199 329 501 935 275 567 1,071 2,205 3,307 20 26 62 131 216 346 630 189 393 732 1,496 2,299 30 21 50 107 181 277 500 152 315 590 1,212 1,858 40 19 41 90 145 233 427 129 267 504 1,039 1,559 50 18 37 79 131 198 376 114 237 448 91 1,417 60 16 35 72 121 187 340 103 217 409 834 1,275

80 13 29 62 104 155 289 89 185 346 724 1,066 100 11 26 55 90 138 255 78 162 307 630 976 125 10 24 48 81 122 224 69 146 275 567 866 150 9 21 43 72 109 202 63 132 252 511 787 200 8 19 39 66 100 187 54 112 209 439 665 250 8 17 36 60 93 172 48 100 185 390 590

Tubing Size, O.D. Type L

3/8" 1/2" 5/8" 3/4" 7/8" 1-1/8" 1/2" 3/4" 1" 1-1/4" 1-1/2"

Nominal Pipe Size

Schedule 40

X. CIRCULATING AIR AND FIL TERS

Ductwork - Air

WARNING

EVER ALLOW THE PRODUCTS OF COMBUSTION, INCLUDING CARBON

MONOXIDE, TO ENTER THE RETURN DUCTWORK OR CIRCULATION AIR SUPPLY.

Duct systems and register sizes must be properly designed for the CFM and external static pressure rating of the furnace. Ductwork should be designed in accordance with the recommended methods of “Air Conditioning Contractors of America” Manual D.

A duct system must be installed in accordance with Standards of the National Board of Fire Underwriters for the Installation of Air Conditioning, Warm Air Heating and Ventilating Systems. Pamphlets No. 90A and 90B.

A closed return duct system must be used, with the return duct connected to the furnace. NOTE: Ductwork must never be attached to the back of the furnace. Supply and return connections to the furnace may be made with flexible joints to reduce noise transmission. T o prevent the blower from interfering with combustion air or draft when a central return is used, a connecting duct must be installed between the unit and the utility room wall. A room, closet, or alcove must not be used as a return air chamber.

When the furnace is used in connection with a cooling unit, the furnace should be installed in parallel with or on the upstream side of the cooling unit to avoid condensation in the heating element. With a parallel flow arrangement, the dampers or other means used to control the flow of air must be adequate to prevent chilled air from entering the furnace and, if manually operated, must be equipped with means to prevent operation of either unit unless the damper is in the full heat or cool position.

When the furnace is installed without a cooling coil, it is recommended that a removable access panel be provided in the outlet air duct. This opening shall be accessible when the furnace is installed and shall be of such a size that the heat exchanger can be viewed for visual light inspection or such that a sampling probe can be inserted into the airstream. The access panel must be made to prevent air leaks when the furnace is in operation.

When the furnace is heating, the temperature of the return air entering the furnace must be between 55°F and 100°F.

When a furnace is installed so that supply ducts carry air circulated by the furnace to areas outside the space containing the furnace, the return air shall also be handled by a duct sealed to the furnace casing and terminating outside the space containing the furnace.

FILTERS - READ THIS SECTION BEFORE INSTALLING THE RETURN AIR DUCTWORK

Filters must be used with this furnace. Discuss filter maintenance with the building owner. Filters do not ship with this furnace, but must be provided by the installer. Filters must comply with UL900 or CAN/ULCS111 standards. If the furnace is installed without filters, the warranty will be voided.

NOTE: An undersized opening will cause reduced airflow. The bottom return is set up as a knock out.

UPRIGHT INSTALLATIONS

Depending on the installation and/or customer preference, differing filter arrangements can be applied. Filters can be installed in the central return register or a side panel external filter rack kit (upflows), or the ductwork above a counterflow furnace. As an alternative, a media air filter or electronic air cleaner can be used as the requested filter. The following figures show possible filter locations.

CIRCULATION AIR FILTERS

One of the most common causes of a problem in a forced air heating system is a blocked or dirty filter. Circulating air filters must be inspected monthly for dirt accumulation and replaced if necessary. Failure to maintain clean filters can cause premature heat exchanger failure.

A new home may require more frequent replacement until all construction dust and dirt is removed. Circulating air filters are to be installed in the return air duct external to the furnace cabinet.

FURNACE INPUT FILTER SIZE TYPE

45M 68M

90M 115M 135M

45M

68M

90M 115M 135M

PERMANENT NOMINAL 600 C.F.M. DISPOSABLE NOMINAL 300 C.F.M.

MINIMUM FILTER SIZES

160 in

241 in

320 in

400 in

370 in

320 in

483 in

640 in

800 in

738 in

permanent permanent permanent permanent permanent disposable disposable disposable disposable disposable

HORIZONTAL INSTALLATIONS

Filters must be installed in either the central return register or in the return air duct work.

XI. SEQUENCE OF OPERA TION

(INTEGRA TED IGNITION CONTROL)

Refer to Timing Charts for sequencing.

POWER UP

1. 115 VAC power applied to furnace.

2. Integrated ignition control performs internal checks.

3. Integrated ignition LED will light.

4. Integrated ignition control monitors safety circuits continuously.

5. Furnace awaits call from thermostat.

IO-242C 05/05

NORMAL HEATING SEQUENCE

1. Thermostat calls for heat .

2. The induced draft blower is energized.

3. The igniter is energized and is allowed to preheat.

4. The gas valve is energized delivering gas to the burners and starting combustion.

5. The control checks for a signal from the flame sensor within seven seconds after the gas valve is energized. Gas will only continue to flow if a signal is present.

6. Circulator blower is energized on heat speed following a fixed thirty second blower on delay . Electronic air cleaner terminals are energized with circulator blower.

7. Thermostat contacts open when thermostat is satisfied, completing the call for heat.

8.. Gas valve closes, extinguishing flame.

9. Induced draft blower is de-energized following a two (2) second post purge. Humidifier terminals are de-energized.

10. Circulator blower is de-energized following a selectable heat off delay period (90, 120, 150 or 180 seconds). Electronic air cleaner terminals are de-energized.

The adjustable delay-off timing allows the installer to customize the comfort level.

CONSTANT FAN

The continuous fan speed mode provides circulation.

XII. ST ART-UP PROCEDURE AND ADJUSTMENT

Furnace must have a 115 VAC power supply properly connected and grounded. Proper polarity must be maintained for correct operation. An interlock switch prevents furnace operation if the blower door is not in place. Keep the blower access door in place except for inspection and maintenance.

This furnace is also equipped with a self-diagnosing electronic control module. In the event a furnace component is not operating properly , the control module LED will flash on and off in a factoryprogrammed sequence, depending on the problem encountered. This light can be viewed through the observation window in the blower access door. Refer to the Troubleshooting Chart for further explanation of the lighting codes.

Follow the start-up and adjustment items, refer to further information in Section XIII, Operational Checks.

FURNACE OPERATION

Purge gas lines of air prior to start-up. Do not purge lines into an enclosed burner compartment.

Check for leaks using an approved chloride-free soap and water solution, an electronic combustible gas detector, or other approved method. Verify that all required kits (propane gas, high altitude, etc.) have been appropriately installed.

3. Set the room thermostat to the lowest possible setting.

4. Remove the burner compartment door.

NOTE: This furnace is equipped with an ignition device which automatically lights the burner. Do not try to light the burner by hand.

5. White-Rodgers Models 36F22/36G22: Push the switch to the OFF position.

6. Wait five minutes to clear out any gas. Then smell for gas, including near the floor.

7. If gas can be smelled following the five minute waiting period in Step 6, immediately follow the instructions on Page 4 of this manual. If you do not smell gas after five minutes:

White-Rodgers Models 36F22/36G22: Push the switch to the ON position.

8. Replace the door on the front of the furnace.

9. Open the manual gas valve external to the furnace.

10. Turn on the electrical power supply to the furnace.

11. Set the room thermostat to the desired temperature.

NOTE: There is an approximate 20 second delay between thermostat energizing and burner firing.

FURNACE SHUTDOWN

1. Set the thermostat to lowest setting.

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

3. White-Rodgers Models 36F22/36G22: Push switch to the OFF position.

4. Close manual gas shutoff valve external to the furnace.

5. Replace the door on the unit.

Gas Valve

On/Off

Selector

Switch

INLET

Inlet Pressure Tap

(Side of Valve)

White-Rodgers Model 36F22

Outlet Pressure

INL ET

Pressure Regulator

Adjustment

(Under Cap Screw)

Tap

Pressure Regulator (Under Cap Screw)

OUTLET

Outlet (Manifold)

Pressure Tap

Adjustment

OUTLE

NOTE: An interlock switch prevents furnace operation if the blower door is not in place. Keep the blower access doors in place except for inspection and maintenance.

FURNACE START-UP

1. Close the manual gas shutoff valve external to the furnace.

Inlet Pressu re

Tap

White-Rodgers Model 36G22

Gas Valve

On/Off

Selector

Switch

2. Turn off the electrical power to the furnace.

IO-242C 05/05

GAS SUPPLY PRESSURE MEASUREMENT

CAUTION

O PREVENT UNRELIABLE OPERATION OR EQUIPMENT DAMAGE, THE INLET

GAS SUPPLY PRESSURE MUST BE AS SPECIFIED ON THE UNIT RATING PLATE WITH ALL OTHER HOUSEHOLD GAS FIRED APPLIANCES OPERATING.

WHITE-RODGERS 36F22 GAS VALVE

The line pressure supplied to the gas valve must be within the range specified below. The supply pressure can be measured at the gas valve inlet pressure tap or at a hose fitting installed in the gas piping drip leg. The supply pressure must be measured with the burners operating (see picture above). To measure the gas supply pressure, use the following procedure.

With Power and Gas Off:

1. Connect a water manometer or adequate gauge to the “inlet pressure tap” of the gas valve.

As an alternative method, inlet gas pressure can also be measured by removing the cap from the drip leg and installing a predrilled cap with a hose fitting.

With Power and Gas On:

5. Turn OFF gas to furnace at the manual shutoff valve and disconnect manometer. Reinstall plug before turning on gas to furnace.

6. Turn OFF any unnecessary gas appliances started in step

WHITE-RODGERS 36G22 GAS VALVE

The line pressure supplied to the gas valve must be within the range specified below. The supply pressure can be measured at the gas valve inlet pressure tap or at a hose fitting installed in the gas piping drip leg. The supply pressure must be measured with the unit OFF. To measure inlet pressure, use the following procedure.

Gas Valve

On/Off

OUTLET

Pressure Regulator

Adjustment

(Under Cap Scr ew )

Selector

Switch

Outlet Pressure

Tap

Inlet Pressure

Tap

INLET

2. Put furnace into heating cycle and turn on all other gas consuming appliances.

If operating pressures differ from the Inlet Gas Supply Pressure table below, make necessary pressure regulator adjustments, check piping size, etc., and/or consult with local utility.

Gas Line

Gas Shutoff Valve

Gas Line To Furnace

Open To

Drip Leg Cap With Fitting

Manometer Hose

Measuring Inlet Gas Pressure (Alternate Method)

Atmosphere

Manometer

3. Turn ON the gas supply and operate the furnace and all other gas consuming appliances on the same gas supply line.

4. Measure furnace gas supply pressure with burners firing. Supply pressure must be within the range specified in the table.

Inlet Gas Supply Pressure

Natural Gas

Propane Gas

Minimum: 5.0" w.c. Maximum:10.0" w.c. Minimum: 11.0" w.c. Maximum:13.0" w.c.

If supply pressure differs from table, make the necessary adjustments to pressure regulator, gas piping size, etc., and/or consult with local gas utility.

White-Rodgers Model 36G22

1. Turn OFF gas to furnace at the manual gas shutoff valve external to the furnace.

2. Using 3/32 hex wrench, loosen inlet pressure tap screw one turn.

3. Connect a 5/16 inch hose and calibrated water manometer to the gas valve inlet pressure tap. The hose should overlap the tap by 3/8 inch.

4. Turn ON the gas supply and operate the furnace

5. Leak test. Using a leak detection solution or non-chlorine soap suds, check for leaks at hose connection. Bubbles forming indicate a leak. SHUT OFF GAS AND FIX ALL LEAKS IMMEDIATEL Y BEFORE PROCEEDING TO NEXT STEP!

6. Measure furnace gas supply pressure. Supply pressure must be within the range specified in the Inlet Gas Supply Pressure table.

If supply pressure reading differs from the table, make necessary adjustments to pressure regulator, gas piping size, etc., and/or consult with local gas utility.

Inlet Gas Supply Pressure

Natural Gas

Propane Gas

Minimum: 5.0" w.c. Maximum:10.0" w.c. Minimum: 11.0" w.c. Maximum:13.0" w.c.

7. Turn OFF gas to furnace at the manual shutoff valve and disconnect manometer and hose. Reinstall plug before turning on gas to furnace.

8. Seal pressure port. Tighten inlet pressure tap screw clockwise 7 in-lbs. minimum.

9. Retest for leaks. If bubbles form, shut down gas and fix leaks immediately.

10. Turn valve switch ON.

IO-242C 05/05

GAS MANIFOLD PRESSURE MEASUREMENT AND ADJUSTMENT

CAUTION

O PREVENT UNRELIABLE OPERATION OR EQUIPMENT DAMAGE, THE GAS

MANIFOLD PRESSURE MUST BE AS SPECIFIED ON THE UNIT RATING PLATE.

NLY MINOR ADJUSTMENTS SHOULD BE MADE BY ADJUSTING THE GAS VALVE

PRESSURE REGULATOR.

WHITE-RODGERS 36F22 GAS VALVE

Only small variations in gas pressure should be made by adjusting the gas valve pressure regulator. The manifold pressure must be measured with the burners operating. To measure and adjust the manifold pressure, use the following procedure.

1. Turn OFF gas to furnace at the manual gas shutoff valve external to the furnace.

2. Connect a calibrated water manometer (or appropriate gas pressure gauge) at the gas valve outlet pressure tap (refer to gas valve figure in previous section).

3. Turn ON the gas supply and operate the furnace.

4. Measure gas manifold pressure with burners firing. Adjust manifold pressure according to the Manifold Gas Pressure table:

Manif o ld Ga s P r essur e

Gas Range Nominal

Natural 3.2 - 3.8" w.c. 3.5" w.c. Propane 9. 7 - 10.3" w. c . 10. 0" w .c .

The final manifold pressure must not vary more than ± 0.3 “ w.c. from the above specified pressures. Any necessary major changes in gas flow rate should be made by changing the size of the burner orifice.

5. To adjust the gas valve pressure regulator, remove the regulator cap.

6. Turn the adjustment screw clockwise to increase the pressure, or counterclockwise to decrease the pressure.

7. Securely replace the regulator cap.

8. Turn OFF gas to furnace at the manual shutoff valve and disconnect manometer.

9. Reinstall gas valve outlet pressure tap plug before turning on gas to furnace.

WHITE-RODGERS 36G22 GAS VALVE

This valve is shipped from the factory with the regulator preset (see control label).

Consult the appliance rating plate to ensure burner manifold pressure is as specified. If another outlet pressure is required, follow these steps.

1. Turn OFF all electrical power to the system.

2. Using a 3/32 inch hex wrench, loosen outlet pressure tap screw one turn. Do not remove screw.

3. Connect a calibrated water manometer and 5/16 inch hose to the gas valve outlet pressure tap. Hose should overlap tap by 3/8 inch.

4. Turn ON system power and set thermostat to a call for heat.

5. Using a leak detection solution or non-chlorine soap suds, check for leaks at hose connection. Bubbles forming indicate a leak. SHUT OFF GAS AND FIX ALL LEAKS IMMEDIATELY!

6. Remove regulator screw cover. T urn regulator screw either clockwise to increase pressure or counterclockwise to decrease. Always adjust regulator to provide the correct pressure according to the original equipment manufacturer specifications listed on the appliance rating plate.

7. Replace regulator screw cover and finger-tighten securely.

8. Turn OFF all electrical power to the system.

9. Remove manometer and hose from outlet pressure tap.

10. Tighten outlet pressure tap clockwise 7 in-lbs minimum to seal port.

11. Turn ON system power and set thermostat to call for heat.

12. Using a leak detection solution or non-chlorine soap suds, check for leaks at hose connection. Bubbles forming indicate a leak. SHUT OFF GAS AND FIX ALL LEAKS IMMEDIA TELY!

Measure gas manifold pressure with burners firing. Adjust manifold pressure per the Manifold Gas Pressure table.

Manif old Ga s Pr e ssu re

Gas Range Nominal

Natural 3.2 - 3.8" w. c . 3.5" w. c . Propane 9. 7 - 10.3" w. c . 10.0" w.c .

The final manifold pressure must not vary more than ± 0.3 w.c. from specified manifold pressure.

Any necessary major changes in gas flow rate should be made by changing the size of the burner orifice.

GAS INPUT RATE MEASUREMENT (NATURAL GAS ONLY)

The gas input rate to the furnace must never be greater than that specified on the unit rating plate. To measure natural gas input using the gas meter, use the following procedure.

1. Turn OFF the gas supply to all other gas-burning appliances except the furnace.

2. While the furnace is operating, time and record one complete revolution of the smallest gas meter dial.

3. Calculate the number of seconds per cubic foot (sec/ ft gas being delivered to the furnace. If the dial is a one cubic foot dial, divide the number of seconds recorded in step 2 by one. If the dial is a two cubic foot dial, divide the number of seconds recorded in step 2 by two.

4. Calculate the furnace input in BTUs per hour (BTU/ hr). Input equals the sum of the installation’s gas heating value and a conversion factor (hours to seconds) divided by the number of seconds per cubic foot. The measured input must not be greater than the input indicated on the unit rating plate.

EXAMPLE: Installation’s gas heating (HTG) value: 1,000 BTU/ft

(Obtained from gas supplier) Installation’s seconds per cubic foot: 34 sec/ ft

Conversion Factor (hours to seconds): 3600 sec/hr Input = (Htg. value x 3600) ÷ seconds per cubic foot Input = (1,000 BTU/ft3 x 3600 sec/hr) ÷ 34 sec/ ft Input = 106,000 BTU/hr This measured input must not be greater than the input

indicated on the unit rating plate.

5. Turn ON gas and relight appliances turned off in step 1. Ensure all the appliances are functioning properly and that all pilot burners are operating.

) of

IO-242C 05/05

TEMPERATURE RISE

Air temperature rise is the temperature difference between supply and return air. The proper amount of temperature rise is usually obtained when the unit is operated at the rated input with the “as shipped” blower speed. If the correct amount of temperature rise is not obtained, it may be necessary to change the blower speed.

An incorrect temperature rise can cause condensing in or overheating of the heat exchanger. Determine and adjust the temperature rise as follows. The temperature rise must be within the range specified on the rating plate or Product Data Book applicable to your model*.

HEAT EXCHANGER

RADIATION "LINE OF SIGHT"

SUPPLY AIR

SUPPLY

RISE =

SUPPLY

RETURN

RETURN AIR

Temperature Rise Measurement

1. Operate furnace with burners firing approximately 15 minutes. Ensure all registers are open and all duct dampers are in their final (fully or partially open) position.

2. Place thermometers in the return and supply ducts as close to the furnace as possible. Thermometers must not be influenced by radiant heat by being able to “see” the heat exchanger.

3. Subtract the return air temperature from the supply air temperature to determine the air temperature rise. Allow adequate time for thermometer readings to stabilize.

4. Adjust temperature rise by adjusting the circulator blower speed. Increase blower speed to reduce temperature rise. Decrease blower speed to increase temperature rise. Refer to the following section for speed changing details.

CIRCULATOR BLOWER SPEED ADJUSTMENT

To adjust the circulator blower speed, proceed as follows:

1. Turn OFF power to the furnace.

2. Select the heating and cooling blower speeds that match the installation requirements from the airflow table in the Product Data Book applicable to your model.

3. Relocate desired motor leads to the circulator blower heat and cool speed terminals on the integrated control module. (Terminals are identified as HEAT and COOL (hot)). If heating and cooling blower speeds are the same, a jumper wire must be used between the heat and cool terminals. This wire is provided in the literature package.

4. Connect all unused blower motor leads to the “PARK” terminals on the integrated control module. Any leads not connected to the “PARK” terminals must be taped.

5. Turn ON power to furnace.

6. Verify proper temperature rise as outlined in Temperature Rise section.

CIRCULATOR BLOWER FAN TIMING ADJUSTMENT

NOTE: Items in this section refer to the air circulator blower fan,

NOT to the induced draft blower. The induced draft blower timing sequence is not adjustable. The circulator blower fan timing is adjustable only on models with optional “heating fan OFF delay” adjustment pins or switches. It is NOT adjustable in any other circumstances.

As shipped, the circulator blower fan will remain on for 90 seconds after the gas valve closes. When a call for cooling occurs, the circulator fan comes on and remains on for 45 seconds after the call for cooling ends. During normal heating operation, the circulator fan will come on approximately 37 seconds after the gas valve opens.

SECOND

DELAY

150

SECOND

DELAY

N O

2 1

N O

SECOND

DELAY

F F

SECOND

DELAY

F F

Switches viewed in an upflow installation.

Adjustment Switches

XIII. OPERA TIONAL CHECKS

120

180

WARNING

O AVOID PERSONAL INJURY OR DEATH DUE TO ELECTRICAL SHOCK, TURN

POWER TO THE FURNACE BEFORE CHANGING SPEED TAPS.

OFF

This furnace is equipped with a PSC circulator blower motor. This blower provides ease in adjusting blower speeds. The Product Data Book applicable to your model provides an airflow table showing the relationship between airflow (CFM) and external static pressure (E.S.P.) and a table for the proper selection of heating and cooling speeds. The cooling blower speed is shipped set on HIGH, and the heating blower speed is set as indicated in the Product Data Book. These blower speeds should be adjusted by the installer to match the installation requirements so as to provide the correct heating temperature rise and the correct cooling CFM.

IO-242C 05/05

O AVOID PERSONAL INJURY OR DEATH, DO NOT REMOVE ANY INTERNAL

COMPARTMENT COVERS OR ATTEMPT ANY ADJUSTMENT. COMPONENTS ARE CONTAINED IN BOTH COMPARTMENTS. QUALIFIED SERVICE AGENT AT ONCE IF AN ABNORMAL FLAME APPEARANCE SHOULD DEVELOP.

LECTRICAL

ONTACT A

BURNER FLAME

The burner flames should be inspected with the burner compartment door installed. Flames should be stable, quiet, soft, and blue (dust may cause orange tips but they must not be yellow). Flames should extend directly outward from the burners without curling, floating, or lifting off. Flames must not impinge on the sides of the heat exchanger firing tubes.

Check the b urner flames for:

1. Good adjustm ent

2. Stable, soft and blue

3. No t curling, flo a ting, or lifting off.

Burner Flame

AUXILIARY LIMIT CONTROL

Auto reset limits are located on or near the blower. To access this auxiliary limit, disconnect the electrical power and remove the blower door. If the limit control opens, the air circulation blower will run continuously. The diagnostic light will flash four times. These symptoms are identical to a trip of the primary limit control. The auxiliary limit control is designed to prevent furnace operation in case of main blower failure on horizontal and counterflow installations. It may also open if the power supply is interrupted while the furnace is firing. The auxiliary limit control is suitable for both horizontal right and horizontal left installations. Regardless of airflow direction, it does not need to be relocated.

WARNING

O AVOID PERSONAL INJURY OR DEATH, DO NOT REMOVE ANY INTERNAL

COMPARTMENT COVERS OR ATTEMPT ANY ADJUSTMENT. COMPONENTS ARE CONTAINED IN BOTH COMPARTMENTS. QUALIFIED SERVICE AGENT AT ONCE IF AN ABNORMAL FLAME APPEARANCE PREVENT PROPERTY DAMAGE, PERSONAL INJURY OR DEATH DUE TO FIRE,

LECTRICAL

ONTACT A

PRIMARY LIMIT

The primary limit control guards against overheating resulting from insufficient conditioned air passing over the heat exchanger. If the primary limit control does not function during this test, the cause must be determined and corrected. Function of this control should be verified by gradually blocking the furnace return air after the furnace has been operating (burners firing) for approximately ten minutes. Check the control as follows:

1. Allow the furnace to operate with burners firing continuously for approximately ten minutes.

2. Gradually block the return air to furnace. Remove airflow blockage when limit control is activated and turns off burners. Airflow blockage causes unit overheating and will produce the following reactions:

• The gas valve to close and extinguish flame,

• The induced draft blower to be de-energized after a fifteen second postpurge, and

• The circulator blower to remain energized continuously until limit control resets.

3. Remove the return air blockage to clear overheating condition. After an acceptable temperature is reached during the cool down period, the limit control will reset and allow the furnace to resume normal operation.

WARNING

O PREVENT PREMATURE FAILURE OF HEAT EXCHANGER, PROPERTY DAMAGE,

PERSONAL INJURY OR DEATH, DO NOT ADJUST THE LIMIT CONTROL (FACTORY SET).

IMPORTANT NOTE: This unit must not be used as a construction

heater during the finishing phases of construction of a new structure. This type of use may result in premature failure due to extremely low return air temperatures and exposure to corrosive or very dirty atmospheres.

These checks establish that the primary limit control is functioning and will respond to a restriction in the return air, or a circulator blower failure. If the primary limit control does not function during this test, the cause must be determined and corrected.

XIV . SAFETY CIRCUIT DESCRIPTION

GENERAL

A number of safety circuits are employed to ensure safe and proper furnace operation. These circuits serve to control any potential safety hazards and serve as inputs in the monitoring and diagnosis of abnormal function. These circuits are continuously monitored during furnace operation by the integrated control module.

INTEGRATED CONTROL MODULE

The integrated control module is an electronic device which controls all furnace operations. Responding to the thermostat, the module initiates and controls normal furnace operation, and monitors and addresses all safety circuits. If a potential safety concern is detected, the module will take the necessary precautions and provide diagnostic information through an LED.

PRIMARY LIMIT

The primary limit control is located on the partition panel and monitors heat exchanger compartment temperatures. It is an automatic reset, temperature sensor. The limit guards against the overheating as a resulting of insufficient air passing over the heat exchanger.

AUXILIARY LIMIT

The auxiliary limit control is located either on or near the circulator blower and monitors heat exchanger compartment temperatures. The control is a temperature sensor. It guards against overheating resulting from insufficient air passing over the heat exchanger.

ROLLOUT LIMITS

The rollout limit controls are mounted on the burner/manifold assembly and monitor the burner flame. They are manual-reset, temperature sensors. This limit guards against burner flames not being properly drawn into the heat exchanger.

PRESSURE SWITCHES

The pressure switches are normally-open, negative air pressureactivated switches. They monitor the airflow (combustion air and flue products) through the heat exchanger via pressure taps located on the induced draft blower. These switches guard against insufficient airflow (combustion air and flue products) through the heat exchanger.

FLAME SENSOR

The flame sensor is a probe mounted to the burner/manifold assembly which uses the principle of flame rectification to determine the presence or absence of flame.

XV . TROUBLESHOOTING

ELECTROSTATIC DISCHARGE (ESD) PRECAUTIONS

NOTE: Discharge body’s static electricity before touching unit. An

electrostatic discharge can adversely affect electrical components.

IO-242C 05/05

Use the following precautions during furnace installation and servicing to protect the integrated control module from damage. By putting the furnace, the control, and the person at the same electrostatic potential, these steps will help avoid exposing the integrated control module to electrostatic discharge. This procedure is applicable to both installed and uninstalled (ungrounded) furnaces.

1. Disconnect all power to the furnace. Do not touch the integrated control module or any wire connected to the control prior to discharging your body’s electrostatic charge to ground.

2. Firmly touch a clean, unpainted, metal surface of the furnace away from the control. Any tools held in a person’ s hand during grounding will be discharged.

DIAGNOSTIC CHART

Refer to the troubleshooting chart on the following pages for assistance in determining the source of unit operational problems. The red diagnostic LED blinks to assist in troubleshooting the unit. The number of blinks refer to a specific code.

ANNUAL INSPECTION

The furnace should be inspected by a qualified installer, or service agency at least once per year. This check should be performed at the beginning of the heating season. This will ensure that all furnace components are in proper working order and that the heating system functions appropriately. Pay particular attention to the following items. Repair or service as necessary.

• Flue pipe system. Check for blockage and/or leakage. Check the outside termination and the connections at and internal to the furnace.

• Heat exchanger. Check for corrosion and/or buildup within the heat exchanger passageways.

• Burners. Check for proper ignition, burner flame, and flame sense.

• Wiring. Check electrical connections for tightness and/or corrosion. Check wires for damage.

• Filters.

FILTERS

WARNING

O AVOID PROPERTY DAMAGE, PERSONAL INJURY OR DEATH, DISCONNECT

ELECTRICAL POWER BEFORE REMOVING FILTERS. WITHOUT A FILTER INSTALLED BECAUSE DUST AND LINT WILL BUILD UP ON INTERNAL PARTS RESULTING IN LOSS OF EFFICIENCY, EQUIPMENT DAMAGE AND POSSIBLE FIRE.

A return air filter is not supplied with this furnace; however, there must be a means of filtering all of the return air. The installer will supply filter(s) at the time of installation.

EVER OPERATE FURNACE

RESETTING FROM LOCKOUT

Furnace lockout results when a furnace is unable to achieve ignition after three attempts, or when it has lost flame five times during a single call for heat. It is characterized by a non-functioning furnace and a one flash diagnostic LED code from the red LED. If the furnace is in “lockout”, it will (or can be) reset in any of the following ways.

1. Automatic reset. The integrated control module will automatically reset itself and attempt to resume normal operations following a one hour lockout period.

2. Manual power interruption. Interrupt 115 volt power to the furnace for 0 - 20 seconds.

3. Manual thermostat cycle. Lower the thermostat so that there is no longer a call for heat for 0 - 20 seconds then reset to previous setting.

NOTE: If the condition which originally caused the lockout still exists, the control will return to lockout. Refer to the Diagnostic Chart for aid in determining the cause.

XVI. MAINTENANCE

WARNING

TO AVOID ELECTRICAL SHOCK, INJURY O R DEATH, DISCONNECT ELECTRIC AL

POWER BEFORE PERFORMING ANY MAINTENANCE. IF YOU MUST HANDLE T HE IGNITER, HANDLE WITH CARE. FINGERS, ROUGH HA NDLING, OR VIBRATI ON COULD DA MAGE THE IGNITER RESULTING IN PREMATURE FAILURE. EVER HANDLE THE IGNITER.

OUCHING THE IGNITER E LEMENT WITH BARE

NLY A QUALIFIED SERVICER SH OULD

FILTER MAINTENANCE

Improper filter maintenance is the most common cause of inadequate heating or cooling performance. Filters should be cleaned (permanent) or replaced (disposable) every two months or as required. When replacing a filter, it must be replaced with a filter of the same type and size.

WARNING

O PREVENT PROPERTY DAMAGE, PERSONAL INJURY OR DEATH DUE TO

ELECTRICAL SHOCK, DISCONNECT ELECTRICAL POWER TO THE FURNACE BEFORE REMOVING THE FILTER OR PERFORMING ANY OTHER MAINTENANCE.

Become familiar with filter location and procedures for removal, cleaning and replacing them. If help is needed, contact the installer of the furnace or a qualified servicer.

FILTER REMOVAL

Depending on the installation, differing filter arrangements can be applied. Filters can be installed in either the central return register or a side panel external filter rack (upflow only). A media air filter or electronic air cleaner can be used as an alternate filter. Follow the filter sizes given in the Recommended Minimum Filter size table to ensure proper unit performance.

To remove filters from an external filter rack in an upright upflow installation, follow the directions provided with external filter rack kit. To remove internal filters see Internal Filter Removal section. Internal filters are an accessory item and are not included with your furnace. For further details, see your distributor.

IO-242C 05/05

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.

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 LEA VING AN INST ALLA TION

• 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.

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

XVIII. REP AIR 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

O PREVENT PERSONAL INJURY OR DEATH, DO NOT REMOVE ANY INTERNAL

COMPARTMENT COVERS OR ATTEMPT ANY ADJUSTMENT. COMPONENTS ARE CONTAINED IN BOTH COMPARTMENTS. 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.

IO-242C 05/05

LECTRICAL

ONTACT A

TROUBLESHOOTING CHART

Symptoms of Abnormal

Operation

•Furnace fails to operate.

• Integrated control module diagnostic LED provides no signal.

•Furnace fails to operate.

• Integrated control module diagnostic LED is flashing ONE (1) flash.

Associated

LED Code

NONE

1 FLASH

Fault Description(s) Possible Causes Corrective Action Cautions and Notes

•No 115 volt power to furnace, or no 24 volt power to integrated control module.

•Blown fuse or circuit breaker.

• Integrated control module has an internal fault.

•Furnace lockout due to an excessive number of ignition attempt (1 total) and “retries” (3 total)1.

•Auxiliary Limit Open

• Manual disconnect switch OFF, door switch open, or 24 volt wires improperly connected or loose.

•Blown fuse or circuit breaker.

•Integrated control module

has an internal fault.

•Failure to establish flame. Cause may be no gas to burners, bad igniter or igniter alignment, improper orifices, or coated/oxidized or improperly connected flame sensor.

•Loss of flame after establishment. Cause may be interrupted gas supply, lazy burner flames (improper gas pressure or restriction in flue or improper induced draft blower performance.

•Insufficient conditioned air over the heat exchanger. Blocked filters, restrictive ductwork, improper circulator blower speed, or failed circulator blower.

•Assure 115 and 24 volt power to furnace integrated control module.

•Check integrated control module fuse (3A). Replace if necessary.

•Check for possible shorts in 115 and 24 volt circuits. Repair as necessary.

•Replace bad integrated control module.

• Locate and correct

gas interruption.

•Replace or realign

igniter.

•Check flame sense

signal. Sand sensor if coated and/or oxidized.

•Check flue piping for

blockage, proper length, elbows, and termination.

•Verify proper induced

draft blower performance.

•Check circulator

blower speed and performance. Correct speed or replace blower if necessary.

•Turn power OFF prior to repair.

•Replace integrated control module fuse with 3A automotive fuse.

•Turn power OFF prior to repair.

•Read precautions in “Electrostatic Discharge” section of manual.

•Turn power OFF prior to repair.

•Igniter is fragile, handle with care.

•Clean flame sensor with steel wool.

•See “Combustion and Ventilation Air Requirements” and “Category I Venting (Vertical Venting)” section for details.

•See Product Data Bulletin for allowable rise range and proper circulator speed.

•Furnace fails to operate.

• Integrated control module diagnostic LED is flashing TWO (2) flashes.

• Induced draft blower runs continuously with no further furnace operation.

•Integrated control module diagnostic LED is flashing THREE (3) flashes.

Integrated control module will automatically attempt to reset from lockout after one hour.

LED Flash code will cease if power to the control module is interrupted through the disconnect or door switch.

2 FLASHES

3 FLASHES

IO-242C 05/05

• Pressure switch

circuit is closed.

•Induced draft blower is not operating.

• Pressure switch circuit not closed.

•Induced draft blower is operating.

• Induced draft blower pressure switch contacts sticking.

•Shorts in pressure switch circuit.

• Pressure switch hose blocked, pinched or connected improperly.

•Blocked flue or weak induced draft blower.

•Incorrect pressure switch setpoint or malfunctioning switch contacts.

•Loose or improperly connected wiring.

•Replace induced draft blower pressure switch.

•Repair short.

• Inspect pressure switch hose. Repair, if necessary,

•Inspect flue for blockage, proper length, elbows, and termination.

•Correct pressure switch setpoint or contact motion.

•Tighten or correct wiring connection.

•Turn power OFF prior to repair.

•Replace pressure switch with proper replacement part.

•Turn power OFF prior to repair.

•See “Combustion and Ventilation Air Requirements” and “Category I Venting (Vertical Venting)” section for details.

•Replace pressure switch with proper replacement part.

TROUBLESHOOTING CHART

Symptoms of Abnormal

Operation

•Circulator blower runs continuously. No furnace operation.

•Integrated control module diagnostic LED is flashing FOUR (4) flashes.

•Induced draft blower and circulator blower runs continuously. No furnace operation.

•Integrated control module diagnostic LED is flashing FIVE (5) flashes.

•Furnace fails to operate.

•Integrated control module diagnostic LED is flashing SIX (6) flashes.

•Normal furnace operation.

•Integrated control module diagnostic LED is flashing SEVEN (7) flashes.

Associated LED Code

4 FLASHES

5 FLASHES

6 FLASHES

7 FLASHES

Fault Description(s)

•Primary limit circuit is open.

•Flame sensed with no call for heat.

•Rollout limit open.

•Flame sense

microamp signal is low.

Possible Causes Corrective Action Cautions and Notes

•Insufficient conditioned air over the heat exchanger. Blocked filters, restrictive ductwork, improper circulator blower speed, or failed circulator blower.

•Short to ground in flame sense circuit.

•Flame rollout.

•Misaligned burners, blocked flue and/or air inlet pipe, or failed induced draft blower.

•Loose or improperly connected wiring.

•Flame sensor is coated/ oxidized.

•Flame sensor incorrectly positioned in burner flame.

•Lazy burner flame due to improper gas pressure or combustion air.

•Check filters and ductwork for blockage. Clean filters or remove obstruction.

•Check circulator blower speed and performance. Correct speed or replace blower if necessary.

•Correct short at flame sensor or in flame sensor wiring

•Check burners for proper alignment.

•Check flue and air inlet piping for blockage, proper length, elbows, and termination. Correct as necessary.

•Check induced draft blower for proper performance. Replace, if necessary.

•Tighten or correct wiring connection.

•Sand flame sensor is coated/oxidized.

•Inspect for proper sensor alignment.

•Check inlet air piping for blockage, proper length, elbows, and termination.

•Compare current gas pressure to rating plate info. Adjust as needed.

•Turn power OFF prior to repair.

•See Product Data Bulletin for allowable rise range and proper circulator speed.

•Turn power OFF prior to repair.

•See “Vent/Flue Pipe” section for piping details.

•Replace induced draft blower with proper replacement part.

•Turn power OFF prior to repair.

•Clean flame sensor with steel wool.

•See “Vent/Flue Pipe” section for piping details.

•See rating plate for proper gas pressure.

• Induced draft blower runs continuously. No furnace operation.

• Integrated control module diagnostic LED is flashing

continuously.

• LED is steady on

LED Flash code will cease if power to the control module is interrupted through the disconnect or door switch.

Applies to GMS8/GDS8/GHS8 Models only.

CONTINUOUS

FLASHING

steady on

IO-242C 05/05

•Polarity of 115 volt power is reversed.

• Normal operation.

•Polarity of 115 volt AC power to furnace or integrated control module is reversed.

•Poor unit ground.

•Review wiring diagram to correct polarity.

•Verify proper ground. Correct if necessary.

•Check and correct wiring.

•Turn power OFF prior to repair.

Wiring Diagram for GMS8/GDS8/GHS8

2 3

5 6

7 C

1 L

24V

115V XFMR

6 7

L N

E W

L N K

B W B G R

(

O O

(

IO-242C 05/05

C )

115 VAC NEUTRAL

O (MED LOW)

BL (MED)

R (LOW)

BK (HI)

W (N)

CICULATOR

BLOWER

CAP

P S

)

L S

L P

24V THERMOSTAT CONNECTIONS

INTEGRATED CONTROL MODULE

(

T W

(

P P

T M

(

)

(

)

) D

L V

)

(

)

(

)

(

)

(

)

(

)

0 4

)

(

)

(

)

(

)

R E

)

(

)

D L

H E

(

INTEGRATED CONTROL MODULE

)

NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN

ARE SUBJECT TO CHANGE WITHOUT NOTICE

Quality Makes the Difference!

All of our systems are designed and manufactured with the same high quality standards regardless of size or efficiency . W e have designed these units to significantly reduce the most frequent causes of product failure. They are simple to service and forgiving to operate. We use quality materials and components. Finally, every unit is run tested before it leaves the factory . That’ s why we know. . . There’s No Better Quality .

Visit our website at www.goodmanmfg.com or www.amana-hac.com for information on:

• Products

• Warranties

• Customer Services

• Parts

• Contractor Programs and Training

• Financing Options

Goodman Manufacturing Company, L.P.

2550 North Loop West, Suite 400, Houston, TX 77092

www.goodmanmfg.com

IO-242C 05/05

Goodman Mfg GHS8, GDS8, GMS8 User Manual

Specifications and Main Features

Frequently Asked Questions

User Manual