INSTALLATION MANUAL
RESIDENTIAL GAS FURNACE MODELS
TG9S*MP, GG9S*MP
(95.5% AFUE Single Stage Multi-position)
LIST OF SECTIONS
SAFETY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
DUCTWORK . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
FILTERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
GAS PIPING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
ELECTRICAL POWER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
TWINNING AND STAGING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
CONDENSATE PIPING AND FURNACE
VENTING CONFIGURATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
LIST OF FIGURES
Duct Attachment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Vertical Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Coil Flange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Horizontal Right Application . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Horizontal Left Application . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
PC Series Upflow Coil Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Horizontal Left or Right application (Right Shown) . . . . . . . . . . . . . . 6
Combustible Floor Base Accessory . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Horizontal Application . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Typical Attic Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Typical Suspended Furnace / Crawl Space Installation . . . . . . . . . . . 7
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Side Return Cutout Markings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Gas Valve . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Upflow/Downflow Gas Piping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Horizontal Gas Piping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Electrical Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Thermostat Chart - Single Stage AC with
Single Stage PSC Furnaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Thermostat Chart - Single Stage HP with
Single Stage PSC Furnaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Typical Twinned Furnace Application . . . . . . . . . . . . . . . . . . . . . . . 14
EFFICIENCY
RATING
CERTIFIED
ISO 9001
Certified Quality
Management System
COMBUSTION AIR and VENT SYSTEM . . . . . . . . . . . . . . . . . . . .24
START-UP AND ADJUSTMENTS . . . . . . . . . . . . . . . . . . . . . . . . . .31
SAFETY CONTROLS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .34
REPLACEMENT PARTS LIST . . . . . . . . . . . . . . . . . . . . . . . . . . . .39
REPLACEMENT PART CONTACT INFORMATION . . . . . . . . . . . . 39
WIRING DIAGRAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .40
Single Stage Twinning Wiring Diagram . . . . . . . . . . . . . . . . . . . . . .15
Two-Stage Twinning Wiring Diagram . . . . . . . . . . . . . . . . . . . . . . . .15
Upflow Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17
Downflow Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18
Horizontal Left Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19
Horizontal Right Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21
Home Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23
Termination Configuration - 1 Pipe . . . . . . . . . . . . . . . . . . . . . . . . . .24
Termination Configuration - 2 Pipe . . . . . . . . . . . . . . . . . . . . . . . . . .24
Termination Configuration - 2 Pipe Basement . . . . . . . . . . . . . . . . .24
Double Horizontal Combustion Air Intake and Vent Termination . . .24
Double Vertical Combustion Air Intake and Vent Termination . . . . . 24
Direct Vent Air Intake Connection and Vent Connection . . . . . . . . .25
Combustion Airflow Path Through The Furnace Casing . . . . . . . . .25
Outside and Ambient Combustion Air . . . . . . . . . . . . . . . . . . . . . . . .26
Attic and Crawl Space Combustion Air Termination . . . . . . . . . . . . .27
Gas Valve . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30
Reading Gas Pressure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30
Furnace Control Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .31
Furnace Control Event Schedule . . . . . . . . . . . . . . . . . . . . . . . . . . .33
Wiring Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35
LIST OF TABLES
Unit Clearances to Combustibles . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Coil Projection Dimensions - PC Series Coils . . . . . . . . . . . . . . . . . . 6
Cabinet and Duct Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Recommended Filter Sizes (High Velocity 600 FPM) . . . . . . . . . . . . 8
Nominal Manifold Pressure - High Fire . . . . . . . . . . . . . . . . . . . . . . 10
Ratings & Physical / Electrical Data . . . . . . . . . . . . . . . . . . . . . . . . . 11
Maximum Equivalent Pipe Length . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Elbow Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Equivalent Length of Fittings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
These high efficiency, compact units employ induced combustion, reliable hot surface ignition and high heat transfer aluminized tubular heat
exchangers. The units are factory shipped for installation in upflow or
horizontal applications and may be converted for downflow applications.
These furnaces are designed for residential installation in a basement,
closet, alcove, attic, recreation room or garage and are also ideal fo r
commercial applications. All units are factory assembled, wired and
tested to assure safe dependable and economical installation and operation.
These units are Category IV listed and may not be common vented with
another gas appliance as allowed by the National Fuel Gas Code.
SECTION I: SAFETY
This is a safety alert symbol. When you see this symbol on
labels or in manuals, be alert to the potential for personal
injury.
Understand and pay particular attention to the signal words DANGER,
WARNING, or CAUTION.
Combustion Air Intake and Vent Connection Size at Furnace (All Mod-
els) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Estimated Free Area . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25
Unconfined Space Minimum Area in Square Inch . . . . . . . . . . . . . . 26
Free Area . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .26
Gas Rate (CU FT/HR) at Full Input . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Inlet Gas Pressure Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30
Nominal Manifold Pressure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30
DANGER indicates an imminently hazardous situation, which, if not
avoided, will result in death or serious injury
WARNING indicates a potentially hazardous situation, which, if not
avoided, could result in death or serious injury
CAUTION indicates a potentially hazardous situation, which, if not
avoided may result in minor or moderate injury.
alert against unsafe practices and hazards involving only property damage.
Improper installation may create a condition where the operation of
the product could cause personal injury or property damage.
Improper installation, adjustment, alteration, service or maintenance can cause injury or property damage. Failure to carefully
read and follow all instructions in this manual can result in furnace malfunction, death, personal injury and/or property damage. Only a qualifie d contractor, installer or service agency should
install this product.
.
.
It is also used to
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364861-UIM-B-0708
SPECIFIC SAFETY RULES AND PRECAUTIONS
1. Only Natural gas or Propane (LP) gas are approved for use with
this furnace.
2. Install this furnace only in a location and position as specified in
these instructions.
3. A gas-fired furnace for installation in a residential garage must be
installed as specified in these instructions.
4. Provide adequate combustion and ventilation air to the furnace
space as specified in these instructions.
5. Combustion products must be discharged outdoors. Connect this
furnace to an approved vent system only, as specified in SECTION VIII, "COMBUSTION AIR and VENT SYSTEM" of these
instructions.
6. Test for gas leaks as specified in these instructions.
FIRE OR EXPLOSION HAZARD
Failure to follow the safety warnings exactly could result in serious
injury, death or property damage.
Never test for gas leaks with an open flame. Use a commercially
available soap solution made specifically for detection of leaks to
check all connections. A fire or explosion may result causing property damage, personal injury or loss of life.
7. Always install the furnace to operate within the furnace’s intended
temperature rise range. Only connect the furnace to a duct system
which has an external static pressure within the allowable range,
as specified on the furnace rating plate.
8. 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 duct(s) sealed to the furnace casing and terminating outside the space containing the furnace.
9. It is permitted to use the furnace for heating of buildings or structures under construction where the application and use must comply with all manufacturer’s installation instructions including:
• Proper vent installation;
• Furnace operating under thermostatic control;
• Return air duct sealed to the furnace;
• Air filters in place;
• Set furnace input rate and temperature rise per rating plate
marking;
• Means for providing outdoor air required for combustion;
• Return air temperature maintained between 55ºF (13ºC) and
80ºF (27ºC);
• The air filter must be replaced upon substantial completion of
the construction process;
• Clean furnace, duct work and components upon substantial
completion of the construction process, and verify furnaceoperating conditions including ignition, input rate, temperature
rise and venting, according to the manufacturer’s instructions.
10. When installed in a Non-HUD-Approved Modular Home or building
constructed on-site, combustion air shall not be supplied from
occupied spaces.
11. The size of the unit should be based on an acceptable heat loss
calculation for the structure. ACCA, Manual J or other approved
methods may be used.
SAFETY REQUIREMENTS
• Refer to the unit rating plate for the furnace model number, and
then see the dimensions page of this instruction for return air plenum dimensions in Figure 12, "Dimensions". The plenum must be
installed according to the instructions.
• Provide clearances from combustible materials as listed under
Clearances to Combustibles.
• Provide clearances for servicing ensuring that service access is
allowed for both the burners and blower.
• These models ARE NOT
into a HUD Approved Modular Home
(Mobile) Home.
• This furnace is not approved for installation in trailers or recreational vehicles.
• Furnaces for installation on combustible flooring shall not be
installed directly on carpeting, tile or other combustible material
other than wood flooring.
• Check the rating plate and power supply to be sure that the electrical characteristics match. All models use nominal 115 VAC, 1
Phase, 60-Hertz power supply. DO NOT CONNECT THIS APPLIANCE TO A 50 HZ POWER SUPPLY OR A VOLTAGE ABOVE
130 VOLTS.
• Furnace shall be installed so the electrical components are protected from water.
• Installing and servicing heating equipment can be hazardous due
to the electrical components and the gas fired components. Only
trained and qualified personnel should install, repair, or service
gas heating equipment. Untrained service personnel can perform
basic maintenance functions such as cleaning and replacing the
air filters. When working on heating equipment, observe precautions in the manuals and on the labels attached to the unit and
other safety precautions that may apply.
CSA listed or approved for installation
or a Manufactured
COMBUSTION AIR QUALITY
(LIST OF CONTAMINANTS)
The furnace requires OUTDOOR AIR for combustion when the furnace
is located in any of the following environments.
• Restricted Environments
• Commercial buildings
• Buildings with indoor pools
• Furnaces installed in laundry rooms
• Furnaces installed in hobby or craft rooms
• Furnaces installed near chemical storage areas
• Chemical exposure
The furnace requires OUTDOOR AIR for combustion when the furnace
is located in an area where the furnace is being exposed to the following substances and / or chemicals.
• Permanent wave solutions
• Chlorinated waxes and cleaners
• Chlorine based swimming pool chemicals
• Water softening chemicals
• De-icing salts or chemicals
• Carbon tetrachloride
• Halogen type refrigerants
• Cleaning solvents (such as perchloroethylene)
• Printing inks, paint removers, varnishes, etc.
• Hydrochloric acid
• Cements and glues
• Antistatic fabric softeners for clothes dryers
• Masonry acid washing materials
When outdoor air is used for combustion, the combustion air intake duct
system termination must be located external to the building and in an
area where there will be no exposure to the substances listed above.
This product must be installed in strict compliance with the installation instructions and any applicable local, state, and national codes
including, but not limited to building, electrical, and mechanical
codes.
2 Johnson Controls Unitary Products
The furnace area must not be used as a broom closet or for any
other storage purposes, as a fire hazard may be created. Never
store items such as the following on, near or in contact with the furnace.
1. Spray or aerosol cans, rags, brooms, dust mops, vacuum
cleaners or other cleaning tools.
2. Soap powders, bleaches, waxes or other cleaning compounds; plastic items or containers; gasoline, kerosene, cigarette lighter fluid, dry cleaning fluids or other volatile fluid.
3. Paint thinners and other painting compounds.
4. Paper bags, boxes or other paper products
Never operate the furnace with the blower door removed. To
do so could result in serious personal injury and/or equipment
damage.
CODES AND STANDARDS
Follow all national, local codes and standards in addition to this installation manual. The installation must comply with regulations of the serving gas supplier, local building, heating, plumbing, and other codes. In
absence of local codes, the installation must comply with the national
codes listed below and all authorities having jurisdiction.
In the United States and Canada, follow all codes and standards for the
following, using the latest edition available:
STEP 1 -Safety
• US: National Fuel Gas Code (NFGC) NFPA 54/ANSI Z223.1 and
the Installation Standards, Warm Air Heating and Air Conditioning
Systems ANSI/NFPA 90B
• CANADA: CAN/CGA-B149.1 National Standard of Canada. Natural Gas and Propane Installation Codes (NSCNGPIC)
STEP 2 -General Installation
• US: Current edition of the NFGC and NFPA 90B. For copies, contact the
National Fire Protection Association Inc.
Batterymarch Park
Quincy, MA 02269
or for only the NFGC, contact the
American Gas Association,
400 N. Capital, N.W.
Washington DC 20001
or www.NFPA.org
• CANADA: NSCNGPIC. For a copy contact:
Standard Sales, CSA International
178 Rexdale Boulevard
Etobicoke, (Toronto) Ontario Canada M9W 1RS
STEP 3 -Combustion and Ventilation Air
• US: Section 5.3 of the NFGC, air for Combustion and Ventilation
• CANADA: Part 7 of NSCNGPIC, Venting Systems and Air Supply
for Appliances
STEP 4 -Duct Systems
• US and CANADA: Air Conditioning Contractors Association
(ACCA) Manual D, Sheet Metal and Air Conditioning Contractors
Association National Association (SMACNA), or American Society of Heating, Refrigeration, and Air Conditioning Engineers
(ASHRAE) 1997 Fundamentals Handbook Chapter 32.
STEP 5 -Acoustical Lining and Fibrous Glass Duct
• US and CANADA: Current edition of SMACNA and NFPA 90B as
tested by UL Standard 181 for Class I Rigid Air Ducts
STEP 6 -Gas Piping and Gas Pipe Pressure Testing
• US: NFGC; chapters 2, 3, 4, & 9 and National Plumbing Codes
• CANADA: NSCNGPIC Part 5
STEP 7 -Electrical Connections
• US: National Electrical Code (NEC) ANSI/NFPA 70
• CANADA: Canadian Electrical Code CSA C22.1
364861-UIM-B-0708
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 who have not kept up with changing residential and non-HUD
modular home construction practices. These instructions are required
as a minimum for a safe installation.
FOR FURNACES INSTALLED IN THE COMMONWEALTH OF MASSACHUSETTS ONLY
For all side wall horizontally vented gas fueled equipment installed in
every dwelling, building or structure used in whole or in part for residential purposes, including those owned or operated by the Commonwealth and where the side wall exhaust vent termination is less
than seven (7) feet above finished grade in the area of the venting,
including but not limited to decks and porches, the following requirements shall be satisfied:
1. INSTALLATION OF CARBON MONOXIDE DETECTORS. At
the time of installation of the side wall horizontal vented gas
fueled equipment, the installing plumber or gasfitter shall
observe that a hard wired carbon monoxide detector with an
alarm and battery back-up is installed on the floor level where
the gas equipment is to be installed. In addition, the installing
plumber or gasfitter shall observe that a battery operated or
hard wired carbon monoxide detector with an alarm is installed
on each additional level of the dwelling, building or structure
served by the side wall horizontal vented gas fueled equipment.
It shall be the responsibility of the property owner to secure the
services of qualified licensed professionals for the installation of
hard wired carbon monoxide detectors
a. In the event that the side wall horizontally vented gas
fueled equipment is installed in a crawl space or an attic,
the hard wired carbon monoxide detector with alarm and
battery back-up may be installed on the next adjacent floor
level.
b. In the event that the requirements of this subdivision can
not be met at the time of completion of installation, the
owner shall have a period of thirty (30) days to comply with
the above requirements; provided, however, that during
said thirty (30) day period, a battery operated carbon monoxide detector with an alarm shall be installed.
2. APPROVED CARBON MONOXIDE DETECTORS. Each carbon monoxide detector as required in accordance with the
above provisions shall comply with NFPA 720 and be ANSI/UL
2034 listed and IAS certified.
3. SIGNAGE. A metal or plastic identification plate shall be permanently mounted to the exterior of the building at a minimum
height of eight (8) feet above grade directly in line with the
exhaust vent terminal for the horizontally vented gas fueled
heating appliance or equipment. The sign shall read, in print
size no less than one-half (1/2) inch in size, "GAS VENT
DIRECTLY BELOW. KEEP CLEAR OF ALL OBSTRUCTIONS".
4. INSPECTION. The state or lo cal gas inspector of the side wall
horizontally vented gas fueled equipment shall not approve the
installation unless, upon inspection, the inspector observes carbon monoxide detectors and signage installed in accordance
with the provisions of 248 CMR 5.08(2)(a)1 through 4.
INSPECTION
As soon as a unit is received, it should be inspected for possib le damage during transit. If damage is evident, the extent of the damage
should be noted on the carrier’s freight bill. A separate request for
inspection by the carrier’s agent should be made in writing. Also, before
installation, the unit should be checked for screws or bolts which may
have loosened in transit. There are no shipping or spacer brackets
which need to be removed from the interior of this unit.
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FURNACE LOCATION AND CLEARANCES
The furnace shall be located using the following guidelines:
1. Where a minimum amount of air intake/vent piping and elbows will
be required.
2. As centralized with the air distribution as possible.
3. Where adequate combustion air will be available (particularly
when the appliance is not using outdoor combustion air).
4. Where it will not interfere with proper air circulation in the confined
space.
5. Where the outdoor vent terminal will not be blocked or restricted.
Refer to “VENT CLEARANCES” located in SECTION VII of these
instructions. These minimum clearances must be maintained in
the installation.
6. Where the unit will be installed in a level position with no more than
1/4” (6.4 mm) slope side-to-side and front-to-back to provide
proper condensate drainage.
Installation in freezing temperatures:
1. Furnace shall be installed in an area where ventilation facilities
provide for safe limits of ambient temperature under normal operating conditions. Ambient temperatures must not fall below 32°F
(0°C) unless the condensate system is protected from freezing.
Improper installation in an ambient below 32ºF (0.0° C) could create
a hazard, resulting in damage, injury or death.
2. Do not allow return air temperature to be below 55º F (13° C) for
extended periods. To do so may cause condensation to occur in
the main heat exchanger, leading to premature heat exchanger
failure.
3. If this furnace is installed in an unconditioned space and an
extended power failure occurs, there will be potential damage to
the internal components. Following a power failure situation, do
not operate the unit until inspection and repairs are performed.
4. Special precautions MUST be made if installing furnace in an area
which may drop below freezing. This can cause improper operation or damage to the equipment. If the furnace is installed in an
area that has the potential of freezing, the drain line must be protected. Use a 3 to 6 watt per foot at 115 vac, 40º F (4.4° C) selfregulating, shielded and waterproof heat tape. Wrap the drain line
outside of the furnace with the heat tape and secure with ties. Follow the heat tape manufacturer's recommendations.
Use only Propylene Glycol (RV anti-freeze) to winterize the furnace.
Refer to the manufacturer’s specification to ensure that it is compatible with plastics and other components of the furnace. DO NOT
use Ethylene Glycol anti-freeze in the furnace.
Clearances for access/service:
Ample clearances should be provided to permit easy access to the unit.
The following minimum clearances are recommended:
1. Twenty-four (24) inches (61 cm) between the front of the furnace
and an adjacent wall or another appliance, when access is
required for servicing and cleaning.
2. Eighteen (18) inches (46 cm) at the side where access is required
for passage to the front when servicing or for inspection or replacement of flue/vent connections.
In all cases, accessibility clearances shall take precedence over clearances for combustible materials where accessibility clearances are
greater.
Installation in a residential garage:
A gas-fired furnace for installation in a residential garage must be
installed so the burner(s) and the ignition source are located not less
than 18 inches (46 cm) above the floor, and the furnace must be located
or protected to avoid physical damage by vehicles.
Table 1:
Unit Clearances to Combustibles
Application
Top 1" 0" 0"
Vent 0" 0" 0"
Rear 0" 0" 0"
Side 0" 0" 1"
Front* 0" 0" 0"
Floor Combustible
Closet Yes Yes Yes
Line Contact No No Yes
1. For combustible floors only when used with special sub-base.
* - 24" clearance in front and 18" on side recommended for service access.
All furnaces approved for alcove and attic installation.
Upflow Downflow Horizontal
1
Combustible
Combustible
SECTION II: DUCTWORK
DUCTWORK GENERAL INFORMATION
The duct system’s design and installation must:
1. Handle an air volume appropriate for the served space and within
the operating parameters of the furnace specifications.
2. Be installed in accordance of National Fire Protection Association
as outlined in NFPA standard 90B (latest editions) or applicable
national, provincial, state, and local fire and safety codes.
3. Create a closed duct system. For residential and Non-HUD Modular Home installations, when a furnace is installed so that the 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(s) sealed to the furnace casing and terminating outside
the space containing the furnace.
4. Complete a path for heated or cooled air to circulate through the
air conditioning and heating equipment and to and from the conditioned space.
The cooling coil must be installed in the supply air duct, downstream of the furnace. Cooled air may not be passed over the heat
exchanger.
When the furnace is used with a cooling coil, the coil must be installed
parallel with, or in the supply air side of the furnace to avoid condensation in the primary heat exchanger. When a parallel flow arrangement is
used, dampers or other means used to control airflow must be adequate to prevent chilled air from entering the furnace. If manually operated, the damper must be equipped with means to prevent the furnace
or the air conditioner from operating unless the damper is in full heat or
cool position.
When replacing an existing furnace, if the existing plenum is not the
same size as the new furnace then the existing plenum must be
removed and a new plenum installed that is the proper size for the new
furnace. If the plenum is shorter than 12” (30.5 cm) the turbulent air flow
may cause the limit controls not to operate as designed, or the limit controls may not operate at all.
The duct system is a very important part of the installation. If the duct
system is improperly sized the furnace will not operate properly.
The ducts attached to the furnace plenum, should be of sufficient size
so that the furnace operates at the specified external static pressure
and within the air temperature rise specified on the nameplate.
The minimum plenum height is 12” (30.5 cm). The furnace will not
operate properly on a shorter plenum height. The minimum recommended rectangular duct height is 4 inches (10 cm) attached to the
plenum.
If a matching cooling coil is used, it may be placed directly on the furnace outlet and sealed to prevent leakage. If thermoplastic evaporator
‘A’ coil drain pans are to be installed in the upflow/horizontal configuration, then extra 2” minimum spacing may be needed to ensure against
drain pan distortion.
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364861-UIM-B-0708
On all installations without a coil, a removable access panel is recommended in the outlet duct such that smoke or reflected light would be
observable inside the casing to indicate the presence of leaks in the
heat exchanger. This access cover shall be attached in such a manner
as to prevent leaks.
The duct system must be properly sized to obtain the correct airflow
for the furnace size that is being installed.
Refer to Table 6, "Ratings & Physical / Electrical Data" or the furnace rating plate for the correct rise range and static pressures.
If the ducts are undersized, the result will be high duct static pressures and/or high temperature rises which can result in a heat
exchanger OVERHEATING CONDITION. This condition can result
in premature heat exchanger failure, which can result in personal
injury, property damage, or death.
DUCT FLANGES
Four flanges are provided to attach ductwork to the furnace. These
flanges are rotated down for shipment. In order to use the flanges,
remove the screw holding an individual flange, rotate the flange so it is
in the upward position and reinstall the screw then repeat this for all 4
flanges.
If the flanges are not used, they must remain in the rotated down position as shipped.
For duct attachment,
if needed.
Factory
installed
FLOOR BASE AND DUCTWORK INSTALLATION DOWNFLOW
Installations on combustible material or directly on any
floors must use a combustible floor base shown in Figure 8,
"Combustible Floor Base Accessory". Follow the instructions supplied with the combustible floor base accessory.
This combustible floor base can be replaced with a matching cooling coil, properly sealed to prevent leaks. Follow the
instructions supplied with the cooling coil cabinet for installing the cabinet to the duct connector. Plug intake and vent
pipe holes in bottom panel and move grommet to desired
vent side exit.
Downflow Air Conditioning Coil Cabinet
The furnace should be installed with coil cabinet part number specifically intended for downflow application. If a matching cooling coil is
used, it may be placed directly on the furnace outlet and sealed to prevent leakage. For details of the coil cabinet dimensions and installation
requirements, refer to the installation instructions supplied with the coil
cabinet.
Attach the air conditioning coil cabinet to the duct connector, and then
position the furnace on top of the coil cabinet. The connection to the furnace, air conditioning coil cabinet, duct connector, and supply air duct
must be sealed to prevent air leakage.
COIL INSTALLATION
On all installations without a coil, a removable access panel is recommended in the outlet duct such that smoke or reflected light
would be observable inside the casing to indicate the presence of
leaks in the heat exchanger. This access cover shall be attached in
such a manner as to prevent leaks.
FIGURE 1: Duct Attachment
DUCTWORK INSTALLATION AND SUPPLY PLENUM
CONNECTION - UPFLOW/HORIZONTAL
Attach the supply plenum to the furnace outlet. The use of
an approved flexible duct connector is recommended on all
installations. This connection should be sealed to prevent
air leakage. The sheet metal should be crosshatched to
eliminate any popping of the sheet metal when the indoor
fan is energized.
COIL/FURNACE ASSEMBLY - MC/FC/PC SERIES
COILS
Furnace
Furnace
UPFLOW
FIGURE 2: Vertical Applications
DOWNFLOW
FURNACE ASSEMBLY - MC & FC SERIES COILS
These coils are factory shipped for installation in either upflow or downflow applications with no conversion.
Position the coil casing over or under the furnace opening as shown in
Figure 2, "Vertical Applications" after configuring coil flanges as
required see “Coil Flange” section below.
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COIL FLANGE INSTALLATION
The coils include removable flanges to allow proper fit up with furnaces
having various inlet and outlet flange configurations. The two flanges
are attached to the top of the coil in the factory during production. For
proper configuration of flanges refer to Figure 3, "Coil Flange".
Do not drill any holes or drive any screws into the front duct
flange on the coil in order to prevent damaging coil tubing. See
Figure 6, "PC Series Upflow Coil Installation"
C
(Min)
D
Flexible
Duct Collar
FACTORY
FLANGE
LOCATION
(Used for upflow
or horizontal
ALTERNATE
FLANGE LOCATION
(Used for downflow or
horizontal left installations)
right installations)
FIGURE 3: Coil Flange
FURNACE ASSEMBLY - MC SERIES COILS ONLY
MC coils are supplied ready to be installed in a horizontal position. A
horizontal pan is factory installed. MC coils should be installed in all horizontal applications with the horizontal drain pan side down.
Mounting Plate
Furnace
FIGURE 4: Horizontal Right Application
For horizontal left hand applications no conversion is required to an MC
coil when used with a downflow/horizontal furnace. A mounting plate,
supplied with every coil should always be installed on the side designated as top side. See Figures 4 & 5.
Mounting Plate
Furnace
FIGURE 5: Horizontal Left Application
FURNACE ASSEMBLY - PC SERIES COILS
These upflow coils are designed for installation on top of upflow furnaces only.
If the coil is used with a furnace of a different size, use a 45° transition
to allow proper air distribution through the coil.
1. Position the coil casing over the furnace opening as shown in Figure 6, "PC Series Upflow Coil Installation".
2. Place the ductwork over the coil casing flange and secure.
3. Check for air leakage between the furnace and coil casing and
seal appropriately.
Field
Fabricated
Ductwork
Upflow
Coil
Upflow
Furnace
Primary
Drain
Secondary
Drain
Do not drill
or Screw
this flange
Alternate
Drain Location
FIGURE 6: PC Series Upflow Coil Installation
Table 2: Coil Projection Dimensions - PC Series Coils
COIL SIZE DIMENSION “C” INCH
PC18 3-1/2
PC24 4-1/2
PC30, PC32, PC35 4-1/2
PC42, PC43, PC36, PC37 5-1/2
PC48 6-1/2
PC60 9
NOTE: Dimension “C” should be at least 2/3 of dimension “D”. See Figure 6, "PC Series Upflow Coil Installation"
CRITICAL COIL PROJECTION
The coil assembly must be located in the duct such that a minimum distance is maintained between the top of the coil and the top of the duct.
Refer to Table 6.
COIL / FURNACE ASSEMBLY - HC SERIES COILS
These coils are supplied ready to be installed in a right hand position or
a left hand position. When used in conjunction with a horizontal furnace
(blow through) application, the coil should be oriented with the opening
of the “A” coil closest to the furnace. See Figure 6.
NOTE: Each coil is shipped with an external tie plate that should be
used to secure the coil to the furnace. It should be installed on the back
side of the coil using the dimpled pilot holes. See Figure 6.
Use tie plate
supplied with coil
Gas Furnace
Air flow
FIGURE 7: Horizontal Left or Right application (Right Shown)
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DOWNFLOW DUCT CONNECTORS
All downflow installations must use a suitable duct connector approved
by the furnace manufacturer for use with this furnace. The duct connectors are designed to be connected to the rectangular duct under the
floor and sealed. Refer to the instructions supplied with the duct connector for proper installation. Refer to the separate accessory parts list
at the end of these instructions for the approved accessory duct connectors.
FURNACE
WARM AIR PLENUM
WITH 1” FLANGES
FIBERGLASS
INSULATION
FIBERGLASS TAPE
UNDER FLANGE
COMBUSTIBLE FLOOR
BASE ACCESSORY
ATTIC INSTALLATION
Line contact only permissible
between lines formed by the
intersection of furnace top
and two sides and building
joists, studs or framing
Filter rack
must be a minimum
distance
of 18” (45.7 cm)
from the
furnace
Return
Air
Gas Piping
Sediment
Trap
30” MIN.
Work Area
FIGURE 10: Typical Attic Installation
This appliance is certified for line contact when the furnace is installed
in the horizontal left or right position. The line contact is only permissible
between lines that are formed by the intersection of the top and two
sides of the furnace and the building joists, studs or framing. This line
may be in contact with combustible material. Refer to Figure 10, "Typical Attic Installation".
When a furnace is installed in an attic or other insulated space,
keep all insulating materials at least 12 inches (30.5 cm) away from
furnace and burner combustion air openings.
12”
12”
Supply
Air
Vent (Maintain
required
clearances to
combustibles)
Sheet metal in
front of furnace
combustion air
Openings is
Recommended
FIGURE 8: Combustible Floor Base Accessory
RESIDENTIAL AND MODULAR HOME UPFLOW
RETURN PLENUM CONNECTION
Return air may enter the furnace through the side(s) or bottom depending on the type of application. Return air may not be connected into the
rear panel of the unit.
BOTTOM RETURN AND ATTIC INSTALLATIONS
Bottom return applications normally pull return air through a base platform or return air plenum. Be sure the return platform structure or return
air plenum is suitable to support the weight of the furnace.
The internal bottom panel must be removed for this application.
Attic installations must meet all minimum clearances to combustibles
and have floor support with required service accessibility.
HORIZONTAL APPLICATION
FIGURE 9: Horizontal Application
This furnace may be installed in a horizontal position on either side
as shown above. It must not be installed on its back.
SUSPENDED FURNACE / CRAWL SPACE
INSTALLATION
The furnace can be hung from floor joists or installed on suitable blocks
or pad. Blocks or pad installations shall provide adequate height to
ensure the unit will not be subject to water damage. Units may also be
suspended from rafters or floor joists using rods, pipe angle supports or
straps. Angle supports should be placed at the supply air end and near
the blower deck. Do not support at return air end of unit. All four suspension points must be level to ensure quite furnace operation. When
suspending the furnace use a secure platform constructed of plywood
or other building material secured to the floor joists. Refer to for typical
crawl space installation.
Angle Iron
Bracket
6” Min. Between
Rod & Front of Furnace
1” Max. Between
Rod & Back of Furnace
FIGURE 11: Typical Suspended Furnace / Crawl Space Installation
Support
Bracket
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LEFT SIDE
Combustion Air Inlet
Condensate Drain
(Downflow)
Vent Outlet
28.5”
(For Cladded door add appoximately an additional .75”)
.56”
B
.56”
.56”
SUPPLY END
29.5”
23.8”
Combustion
Air Inlet
20”
3”
FIGURE 12: Dimensions
Gas Pipe
Entry
Electrical
Entry
Condensate
Drain
Thermostat
Wiring
Vent
Outlet
C
FRONT
A
33
Gas Pipe
Entry
Electrical
Entry
Condensate
Drain
Thermostat
Wiring
RIGHT SIDE
Combustion Air Inlet
Condensate Drain
(Downflow)
Vent Outlet
23”
Optional Return Air
Cutout (Either side)
24.25”
RETURN END
14”
1”
1.5”
B
Table 3: Cabinet and Duct Dimensions
BTUH (kW)
Input
Nominal
CFM (m
3
/min)
Cabinet
Size
AA (cm)BB (cm)CC (cm) Lbs
Cabinet Dimensions (Inches)
40 (11.7) 800 (22.7) A 14 1/2 36.8 13 3/8 34.0 11 3/4 29.8 113
60 (17.6) 1000 (28.3) A 14 1/2 36.8 13 3/8 34.0 11 3/4 29.8 118
60 (17.6) 1200 (34.0) B 17 1/2 44.4 16 3/8 41.6 13 1/4 33.7 122
80 (23.4) 1200 (34.0) B 17 1/2 44.4 16 3/8 41.6 14 3/4 37.5 126
80 (23.4) 1600 (45.3) C 21 53.3 19 7/8 50.5 16 1/2 41.9 136
80 (23.4) 2200 (62.3) C 21 53.3 19 7/8 50.5 16 1/2 41.9 139
100 (29.3) 1600 (45.3) C 21 53.3 19 7/8 50.5 18 1/4 46.4 142
100 (29.3) 2000 (56.6) C 21 53.3 19 7/8 50.5 18 1/4 46.4 145
120 (35.1) 1600 (45.3) D 24 1/2 62.2 23 3/8 59.4 21 3/4 55.2 153
120 (35.1) 2000 (56.6) D 24 1/2 62.2 23 3/8 59.4 21 3/4 55.2 156
130 (38.1) 2000 (56.6) D 24 1/2 62.2 23 3/8 59.4 No Hole No Hole 160
SECTION III: FILTERS
FILTER INSTALLATION
All applications require the use of a field installed filter. All filters and
mounting provision must be field supplied.
Filters must be installed external to the furnace cabinet. DO NOT
attempt to install filters inside the furnace.
NOTE: Single side return above 1800 CFM is approved as long as the
filter velocity does not exceed filter manufacturer’s recommendation
and a transition is used to allow use on a 20x25 filter.
Table 4: Recommended Filter Sizes (High Velocity 600 FPM)
CFM
(m³/min)
Cabinet
Size
Side
(in)
800 (22.7) A 16 x 25 14 x 25
1000 (28.3) A 16 x 25 14 x 25
1200 (34.0) A 16 x 25 14 x 25
1200 (34.0) B 16 x 25 16 x 25
1600 (45.3) B 16 x 25 16 x 25
1600 (45.3) C 16 x 25 20 x 25
2000 (56.6) C (2) 16 x 25 20 x 25
2200 (62.3) C (2) 16 x 25 20 x 25
2000 (56.6) D (2) 16 x 25 22 x 25
NOTES:
1.Air velocity through throwaway type filters may not exceed 300 feet per
minute (91.4 m/min). All velocities over this require the use of high velocity
filters.
2.Do not exceed 1800 CFM using a single side return and a 16x25 filter. For
CFM greater than 1800, you may use two side returns or one side and the
bottom or one side return with a transition to allow use of a 20x25 filter.
Approximate
Operating Weights
Bottom
(in)
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SIDE RETURN
Locate the “L” shaped corner locators. These indicate the size of the cutout to be made in the furnace side panel. Refer to Figure 13, "Side
Return Cutout Markings".
Front of
Furnace
Side of
Furnace
Corner
Markings
FIGURE 13: Side Return Cutout Markings
Install the side filter rack following the instructions provided with that
accessory. If a filter(s) is provided at another location in the return air
system, the ductwork may be directly attached to the furnace side
panel.
Some accessories such as electronic air cleaners and pleated
media may require a larger side opening. Follow the instructions
supplied with that accessory for side opening requirements. Do not
cut the opening larger than the dimensions shown in Figure 12,
"Dimensions".
HORIZONTAL APPLICATION
Horizontal Filters
Outlet
Pressure
Port
Inlet
Wrench
Boss
Inlet
Pressure
Port
FIGURE 14: Gas Valve
Plan your gas supply before determining the correct gas pipe entry.
Use 90-degree service elbow(s), or short nipples and conventional
90-degree elbow(s) to enter through the cabinet access holes.
On/Off Switch
(Shown in ON position)
OFF
ON
Vent Port
Outlet
Main Regulator
Adjustment
GAS PIPING INSTALLATION
Properly sized wrought iron, approved flexible or steel pipe must be
used when making gas connections to the unit. If local codes allow the
use of a flexible gas appliance connection, always use a new listed connector. Do not use a connector that has previously serviced another gas
appliance.
Some utility companies or local codes require pipe sizes larger than the
minimum sizes listed in these instructions and in the codes. The furnace
rating plate and the instructions in this section specify the type of gas
approved for this furnace - only use those approved gases. The installation of a drip leg and ground union is required. Refer to Figure 15,
"Upflow/Downflow Gas Piping".
All filters and mounting provision must be field supplied. All installations must have a filter installed.
Any branch duct (rectangular or round duct) attached to the plenum
must attach to the vertical plenum before the filter. The use of straps
and / or supports is required to support the weight of the external filte r
box.
Downflow Filters
Downflow furnaces typically are installed with the filters located above
the furnace, extending into the return air plenum or duct. Any branch
duct (rectangular or round duct) attached to the plenum must attach to
the vertical plenum above the filter height.
Filter(s) may be located in the duct system external to the furnace using
an external duct filter box attached to the furnace plenum or at the end
of the duct in a return filter grille(s). The use of straps and/or supports is
required to support the weight of the external filter box.
SECTION IV: GAS PIPING
GAS SAFETY
An overpressure protection device, such as a pressure regulator,
must be installed in the gas piping system upstream of the furnace
and must act to limit the downstream pressure to the gas valve so it
does not exceed 0.5 PSI (14" w.c. (3.48 kPa). Pressures exceeding
0.5 PSI (14” w.c. (3.48 kPa) at the gas valve will cause damage to
the gas valve, resulting in a fire or explosion or cause damage to
the furnace or some of its components that will result in property
damage and loss of life.
External Manual
Shutoff Valve
To Gas
Supply
Drip Leg
FIGURE 15: Upflow/Downflow Gas Piping
FIGURE 16: Horizontal Gas Piping
Grounded Joint Union
may be Installed
Inside or Outside Unit.
Manual
Shut-off
Valve
Gas
Pipe
Gas
Pipe
Drip
Leg
To Gas
Supply
Drip
Leg
Gas Burners
Gas Valve
Manual
Shut-off Valve
An accessible manual shutoff valve must be installed upstream of
the furnace gas controls and within 6 feet (1.8 m) of the furnace.
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The furnace must be isolated from the gas supply piping system by
closing its individual external manual shutoff valve during any pressure
testing of the gas supply piping system at pressures equal to or less
than 1/2 psig (3.5 kPa).
The gas valve body is a very thin casting that cannot take any
external pressure. Never apply a pipe wrench to the body of the gas
valve when installing piping. A wrench must be placed on the octagon hub located on the gas inlet side of the valve. Placing a wrench
to the body of the gas valve will damage the valve causing improper
operation and/or the valve to leak.
Gas piping may be connected from either side of the furnace using any
of the gas pipe entry knockouts on both sides of the furnace. Refer to
Figure 12, "Dimensions".
Table 5: Nominal Manifold Pressure - High Fire
Manifold Pressures (in wc) Manifold Pressures (kpa)
Altitude (feet) Altitude (m)
0-7999 8000-8999 9000-9999 0-2437 2438-2742 2743-3048
800 3.5 3.5 3.5
850 3.5 3.5 3.5 31.7 0.87 0.87 0.87
900 3.5 3.5 3.5 33.5 0.87 0.87 0.87
950 3.5 3.5 3.3 35.4 0.87 0.87 0.81
1000 3.5 3.2 2.9 37.3 0.87 0.80 0.73
(BTU/cu ft.)
Gas Heating Value
1050 3.5 2.9 2.7 39.1 0.87 0.73 0.67
1100 3.2 2.7 2.4 41.0 0.80 0.66 0.61
2500 (LP) 9.8 8.2 7 .5 93.2 (LP) 2.44 2.03 1.86
GAS ORIFICE CONVERSION FOR PROPANE (LP)
This furnace is constructed at the factory for natural gas-fired operation,
but may be converted to operate on propane (LP) gas by using a factory-supplied LP conversion kit. Follow the instructions supplied with
the LP kit.
HIGH ALTITUDE GAS ORIFICE CONVERSION
This furnace is constructed at the factory for natural gas-fired operation
at 0 –5,000 feet (0-m – 1,524 m) above sea level.
The manifold pressure must be changed in order to maintain proper
and safe operation when the furnace is installed in a location where the
altitude is greater than 5,000 feet (1,524 m) above sea level. Refer to
Table 5, "Nominal Manifold Pressure - High Fire" for proper manifold
pressure settings.
HIGH ALTITUDE PRESSURE SWITCH CONVERSION
For installation where the altitude is less than 5,000 feet (1,524m), it is
not required that the pressure switch be changed unless you are in an
area subject to low pressure inversions.
29.8 0.87 0.87 0.87
(MJ/cu m)
Gas Heating Value
PROPANE AND HIGH ALTITUDE CONVERSION KITS
It is very important to choose the correct kit and/or gas orifices for the altitude and the type of gas for which the furnace is being installed.
Only use natural gas in furnaces designed for natural gas. Only use propane (LP) gas for furnaces that have been properly converted to use pro-
pane (LP) gas. Do not use this furnace with butane gas.
Incorrect gas orifices or a furnace that has been improperly converted will create an extremely dangerous condition resulting in premature heat
exchanger failure, excessive sooting, high levels of carbon monoxide, personal injury, property damage, a fire hazard and/or death.
High altitude and propane (LP) conversions are required in order for the appliance to satisfactory meet the application.
An authorized distributor or dealer must make all gas conversions.
In Canada, a certified conversion station or other qualified agency, using factory specified and/or approved parts, must perform the conversion.
The installer must take every precaution to insure that the furnace has been converted to the proper gas orifice size when the furnace is installed.
Do not attempt to drill out any orifices to obtain the proper orifice size. Drilling out a gas orifice will cause misalignment of the burner flames,
causing premature heat exchanger burnout, high levels of carbon monoxide, excessive sooting, a fire hazard, personal injury, property damage
and/or death.
SECTION V: ELECTRICAL POWER
ELECTRICAL POWER CONNECTIONS
Field wiring to the unit must be grounded. Electric wires that are field
installed shall conform to the temperature limitation for 63°F (35°C) rise
wire when installed in accordance with instructions. Refer to Table 6,
"Ratings & Physical / Electrical Data" in these instructions for specific
furnace electrical data.
Use copper conductors only.
10 Johnson Controls Unitary Products
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Table 6: Ratings & Physical / Electrical Data
Input Output
MBH kW MBH kW CFM
Nominal
Airflow
m
3
/min
Total Unit
Amps
AFUE
%
Air Temp. Rise
°F °C °F °C
Max
Over-Current
Protect
Min. wire Size
(awg) @ 75 ft
one way
Max. Outlet
Air Temp
40 11.7 38 11.1 800 22.7 8.0 95.5 30-60 17-33 15 14 155 68.3
60 17.6 57 16.7 1000 28.3 10.0 95.5 30-60 19-36 15 14 155 68.3
60 17.6 57 16.7 1200 34.0 10.0 95.5 30-60 19-36 15 14 160 71.1
80 23.4 76 22.3 1200 34.0 10.0 95.5 35-65 19-36 15 14 165 73.9
80 23.4 76 22.3 1600 45.3 11.5 95.5 35-65 19-36 15 14 155 68.3
80 23.4 76 22.3 2200 62.3 17.0 95.5 35-65 19-36 20 12 155 68.3
100 29.3 95 27.8 1600 45.3 11.5 95.5 35-65 19-36 15 14 165 73.9
100 29.3 95 27.8 2000 56.6 17.0 95.5 35-65 19-36 20 12 155 68.3
120 35.1 114 33.4 1600 45.3 11.5 95.5 40-70 22-39 15 14 170 76.7
120 35.1 114 33.4 2000 56.6 17.0 95.5 35-65 19-36 20 12 160 71.1
130 38.1 123.5 36.2 2000 56.6 17.0 95.5 45-75 28-44 20 12 165 73.9
Annual Fuel Utilization Efficiency (AFUE) numbers are determined in accordance with DOE Test procedures.
Wire size and over current protection must comply with the National Electrical Code (NFPA-70-latest edition) and all local codes.
The furnace shall be installed so that the electrical components are protected from water.
SUPPLY VOLTAGE CONNECTIONS
The power connection leads and wiring box may be relocated to the
left side of the furnace. Remove the screws and cut wire tie holding
Junction
Box
Connect ground
lead to screw
Electrical Entry
BLK
L1-Hot
WHT
Neutral
FIGURE 17: Electrical Wiring
1. Provide a power supply separate from all other circuits. Install
overcurrent protection and disconnect switch per local/national
electrical codes. The switch should be close to the unit for convenience in servicing. With the disconnect or fused switch in the OFF
position, check all wiring against the unit wiring label. Refer to the
wiring diagram in this instruction.
2. Remove the screws retaining the wiring box cover. Route the
power wiring through the opening in the unit into the junction box
with a conduit connector or other proper connection. In the junction box there will be 3 wires, a Black Wire, a White Wire. Connect
the power supply as shown on the unit-wiring label on the inside of
the blower compartment door or the wiring schematic in this section. The black furnace lead must be connected to the L1 (hot)
wire from the power supply. The white furnace screw must be connected to neutral. Connect the power supply ground to the green
screw (equipment ground) An alternate wiring method is to use a
field provided 2” (5.1 cm) x 4” (10.2 cm) box and cover on the outside of the furnace. Route the furnace leads into the box using a
protective bushing where the wires pass through the furnace
panel. After making the wiring connections replace the wiring box
cover and screws. Refer to Figure 17, "Electrical Wiring".
3. The furnace's control system requires correct polarity of the power
supply and a proper ground connection. Refer to Figure 17, "Electrical Wiring"
excess wiring. Reposition on the left side of the furnace and fasten
using holes provided.
LOW VOLTAGE CONTROL WIRING CONNECTIONS
Install the field-supplied thermostat by following the instructions that
come with the thermostat. With the thermostat set in the OFF position
and the main electrical source disconnected, connect the thermostat
wiring from the wiring connections on the thermostat to the terminal
board on the ignition module, as shown in Figure 18, "Thermostat Chart
- Single Stage AC with Single Stage PSC Furnaces". Electronic thermostats may require the common wire to be connected. Apply strain relief
to thermostat wires passing through cabinet. If air conditioning equipment is installed, use thermostat wiring to connect the Y and C terminals on the furnace control board to the proper wires on the condensing
unit (unit outside).
Set the heat anticipator in the room thermostat to 0.4 amps. Setting
it lower will cause short cycles. Setting it higher will cause the room
temperature to exceed the set points.
Some electronic thermostats do not have adjustable heat anticipators. They should be set to six cycles per hour. Follow the thermostat manufacturer's instructions.
The 24-volt, 40 VA transformer is sized for the furnace components
only, and should not be connected to power auxiliary devices such as
humidifiers, air cleaners, etc. The transformer may provide power for an
air conditioning unit contactor.
Johnson Controls Unitary Products 11
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For additional connection diagrams for all UPG equipment refer to “Low Voltage System Wiring” document available on-line at www.upgnet.com in
the Product Catalog Section.
AC 5D Single Stage Air Conditioner – Single Stage PSC Furnace
ID MODELS
THERMOSTAT
G*(8/9)S
G*9F
L(Y/M)8S
G8C
GF(8/9)
LF8
(G,T)G(8/9)S
(G/T)GLS
*PP11C70224
Y
Full Stage Compressor
RH
24 – Volt Hot
(Heat XFMR)
G
Fan
RC
24 – Volt Hot
(Cool XFMR)
W
Full Stage Heat
HM1
Humidistat
24VAC Humidifier
(Optional)
SINGLE STAGE
PSC
FURNACE
SINGLE STAGE PSC
FURNACE
C
24 – Volt Common
Y/Y2
Full Stage Compressor
R
24 – Volt Hot
G
Fan
W
Full Stage Heat
SINGLE STAGE
AIR
CONDITIONER
1
SINGLE STAGE
SINGLE STAGE
AIR CONDITIONER
AIR CONDITIONER
C
24 – Volt Common
Y
Y
Compressor
Compressor Contactor
Clipping Jumper W914 for
electric heat on thermostat
is not necessary
Other Part Numbers:
SAP = Legacy
265901 = 031-09166
1
FIGURE 18: Thermostat Chart - Single Stage AC with Single Stage PSC Furnaces
12 Johnson Controls Unitary Products
HP 2C Single Stage Heat Pump – Single Stage PSC Furnace
364861-UIM-B-0708
THERMOSTAT
*DN22U00124
N/A
THERMOSTAT
*BP21H50124
*BN21H00124
*DP21H40124
*DN21H00124
N/A
THERMOSTAT
*DP32H70124
C
24 – Volt Common
Y1
First Stage Compressor
R
24 – Volt Hot
G
Fan
E
Emergency Heat
W2
Third Stage Heat
O
Reversing Valve
Energized in Cool
L
Malfunction Light
Second Stage Compressor
3
Y2
W1
Second Stage Aux. Heat
External Humidistat
(Optional)
Open on Humidity Rise
24VAC Humidifier
(Optional)
Step 1 of Thermostat
Installer / Configuration
Menu must be set to
Heat Pump 1
Step 9 of Thermostat
Installer / Configuration
Menu must be set to
Pump OFF
ID MODELS
G*(8/9)S
G*9F
L(Y/M)8S
G8C
SINGLE STAGE
PSC
FURNACE
SINGLE STAGE PSC
FURNACE
C
24 – Volt Common
Y/Y2
Full Stage Compressor
R
24 – Volt Hot
G
Fan
W
Full Stage Heat
GF(8/9)
LF8
(G,T)G(8/9)S
(G/T)GLS
OD MODELS
E*R*
E*ZD
E*B*
*RHS
HP*
*HGD
SINGLE STAGE
HEAT PUMP
2
DEMAND DEFROST
CONTROL
C
24 – Volt Common
Y
Compressor
R
24 – Volt Hot
W1/66(out)
Heat
O
Reversing Valve
Energized in Cool
X/L
Malfunction Light
W
Auxiliary Heat
1
3
S1-2HU16700124
Part Number:
Other Part Numbers:
SAP = Legacy
265901 = 031-09166
2
Part Numbers:
SAP = Legacy
67297 = 031-01975
1
FIGURE 19: Thermostat Chart - Single Stage HP with Single Stage PSC Furnaces
Johnson Controls Unitary Products 13
364861-UIM-B-0708
ACCESSORY CONNECTIONS
The furnace control will allow power-switching control of various accessories.
ELECTRONIC AIR CLEANER CONNECTION
Two 1/4” (0.64 cm) spade terminals (EAC and NEUTRAL) for electronic
air cleaner connections are located on the control board. The terminals
provide 115 VAC (1.0 amp maximum) during circulating blower operation.
HUMIDIFIER CONNECTION
Two 1/4” (0.64 cm) spade terminals (HUM and NEUTRAL) for humidifier connections are located on the control board. The terminals provide
115 VAC (1.0 amp maximum) during heating system operation.
A mounting hole is provided on the control panel next to the furnace
control board for mounting a humidifier transformer if required.
SECTION VI: TWINNING AND STAGING
In applications where more heating capacity or more airflow capacity is
needed than what one furnace can deliver, twinning can be used to
make two furnaces operate in tandem. When two furnaces are installed
using the same duct system, it is very important that the two furnace circulating air blowers operate in unison. If one blower starts before the
second blower, the duct system will become pressurized and the blower
on the second furnace will turn backwards causing the second furnace
to overheat, resulting in damage to the furnace. Twinning is used to
make two furnaces operate in tandem, using one duct system, one
room thermostat and causing both furnaces to turn on and off simultaneously.
Vent Pipe
Electrical
Supply
COMMON
SUPPLY
PLENUM
FIGURE 20: Typical Twinned Furnace Application
When two furnaces are twinned, typical system total airflow will be
approximately 85% of additive individual furnaces, i.e., two 2000
CFM units will yield a total 3400 CFM.
If a return duct is connected to only one furnace (with a connection
between the two furnaces) an imbalance in the airflow will occur
and the furnace furthest from the return plenum will overheat.
Gas Supply
(Both sides)
1 Coil for
Each Furnace
Supply
Air
Before installing the relay and wiring, disconnect electrical power to
both furnaces. Failure to cut power could result in electrical shock
or equipment damage.
The relay must not be installed in any location where it could be
exposed to water. If the relay has been exposed to water in any
way, it must not be used.
TWINNING DUCT SYSTEM
Twinned furnaces must only be applied on a common duct system. A
single air supply plenum must be used for both furnaces and coil(s).
Separate plenums and supply ducts systems cannot be utilized. A single return air plenum, common to both furnaces must be used. It is suggested that a return platform be utilized, with bottom air entrance into
each furnace. If a side entrance returns system is used, the common
return duct must be divided equally so as to supply each furnace with
an equal amount of return air.
Both furnaces must be identical models in both heating capacity and
CFM capacity. Both furnaces must be operated on the same motor
speed tap. See typical application, Figure 20, "Typical T winned Furnace
Application".
If furnace staging is desired with two single stage furnaces on a common duct, where the gas burner on the first furnace operates on W1
and the gas burner on the second furnace operates on W2, then the
use of an air-mixing device in the plenum to mix the air from both furnaces is strongly recommended. The mixing device must be installed
before any ducts that supply air to occupied spaces. Twinning causes
both indoor fans to operate simultaneously. If a mixing device is not
used, any ducts that are connected down stream from the furnace that
operates on W2, will be supplying cold air in the Heating mode to the
occupied spaces unless W2 is energized.
GAS PIPING
Furnace gas supplies must be provided as specified with these instructions. Since the furnaces are side by side, with no space between, gas
supplies must enter on the right and left respectively. All gas piping
must be in accordance with the national fuel gas code, ANSI Z223.1,
latest edition, and/or all local code or utility requirements.
TWINNING
In applications where more heating capacity or more airflow capacity is
needed than what one furnace can deliver, twinning can be used to
make two furnaces operate in tandem, using one duct system and one
room thermostat. When one duct system is used for two furnaces, it is
necessary that the two blowers operate in unison. The twinning function
of the board in this furnace ensures that both blowers turn on and off
simultaneously, and operate on the same blower speed.
Single-Wire Twinning
The control in the furnace has the single-wire twinning feature. With this
feature, a single wire is connected between the TWIN terminal on one
furnace board to the TWIN terminal on the second furnace board. The
board then communicates the blower status from one furnace to the
other along this wire. This communication makes the second furnace
blower come on at the same time, and on the same speed, as the first
furnace blower.
Single-Wire Twinning Instructions
Connect the control wiring as shown in Figure 21, "Single Stage Twinning Wiring Diagram".
1. Connect the low voltage wiring from the wall thermostat to the terminal strip on the control board of Furnace #1.
2. Connect a wire from the TWIN terminal of Furnace #1 to the TWIN
terminal of Furnace #2.
3. Install a separate 24V relay as shown in the diagram below. Use of
this relay is required, as it ensures that the transformers of the two
furnaces are isolated, thus preventing the possibility of any safety
devices being bypassed.
14 Johnson Controls Unitary Products
364861-UIM-B-0708
Single-Wire Twinning Operation
Heating - On a call for heat (W signal) from the wall thermostat, both
furnaces will start the ignition sequence and the burners on both furnaces will light. About thirty seconds after the burners light, the blowers
on both furnaces will come on in heating speed. When the thermostat is
satisfied, the burners will all shut off and, after the selected blower off
delay time, both blowers will shut off at the same time. The twinning
control ensures that both blowers come on and shut off at the same
time.
Cooling - On a call for cooling (Y signal) from the wall thermostat, both
furnace blowers will come on at the same time in cooling speed. When
the thermostat is satisfied, both blowers will stay on for 60 seconds,
then will shut off at the same time.
Continuous Fan - On a thermostat call for continuous fan (G signal),
both furnace blowers will come on at the same time in cooling speed
and will stay on until the G signal is removed.
FURNACE 2
CONTROL BOARD
W
G
C
R
TWIN
Y
TO A/C
FURNACE 1
CONTROL BOARD
W
G
C
TWIN
R
Y
WALL THERMOSTAT
WG
ISOLATION
RELAY
R
Y
FIGURE 21: Single Stage Twinning Wiring Diagram
STAGING
This control can also be used along with a two-stage wall thermostat to
stage two twinned furnaces, making them operate like a single twostage furnace. This allows only one furnace to supply heat during times
when the heat output from one furnace is sufficient to satisfy the
demand. When one duct system is used for two furnaces, it is necessary that the two blowers operate in unison. The twinning function of
this board ensures that both blowers turn on and off simultaneously,
and operate on the same blower speed. Even when only one furnace is
supplying heat, both furnace blowers must run.
Single-Wire Staging
The single-wire twinning feature of this board can also be used for staging of two furnaces. With this feature, a single wire is connected
between the TWIN terminal on one furnace board to the TWIN terminal
on the second furnace board. The board then communicates the blower
status from one furnace to the other along this wire. This communication makes the second furnace blower come on at the same time, and
on the same speed, as the first furnace blower.
Single-Wire Staging Instructions
Connect the control wiring as shown in Figure 22, "Two-Stage Twinning
Wiring Diagram".
1. Connect the low voltage wiring from the wall thermostat to the ter-
minal strip on the control board of Furnace #1. For staging applications, the wire from thermostat W1 is connected to the W
connection on the board on Furnace #1. The wire from thermostat
W2 is connected to Furnace #2 through a separate relay, as
described below.
2. Connect a wire from the TWIN terminal of Furnace #1 to the TWIN
terminal of Furnace #2.
3. Install a separate 24V relay as shown in the diagram below . Use of
this relay is required, as it ensures that the transformers of the two
furnaces are isolated, thus preventing the possibility of any safety
devices being bypassed.
Single-Wire St aging Operation
Heating - On a call for first-stage heat (W1 signal) from the wall thermostat, Furnace #1 will start the ignition sequence and the burners will
light. About thirty seconds after the burners light, the blowers on both
furnaces will come on in heating speed. When the thermostat is satisfied, the burners will shut off and, after the selected blower off delay
time, both blowers will shut off at the same time. On a call for second
stage of heat, the burners of Furnace #2 will also light and both blowers
will run. The twinning control ensures that both blowers come on and
shut off at the same time.
Cooling - On a call for cooling (Y signal) from the wall thermostat, both
furnace blowers will come on at the same time. When the thermostat is
satisfied, both blowers will stay on for 60 seconds, then will shut off at
the same time.
Continuous Fan - On a thermostat call for continuous fan (G signal),
both furnace blowers will come on at the same time in cooling speed
and will stay on until the G signal is removed.
FURNACE 1
CONTROL BOARD
W
G
C
R
TWIN
Y
TO A/C
WALL THERMOSTAT
W1 G
ISOLATION
RELAY
W2
Y
R
FIGURE 22: Two-Stage Twinning Wiring Diagram
FURNACE 2
CONTROL BOARD
W
G
C
R
TWIN
Y
Johnson Controls Unitary Products 15
364861-UIM-B-0708
SECTION VII: CONDENSATE PIPING AND
FURNACE VENTING CONFIGURATION
CONDENSATE DRAIN LOCATION
As shipped from the factory:
• For all 040, 060, & 080K input furnaces the main drain is plumbed
through the casing right-side opening when viewed from the front
of the furnace.
• For all 100, 120, & 130K input furnaces the main drain is plumbed
through the casing left-side opening when viewed from the front
of the furnace.
NOTE: On 130K BTU models, there is no provision for the vent to
exit the top of the cabinet, the vent must always exit one of the
sides.
NOTE: The Figures 23 - 26 show the condensate drain arrangement for the various possible furnace and vent blower positions.
The condensate hoses must slope downwards at all points.
The condensate water will flow to the drain better id a tee with a short,
open end, length of pipe is installed in the drain line. The top of the pipe
should terminate at least to the middle of the condensate pan which is
located inside the furnace.
The furnace condensate pan is self priming and contains an internal trap to prevent flue gas leaking. Do
not install an external condensate trap.
When drain hose routing changes are required (shown in Figures 23-
26), be sure to cap all un-used openings.
If rerouting hoses - excess length should be cut off so that no sagging
loops will collect and hold condensate - which will cause the furnace to
not operate.
No hose clamps are needed for connecting to the condensate pan.
The condensate drain from the furnace may be connected in common with the drain from an air conditioning coil if allowed by local
code.
Condensate must be disposed of properly. Follow local plumbing or
wastewater codes. The drain line must maintain a 1/4" per foot
(0.635 cm per meter) downward slope to the drain.
CONDENSATE DRAIN TERMINATION
A condensate sump pump MUST be used if required by local codes, or
if no indoor floor drain is available. The condensate sump pump must
be approved for use with acidic condensate.
DO NOT terminate condensate drain in a chimney, or where the
drain line may freeze. The line must terminate at an inside drain to
prevent freezing of the condensate and possible property damage.
DO NOT trap the drain line at any other location than at the condensate drain trap supplied with the furnace.
CONDENSATE DRAIN TRAP AND DRAIN FREEZE
PROTECTION
Special precautions MUST be made if installing furnace in an area
which may drop below freezing. This can cause improper operation or
damage to the equipment. If the furnace is installed in an area that has
the potential of freezing, the drain line must be protected. Use a 3 to 6
watt per foot at 115 vac, 40º F (4.4° C) self-regulating, shielded and
waterproof heat tape. Wrap the drain line outside of the furnace with the
heat tape and secure with ties. Follow the heat tape manufacturer's recommendations.
Use only Propylene Glycol (RV anti-freeze) to winterize the furnace.
Refer to the manufacturer’s specification to ensure that it is compatible with plastics and other components of the furnace. DO NOT
use Ethylene Glycol anti-freeze in the furnace.
16 Johnson Controls Unitary Products
364861-UIM-B-0708
Shorten
rain gutter
hose
Re-route and
shorten
pressure
1
switch hose
2
For 040, 060 & 080K input furnaces, the condensate
drain is plumbed toward the right casing outlet from the factory.
RIGHT SIDE VENTING
INDUCER ROTATED FOR
130 K Model does not have provisions for top venting, it must be vented through a side opening.
When drain hose routing changes are required, be sure to cap all un-used openings.
If rerouting hoses - excess length should be cut off so that no sagging loops will collect
and hold condensate, which will cause the furnace to not operate.
Shorten
pressure
switch hose
1
2
Move rain
drain is plumbed toward the left casing outlet from the factory.
For 100, 120 & 130K input furnaces, the condensate
gutter hose
to this position
UPFLOW
AS RECEIVED
(Except for 130K Model)
Condensate drain may exit cabinet on either side.
LEFT SIDE VENTING
INDUCER ROTATED FOR
(As required for 130K model)
FIGURE 23: Upflow Configuration
Johnson Controls Unitary Products 17
364861-UIM-B-0708
AIRFLOW
FOR RIGHT SIDE VENTING
DOWNFLOW - INDUCER ROTATED
When drain hose routing changes are required, be sure to cap all un-used openings.
If rerouting hoses - excess length should be cut off so that no sagging loops will collect
and hold condensate, which will cause the furnace to not operate.
AIRFLOW
Move rain
gutter hose
to this position
Move pressure switch
hose to this position.
1
NOTE: May require
the longer hose that
is provided with
Move rain gutter
2
hose to this position
Move condensate drain
hose to this position
(May exit either side
of the cabinet)
wider cabinets
3
FOR LEFT SIDE VENTING
DOWNFLOW - INDUCER ROTATED
FIGURE 24: Downflow Configuration
18 Johnson Controls Unitary Products
Move rain gutter hose to
1
this position
NOTE: May require hose
extension that is
provided with wider
cabinets
Change condensate
drain connection to
the 90° fitting provided
4
Move
condensate
drain hose to
3
this position
364861-UIM-B-0708
HORIZONTAL - LEFT
(Except for 130K Model)
INDUCER AS RECEIVED
INDUCER ROTATED
HORIZONTAL - LEFT
AIRFLOW
Move pressure switch hose
2
to this position.
NOTE: May require the longer
hose that is provided with
Change condensate drain
connection to the 90° fitting provided
5
Move pressure switch
hose to this position.
NOTE: May require
the longer hose that
is provided with
wider cabinets
2
Move condensate
drain hose to this position
4
Move rain gutter
hose to this position
1
wider cabinets
When drain hose routing changes are required, be sure to cap all un-used openings.
If rerouting hoses - excess length should be cut off so that no sagging loops will collect
and hold condensate, which will cause the furnace to not operate.
Move rain gutter hose to this position
NOTE: May require hose extension
that is provided with wider cabinets
AIRFLOW
FIGURE 25: Horizontal Left Configuration
Johnson Controls Unitary Products 19
3
364861-UIM-B-0708
INDUCER ROTATED
HORIZONTAL - RIGHT
AIRFLOW
Move rain gutter
4
hose to this position
AIRFLOW
Move rain gutter
4
hose to this position
When drain hose routing changes are required, be sure to cap all un-used openings.
If rerouting hoses - excess length should be cut off so that no sagging loops will collect
and hold condensate, which will cause the furnace to not operate.
Move pressure
switch hose to
1
this position.
Move condensate
drain hose to
this position
3
Move pressure
switch hose to
1
HORIZONTAL - RIGHT
this position.
Change condensate drain
2
(Except for 130K Model)
INDUCER AS RECEIVED
Move condensate
drain hose to this position
3
connection to the 90°
fitting provided
Change condensate
drain connection to
the 90° fitting
provided
2
FIGURE 26: Horizontal Right Configuration
20 Johnson Controls Unitary Products
364861-UIM-B-0708
SECTION VIII: COMBUSTION AIR AND
VENT SYSTEM
COMBUSTION AIR AND VENT SAFETY
This Category IV, dual certified direct vent furnace is designed for residential application. It may be installed without modification to the condensate system in a basement, garage, equipment room, alcove, attic
or any other indoor location where all required clearance to combustibles and other restrictions are met. The combustion air and the venting
system must be installed in accordance with Section 5.3, Air for Combustion and Ventilation, of the National Fuel Gas Code Z223.1/NFP A 54
(latest edition), or Sections 7.2, 7.3 or 7.4 of CSA B149.1, National Gas
and Propane Codes (latest edition) or applicable provisions of the local
building code and these instructions.
The “VENT SYSTEM” must be installed as specified in these
instructions for Residential and Non HUD Modular Homes. The
direct vent system is the only configuration that can be installed in a
Non HUD Modular Home.
This furnace may not be common vented with any other appliance,
since it requires separate, properly sized air intake and vent lines.
The furnace shall not be connected to any type of B, BW or L vent
or vent connector, and not connected to any portion of a factorybuilt or masonry chimney
The furnace shall not be connected to a chimney flue serving a separate appliance designed to burn solid fuel.
When combustion air pipe is installed above a suspended ceiling or
when it passes through a warm and humid space, the pipe must be
insulated with 1/2” Armaflex or other heat resistant type insulation if
two feet or more of pipe is exposed.
Vent piping must be insulated if it will be subjected to freezing temperatures such as routing through unheated areas or through an
unused chimney.
COMBUSTION AIR/VENT PIPE SIZING
The size of pipe required will be determined by the furnace model, the
total length of pipe required and the number of elbows required.
Table 7, "Maximum Equivalent Pipe Length" lists the maximum equivalent length of pipe allowed for each model of furnace. The equivalent
length of elbows is shown in Table 9, "Equivalent Length of Fittings".
The equivalent length of the vent system is the total length of straight
pipe PLUS the equivalent length of all of the elbows.
The following rules must also be followed:
1. Long radius (sweep) elbows are recommended. Standard elbows
may be used, but since they have a longer equivalent length, they
will reduce the total length of pipe that will be allowed. Short radius
(plumbing vent) elbows are not allowed. The standard dimensions
of the acceptable elbows are shown below.
2. The maximum equivalent length listed in Table 7, "Maximum
Equivalent Pipe Length" is for the vent piping and the air intake
piping separately. For example, if the table allows 65 equivalent
feet for a particular model, then the vent can have 65 equivalent
feet of pipe, AND the combustion air intake can have another 65
equivalent feet of pipe.
3. Three vent terminal elbows (two for the vent and one for the combustion air intake) are already accounted for and need not be
included in the equivalent length calculation.
4. All combustion air and vent pipe must conform to American
National Standards Institute (ANSI) and American Society for Testing and Materials (ASTM) standards D1785 (Schedule 40 PVC),
D2665 (PVC-DWV), F891 (PVC-DWV Cellular Core), D2261
(ABS-DWV) or F628 (Schedule 40 ABS). Pipe cement and primer
must conform to ASTM Standard D2546 (PVC) or D2235 (ABS). If
ABS pipe is to be used, any joint where ABS pipe is joined to PVC
pipe must be glued with cement that is approved for use with
BOTH materials. Metallic materials must not
be used for venting or
air intake.
5. If a flexible connector is used in the vent system, it must be made
of a material that is resistant to acidic exposure and to at least
225° F temperature. Flexible connectors are also allowed in the
combustion air pipe.
6. All models are supplied with 2" vent connections. When the pipe
must be increased to 3" diameter, the transition from 2" to 3" must
be done as close to the furnace as possible. For upflow models,
the transition from 2" to 3" should be done immediately above the
furnace. For downflow or horizontal models, the transition from 2"
to 3" pipe should be done immediately after exiting the furnace.
7. In Canada, vents shall be certified to ULC S636, Standard for T ype
BH Gas Venting Systems. IPEX System 636 PVC is certified to
this standard.
8. In Canada, the first three feet (900 mm) of the vent must be readily
accessible for inspection.
9. For single pipe systems it is recommended to install the combustion air coupling provided and install approximately 18” of PVC
pipe on the furnace.
10. Minimum vent length for all models is 5 feet.
TABLE 7:
Maximum Equivalent Pipe Length
Model Input
BTUH (kW)
Inches (cm)
Pipe Size
Maximum
Equivalent
length feet (m)
40,000 (11.7) 2 (5.1) 65 (19.8)
40,000 (11.7) 3 (7.6) 90 (27.4)
60,000 (17.6) 2 (5.1) 65 (19.8)
60,000 (17.6) 3 (7.6) 90 (27.4)
80,000 (23.4) 2 (5.1) 65 (19.8)
80,000 (23.4) 3 (7.6) 90 (27.4)
100,000 (29.3) 2 (5.1) 30 (9.2)
100,000 (29.3) 3 (7.6) 90 (27.4)
120,000 (35.1) 2 (5.1) 30 (9.2)
120,000 (35.1) 3 (7.6) 90 (27.4)
130,000 (38.1) 3 (7.6) 85 (25.9)
A
A
STANDARD ELBOW
FIGURE 27:
Dimensions
TABLE 8: Elbow
A
A
LONG (SWEEP) ELBOW
Dimensions
Elbow "A" Dimension
2" Standard 2-5/16"
3" Standard 3-1/16"
2" Sweep 3-1/4"
3" Sweep 4-1/16"
Dimensions are those required in St andard ASTM D-3311.
Johnson Controls Unitary Products 21
364861-UIM-B-0708
TABLE 9:
Example:
An 80,000 BTUH furnace requires 32 feet of pipe and four 90º elbows.
Using 2" pipe and standard elbows, the total equivalent length will be:
This exceeds the 65 foot maximum equivalent length of 2" pipe allowed
for that model and is thus not
By using sweep elbows, the total equivalent length will be:
This is less than the 65 foot maximum equivalent length of 2" pipe
allowed for that model and is thus acceptable.
Alternatively, using 3" pipe and standard elbows, the total equivalent
length will be:
This is less than the 90 foot maximum equivalent length of 3" pipe
allowed for that model and is thus acceptable.
TABLE 10:
Equivalent Length of Fittings
Fitting Equivalent Length
2" 90º sweep elbow 5 feet of 2" pipe
2" 45º sweep elbow 2-1/2 feet of 2" pipe
2" 90º standard elbow 10 feet of 2" pipe
2" 45º standard elbow 5 feet of 2" pipe
3" 90º sweep elbow 5 feet of 3" pipe
3" 45º sweep elbow 2-1/2 feet of 3" pipe
3" 90º standard elbow 10 feet of 3" pipe
3" 45º standard elbow 5 feet of 3" pipe
2" corrugated connector 10 feet of 2" pipe
3" corrugated connector 10 feet of 3" pipe
32 feet of 2" pipe = 32 equivalent feet
4 - 90º standard 2" elbows = (4x10) = 40 equivalent feet
Total = 72 equivalent feet of 2" pipe
acceptable.
32 feet of 2" pipe = 32 equivalent feet
4 - 90º standard 2" elbows = (4x5) = 20 equivalent feet
Total = 52 equivalent feet of 2" pipe
32 feet of 3" pipe = 32 equivalent feet
4 - 90º standard 2" elbows = (4x5) = 40 equivalent feet
Total = 72 equivalent feet of 3" pipe
Combustion Air Intake and Vent Connection Size at Furnace
(All Models)
FURNACE VENT CONNECTION SIZES
Furnace Input
Intake Pipe Size 2” (5.1 cm) 3” (7.6 cm)
Vent Pipe Size 2” (5.1 cm) 2” (5.1 cm)
*. Vent pipe size must be increased to 3” diameter after connection to furnace
on this model.
40 - 100 MBH
(17.5 - 29.3 kW)
120 - 130 MBH
(35.2 - 39.6 kW)
Accessory concentric vent / intake termination kits 1CT0302 and
1CT0303 are available and approved for use with these furnaces.
Horizontal sidewall vent terminations kits 1HT0901 & 1HT0902 are
also approved for use with these furnaces.
Furnace vent pipe connections are sized for 2” (5.1 cm). pipe. Any
pipe size change must be made outside the furnace casing in a vertical pipe section to allow proper drainage of condensate. An offset
using two 45º (degree) elbows will be required for plenum clearance when the vent is increased to 3” (7.6 cm).
COMBUSTION AIR AND VENT PIPING ASSEMBLY
The final assembly procedure for the combustion air and vent piping is
as follows:
1. Cut piping to the proper length beginning at the furnace.
2. Deburr the piping inside and outside.
3. Chamfer (bevel) the outer edges of the piping.
4. Dry-fit the vent piping assembly from the furnace to the outside termination checking for proper fit support and slope.
5. Dry-fit the combustion air piping assembly checking for proper fit,
support and slope on the following systems:
a. Sealed combustion air systems from the furnace to the out-
side termination.
b. Ventilated combustion air systems from the furnace to the
attic or crawl space termination.
Solvent cements are flammable and must be used in well-ventilated
areas only. Keep them away from heat, sparks and open flames.
Do not breathe vapors and avoid contact with skin and eyes.
6. Disassemble the combustion air and vent piping, apply cement
primer and the cement per the manufactures instructions. Primer
and cement must conform to ASTM D2564 for PVC, or ASTM
D2235 for ABS piping.
7. All joints must provide a permanent airtight and watertight seal.
8. Support the combustion air and vent piping such that it is angled a
minimum of 1/4” per foot (21 mm/m) so that condensate will flow
back towards the furnace. Piping should be supported with pipe
hangers to prevent sagging.
9. Seal around the openings where the combustion air and / or vent
piping pass through the roof or sidewalls.
COMBUSTION AIR / VENTING
The vent must be installed with the minimum required clearances,
and must comply with local codes and requirements.
22 Johnson Controls Unitary Products
VENT CLEARANCES
D
E
V
B
V
L
FIGURE 28: Home Layout
FIXED
CLOSED
C
V
V
F
B
A
B
V
B
G
V
B
B
V
X
V
J
OPERABLE
364861-UIM-B-0708
V
VENT TERMINAL
H
I
X
M
V
K
FIXED
CLOSED
X
AIR SUPPLY
AREA WHERE TERMINAL IS NOT PERMITTED
Direct Vent Terminal Clearances
A. Clearance above grade, veranda, porch, deck, or
balcony
B. Clearance to window or door that may be opened
Canadian Installations
1,3
US Installation
12 inches (30 cm) 12 inches (30 cm)
12 inches (30 cm) for models ≤100,000 BTUH (30 kW),
36 inches (91 cm) for models >100,000 BTUH (30 kW)
Two-pipe (direct vent) applic ations: 9 inches (23 cm)
for models ≤50,000 BTUH (15 kW), 12 inches (30 cm)
for models >50,000 BTUH (15 kW). ††
Single-pipe applications: 4 feet
2,3
C. Clearance to permanently closed window 12 inches (30 cm) 12 inches (30 cm)
D. Vertical clearance to ventilated soffit located
above the terminal within a horizontal distance
of 2 feet (61 cm) from the center line of the terminal
E. Clearance to unventilated soffit
F. Clearance to outside corner
12 inches (30 cm) or in accordance with local
installation codes and the requirements of the gas
supplier.
12 inches (30 cm) or in accordance with local
installation codes and the requirements of the gas
supplier
12 inches (30 cm) or in accordance with local
installation codes and the requirements of the gas
supplier
12 inches (30 cm) or in accordance with local
installation codes and the requirements of th e gas supplier
12 inches (30 cm) or in accordance with local
installation codes and the requirements of the gas
supplier
12 inches (30 cm) or in accordance with local
installation codes and the requirements of the gas
supplier
G. Clearance to inside corner 3 feet (91 cm) 3 feet (91 cm)
H. Clearance to each side of center line
extended above meter/regulator assembly
horizontally of the vertical center-line of the regulator
vent outlet to a maximum vertical distance of 15 feet
(4.5 cm) above the meter/regulator assembly.
I. Clearance to service regulator vent outlet 3 feet (91 cm)
Above a meter/regulator assembly within 3 feet (91 cm)
J. Clearance to nonmechanical air supply inlet to
building or the combustion air inlet to any other
appliance
12 inches (30 cm) for models ≤100,000 BTUH (30 kW),
36 inches (91 cm) for models >100,000 BTUH (30 kW)
K. Clearance to a mechanical supply inlet 6 feet (1.83 m)
L. Clearance above paved sidewalk or paved
driveway located on public property
7 feet (2.13 m)†
M. Clearance under veranda, porch, deck, or balcony 12 inches (30 cm)‡
1. In accordance with the current CSA B149.1-00, Natural Gas and Propane Installation Code.
2. In accordance with the current ANSI Z223.1 / NFPA 54, National Gas Code.
3. In accordance with the current ANSI Z21.47 * CSA 2.3 American National Standard.
Above a meter/regulator assembly within 3 feet (91
cm) horizontally of the vertical center-line of the regulator vent outlet to a maximum vertical distance of 15
feet (4.5 cm) above the meter/regulator assembly.
3 feet (91 cm) or in accordance with local installation
codes and the requirements of the gas supplier.
Two-pipe (direct vent) applic ations: 9 inches (23 cm)
for models ≤50,000 BTUH (15 kW), 12 inches (30 cm)
for models >50,000 BTUH (15 kW).
Single-pipe applications: 4 feet
3 feet (91 cm) above if within 10 feet (3 cm)
horizontally
7 feet (2.13 m) or in accordance with local installation
codes and the requirements of the gas supplier.
12 inches (30 cm) or in accordance with local installation codes and the requirements of the gas supplier
.
† A vent shall not terminate directly above a sidewalk or paved driveway that is located between two single family dwellings and serves both dwellings.
†† 12 inches (30 cm) up from the bottom edge of the structure for Two-pipe (direct vent) applications per ANSI Z223.1 / NFPA 54, National Gas Code.
‡ Permitted only if veranda, porch, deck, or balcony is fully open on a minimum of two sides beneath the floor and the distance between the top of the vent termination and the underside of the veranda, porch, or deck is greater tha n 1 foot (30 cm) as specified in CSA B149.1-00.
A vent shall not terminate less than 1 foot (30 cm) above a grade level.
Any fresh air or make up inlet for dryer or furnace area is considered to be forced air inlet.
Avoid areas where condensate drippage may cause problems such as above planters, patios, or adjacent to windows where steam may cause fogging.
A terminus of a vent shall be fitted with a cap in accordance with the vent manufacturer’s installation instructions, or in accordance with the installation instructions for a
special venting system.
Responsibility for the provision of proper adequate venting and air supply for application shall rest with the installer.
Vent shall extend high enough above building, or a neighboring obstruction, so that wind from any direction will not create a positive pressure in the vicinity of the vent.
Consideration must be given for degradation of building materials by flue gases. S idewall terminat ion may require sealing or shielding of building surfaces with a corrosion resistant material to protect against combustion product corrosion. Consideration must be given to wind direction in order to pr event flue products and/or condensate from being blown against the building surfaces. If a metal shield is used it must be a stainless steel material at a minimum dimension of 20 inches. It is
recommended that a retaining type collar be used that is att ached to the building surface to prevent movement of the vent pipe.
Johnson Controls Unitary Products 23
364861-UIM-B-0708
MIN.
6”
VENT SYSTEM
This furnace is certified to be installed with one of two possible vent
configurations.
1. Horizontal vent system. This vent system can be installed completely horizontal or combinations of horizontal, vertical, or offset
using elbows.
2. Vertical vent system. This vent system can be installed completely
vertical or a combination of horizontal, vertical, or offset using
elbows.
VENT APPLICATIONS AND TERMINATION
When selecting the location for a combustion air / vent termination, the
following should be considered:
1. Observe all clearances listed in vent clearances in these instructions.
2. Termin ation should be positione d where vent vapor s will not damage plants or shrubs or air conditioning equipment.
3. Termination should be located where it will not be affected by wind
gusts, light snow, airborne leaves or allow recirculation of flue
gases.
4. Termination should be located where it will not be damaged or
exposed to flying stones, balls, etc.
5. Termination should be positioned where vent vapors are not objectionable.
6. Horizontal portions of the vent system must slope upwards and be
supported to prevent sagging.
7. Direct vent systems must be installed so the vent and the combustion air pipes terminate in the same atmospheric zone. Refer to
Figures 13 or 14.
Maintain 12” minimum clearance
above highest anticipated snow level.
Maximum 24” above roof.
12” Min.
12” Min.
12” MIN.
12” Minimum
12” MIN.
OVERHANG
below overhang
12” Minimum
separation between
bottom of
combustion air
intake and
bottom of vent
Maintain 12”
minimumclearance
above highest
anticipated snow
level or grade,
whichever is higher
FIGURE 31: Termination Configuration - 2 Pipe Basement
VENTING MULTIPLE UNITS
Multiple units can be installed in a space or structure as either a single
pipe configuration or a two-pipe configuration.
The combustion air side of the single pipe configuration shown in Figure
29 is referred to in these instructions as ambient combustion air supply.
Follow the instructions for ambient combustion air installations, paying
particular attention to the section on air source from inside the building.
The vent for a single pipe system must be installed as specified in the
venting section of these instructions with the vent terminating as shown
in Figure 29. Each furnace must have a separate vent pipe. Under NO
circumstances can the two vent pipes be tied together.
The combustion air side of the two-pipe configuration shown in Figure
30 can be installed so the combustion air pipe terminates as described
in outdoor combustion air or ventilated combustion air sections in these
instructions. Follow the instructions for outdoor combustion air or ventilated combustion air and the instructions for installing the vent system
with the vent terminating as shown in Figures 32 or 33. The two-pipe
system must have a separate combustion air pipe and a separate vent
pipe for each furnace. Under NO circumstances can the two combustion air or vent pipes be tied together. The combustion air and vent
pipes must terminate in the same atmospheric zone.
VENT
FIGURE 29: Termination Configuration - 1 Pipe
12” vertical separation
Maintain 12” minimum
clearance above
highest anticipated
snow level.
FIGURE 30: Termination Configuration - 2 Pipe
between combustion air
intake and vent.
12” minimum
below overhang
12” minimum
separation between
bottom of
combustion air pipe
and bottom of vent.
Maintain 12”
minimum clearance
above highest
anticipated snow
level or grade,
whichever is higher.
FIGURE 32: Double Horizontal Combustion Air Intake and Vent
FIGURE 33: Double Vertical Combustion Air Intake and Vent
COMBUSTION AIR
Termination
2”
MIN.
Termination
24 Johnson Controls Unitary Products
364861-UIM-B-0708
COMBUSTION AIR SUPPLY
All installations must comply with Section 5.3, Air for Combustion and
Ventilation of the National Fuel Gas Code, ANSI Z223.1 or Sections
7.2, 7.3 or 7.4 of CAN/CGA B149.1 or .2 Installation Code - latest editions.
This furnace is certified to be installed with one of three possible combustion air intake configurations.
1. OUTDOOR COMBUSTION AIR:
where the combustion air is supplied through a PVC or ABS pipe
that is connected to the PVC coupling attached to the furnace and
is terminated in the same atmospheric zone as the vent. This type
of installation is approved on all models. Refer to Figure 36.
2. AMBIENT COMBUSTION AIR:
the area surrounding the furnace through openings in the furnace
casing. The combustion air and the vent pipes are not terminated
in the same atmospheric zone. Refer to Figure 21 for vent terminations. Refer to "Ambient Combustion Air Supply" for proper installation. Refer to Figure 36.
3. VENTILATED COMBUSTION AIR:
through a PVC or ABS pipe that is connected to the PVC coupling
attached to the burner box and is terminated in a ventilated attic or
crawl space. The combustion air and the vent pipes are not terminated in the same atmospheric zone. Refer to Figure 37 for attic
and crawl space termination. Only the combustion air intake may
terminate in the attic. The vent must terminate outside.
This is a direct vent configuration
Combustion air is supplied from
Combustion air is supplied
Outdoor Combustion Air
Combustion Air Intake/Vent Connections
This installation requires combustion air to be brought in from outdoors.
This requires a properly sized pipe (Shown in Figure 30) that will bring
air in from the outdoors to the furnace combustion air intake collar on
the burner box. The second pipe (Shown in Figure 30) is the furnace
vent pipe.
Connects to
collar on top
of burner box
Vent pipe cements
into socket just
above top panel
Or vent pipe may be
clamped into outlet
of drain coupling
FIGURE 34: Direct Vent Air Intake Connection and Vent Connection
The combustion air intake pipe should be located either through the
wall (horizontal or side vent) or through the roof (vertical vent). Care
should be taken to locate side vented systems where trees or shrubs
will not block or restrict supply air from entering the terminal.
Also, the terminal assembly should be located as far as possible from a
swimming pool or a location where swimming pool chemicals might be
stored. Be sure the terminal assembly follows the outdoor clearances
listed in Section #1 “Outdoor Air Contaminants.”
Ambient Combustion Air Supply
This type installation will draw the air required for combustion from
within the space surrounding the appliance and from areas or rooms
adjacent to the space surrounding the appliance. This may be from
within the space in a non-confined location or it may be brought into the
furnace area from outdoors through permanent openings or ducts. It is
not piped directly into the furnace. A single, properly sized pipe from the
furnace vent connector to the outdoors must be provided. It is recommended that the supplied intake coupling & 18” of pipe be attached to
the furnace to prevent accidental blockage of the combustion air intake.
COMBUSTION AIR
Vent pipe cements
into socket just
above top panel
Or vent pipe may be
clamped into outlet
of drain coupling
FIGURE 35: Combustion Airflow Path Through The Furnace Casing
This type of installation requires that the supply air to the appliance(s) be of a sufficient amount to support all of the appliance(s)
in the area. Operation of a mechanical exhaust, such as an exhaust
fan, kitchen ventilation system, clothes dryer or fireplace may create conditions requiring special attention to avoid unsatisfactory
operation of gas appliances. A venting problem or a lack of supply
air will result in a hazardous condition, which can cause the appliance to soot and generate dangerous levels of CARBON MONOXIDE, which can lead to serious injury, property damage and / or
death.
3
An unconfined space is not less than 50 cu.ft (1.42 m
hr (0.2928 kW) input rating for all of the appliances installed in that
area.
Rooms communicating directly with the space containing the appliances are considered part of the unconfined space, if doors are furnished with openings or louvers.
A confined space is an area with less than 50 cu.ft (1.42 m
Btu/hr (0.2928 kW) input rating for all of the appliances installed in that
area. The following must be considered to obtain proper air for combustion and ventilation in confined spaces.
) per 1,000 Btu/
3
) per 1,000
Combustion Air Source From Outdoors
The blocking effects of louvers, grilles and screens must be given consideration in calculating free area. If the free area of a specific louver or
grille is not known, refer to Table 11, to estimate free area.
Table 11: Estimated Free Area
Wood or Metal
Louvers or Grilles
Screens+
* Do not use less than 1/4”(0.635 cm) mesh
+ Free area of louvers and grille varies widely; the installer should follow
louver or grille manufacturer’s instructions.
Wood 20-25%*
Metal 60-70% *
1/4” (0.635 cm)
mesh or larger 100%
Dampers, Louvers and Grilles (Canada Only)
1. The free area of a supply air opening shall be calculated by subtracting the blockage area of all fixed louvers grilles or screens
from the gross area of the opening.
2. Apertures in a fixed louver, a grille, or screen shall have no dimension smaller than 0.25” (0.64 cm).
3. A manually operated damper or manually adjustable louvers are
not permitted for use.
4. A automatically operated damper or automatically adjustable louvers shall be interlocked so that the main burner cannot operate
unless either the damper or the louver is in the fully open position.
Johnson Controls Unitary Products 25
364861-UIM-B-0708
When a Category I furnace is removed or replaced, the original
venting system may no longer be correctly sized to properly vent
the attached appliances.
An improperly sized vent system can cause CARBON MONOXIDE
to spill into the living space causing personal injury, and or death.
Table 12: Unconfined Space Minimum Area in Square Inch
BTUH Input Rating
40,000
60,000
80,000
100,000
120,000
130,000
Minimum Free Area in Square Feet
Required for Each Opening
2
40 (258 cm
60 (387 cm
80 (516 cm
100 (645 cm
120 (742 cm
130 (838 cm
)
2
)
2
)
2
)
2
)
2
)
Table 13: Free Area
Minimum Free Area Required for Each Opening
BTUH Input
Rating
40,000
60,000
80,000
100,000
120,000
130,000
Horizontal Duct
(2,000 BTUH)
2
(129 cm2) 10 in2 (64 cm2)
20 in
2
(193 cm2) 15 in2 (97 cm2)
30 in
2
40 in
(258 cm2) 20 in2 (129 cm2)
2
(322 cm2) 25 in2 (161 cm2)
50 in
2
(387 cm2) 30 in2 (193 cm2)
60 in
2
(419 cm2) 33 in2 (213 cm2)
65 in
Vertical Duct or
Opening to Outside
(4,000 BTUH)
Round Duct
(4,000 BTUH)
4” (10 cm)
5” (13 cm)
5” (13 cm)
6” (15 cm)
7” (18 cm)
7” (18 cm)
EXAMPLE: Determining Free Area.
Appliance 1 Appliance 2 Total Input
100,000 + 30,000 = (130,000 ÷ 4,000) = 32.5 Sq. In. Vertical
Appliance 1 Appliance 2 Total Input
100,000 + 30,000 = (130,000 ÷ 2,000) = 65 Sq. In. Horizontal
Gas
Attic
Vent
Furnace
Soffit
Vent
Inlet
Air (b)
Gable
Vent
Ventilated
Attic
Top Above
Insulation
Gas
Water
Heater
Soffit
Vent
Gable
Vent
Optional
Inlet (a)
Ventilated
Top Above
Insulation
Outlet
Air (a)
Gas
Water
Heater
Ventilated
Crawl Space
FIGURE 36: Outside and Ambient Combustion Air
Air Supply Openings and Ducts
1. An opening may be used in lieu of a duct to provide to provide the
outside air supply to an appliance unless otherwise permitted by
the authority having jurisdiction. The opening shall be located
within 12” (30.5 cm) horizontally from, the burner level of the appliance. Refer to “AIR SOURCE FROM OUTDOORS AND VENT
AND SUPPLY AIR SAFETY CHECK” in these instructions for
additional information and safety check procedure.
2. The duct shall be either metal, or a material meeting the class 1
requirements of CAN4-S110 Standard for Air Ducts.
3. The duct shall be least the same cross-sectional area as the free
area of the air supply inlet opening to which it connects.
4. The duct shall terminate within 12 in (30.5 cm) above, and within
24 in (61 cm) horizontally from, the burner level of the appliance
having the largest input.
5. A square or rectangular shaped duct shall only be used when the
required free area of the supply opening is 9 in
larger. When a square or rectangular duct is used, its small dimension shall not be less than 3 in (7.6 cm).
6. An air inlet supply from outdoors shall be equipped with a means
to prevent the direct entry of rain and wind. Such means shall not
reduce the required free area of the air supply opening.
2
(58.06 cm2) or
Gas
Vent
Furnace
Inlet
Air (a)
Outlet
Air (b)
Inlet
Air (b)
Gas
Water
Heater
Gas
Vent
Furnace
Outlet
Air (a)
Inlet
Air (a)
7. An air supply inlet opening from the outdoors shall be located not
less than 12” (30.5 cm) above the outside grade level.
Combustion Air Source from Outdoors
1. Two permanent openings, one within 12 in (30.5 mm) of the top
and one within 12 in (30.5 mm) of bottom of the confined space,
Two permanent openings, shall communicate directly or by means
of ducts with the outdoors, crawl spaces or attic spaces.
2. One permanent openings, commencing within 12 in (30.5 mm) of
the top of the enclosure shall be permitted where the equipment
has clearances of at least 1 in (2.54 cm) from the sides and back
and 6 in (15.24 cm) from the front of the appliance. The opening
shall communicate directly with the outdoors and shall have a minimum free area of:
a. 1 square in per 3000 Btu per hour (6.45 cm3 per 0.879 kW) of
the total input rating of all equipment located in the enclosure.
b. Not less than the sum of all vent connectors in the confined
space.
3. The duct shall be least the same cross-sectional area as the free
area of the air supply inlet opening to which it connects.
4. The blocking effects of louvers, grilles and screens must be given
consideration in calculating free area. If the free area of a specific
louver or grille is not known. Refer to Table 11, "Estimated Free
Area".
26 Johnson Controls Unitary Products
364861-UIM-B-0708
Ventilated Combustion Air
The ventilated attic space or a crawl space from which the combustion
air is taken must comply with the requirements specified in “AIR
SOURCE FROM OUTDOORS” in this instruction or in Section 5.3, Air
for Combustion and Ventilation of the National Fuel Gas Code, ANSI
Z223.1 (latest edition). This type installation requires two properly sized
pipes. One brings combustion air from a properly ventilated attic space
or crawl space and a second pipe that extends from the furnace vent
connection (top right of unit) to the exterior of the building. Refer to
Table 7, "Maximum Equivalent Pipe Length" for intake pipe sizing,
allowable length and elbow usage. Follow all notes, procedures and
required materials in the "COMBUSTION AIR/VENT PIPE SIZING" section in these instructions when installing the combustion air pipe from
the unit and into a ventilated attic space or crawl space. DO NOT terminate vent pipe in an Attic or Crawl Space.
CARBON MONOXIDE POISONING HAZARD
Failure to follow the steps outlined below for each appliance connected to the venting system being placed into operation could result in carbonmonxide poisoning or death.
The following steps shall be followed for each appliance connected to the venting system being placed into operation, while all other appliances
connected to the venting system are not in operation:
1. Inspect the venting system for proper size and horizontal pitch. Determine that there is no blockage, restriction, leakage, corrosion or other
deficiencies, which could cause an unsafe condition
2. Close all building doors and windows and all doors.
3. Turn on clothes dryers and TURN ON any exhaust fans, such as range hoods and bathroom exhausts, so they shall operate at maximum
speed. Open the fireplace dampers. Do not operate a summer exhaust fan.
4. Follow the lighting instructions. Place the appliance being inspected in operation. Adjust thermostat so the appliance shall operate continuously.
5. Test each appliance (such as a water heater) equipped with a draft hood for spillage (down-draft or no draft) at the draft hood relief opening
after 5 minutes of main burner operation. Appliances that do not have draft hoods need to be checked at the vent pipe as close to the
appliance as possible. Use a combustion analyzer to check the CO2 and CO levels of each appliance. Use a draft gauge to check for a
downdraft or inadequate draft condition.
6. After it has been determined that each appliance properly vents when tested as outlined above, return doors, windows, exhaust fans, fireplace dampers and any other gas burning appliance to their normal condition.
7. If improper venting is observed during any of the above tests, a problem exists with either the venting system or the appliance does not
have enough combustion air (Supply Air from outside) to complete combustion. This condition must be corrected before the appliance can
function safely.
NOTE: An unsafe condition exists when the CO reading exceeds 40 ppm and the draft reading is not in excess of - 0.1 in. W.C. (-25 kPa) with
all of the appliance(s) operating at the same time.
8. Any corrections to the venting system and / or to the supply (outside) air system must be in accordance with the National Fue l Gas Code
Z223.1 or CAN/CGA B149.1 Natural Gas and Propane Installation Code (latest editions). If the vent system must be resized, follow the
appropriate tables in Appendix G of the above codes or for this appliance.
Ventilated Combustion Air Termination
Refer to Figure 37, "Attic and Crawl Space Combustion Air Termination"
for required attic termination for the combustion air intake pipe. For attic
termination, use two 90 elbows with the open end in a downward position. Be sure to maintain 12” (30 cm) clearance above any insulation,
flooring or other material.
A crawl space combustion air installation consists of a straight pipe from
the PVC coupling on the burner box that extends into the crawl space
and terminates with a 1/4” (6.35 mm) mesh screen and no elbows.
Specially Engineered Installations
12” minimum
between bottom
of air intake and
any material below.
12” Min.
The above requirements shall be permitted to be waived where special
engineering, approved by the authority having jurisdiction, provides an
adequate supply of air for combustion and ventilation.
Be sure to instruct the owner not to block this intake pipe.
VENT BLOWER ROTATION
For ease of venting, the vent blower may be rotated 90° in either direction. For upflow installations the vent may exit through the top or either
side of the cabinet. For downflow installations, the vent blower must be
rotated so that the vent exits through either side of the cabinet. See Figures 23-26 for details.
FIGURE 37: Attic and Crawl Space Combustion Air Termination
Johnson Controls Unitary Products 27
364861-UIM-B-0708
SECTION IX: START-UP AND
ADJUSTMENTS
The initial start-up of the furnace requires the following additional
procedures:
All electrical connections made in the field and in the factory should
be checked for proper tightness.
When the gas supply is initially connected to the furnace, the gas piping
may be full of air. In order to purge this air, it is recommended that the
ground union be loosened until the odor of gas is detected. When gas is
detected, immediately retighten the union and check for leaks. Allow
five minutes for any gas to dissipate before continuing with the start-up
procedure. Be sure proper ventilation is available to dilute and carry
away any vented gas.
GAS PIPING LEAK CHECK
FIRE OR EXPLOSION HAZARD
Failure to follow the safety warnings exactly could result in serious
injury, death or property damage.
Never test for gas leaks with an open flame. Use a commercially
available soap solution made specifically for the detection of leaks
to check all connections. A fire or explosion may result causing
property damage, personal injury or loss of life.
Burner ignition may not be satisfactory on first startup due to residual air in the gas line or until gas manifold pressure is adjusted. The
ignition control will make three attempts to light before locking out.
It is recommended that when the gas supply is first connected to the
furnace, the ground union be loosened until the odor of gas is detected.
When gas is detected, immediately tighten the union and check for gas
leaks. Allow five minutes for any gas to dissipate before continuing with
the startup procedure. Be sure that proper ventilation is available to
dilute and carry away any vented gas.
With furnace in operation, check all of the pipe joints, gas valve connections and manual valve connections for leakage using an approved gas
detector, a non-corrosive leak detection fluid or other leak detection
methods. Take a ppropriate action to stop any leak. If a leak persists,
replace the faulty component.
The furnace and its equipment shutoff valve must be disconnected from
the gas supply during any pressure testing of that system at test pressures in excess of 1/2 PSI (3.45 kPa).
The furnace must be isolated from the gas supply piping system by
closing the equipment shutoff valve during any pressure testing of the
gas supply system.
IGNITION SYSTEM SEQUENCE
1. Turn the gas supply ON at external valve and main gas valve.
2. Set the thermostat above room temperature to call for heat.
3. System start-up will occur as follows:
a. The induced draft blower motor will start and come up to
speed. Shortly after inducer start-up, the hot surface igniter
will glow for about 17 seconds.
b. After this warm up, the ignition module will energize (open)
the main gas valve.
c. After flame is established, the supply air blower will start in
about 30 seconds.
CALCULATING THE FURNACE INPUT
(NATURAL GAS)
Burner orifices are sized to provide proper input rate using natural gas
with a heating value of 1030 BTU/Ft
of your gas is significantly different, it may be necessary to replace the
orifices.
NOTE: DO NOT set manifold pressure less than 3.2 in wc or more than
3.8 in wc for natural gas at sea level. If manifold pressure is outside this
range, change main burner orifices.
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.
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.
Verify natural gas input rate by clocking meter.
1. Turn off all other gas appliances and pilots.
2. Run furnace for a minimum of 3 minutes in heating operation.
3. Measure time (in sec) for gas meter to complete 1 revolution and
note reading. The 2 cubic feet dial provides a more accurate measurement of gas flow.
4. Refer to Table 9 for cubic feet of gas per hour.
5. Multiply cubic feet per hour by heating valve (BTU/cu ft) to obtain
input.
If clocked rate does not match the input rate from the unit nameplate.
follow steps in next section to adjust the manifold pressure. Repeat
steps 2 - 5 until correct input is achieved.
Be sure to relight any gas appliances that were turned off at the
start of this input check.
3
(38.4 MJ/m3). If the heating value
28 Johnson Controls Unitary Products
Table 14: Gas Rate (CU FT/HR) at Full Input
Seconds For
1 Revolution
10 360 720 1800 55 65 131 327
11 327 655 1636 56 64 129 321
12 300 600 1500 57 63 126 316
13 277 555 1385 58 62 124 310
14 257 514 1286 59 61 122 305
15 240 480 1200 60 60 120 300
16 225 450 1125 62 58 116 290
17 212 424 1059 64 56 112 281
18 200 400 1000 66 54 109 273
19 189 379 947 68 53 106 265
20 180 360 900 70 51 103 257
21 171 343 857 72 50 100 250
22 164 327 818 74 48 97 243
23 157 313 783 76 47 95 237
24 150 300 750 78 46 92 231
25 144 288 720 80 45 90 225
26 138 277 692 82 44 88 220
27 133 267 667 84 43 86 214
28 129 257 643 86 42 84 209
29 124 248 621 88 41 82 205
30 120 240 600 90 40 80 200
31 116 232 581 92 39 78 196
32 113 225 563 94 38 76 192
33 109 218 545 96 38 75 188
34 106 212 529 98 37 74 184
35 103 206 514 100 36 72 180
36 100 200 500 102 35 71 178
37 97 195 486 104 35 69 173
38 95 189 474 106 34 68 170
39 92 185 462 108 33 67 167
40 90 180 450 110 33 65 164
41 88 176 439 112 32 64 161
42 86 172 429 116 31 62 155
43 84 167 419 120 30 60 150
44 82 164 409 124 29 58 145
45 80 160 400 128 28 56 141
46 78 157 391 133 27 54 135
47 76 153 383 138 26 52 130
48 75 150 375 144 25 50 125
49 73 147 367 150 24 48 120
50 72 144 360 157 23 46 115
51 71 141 355 164 22 44 110
52 69 138 346 171 21 42 105
53 68 136 340 180 20 40 100
54 67 133 333
1 Cu Ft 2 Cu Ft 5 Cu Ft 1 Cu Ft 2 Cu Ft 5 Cu Ft
Size of Test Dial
Seconds For
1 Revolution
364861-UIM-B-0708
Size of Test Dial
Johnson Controls Unitary Products 29
364861-UIM-B-0708
R
ADJUSTMENT OF MANIFOLD GAS PRESSURE &
INPUT RATE
Inlet and manifold gas pressure may be measured by connecting the
“U” tube manometer to the gas valve with a piece of tubing. Follow the
appropriate section in the instructions below. Refer to Figure 38, "Gas
Valve" for a drawing of the locations of the pressure ports on the gas
valve.
T urn gas off at the ball valve or gas cock on gas supply line
before the gas valve. Find the pressure ports on the gas
valve marked Out P and In P.
1. The manifold pressure must be taken at the port marked OUT P.
2. The gas line pressure must be taken at the port marked IN P.
3. Using a 3/32” (2.4 mm) Allen wrench, loosen the set screw by turning it 1 turn counter clockwise. DO NOT REMOVE THE SET
SCREW FROM THE PRESSURE PORT.
Read the inlet gas pressure
Connect the positive side of the manometer to the IN P Tap on the gas
valve. Do not connect any tubing to the negative side of the manometer,
as it will reference atmospheric pressure. Refer to Figure 39, "Reading
Gas Pressure" for connection details.
1. Turn gas and electrical supplies on and follow the operating
instructions to place the unit back in operation.
Table 15: Inlet Gas Pressure Range
INLET GAS PRESSURE RANGE
Natural Gas Propane (LP)
Minimum 4.5” W.C. (1.12 kPa) 8.0” W.C. (1.99 kPa)
Maximum 10.5” W.C. (2.61 kPa) 13.0” (3.24 kPa) W.C.
NOTE: The regulated outlet pressure has been calibrated at the factory.
Additional pressure adjustment should not be necessary. If adjustment
is necessary, set to the following specifications. After adjustment, check
for gas leakage.
1. Refer to Figure 38, "Gas Valve" for location of pressure regulator
adjustment cap and adjustment screws on main gas valve.
2. Turn gas and electrical supplies on and follow the operating
instructions to place the unit back in operation.
3. Adjust manifold pressure by adjusting gas valve regulator screw
for the appropriate gas per the following:
Table 16: Nominal Manifold Pressure
NOMINAL MANIFOLD PRESSURE
Natural Gas 3.5" w.c. (0.87 kPa)
Propane (LP) Gas 10.0" w.c. (2.488 kPa)
OUTLET
PRESSURE
PORT
INLET
WRENCH
BOSS
INLET
PRESSURE
PORT
OFF
ON
ON/OFF SWITCH
(Shown in ON position)
VENT PORT
OUTLET
MAIN REGULATO
ADJUSTMENT
FIGURE 38: Gas Valve
The inlet gas pressure operating range table specifies what the
minimum and maximum gas line pressures must be for the furnace
to operate safely. The gas line pressure MUST BE
a minimum of:
• 7” W.C. (1.74 kPA) for Natural Gas
• 11” W.C. (2.74 kPA) for Propane (LP) Gas
in order to obtain the BTU input specified on the rating plate and/or
the nominal manifold pressure specified in these instructions and
on the rating plate.
2. Once the correct gas inlet pressure has been established, see
Ta ble 15, "Inlet Gas Pressure Range", turn the gas valve to OFF
and turn the electrical supply switch to OFF; then remove the flexible tubing from the gas valve pressure tap and tighten the pressure tap plug using the 3/32” (2.4 mm) allen wrench.
3. Turn the electrical and gas supplies back on, and with the burners
in operation, check for gas leakage around the gas valve pressure
port for leakage using an approved non-corrosive gas leak detection fluid, or other non-flammable leak detection methods.
Read the manifold gas pressure
Connect the positive side of the manometer to the adapter previously
installed in the OUT P Tap on the gas valve. Do not connect any tubing
to the negative side of the manometer, as it will reference atmospheric
pressure. Refer to Figure 39, "Reading Gas Pressure" for connection
details.
The cap for the pressure regulator must be removed entirely to gain
access to the adjustment screw. Loosening or tightening the cap
does not adjust the flow of gas.
If gas valve regulator is turned in (clockwise), manifold pressure is
increased. If screw is turned out (counterclockwise), manifold pressure will decrease.
4. After the manifold pressure has been adjusted, re-calculate the
furnace input to make sure you have not exceeded the specified
input on the rating plate. Refer to “CALCULATING THE FURNACE
INPUT (NATURAL GAS)”.
5. Once the correct BTU (kW) input has been established, turn the
gas valve to OFF and turn the electrical supply switch to OFF; then
remove the flexible tubing from the gas valve pressure tap and
tighten the pressure tap plug using the 3/32” (2.4 mm) Allen
wrench.
6. Turn the electrical and gas supplies back on, and with the burners
in operation, check for gas leakage around the gas valve pressure
port for leakage using an approved non-corrosive gas leak detection fluid, or other non-flammable leak detection methods.
MANIFOLD PRESSURE “U” TUBE CONNECTION
OUTLET
PRESSURE TAP
FLAME
SENSOR
GAS
BURNERS
GAS VALVE
1/4” TUBING
U-TUBE
MANOMETER
MAINIFOLD
PIPE
3.5 IN
WATER
COLUMN
GAS
PRESSURE
SHOWN
FIGURE 39: Reading Gas Pressure
30 Johnson Controls Unitary Products
364861-UIM-B-0708
ADJUSTMENT OF TEMPERATURE RISE
The temperature rise, or temperature difference between the return
air and the supply (heated) air from the furnace, must be within the
range shown on the furnace rating plate and within the application
limitations shown in Table 6, "Ratings & Physical / Electrical Data".
The supply air temperature cannot exceed the “Maximum Supply
Air Temperature” specified in these instructions and on the furnace rating plate. Under NO circumstances can the furnace be
allowed to operate above the Maximum Supply Air Temperature.
Operating the furnace above the Maximum Supply Air Temperature
will cause premature heat exchanger failure, high levels of Carbon
Monoxide, a fire hazard, personal injury, property damage, and/or
death.
After about 5 minutes of operation, determine the furnace temperature
rise. Take readings of both the return air and the heated air in the ducts,
about six feet (1.83 m) from the furnace where they will not be affected
by radiant heat. Increase the blower speed to decrease the temperature
rise; decrease the blower speed to increase the rise.
TWIN
Blower Off Delay Timer
Adjustment Jumper
(in seconds)
Y/Y2
W
R
G
C
180
All direct-drive blowers have multi-speed motors. The blower motor
speed taps are located on the furnace control board in the blower compartment. Refer to Figure 40, "Furnace Control Board", and the unit-wiring label to change the blower speed. To use the same speed tap for
heating and cooling, the heat terminal and cool terminal must be connected using a jumper wire and connected to the desired motor lead.
Place all unused motor leads on Park terminals. Two park terminals are
provided.
Do not energize more than one motor speed at a time or damage to
the motor will result.
ADJUSTMENT OF FAN CONTROL SETTINGS
This furnace is equipped with a time-on/time-off heating fan control. The
fan on delay is fixed at 30 seconds. The fan off delay has 4 settings (60,
90, 120 and 180 seconds). The fan off delay is factory set to 120 seconds. The fan-off setting must be long enough to adequately cool the
furnace, but not so long that cold air is blown into the heated space. The
fan-off timing may be adjusted by positioning the jumper on two of the
four pins as shown in Figure 40, "Furnace Control Board".
PARK
PARK
120
90
60
BLOWER
OFF
DELAY
HI COOL
HEAT
EAC-H
L1
XFMR
FIGURE 40: Furnace Control Board
SECTION X: SAFETY CONTROLS
CONTROL CIRCUIT FUSE
A 3-amp fuse is provided on the control circuit board to pr otect the 24volt transformer from overload caused by control circuit wiring errors.
This is an ATO 3, automotive type fuse and is located on the control
board.
BLOWER DOOR SAFETY SWITCH
Main power to the unit must still be interrupted at the main power
disconnect switch before any service or repair work is to be done to
the unit. Do not rely upon the interlock switch as a main power disconnect.
Blower and burner must never be operated without the blower
panel in place.
This unit is equipped with an electrical interlock switch mounted in the
burner compartment. This switch interrupts all power at the unit when
the panel covering the blower compartment is removed.
Electrical supply to this unit is dependent upon the panel that covers the
blower compartment being in place and properly positioned.
NEUTRALS
HUM
ROLLOUT SWITCH CONTROLS
These controls are mounted on the burner assembly. If the temperature
in the area surrounding burner exceeds its set point, the gas valve is
de-energized. The operation of this control indicates a malfunction in
the combustion air blower, heat exchanger or a blocked vent pipe connection. Corrective action is required. These are manual reset controls
that must be reset before operation can continue.
PRESSURE SWITCHES
This furnace is supplied with two pressure switches, which monitor the
flow through the combustion air/vent piping and condensate drain system. These switches de-energize the gas valve if any of the following
conditions are present. Refer to "CONDENSATE PIPING AND FURNACE VENTING CONFIGURATION" for tubing connections.
1. Blockage of vent piping or terminal.
2. Failure of combustion air blower motor.
3. Blockage of combustion air piping or terminals.
4. Blockage of condensate drain piping.
Johnson Controls Unitary Products 31
364861-UIM-B-0708
LIMIT CONTROLS
There is a high temperature limit control located on the furnace vestibule panel near the gas valve. This is an automatic reset control that
provides over temperature protection due to reduced airflow. This may
be caused by:
1. A dirty filter.
2. If the indoor fan motor should fail.
3. Too many supply or return registers closed or blocked off.
The control module will lockout if the limit trips 5 consecutive times. If
this occurs, control will reset & try ignition again after 1 hour.
SEQUENCE OF OPERATION
The following describes the sequence of operation of the furnace. Refer
to Owners Manual for component location.
Continuous Blower
Cooling/heating thermostats have a fan switch that has an ON and
AUTO position. In the ON position the thermostat circuit is completed
between terminals R and G. The motor will operate continuously on the
speed tap wire that is connected to the “HI COOL” cooling terminal on
the control board. To obtain a constant air circulation at lower flow rate,
change the high-speed wire to either the medium speed wire or the low
speed wire.
Intermittent Blower - Cooling
Cooling/heating thermostats have a fan switch that has an ON and
AUTO position. In the AUTO position the thermostat circuit is completed
between terminals R and G when there is a call for cooling. The motor
will operate on the speed tap wire that is connected to the “HI COOL”
cooling terminal on the control board. The fan off setting is fixed at 60
seconds to improve cooling efficiency.
Heating Cycle
When the thermostat switch is set on HEAT and the fan is set on AUTO,
and there is a call for heat, a circuit is completed between terminals R
and W of the thermostat. When the proper amount of combustion air is
being provided, the pressure switch will close, the ignition control provides a 17-second ignitor warm-up period, the gas valve then opens,
the gas starts to flow, ignition occurs and the flame sensor begins its
sensing function. The blower motor will energize 30 seconds after the
gas valve opens, if a flame is detected. Normal furnace operation will
continue until the thermostat circuit between R and W is opened, which
causes the ignition system and gas valve to de-energize and the burner
flames to be extinguished. The vent motor will operate for 15 seconds
and the blower motor will operate for the amount of time set by the fanoff delay jumper located on the control board. See Figure 36. The heating cycle is now complete, and ready for the start of the next heating
cycle.
If the flame is not detected within 7 seconds of the gas valve opening,
the gas valve is shut off and a retry operation begins. Also, if the flame
is lost for 2 seconds during the 10-second stabilization period, the gas
valve is shut off and a retry operation begins. During a retry operation,
the vent motor starts a 15 second inter-purge and the ignitor warm-up
time is extended to 27 seconds. If the flame is established for more than
10 seconds after ignition during a retry, the control will clear the ignition
attempt (retry) counter. If three retries occur during a call for heat, the
furnace will shut down for one hour. If at the end of the one hour shut
down there is a call for heat, the furnace will initiate a normal start cycle.
If the problem has not been corrected the furnace will again lockout
after three retries.
A momentary loss of gas supply, flame blowout, or a faulty flame probe
circuit will result in a disruption in the flame and be sensed within 1.0
seconds. The gas valve will de-energize and the control will begin a
recycle operation. A normal ignition sequence will begin after a 15 second inter-purge. If during the five recycles the gas supply does not
return, or the fault condition is not corrected the ignition control will lockout for 60 minutes.
During burner operation, a momentary loss of power for 50 milliseconds
or longer will de-energize the gas valve. When the power is restored,
the gas valve will remain de-energized and the ignition sequence will
immediately restart.
Hot Surface Ignition System
HOT SURFACE IGNITION SYSTEM
Do not attempt to light this furnace by hand (with a
match or any other means). There may be a potential
shock hazard from the components of the hot surface
ignition system. The furnace can only be lit automatically
by its hot surface ignition system.
TROUBLESHOOTING
The following visual checks should be made before troubleshooting:
1. Check to see that the power to the furnace and the ignition control
module is ON.
2. The manual shut-off valves in the gas line to the furnace must be
open.
3. Make sure all wiring connections are secure.
4. Review the sequence of operation. Start the system by setting the
thermostat above the room temperature. Observe the system’s
response. Then use the troubleshooting section in this manual to
check the system’s operation.
Never bypass any safety control to allow furnace operation. To do so will allow furnace to operate under potentially hazardous conditions.
Do not try to repair controls. Replace defective cont rols
with UPG Source 1 Parts.
Never adjust pressure switch to allow furnace operation.
FURNACE CONTROL DIAGNOSTICS
The furnace has built-in, self-diagnostic capability. If a system problem
occurs, a blinking LED can flash red, green or amber to indicate various
conditions.
The control continuously monitors its own operation and the operation
of the system. If a failure occurs, the LED will indicate the failure code. If
the failure is internal to the control, the light will stay on continuously. In
this case, the entire control should be replaced, as the control is not
field repairable.
Flash sequence codes 1 through 11 are as follows: LED will turn “on”
for 1/4 second and “off” for 1/4 second. This pattern will be repeated the
number of times equal to the code. For example, six “on” flashes equals
a number 6 fault code. All flash code sequences are broken by a 2 second “off” period.
SLOW GREEN FLASH: Normal operation.
SLOW AMBER FLASH: Normal operation with call for heat.
RAPID RED FLASH: Twinning error, incorrect 24V phasing. Check
twinning wiring.
RAPID AMBER FLASH: Flame sense current is below 1.5 microamps.
Check and clean flame sensor. Check for proper gas flow. Verify that
current is greater than 1.5 microamps at flame current test pad.
4 AMBER FLASHES: The control is receiving a “Y” signal from the
thermostat without a “G” signal, indicating improper thermostat wiring.
1 RED FLASH: This indicates that flame was sensed when there was
not a call for heat. The control will turn on both the inducer motor and
supply air blower. A gas valve that leaks or is slow closing would typically cause this fault.
2 RED FLASHES: This indicates that the normally open pressure
switch contacts are stuck in the closed position. The control confirms
these contacts are open at the beginning of each heat cycle. This would
indicate a faulty pressure switch or miswiring.
32 Johnson Controls Unitary Products
364861-UIM-B-0708
3 RED FLASHES: This indicates the normally open pressure switch
contact did not close after the inducer was energized. This could be
caused by a number of problems: faulty inducer, blocked vent pipe, broken pressure switch hose or faulty pressure switch.
4 RED FLASHES: This indicates that the main limit switch has opened
its normally closed contacts. The control will operate the supply air
blower and inducer. This condition may be caused by: dirty filter,
improperly sized duct system, incorrect blower speed setting, incorrect
firing rate or faulty blower motor. Also, this fault code could be caused
by a blown fuse located on the control board.
5 RED FLASHES: This fault is indicated if the normally closed contacts
in the rollout switch opens. The rollout control is manually reset. If it has
opened, check for proper combustion air, proper inducer operation, and
primary heat exchanger failure or burner problem. Be sure to reset the
switch and cycle power (24 VAC) to the control after correcting the failure condition. Also, this fault code could be caused by a blown fuse
located on the control board.
6 RED FLASHES: This indicates that after the unit was operating, the
pressure switch opened 4 times during the call for heat. If the main
blower is in a “Delay on” mode, it will complete it, and any subsequent
delay off period. The furnace will lock out for one hour and then restart.
7 RED FLASHES: This fault code indicates that the flame could not be
established. This no-light condition occurred 3 times (2 retries) during
the call for heat before locking out. Low gas pressure, faulty gas valve,
dirty or faulty flame sensor, faulty hot surface ignitor or burner problem
may cause this. The furnace will lock out for one hour and then restart.
8 RED FLASHES: This fault is indicated if the flame is lost 5 times (4
recycles) during the heating cycle. This could be caused by low gas
pressure, dirty or faulty flame sensor or faulty gas valve. The furnace
will lock out for one hour and then restart.
9 RED FLASHES: Indicates reversed line voltage polarity or grounding
problem. Both heating and cooling operations will be affected. Check
polarity at furnace and branch. Check furnace grounding. Check that
flame probe is not shorted to chassis.
10 RED FLASHES: Flame sensed with no call for heat. Check gas
valve and gas valve wiring.
11 RED FLASHES: This indicates that a primary or auxiliary limit switch
has opened its normally-closed contacts and has remained open for
more than five minutes. This condition is usually caused by a failed
blower motor or blower wheel. Cycle power (24 VAC) to the control to
reset the hard lockout condition after correcting the failure condition.
12 RED FLASHES: This code indicates an open igniter circuit, which
could be a disconnected or loose wire or a cracked or broken igniter.
STEADY ON RED: Control failure. Replace control board.
60-MINUTE AUTOMATIC RESET FROM LOCKOUT: This control
includes a “watchdog” type circuit that will reset from a lockout condition
after 60 minutes. Operational faults 6,7,8 will be reset. This provides
protection to an unoccupied structure if a temporary condition exists
causing a furnace malfunction. An example would be a low incoming
gas supply pressure preventing unit operation. When the gas pressure
is restored, at some point the “watchdog” would restart the unit and provide heat for the house.
NOTE: If a flame is detected the control flashes the LED for 1/8 of a
second and then enters a flame stabilization period.
IGNITION CONTROL FLAME SENSE LEVELS
Normal flame sense current is approximately
3.7 microamps DC (µa)
Low flame signal warning starts at 1.5 microamps.
Low flame signal control lockout point is
0.1 microamps DC (µa)
DIAGNOSTIC FAULT CODE STORAGE AND
RETRIEVAL
The control in this furnace is equipped with memory that will store up to
five error codes to allow a service technician to diagnose problems
more easily. This memory will be retained even if power to the furnace
is lost. This feature should only be used by a qualified service tech-
nician.
If more than five error codes have occurred since the last reset, only the
five most recent will be retained. The furnace control board has a button, labeled "LAST ERROR" that is used to retrieve error codes. This
function will only work if there are no active thermostat signals. So any
call for heating, cooling or continuous fan must be terminated before
attempting to retrieve error codes.
To retrieve the error codes, push the LAST ERROR button. The LED on
the control will then flash the error codes that are in memory, starting
with the most recent. There will be a two-second pause between each
flash code. After the error codes have all been displayed, the LED will
resume the normal slow green flash after a five second pause. To
repeat the series of error codes, push the button again.
If there are no error codes in memory, the LED will flash two green
flashes. To clear the memory, push the LAST ERROR button and hold it
for more than five seconds. The LED will flash three green flashes when
the memory has been cleared, then will resume the normal slow green
flash after a five-second pause.
(Seconds)
THERMOSTAT
INDUCER
IGNITOR
MAIN VALVE
HUMIDIFIER
ELECTRONIC
AIR CLEANER
CIRCULATING
BLOWER
OFF
OFF
OFF
OFF
OFF
OFF
OFF
Thermostat Calling for Heat
0
2
ON
ON
ON
17 22
ON
Fan on Delay
30 Seconds
OFF
52
ON
OFF
ON
OFF
ON
OFF
Thermostat Satisfied
0
OFF
15
Sec.
Post
Purge
OFF
OFF
60, 90, 120, 180 SEC.
Selectable Fan Off Delay
OFF
OFF
OFF
OFF
FIGURE 41: Furnace Control Event Schedule
Johnson Controls Unitary Products 33
364861-UIM-B-0708
SECTION XI: REPLACEMENT PARTS LIST
DESCRIPTION
MOTOR
MOTOR, DIRECT DRIVE BLOWER
BLOWER, COMBUSTION
ELECTRICAL
CAPACITOR, RUN
SWITCH, LIMIT
CONTROL, FURNACE
IGNITER
SENSOR, FLAME
SWITCHES, PRESSURE
SWITCH, DOOR
TRANSFORMER
VALVE, GAS
CONTROL, TEMPERATURE
AIR MOVING
HOUSING, BLOWER
WHEEL, BLOWER
FABRICATED PARTS
RESTRICTOR, COMBUSTION BLOWER
BURNER, MAIN GAS
BRACKET, IGNITER
SHELF, BLOWER
RAIL, BLOWER (2 Req’d)
BRACKET, BLOWER TRACK (2 Req’d)
HEAT EXCHANGER ASS’Y
DESCRIPTION
FABRICATED PARTS Continued
MANIFOLD, GAS
PAN, BOTTOM
PANEL, TOP
PANEL, DOOR (2 Req’d)
PANEL, BLOCKOFF
MISCELLANEOUS
ORIFICE, BURNER (Natural #45)
SIGHT GLASS, OVAL (2 Req’d)
GASKET, FOAM (Door) (1.5 ft req’d)
PAN, CONDENSATE
BRACKET, DOOR
HARNESS, WIRING
FERRULE (3 Req’d)
GROMMET (3 Req’d)
MOTOR MOUNT
TUBING, SILICON
HOSE, RAIN GUTTER
HOSE, CONDENSATE
PLUG, SEAL, 7/8”
PLUG, SEAL, 2-3/8”
PLUG, VENT PIPE
BAG, PARTS
KNOB, QUARTER TURN (4 Req’d)
DIAGRAM, WIRING
REPLACEMENT PART CONTACT INFORMATION
This is a generic parts list. To request a complete parts list, refer to the contact information below:
• Visit our website at www.source1parts.com for the following information:
1. Search for a part or browse the catalog.
2. Find a dealer or distributor.
3. Customer Service contact information.
a. Click on the “Brand Links” button
b. Click on the “Customer Service” button
• You can contact us by mail. Just send a written request to:
Johnson Controls Unitary Products
Consumer Relations
5005 York Drive
Norman, OK 73069
34 Johnson Controls Unitary Products
SECTION XII: WIRING DIAGRAM
364861-UIM-B-0708
FIGURE 42: Wiring Diagram
Johnson Controls Unitary Products 35
NOTES
Subject to change without notice. Printed in U.S.A. 364861-UIM-B-0708
Copyright © 2008 by Johnson Controls, Inc. All rights reserved. Supersedes: 364861-UIM-A-0608
Johnson Controls Unitary Products
5005 York Drive
Norman, OK 73069
QUICK REFERENCE GUIDE
95.5% SINGLE STAGE MULTI-POSITION
RESIDENTAL GAS FURNACES (33” TA LL)
NOTES:
1. Refer to the condensate management and drain hose
plumbing for different configurations in this document. No
hose clamps are needed for the condensate pan hook up.
2. Drip leg in the gas line must be installed.
3. The furnace controls require correct polarity on the power
supply and a proper ground.
4. Y & G must be connected to the control board for cooling
operation.
5. To measure total static pressure add supply duct pressure to
the return duct pressure, add pressure drop across the ‘A’
coil, and add pressure drop across the filter. Ignore negative
signs on the readings.
6. Inlet gas pressure for natural gas shoul d be 7” and that for
propane should be 11” w.c. Nominal manifold gas p ressure
is 3.5” for natural gas and 10” w.c. for propane.
Airflow CFM (Bottom Return without Filters)
Models
Low Med-Lo Med-Hi High
(T,G)G9S040A08MP11 581 653 818 950 14 8.0 15
(T,G)G9S060A10MP11
(T,G)G9S060B12MP11
(T,G)G9S080B12MP11 854 1008 1179 1370 14 10.0 15
(T,G)G9S080C16MP11
(T,G)G9S080C22MP11
(T,G)G9S100C16MP11 819 1224 1477 1706 14 11.5 15
(T,G)G9S100C20MP11
(T,G)G9S120D16MP11
(T,G)G9S120D20MP11 1190 1430 1739 1977 12 17.0 20
(T,G)G9S130D20MP11
Models
(T,G)G9S040A08MP11 65’ 90’ Med-Hi 30°F-60°F 93
(T,G)G9S060A10MP11 65’ 90’ High 30°F-60°F 62
(T,G)G9S060B12MP11 65’ 90’ Med-Hi 30°F-60°F 62
(T,G)G9S080B12MP11 65’ 90’ High 35°F-65°F 46
(T,G)G9S080C16MP11 65’ 90’ High 35°F-65°F 46
(T,G)G9S080C22MP11 65’ 90’ Med-Hi 35°F-65°F 46
(T,G)G9S100C16MP11 30’ 90’ High 35°F-65°F 37
(T,G)G9S100C20MP11 30’ 90’ Med-Hi 35°F-65°F 37
(T,G)G9S120D16MP11 30’ 90’ High 40°F-70°F 30
(T,G)G9S120D20MP11 30’ 90’ Med-Hi 35°F-65°F 30
(T,G)G9S130D20MP11 N/A 85’ High 45°F-75°F 28
1. For venting purposes, one 90° sweep elbow is equal to 5 Ft. of venting length, one 90° standard elbow is equal to 10 equivalent feet of vent length. Vent termination elbows are not included in these calculations, minimum required vent length is 15 ft.
2. Must be changed if not in rise range.
Subject to change without notice. Printed in U.S.A. 401260-URG-C-0808
Copyright © 2008 by Johnson Controls, Inc. All rights reserved. Supersedes: 401260-URG-B-0708
769 917 1038 1103 14 10.0 15
713 872 1082 1243 14 10.0 15
838 1250 1465 1671 14 11.5 15
1285 1586 1937 2162 12 17.0 20
1183 1430 1712 1934 12 17.0 20
876 1254 1495 1805 14 11.5 15
1198 1459 1786 2047 12 17.0 20
Maximum
Vent Equivalent
2" 3"
0.5" ESP (Nominal)
1
Johnson Controls Unitary Products
Factory Heating
Speed Setting
5005 York Drive
Norman, OK 73069
7. If thermoplastic evaporator ‘A’ coil drain pans are to be
installed in the up-flow/horizontal configuration, then extra 2”
minimum spacing may be needed to ensure against drain
pan distortion.
8. External filters required on all configurations.
9. Electrical entry is available on both sides of the casing.
10. All 33”, 95% furnaces are appro ved for single-pipe and 2pipe systems. For single pipe systems it is recommended to
install the combustion air coupling provided and install
approximately 18” of PVC pipe on the furnace.
11. Do not install an external condensate trap on these furnaces, as it will prevent the unit from operating correctly.
Minimum Wire
Size awg @ 75'
One-Way
2
Temperature
Rise Range
Total Unit
Amps
Time For 1 ft
(1030 Btu/Ft
Seconds On (Rate)
Maximum
Over Current
Protection
3
Natural Gas
3
)
*401260*
This document does not replace the installation instructions, which must be referred to for
detailed information.
.56”
.56”
SUPPLY END
B
Combustion
Air Inlet
.56”
Combustion Air Inlet
Condensate Drain
(Downflow)
Vent Connection
Outlet
23.8”
20”
3”
28.5”
29.5”
2” Diameter
Vent Connection
Outlet
Gas Pipe
Entry
Electrical
Entry
Condensate
Drain
Thermostat
Wiring
LEFT SIDE
Follow all national, local codes and standards in addition to this document. The installation
must comply with regulations of the serving gas supplier, local building, heating, plumbing,
and other codes. In absence of local codes, the installation must comply with the national
codes and all authorities having jurisdiction.
CLEARANCES
Application Upflow Downflow Horizontal
Top 1" 0" 0"
Vent 0" 0" 0"
Rear 0" 0" 0"
Side 0" 0" 1"
Front* 0" 0" 0"
Floor Combustible
Closet Yes Yes Yes
Line Contact No No Yes
1. Fo r combustible floors only when used with special
sub-base.
* 24" clearance in front and 18" on side recommended for
service access.
All furnaces approved for alcove and attic installation.
Combustible
1
Combustible
RETURN END
DURING INSTALLATION,
DOORS MUST REMAIN ON
FURNACE WHEN MOVING
B
OR LIFING.
Clips can be flipped
24.25”
Combustion Air Inlet
Condensate Drain
(Downflow)
Vent Connection
Outlet
23”
Optional Return Air
Cutout (Either side)
1.5”
14”
1”
into the up position
for coil cabinet or
plenum attachment
A-COIL
RIGHT SIDE
A
DIMENSIONS
Cabinet Size A (in) B (in)
All 'A' Cabinet Furnaces 14-1/2" 13-3/8"
All 'B' Cabinet Furnaces 17-1/2" 16-3/8"
All 'C' Cabinet Furnaces 21" 19-7/8"
All 'D' Cabinet Furnaces 24-1/2" 23-3/8"
LED INDICATOR
Slow Green Flash
• Normal operation
Slow Amber Flash
• Normal operation with call for heat
Any Red Flash = Fault condition
Any Rapid 4 Flash = Potential fault codes / conditions
FRONT
33”
MOST COMMON INSTALLATION CONFIGURATIONS (MORE OPTIONS AVAILABLE WHICH IS COVERED IN THE INSTALLATION MANUAL)WITH INDUCER ROTATION,
MULTI-POSITION CONFIGURATION INFORMATION:
Ensure that all PVC venting has at least 1/4” per foot slope towards the furnace.
Furnace is multi-position and may be installed in any of the configurations shown.
The furnace condensate pan is self priming and contains an internal trap.
.Do not install an external condensate trap
When drain hose routing changes are required (shown in red), be sure to cap
all unused openings.
If rerouting hoses - excess length should be cut off so that no sagging loops will
collect and hold condensate, which will cause the furnace to not operate.
1
Move rain gutter hose
to this position
AIRFLOW
Rain
Gutter
Hose
Pressure
Switch
Hose
AIRFLOW
1
Move rain gutter hose
to this position
2
Move pressure switch
hose to this position.
NOTE: May require the
longer hose that is
provided with wider
cabinets.
HORIZONTAL LEFT
2
Move pressure switch
hose to this position.
NOTE: May require the
longer hose that is
provided with wider cabinets
3
Change condensate drain
connection to the 90° fitting provided
Move condensate drain hose
4
to this position
Move rain gutter hose to this position
5
NOTE: May require hose extension that
is provided with wider cabinets
Condensate
Drain Hose
For 040, 060 & 080K input furnaces, the condensate
drain is factory set toward the right casing outlet
For 100, 120 & 130K input furnaces, the condensate
drain is factory set toward the left casing outlet
NOTE: Only side venting on 130K unit.
UPFLOW
AIRFLOW
3
Move condensate drain
hose to this position
Move rain gutter
4
hose to this position
DOWNFLOW
Inducer must be rotated
90° in either direction for
this installation
In upflow and downflow installation - Condensate drain hose may go out either side.
1
Move pressure switch
hose to this position
2
Change condensate drain
connection to the 90° fitting provided
HORIZONTAL RIGHT
3
Move rain gutter hose
to this position
4
Move condensate drain hose
to this position
AIRFLOW
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