installation, start-up,
383KAV
and operating instructions
UPFLOW GAS-FIRED
INDUCED-COMBUSTION FURNACES
NOTE: Read the entire instruction manual before starting the
installation.
This symbol → indicates a change since the last issue.
Index Page
SAFETY CONSIDERATIONS .....................................................1
ELECTROSTATIC DISCHARGE (ESD) PRECAUTIONS
PROCEDURE........................................................................2-3
Dimensional Drawing ..............................................................2
Clearances From Combustible Materials .................................3
INTRODUCTION.......................................................................3-4
LOCATION ..................................................................................4
General ......................................................................................4
Location Relative to Cooling Equipment ................................4
Hazardous Locations.................................................................4
AIR FOR COMBUSTION AND VENTILATION...................4-5
Unconfined Space..................................................................4-5
Confined Space .........................................................................5
AIR DUCTS................................................................................5-7
General Requirements...............................................................5
Ductwork Acoustical Treatment...............................................6
Supply-Air Connections............................................................6
Return-Air Connections.........................................................6-7
FILTER ARRANGEMENT...........................................................7
LEVELING LEGS (IF REQUIRED) ............................................7
GAS PIPING...............................................................................7-8
ELECTRICAL CONNECTIONS...............................................8-9
115-v Wiring..........................................................................8-9
24-v Wiring...............................................................................9
Accessories................................................................................9
VENTING ....................................................................................10
START-UP, ADJUSTMENT, AND SAFETY CHECK ............10
General ....................................................................................10
Sequence Of Operation .....................................................10-12
Heating Mode ....................................................................10-12
Cooling Mode .........................................................................12
Continuous Blower Mode.......................................................12
Heat Pump Mode ....................................................................12
Start-Up Procedures ................................................................12
Adjustments .......................................................................12-17
Set Gas Input Rate ............................................................12-13
Set Temperature Rise..............................................................13
Set Thermostat Heat Anticipator............................................16
Check Safety Controls.......................................................16-17
Checklist..................................................................................17
SAFETY CONSIDERATIONS
Installing and servicing heating equipment can be hazardous due to
gas and electrical components. Only trained and qualified personnel should install, repair, or service heating equipment.
Untrained personnel can perform basic maintenance functions
such as cleaning and replacing air filters. All other operations must
be performed by trained service personnel. When working on
heating equipment, observe precautions in the literature, on tags,
and on labels attached to or shipped with the unit and other safety
precautions that may apply.
Series H&J
Cancels: II 383K-35-12 II 383K-35-14
10-00
ama
CERTIFIED
REGISTERED QUALITY SYSTEM
In the United States, follow all safety codes including the National
Fuel Gas Code (NFGC) NFPA 54-1999/ANSI Z223.1-1999 and
the Installation Standards, Warm Air Heating and Air Conditioning Systems (NFPA 90B) ANSI/NFPA 90B.
In Canada, refer to the CAN/CGA-B149.1- and .2-M95 National
Standard of Canada, Natural Gas and Propane Installation Codes
(NSCNGPIC).
Wear safety glasses and work gloves. Have fire extinguisher
available during start-up and adjustment procedures and service
calls.
Recognize safety information. This is the safety-alert symbol
When you see this symbol on the furnace and in instructions or
manuals, be alert to the potential for personal injury.
Understand the signal words DANGER, WARNING, CAUTION,
and NOTE. These words are used with the safety-alert symbol.
DANGER identifies the most serious hazards which will result in
severe personal injury or death. WARNING signifies a hazard
which could result in personal injury or death. CAUTION is used
to identify unsafe practices which would result in minor personal
injury or product and property damage. NOTE is used to highlight
suggestions which will result in enhanced installation, reliability,
or operation.
These instructions cover minimum requirements and conform to
existing national standards and safety codes. In some instances,
these instructions exceed certain local codes and ordinances,
especially those that may not have kept up with changing residential construction practices. We require these instructions as a
minimum for a safe installation.
.
—1—
39 7⁄8″
28 1⁄2″
VENT CONN
7
⁄8-IN. DIA HOLE
POWER ENTRY
7
⁄8-IN. DIA
ACCESSORY
3
1
⁄4-IN. DIA HOLE
GAS ENTRY
1
⁄2-IN. DIA HOLE
THERMOSTAT
WIRE ENTRY
5 3⁄8″
5 13⁄16″
2 3⁄8″
2 1⁄16″
1″
12 5⁄16″
AIRFLOW
A
D
13
5 3⁄8″
5 13⁄16″
2 3⁄8″
⁄16″
2 11⁄16″
2 1⁄16″
1″
OUTLET
7
⁄8-IN. DIA
POWER ENTRY
1
1
⁄2-IN. DIA
R.H. GAS ENTRY
7
⁄8-IN. DIA ACCESSORY
1
⁄2-IN. DIA THERMOSTAT
WIRE ENTRY
19″
13
⁄16″
SIDE INLET
TYP 1″
11
11
⁄16″
NOTES:
24 5⁄16″
AIR INLET
1. Two additional 7⁄8-in. dia holes are located in the top plate.
2. Minimum return-air openings at furnace, based on metal duct. If flex duct is used,
see flex duct manufacturer's recommendations for equivalent diameters.
a. For 800 CFM–16-in. round or 141⁄2 x 12-in. rectangle.
b. For 1200 CFM–20-in. round or 141⁄2 x 191⁄2-in. rectangle.
c. For 1600 CFM–22-in. round or 141⁄2 x 231⁄4-in. rectangle.
d. For airflow requirements above 1800 CFM, see Air Delivery table in Product Data literature for specific
use of single side inlets. The use of both side inlets, a combination of 1 side and the bottom, or the
bottom only will ensure adequate return air openings for airflow requirements above 1800 CFM.
3″
11
⁄16″
E
⁄16″
5
TYP
⁄8″
SIDE INLET
1
23
⁄4″
SIDE RETURN
DUCT LOCATION
→Fig. 1—Dimensional Drawing
TABLE 1—DIMENSIONS (IN.)
UNIT SIZE A D E VENT CONN SHIP. WT (LB)
024045 14-3/16 12-9/16 12-11/16 4 118
036045 14-3/16 12-9/16 12-11/16 4 120
024070 14-3/16 12-9/16 12-11/16 4 142
036070 14-3/16 12-9/16 12-11/16 4 127
042091 17-1/2 15-7/8 16 4 124
048091 21 19-3/8 19-1/2 4 155
036110 17-1/2 15-7/8 16 4 153
048111 21 19-3/8 19-1/2 4 173
060111 24-1/2 22-7/8 23 4 176
048135 21 19-3/8 19-1/2 5* 173
060135 24-1/2 22-7/8 23 5* 187
060155 24-1/2 22-7/8 23 5* 194
* Oval collar
1
14
⁄2″
1
1
⁄4″
1″
A00210
ELECTROSTATIC DISCHARGE (ESD) PRECAUTIONS
PROCEDURE
CAUTION: Electrostatic discharge can affect electronic
components. Take precautions during furnace installation
and servicing to protect the furnace electronic control.
Precautions will prevent electrostatic discharges from
personnel and hand tools which are held during the
procedure. These precautions will help to avoid exposing
the control to electrostatic discharge by putting the
furnace, the control, and the person at the same electrostatic potential.
1. Disconnect all power to the furnace. DO NOT TOUCH
THE CONTROL 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 chassis which is close to the control. Tools held in
a person’s hand during grounding will be satisfactorily
discharged.
3. After touching the chassis you may proceed to service the
control or connecting wires as long as you do nothing that
recharges your body with static electricity (for example; DO
NOT move or shuffle your feet, DO NOT touch ungrounded objects, etc.).
—2—
MINIMUM INCHES CLEARANCE TO COMBUSTIBLE CONSTRUCTION
his forced air furnnace is equipped for use with
atural gas at altitudes 0 - 10,000 ft (0-3,050m).
n accessory kit, supplied by the mmanufacturer,
all be used to convert to propane gas use or
y be required for some natural gas applications.
hiss furnace is for indoor installation in
uilding constructed on site.
urnace may be i nstallled on combustible
his f
oorring in alcove or closet at minimum clearance
f
m combustible material.
f
his furnace ma
a
nd may be vented in common with other gas-fired
a
pliances.
For furnaces wider than 14.25 inches
#
(362mm) may be 0 inches.
For single wall vent type 6 inches.
#
For Type B-1 vent type 3 inches.
y be used with a Type B-1 Vent
Fig. 2—Clearances to Combustibles
This furnace is approved for UPFLOW installations only.
1"
0"
B
A
C
K
E
D
I
S
TOP / PLENUM
R
U
F
F
1" #
BOTTOM
Clearance in inches.
Vent Clearance to combustibles:
For Single Wall vents 6 inches (6 po).
For Type B-1 vent type 1 inch (1 po).
DESSOUS
"
0
E
C
A
N
T
N
O
R
F
R
O
N
T
##
S
320325-101 REV. H
1"
E
D
I
S
E
R
V
I
C
E
#
30"
MIN
A98122
4. If you touch ungrounded objects (recharge your body with
static electricity), firmly touch furnace again before touching control or wires.
5. Use this procedure for installed and uninstalled (ungrounded) furnaces.
6. Before removing a new control from its container, discharge your body’s electrostatic charge to ground to protect
the control from damage. If the control is to be installed in
a furnace, follow items 1 through 5 before bringing the
control or yourself into contact with the furnace. Put all
used AND new controls into containers before touching
ungrounded objects.
7. An ESD service kit (available from commercial sources)
may also be used to prevent ESD damage.
INTRODUCTION
The Model 383KAV, Series H and J Furnace is available in sizes
44,000 through 154,000 Btuh input capacities.
The design of the upflow gas-fired furnace is CSA (A.G.A. and
C.G.A.) certified for natural and propane gas and for installation
on combustible flooring, in alcoves, attics, basements, closets, or
utility rooms. The furnace is factory-shipped for use with natural
gas. A factory accessory gas conversion kit, as listed on the
furnace rating plate is required to convert furnace for use with
propane gas. The design of this furnace line is not A.G.A. and
C.G.A. certified for installation in mobile homes, recreation
vehicles, or outdoors.
Before installing the furnace in the United States, refer to the
NFGC and NFPA 90B. For copies of the NFGC and NFPA 90B,
contact the National Fire Protection Association Inc., Batterymarch Park, Quincy, MA 02269; or for only the NFGC contact the
American Gas Association, 400 N. Capitol St., NW, Washington
DC 20001.
Before installing the furnace in Canada, refer to the NSCNGPIC.
For a copy of the NSCNGPIC, contact Standard Sales, CSA
International, 178 Rexdale Boulevard, Etobicoke (Toronto), Ontario, M9W 1R3, Canada.
Installation must comply with regulations of serving gas supplier
and local building, heating, plumbing or other codes in effect in the
area in which installation is made. In absence of local building
codes, installation must conform with NFGC in the United States
and the NSCNGPIC and all authorities having jurisdiction in
Canada.
These instructions cover minimum requirements for a safe installation and conform to existing national standards and safety codes.
In some instances, these instructions exceed certain local codes
and ordinances, especially those that may not have kept pace with
changing residential construction practices. We require these
instructions as a minimum for a safe installation.
CAUTION: Application of this furnace should be indoors with special attention given to vent sizing and
material, gas input rate, air temperature rise, and unit
sizing. Improper installation or misapplication of the
furnace can require excessive servicing or cause premature component failure.
NOTE: These furnaces are designed for a minimum continuous
return-air temperature of 60°F or intermittent operation down to
55°F such as when used with a night setback thermostat. Return-air
temperature must not exceed a maximum of 85°F. Failure to
follow these return-air temperature limits may affect reliability of
heat exchangers, motors, and controls.
—3—
WARNING: DO NOT install the furnace on its back or
sides. Safety control operation will be adversely affected.
A failure to follow this warning can cause a fire, personal
injury, or death.
This furnace must be installed so the electrical components are
protected from water. This furnace shall not be installed directly on
carpeting, tile, or any combustible material other than wood
flooring.
Locate furnace as close to the chimney/vent and as near the center
of the air distribution system as possible. The furnace should be
installed as level as possible.
Provide ample space for servicing and cleaning. Always comply
with the minimum fire protection clearances shown on the furnace
rating plate.
A93042
WARNING: Improper installation, adjustment, alteration, service, maintenance, or use can cause carbon
monoxide poisoning, explosion, fire, electrical shock, or
other conditions which may cause personal injury or
property damage. Consult a qualified installer, service
agency, local gas supplier, or your distributor or branch
for information or assistance. The qualified installer or
agency must use only factory-authorized and listed kits or
accessories when modifying this product. Failure to
follow this warning can cause electrical shock, fire,
personal injury, or death.
For accessory installation details, refer to the applicable instruction
literature.
NOTE: Remove all shipping brackets and materials before
operating the furnace.
I. LOCATION
A. General
CAUTION: Do not install furnace in a corrosive or
contaminated atmosphere. Make sure all combustion and
circulating air requirements are met, in addition to all
local codes and ordinances.
CAUTION: Do not use this furnace during construction
when adhesives, sealers, and/or new carpets are being
installed. If the furnace is required during construction,
use clean outside air for combustion and ventilation.
Compounds of chlorine and fluorine when burned with
combustion air form acids which cause corrosion of the
heat exchangers and metal vent system. Some of these
compounds are found in paneling and dry wall adhesives,
paints, thinners, masonry cleaning materials, and many
other solvents commonly used in the construction process.
Excessive exposure to contaminated combustion air will
result in safety and performance related problems.
B. Location Relative to Cooling Equipment
The cooling coil must be installed parallel with or on the
downstream side of the unit to avoid condensation in the heat
exchangers. When installed parallel with a furnace, dampers or
other means used to control the flow of air must prevent chilled air
from entering the unit. If the dampers are manually operated, they
must be equipped with means to prevent operation of either unit
unless the damper is in the full-heat or full-cool position.
C. Hazardous Locations
18-IN. MINIMUM
TO BURNERS
A93044
WARNING: When furnace is installed in a residential
garage, it must be installed so that burners and ignition
sources are located a minimum of 18 in. above floor. The
furnace must be located or protected to avoid physical
damage by vehicles. When furnace is installed in a public
garage, airplane hangar, or other building having a
hazardous atmosphere, unit must be installed in accordance with requirements of National Fire Protection
Association, Inc.
II. AIR FOR COMBUSTION AND VENTILATION
Provisions for adequate combustion and ventilation air must be
provided in accordance with Section 5.3 of the NFGC, Air for
Combustion and Ventilation, or applicable provisions of the local
building codes.
Canadian installations must be installed in accordance with NSCNGPIC and all authorities having jurisdiction.
—4—
CAUTION: Air for combustion must not be contaminated by halogen compounds, which include fluoride,
chloride, bromide, and iodide. These elements are found
in aerosol sprays, detergents, bleaches, cleaning solvents,
salts, air fresheners, and other household products.
All fuel-burning equipment must be supplied with air for combustion of the fuel. Sufficient air MUST be provided to ensure there
will not be a negative pressure in the equipment room or space. In
addition, a positive seal MUST be made between the furnace
cabinet and the return-air duct to prevent pulling air from the
burner area and blocked vent safeguard opening.
CAUTION: The operation of exhaust fans, kitchen ventilation fans, clothes dryers, or fireplaces could create a
NEGATIVE PRESSURE CONDITION at the furnace.
Make-up air MUST BE PROVIDED for the ventilation
devices, in addition to that required by the furnace.
The requirements for combustion and ventilation air depend upon
whether the furnace is located in an unconfined or confined space.
A. Unconfined Space
An unconfined space must have at least 50 cubic ft for each 1000
Btuh of input for all the appliances (such as furnaces, clothes
dryer, water heaters, etc.) in the space.
For Example:
383KAV FURNACE
INPUT BTUH
44,000 293
66,000 440
88,000 587
110,000 733
132,000 880
154,000 1026
MINIMUM SQ FT WITH
7-1/2 FT CEILING
If the unconfined space is of unusually tight construction, air for
combustion and ventilation MUST come from either the outdoors
or spaces freely communicating with the outdoors. Combustion
and ventilation openings must be sized the same as for a confined
space as defined below. Return air must not be taken from the
room unless an equal or greater amount of air is supplied to the
room.
B. Confined Space
A confined space is defined as a space whose volume is less than
50 cu ft per 1000 Btuh of total input ratings of all appliances
installed in that space. A confined space MUST have provisions
for supplying air for combustion, ventilation, and dilution of flue
gases using 1 of the following methods. (See Fig. 3, 4 and Table
2.)
NOTE: In determining free area of an opening, the blocking
effect of louvers, grilles, and screens must be considered. If free
area of louver or grille design is unknown, assume that wood
louvers have a 20 percent free area and metal louvers or grilles
have a 60 percent free area. Screens, when used, must not be
smaller than 1/4-in. mesh. Louvers and grilles must be constructed
so they cannot be closed.
The size of the openings depends upon whether air comes from
outside of the structure or an unconfined space inside the structure.
1. All air from inside the structure requires 2 openings (for
structures not usually tight):
a. Each opening MUST have at least 1 sq in. of free area
per 1000 Btuh of total input for all equipment within the
confined space, but not less than 100 sq in. per opening.
(See Fig. 3 and Table 2.) The minimum dimension of air
openings shall not be less than 3 in.
b. If building is constructed unusually tight, a permanent
opening directly communicating with the outdoors shall
be provided. See item 2 below.
c. If furnace is installed on a raised platform to provide a
return-air plenum, and return air is taken directly from
hallway or space adjacent to furnace, all air for combustion must come from outdoors.
2. Air from outside the structure requires 1 of the following
methods:
a. If combustion air is taken from outdoors through 2
vertical ducts, the openings and ducts MUST have at
least 1 sq in. of free area per 4000 Btuh of total input for
all equipment within the confined space. (See Fig. 4 and
Table 2.)
b. If combustion air is taken from outdoors through 2
horizontal ducts, the openings and ducts MUST have at
least 1 sq in. of free area per 2000 Btuh of total input for
all equipment within the confined space. (See Fig. 4 and
Table 2.)
c. If combustion air is taken from outdoors through a single
opening or duct (horizontal or vertical) commencing
within 12 in. of the top of the confined space, opening
and duct MUST have at least 1 sq in. of free area per
3000 Btuh of the total input for all equipment within the
confined space and not less than the sum of the areas of
all vent connectors in the confined space. (See Fig. 4 and
Table 2.) Equipment clearances to the structure shall be
at least 1 in. from the sides and back and 6 in. from the
front of the appliances.
When ducts are used, they must be of the same cross-sectional area
as the free area of the openings to which they connect. The
minimum dimension of ducts must not be less than 3 in. (See Fig.
4.)
AIR DUCTS
I. GENERAL REQUIREMENTS
The duct system should be designed and sized according to
accepted national standards such as those published by: Air
Conditioning Contractors Association (ACCA), Sheet Metal and
Air Conditioning Contractors National Association (SMACNA) or
American Society of Heating, Refrigerating and Air Conditioning
Engineers (ASHRAE). Or consult factory The Air Systems Design
Guidelines reference tables available from your local distributor.
The duct system should be sized to handle the required system
design airflow CFM at the design external static pressure.
When a furnace is installed so that the supply ducts carry air to
areas outside the space containing the furnace, the return air must
also be handled by a duct(s) sealed to the furnace casing and
terminating outside the space containing the furnace.
Secure ductwork with proper fasteners for type of ductwork used.
Seal supply- and return-duct connections to furnace with code
approved tape or duct sealer.
Flexible connections should be used between ductwork and
furnace to prevent transmission of vibration. Ductwork passing
through unconditioned space should be insulated to enhance
system performance. When air conditioning is used, a vapor
barrier is recommended.
Maintain a 1-in. clearance from combustible materials to supply air
ductwork for a distance of 36 in. horizontally from the furnace. See
NFPA 90B or local code for further requirements.
—5—
SUPPLY
AIR
VENT THROUGH ROOF
DUCTS
OUTDOORS
TO
1 SQ IN.
PER 4000
*
BTUH
12″ MAX
1 SQ IN.
PER 1000
BTUH* IN DOOR
OR WALL
INTERIOR
HEATED
SPACE
RETURN AIR
* Minimum opening size is 100 sq in. with
minimum dimensions of 3 in.
†
Minimum of 3 in. when type-B1 vent is used.
UNCONFINED
SPACE
CONFINED
SPACE
6″ MIN
(FRONT)
1 SQ IN.
PER 1000
BTUH* IN DOOR
OR WALL
†
12″ MAX
A89012
Fig. 3—Confined Space: Air For Combustion and Ventila-
tion from an Indoor Unconfined Space
12″ MAX
1 SQ IN.
PER 2000
BTUH*
DUCTS
TO
OUTDOORS
1 SQ IN.
PER 2000
BTUH*
12″ MAX
RETURN AIR
*Minimum dimensions of 3 in.
NOTE:
A
SUPPLY
AIR
B
Use any of the following
combinations of openings:
A & B C & D D & E F & G
D
VENT
THROUGH
ROOF
C
DUCT
TO
OUTDOORS
CONFINED
SPACE
E
12″ MAX
F
1 SQ IN.
BTUH*
1 SQ IN.
BTUH*
G
1 SQ IN.
PER 4000
BTUH*
12
″
MAX
PER
4000
OUTDOORS
PER
4000
12
″
MAX
A89013
Fig. 4—Confined Space: Air For Combustion and Ventila-
tion from Outdoors
→TABLE 2—MINIMUM FREE AREA OF COMBUSTION AIR OPENING
383KAV
FURNACE
INPUT
(BTUH)
44,000 100 11.0 4 22.0 6 14.67 5
66,000 100 16.5 5 33.0 7 22.00 6
88,000 100 22.0 6 44.0 8 29.33 7
110,000 110 27.5 6 55.0 9 36.67 7
132,000 132 33.0 7 66.0 10 44.00 8
154,000 154 38.5 8 77.0 10 51.33 9
* Free area shall be equal to or greater than the sum of the areas of all vent connectors in the confined space. Opening area must be increased, if other gas appliances
in the space require combustion air.
AIR FROM INDOOR
UNCONFINED SPACE
Free Area
of Opening
(Sq In.)
II. DUCTWORK ACOUSTICAL TREATMENT
Metal duct systems that do not have a 90 degree elbow and 10 ft
of main duct to the first branch take-off may require internal
acoustical lining. As an alternative, fibrous ductwork may be used
OUTDOOR AIR THROUGH
VERTICAL DUCTS
Free Area of
Opening and Duct
(Sq In.)
Round
(In. Dia)
Pipe
OUTDOOR AIR THROUGH
HORIZONTAL DUCTS
Free Area of
Opening and Duct
(Sq In.)
Round
Pipe
(In. Dia)
OUTDOOR AIR THROUGH
SINGLE DUCT
Free Area of
Opening and Duct
(Sq In.)
Round
Pipe
(In. Dia)
casing (when used). DO NOT cut main furnace casing to attach
supply side air duct, humidifier, or other accessories. All accessories MUST be connected external to furnace main casing.
IV. RETURN AIR CONNECTIONS
if constructed and installed in accordance with the latest edition of
SMACNA construction standard on fibrous glass ducts. Both
acoustical lining and fibrous ductwork shall comply with NFPA
90B as tested by UL Standard 181 for Class 1 Rigid air ducts.
WARNING: Never connect return-air ducts to the back
of the furnace. A failure to follow this warning can cause
a fire, personal injury, or death.
III. SUPPLY AIR CONNECTIONS
Connect supply-air duct to 3/4-in. flange on furnace supply-air
outlet. The supply-air duct attachment must ONLY be connected
to furnace supply-/outlet-air duct flanges or air conditioning coil
The return-air duct must be connected to bottom , sides (left or
right), or a combination of bottom and side(s) of main furnace
casing as shown in Fig. 1. Bypass humidifier may be attached into
—6—
unused side return air portion of the furnace casing. DO NOT
connect any portion of return-air duct to back of furnace casing.
V. FILTER ARRANGEMENT
The factory-supplied filter(s) is shipped in the blower compartment. Determine location for the filter and relocate filter retaining
wire if necessary. See Fig. 5 for side return application and Fig. 6
for bottom return application. See Table 3 to determine correct
filter size for desired filter location. Table 3 indicates filter size,
location, and quantity shipped with the furnace.
WASHABLE
FILTER
FILTER
RETAINER
171⁄2-IN. WIDE
CASINGS ONLY:
INSTALL FIELD-SUPPLIED
FILTER FILLER STRIP
UNDER FILTER.
3″
1
24
/2″
1″
A99278
Fig. 5—Side Filter Arrangement
(Control Removed for Clarity)
For bottom air-return applications, filter may need to be cut to fit
some furnace casing widths. A bottom closure panel is factory
installed in the bottom of the furnace. When bottom return inlet is
desired, remove and discard the bottom closure panel. Two sets of
hardware are needed for furnaces in 24-1/2-in. wide casings using
2 filters for bottom return. All hardware is provided for filter
installation.
WARNING: Never operate unit without a filter or with
filter access door removed. Failure to follow this warning
can cause fire, personal injury, or death.
VI. LEVELING LEGS (IF REQUIRED)
When the furnace is used with side inlet(s) and leveling legs are
required, refer to Fig. 7, and install field-supplied, corrosionresistant 5/16-in. machine bolts and nuts.
NOTE: The maximum length of the bolt should not exceed 1-1/2
in.
1. Lay furnace on its back. Locate and drill 5/16-in. diameter
hole in each bottom corner of furnace as shown in Fig. 7.
2. Install nut on bolt and install bolt and nut in hole. (Install
flat washer if desired.)
3. Install another nut on other side of furnace base. (Install flat
washer if desired.)
4. Adjust outside nut to provide desired height, and tighten
inside nut to secure arrangement.
VII. GAS PIPING
Gas piping must be installed in accordance with national and local
codes. Refer to the current edition of the NFGC. Canadian
installations must be installed in accordance with NSCNGPIC and
all authorities having jurisdiction.
Refer to Table 4 for the recommended gas pipe size. Risers must
be used to connect to the furnace and the meter.
WASHABLE
FILTER
FILTER
SUPPORT
FILTER
RETAINER
A00213
→Fig. 6—Bottom Filter Arrangement
(Control Removed for Clarity)
TABLE 3—FILTER INFORMATION (IN.)
FURNACE
CASING WIDTH
14-3/16 (1)16X25X1† (1) 14 X 25 X 1 Cleanable
17-1/2 (1)16X25X1† (1) 16 X 25 X 1 Cleanable
21 (1)16X25X1 (1)20X25X1† Cleanable
24-1/2 (2)16X25X1 (1)24X25X1† Cleanable
* Filters can be field modified by cutting to the desired size. Alternate sizes
can be ordered from your distributor or dealer.
† Factory-provided with the furnace.
FILTER SIZE*
Side Return Bottom Return
FILTER TYPE
CAUTION: If a flexible connector is required or al-
lowed by the authority having jurisdiction, black iron
pipe shall be installed at the gas valve and extend a
minimum of 2 in. outside the furnace casing.
WARNING: Use the proper length of pipes to avoid
stress on the gas control manifold. Failure to follow this
warning can result in a gas leak, causing fire, explosion,
personal injury, or death.
—7—
5
⁄16″
5
⁄16″
1 3⁄4″
1 3⁄4″
5
⁄16″
5
⁄16″
1 3⁄4″
1 3⁄4″
A89014
Fig. 7—Leveling Leg Installation
TABLE 4—MAXIMUM CAPACITY OF GAS PIPE*
NOMINAL IRON
PIPE SIZE
(IN.)
1/2 0.622 175 120 97 82 73
3/4 0.824 360 250 200 170 151
1 1.049 680 465 375 320 285
1-1/4 1.380 1400 950 770 660 580
1-1/2 1.610 2100 1460 1180 990 900
* Cubic ft of gas per hr for gas pressures of 0.5 psig (14-in. wc) or less, and
a pressure drop of 0.5-in. wc (based on a 0.60 specific gravity gas). Ref: Table
10-2 NFPA 54-1996.
INTERNAL
DIAMETER
(IN.)
LENGTH OF PIPE (FT)
10 20 30 40 50
CAUTION: Connect the gas pipe to the furnace using a
backup wrench to avoid damaging gas controls.
GAS
SUPPLY
MANUAL
SHUTOFF
VALVE
(REQUIRED)
SEDIMENT
TRAP
UNION
A89417
Fig. 8—Typical Gas Pipe Arrangement
WARNING: Never purge a gas line into a combustion
chamber. Never use matches, candles, flame, or other
sources of ignition for the purpose of checking leakage.
Use a soap-and-water solution to check for leakage.
Failure to follow this warning can cause a fire, explosion,
personal injury, or death.
VIII. ELECTRICAL CONNECTIONS
A. 115-v Wiring
Refer to the furnace rating plate or Table 5 for equipment electrical
requirements. The control system requires an earth ground for
proper operation.
Install a sediment trap in the riser leading to the furnace. The trap
can be installed by connecting a tee to the riser leading from the
furnace. Connect a capped nipple into the lower end of the tee. The
capped nipple should extend below the level of the gas controls.
(See Fig. 8.)
Apply joint compound (pipe dope) sparingly and only to the male
threads of each joint. The compound must be resistant to the action
of propane gas.
An accessible manual shutoff valve MUST be installed upstream
of the furnace gas controls and within 72 in. of the furnace. A
1/8-in. NPT plugged tapping, accessible for test gage connection,
MUST be installed immediately upstream of the gas supply
connection to the furnace and downstream of the manual shutoff
valve. Place ground joint union between the gas control manifold
and the manual shutoff valve.
Piping should be pressure tested in accordance with local and
national plumbing and gas codes before the furnace has been
attached. If the pressure exceeds 0.5 psig (14-in. wc), the gas
supply pipe must be disconnected from the furnace and capped
before the pressure test. If the test pressure is equal to or less than
0.5 psig (14-in. wc), turn off electric shutoff switch located on the
gas valve before the test. It is recommended that the ground joint
union be loosened before pressure testing. After all connections
have been made, purge the lines and check for leakage with
regulated gas supply pressure.
CAUTION: Do not connect aluminum wire between
disconnect switch and furnace. Use only copper wire.
Make all electrical connections in accordance with the National
Electrical Code (NEC) ANSI/NFPA 70-1999 and local codes or
ordinances that might apply. For Canadian installations, all electrical connections must be made in accordance with CSA C22.1
Canadian Electrical Code, or authorities having jurisdiction.
WARNING: The cabinet MUST have an uninterrupted
or unbroken ground according to NEC, ANSI/NFPA
70-1999 and Canadian Electrical Code, CSA C22.1 or
local codes to minimize personal injury if an electrical
fault should occur. This may consist of electrical wire or
conduit approved for electrical ground when installed in
accordance with existing electrical codes. Do not use gas
piping as an electrical ground. Failure to follow this
warning could result in electrical shock, fire, or death.
The auxiliary junction box (J-box) can be moved to the left-hand
side of the furnace when a left-side power supply is desired.
Remove the 2 screws holding the auxiliary J-box. Mount the J-box
on the left-hand side of the furnace (holes have been pre-drilled in
casing). When moved, tuck the wiring harness behind the clip
provided to keep extra wire lengths out of the way.
—8—
FIVE WIRE
THREE-WIRE
HEATING-ONLY
BLOWER DOOR SWITCH
BLK
WHT
115-V FIELD-
SUPPLIED
DISCONNECT
GND
BLK
WHT
AUXILIARY
J-BOX
FIELD 24-V WIRING
FIELD 115-, 208/230-, 460-V WIRING
FACTORY 24-V WIRING
FACTORY 115-V WIRING
GND
FURNACE
NOTE 2
W
C
R
O
N
T
G
R
O
C
L
Y
24-V
TERMINAL
BLOCK
WCR GY
NOTE 1
NOTES: Connect Y-terminal in furnace as shown for proper blower operation.
1.
2.
3.
THERMOSTAT
TERMINALS
CONDENSING
UNIT
TWO
WIRE
Some thermostats require a "C" terminal connection as shown.
If any of the original wire, as supplied, must be replaced, use
same type or equivalent wire.
Fig. 9—Heating and Cooling Application Wiring Diagram
FIELD-SUPPLIED
DISCONNECT
GND
208/230- OR
460-V
THREE
PHASE
208/230-V
SINGLE
PHASE
A98521
TABLE 5—ELECTRICAL DATA
UNIT SIZE
024045 115—60—1 127 104 6.0 14 47 15
036045 115—60—1 127 104 8.3 14 34 15
024070 115—60—1 127 104 5.9 14 47 15
036070 115—60—1 127 104 8.7 14 32 15
042091 115—60—1 127 104 9.0 14 31 15
048091 115—60—1 127 104 10.4 14 27 15
036110 115—60—1 127 104 8.0 14 35 15
048111 115—60—1 127 104 10.1 14 28 15
060111 115—60—1 127 104 14.4 12 31 20
048135 115—60—1 127 104 10.1 14 28 15
060135 115—60—1 127 104 13.3 12 33 20
060155 115—60—1 127 104 14.0 12 31 20
* Permissible limits of the voltage range at which the unit operates satisfactorily. † Time-delay type is recommended.
‡ Length shown is as measured 1 way along wire path between unit and service panel for maximum 2 percent voltage drop.
VOLTS—
HERTZ—
PHASE
NOTE: Proper polarity must be maintained for 115-v wiring. If
polarity is incorrect, control board fault code indicator light will
flash rapidly and the furnace will not operate.
B. 24-v Wiring
Make field 24-v connections at the 24-v terminal strip. (See Fig.
OPERATING
VOLTAGE RANGE
Maximum* Minimum*
MAXIMUM
UNIT AMPS
MINIMUM
WIRE GAGE
MAXIMUM
WIRE LENGTH (FT)‡
2. Humidifier (HUM)
Quick-connect terminal HUM and screw terminal C
are provided for 24-v humidifier connection. The terminals
are energized with 24-v 0.5-amp maximum after inducer
motor prepurge period.
MAXIMUM FUSE OR
10.) Connect terminal Y as shown in Fig. 9 for proper cooling
operation. Use only AWG No. 18, color-coded, copper thermostat
wire.
The 24-v circuit contains an automotive-type, 3-amp fuse located
on the main control board. Any direct shorts during installation,
service, or maintenance could cause this fuse to blow. If fuse
replacement is required, use ONLY a 3-amp fuse of identical size.
WARNING: DO NOT connect furnace control HUM
terminal to HUM (humidifier) terminal on Thermidistat™, Zone Controller, or similar device. See Thermidistat, Zone Controller, thermostat, or controller manufacturer’s instructions for proper connection. A failure to
follow this warning could result in fire.
C. Accessories
1. Electronic Air Cleaner (EAC)
Two quick-connect terminals, marked EAC-1 and EAC-2
are provided for EAC connection. These terminals are
energized with 115-v, (1.0-amp maximum) during blower
NOTE: A field-supplied, 115-v controlled relay connected to
EAC terminals may be added if humidifier operation is desired
during blower operation.
motor operation.
CKT BKR
AMPS†
OM-24V
—9—
GRYW
24-V THERMOSTAT
TERMINALS
TEST/TWIN
3-AMP FUSE
115-VAC (L1)
POWER SUPPLY
HOT SURFACE
IGNITOR CONNECTOR
SEC-1
COOL
HEAT
OM
24V
C
HUM
115-VAC (L2) NEUTRAL
CONNECTION
INDUCER MOTOR
CONNECTOR
HUMIDIFIER TERMINAL
(24-VAC 0.5 AMP MAX)
LED OPERATION &
DIAGNOSTIC LIGHT
HARNESS CONNECTOR
24-V TRANSFORMER SEC-2
SPARE-1
BLOWER SPEED
SELECTION TERMINALS
SPARE-2
EAC-1
EAC-ELECTRONIC AIR CLEANER
TERMINALS (115-VAC 1.0 AMP MAX)
EAC-2
Fig. 10—Furnace Control
A99255
IX. VENTING
Refer to the national or local installation code such as NFGC in the
United States, or the NSCNGPIC in Canada for proper vent sizing
and installation requirements. Use the enclosed Installation Instructions (Single-Stage Vent Tables for Category I Fan-Assisted
Furnaces) for a quick, easy reference.
After fully assembling the vent connector to the furnace flue collar,
securely fasten the vent connector to the collar with two fieldsupplied, corrosion-resistant, sheet metal screws located 180° apart
and midway up the collar.
The horizontal portion of the venting system shall maintain a
minimum of 1/4-in. upward slope per linear ft and it shall be
rigidly supported every 5 ft or less with hangers or straps to ensure
that there will be no movement after installation.
X. START-UP, ADJUSTMENT, AND SAFETY CHECK
A. General
NOTE: Proper polarity must be maintained for 115-v wiring. If
polarity is incorrect, control status indicator light will flash rapidly
and furnace will not operate.
The furnace must have a 115-v power supply properly connected
and grounded. Proper polarity must be maintained for correct
operation. Thermostat wire connections at R, W, C, and Y must be
made at the furnace 24-v terminal block on the control. The gas
service pressure must not exceed 0.5 psig (14-in. wc), but must be
no less than 0.16 psig (4.5-in. wc).
CAUTION: This furnace is equipped with a manual
reset limit switch or fuse link in the gas control area. The
switch or fuse link opens and shuts off power to the gas
valve if a flame rollout or overheating condition occurs in
the gas control area. DO NOT bypass the switch. Correct
inadequate combustion air supply problem and reset the
switch or replace the fuse link.
Before operating the furnace, check each manual reset switch for
continuity. If necessary, press the button to reset the switch.
The blower compartment door must be in place to complete the
115-v circuit to the furnace.
B. Sequence of Operation
CAUTION: Furnace control must be grounded for
proper operation, or control will lockout. Control is
grounded through green wire routed to gas valve and
burner bracket screw.
Using the schematic diagram shown in Fig. 11, follow the
sequence of operation through the different modes. Read and
follow the wiring diagram very carefully.
NOTE: If there is a power interruption and any thermostat call,
the control initiates a 90-sec blower only on period before starting
another cycle.
1. Heating mode
When wall thermostat "calls for heat," R-W circuit closes.
The furnace control performs a self-check, verifies pressure
switch contacts are open, and starts inducer motor.
—10—
→Fig. 11—Furnace Wiring Diagram
A00198
PCB
BLOWER OFF DELAY
SELECTION CHART
90 SEC
135 SEC
180 SEC
225 SEC
GVR
HI/LO
RELAY
SEC-1
SEC-2
PL1
321
6
5
4
9
87
LED
TEST/TWIN
BLOWER
OFF
DELAY
G
R
Y
W
C
HUM
HSIR I DR BLWR
BLOWER
SPEED
SELECT
FU1
COOL
HEAT
L2
PL3
PL2
VAC
120
L1
PR1
1
2
1
2
3
PR2
24 VAC-3A
FUSE
SPARE-2
SPARE-1
EAC-1
EAC-2
C
1.5 AMP
12
PL5
WHT
BLK
WHT
WHT
BLK
BLK
HSI
BLK
WHT
WHT (COM)
RED (LO)
BLU (MED LO)
NOTE #7
OL
START
BLWM
YEL (MED HI)
BLK ( HI)
BRN
BRN
TRAN
BLU
RED
BLK
WHT
WHT (COM)
CAP
RED
RED
ORN
FUSED DISCONNECT
SWITCH (WHEN RE Q'D)
NOTE #4
FU2
BLK
WHT
JB
LEGEND
ALS AUXILIARY LIMIT SWI TCH, OVERTEMP. -MANUAL RESET, SPST-(N.C.)
BLWR BLOWER MOTOR RELAY, SPST-(N. O.)
BLWM BLOWER MOTOR
BVSS BLOCKED VENT SHUTOFF SWITCH,SPST - (N. C.)
CAP CAPACI TOR
CPU MICROPROCESSOR AND CI RCUITRY
DSS DRAFT SAFEGUA RD SWITCH
EAC-1 ELECTRONIC AIR CLEANER CONNECTION (115 VAC 1.5 AMP MAX.)
EAC-2 ELECTRONIC AIR CLEANER CONNECTION (COMMON)
FL FUSIBLE LINK
FRS FLAME ROLLOUT SW. -MANUAL RESET, SPST-(N. C.)
FSE FLAME PROVING ELECTRODE
FU1 FUSE, 3 AMP, AUTOMOTIVE BLADE TYPE, FACTORY INSTALL ED
FU2 FUSE OR CIRCUIT BREAKER CURRENT INTERRUPT DEVICE
(FIELD INSTALLED & SUPPLIED)
GV GAS VALVE-REDUNDANT OPERATORS
GVR GAS VALVE RELAY, DPST-( N.O.)
HI/LO BLOWER MOTOR SPEED CHANGE RELAY, SPDT
HSI HOT SURFACE IGNITOR (115 VAC)
HSIR HOT SURFACE IGNITOR RELAY, SPST-(N.O.)
HUM 24VAC HUMIDIFIER CONNECTION (.5 AMP. MAX.)
IDM INDUCED DRAFT MOTOR
IDR INDUCED DRAFT RELAY, SPST- (N.O.)
ILK BLOWER ACCESS PANEL INTERLOCK SWITCH, SPST-(N.O.)
JB JUNCTION BOX
LED LIGHT- EMITTING DIODE FOR STAT US CODES
LGPS LOW GAS PRESSURE SWITCH, SPST-(N. O.)
LS LIMIT SWITCH, AUTO RESET, SPST(N.C.)
OL AUTO-RESET INTERNAL MOTOR OVERLOAD TEMP. SW.
PCB PRINTED CIRCUIT BOARD
PL1 9-CIRCUIT CONNE CTOR
PL2 2-CIRCUIT PC B CONNECTOR
PL3 3-CIRCUIT IDM CONNECTOR
PL5 2-CIRCUIT HSI/PCB CONNECTOR
PRS PRESSURE SWITCH, SPST- (N.O.)
TEST/TWIN COMPONENT TEST & T WIN TERMINAL
TRAN TRANSFORMER-115VAC/24VAC
JUNCTION
UNMARKED T ERMINAL
PCB TERMINAL
FACTORY WI RING (1 15VAC)
FACTORY WI RING (2 4VAC)
FIELD WIRING (115VAC)
FIELD WI RING ( 24VAC)
CONDUCTOR ON PCB
FIELD WI RING TE RMINAL
FIELD GROUND
EQUIPMENT GROUND
FIELD SPLICE
PLUG RECEPTACLE
L1
L2
L1
BLWR
HI/LO
TO 115VAC FIELD DISCONNECT
NOTE #4
EQUIPMENT GROUND
SPARE-2
HEAT
SPARE-1
COOL
NOTE #7
COM
HSIR
EAC-1
START
OL
COM
HI
MED HI
MED LO
LO
BLWM
SCHEMATIC DIAGRAM
(NATURAL GAS & PROPANE)
EAC-2
1
1
HSI
2
PL52
PL2
3
PL3
PR2
115VAC
PR1
TRAN
24VAC
1
2
IDR
TEST/TWIN
FU1
NOTE #6
CAP
L2
PL1
8
FSE
9
6
5
CPU
HSIR
IDR
BLWR
Y
G
C
R
W
GVR-2
SEC-1
HI/LO
GVR
SEC-2
NOTES:
322869-101 REV. H
1. If any of the origin al equipment wire is replaced use wire rat ed for 105∞C.
2. Indu cer (IDM) and blower ( BLWM)mot ors contain int ernal auto-reset t hermal overload swi tches (OL).
3. Blower mot or speed selecti ons are for average con ditions, see ins tallation i nstructions f or details on
optimum speed selection.
4. Use only copper wire between thedi sconnect switch and the furnace junction box (JB).
5. This wire must be connected to furnace sheetmetal for control to detect flame.
6. Replace only with a 3 amp fuse.
7. Yellow lead not on all motors.
8. Blower-on delay, gas heating 45 seconds, cooling or heat pump 2 seconds.
9. Blower-off delay, gas heating 90, 135, 180 or 225 seconds, cooling or heat pump 90 seconds.
(135 seconds onl y on some models)
10. Ignition-lockout will occur after four consecutive unsuccessful trials-for-ignition. Control will auto-reset
after three hours.
11. When used, auxiliarylimit switch(ALS) is on some downflow models only. When used, FLis on
upflow models only.
12. Some models may have spadequick connect terminals.
13. Factory conn ected when LGPS is not used.
14. Factory conn ected when BVSS is not used. BVSS used when Chimney Adapter Accessor y Kit is
installed.
15. Gas valve leads are interchangeable on single stage valves.
BLK
OM
SW2
SW1
OM
3
4
7
1
OM
HUM
IDM
ILK
DSS
BVSS
PRS
ILK
L1
NEUTRAL
IDM
(WHEN USED)
NOTE #14
NOT USED
NOT USED
NOT USED
FSE
BLU
PRS
DSS
BVSS
(WHEN USED)
NOTE #14
WHT
LS
FL
(NOT ON ALL MODELS)
NOTE #9
FRS1
FRS2
LS
FL
NOTE #12
ORN
ORN
ORN
ALS
(WHEN USED)
ORN
NOTE #11
LGPS
(WHEN USED)
NOTE #13
NOTE #14
NOTE #11
2
GVR-1
NOTE #14
ALS
(WHEN USED)
(WHEN USED)
NOTE #13
LGPS
(WHEN USED)
NOTE #13
YEL
FRS1
FRS2
(WHEN USED) NOTE #11
GRN/YEL
GRN/YEL
GND
NOTE #5
GRN/YEL
NOTE #5
GRN/YEL
NOTE #15
NOTE #15
GV
GV
—11—
a. Prepurge period—As inducer motor comes up to speed,
pressure switch contacts close to begin a 15-sec prepurge
period.
b. Igniter warm-up—At the end of prepurge period, igniter
is energized for a 17-sec igniter warm-up period.
c. Ignition sequence—When igniter warm-up period is
completed, gas valve opens, permitting gas flow to the
burners where it is ignited. After 5 sec, igniter is
de-energized and a 2-sec flame-sensing period begins.
d. HUM terminal is energized with gas valve. See acces-
sories in the Electrical Connections section.
e. Flame-sensing—When burner flame is sensed, the con-
trol begins blower on delay period and continues holding
gas valve open. If burner flame is not sensed, the control
closes gas valve and repeats ignition sequence.
NOTE: Ignition sequence will repeat 3 additional times before a
lockout occurs. Lockout automatically resets after 3 hr, or can be
manually reset by turning 115v off (not at thermostat) for 3 sec
minimum, then on again.
f. Blower on delay—Forty-five sec after burner flame is
proven, blower motor is energized on heating speed.
Simultaneously, electronic air cleaner terminals EAC-1
and EAC-2 are energized.
g. Blower off delay—When thermostat is satisfied, circuit
between R-W is broken, de-energizing gas valve stopping gas flow to burners. The blower motor and EAC
remain energized for 135 sec.
h. Post-purge—Inducer motor remains energized 5 sec
after burners are extinguished.
2. Cooling mode
When the thermostat "calls for cooling," R-G and R-Y
circuits close. The R-Y circuit starts the outdoor condensing
unit and the combined R-Y and R-G circuits start the
furnace blower motor on cooling speed. The EAC-1 terminal is energized with 115v when the blower is operating on
cooling speed.
When the thermostat is satisfied, R-G and R-Y circuits are
broken. The furnace blower and EAC continue operating on
cooling speed for an additional 90 sec.
3. Continuous blower mode
NOTE: EAC-1 terminal is energized with 115v whenever blower
operates.
When the R-G circuit is made, the blower motor operates on
heating speed. During a call for heat, the blower stops,
allowing the furnace heat exchangers to heat up more
quickly, then restarts at the end of the 45-sec blower on
delay period.
The blower reverts to continuous operation after the heating
cycle is completed.
When the thermostat "calls for cooling," the blower operates on cooling speed. When the thermostat is satisfied, the
blower operates an additional 90 sec before reverting back
to continuous operation on heating speed.
4. Heat pump mode
When installed with a heat pump, the furnace control
automatically changes the timing sequence to avoid long
blower off time during demand defrost cycles. When the
W-Y or W-Y-G thermostat inputs are received at the same
time, the control changes the blower to heating speed or
starts the blower if it was off, and begins a heating cycle.
The blower remains on until the end of the prepurge period,
then shuts off until the end of the hot surface igniter
warm-up and trial for ignition periods (a total of 24 sec).
The blower then comes back on at heating speed.
When the W input signal disappears, the control begins the
normal inducer post-purge period and the blower changes to
cooling speed after a 1-sec delay. If the W-Y-G signals
disappear at the same time, the blower remains on for the
selected heating blower off delay period and the inducer
goes through its normal post-purge period. If the W-Y
inputs should disappear, leaving the G signal input, the
control goes into continuous blower and the inducer remains on for the normal post-purge period.
Anytime the control senses false flame, the control locks
out of the heating mode. This occurs because the control
cannot sense the W input due to the false flame signal, and
as a result, sees only the Y input and goes into cooling
mode, blower off delay. All other control functions remain
in standard format.
NOTE: EAC-1 terminal is energized whenever blower operates.
HUM terminal is only energized when gas valve is energized
C. Start-up Procedures
1. Purge gas lines—After all connections have been made,
purge the lines and check for leaks.
WARNING: Never purge a gas line into a combustion
chamber. Never use matches, candles, flame, or other
sources of ignition for the purpose of checking leakage.
Use a soap-and-water solution to check for leakage.
Failure to follow this warning can cause fire, explosion,
personal injury, or death.
2. Component test—The furnace control allows all components, except gas valve, to be run for a short period of time.
This feature helps diagnose a system problem in case of a
component failure. To initiate component test procedure,
short (jumper) the TEST 3/16-in. quick connect terminal on
control (adjacent to diagnostic light) and the COM-24V
terminal on furnace thermostat connection block for approximately 2 sec. (See Fig. 10.)
NOTE: Component test feature will not operate if any thermostat
signal is present at control.
Component test sequence is as follows.
a. Momentarily jumper TEST and COM-24V terminals until
LED goes off.
b. LED will display previous status 4 times.
c. Inducer motor starts and continues to run for entire
component test.
d. Hot surface igniter is energized for 15 sec, then de-
energized.
e. Blower motor operates on cooling speed for 10 sec, then
stops.
f. Blower motor operates on heating speed for 10 sec, then
stops.
g. Inducer motor stops.
3. To operate furnace, follow procedures on operating instructions label attached to furnace.
4. With furnace operating, set thermostat below room temperature and observe that furnace goes off. Set thermostat
above room temperature and observe that furnace restarts.
D. Adjustments
1. Set gas input rate
Furnace gas input rate on rating plate is for installations at
altitudes up to 2000 ft. Furnace input rate must be within ±2
percent of input on furnace rating plate.
—12—
a. Determine natural gas orifice size and manifold pressure
for correct input.
(1.) Obtain average yearly gas heat value (at installed
altitude) from local gas supplier.
(2.) Obtain average yearly gas specific gravity from
local gas supplier.
(3.) Verify furnace model. Table 6 can only be used for
model 383KAV Furnaces.
(4.) Find installation altitude in Table 6.
NOTE: For Canada altitudes of 2000 to 4500 ft, use U.S.A.
altitudes of 2001 to 3000 ft in Table 6.
(5.) Find closest natural gas heat value and specific
gravity in Table 6.
(6.) Follow heat value and specific gravity lines to point
of intersection to find orifice size and manifold
pressure settings for proper operation .
EXAMPLE: (0—2000 ft altitude)
Heating value = 1025 Btu/cu ft
Specific gravity = 0.62
Therefore: Orifice No. 43*
Manifold pressure 3.3-in. wc
* Furnace is shipped with No. 43 orifices. In this example
all main burner orifices are the correct size and do not need
to be changed to obtain proper input rate.
(7.) Check and verify burner orifice size in furnace.
NEVER ASSUME ORIFICE SIZE. ALWAYS
CHECK AND VERIFY.
b. Adjust manifold pressure to obtain input rate.
(1.) Remove regulator adjustment seal cap. (See Fig.
12.)
(2.) Turn adjusting screw, counterclockwise (out) to
decrease manifold pressure or clockwise (in) to
increase manifold pressure.
NOTE: This furnace has been approved for a manifold pressure
of 3.2-in. wc to 3.8-in. wc when installed at altitudes up to 2000 ft.
For altitudes above 2000 ft, the manifold pressure can be adjusted
from 2.0-in. wc to 3.8-in. wc.
CAUTION: DO NOT bottom out gas valve regulator
adjusting screw. This can result in unregulated manifold
pressure and result in excess overfire and heat exchanger
failures.
NOTE: If orifice hole appears damaged or it is suspected to have
been redrilled, check orifice hole with a numbered drill bit of
correct size. Never redrill an orifice. A burr-free and squarely
aligned orifice hole is essential for proper flame characteristics.
(3.) After correct manifold pressure is obtained, replace
gas valve regulator adjustment screw cap and verify
adjusted gas input rate using method outlined in
item c.
(4.) Burner flame should be clear blue, almost transpar-
ent. (See Fig. 13.)
c. Verify natural gas input rate by clocking gas meter.
NOTE: High-Altitude Adjustment
UNITED STATES
At installation altitudes above 2000 ft, this furnace has been
approved for a 4 percent derate for each 1000 ft above sea level.
See Table 7 for derate multiplier factor.
EXAMPLE:
88,000 Btuh input furnace installed at 4300 ft.
Furnace Input
Rate at
Sea Level
88,000 X 0.82 =
X
Derate
Multiplier
Factor
Furnace Input Rate
=
at Installation Altitude
72,160
CANADA
At installation altitudes from 2000 to 4500 ft, this furnace must be
derated 10 percent by an authorized Gas Conversion Station. To
determine correct input rate for altitude, see example above and
use 0.90 as derate multiplier factor.
a. Turn off all other gas appliances and pilots.
b. Start furnace and let operate for 3 minutes.
c. Measure time (in sec) for gas meter test dial to complete
1 revolution.
d. Refer to Table 8 for cu ft of gas per hr.
e. Multiply gas rate (cu ft/hr) X heating value (Btu/cu ft)
using natural gas heating value from local gas
utility/supplier.
EXAMPLE: (0—2000 ft altitude)
Btuh input from rating plate = 110,000 Btuh
Btu heating input = Btu/cu ft X cu ft/hr
Heating value of gas = 1050 Btu/cu ft
Time for 1 revolution of 2-cu ft dial = 70 sec
Gas rate = 103 cu ft/hr (from Table 8)
Btu heating input = 103 X 1050 = 108,150 Btuh
In this example, the orifice size and manifold pressure
adjustment is within ±2 percent of the furnace input rate.
2. Set temperature rise.
Furnace must operate within range of temperature rise
specified on the furnace rating plate. Determine the air
temperature rise as follows.
a. Place duct thermometers in return and supply ducts as
near furnace as possible. Be sure thermometers do not
"see" heat exchangers so that radiant heat will not affect
thermometer readings. This is particularly important
with straight-run ducts.
b. When thermometer readings stabilize, subtract return-air
temperature from supply-air temperature to determine
temperature rise.
c. Adjust air temperature rise by adjusting blower speed.
Increase blower speed to reduce temperature rise. Decrease blower speed to increase temperature rise.
WARNING: Disconnect the electrical power before
changing the speed tap. A failure to follow this warning
can cause personal injury.
d. To change blower motor speed selections for heating
mode, remove blower motor lead from control HEAT
terminal. (See Fig. 10.) Select desired blower motor
speed lead from 1 of the other terminals and relocate it
to HEAT terminal. See Table 9 for lead color identification. Reconnect unused lead on SPARE terminal.
—13—
TABLE 6—MODEL 383KAV ORIFICE SIZE* AND MANIFOLD PRESSURE FOR CORRECT INPUT
(Tabulated Data Based on 22,000 Btuh per Burner, Derated 4 Percent per 1000 Ft Above Sea Level)
ALTITUDE
RANGE
(FT)
0 925 43 3.7 42 3.2 42 3.3 42 3.4 42 3.5
to 975 43 3.4 43 3.5 43 3.6 43 3.7 43 3.8
2000 1025 44 3.5 43 3.2 43 3.3 43 3.4 43 3.5
U.S.A. and Canada
ALTITUDE
RANGE
(FT)
U.S.A. 775 42 3.4 42 3.5 42 3.6 42 3.7 42 3.8
Altitudes 800 43 3.8 42 3.3 42 3.4 42 3.5 42 3.6
2001 825 43 3.6 43 3.7 42 3.2 42 3.3 42 3.4
to 850 43 3.4 43 3.5 43 3.6 43 3.8 42 3.2
3000 875 43 3.2 43 3.3 43 3.4 43 3.5 43 3.6
or 900 43 3.0 43 3.1 43 3.2 43 3.3 43 3.4
Canada 925 43 2.9 43 3.0 43 3.1 43 3.2 43 3.3
Altitudes 950 43 2.7 43 2.8 43 2.9 43 3.0 43 3.1
U.S.A. and Canada
2000 975 43 2.6 43 2.7 43 2.8 43 2.9 43 2.9
to 1000 43 2.5 43 2.5 43 2.6 43 2.7 43 2.8
4500 1025 43 2.3 43 2.4 43 2.5 43 2.6 43 2.7
ALTITUDE
RANGE
(FT)
3001 825 43 3.2 43 3.3 43 3.4 43 3.5 43 3.6
to 875 43 2.8 43 2.9 43 3.0 43 3.1 43 3.2
U.S.A. Only
4000 925 43 2.5 43 2.6 43 2.7 43 2.8 43 2.9
ALTITUDE
RANGE
(FT)
4001 800 43 3.0 43 3.1 43 3.2 43 3.3 43 3.4
to 850 43 2.6 43 2.7 43 2.8 43 2.9 43 3.0
U.S.A. Only
5000 900 43 2.3 43 2.4 43 2.5 43 2.6 43 2.7
* Orifices sizes shown in BOLD are factory installed.
AVG GAS
HEAT VALUE
AT ALTITUDE
(BTU/CU FT)
850 42 3.6 42 3.8 41 3.5 41 3.6 41 3.7
875 42 3.4 42 3.6 42 3.7 42 3.8 41 3.5
900 42 3.2 42 3.4 42 3.5 42 3.6 42 3.7
950 43 3.6 43 3.7 43 3.8 42 3.2 42 3.3
1000 43 3.2 43 3.3 43 3.4 43 3.5 43 3.6
1050 44 3.3 44 3.4 44 3.6 43 3.2 43 3.3
1075 45 3.8 44 3.3 44 3.4 44 3.5 43 3.2
1100 45 3.7 45 3.8 44 3.2 44 3.4 44 3.5
AVG GAS
HEAT VALUE
AT ALTITUDE
(BTU/CU FT)
AVG GAS
HEAT VALUE
AT ALTITUDE
(BTU/CU FT)
750 43 3.8 42 3.3 42 3.4 42 3.5 42 3.6
775 43 3.6 43 3.7 43 3.8 42 3.3 42 3.4
800 43 3.4 43 3.5 43 3.6 43 3.7 43 3.8
850 43 3.0 43 3.1 43 3.2 43 3.3 43 3.4
900 43 2.7 43 2.8 43 2.9 43 2.9 43 3.0
950 43 2.4 43 2.5 43 2.6 43 2.6 43 2.7
975 43 2.3 43 2.4 43 2.4 43 2.5 43 2.6
1000 43 2.2 43 2.2 43 2.3 43 2.4 43 2.5
AVG GAS
HEAT VALUE
AT ALTITUDE
(BTU/CU FT)
725 43 3.6 43 3.7 42 3.2 42 3.3 42 3.4
750 43 3.4 43 3.5 43 3.6 43 3.7 43 3.8
775 43 3.2 43 3.3 43 3.4 43 3.5 43 3.6
825 43 2.8 43 2.9 43 3.0 43 3.1 43 3.2
875 43 2.5 43 2.6 43 2.6 43 2.7 43 2.8
925 43 2.2 43 2.3 43 2.4 43 2.4 43 2.5
950 43 2.1 43 2.2 43 2.2 43 2.3 43 2.4
0.58 0.60 0.62 0.64 0.66
Orifice
Orifice
Orifice
Orifice
Manifold
No.
Pressure
0.58 0.60 0.62 0.64 0.66
Manifold
No.
Pressure
0.58 0.60 0.62 0.64 0.66
Manifold
No.
Pressure
0.58 0.60 0.62 0.64 0.66
Manifold
No.
Pressure
Orifice
No.
Orifice
No.
Orifice
No.
Orifice
No.
SPECIFIC GRAVITY OF NATURAL GAS
Manifold
Pressure
SPECIFIC GRAVITY OF NATURAL GAS
Manifold
Pressure
SPECIFIC GRAVITY OF NATURAL GAS
Manifold
Pressure
SPECIFIC GRAVITY OF NATURAL GAS
Manifold
Pressure
Orifice
No.
Orifice
No.
Orifice
No.
Orifice
No.
Manifold
Pressure
Manifold
Pressure
Manifold
Pressure
Manifold
Pressure
Orifice
No.
Orifice
No.
Orifice
No.
Orifice
No.
Manifold
Pressure
Manifold
Pressure
Manifold
Pressure
Manifold
Pressure
Orifice
No.
Orifice
No.
Orifice
No.
Orifice
No.
Manifold
Pressure
Manifold
Pressure
Manifold
Pressure
Manifold
Pressure
—14—
TABLE 6—MODEL 383KAV ORIFICE SIZE* AND MANIFOLD PRESSURE FOR CORRECT INPUT (Continued)
(Tabulated Data Based on 22,000 Btuh per Burner, Derated 4 Percent per 1000 Ft Above Sea Level)
ALTITUDE
RANGE
(FT)
5001 800 43 2.6 43 2.7 43 2.8 43 2.8 43 2.9
to 850 43 2.3 43 2.4 43 2.4 43 2.5 43 2.6
U.S.A. Only
6000 900 43 2.0 43 2.1 43 2.2 43 2.2 43 2.3
ALTITUDE
RANGE
(FT)
6001 725 43 2.7 43 2.8 43 2.9 43 3.0 43 3.1
to 775 43 2.4 43 2.5 43 2.5 43 2.6 43 2.7
U.S.A. Only
7000 825 43 2.1 43 2.2 43 2.2 43 2.3 43 2.4
ALTITUDE
RANGE
(FT)
7001 700 43 2.5 43 2.6 43 2.7 43 2.8 43 2.9
to 750 43 2.2 43 2.3 43 2.3 43 2.4 43 2.5
U.S.A. Only
8000 800 48 3.6 48 3.7 43 2.1 43 2.1 43 2.2
ALTITUDE
RANGE
(FT)
8001 650 43 2.5 43 2.6 43 2.7 43 2.8 43 2.8
to 700 43 2.2 43 2.2 43 2.3 43 2.4 43 2.4
U.S.A. Only
9000 750 48 3.5 48 3.6 43 2.0 43 2.1 43 2.1
* Orifice sizes shown in BOLD are factory installed.
AVG GAS
HEAT VALUE
AT ALTITUDE
(BTU/CU FT)
700 43 3.4 43 3.5 43 3.6 43 3.7 43 3.8
725 43 3.1 43 3.2 43 3.4 43 3.5 43 3.6
750 43 2.9 43 3.0 43 3.1 43 3.2 43 3.3
775 43 2.7 43 2.8 43 2.9 43 3.0 43 3.1
825 43 2.4 43 2.5 43 2.6 43 2.7 43 2.8
875 43 2.2 43 2.2 43 2.3 43 2.4 43 2.5
925 48 3.6 48 3.8 43 2.1 43 2.1 43 2.2
950 48 3.4 48 3.6 48 3.7 43 2.0 43 2.1
975 49 3.8 48 3.4 48 3.5 48 3.6 48 3.7
1000 49 3.6 49 3.8 48 3.3 48 3.4 48 3.5
AVG GAS
HEAT VALUE
AT ALTITUDE
(BTU/CU FT)
650 43 3.4 43 3.5 43 3.6 43 3.7 43 3.8
675 43 3.1 43 3.2 43 3.4 43 3.5 43 3.6
700 43 2.9 43 3.0 43 3.1 43 3.2 43 3.3
750 43 2.5 43 2.6 43 2.7 43 2.8 43 2.9
800 43 2.2 43 2.3 43 2.4 43 2.5 43 2.5
850 48 3.7 43 2.0 43 2.1 43 2.2 43 2.3
875 48 3.5 48 3.6 48 3.8 43 2.1 43 2.1
AVG GAS
HEAT VALUE
AT ALTITUDE
(BTU/CU FT)
625 43 3.1 43 3.3 43 3.4 43 3.5 43 3.6
650 43 2.9 43 3.0 43 3.1 43 3.2 43 3.3
675 43 2.7 43 2.8 43 2.9 43 3.0 43 3.1
725 43 2.3 43 2.4 43 2.5 43 2.6 43 2.7
775 43 2.0 43 2.1 43 2.2 43 2.3 43 2.3
825 48 3.4 48 3.5 48 3.6 48 3.8 43 2.1
850 49 3.8 48 3.3 48 3.4 48 3.5 48 3.6
AVG GAS
HEAT VALUE
AT ALTITUDE
(BTU/CU FT)
600 43 2.9 43 3.0 43 3.1 43 3.2 43 3.3
625 43 2.7 43 2.8 43 2.9 43 3.0 43 3.1
675 43 2.3 43 2.4 43 2.5 43 2.6 43 2.6
725 43 2.0 43 2.1 43 2.1 43 2.2 43 2.3
775 48 3.3 48 3.4 48 3.5 48 3.6 48 3.8
800 49 3.6 49 3.8 48 3.3 48 3.4 48 3.5
Orifice
No.
Orifice
No.
Orifice
No.
Orifice
No.
0.58 0.60 0.62 0.64 0.66
Manifold
Pressure
0.58 0.60 0.62 0.64 0.66
Manifold
Pressure
0.58 0.60 0.62 0.64 0.66
Manifold
Pressure
0.58 0.60 0.62 0.64 0.66
Manifold
Pressure
Orifice
No.
Orifice
No.
Orifice
No.
Orifice
No.
SPECIFIC GRAVITY OF NATURAL GAS
Manifold
Pressure
SPECIFIC GRAVITY OF NATURAL GAS
Manifold
Pressure
SPECIFIC GRAVITY OF NATURAL GAS
Manifold
Pressure
SPECIFIC GRAVITY OF NATURAL GAS
Manifold
Pressure
Orifice
No.
Orifice
No.
Orifice
No.
Orifice
No.
Manifold
Pressure
Manifold
Pressure
Manifold
Pressure
Manifold
Pressure
Orifice
No.
Orifice
No.
Orifice
No.
Orifice
No.
Manifold
Pressure
Manifold
Pressure
Manifold
Pressure
Manifold
Pressure
Orifice
No.
Orifice
No.
Orifice
No.
Orifice
No.
Manifold
Pressure
Manifold
Pressure
Manifold
Pressure
Manifold
Pressure
—15—
TABLE 6—MODEL 383KAV ORIFICE SIZE* AND MANIFOLD PRESSURE FOR CORRECT INPUT (Continued)
(Tabulated Data Based on 22,000 Btuh per Burner, Derated 4 Percent per 1000 Ft Above Sea Level)
ALTITUDE
RANGE
(FT)
AVG GAS
HEAT VALUE
AT ALTITUDE
(BTU/CU FT)
0.58 0.60 0.62 0.64 0.66
Orifice
No.
Manifold
Pressure
Orifice
No.
575 43 2.7 43 2.8 43 2.9 43 3.0 43 3.1
600 43 2.5 43 2.6 43 2.7 43 2.7 43 2.8
9001 625 43 2.3 43 2.4 43 2.4 43 2.5 43 2.6
650 43 2.1 43 2.2 43 2.3 43 2.3 43 2.4
to 675 48 3.7 43 2.0 43 2.1 43 2.2 43 2.2
U.S.A. Only
10,000 725 49 3.8 48 3.3 48 3.4 48 3.5 48 3.6
700 48 3.4 48 3.6 48 3.7 43 2.0 43 2.1
750 49 3.5 49 3.6 49 3.8 48 3.3 48 3.4
775 49 3.3 49 3.4 49 3.5 49 3.6 49 3.7
* Orifice sizes shown in BOLD are factory installed.
SPECIFIC GRAVITY OF NATURAL GAS
Manifold
Pressure
Orifice
No.
Manifold
Pressure
Orifice
No.
Manifold
Pressure
Orifice
No.
Manifold
Pressure
CAUTION: DO NOT redrill orifices. Improper drilling
(burrs, out-of-round holes, etc.) can cause excessive
burner noise and misdirection of burner flames. This can
result in flame impingement of burners and heat exchangers, causing failures.
A93059
BURNER
ORIFICE
TABLE 7—ALTITUDE DERATE MULTIPLIER FOR U.S.A.
ALTITUDE
(FT)
0—2000 0 1.00
2001—3000 8—12 0.90
3001—4000 12—16 0.86
4001—5000 16—20 0.82
5001—6000 20—24 0.78
6001—7000 24—28 0.74
7001—8000 28—32 0.70
8001—9000 32—36 0.66
9001—10,000 36—40 0.62
* Derate multiplier factor is based on midpoint altitude for altitude range.
PERCENT
OF DERATE
DERATE MULTIPLIER
FACTOR FOR U.S.A*
CAUTION: Recheck temperature rise. It must be within
air temperature rise range specified on furnace rating
plate. Recommended operation is at midpoint of rise or
above.
3. Set thermostat heat anticipator.
The thermostat heat anticipator must be set to match the
amp draw of the electrical components in the R-W circuit.
Accurate amp draw readings can be obtained at thermostat
TABLE 8—GAS RATE (CU FT/HR)
SECONDS
FOR 1
REVOLUTION
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
SIZE OF
TEST DIAL
1
cu ft2cu ft5cu ft
360
327
300
277
257
240
225
212
200
189
180
171
164
157
150
144
138
133
129
124
120
116
113
109
106
103
100
97
95
92
90
88
86
84
82
80
78
76
75
73
720
655
600
555
514
480
450
424
400
379
360
343
327
313
300
288
277
267
257
248
240
232
225
218
212
206
200
195
189
185
180
176
172
167
164
160
157
153
150
147
1800
1636
1500
1385
1286
1200
1125
1059
100
947
900
857
818
783
750
720
692
667
643
621
600
581
563
545
529
514
500
486
474
462
450
439
429
419
409
400
391
383
375
367
SECONDS
FOR 1
REVOLUTION
50
51
52
53
54
55
56
57
58
59
60
62
64
66
68
70
72
74
76
78
80
82
84
86
88
90
92
94
96
98
100
102
104
106
108
110
112
116
120
SIZE OF
TEST DIAL
1
cu ft2cu ft5cu ft
72
71
69
68
67
65
64
63
62
61
60
58
56
54
53
51
50
48
47
46
45
44
43
42
41
40
39
38
38
37
36
35
35
34
33
33
32
31
30
144
141
138
136
133
131
129
126
124
122
120
116
112
109
106
103
100
97
95
92
90
88
86
84
82
80
78
76
75
74
72
71
69
68
67
65
64
62
60
360
355
346
340
333
327
321
316
310
305
300
290
281
273
265
257
250
243
237
231
225
220
214
209
205
200
196
192
188
184
180
178
173
170
167
164
161
155
150
subbase terminals R and W. Fig. 14 illustrates an easy
method of obtaining the actual amp draw. The amp reading
should be taken after the blower motor has started. See the
thermostat manufacturer’s instructions for adjusting the
heat anticipator and for varying the heating cycle length.
NOTE: When using an electronic thermostat, set the cycle rate for
3 cycles per hr.
E. Check Safety Controls
The flame sensor, gas valve, and pressure switch were all checked
in the Start-up Procedures section as part of normal operation.
1. Check primary limit control.
This control shuts off the combustion control system and
energizes the circulating-air blower motor if the furnace
overheats.
—16—
→Fig. 12—Redundant Automatic White Rodgers
Gas Control Valve
BURNER FLAME
BURNER
MANIFOLD
Fig. 13—Burner Flame
TABLE 9—SPEED SELECTOR
COLOR SPEED
Black High Cool
Yellow (When
present)
Blue Medium-Low Heat
Red Low Spare
White Common L2/COM
Medium-High Spare
FACTORY-
ATTACHED TO
The preferred method of checking the limit control is to
gradually block off the return air after the furnace has been
operating for a period of at least 5 minutes. As soon as the
limit has shut off the burners, the return-air opening should
be unblocked. By using this method to check the limit
control, it can be established that the limit functions and
operates properly if there is a motor failure.
2. Check blocked vent safeguard switch.
The purpose of this control is to cause the safe shutdown of
the furnace during certain blocked vent conditions.
a. Disconnect power to furnace and remove vent connector
from furnace flue collar. Be sure to allow time for vent
pipe to cool down before removing.
A00238
A89020
THERMOSTAT SUBBASE
TERMINALS WITH
THERMOSTAT REMOVED
(ANITICIPATOR, CLOCK, ETC.,
MUST BE OUT OF CIRCUIT.)
HOOK-AROUND
AMMETER
R Y W G
10 TURNS
FROM UNIT 24-V
CONTROL TERMINALS
EXAMPLE:
5.0 AMPS ON AMMETER
10 TURNS AROUND JAWS
0.5 AMPS FOR THERMOSTAT
=
ANTICIPATOR SETTING
Fig. 14—Amp Draw Check With Ammeter
b. Restore power to furnace and set room thermostat above
room temperature.
c. After normal start-up, allow furnace to operate for 2
minutes, then block flue outlet 100 percent. Furnace
should cycle off within 2 minutes.
d. Remove blockage and reconnect vent pipe to furnace
outlet collar.
e. Wait 5 minutes and then reset blocked vent safeguard
switch.
3. Check pressure switch.
This control proves operation of draft inducer blower.
a. Turn off 115-v power to furnace.
b. Remove control door and disconnect inducer motor from
wire harness.
c. Turn on 115-v power to furnace.
d. Set thermostat to "call for heat" and wait 1 minute. When
pressure switch is functioning properly, hot surface
igniter should NOT glow and control diagnostic light
flashes a status code 31. If hot surface igniter glows
when inducer motor is disconnected, shut down furnace
immediately. Determine reason pressure switch did not
function properly and correct condition.
e. Turn off 115-v power to furnace.
f. Reconnect inducer motor wires, replace control door, and
turn on 115-v power.
F. Checklist
1. Put away tools, instruments, and clean up debris.
2. Verify manual reset switches have continuity.
3. Ensure blower and control access doors are properly installed.
4. Cycle test furnace with room thermostat.
5. Check operation of accessories per manufacturer’s instructions.
6. Review User’s Manual with owner.
7. Leave literature packet near furnace.
A96316
—17—
CHECKLIST—INSTALLATION
LOAD CALCULATION
____________ Heating Load (Btuh)
____________ Cooling Load (Btuh)
____________ Furnace Model Selection
AIR FOR COMBUSTION AND VENTILATION
____________ Unconfined Space
____________ Confined Space
VENTING
____________ NFGC (United States)
____________ NSCNGPIC (Canada)
____________ Local Codes
____________ 1/4-in. Upward Slope
____________ Joints Secure
____________ See Attached Vent Table Instructions
CHECKLIST—START-UP
____________
____________ Temperature Rise Adjusted
____________ Thermostat Anticipator Setting Adjusted or
____________ Thermostat Cycle Rate (3 cycles per Hr)
CHECK SAFETY CONTROLS OPERATION
____________ Primary Limit
____________ Pressure Switches
____________ Draft Safeguard Switch
____________ Manufacturer
____________ Model Number
Gas Input Rate
(Set Within 2 percent of Rating Plate)
THERMOSTAT
—18—
—19—
SERVICE TRAINING
Packaged Service Training programs are an excellent way to increase your
knowledge of the equipment discussed in this manual, including:
• Unit Familiarization • Maintenance
• Installation Overview • Operating Sequence
A large selection of product, theory, and skills programs is available, using popular
video-based formats and materials. All include video and/or slides, plus companion
book.
Classroom Service Training plus "hands-on" the products in our labs can mean
increased confidence that really pays dividends in faster troubleshooting, fewer
callbacks. Course descriptions and schedules are in our catalog.
CALL FOR FREE CATALOG 1-800-962-9212
[ ] Packaged Service Training [ ] Classroom Service Training
A94328
© 2000 Bryant Heating & Cooling Systems 7310 W. Morris St. Indianapolis, IN 46231
—20—
Printed in U.S.A. 383k3514 Catalog No. 5338-303
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