Allied Air Enterprises Air Conditioner 4PGE User Manual

INSTALLATION AND MAINTENANCE INSTRUCTIONS  
4PGE/SG(13,15) Series  
Gas Heating/Electric Cooling Package Unit  
Save these instructions for future reference  
WARNING  
Improper installation, adjustment, alteration, service, or maintenance can cause injury  
or property damage. Refer to this manual. For assistance or additional information,  
consult a qualified installer, service agency, or the gas supplier.  
TABLE OF CONTENTS  
WARNING  
SAFETY ...............................................................2  
Do not store combustible materials, including gasoline  
and other flammable vapors and liquids, near the furnace,  
vent pipe, or warm air ducts. Such actions could cause  
property damage, personal injury, or death.  
INSTALLATION ....................................................2  
START-UP ..........................................................10  
OPERATION ...................................................... 11  
MAINTENANCE .................................................13  
CONTROL SYSTEM DIAGNOSTICS.................14  
WIRING DIAGRAMS ..........................................15  
WARNING  
Never use a flame to check for gas leaks. Explosion  
causing injury or death may occur.  
Manufactured By  
Allied Air Enterprises Inc.  
A Lennox International Inc. Company  
215 Metropolitan Drive  
WARNING  
If this unit is to be installed in a mobile or manufactured  
home application, the ductwork must be sized to achieve  
static pressures within the manufacturer’s guidelines.  
All other installation guidelines must also be followed.  
Failure to do so may result in equipment damage,  
personal injury, and improper performance of the unit.  
West Columbia, SC 29170  
*506488-01*  
CAUTION  
The installation of the furnace, wiring, warm air ducts, venting, etc. must conform to the requirements of the National Fire  
ProtectionAssociation; the National Fuel Gas Code,ANSI Z223.1 (latest edition) and the National Electrical Code,ANSI/  
NFPANo. 70 (latest edition) in the United States; the Canadian Installation Codes CAN/CGA-B149.1 & .2 (latest edition)  
and the Canadian Electrical Code Part 1, CSA 22.1 (latest edition) in Canada; and any state or provincial laws, local  
ordinances, or local gas utility requirements. Local authorities having jurisdiction should be consulted before installation  
is made. Such applicable regulations or requirements take precedence over the general instructions in this manual.  
506488-01  
Issue 1008  
Page 1  
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Location  
Air filters must be replaced upon construction completion.  
Use the following guidelines to select a suitable location for  
the unit.  
The input rate and temperature rise must be set per the  
unit rating plate.  
1. Unit is designed for outdoor installation only. Unit must  
be installed so all electrical components are protected  
from water.  
100% outdoor air must be provided for combustion air  
requirements during construction. Installation of this unit  
in its intended outdoor location will accomplish this.  
2. Condenser coils must have an unlimited supply of air.  
The heat exchanger, components, duct system, air  
filter(s), and evaporator coil must be thoroughly cleaned  
following final construction cleanup.  
3. For ground level installation, use a level prefabricated  
pad or use a level concrete slab. Do not tie the slab to  
the building foundation.  
Following the final cleaning, all furnace operating  
conditions (including ignition, input rate, temperature  
rise, and venting) must be verified according to these  
instructions.  
4. Maintain level within a tolerance of 1/4" maximum across  
the entire length or width of the unit.  
5. Do not locate the unit where the combustion air supply  
will be exposed to any of the following substances:  
Exercise care when moving the unit. Do not remove any  
packaging until the unit is near the place of installation. An  
accessory lift kit can be purchased to aid in rigging (see  
Figure 1). Spreaders whose length exceed the largest  
dimension across the unit must be used across the top of  
the unit. Recommended spreader length: 3 ton and smaller  
package units – 44", 3.5 ton and larger units – 54".  
Permanent wave solutions  
Chlorinated waxes and cleaners  
Chlorine-based swimming pool chemicals  
Water softening chemicals  
Deicing salts or chemicals  
Carbon tetrachloride  
Halogen-type refrigerants  
Units may also be moved or lifted with a forklift while still in  
the factory-supplied packaging. The lengths of the forks  
of the forklift must be a minimum of 42".  
Cleaning solvents (such as perchloroethylene)  
Printing inks, paint removers, varnishes, etc.  
Cements and glues  
Antistatic fabric softeners for clothes dryers  
Masonry acid washing materials  
Chlorinated laundry products  
Hydrochloric acid  
CAUTION  
Before lifting a unit, make sure that the weight is  
distributed equally on the cables so that it will lift evenly.  
Use of unit as a construction heater during any phase of  
construction is not recommended. Very low return air  
temperatures, harmful vapors, and operation of the unit with  
clogged or misplaced filters will damage the unit. However,  
if the installation and operating conditions specified below  
are followed, use of this unit for heating of buildings or  
structures under construction is permissible:  
Using Accessory Lift Kit  
Lifting Bracket  
Accessory  
Spreaders  
(Field Supplied)  
The vent hood must be installed per these installation  
instructions.  
Sheet Metal  
Screw  
A room thermostat must control the furnace. The use  
of fixed jumpers that will provide continuous heating is  
not allowed.  
To avoid possible  
damage to unit  
panels from lifting  
clevis, place  
packing material  
between clevis  
and panels before  
lifting unit.  
The return air duct must be provided and sealed to the  
unit.  
Return air temperature must be maintained between  
60°F (16°C) and 80°F (27°C).  
Air filters must be installed in the system and must be  
maintained during construction.  
Figure 1  
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Roof Curb Installation  
Minimum Clearance to Combustibles  
Above and Below the Vent Hood  
If a roof curb is used, follow the manufacturer’s Installation  
Instructions and be sure that all required clearances are  
observed (see following Clearances section).  
Minimum Clearance  
Above Vent Hood:  
Distance from Top  
of Vent Hood to Top  
of Unit  
Roof Curb Assembly  
Minimum Clearance  
Below Vent Hood:  
Distance from Bottom  
of Vent Hood to Base  
of Unit  
Figure 2  
Clearances  
All units require certain clearances for proper operation and  
service. Refer to Table 1 for the minimum clearances to  
combustibles as well as minimum clearances necessary for  
servicing and proper unit operation.  
Figure 3  
In the U.S., units may be installed on combustible floors made  
from wood or classA, B, or C roof covering material. In Canada,  
units may be installed on combustible floors.  
Minimum Clearance Requirements  
Service Access  
To  
For  
Proper  
Operation  
For  
Service  
Access to all serviceable components is provided by four  
removable panels: filter compartment, blower compartment,  
furnace compartment, and top panel.  
Combustible  
Material  
Front  
Rear  
24"  
0"  
48"  
24"  
24"  
30"  
36"  
3"  
3"  
Combustion Products Discharge  
The unit must be positioned such that combustion products  
discharged at the vent outlet will not result in building  
degradation and must be consistent with the National Fuel  
Gas Code, Z223.1 or CAN/CGA-B149.1 & .2.  
Condenser  
End  
0"  
3"  
Blower  
End  
The products of combustion are discharged through a  
screened opening in the front mullion. The horizontal vent  
system shall terminate at least 4' below, 4' horizontally from,  
or 1' above any door, window, or gravity air inlet into the  
building. The vent system shall terminate at least 3' above  
any forced air inlet located within 10'.  
0"  
0"  
Top  
0"  
36"  
Table 1  
The unit shall be installed in a manner such that snow  
accumulation will not restrict the flow of flue products.  
Figure 3 shows the minimum clearances to combustibles  
required above and below the vent hood. The minimum  
clearance in front of the vent hood is 24".  
In addition to the above requirements, consideration must  
be given to prevent unwanted ice buildup from the vent  
condensate. The vent should not be located on the side of  
a building where the prevailing winter winds could trap the  
moisture, causing it to freeze on the walls or on overhangs  
(under eaves). The vent location should not discharge over  
Do not permit overhanging structures or shrubs to  
obstruct condenser air discharge outlet or vent outlet.  
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506488-01  
a sidewalk, patio, or other walkway where the condensate  
could cause the surface to become slippery.  
WARNING  
The products of combustion must not be allowed to  
accumulate within a confined space and recirculate.  
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 carbon monoxide  
poisoning or death.  
Vent Hood  
The unit is shipped with the vent hood, screen, and sheet  
metal screws packed in the plastic bag containing the  
Installation Instructions.  
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  
common venting system are not in operation:  
To attach the vent hood and screen to the unit:  
1. Insert the vent screen into the vent tube so that the screen  
is flush with the end of the tube, as shown in Figure 4.  
1. Seal any unused openings in the common venting  
system.  
2. Visually inspect the venting system for proper size  
and horizontal pitch, as required in the National Fuel  
Gas Code,ANSI Z223.1/NFPA54 (latest edition) or  
the CSA B149.1, Natural Gas and Propane  
Installation Codes and these instructions. Determine  
that there is no blockage or restriction, leakage,  
corrosion, or other deficiencies which could cause  
an unsafe condition.  
Installing Vent Hood  
Front View  
Top View  
Vent Tube  
Screen  
NOTE:  
Screws should  
pass through  
sides of screen  
to hold screen  
in place.  
Screen  
Vent Tube  
3. As far as practical, close all building doors and  
windows between the space in which the  
appliance(s) connected to the venting system are  
located and other spaces in the building.  
Vent Hood  
Screen is pre-formed  
4. Close fireplace dampers.  
5. Turn on clothes dryers and any appliance not  
connected to the venting system. Turn on any  
exhaust fans, such as range hoods and bathroom  
exhausts, so they are operating at maximum speed.  
Do not operate a summer exhaust fan.  
Slotted side of  
vent hood faces  
condenser coil.  
6. Follow the lighting instructions. Place the unit being  
inspected in operation. Adjust the thermostat so  
appliance is operating continuously.  
Figure 4  
2. Position the vent hood over the vent tube so that the  
slotted side of the hood faces the condenser coil. Use  
the four sheet metal screws (provided) to secure the  
vent hood to the vent tube. The screws should pass  
through the sides of the screen in order to hold the  
screen in place.  
7. Test for spillage from draft hood equipped appliances  
at the draft hood relief opening after 5 minutes of  
main burner operation. Use the flame of a match or  
candle.  
8. If improper venting is observed during any of the  
above tests, the venting system must be corrected  
in accordance with the National Fuel Gas Code,  
ANSI Z223.1/NFPA 54 (latest edition) and/or the  
CSA B149.1, Natural Gas and Propane Installation  
Codes.  
Existing Venting Systems  
When an existing furnace is removed or replaced, the original  
venting system may no longer be sized to properly vent the  
attached appliances.An improperly sized venting system can  
result in spillage of flue products into the living space, the  
formation of condensate, leakage, etc. See the accompanying  
WARNING box for proper test procedure.  
9. After it has been determined that each appliance  
remaining connected to the venting system properly  
vents when tested as outlined above, return doors,  
windows, exhaust fans, fireplace dampers, and any  
other gas-fired burning appliance to their previous  
conditions of use.  
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Page 5  
Condensate Drain  
3. Slide duct cover out the side duct opening.  
The PGE/SG package unit is equipped with a 3/4" FPT  
coupling for condensate line connection. Plumbing must  
conform to local codes. Use a sealing compound on male  
pipe threads.  
Filters  
Air filters are to be used with this heating/cooling unit. Filters  
are not factory supplied in the unit. However, a filter frame  
accessory is available from the manufacturer that allows  
The condensate drain line must be properly trapped and  
routed to a suitable drain. See Figure 5 for proper drain  
arrangement. The drain line must pitch to an open drain or  
pump to prevent clogging of the line. Seal around the drain  
connection with suitable material to prevent air leakage into  
the return air system.  
Removing Bottom Duct Covers  
2
1
Typical Condensate Drain Connection  
1. Remove screw and lift.  
Base  
2. Slide cover to free back pin.  
Figure 6  
Unit  
Drain Connection  
1.00" Min.  
3.00" Min.  
CAUTION  
12.00"  
Max.  
When fastening ductwork to side duct flanges on unit,  
insert screws through duct flanges only; do not insert  
screws through casing. If using bottom duct work, do  
not use screws to secure ductwork to bottom duct  
opening under drain pan side. Using screws to secure  
bottom duct may damage drain pan.  
Positive Liquid Seal Required  
Figure 5  
Ductwork  
Ductwork should be designed and sized according to the  
methods in Manual Q of the Air Conditioning Contractors of  
America (ACCA).  
filters to be installed within the unit. If the filter frame  
accessory is not used, a filter must be installed in the duct  
work by the installer. Filters must always be installed ahead  
of the evaporator coil and must be kept clean or replaced.  
Dirty filters will reduce the airflow of the unit. Filters should  
be sized in accordance with Table 2.  
A closed return duct system shall be used. This shall not  
preclude use of economizers or outdoor fresh air intake. It  
is recommended that supply and return duct connections at  
the unit be made with flexible joints.  
The supply and return air duct systems should be designed  
for the CFM and static requirements of the job. They should  
not be sized by matching the dimensions of the duct  
connections on the unit.  
Gas Supply and Piping  
Refer to the furnace rating plate to make sure the furnace is  
equipped to burn the gas supplied (natural or propane). See  
LPG/Propane Units, Tanks, and Piping on page 7 for more  
information on converting to propane gas.  
Outdoor ductwork must be insulated and waterproofed.  
Gas supply piping should be installed in accordance with  
local codes and the regulations of the utility. In the absence  
of local codes, the latest edition of the National Fuel Gas  
Code ANSI Z223.1 (in the U.S.), or the Natural Gas and  
Propane Installation Codes CAN/CGA B149.1 & B149.2 (in  
Canada), should be followed. Piping must be of adequate  
size to prevent undue pressure drop. Consult the local utility  
or gas supplier for complete details on special requirements  
for sizing gas piping.  
Equipment is shipped for side ductwork connection. The unit  
can be converted to bottom ductwork connection by  
removing the duct covers located over the bottom duct  
openings and placing these covers over the side duct  
openings (see Figure 6).  
To remove the bottom duct cover over supply opening:  
1. Remove screw on cover nearest side opening.  
2. Lift end of cover slightly and push to slide back screw/  
pin free from duct flange.  
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The furnace must be isolated from the gas supply piping  
system by closing the individual manual shutoff valve during  
any pressure testing of the gas supply piping system at test  
pressure equal to or less than 1/2 psig (3.5 kPa) or 14" W.C.  
If the piping system is to be tested at pressures in excess of  
1/2 psig (3.5 kPa), the furnace and its appliance main gas  
valve must be disconnected from the gas supply piping  
system.  
Minimum Required Surface Area  
for Disposable Filters  
Filter Area  
Nominal Cooling  
(sq. ft.)  
24,000  
30,000  
36,000  
42,000  
48,000  
60,000  
2.67  
3.33  
4.00  
4.67  
5.33  
6.67  
After gas piping is complete, carefully check all piping  
connections (factory and field) for gas leaks. Use a leak  
detecting solution or other preferred means. Some soaps  
used for leak detection are corrosive to certain metals.  
Carefully rinse piping thoroughly after leak detection has  
been completed.  
WARNING  
Table 2  
The gas valve supplied with this furnace is rated at 1/2  
psig maximum. Any higher pressure may rupture the  
pressure regulator diaphragm and may cause overfiring  
of the burners and improper burner operation. The  
overfiring may result in the creation of carbon monoxide  
which could cause asphyxiation.  
The gas supply line should be routed through the grommet  
on the side of the unit. Refer to Figure 7 to locate this access  
opening.  
If local codes allow the use of a flexible gas appliance  
connector, always use a new listed connector. Do not use a  
connector which has previously serviced another gas  
appliance.  
LPG/Propane Units, Tanks, and Piping  
Units are shipped equipped for natural gas, but can be  
converted to LPG/propane in the field by an approved  
licensed technician.  
Gas and Electrical Access  
WARNING  
Gas Line Entry  
Thermostat  
Entry  
FIRE OR EXPLOSION HAZARD  
Failure to follow the safety warnings exactly could result  
in serious injury, death, or property damage.  
Line Voltage  
Entry  
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. Afire  
or explosion may result causing property damage,  
personal injury, or loss of life.  
Figure 7  
Pipe connections must be tight, and a non-hardening pipe  
compound resistant to liquefied petroleum gases should be  
used.  
All LPG/propane gas equipment must conform to the safety  
standards of the National Fire ProtectionAssociation.  
Install a manual shutoff valve in the gas connection to the  
unit, external to the casing, in accordance with local codes.  
An 1/8" NPT plugged tapping, accessible for test gauge  
connection, must be installed immediately upstream of the  
gas supply connection to the unit. Asediment trap (drip leg)  
shall be installed as close as practical to the gas supply inlet  
of the unit.  
For satisfactory operation, LPG/propane gas pressure must  
be a minimum of 11" W.C. at the unit under full load.  
Complete information regarding tank sizing for vaporization,  
recommended regulator settings, and pipe sizing is available  
from most regulator manufacturers and LPG/propane gas  
suppliers.  
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Page 7  
WARNING  
CAUTION  
Any conversion of a natural gas unit to propane gas must  
be done by qualified personnel using a conversion kit  
available from the manufacturer, following the instructions  
in the conversion kit. If done improperly, overfiring of the  
burners and improper burner operation can result. This  
can create carbon monoxide which could cause  
asphyxiation.  
When connecting electrical power and control wiring to  
the unit, waterproof type connectors must be used so that  
water or moisture cannot be drawn into the unit during  
normal operation.  
Four wires are required for cooling. The heat anticipator setting  
is 0.7 amp.  
Check all connections for leaks when piping is completed,  
using a soapy solution. Some soaps used for leak detection  
are corrosive to certain metals. Carefully rinse piping  
thoroughly after completing leak detection.  
Compressor  
Units are shipped with compressor mountings factory-  
adjusted and ready for operation. Caution: Do not loosen  
compressor mounting bolts.  
Electrical Wiring  
All wiring should be done in accordance with the  
National Electrical Code, ANSI/NFPA No. 70 (latest  
edition); Canadian Electrical Code Part 1, CSA C22.1  
(latest edition); or local codes where they prevail. Use  
wiring with a temperature limitation of 75°C minimum. Run  
the electric power supply through a fused disconnect switch  
to the connection box of the unit and connect as shown in  
the wiring diagram located on the inside of the control access  
panel.  
Power supply to the unit must comply with all applicable codes  
and the National Electical Code (NEC) or Canadian Electrical  
Code (CEC). A fused disconnect switch should be field  
provided for the unit. The switch must be separate from all  
other circuits.  
If any of the wire supplied with the unit must be replaced,  
replacement wire must be of the type shown on the wiring  
diagram. Electrical wiring must be sized to carry minimum  
circuit ampacity marked on the unit. Use copper conductors  
only. Each unit must be wired with a separate branch circuit  
and be properly fused.  
Thermostat  
The room thermostat should be located on an inside wall where  
it will not be subject to drafts, sun exposure, or heat from  
electrical fixtures or appliances. Follow the manufacturer’s  
instructions enclosed with thermostat for general installation  
procedure. Color-coded insulated wires (#18 AWG) should  
be used to connect thermostat to unit.  
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Typical Wiring Connections  
WITHOUT ECONOMIZER  
WITH ECONOMIZER  
THERMOSTAT  
R
OUTDOOR UNIT  
THERMOSTAT  
R
OUTDOOR UNIT  
R
ECONOMIZER  
R
C
Y
C
Y
C
BLUE  
Y1  
YELLOW  
YELLOW  
Y
W
G
W
G
W
G
W
G
GREEN  
BLACK  
Y2  
ORANGE  
(Not Used)  
SINGLE PHASE  
THREE PHASE  
L2  
L1  
L3  
L2  
L1  
GROUND  
SCREW  
GROUND  
SCREW  
POWER WIRING  
208/230-1-60  
(75°C MIN. WIRE)  
POWER WIRING  
200/230-3-60, 460/575-3-60  
(75°C MIN. WIRE)  
POWER WIRING  
POWER WIRING  
24V CONTROL WIRING  
(NEC CLASS 2)  
24V CONTROL WIRING  
(NEC CLASS 2)  
CAUTION  
C
Do not connect  
connections except when  
required by the indoor thermostat. Refer to the  
thermostat installation instructions.  
Figure 8  
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START-UP  
Gas Valves  
For Your Safety Read Before Lighting  
Regulator  
Adjustment  
Cap  
Gas  
Control  
Knob  
CAUTION  
Furnace is equipped with a direct ignition control. Do not  
attempt to manually light the burners.  
Inlet Pressure Tap  
1/8" NPT  
Outlet Pressure Tap  
(Manifold Pressure)  
1/8" NPT  
Pre-Start Check List  
Complete the following checks before starting the unit:  
1. Check the type of gas being supplied. Be sure it is the  
same as listed on the unit nameplate.  
Regulator  
Adjustment  
Cap  
Gas Control Switch  
2. Make sure that the vent hood has been properly installed.  
To Light Burners:  
1. Turn off electrical power to unit.  
2. Turn the thermostat to lowest setting.  
Inlet Pressure Tap  
1/8" NPT  
Outlet Pressure Tap  
(Manifold Pressure)  
1/8" NPT  
3. Turn the gas control knob, or slide the gas control switch,  
to the “ON” position (see Figure 9).  
Figure 9  
4. Turn on electrical power to the unit.  
5. Set the room thermostat to the desired temperature.  
(If the thermostat “set” temperature is above room  
temperature, the burners will light after the pre-purge  
time expires.)  
natural gas or 11" W.C. for propane gas with the burners  
in operation. If gas pressure is outside these limits,  
contact the gas supplier for corrective action.  
4. Adjust temperature rise to be within the range specified  
on the rating plate.  
To Shut Down Burners:  
1. Turn off electrical power to unit.  
Checking and Adjusting Gas Input  
2. Turn the gas control knob, or slide the gas control switch,  
to the “OFF” position (see Figure 9).  
For purpose of input adjustment, the minimum  
permissible gas supply pressure is 5" w.c. for natural gas  
and 11" w.c. for propane.  
Post-Start Check List  
After the entire control circuit has been energized and the  
heating section is operating, make the following checks:  
Gas input must never exceed the input capacity shown on  
the rating plate. The furnace is equipped for natural gas  
rated inputs with manifold pressure of 3.5" w.c.  
1. Check for gas leaks, using soapy solution, in the unit  
piping as well as the supply piping.  
The manifold pressure can be measured by shutting off the  
gas, removing the pipe plug in the downstream side of the gas  
valve, and connecting a water manometer or gauge. To adjust  
the regulator, turn the adjusting screw on the regulator  
clockwise to increase pressure and input or counterclockwise  
to decrease pressure and input. The final manifold pressure  
should not vary more than 0.3" w.c. from the above  
specified pressure. See Figure 9 to assist in locating the  
regulator on the gas valve.  
2. Check for correct manifold gas pressures (see following  
Checking and Adjusting Gas Input section).  
3. Check the supply gas pressure. It must be within the  
limits shown on the rating plate. Supply pressure should  
be checked with all gas appliances in the building at full  
fire.At no time should the supply pressure during standby  
exceed 13" w.c., nor should it be less than 5" w.c. for  
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506488-01  
For Natural Gas: Check the gas input rate by observing  
the gas meter, when available, making sure all other gas  
appliances are turned off. The test hand on the meter should  
be timed for at least one revolution. Note the number of  
seconds for one revolution.  
OPERATION  
Cooling System  
The cooling system is a complete factory package  
utilizing an air-cooled condenser. The compressor is  
hermetically sealed and base mounted with rubber-  
insulated hold-down bolts.  
BTU/HR Cubic Feet Per Revolution  
Heating  
Value  
x 3600 x  
=
INPUT  
# Seconds Per Revolution  
Unit compressors have internal protection. In the  
event there is an abnormal rise in the temperature of  
the compressor, the protector will open and cause the  
compressor to stop.  
The heating value of the gas can be obtained from the local  
utility company.  
For Propane Gas: The only check for the gas input rate is to  
properly adjust the manifold pressure using a manometer.  
Typical manifold set point for installations at altitudes from 0 to  
4500 feet above sea level is 10.0" W.C.  
Cooling Sequence of Operation  
When the thermostat calls for cooling, R is closed to G  
and Y (see the wiring diagrams beginning on page 15).  
This action completes the low voltage control circuit,  
energizing the compressor, condenser fan motor, and  
blower motor.  
Temperature Rise  
Check the temperature rise and, if necessary, adjust blower  
speed to maintain temperature rise within the range shown  
on the unit rating plate.  
Blower Delay – Cooling  
The circulating air blower is controlled by a timing  
circuit in the integrated blower/ignition control.  
Timings are not adjustable. Blower “on” delay is 5  
seconds after the compressor starts and blower “off”  
timing is 90 seconds after the cooling system shuts  
down.  
High Altitude  
Ratings are shown on the rating plate for elevations up to  
4500 feet. For elevations above 4500 feet, ratings should  
be reduced at a rate of 4% for each 1000 feet above sea  
level. See the National Fuel Gas Code Z223.1 (latest edition)  
or the Canadian Installation Codes CAN/CGA-B149.1 &  
B149.2 for further details.  
System Performance  
This equipment is a self contained, factory optimized  
refrigerant system, and should require no  
adjustments when properly installed. If however unit  
performance is questioned, perform the following  
checks.  
Secure Owner’s Approval  
When the system is functioning properly, secure the owner’s  
approval. Show the owner the location of all disconnect  
switches and the thermostat. Instruct the owner on how to  
start and stop the unit and how to adjust temperature settings  
within the limitations of the system.  
Suction Superheat  
Suction Superheat  
+/-3 Deg°F @ ARI  
Conditions 82° OD,  
80° IDDB/67° IDWB  
Liquid Line Subcooling  
+/-2 Deg°F @ ARI  
Series  
Size  
Conditions 82° OD,  
80° IDDB/67° IDWB  
-
17  
24  
30  
15  
19  
13  
15  
-
-
36  
42  
4PGE13  
-
-
-
48  
60  
18  
-
24,30  
12  
15  
-
-
36  
42  
4PGE15  
10  
7
-
-
48  
60  
8
Table 3  
506488-01  
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Page 11  
Insure unit is installed per manufacturer’s instructions and  
that line voltage and air flows are correct. Refer to Table 3  
for proper superheat or subcooling values. Check superheat  
settings by measuring pressure at the suction line service  
port. For TXV systems, measure pressure at the liquid  
service port. Take line temperature within 2 inches of service  
port connection to its main tube. If unit superheat/subcooling  
varies by more than table allowance, check internal seals,  
service panels and duct work for air leaks, as well as  
restrictions and blower speed settings. If unit performance  
remains questionable, remove charge, evacuate to 500  
Microns, and weigh in refrigerant to name plate charge. It is  
critical that the exact charge is re-installed. Failure to comply  
will compromise system performance. If unit performance  
is still questionable, check for refrigerant related problems  
such as, blocked coil or circuits, malfunctioning metering  
devices or other system components.  
in the 10-second interval, then the ignition control will  
de-energize the gas valve.  
4. The ignition control is designed to repeat this “trial for  
ignition” a total of three times. If, at the end of the third  
trial, a flame still has not been established, the ignition  
control will repeat the trial for ignition sequence 1 hour  
later. The 1-hour retry is indefinite. The ignition control  
can be reset by interrupting the unit power or the  
thermostat circuit.  
5. Thirty seconds (nominal) after the initial trial for ignition,  
the circulation air blower will start.  
6. When the thermostat is satisfied, the combustion blower  
and gas valve are de-energized. The circulating air  
blower motor will continue to run for a short period after  
the thermostat is satisfied.  
Heating System  
Circulating Air Blower  
With the proper thermostat and sub-base, continuous blower  
operation is possible by closing the R to G circuit. Cooling  
blower delay is also functional in this mode.  
Depending on the package unit model, the blower motor will  
be either a multi-tap PSC motor or a variable speed motor.  
PSC Motor  
Heating Sequence of Operation  
1. When the thermostat calls for heat, the combustion blower  
is energized by the ignition control.  
The circulating air blower is controlled by a timing circuit in the  
integrated blower/ignition control. Timings are not adjustable.  
Cooling – Blower “on” delay is 5 seconds after call for  
cooling. Blower “off” delay is 90 seconds after the cooling  
system shuts down.  
2. When the speed of the combustion blower reaches  
proper RPM, the pressure switch closes, initiating the  
pre-purge timing (30 seconds nominal).  
Heating – Blower “on” delay is 30 seconds nominal after  
burner ignition. Blower "off" delay is approximately 120  
seconds after the thermostat is satisfied.  
3. When pre-purge has expired, the ignition control energizes  
the gas valve, the spark electrode, and the flame sensor.  
The igniter sparks for 10 seconds, and the flame sensor  
senses that flame has been established. If the flame  
sensor does not sense that flame has been established  
Adjusting Airflow (Variable Speed Motor Equipped Units Only)  
Model  
Nominal  
Cooling  
kBTU  
Cooling CFM @.50 Static  
ADJUST, HEAT,  
and COOL Taps  
and Dehumidify  
Resistor  
on Interface  
Board  
Motor ADJUST  
HEAT  
Setting  
Heating  
Input  
kBTU  
COOL COOL COOL COOL  
Setting Setting Setting Setting  
HP  
Setting  
A
B
C
D
24, 30  
36  
68  
68  
1/3  
1/2  
1/2  
3/4  
3/4  
3/4  
NORM  
NORM  
NORM  
NORM  
NORM  
NORM  
A
B
A
C
C
A
1000  
1200  
1200  
1800  
1800  
1800  
800  
600  
900  
1000  
1000  
1600  
1600  
1600  
800  
1100  
1100  
1200  
1200  
1200  
ADJUST  
HEAT  
COOL  
NORM  
(+)  
A
B
A
B
36  
90  
800  
(–)  
TEST  
C
D
C
D
42, 48, 60  
42, 48, 60  
42, 48, 60  
83  
1400  
1400  
1400  
D1  
DEHUMIDIFY  
110  
138  
CUT TO ENABLE  
Table 4  
Page 12  
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506488-01  
Variable Speed Motor  
MAINTENANCE  
WARNING  
Units equipped with a variable speed circulation air blower  
motor will deliver a constant airflow within a wide range of  
external static pressures. Other features of this variable  
speed motor include:  
ELECTRICAL SHOCK, FIRE,  
OR EXPLOSION HAZARD  
Soft Start/Stop – The variable speed motor will slowly ramp  
up to normal operating speed. This minimizes noise and  
increases comfort by eliminating the initial blasts of air  
encountered with standard motors. At the end of a cooling  
or heating cycle, the motor will slowly ramp down.  
Failure to follow the safety warnings exactly could result  
in dangerous operation, serious injury, death, or property  
damage.  
Improper servicing could result in dangerous operation,  
serious injury, death, or property damage.  
Circulation Airflow Adjustments – The controls include a  
variable speed motor interface board. TheADJUST tap can  
be used to raise (+) or lower (–) the airflow by 15%.  
Before servicing, disconnect all electrical power to  
furnace.  
Heating and Cooling Airflows – The units are factory set  
for the correct heating and cooling airflows. However, airflow  
changes can be made by moving the position of the HEAT  
and COOL taps (see Table 4).  
When servicing controls, label all wires prior to  
disconnecting. Reconnect wires correctly.  
Verify proper operation after servicing.  
Continuous Blower – The comfort level of the living space  
can be enhanced when using this feature by allowing  
continuous circulation of air between calls for cooling or  
heating. The continuous circulation of air occurs at half the  
full cooling airflow rate. To use this feature, place the  
thermostat fan switch into the ON position.  
Flame Sensor  
If the ignition control does not receive a signal from the flame  
sensor indicating that the burners have established flame, the  
gas valve closes after the 10-second trial for ignition period.  
Cooling Airflow Ramp Up – At the beginning of a call for  
cooling, the blower will run at 80% of full airflow for 7.5  
minutes. This improves the system’s moisture removal and  
saves blower power during cooling start.  
Rollout Switch  
The switch is located above the main burners. In the event  
of a sustained flame rollout, the rollout switch causes the  
ignition control to close the gas valve. To reset, push the  
button on top of the switch.  
Reduced Airflow Operation (Dehumidification) – For  
situations where humidity control is an issue, the variable  
speed motor can be connected to operate at a 25% reduction  
in the normal airflow rate. The variable speed motor interface  
board provides for connection of a humidistat on the HUM  
terminal. When a humidistat is connected, the dehumidifier  
resistor on the interface must be cut. The humidistat should  
be wired to open during high humidity, which will reduce  
blower airflow.  
Auxiliary Limit (42, 48, and 60 units only)  
This control is located in the side of the circulation air blower  
housing. The switch causes the ignition control to close the  
gas valve should the circulation blower fail to operate. This  
control resets automatically.  
It is recommended that this furnace be inspected by a  
qualified service technician at the beginning of each heating  
season.  
Safety Controls  
The control circuit includes the following safety controls:  
Filters  
Filters should be checked at least every 6 weeks. Disposable  
filters should be replaced when dirty, and cleanable filters  
should be cleaned regularly. It is important to keep the air filters  
clean, as dirty filters can restrict airflow and the blower and  
induced draft motors depend upon sufficient air flowing across  
and through them to keep from overheating.  
Limit Control  
This control is located inside the heating compartment and is  
designed to open at abnormally high air temperatures. It resets  
automatically.Thelimitcontroloperateswhenahightemperature  
condition, caused by inadequate airflow, occurs. This causes  
the ignition control to close the gas valve. The circulation air  
blower continues to operate in this situation.  
Lubrication  
The blower motor and induced draft motor are pre-lubricated  
by the manufacturer and do not require further lubricating  
attention. However, the motors should be cleaned periodically  
to prevent the possibility of overheating due to an accumulation  
of dust and dirt on the windings or on the motor exterior.  
Pressure Switch  
The pressure switch prevents the gas valve and igniter from  
being energized if there is insufficient combustion air due to  
a failed combustion blower or a blocked vent.  
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Page 13  
Burners  
CONTROL SYSTEM DIAGNOSTICS  
Fault Codes  
Light the burners and allow to operate for a few minutes to  
establish normal burning conditions. Observe the burner  
flames. Compare this observation to Figure 10 on page 14 to  
determine if proper flame adjustment is present. Flame should  
be predominantly blue in color and strong in appearance.  
Check that all burners are lit, and that the flame does not  
impinge on the sides of the heat exchanger.  
LED  
Flashing  
Rate  
Fault  
Status  
Description  
One flash  
per second  
Normal operation:  
No call for heat  
Slow Flash  
Fast Flash  
Distorted flame or yellow tipping of the natural gas burner  
flame, or long yellow tips on propane, may be caused by lint  
accumulation or dirt inside the burner or burner ports, at the  
air inlet between the burner and manifold pipe, or  
obstructions over the burner orifice.  
Two flashes  
per second  
Normal operation:  
Call for heat  
Two flashes  
in second with  
1-second pause or sustain flame  
System lockout:  
Failed to detect  
2 Flash  
3 Flash  
4 Flash  
5 Flash  
Steady  
Three flashes in  
Pressure switch  
1.5 seconds with  
open or closed  
1-second pause  
Use a soft brush or vacuum to clean the affected areas.  
Four flashes in  
2 seconds with  
1-second pause  
High limit or  
rollout switch  
open  
Typical Flame Appearance  
Heat  
Exchanger  
Five flashes in  
2.5 seconds with  
1-second pause  
Flame sensed  
and gas valve  
not energized  
Burner  
Internal failure:  
Micro-controller  
failure; self-check  
--  
Gas  
Manifold  
Burner  
Flame  
(Blue Only)  
Table 5  
Figure 10  
Outdoor Coil  
Dirt and debris should not be allowed to accumulate on the  
outdoor coil surface or other parts in the air circuit. Cleaning  
should be as often as necessary to keep coil clean. Use a  
brush, vacuum cleaner attachment, or other suitable means.  
If water is used to clean the coil, be sure the power to unit is  
shut off prior to cleaning. Care should be used when cleaning  
the coil so that the coil fins are not damaged.  
Do not permit the hot condenser air discharge to be  
obstructed by overhanging structures or shrubs.  
Vent Outlet  
Visually inspect vent outlet periodically to make sure there is  
no buildup of soot and dirt. If necessary, clean to maintain  
adequate opening to discharge flue products.  
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506488-01  
Figure 11  
506488-01  
Issue 1008  
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M O D U L E  
G N O D S I A T I C  
A132  
B
A45  
T
S
CAHR  
WRSPED  
S1  
BOL  
K1  
R E D  
W H T  
G R N  
Y E L  
Y E L  
G R N  
B L U  
S E N S E  
F L A M E  
Y
G R  
G1V  
S4  
B L U  
R E D  
P U R  
P U R  
S12  
O R N  
B R N  
S01  
4
S18  
W H T  
O R N  
A3  
S W I T C H  
P R E S S U R E  
G R N  
B L U  
2 4 V  
R E D  
B L K  
B L U  
T1  
2 4 0 V  
2 0 8 V  
W H T  
B3  
W H T  
B L K  
B L K  
B L K  
B6  
B4  
E1  
A3  
BLK  
Y E L  
C21  
K1-  
R E D  
B L K  
K-12  
A312  
B1  
A312  
Figure 12  
Page 16  
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506488-01  
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