IO-347J 9.2013
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Transcript of IO-347J 9.2013
ment installed in violation of any codes or regulations. Ratedperformance is achieved after 72 hours of operation. Ratedperformance is delivered at the specified airflow. See outdoorunit specification sheet for split system models or productspecification sheet for packaged and light commercial mod-els. Specification sheets can be found atwww.goodmanmfg.com for Goodman® brand products orwww.amana-hac.com for Amana® brand products. Within ei-ther website, please select the residential or commercial prod-ucts menu and then select the submenu for the type of prod-uct to be installed, such as air conditioners or heat pumps, toaccess a list of product pages that each contain links to thatmodel’s specification sheet.
The United States Environmental Protection Agency (EPA)has issued various regulations regarding the introduc-tion and disposal of refrigerants. Failure to follow theseregulations may harm the environment and can lead tothe imposition of substantial fines. Should you have anyquestions please contact the local office of the EPA.If replacing a condensing unit or air handler, the system mustbe manufacturer approved and Air Conditioning, Heating andRefrigeration Institute (AHRI) matched. NOTE: Installation ofunmatched systems is strongly discouraged.
Outdoor units are approved for operation above 55°F in coolingmode. Operation below 55°F requires the use of an approvedlow ambient kit.
Operating the unit in a structure that is not complete (either aspart of new construction or renovation) will void the warranty.
FEATURES
This air conditioner is a part of the ComfortNet™ family of prod-ucts. It may be installed as part of a “legacy” system using astandard 24 VAC thermostat. However, with the CTK0*ComfortNet thermostat kit, this air conditioner may be installedas part of a digitally communicating system. The ComfortNetsystem provides automatic airflow configuration, enhanced setupfeatures, and enhanced diagnostics. It also reduces the num-ber of thermostat wires to a maximum of four and a minimumof two.
IMPORTANT SAFETY INSTRUCTIONS
The following symbols and labels are used throughout thismanual to indicate immediate or potential safety hazards. It isthe owner’s and installer’s responsibility to read and complywith all safety information and instructions accompanying thesesymbols. Failure to heed safety information increases the riskof personal injury, property damage, and/or product damage.
HIGH VOLTAGE !DISCONNECT ALL POWER BEFORE SERVICING. MULTIPLE POWER SOURCES MAY BE PRESENT. FAILURE TO DOS SO MAY CAUSE PROPERTY DAMAGE, PERSONAL INJURY OR DEATH.
WARNING
ONLY INDIVIDUALS MEETING THE REQUIREMENTS OF AN “ENTRY LEVEL TECHNICIAN” AS SPECIFIED BY THE AIR CONDITIONING, HEATING AND REFRIGERATION INSTITUTE (AHRI) MAY USE THIS INFORMATION. ATTEMPTING TO INSTALL OR REPAIR THIS UNIT WITHOUT SUCH BACKGROUND MAY RESULT IN PRODUCT DAMAGE, PERSONAL INJURY, OR DEATH.
, AT A MINIMUM,
WARNING
SCROLL EQUIPPED UNITS SHOULD NEVER BE USED TO EVACUATE THE AIR CONDITIONING SYSTEM. VACUUMS THIS LOW CAN CAUSE INTERNAL ELECTRICAL ARCING RESULTING IN A DAMAGED OR FAILED COMPRESSOR.
CAUTION
SHIPPING INSPECTION
Always keep the unit upright; laying the unit on its side or topmay cause equipment damage. Shipping damage, and subse-quent investigation is the responsibility of the carrier. Verifythe model number, specifications, electrical characteristics,and accessories are correct prior to installation. The distribu-tor or manufacturer will not accept claims from dealers for trans-portation damage or installation of incorrectly shipped units.
CODES & REGULATIONS
This product is designed and manufactured to comply withnational codes. Installation in accordance with such codes and/or prevailing local codes/regulations is the responsibility of theinstaller. The manufacturer assumes no responsibility for equip-
CONDENSING UNITAIR CONDITIONINGINSTALLATION & SERVICE REFERENCE
© 2009-2013 Goodman Manufacturing Company, L.P.5151 San Felipe, Suite 500, Houston, TX 77056www.goodmanmfg.com -or- www.amana-hac.comP/N: IO-347J Date: September 2013
is a registered trademark of Maytag Corporation or its related companies and is used underlicense to Goodman Company, L.P., Houston, TX. All rights reserved.
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INSTALLATION CLEARANCES
Special consideration must be given to location of the con-densing unit(s) in regard to structures, obstructions, other units,and any/all other factors that may interfere with air circulation.Where possible, the top of the unit should be completely unob-structed; however, if vertical conditions require placement be-neath an obstruction there should be a minimum of 60inches between the top of the unit and the obstruction(s).The specified dimensions meet requirements for air circulationonly. Consult all appropriate regulatory codes prior to deter-mining final clearances.Another important consideration in selecting a location for theunit(s) is the angle to obstructions. Either side adjacent thevalves can be placed toward the structure provided the sideaway from the structure maintains minimum service clearance.Corner installations are strongly discouraged.
OK!OK!
AA AAA
A
CC
C COK!
OK!
OK!OK!
NOTRECOMMENDED
AA
AA AA
AAAA
B B B
B
Model Type A B C AAResidential 10" 10" 18" 20"
Light Commercial 12" 12" 18" 24"
Minimum Airflow Clearance
This unit can be located at ground floor level or on flat roofs. Atground floor level, the unit must be on a solid, level foundationthat will not shift or settle. To reduce the possibility of soundtransmission, the foundation slab should not be in contact withor be an integral part of the building foundation. Ensure thefoundation is sufficient to support the unit. A concrete slabraised above ground level provides a suitable base.
ROOFTOP INSTALLATIONS
If it is necessary to install this unit on a roof structure, ensurethe roof structure can support the weight and that proper con-sideration is given to the weather-tight integrity of the roof. Sincethe unit can vibrate during operation, sound vibration transmis-sion should be considered when installing the unit. Vibrationabsorbing pads or springs can be installed between the con-densing unit legs or frame and the roof mounting assembly toreduce noise vibration.
SAFE REFRIGERANT HANDLING
While these items will not cover every conceivable situation,they should serve as a useful guide.
TO AVOID POSSIBLE INJURY, EXPLOSION OR DEATH, PRACTICE SAFE HANDLING OF REFRIGERANTS.
WARNING
REFRIGERANTS ARE HEAVIER THAN AIR. THEY CAN “PUSH OUT” THE OXYGEN IN YOUR LUNGS OR IN ANY ENCLOSED SPACE. TO AVOID POSSIBLE DIFFICULTY IN BREATHING OR DEATH:• NEVER PURGE REFRIGERANT INTO AN ENCLOSED ROOM OR SPACE. BY LAW, ALL REFRIGERANTS MUST BE RECLAIMED.• IF AN INDOOR LEAK IS SUSPECTED, THOROUGHLY VENTILATE THE AREA BEFORE BEGINNING WORK.• LIQUID REFRIGERANT CAN BE VERY COLD. TO AVOID POSSIBLE FROST BITE OR BLINDNESS, AVOID CONTACT AND WEAR GLOVES AND GOGGLES. IF LIQUID REFRIGERANT DOES CONTACT YOUR SKIN OR EYES, SEEK MEDICAL HELP IMMEDIATELY.• ALWAYS FOLLOW EPA REGULATIONS. NEVER BURN REFRIGERANT, AS POISONOUS GAS WILL BE PRODUCED.
WARNING
TO AVOID POSSIBLE EXPLOSION, USE ONLY RETURNABLE (NOT DISPOSABLE) SERVICE CYLINDERS WHEN REMOVING REFRIGERANT FROM A SYSTEM.• ENSURE THE CYLINDER IS FREE OF DAMAGE WHICH COULD LEAD TO A LEAK OR EXPLOSION.• ENSURE THE HYDROSTATIC TEST DATE DOES NOT EXCEED 5 YEARS.• ENSURE THE PRESSURE RATING MEETS OR EXCEEDS 400 PSIG.WHEN IN DOUBT, DO NOT USE CYLINDER.
WARNING
TO AVOID POSSIBLE EXPLOSION:• NEVER APPLY FLAME OR STEAM TO A REFRIGERANT CYLINDER. IF YOU MUST HEAT A CYLINDER FOR FASTER CHARGING, PARTIALLY IMMERSE IT IN WARM WATER.• NEVER FILL A CYLINDER MORE THAN 80% FULL OF LIQUID REFRIGERANT.• NEVER ADD ANYTHING OTHER THAN R‐22 TO AN R‐22 CYLINDER OR R‐ 410A TO AN R‐410A CYLINDER. THE SERVICE EQUIPMENT USED MUST BE LISTED OR CERTIFIED FOR THE TYPE OF REFRIGERANT USED.• STORE CYLINDERS IN A COOL, DRY PLACE. NEVER USE A CYLINDER AS A PLATFORM OR A ROLLER.
WARNING
REFRIGERANT LINES
THE COMPRESSOR POE OIL FOR R‐410A UNITS IS EXTREMELY SUSCEPTIBLE TO MOISTURE ABSORPTION AND COULD CAUSE COMPRESSOR FAILURE. DO NOT LEAVE SYSTEM OPEN TO ATMOSPHERE ANY LONGER THAN NECESSARY FOR INSTALLATION.
CAUTION
3
Use only refrigerant grade (dehydrated and sealed) copper tub-ing to connect the condensing unit with the indoor evaporator.After cutting the tubing, install plugs to keep refrigerant tubingclean and dry prior to and during installation. Tubing shouldalways be cut square keeping ends round and free from burrs.Clean the tubing to prevent contamination.Do NOT let refrigerant lines come in direct contact with plumb-ing, ductwork, floor joists, wall studs, floors, and walls. Whenrunning refrigerant lines through a foundation or wall, openingsshould allow for sound and vibration absorbing material to beplaced or installed between tubing and foundation. Any gapbetween foundation or wall and refrigerant lines should be filledwith a pliable silicon-based caulk, RTV or a vibration dampingmaterial. Avoid suspending refrigerant tubing from joists andstuds with rigid wire or straps that would come in contact withthe tubing. Use an insulated or suspension type hanger. Keepboth lines separate and always insulate the suction line.These sizes are suitable for line lengths of 79 feet or less. If arun of more than fifty feet is required, refer to Remote CoolingService Manual, or TP-106 Long Line Set Application R-22, orTP-107 Long Line Set Application R-410A or contact your dis-tributor for assistance.Insulation is necessary to prevent condensation from formingand dropping from the suction line. Armflex (or satisfactoryequivalent) with 3/8” min. wall thickness is recommended. Insevere conditions (hot, high humidity areas) 1/2” insulation maybe required. Insulation must be installed in a manner whichprotects tubing from damage and contamination.Where possible, drain as much residual compressor oil fromexisting systems, lines, and traps; pay close attention to lowareas where oil may collect. NOTE: If changing refrigeranttypes, ensure the indoor coil and metering device is compat-ible with the type of refrigerant being used; otherwise, the in-door coil must be replaced.
CondUnitTons Suct Liq Suct Liq Suct Liq1 1/2 5/8 1/4 3/4 3/8 3/4 3/8
2 5/8 1/4 3/4 3/8 3/4 3/82 1/2 5/8 1/4 3/4 3/8 7/8 3/8
3 3/4 3/8 7/8 3/8 1 1/8 3/83 1/2 7/8 3/8 1 1/8 3/8 1 1/8 3/8
4 7/8 3/8 1 1/8 3/8 1 1/8 3/85 7/8 3/8 1 1/8 3/8 1 1/8 3/8
Line Diameter (In. OD)
RECOMMENDED INTERCONNECTING TUBING (Ft)0-24 25-49 50-79*
* Lines greater than 79 feet in length or vertical elevation changes more than 50 feet refer to the Remote Cooling Service Manual or contact your distributor for assistance.
BURYING REFRIGERANT LINES
If burying refrigerant lines can not be avoided, use the followingchecklist.1. Insulate liquid and suction lines separately.2. Enclose all underground portions of the refrigerant lines
in waterproof material (conduit or pipe) sealing the endswhere tubing enters/exits the enclosure.
3. If the lines must pass under or through a concrete slab,ensure lines are adequately protected and sealed.
REFRIGERANT LINE CONNECTIONS
IMPORTANT
To avoid overheating the service valve, TXV valve,or filter drier while brazing, wrap the componentwith a wet rag, or use a thermal heat trap compound.Be sure to follow the manufacturer’s instruction whenusing the heat trap compound. Note: RemoveSchrader valves from service valves before brazingtubes to the valves. Use a brazing alloy of 2%minimum silver content. Do not use flux.
4
Torch heat required to braze tubes of various sizesis proportional to the size of the tube. Tubes ofsmaller size require less heat to bring the tube tobrazing temperature before adding brazing alloy.Applying too much heat to any tube can melt thetube. Service personnel must use the appropriateheat level for the size of the tube being brazed. NOTE:The use of a heat shield when brazing isrecommended to avoid burning the serial plate orthe finish on the unit.
1. The ends of the refrigerant lines must be cut square,deburred, cleaned, and be round and free from nicks ordents. Any other condition increases the chance of arefrigerant leak.
2. “Sweep” the refrigerant line with nitrogen or inert gasduring brazing to prevent the formation of copper-oxideinside the refrigerant lines. The POE oils used in R-410A applications will clean any copper-oxide presentfrom the inside of the refrigerant lines and spread itthroughout the system. This may cause a blockage orfailure of the metering device.
3. After brazing, quench the joints with water or a wet clothto prevent overheating of the service valve.
4. Ensure the filter drier paint finish is intact after brazing.If the paint of the steel filter drier has been burned orchipped, repaint or treat with a rust preventative. This isespecially important on suction line filter driers whichare continually wet when the unit is operating.
NOTE: Be careful not to kink or dent refrigerant lines. Kinkedor dented lines will cause poor performance or compressordamage.
Do NOT make final refrigerant line connection until plugsare removed from refrigerant tubing.
NOTE: Before brazing, verify indoor piston size by checkingthe piston kit chart packaged with indoor unit.
LEAK TESTING (NITROGEN OR NITROGEN-TRACED)
TO AVOID THE RISK OF FIRE OR EXPLOSION, NEVER USE OXYGEN, HIGH PRESSURE AIR OR FLAMMABLE GASES FOR LEAK TESTING OF A REFRIGERATION SYSTEM.
WARNING
TO AVOID POSSIBLE EXPLOSION, THE LINE FROM THE NITROGEN CYLINDER MUST INCLUDE A PRESSURE REGULATOR AND A PRESSURE RELIEF VALVE. THE PRESSURE RELIEF VALVE MUST BE SET TO OPEN AT NO MORE THAN 150 PSIG.
WARNING
Pressure test the system using dry nitrogen and soapy waterto locate leaks. If you wish to use a leak detector, charge thesystem to 10 psi using the appropriate refrigerant then usenitrogen to finish charging the system to working pressure thenapply the detector to suspect areas. If leaks are found, repairthem. After repair, repeat the pressure test. If no leaks exist,proceed to system evacuation.
SYSTEM EVACUATION
Condensing unit liquid and suction valves are closed to containthe charge within the unit. The unit is shipped with the valvestems closed and caps installed. Do not open valves untilthe system is evacuated.
REFRIGERANT UNDER PRESSURE!FAILURE TO FOLLOW PROPER PROCEDURES MAY CAUSE PROPERTY DAMAGE, PERSONAL INJURY OR DEATH.
WARNING
NOTE: Scroll compressors should never be used to evacuateor pump down a heat pump or air conditioning system.
PROLONGED OPERATION AT SUCTION PRESSURES LESS THAN 20 PSIG FOR MORE THAN 5 SECONDS WILL RESULT IN OVERHEATING OF THE SCROLLS AND PERMANENT DAMAGE TO THE SCROLL TIPS, DRIVE BEARINGS AND INTERNAL SEAL.
CAUTION
1. Connect the vacuum pump with 250 micron capabilityto the service valves.
2. Evacuate the system to 250 microns or less usingsuction and liquid service valves. Using both valves isnecessary as some compressors create a mechanicalseal separating the sides of the system.
3. Close pump valve and hold vacuum for 10 minutes.Typically pressure will rise during this period.
• If the pressure rises to 1000 microns or less and remainssteady the system is considered leak-free; proceed tostartup.
• If pressure rises above 1000 microns but holds steadybelow 2000 microns, moisture and/or noncondensiblesmay be present or the system may have a small leak.Return to step 2: If the same result is encountered checkfor leaks as previously indicated and repair as necessarythen repeat evacuation.
• If pressure rises above 2000 microns, a leak is present.Check for leaks as previously indicated and repair asnecessary then repeat evacuation.
5
5000
4500
4000
3500
3000
2500
2000
1500
1000
500
0 1 2 3 4 5 6 7 8 9 10
LEAK(S)PRESENT
MINUTES
VA
CU
UM
IN M
ICR
ON
S
CONDENSIBLES OR SMALLLEAK PRESENT
NO LEAKSNO CONDENSIBLES
ELECTRICAL CONNECTIONS
HIGH VOLTAGE!DISCONNECT ALL POWER BEFORE SERVICING. MULTIPLE POWER SOURCES MAY BE PRESENT. FAILURE TO DO SO MAY CAUSE PROPERTY DAMAGE, PERSONAL INJURY OR DEATH DUE TO ELECTRIC SHOCK. WIRING MUST CONFORM WITH NEC OR CEC AND ALL LOCAL CODES. UNDERSIZED WIRES COULD CAUSE POOR EQUIPMENT PERFORMANCE, EQUIPMENT DAMAGE OR FIRE.
WARNING
TO AVOID THE RISK OF FIRE OR EQUIPMENT DAMAGE, USE COPPER CONDUCTORS.
WARNING
UNITS WITH RECIPROCATING COMPRESSORS AND NON‐BLEED TXV’S REQUIRE A HARD START KIT.
NOTICE
The condensing unit rating plate lists pertinent electrical datanecessary for proper electrical service and overcurrent protec-tion. Wires should be sized to limit voltage drop to 2% (max.)from the main breaker or fuse panel to the condensing unit.Consult the NEC, CEC, and all local codes to determine thecorrect wire gauge and length.Local codes often require a disconnect switch located near theunit; do not install the switch on the unit. Refer to the installa-tion instructions supplied with the indoor furnace/air handler forspecific wiring connections and indoor unit configuration. Like-wise, consult the instructions packaged with the thermostatfor mounting and location information.
OVERCURRENT PROTECTION
The following overcurrent protection devices are approved foruse.
• Time delay fuses• HACR type circuit breakers
These devices have sufficient time delay to permit the motor-compressor to start and accelerate its load.
HIGH VOLTAGE CONNECTIONS
Route power supply and ground wires through the high voltageport and terminate in accordance with the wiring diagram pro-vided inside the control panel cover.
LOW VOLTAGE CONNECTIONS
Condensing unit control wiring requires a nominal 24 VAC (+/-6 VAC), 60 Hz, minimum 25 VA service from either the indooror outdoor transformer packaged with the optional CTK0* com-municating thermostat kit. Low voltage wiring for the condens-ing units depends on the thermostat used. The unit is de-signed to work as part of a fully communicating HVAC systemutilizing the ComfortNet™, CTK0* thermostat, ComfortNet com-patible indoor unit, and up to four wires. The unit also haslegacy 24 VAC inputs to support non-communicating systems.Route control wires through the low voltage port and terminatein accordance with the wiring diagram provided inside the con-trol panel cover.
HIGHVOLTAGEPORT
LOWVOLTAGEPORT
Voltage Ports
NOTE: If the condensing unit is wired in the communicatingmode together with the compatible communicating indoor unitand thermostat, then the communicating thermostat is able tosearch and identify the condensing unit when power is appliedto the system. Refer to the Installation Manual of thecommunicating thermostat for more information.
Y2
Y2
OD UNIT
FURNACE ORAIR HANDLER
ThermostatTwo-Stage Heating
withTwo-Stage Cooling
Y2
Two-Stage Non-Communicating ThermostatLow Voltage Wire Connection (legacy mode)
6
2
R COMMUNICATINGOD UNIT
COMMUNICATINGFURNACE ORAIR HANDLER
CommunicatingThermostat2
Two-Stage Communicating ThermostatLow Voltage Wire Connection (communicating mode)
SYSTEM START UP
POSSIBLE REFRIGERANT LEAK!TO AVOID A POSSIBLE REFRIGERANT LEAK, OPEN THE SERVICE VALVES UNTIL THE TOP OF THE STEM IS 1/8” FROM THE RETAINER.
CAUTION
NOTE: Power must be supplied to the 18 SEER outdoor unitscontaining ECM motors before the power is applied to the in-door unit. Sending a low voltage signal without high voltagepower present at the outdoor unit can cause malfunction of thecontrol module on the ECM motor.Adequate refrigerant charge for the matching HSVTC evapora-tor coil and 15 feet of lineset is supplied with the condensingunit. If using evaporator coils other than HSVTC coil it maybenecessary to add or remove refrigerant to attain proper charge.If line set exceeds 15 feet in length, refrigerant should be addedat .6 ounces per foot of liquid line.NOTE: Charge should always be checked using superheatwhen using a piston and subcooling when using TXV equippedindoor coil to verify proper charge.Open the suction service valve first! If the liquid service valve isopened first, oil from the compressor may be drawn into theindoor coil TXV, restricting refrigerant flow and affecting opera-tion of the system.When opening valves with retainers, open each valve only untilthe top of the stem is 1/8” from the retainer. To avoid loss ofrefrigerant, DO NOT apply pressure to the retainer. When open-ing valves without a retainer remove service valve cap and in-sert a hex wrench into the valve stem and back out the stemby turning the hex wrench counterclockwise. Open the valveuntil it contacts the rolled lip of the valve body.
NOTE: These are not back-seating valves. It is not necessaryto force the stem tightly against the rolled lip.
After the refrigerant charge has bled into the system, open theliquid service valve. The service valve cap is the secondaryseal for the valves and must be properly tightened to preventleaks. Make sure cap is clean and apply refrigerant oil to threadsand sealing surface on inside of cap. Tighten cap finger-tightand then tighten additional 1/6 of a turn (1 wrench flat) to prop-erly seat the sealing surfaces.
Do not introduce liquid refrigerant from the cylinder intothe crankcase of the compressor as this may damage thecompressor.1. Break vacuum by fully opening liquid and suction base
valves.2. Set thermostat to call for cooling. Check indoor and
outdoor fan operation and allow system to stabilize for10 minutes for fixed orifices and 20 minutes for expansionvalves.
CHARGE VERIFICATION
REFRIGERANT UNDER PRESSURE!• DO NOT OVERCHARGE SYSTEM WITH REFRIGERANT.• DO NOT OPERATE UNIT IN A VACUUM OR AT NEGATIVE PRESSURE.FAILURE TO FOLLOW PROPER PROCEDURES MAY CAUSE PROPERTY DAMAGE, PERSONAL INJURY OR DEATH.
WARNING
USE REFRIGERANT CERTIFIED TO AHRI STANDARDS. USED REFRIGERANT MAY CAUSE COMPRESSOR DAMAGE, AND THE WARRANTY. MOST PORTABLE MACHINES CANNOT CLEAN USED REFRIGERANT TO MEET AHRI STANDARDS.
IS NOT COVERED UNDER
CAUTION
VIOLATION OF EPA REGULATIONS MAY RESULT IN FINES OR OTHER PENALTIES.
NOTICE
OPERATING THE COMPRESSOR WITH THE SUCTION VALVE CLOSED CAUSE SERIOUS COMPRESSOR DAMAGE.
MAY
CAUTION
FINAL CHARGE ADJUSTMENT
The outdoor temperature must be 60°F or higher. Set the roomthermostat to COOL, fan switch to AUTO, and set the tem-perature control well below room temperature.After system has stabilized per startup instructions, checksubcooling and superheat as detailed in the following section.
TO PREVENT PERSONAL INJURY, CAREFULLY CONNECT AND DISCONNECT MANIFOLD GAUGE HOSES. ESCAPING LIQUID REFRIGERANT CAN CAUSE BURNS. DO NOT VENT REFRIGERANT INTO THE ATMOSPHERE. RECOVER ALL REFRIGERANT DURING SYSTEM REPAIR AND BEFORE FINAL UNIT DISPOSAL.
CAUTION
EXPANSION VALVE SYSTEM
NOTE: Units matched with indoor coils equipped withnon-adjustable TXV should be charged by subcoolingonly.
7
Run the remote on low stage cooling for 10 minutes until refrig-erant pressures stabilize. Use the following guidelines and meth-ods to check unit operation and ensure that the refrigerantcharge is within limits. Charge the unit on low stage.1. Purge gauge lines. Connect service gauge manifold to
base-valve service ports.2. Temporarily install a thermometer on the liquid line at
the liquid line service valve and 4-6" from the compressoron the suction line. Ensure the thermometer makesadequate contact and is insulated for best possiblereadings. Use liquid line temperature to determine sub-cooling and vapor temperature to determine superheat.
3. Check subcooling and superheat. Systems with TXVapplication should have a subcooling of 5 to 7ºF andsuperheat of 7 to 9 ºF.
a. If subcooling and superheat are low, adjust TXV to 7to 9 ºF superheat, then check subcooling.NOTE: To adjust superheat, turn the valve stemclockwise to increase and counter clockwise to de-crease.
b. If subcooling is low and superheat is high, add chargeto raise subcooling to 5 to 7 ºF then check super-heat.
c. If subcooling and superheat are high, adjust TXVvalve to 7 to 9 ºF superheat, then check subcooling.
d. If subcooling is high and superheat is low, adjustTXV valve to 7 to 9 ºF superheat and remove chargeto lower the subcooling to 5 to 7 ºF.NOTE: Do NOT adjust the charge based on suctionpressure unless there is a gross undercharge.
4. Disconnect manifold set, installation is complete.
NOTE: Check the Schrader ports for leaks and tighten valvecores if necessary. Install caps finger-tight.
SUPERHEAT FORMULA =
SUCT. LINE TEMP. - SAT. SUCT. TEMP.
LIQUID PRESSURE
PSIG R-22 R-410A 200 101 70210 105 73220 108 76225 110 78235 113 80245 116 83255 119 85265 121 88275 124 90285 127 92295 130 95305 133 97325 137 101355 144 108375 148 112405 155 118415 157 119425 n/a 121435 n/a 123445 n/a 125475 n/a 130500 n/a 134525 n/a 138550 n/a 142575 n/a 145600 n/a 149625 n/a 152
SATURATED LIQUID PRESSURE TEMPERATURE CHART
SATURATED LIQUID TEMPERATURE ºF
SUCTION PRESSURE
PSIG R-22 R-410A 50 26 152 28 354 29 456 31 658 32 760 34 862 35 1064 37 1166 38 1368 40 1470 41 1572 42 1674 44 1776 45 1978 46 2080 48 2185 50 2490 53 2695 56 29
100 59 31110 64 36120 69 41130 73 45140 78 49150 83 53160 86 56170 90 60
SATURATED SUCTION PRESSURE TEMPERATURE CHART
SATURATED SUCTION TEMPERATURE ºF
8
ADDITIONAL NOTES:1. There are (4) LEDs on the PCB. See the Troubleshooting
Tables at the end of this manual for definitions of theLED status.
2. When system is at Standby mode, press “TEST” pushbutton to turn on both compressor and outdoor fan forfive (5) seconds.
3. Press “RECALL” push-button to retrieve the six mostrecent faults. The control must be in Standby Mode (nothermostat inputs) to use the feature. Depress the push-button for approximately two seconds and less than fiveseconds. The LEDs will then display the six most recentfaults beginning with the most recent fault anddecrementing to the least recent fault. The faults maybe cleared by depressing the button for greater than fiveseconds. Consecutively repeated faults are displayeda maximum of three times. Refer to the fault codedefinitions at the end of this manual for more details.
4. “TERM” dipswitch is used for communications busconfiguration. Leave the settings to the factory defaultposition.
5. “LEARN” push button is used in communication modeto support device recognition on start-up. As thecommunication system supports automatic identificationof both indoor unit and outdoor unit, this button is notused for a normal start-up.
COMFORTNET™ SYSTEM
OVERVIEW
The ComfortNet system (or CT system) is a system that in-cludes a ComfortNet compatible air handler/furnace/modularblower and air conditioner or heat pump with a CTK0*AA ther-mostat. Any other system configurations are considered in-valid ComfortNet systems and must be connected as a tradi-tion (or legacy) system. The table below compares the validCT systems.
CT compatib leAir Handler/Furnace/Modular
Blower
CT compatib leAir Conditioner
Full CT systembenefits & features
CT compatib leAir Handler/Furnace/Modular
Blower
CT compatib leHeat Pump
Full CT systembenefits & features
A ComfortNet heating/air conditioning system differs from alegacy/traditional system in the manner in which the indoorunit, outdoor unit and thermostat interact with one another. Ina traditional system, the thermostat sends commands to theindoor and outdoor units via analog 24 VAC signals. It is aone-way communication path in that the indoor and outdoorunits typically do not return information to the thermostat.
On the other hand, the indoor unit, outdoor unit, and thermo-stat comprising a ComfortNet system “communicate” digitallywith one another. It is now a two-way communications path.The thermostat still sends commands to the indoor and out-door units. However, the thermostat may also request andreceive information from both the indoor and outdoor units. Thisinformation may be displayed on the CT thermostat. The in-door and outdoor units also interact with one another. Theoutdoor unit may send commands to or request informationfrom the indoor unit. This two-way digital communicationsbetween the thermostat and subsystems (indoor/outdoor unit)and between subsystems is the key to unlocking the benefitsand features of the ComfortNet system.Two-way digital communications is accomplished using onlytwo wires. The thermostat and subsystem controls are pow-ered with 24 VAC Thus, a maximum of 4 wires between theequipment and thermostat is all that is required to operate thesystem.
AIRFLOW CONSIDERATIONS
Airflow demands are managed differently in a fully communi-cating system than they are in a legacy wired system. Thesystem operating mode (as determined by the thermostat)determines which unit calculates the system airflow demand.If the indoor unit is responsible for determining the airflow de-mand, it calculates the demand and sends it to the ECM motor.If the outdoor unit or thermostat is responsible for determiningthe demand, it calculates the demand and transmits the de-mand along with a fan request to the indoor unit. The indoorunit then sends the demand to the ECM motor. The followingtable lists the various ComfortNet™ systems, the operatingmode, and airflow demand source.
SystemSystem
Operating M odeAirflow Dem and
Source
Cooling Air Conditioner
Heating Air Handler
Continuous Fan Thermostat
Cooling Air Conditioner
Heating Furnace
Continuous Fan Thermostat
A ir Conditioner + A ir Handler
A ir Conditioner + Furnace
9
For example, assume the system is an air conditioner matchedwith an air handler. With a call for low stage cooling, the airconditioner will calculate the system’s low stage cooling air-flow demand. The air conditioner will then send a fan requestalong with the low stage cooling airflow demand to the airhandler. Once received, the air handler will send the low stagecooling airflow demand to the ECM motor. The ECM motorthen delivers the low stage cooling airflow. The table belowlists the nominal high and low stage airflow for the ComfortNetair conditioners.
M odel High Low*SXC160241 800 600*SXC160361 1200 800*SXC160481 1550 1100*SXC160601 1800 1400*SXC180361 1250 850*SXC180481 1750 1210*SXC180601 1750 1210
CTK0* WIRING
NOTE: Refer to Electrical Connections - High VoltageConnections for 208/230 volt line connections to the airconditioner.
NOTE: A removable plug connector is provided with the controlto make thermostat wire connections. This plug may beremoved, wire connections made to the plug, and replaced. Itis strongly recommended that multiple wires into a singleterminal be twisted together prior to inserting into the plugconnector. Failure to do so may result in intermittent operation.
Typical 18 AWG thermostat wire may be used to wire the sys-tem components. However, communications reliability maybe improved by using a high quality, shielded, twisted pair cablefor the data transmission lines. In either case, 100 feet is themaximum length of wire between indoor unit and outdoor unit,or between indoor unit and thermostat.
FOUR-WIRE INDOOR AND OUTDOOR WIRING
Typical wiring will consist of four wires between the indoor unitand outdoor unit and between the indoor unit and thermostat.The required wires are: (a) data lines, 1 and 2; (b) thermostat“R” (24 VAC hot) and “C” (24 VAC common).
1 2 R C
1 2 R C
CTK0*Thermostat
CT CompatibleAir Handler/Furnace/Modular BlowerIntegrated Control Module
CT Compatible AC/HPIntegrated Control Module
1 2 R C
System Wiring Using Four-Wires
TWO-WIRE OUTDOOR, FOUR-WIRE INDOOR WIRING
Two wires only may be utilized between the indoor and outdoorunits. For this wiring scheme, only the data lines, 1 and 2, arerequired between the indoor and outdoor units. A 40 VA, 208/230 VAC to 24 VAC transformer must be installed in the out-door unit to provide 24 VAC power to the outdoor unit’s elec-tronic control. The transformer is included with the CTK0* kit.See kit instructions for mounting and wiring instructions. Fourwires are required between the indoor unit and thermostat.
NOTE: Use of the CTK0* transformer is recommended ifinstalling a dual fuel system. Failure to use the transformer inthe outdoor unit could result in over loading of the furnacetransformer.
1 2 R C
1 2 R C
CTK0*Thermostat
CT Compatible Air Handler/Furnace/ModularBlower Integrated Control Module
CT CompatibleAC/HP IntegratedControl Module
40VA Transformer (included in CTK0* kit)
208/230 VAC 24 VAC
1 2 R C
System Wiring using Two-Wires between Furnace and AC/HPand Four-Wires between Furnace and Thermostat
COMFORTNET™ SYSTEM ADVANCED FEATURES
The ComfortNet system permits access to additional systeminformation, advanced setup features, and advanced diagnos-tic/troubleshooting features. These advanced features are or-ganized into a menu structure. The menus are accessed andnavigated as described below.
ACCESSING AND NAVIGATING THE ADVANCED FEATURES MENUS
The advanced system features are accessed using theComfortNet thermostat. These advanced features are accessedas follows:
• On the CT thermostat Home Screen Display, touchthe Menu key to display additional key choices.
• Touch and hold the Installer Config key forapproximately three seconds to enter the ThermostatOptions Configuration menu.
• Touch and hold the Installer Config key again forapproximately three seconds to enter the AdvancedInstaller Configuration menu.
10
Clean Display InstallerConfig
Set Time Set Schedule
R unSchedule
Upon entering the advanced menus, the Advanced Fault Menuis displayed. The display will change to the Fault Screen andindicate any faults that may be present in the indoor or outdoorequipment. If a fault is present, the Fault Screen will show theequipment and an error code with a description of the fault.Touch _ or + keys to view the fault status of any remainingequipment. The text “NO FAULTS” will be scrolled if no errorsare present.
MenuRun
Schedule
Call for Service
Advanced
MenuRun
Schedule
Call for Service
Advanced
Touch the + or _ to step through the list of installed equip-ment, including the thermostat. Touch the Installer Configkey to enter the submenus for the equipment displayed. Thetext “WORKING” will be displayed in the scrolling displayarea while the data is being retrieved. The first sub-menu isthen displayed. See tables below for listing of air conditionersubmenus.
Touch the + or _ to step through the list of submenus andview settings. If a setting can be adjusted, _ and + keys willappear. Use the _ or + keys to adjust the setting to thedesired value. Touch the + or _ to step to the next item.“WORKING” will appear as the settings are being updated.“DONE” will appear to indicate the change was accepted. Ifthe change is not accepted, the display will show “FAIL” thenrevert to the Fault Screen.Some parameters being displayed switch between the itemname and the item value. Touch the Hold key to momentarilystop the display from switching.To exit an equipment submenu and revert back to the equip-ment menus, touch the Menu key. Touch Menu again to re-vert back to the Thermostat Options Menu. Touch the RunSchedule key to step out of all menus and back to the CTthermostat Home Screen Display.
11
AIR CONDITIONER/HEAT PUMP ADVANCED FEATURES MENU
Submenu Item Indication (for Display Only; not User Modifiable)Number of AC Stages (CL STG) Displays the number of air conditioning stages; applies to AC and HP.Number of HP Stages (HT STG) Displays the number of heat pump stages; applies to HP only.
AC Tonnage (TONS) Displays the air conditioning tonnage; applies to AC and HP.
CONFIGURATION
Submenu Item Indication/User Modifiable Options Comments
Fault 1 (FAULT #1) Most recent AC/HP fault For display onlyFault 2 (FAULT #2) Next most recent AC/HP fault For display onlyFault 3 (FAULT #3) Next most recent AC/HP fault For display onlyFault 4 (FAULT #4) Next most recent AC/HP fault For display onlyFault 5 (FAULT #5) Next most recent AC/HP fault For display onlyFault 6 (FAULT #6) Least recent AC/HP fault For display onlyClear Fault History (CLEAR) NO or YES Selecting "YES" clears the fault
historyNOTE: Consecutively repeated faults are shown a maximum of three (3) times.
DIAGNOSTICS
Submenu Item Indication (for Display Only; not User Modifiable)Model Number (MOD NUM) Displays the air conditioner or heat pump model numberSerial Number (SER NUM) Displays the air conditioner or heat pump serial number (Optional)Software (SOFTWARE) Displays the application software revision
IDENTIFICATION
Submenu Item User Modifiable Options CommentsOutdoor Air Temperature
(AIR TMP)Displays the outdoor air temperature Sensor may or may not be
available on an air conditioner. Check air conditioner instructions for details.
Outdoor Coil Temperature(COIL TMP)
Displays the outdoor coil temperature
Applies to heat pump only. Required for heat pump operation.
SENSORS
12
Submenu Item User Modifiable Options CommentsCool Airflow Trim
(CL TRM)-10% to +10% in 2% increments, default is 0%
Selects the airflow trim amount; applies to air conditioner only.
Cool Airflow Profile(CL PRFL)
A, B, C, or D, default is A Selects the airflow profile; applies to air conditioner only.
Cool ON Delay(CL ON)
5, 10, 20, or 30 seconds, default is 5 seconds
Selects the indoor blower ON delay; applies to air conditioner only.
Cool OFF Delay(CL OFF)
30, 60, 90, or 120 seconds, default is 30 seconds
Selects the indoor blower OFF delay; applies to air conditioner only.
Dehumidification Select (DEHUM)
ON or OFF (default is OFF) Selecting "OFF" disables dehumidification; selecting "ON" enables dehumidification; applies to air conditioner only.
COOL SET-UP
Submenu Item Indication (for Display Only; not User Modifiable)Mode (MODE) Displays the current air conditioner or heat pump operating modeCFM (CFM Displays the airflow for the current operating mode
STATUS
Submenu Item User Modifiable Options CommentsHeat Airflow Trim
(HT TRM)-10% to +10% in 2% increments, default is 0%
Selects the airflow trim amount; applies to heat pump only.
Heat ON Delay(HT ON)
5, 10, or 15 seconds, default is 5 seconds
Selects the indoor blower heat ON delay; applies to heat pump only.
Heat OFF Delay(HT OFF)
30, 50, 70, or 90 seconds, default is 30 seconds
Selects the indoor blower heat OFF delay; applies to heat pump only.
Defrost Interval(DEFROST)
30, 60, 90, or 120 minutes, default is 30 minutes.
Selects the time interval between defrosts; applies to heat pump only.
Compressor Delay(CMP DLY)
0, 5, 15, or 30 seconds, default is 5 seconds
Selects the compressor off time after a reversing valve shift; applies to heat pump only.
HEAT SET-UP
13
DIAGNOSTICS
Accessing the air conditioner/heat pump diagnostics menu pro-vides ready access to the last six faults detected by the airconditioner/heat pump. Faults are stored most recent to leastrecent. Any consecutively repeated fault is stored a maximumof three times. Example: The power supply to the air condi-tioner/heat pump is continuously below 187 VAC. The controlwill only store this fault the first three consecutive times thefault occurs. Navigate to the diagnostics menu as describedabove in Accessing and Navigating the Advanced FeaturesMenus.
NOTE: It is highly recommended that the fault history be clearedwhen performing maintenance or servicing the furnace.
NETWORK TROUBLESHOOTING
Communications is achieved by taking the difference betweena positive dc signal and a negative dc signal. The positive dcsignal is termed “data 1” or “1”. Data 1 is positive with respectto ground (or common). The negative dc signal is termed “data2” or “2”. Data 2 is negative with respect to ground (or com-mon).Data 1 should be approximately 2.8 volts dc. Data 2 should beapproximately 2.2 volts dc. The voltage difference betweendata 1 and data 2 should be approximately 0.6 volts dc.Verify that the bus TERM dipswitches are in the ON position.
1
2
OFF ON
TERM
TERM
The ComfortNet™ system is a fully communicating system,and thus, constitutes a network. Occasionally the need totroubleshoot the network may arise. The integrated controlmodule has some on-board tools that may be used to trouble-shoot the network. These tools are: red communications LED,green receive (Rx) LED, and learn button.
• Red communications LED - Indicates the status ofthe network. The table below indicates the LED statusand the corresponding potential problem.
• Green receive LED - Indicates network traffic. Thetable below indicates the LED status and thecorresponding potential problem.
• LEARN button - Used to reset the network. Depressthe button for approximately 2 seconds to reset thenetwork.
SYSTEM TROUBLESHOOTING
NOTE: Refer to the instructions accompanying the CTcompatible indoor air handler/furnace/modular blower unit fortroubleshooting information.
Refer to the Troubleshooting Chart at the end of this manual fora listing of possible air conditioner and heat pump error codes,possible causes and corrective actions.
14
LED LED Status Indication Possible Causes Corrective Action(s) Notes & CautionsOff • Normal condition • None • None • None
• Depress once quickly for a power-up reset• Depress and hold for 2 seconds for an out-of-box reset
• Control power up• Learn button depressed
• No power • No power to furnace • Check fuses and circuit breakers; replace/reset
• Communications error • Open fuse • Replace blown fuse• Communications error • Check for shorts in low
voltage wiring system• Reset network by depressing learn button• Check data 1/ data 2 voltages
• Broken/ disconnected data wire(s)
• Check communications wiring (data 1/ data 2 wires)
• Turn power OFF prior to repair
• AC/HP is installed as a legacy/ traditional system
• Check wire connections at terminal block
• Verify wires at terminal blocks are securely twisted together prior to inserting into terminal block
• Verify installation type (legacy/ traditional or communicating)• Check data 1/ data 2 voltages
Rapid Flashing • Normal network traffic • Control is “talk ing” on network as expected
• None • None
• Data 1 and data 2 wires reversed at indoor unit, thermostat, or CT compatible outdoor unit
• Check communications wiring (data 1/ data 2 wires)
• Turn power OFF prior to repair
• Short between data 1 and data 2 wires
• Check wire connections at terminal block
• Verify wires at terminal blocks are securely twisted together prior to inserting into terminal block
• Short between data 1 or data 2 wires and R (24 VAC) or C (24 VAC common)
• Check data 1/ data 2 voltages
• None
Green Receive LED
Off • Turn power OFF prior to repair
1 Steady Flash • No network found
On Solid • Data 1/ Data 2 miss-wire
Red Communications LED
• Depress LEARN Button
2 Flashes • Out-of-box reset • None
1 Flash • Communications Failure • Communications Failure
15
UNIT TROUBLESHOOTING INFORMATION
For detailed service information refer to the Remote Condensing Unit Service manual.
Complaint Unsatisfactory Cooling
POSSIBLE CAUSE
DOTS IN ANALYSISGUIDE INDICATE
"POSSIBLE CAUSE" SYM
PTO
M
Syst
em w
ill no
t sta
rt
Com
pres
sor w
ill no
t sta
rt - f
an ru
ns
Com
pres
sor a
nd C
onde
nser
Fan
will
not s
tart
Evap
orat
or fa
n w
ill no
t sta
rt
Con
dens
er fa
n w
ill no
t sta
rt
Com
pres
sor r
uns
- goe
s of
f on
over
load
Com
pres
sor c
ycle
s on
ove
rload
Syst
em ru
ns c
ontin
uous
ly -
little
coo
ling
Too
cool
and
then
too
war
m
Not
coo
l eno
ugh
on w
arm
day
s
Cer
tain
are
as to
coo
l oth
ers
to w
arm
Com
pres
sor i
s no
isy
Low
suc
tion
pres
sure
Low
hea
d pr
essu
re
Hig
h su
ctio
n pr
essu
re
Hig
h he
ad p
ress
ure
Test MethodRemedy
Power Failure • Test VoltageBlown Fuse • • • Impact Fuse Size & TypeLoose Connection • • • • Inspect Connection - TightenShorted or Broken Wires • • • • • • Test Circuits with OhmmeterOpen Overload • • Test Continuity of OverloadsFaulty Thermostat • • • • Test Continuity of Thermostat and WiringFaulty Transformer • • Check Control Circuit with VoltmeterShorted or Open Capacitor • • • • Test CapacitorInternal Compressor Overload Open • Test Continuity of OverloadShorted or Grounded Compressor • • Test Motor WindingsCompressor Stuck • • Use Test CordFaulty Compressor Contactor • • • • Test Continuity of Coil and ContactsFaulty Fan Relay • Test Continuity of Coil and ContactsOpen Control Circuit Test Control Circuit with VoltmeterLow Voltage • • • Test VoltageFaulty Evaporator Fan Motor • • Repair or ReplaceShorted or Grounded Fan Motor • • • Test Motor WindingsImproper Cooling Anticipator • Check Resistance of AnticipatorShortage or Refrigerant • • • • Test For Leaks, Add RefrigerantRestricted Liquid Line • • • • Replace Restricted PartUndersized Liquid Line • • • Replace LineUndersized Suction Line • Replace LineNot Enough Air across Indoor Coil • • • • Speed Blower, Check Duct Static PressureToo Much Air across Indoor Coil • Reduce Blower SpeedOvercharge of Refrigerant • • • • • Recover Part of ChargeNoncondensibles • • • Recover Charge, Evacuate, RechargeRecirculation of Condensing Air • • • Remove Obstruction to Air FlowInfiltration of Outdoor Air • • • Check Windows, Doors, Vent Fans, Etc.Improperly Located Thermostat • Relocate ThermostatAir Flow Unbalanced • • Readjust Air Volume DampersSystem Undersized • • Refigure Cooling LoadBroken Internal Parts • Replace CompressorBroken Valves • Test Compressor EfficiencyInefficient Compressor • • • Test Compressor EfficiencyHigh Pressure Control Open • Reset and Test ControlUnbalanced Power, 3PH • • • Test VoltageWrong Type Expansion Valve • • • Replace ValveExpansion Valve Restricted • • • • • • Replace ValveOversized Expansion Valve • • Replace ValveUndersized Expansion Valve • • • • • Replace ValveExpansion Valve Bulb Loose • • Tighten Bulb BracketInoperative Expansion Valve • • • Check Valve OperationLoose Hold-down Bolts • Tighten Bolts
No CoolingSystem
Operating Pressures
NOTICEUnits with rotary or reciprocating compressors and non-bleed TXV’srequire a Hard Start Kit.
16
TROUBLESHOOTING INFORMATION: UNITARY DIAGNOSTIC CODES
Dia
gn
os
tic
/Sta
tus
LE
D C
od
es
C
om
fort
Ne
t™
Th
erm
os
tat
On
ly
Sym
pto
ms
of
Ab
no
rma
l O
pe
rati
on
(L
eg
ac
y &
C
om
fort
Ne
t™ T
he
rmo
sta
t)
Gre
en
Yel
low
R
ed
Red
Y1
Fa
ult
D
es
cri
pti
on
Mes
sage
C
ode
Po
ss
ible
Ca
us
es
Co
rre
cti
ve
Ac
tio
ns
N
ote
s &
Ca
uti
on
s
Int
egra
ted
cont
rol m
odul
e di
agno
stic
/sta
tus
LED
’s d
ispl
ay
the
indi
cate
d co
de.
Com
fort
Net
™ th
erm
osta
t di
spla
ys ‘-
--‘ i
n th
e te
mpe
ratu
re
disp
lay
area
.
1 F
lash
O
N
OF
F
ON
if c
all
pres
ent;
OF
F if
no
call
Out
door
air
tem
p se
nsor
fa
ult.
AIR
S
EN
SO
R
FLT
A2
Sho
rted
sen
sor.
O
pen
sens
or.
Sen
sor
disc
onne
cted
. S
enso
r ou
t of r
ange
.
Che
ck s
enso
r co
nnec
tion.
R
epla
ce
open
/sho
rted
se
nsor
.
Tur
n po
wer
OF
F
prio
r to
rep
air.
R
epla
ce w
ith c
orre
ct
repl
acem
ent p
art..
Hea
t pum
p fa
ils to
ope
rate
in
heat
ing
mod
e.
Int
egra
ted
cont
rol m
odul
e di
agno
stic
/sta
tus
LED
’s d
ispl
ay
the
indi
cate
d co
de.
Com
fort
Net
™ th
erm
osta
t “C
all f
or
Ser
vice
” ic
on il
lum
inat
ed.
Com
fort
Net
™ th
erm
osta
t scr
olls
“C
heck
Hea
t Pum
p” m
essa
ge.
2 F
lash
es
ON
O
FF
O
N if
cal
l pr
esen
t; O
FF
if n
o ca
ll
Out
door
coi
l te
mp
sens
or
faul
t.
CO
IL
SE
NS
OR
F
LT
A3
Sho
rted
sen
sor.
O
pen
sens
or.
Sen
sor
disc
onne
cted
. S
enso
r ou
t of r
ange
.
Che
ck s
enso
r co
nnec
tion.
R
epla
ce
open
/sho
rted
se
nsor
.
Tur
n po
wer
OF
F
prio
r to
rep
air.
R
epla
ce w
ith c
orre
ct
repl
acem
ent p
art.
Air
cond
ition
er/h
eat p
ump
fails
to
oper
ate.
I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
dis
play
th
e in
dica
ted
code
.
5 F
lash
es
ON
O
FF
O
FF
O
pen
fuse
. B
LOW
N
FU
SE
E
5 S
hort
in lo
w v
olta
ge
wiri
ng.
Loc
ate
and
corr
ect
shor
t in
low
vol
tage
w
iring
.
Tur
n po
wer
OF
F
prio
r to
rep
air.
R
epla
ce fu
se w
ith 3
-am
p au
tom
otiv
e ty
pe.
Air
cond
ition
er/h
eat p
ump
fails
to
oper
ate.
I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
dis
play
th
e in
dica
ted
code
.
6 F
lash
es
ON
O
FF
O
FF
B
oard
mis
s-op
erat
ion.
IN
TE
RN
AL
FA
ULT
E
E
Com
pres
sor
rela
y co
ntac
ts w
elde
d.
Rep
lace
con
trol
. T
urn
pow
er O
FF
pr
ior
to r
epai
r.
Rep
lace
with
cor
rect
re
plac
emen
t par
t.
Air
cond
ition
er/h
eat p
ump
fails
to
oper
ate.
I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
dis
play
th
e in
dica
ted
code
. C
omfo
rtN
et™
ther
mos
tat “
Cal
l for
S
ervi
ce”
icon
illu
min
ated
. C
omfo
rtN
et™
ther
mos
tat s
crol
ls
“Che
ck A
ir C
ondi
tione
r” o
r “C
heck
Hea
t Pum
p” m
essa
ge.
7 F
lash
es
ON
O
FF
O
N if
cal
l pr
esen
t; O
FF
if n
o ca
ll
C
ircul
ator
bl
ower
mot
or
is n
ot
runn
ing
whe
n it
shou
ld b
e ru
nnin
g.
MO
TO
R
NO
T R
UN
b0
I
ndoo
r bl
ower
mot
or
prob
lem
. C
omm
unic
atio
ns e
rror
be
twee
n in
door
and
ou
tdoo
r un
it.
Che
ck in
door
bl
ower
mot
or.
Che
ck in
door
bl
ower
mot
or
wiri
ng.
Che
ck in
door
uni
t co
ntro
l. R
epai
r/ r
epla
ce a
ny
faul
ty w
iring
. R
epai
r/ r
epla
ce
indo
or b
low
er
mot
or o
r co
ntro
l.
Tur
n po
wer
OF
F
prio
r to
rep
air.
A
pplie
s on
ly to
fully
co
mm
unic
atin
g sy
stem
usi
ng
Com
fort
Net
™
ther
mos
tat.
Rep
lace
with
cor
rect
re
plac
emen
t par
t.
Air
cond
ition
er/h
eat p
ump
oper
ates
at r
educ
ed
perf
orm
ance
. A
ir co
nditi
oner
/hea
t pum
p op
erat
ing
at lo
w s
tage
whe
n ex
pect
ed to
ope
rate
at h
igh
stag
e.
Int
egra
ted
cont
rol m
odul
e di
agno
stic
/sta
tus
LED
’s d
ispl
ay
the
indi
cate
d co
de.
8 F
lash
es
ON
O
FF
O
N if
cal
l pr
esen
t; O
FF
if n
o ca
ll
A
irflo
w is
lo
wer
than
de
man
ded.
LOW
ID
AIR
FLO
W
b9
Ind
oor
blow
er m
otor
pr
oble
m.
Blo
cked
filte
rs.
Res
tric
tive/
und
ersi
zed
duct
wor
k.
Ind
oor/
out
door
uni
t m
iss-
mat
ch.
Che
ck in
door
bl
ower
mot
or.
Che
ck fi
lters
; cl
ean/
repl
ace
as
need
ed.
Che
ck d
uctw
ork;
re
size
as
need
ed.
Ver
ify in
door
and
ou
tdoo
r un
its a
re
prop
erly
mat
ched
.
Tur
n po
wer
OF
F
prio
r to
rep
air.
A
pplie
s on
ly to
fully
co
mm
unic
atin
g sy
stem
usi
ng
Com
fort
Net
th
erm
osta
t. R
epla
ce w
ith c
orre
ct
repl
acem
ent p
art.
See
spe
cific
atio
n sh
eet(
s) fo
r ai
rflo
w
requ
irem
ents
and
m
axim
um e
xter
nal
stat
ic p
ress
ure.
S
ee s
peci
ficat
ion
shee
ts fo
r ap
prov
ed
syst
em m
atch
es.
17
TROUBLESHOOTING INFORMATION: UNITARY DIAGNOSTIC CODES
Dia
gn
os
tic
/Sta
tus
LE
D C
od
es
C
om
fort
Ne
t™
Th
erm
os
tat
On
ly
Sym
pto
ms
of
Ab
no
rma
l O
pe
rati
on
(L
eg
ac
y &
C
om
fort
Ne
t™ T
he
rmo
sta
t)
Gre
en
Yel
low
R
ed
Red
Y1
Fa
ult
D
es
cri
pti
on
Mes
sage
C
od e
Po
ss
ible
Ca
us
es
Co
rre
cti
ve
Ac
tio
ns
N
ote
s &
Ca
uti
on
s
Air
cond
ition
er/h
eat p
ump
fails
to
oper
ate.
I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
dis
play
th
e in
dica
ted
code
. C
omfo
rtN
et™
ther
mos
tat “
Cal
l for
S
ervi
ce”
icon
illu
min
ated
. C
omfo
rtN
et™
ther
mos
tat s
crol
ls
“Che
ck A
ir C
ondi
tione
r” o
r “C
heck
Hea
t Pum
p” m
essa
ge.
1 F
lash
1
Fla
sh
OF
F
OF
F
Dat
a no
t yet
on
Net
wor
k.
NO
NE
T
DA
TA
d0
A
ir co
nditi
oner
/hea
t pu
mp
is w
ired
as
part
of a
co
mm
unic
atin
g sy
stem
and
in
tegr
ated
con
trol
m
odul
e do
es n
ot
cont
ain
any
shar
ed
data
.
Ver
ify s
yste
m
type
(c
omm
unic
atin
g or
lega
cy)
Pop
ulat
e sh
ared
da
ta u
sing
m
emor
y ca
rd
Wire
sys
tem
as
lega
cy s
yste
m
Tur
n po
wer
OF
F p
rior
to r
epai
r.
Use
mem
ory
card
for
your
sp
ecifi
c m
odel
. I
nser
t mem
ory
card
BE
FO
RE
tu
rnin
g po
wer
ON
. M
emor
y ca
rd m
ay b
e re
mov
ed a
fter
data
is
load
ed. T
urn
pow
er O
FF
be
fore
rem
ovin
g m
emor
y ca
rd.
Err
or c
ode
will
be
clea
red
once
da
ta is
load
ed. A
pplie
s on
ly to
fu
lly c
omm
unic
atin
g sy
stem
us
ing
Com
fort
Net
™ th
erm
osta
t. A
ir co
nditi
oner
/hea
t pum
p fa
ils to
op
erat
e.
Int
egra
ted
cont
rol m
odul
e di
agno
stic
/sta
tus
LED
’s d
ispl
ay
the
indi
cate
d co
de.
Com
fort
Net
™ th
erm
osta
t “C
all f
or
Ser
vice
” ic
on il
lum
inat
ed.
Com
fort
Net
™ th
erm
osta
t scr
olls
“C
heck
Air
Con
ditio
ner”
or
“Che
ck H
eat P
ump”
mes
sage
.
2 F
lash
es
2 F
lash
es
OF
F
OF
F
Inv
alid
Dat
a on
Net
wor
k.
INV
ALI
D
DA
TA
d1
A
ir co
nditi
oner
/hea
t pu
mp
is w
ired
as
part
of a
co
mm
unic
atin
g sy
stem
and
in
tegr
ated
con
trol
m
odul
e co
ntai
ns
inva
lid s
hare
d da
ta
or n
etw
ork
data
is
inva
lid fo
r th
e in
tegr
ated
con
trol
m
odul
e.
Ver
ify s
yste
m
type
(c
omm
unic
atin
g or
lega
cy).
P
opul
ate
corr
ect
shar
ed d
ata
usin
g m
emor
y ca
rd.
Wire
sys
tem
as
lega
cy s
yste
m.
Tur
n po
wer
OF
F p
rior
to r
epai
r.
Use
mem
ory
card
for
your
sp
ecifi
c m
odel
. I
nser
t mem
ory
card
BE
FO
RE
tu
rnin
g po
wer
ON
. M
emor
y ca
rd m
ay b
e re
mov
ed a
fter
data
is
load
ed. T
urn
pow
er O
FF
be
fore
rem
ovin
g m
emor
y ca
rd.
Err
or c
ode
will
be
clea
red
once
da
ta is
load
ed. A
pplie
s on
ly to
fu
lly c
omm
unic
atin
g sy
stem
us
ing
Com
fort
Net
™ th
erm
osta
t. A
ir co
nditi
oner
/hea
t pum
p fa
ils to
op
erat
e.
Air
cond
ition
er/h
eat p
ump
oper
atin
g at
red
uced
pe
rfor
man
ce.
Air
cond
ition
er/h
eat p
ump
oper
atin
g at
low
sta
ge w
hen
expe
cted
to o
pera
te a
t hig
h st
age.
I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
dis
play
th
e in
dica
ted
code
. C
omfo
rtN
et™
ther
mos
tat “
Cal
l for
S
ervi
ce”
icon
illu
min
ated
. C
omfo
rtN
et™
ther
mos
tat s
crol
ls
“Che
ck A
ir C
ondi
tione
r” o
r “C
heck
Hea
t Pum
p” m
essa
ge.
3 F
lash
es
3 F
lash
es
OF
F
OF
F
Sys
tem
Mis
s-M
atch
. IN
VA
LID
S
YS
TE
M
d2
Air
cond
ition
er/h
eat
pum
p is
wire
d as
pa
rt o
f a
com
mun
icat
ing
syst
em a
nd o
utdo
or
unit
requ
ires
airf
low
gr
eate
r th
an in
door
un
it’s
airf
low
ca
pabi
lity.
S
hare
d da
ta is
in
com
patib
le w
ith
the
syst
em o
r m
issi
ng p
aram
eter
s.
Ver
ify s
yste
m
type
(c
omm
unic
atin
g or
lega
cy).
V
erify
sha
red
data
is c
orre
ct fo
r yo
ur s
peci
fic
mod
el; r
e-po
pula
te d
ata
if re
quire
d.
Wire
sys
tem
as
lega
cy s
yste
m.
Tur
n po
wer
OF
F p
rior
to r
epai
r.
Use
mem
ory
card
for
your
sp
ecifi
c m
odel
. I
nser
t mem
ory
card
BE
FO
RE
tu
rnin
g po
wer
ON
. M
emor
y ca
rd m
ay b
e re
mov
ed a
fter
data
is
load
ed. T
urn
pow
er O
FF
be
fore
rem
ovin
g m
emor
y ca
rd.
Err
or c
ode
will
be
clea
red
once
da
ta is
load
ed.
App
lies
only
to
fully
com
mun
icat
ing
syst
em
usin
g C
omfo
rtN
et™
ther
mos
tat.
Air
cond
ition
er/h
eat p
ump
fails
to
oper
ate.
I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
dis
play
th
e in
dica
ted
code
. C
omfo
rtN
et™
ther
mos
tat “
Cal
l for
S
ervi
ce”
icon
illu
min
ated
. C
omfo
rtN
et™
ther
mos
tat s
crol
ls
“Che
ck A
ir C
ondi
tione
r” o
r “C
heck
Hea
t Pum
p” m
essa
ge.
4 F
lash
es
4 F
lash
es
OF
F
OF
F
Con
figur
atio
n M
iss-
Mat
ch.
INV
ALI
D
CO
NF
IG
d3
Sha
red
data
sen
t to
inte
grat
ed c
ontr
ol
mod
ule
does
not
m
atch
har
dwar
e co
nfig
urat
ion.
Ver
ify s
yste
m
type
(c
omm
unic
atin
g or
lega
cy).
V
erify
sha
red
data
is c
orre
ct fo
r yo
ur s
peci
fic
mod
el; r
e-po
pula
te d
ata
if re
quire
d.
Wire
sys
tem
as
lega
cy s
yste
m.
Tur
n po
wer
OF
F p
rior
to r
epai
r.
Use
mem
ory
card
for
your
sp
ecifi
c m
odel
. I
nser
t mem
ory
card
BE
FO
RE
tu
rnin
g po
wer
ON
. M
emor
y ca
rd m
ay b
e re
mov
ed a
fter
data
is
load
ed. T
urn
pow
er O
FF
be
fore
rem
ovin
g m
emor
y ca
rd.
Err
or c
ode
will
be
clea
red
once
da
ta is
load
ed. A
pplie
s on
ly to
fu
lly c
omm
unic
atin
g sy
stem
us
ing
Com
fort
Net
™ th
erm
osta
t.
18
TROUBLESHOOTING INFORMATION: UNITARY DIAGNOSTIC CODESS
ym
pto
ms
of
Ab
no
rma
l O
pe
rati
on
(L
eg
ac
y &
C
om
fort
Ne
t™ T
he
rmo
sta
t)
Dia
gn
os
tic
/Sta
tus
LE
D C
od
es
F
au
lt
De
scri
pti
on
Co
mfo
rtN
et™
Th
erm
os
tat
On
ly
Po
ss
ible
Ca
us
es
Co
rre
cti
ve
Ac
tio
ns
N
ote
s &
Ca
uti
on
s
G
reen
Y
ello
w
Red
R
ed Y
1
Mes
sage
C
ode
Air
cond
ition
er/h
eat p
ump
fails
to
ope
rate
. I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
di
spla
y th
e in
dica
ted
code
. C
omfo
rtN
et™
ther
mos
tat “
Cal
l fo
r S
ervi
ce”
icon
illu
min
ated
. C
omfo
rtN
et™
ther
mos
tat
scro
lls “
Che
ck A
ir C
ondi
tione
r”
or “
Che
ck H
eat P
ump”
m
essa
ge.
5 F
lash
es
5 F
lash
es
OF
F
OF
F
Inv
alid
M
emor
y C
ard
Dat
a.
INV
ALI
D
MC
DA
TA
d4
S
hare
d da
ta o
n m
emor
y ca
rd h
as
been
rej
ecte
d.
Ver
ify s
yste
m ty
pe
(com
mun
icat
ing
or
lega
cy).
V
erify
sha
red
data
is
corr
ect f
or y
our
spec
ific
mod
el; r
e-po
pula
te d
ata
if re
quire
d.
Wire
sys
tem
as
lega
cy s
yste
m.
Tur
n po
wer
OF
F p
rior
to
repa
ir.
Use
mem
ory
card
for
your
spe
cific
mod
el.
Ins
ert m
emor
y ca
rd
BE
FO
RE
turn
ing
pow
er
ON
. M
emor
y ca
rd m
ay
be r
emov
ed a
fter
data
is
load
ed. T
urn
pow
er
OF
F b
efor
e re
mov
ing
mem
ory
card
. E
rror
cod
e w
ill b
e cl
eare
d on
ce d
ata
is
load
ed.
Ver
y lo
ng r
un ti
me.
F
our
cons
ecut
ive
com
pres
sor
prot
ecto
r tr
ips
with
ave
rage
ru
n tim
e be
twee
n tr
ips
grea
ter
than
3 h
ours
. C
ompr
esso
r op
erat
ing
at h
igh
spee
d an
d ou
tdoo
r fa
n op
erat
ing
at lo
w s
peed
I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
di
spla
y th
e in
dica
ted
code
.
OF
F
1 F
lash
O
FF
O
N if
cal
l pr
esen
t; O
FF
if n
o ca
ll
Low
Sid
e F
ault.
LO
W S
IDE
F
AU
LT
01
Low
ref
riger
ant
char
ge.
Res
tric
tion
in li
quid
lin
e.
Ind
oor
blow
er m
otor
fa
ilure
. I
ndoo
r th
erm
osta
t set
ex
trem
ely
low
.
Ver
ify r
efrig
eran
t ch
arge
; adj
ust a
s ne
eded
. C
heck
for
rest
ricte
d liq
uid
line;
re
pair/
repl
ace
as
need
ed.
Che
ck in
door
blo
wer
m
otor
; rep
air/
repl
ace
as n
eede
d.
Che
ck in
door
th
erm
osta
t set
ting.
Tur
n po
wer
OF
F p
rior
to
repa
ir.
Fau
lt w
ill c
lear
afte
r 30
co
nsec
utiv
e no
rmal
cy
cles
. F
ault
may
be
clea
red
by
cycl
ing
24V
AC
to
cont
rol.
Rep
lace
with
cor
rect
re
plac
emen
t par
t(s)
.
Com
pres
sor
and
outd
oor
fan
are
off.
The
rmos
tat d
eman
d is
pr
esen
t. I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
di
spla
y th
e in
dica
ted
code
.
ON
1
Fla
sh
OF
F
ON
if c
all
pres
ent;
OF
F if
no
call
Low
P
ress
ure
Cut
O
ut T
rip.
LPS
OP
EN
01
L
ow r
efrig
eran
t ch
arge
. R
estr
ictio
n in
liqu
id
line.
I
ndoo
r bl
ower
mot
or
failu
re.
Ind
oor
ther
mos
tat s
et
extr
emel
y lo
w.
Ver
ify r
efrig
eran
t ch
arge
; adj
ust a
s ne
eded
. C
heck
for
rest
ricte
d liq
uid
line;
re
pair/
repl
ace
as
need
ed.
Che
ck in
door
blo
wer
m
otor
; rep
air/
repl
ace
as n
eede
d.
Che
ck lo
w p
ress
ure
switc
h; r
epai
r/re
plac
e as
nee
ded.
C
heck
indo
or
ther
mos
tat s
ettin
g.
Tur
n po
wer
OF
F p
rior
to
repa
ir.
Rep
lace
with
cor
rect
re
plac
emen
t par
t(s)
.
Com
pres
sor
and
outd
oor
fan
are
off.
Low
pre
ssur
e sw
itch
trip
3
times
with
in s
ame
ther
mos
tat
dem
and.
T
herm
osta
t dem
and
is
pres
ent.
Int
egra
ted
cont
rol m
odul
e di
agno
stic
/sta
tus
LED
’s
disp
lay
the
indi
cate
d co
de.
Com
fort
Net
™ th
erm
osta
t “C
all
for
Ser
vice
” ic
on il
lum
inat
ed.
Com
fort
Net
™ th
erm
osta
t sc
rolls
“C
heck
Air
Con
ditio
ner”
or
“C
heck
Hea
t Pum
p”
mes
sage
.
ON
1
Fla
sh
ON
O
N if
cal
l pr
esen
t; O
FF
if n
o ca
ll
Low
P
ress
ure
Cut
O
ut L
ocko
ut
(3 T
rips)
.
LPS
LO
CK
OU
T
01
Low
ref
riger
ant
char
ge.
Res
tric
tion
in li
quid
lin
e.
Ind
oor
blow
er m
otor
fa
ilure
. I
ndoo
r th
erm
osta
t set
ex
trem
ely
low
.
Ver
ify r
efrig
eran
t ch
arge
; adj
ust a
s ne
eded
. C
heck
for
rest
ricte
d liq
uid
line;
re
pair/
repl
ace
as
need
ed.
Che
ck in
door
blo
wer
m
otor
; rep
air/
repl
ace
as n
eede
d.
Che
ck lo
w p
ress
ure
switc
h; r
epai
r/re
plac
e as
nee
ded.
C
heck
indo
or
ther
mos
tat s
ettin
g.
Tur
n po
wer
OF
F p
rior
to
repa
ir.
Mus
t cle
ar fa
ult b
y cy
clin
g 24
VA
C to
co
ntro
l. R
epla
ce w
ith c
orre
ct
repl
acem
ent p
art(
s).
19
TROUBLESHOOTING INFORMATION: UNITARY DIAGNOSTIC CODES
Dia
gn
os
tic
/Sta
tus
LE
D C
od
es
C
om
fort
Ne
t™
Th
erm
os
tat
On
ly
Sym
pto
ms
of
Ab
no
rma
l O
pe
rati
on
(L
eg
ac
y &
C
om
fort
Ne
t™ T
he
rmo
sta
t)
Gre
en
Yel
low
R
ed
Red
Y1
Fa
ult
D
es
cri
pti
on
Mes
sage
C
ode
Po
ss
ible
Ca
us
es
Co
rre
cti
ve
Ac
tio
ns
N
ote
s &
Ca
uti
on
s
Fou
r co
nsec
utiv
e co
mpr
esso
r pr
otec
tor
trip
s w
ith a
vera
ge r
un
time
betw
een
trip
s gr
eate
r th
an 1
m
inut
e an
d le
ss th
an 1
5 m
inut
es.
Low
pre
ssur
e an
d hi
gh p
ress
ure
switc
hes
are
clos
ed.
Int
egra
ted
cont
rol m
odul
e di
agno
stic
/sta
tus
LED
’s d
ispl
ay
the
indi
cate
d co
de.
OF
F
2 F
lash
es
OF
F
ON
if
call
pres
ent
; OF
F if
no
cal
l
Hig
h S
ide
Fau
lt H
IGH
SID
E
FA
ULT
02
B
lock
ed c
onde
nser
co
il.
Out
door
fan
not
runn
ing.
Che
ck a
nd c
lean
co
nden
ser
coil.
C
heck
out
door
fan
mot
or;
repa
ir/re
plac
e as
ne
eded
. C
heck
out
door
fan
mot
or w
iring
; re
pair/
repl
ace
as
need
ed.
Che
ck o
utdo
or fa
n m
otor
cap
acito
r;
repl
ace
as n
eede
d.
Tur
n po
wer
OF
F
prio
r to
rep
air.
F
ault
will
cle
ar a
fter
4 co
nsec
utiv
e no
rmal
cyc
les.
F
ault
may
be
clea
red
by c
yclin
g 24
VA
C to
con
trol
. R
epla
ce w
ith c
orre
ct
repl
acem
ent p
art(
s).
Com
pres
sor
and
outd
oor
fan
are
off.
The
rmos
tat d
eman
d is
pre
sent
. I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
dis
play
th
e in
dica
ted
code
.
ON
2
Fla
shes
O
FF
O
N if
ca
ll pr
esen
t; O
FF
if
no c
all
Hig
h P
ress
ure
Cut
O
ut T
rip
HP
S O
PE
N
02
Blo
cked
con
dens
er
coil.
O
utdo
or fa
n no
t ru
nnin
g.
Che
ck a
nd c
lean
co
nden
ser
coil.
C
heck
out
door
fan
mot
or;
repa
ir/re
plac
e as
ne
eded
. C
heck
out
door
fan
mot
or w
iring
; re
pair/
repl
ace
as
need
ed.
Che
ck o
utdo
or fa
n m
otor
cap
acito
r;
repl
ace
as n
eede
d.
Tur
n po
wer
OF
F
prio
r to
rep
air.
R
epla
ce w
ith c
orre
ct
repl
acem
ent p
art(
s).
Com
pres
sor
and
outd
oor
fan
are
off.
Low
pre
ssur
e sw
itch
trip
3 ti
mes
w
ithin
sam
e th
erm
osta
t dem
and.
T
herm
osta
t dem
and
is p
rese
nt.
Int
egra
ted
cont
rol m
odul
e di
agno
stic
/sta
tus
LED
’s d
ispl
ay
the
indi
cate
d co
de.
Com
fort
Net
™ th
erm
osta
t “C
all f
or
Ser
vice
” ic
on il
lum
inat
ed.
Com
fort
Net
™ th
erm
osta
t scr
olls
“C
heck
Air
Con
ditio
ner”
or
“C
heck
Hea
t Pum
p” m
essa
ge.
ON
2
Fla
shes
O
N
ON
if
call
pres
ent
; OF
F if
no
cal
l
Hig
h P
ress
ure
Cut
O
ut L
ocko
ut
(3 T
rips)
HP
S
LOC
KO
UT
02
B
lock
ed c
onde
nser
co
il.
Out
door
fan
not
runn
ing.
Che
ck a
nd c
lean
co
nden
ser
coil.
C
heck
out
door
fan
mot
or;
repa
ir/re
plac
e as
ne
eded
. C
heck
out
door
fan
mot
or w
iring
; re
pair/
repl
ace
as
need
ed.
Che
ck o
utdo
or fa
n m
otor
cap
acito
r;
repl
ace
as n
eede
d.
Tur
n po
wer
OF
F
prio
r to
rep
air.
M
ust c
lear
faul
t by
cycl
ing
24V
AC
to
cont
rol.
Rep
lace
with
cor
rect
re
plac
emen
t par
t(s)
.
Run
tim
e fo
r la
st 4
cyc
les
is le
ss
than
3 m
inut
es e
ach.
C
ompr
esso
r pr
otec
tor
has
not
trip
ped.
L
ow p
ress
ure
and
high
pre
ssur
e sw
itche
s ar
e cl
osed
. I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
dis
play
th
e in
dica
ted
code
.
OF
F
3 F
lash
es
OF
F
ON
if
call
pres
ent
; OF
F if
no
cal
l
Sho
rt C
yclin
g C
MP
R
SH
RT
C
YC
LE
03
Int
erm
itten
t the
rmos
tat
dem
and.
F
aulty
com
pres
sor
rela
y.
Che
ck th
erm
osta
t an
d th
erm
osta
t w
iring
; re
pair/
repl
ace
as
need
ed.
Che
ck c
ompr
esso
r re
lay
oper
atio
n;
repl
ace
cont
rol a
s ne
eded
.
Tur
n po
wer
OF
F
prio
r to
rep
air.
F
ault
will
cle
ar a
fter
4 co
nsec
utiv
e no
rmal
cyc
les.
F
ault
may
be
clea
red
by c
yclin
g 24
VA
C to
con
trol
. R
epla
ce w
ith c
orre
ct
repl
acem
ent p
art(
s).
Min
imum
co
mpr
esso
r ru
nt
time
is c
hang
ed fr
om
30 s
econ
ds to
3
min
utes
.
20
TROUBLESHOOTING INFORMATION: UNITARY DIAGNOSTIC CODES
Dia
gn
os
tic
/Sta
tus
LE
D C
od
es
C
om
fort
Ne
t™
Th
erm
os
tat
On
ly
Sym
pto
ms
of
Ab
no
rma
l O
pe
rati
on
(L
eg
ac
y &
C
om
fort
Ne
t™ T
he
rmo
sta
t)
Gre
en
Yel
low
R
ed
Red
Y1
Fa
ult
D
es
cri
pti
on
Mes
sage
C
ode
Po
ss
ible
Ca
us
es
Co
rre
cti
ve
Ac
tio
ns
N
ote
s &
Ca
uti
on
s
Com
pres
sor
and
outd
oor
fan
are
off.
Com
pres
sor
prot
ecto
r tr
ips
four
co
nsec
utiv
e tim
es.
Ave
rage
run
tim
e be
twee
n tr
ips
is
less
than
15
seco
nds.
I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
dis
play
th
e in
dica
ted
code
. C
omfo
rtN
et™
ther
mos
tat “
Cal
l for
S
ervi
ce”
icon
illu
min
ated
. C
omfo
rtN
et™
ther
mos
tat s
crol
ls
“Che
ck A
ir C
ondi
tione
r” o
r “C
heck
Hea
t Pum
p” m
essa
ge.
OF
F
4 F
lash
es
ON
O
N if
ca
ll pr
esen
t; O
FF
if
no c
all
Loc
ked
Rot
or
LOC
KE
D
RO
TO
R
04
Com
pres
sor
bear
ings
ar
e se
ized
. F
aile
d co
mpr
esso
r ru
n ca
paci
tor.
F
aulty
run
cap
acito
r w
iring
. F
aulty
com
pres
sor
wiri
ng.
Low
line
vol
tage
.
Che
ck c
ompr
esso
r op
erat
ion;
re
pair/
repl
ace
as
need
ed.
Che
ck r
un
capa
cito
r; r
epla
ce
as n
eede
d.
Che
ck w
iring
; re
pair/
repl
ace
as
need
ed.
Ver
ify li
ne v
olta
ge
is w
ithin
ran
ge o
n ra
ting
plat
e;
cont
act l
ocal
util
ity
if ou
t of r
ange
.
Tur
n po
wer
OF
F
prio
r to
rep
air.
M
ust c
lear
faul
t by
cycl
ing
24V
AC
to
cont
rol.
Rep
lace
with
cor
rect
re
plac
emen
t par
t(s)
.
Com
pres
sor
and
outd
oor
fan
are
off f
or g
reat
er th
an 4
hou
rs.
Low
pre
ssur
e an
d hi
gh p
ress
ure
switc
hes
are
clos
ed.
Int
egra
ted
cont
rol m
odul
e di
agno
stic
/sta
tus
LED
’s d
ispl
ay
the
indi
cate
d co
de.
Com
fort
Net
™ th
erm
osta
t “C
all f
or
Ser
vice
” ic
on il
lum
inat
ed.
Com
fort
Net
™ th
erm
osta
t scr
olls
“C
heck
Air
Con
ditio
ner”
or
“Che
ck H
eat P
ump”
mes
sage
.
OF
F
5 F
lash
es
OF
F
ON
if
call
pres
ent
; OF
F if
no
cal
l
Ope
n C
ircui
t O
PE
N
CIR
CU
IT
05
Pow
er is
di
scon
nect
ed.
Fai
led
com
pres
sor
prot
ecto
r.
Com
pres
sor
not
prop
erly
wire
d to
co
ntro
l.
Che
ck c
ircui
t br
eake
rs a
nd
fuse
s.
Che
ck w
iring
to
unit;
rep
air/
repl
ace
as n
eede
d.
Che
ck c
ompr
esso
r;
repa
ir/re
plac
e as
ne
eded
. C
heck
com
pres
sor
wiri
ng;
repa
ir/re
plac
e as
ne
eded
.
Tur
n po
wer
OF
F
prio
r to
rep
air.
F
ault
will
cle
ar a
fter
1 no
rmal
cyc
le.
Fau
lt m
ay b
e cl
eare
d by
cyc
ling
24V
AC
to c
ontr
ol.
Rep
lace
with
cor
rect
re
plac
emen
t par
t(s)
.
Com
pres
sor
and
outd
oor
fan
are
off.
Low
pre
ssur
e an
d hi
gh p
ress
ure
switc
hes
are
clos
ed.
Int
egra
ted
cont
rol m
odul
e di
agno
stic
/sta
tus
LED
’s d
ispl
ay
the
indi
cate
d co
de.
Com
fort
Net
™ th
erm
osta
t “C
all f
or
Ser
vice
” ic
on il
lum
inat
ed.
Com
fort
Net
™ th
erm
osta
t scr
olls
“C
heck
Air
Con
ditio
ner”
or
“C
heck
Hea
t Pum
p” m
essa
ge.
OF
F
6 F
lash
es
OF
F
ON
if
call
pres
ent
; OF
F if
no
cal
l
Ope
n S
tart
C
ircui
t O
PE
N
ST
AR
T
06
Com
pres
sor
star
t w
indi
ng is
ope
n.
Fai
led
com
pres
sor
run
capa
cito
r.
Fau
lty r
un c
apac
itor
wiri
ng.
Com
pres
sor
not
prop
erly
wire
d to
co
ntro
l. F
aulty
com
pres
sor
wiri
ng.
Che
ck c
ompr
esso
r;
repa
ir/re
plac
e as
ne
eded
. C
heck
run
ca
paci
tor;
rep
lace
as
nee
ded.
C
heck
wiri
ng;
repa
ir/re
plac
e as
ne
eded
.
Tur
n po
wer
OF
F
prio
r to
rep
air.
F
ault
will
cle
ar a
fter
1 no
rmal
cyc
le.
Fau
lt m
ay b
e cl
eare
d by
cyc
ling
24V
AC
to c
ontr
ol.
Rep
lace
with
cor
rect
re
plac
emen
t par
t(s)
.
Com
pres
sor
and
outd
oor
fan
are
off.
Low
pre
ssur
e an
d hi
gh p
ress
ure
switc
hes
are
clos
ed.
Ope
n st
art c
ircui
t has
bee
n de
tect
ed 4
tim
es w
ith 5
min
ute
dela
y be
twee
n ea
ch d
etec
tion.
I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
dis
play
th
e in
dica
ted
code
. C
omfo
rtN
et™
ther
mos
tat “
Cal
l for
S
ervi
ce”
icon
illu
min
ated
. C
omfo
rtN
et™
ther
mos
tat s
crol
ls
“Che
ck A
ir C
ondi
tione
r” o
r “C
heck
Hea
t Pum
p” m
essa
ge.
OF
F
6 F
lash
es
ON
O
N if
ca
ll pr
esen
t; O
FF
if
no c
all
Ope
n S
tart
C
ircui
t Lo
ckou
t
OP
EN
S
TA
RT
LO
CK
06
Com
pres
sor
star
t w
indi
ng is
ope
n.
Fai
led
com
pres
sor
run
capa
cito
r.
Fau
lty r
un c
apac
itor
wiri
ng.
Com
pres
sor
not
prop
erly
wire
d to
co
ntro
l. F
aulty
com
pres
sor
wiri
ng.
Che
ck c
ompr
esso
r;
repa
ir/re
plac
e as
ne
eded
. C
heck
run
ca
paci
tor;
rep
lace
as
nee
ded.
C
heck
wiri
ng;
repa
ir/re
plac
e as
ne
eded
.
Tur
n po
wer
OF
F
prio
r to
rep
air.
M
ust c
lear
faul
t by
cycl
ing
24V
AC
to
cont
rol.
Rep
lace
with
cor
rect
re
plac
emen
t par
t(s)
.
21
TROUBLESHOOTING INFORMATION: UNITARY DIAGNOSTIC CODES
Dia
gn
os
tic
/Sta
tus
LE
D C
od
es
C
om
fort
Ne
t™
Th
erm
os
tat
On
ly
Sym
pto
ms
of
Ab
no
rma
l O
pe
rati
on
(L
eg
ac
y &
C
om
fort
Ne
t™ T
he
rmo
sta
t)
Gre
en
Yel
low
R
ed
Red
Y1
Fa
ult
D
es
cri
pti
on
Mes
sage
C
ode
Po
ss
ible
Ca
us
es
Co
rre
cti
ve
Ac
tio
ns
N
ote
s &
Ca
uti
on
s
Com
pres
sor
and
outd
oor
fan
are
off.
Low
pre
ssur
e an
d hi
gh p
ress
ure
switc
hes
are
clos
ed.
Int
egra
ted
cont
rol m
odul
e di
agno
stic
/sta
tus
LED
’s d
ispl
ay
the
indi
cate
d co
de.
Com
fort
Net
™ th
erm
osta
t “C
all f
or
Ser
vice
” ic
on il
lum
inat
ed.
Com
fort
Net
™ th
erm
osta
t scr
olls
“C
heck
Air
Con
ditio
ner”
or
“Che
ck H
eat P
ump”
mes
sage
.
OF
F
7 F
lash
es
OF
F
ON
if c
all
pres
ent;
OF
F if
no
call
Ope
n R
un
Circ
uit
OP
EN
RU
N
07
Com
pres
sor
run
win
ding
is o
pen.
C
ompr
esso
r no
t pr
oper
ly w
ired
to
cont
rol.
Fau
lty c
ompr
esso
r w
iring
.
Che
ck c
ompr
esso
r;
repa
ir/re
plac
e as
ne
eded
. C
heck
wiri
ng;
repa
ir/re
plac
e as
ne
eded
.
Tur
n po
wer
OF
F
prio
r to
rep
air.
F
ault
will
cle
ar a
fter
1 no
rmal
cyc
le.
Fau
lt m
ay b
e cl
eare
d by
cyc
ling
24V
AC
to c
ontr
ol.
Rep
lace
with
cor
rect
re
plac
emen
t par
t(s)
.
Com
pres
sor
and
outd
oor
fan
are
off.
Low
pre
ssur
e an
d hi
gh p
ress
ure
switc
hes
are
clos
ed.
Ope
n ru
n ci
rcui
t has
bee
n de
tect
ed 4
tim
es w
ith 5
min
ute
dela
y be
twee
n ea
ch d
etec
tion.
I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
dis
play
th
e in
dica
ted
code
. C
omfo
rtN
et™
ther
mos
tat “
Cal
l for
S
ervi
ce”
icon
illu
min
ated
. C
omfo
rtN
et™
ther
mos
tat s
crol
ls
“Che
ck A
ir C
ondi
tione
r” o
r “C
heck
Hea
t Pum
p” m
essa
ge.
OF
F
7 F
lash
es
ON
O
N if
cal
l pr
esen
t; O
FF
if n
o ca
ll
Ope
n R
un
Circ
uit
Lock
out
OP
EN
RU
N
LOC
K
07
Com
pres
sor
run
win
ding
is o
pen.
C
ompr
esso
r no
t pr
oper
ly w
ired
to
cont
rol.
Fau
lty c
ompr
esso
r w
iring
.
Che
ck c
ompr
esso
r;
repa
ir/re
plac
e as
ne
eded
. C
heck
wiri
ng;
repa
ir/re
plac
e as
ne
eded
.
Tur
n po
wer
OF
F
prio
r to
rep
air.
M
ust c
lear
faul
t by
cycl
ing
24V
AC
to
cont
rol.
Rep
lace
with
cor
rect
re
plac
emen
t par
t(s)
.
Air
cond
ition
er/h
eat p
ump
may
ap
pear
to b
e op
erat
ing
norm
ally
. C
ompr
esso
r pr
otec
tor
may
be
open
(co
mpr
esso
r an
d ou
tdoo
r fa
n of
f).
Int
egra
ted
cont
rol m
odul
e di
agno
stic
/sta
tus
LED
’s d
ispl
ay
the
indi
cate
d co
de.
OF
F
8 F
lash
es
OF
F
ON
if c
all
pres
ent;
OF
F if
no
call
Low
Lin
e V
olta
ge
LOW
LIN
E
VO
LT
08
Low
line
vol
tage
. C
heck
circ
uit
brea
kers
and
fu
ses.
V
erify
uni
t is
conn
ecte
d to
po
wer
sup
ply
as
spec
ified
on
ratin
g pl
ate.
C
orre
ct lo
w li
ne
volta
ge c
ondi
tion;
co
ntac
t loc
al u
tility
if
need
ed.
Tur
n po
wer
OF
F
prio
r to
rep
air.
C
ontr
ol d
etec
ts li
ne
volta
ge le
ss th
an
185
VA
C.
Fau
lt w
ill c
lear
if li
ne
volta
ge in
crea
ses
abov
e 18
5 V
AC
.
Air
cond
ition
er/h
eat p
ump
may
ap
pear
to b
e op
erat
ing
norm
ally
. C
ompr
esso
r pr
otec
tor
may
be
open
(co
mpr
esso
r an
d ou
tdoo
r fa
n of
f).
Int
egra
ted
cont
rol m
odul
e di
agno
stic
/sta
tus
LED
’s d
ispl
ay
the
indi
cate
d co
de.
ON
8
Fla
shes
O
FF
O
N if
cal
l pr
esen
t; O
FF
if n
o ca
ll
Hig
h Li
ne
Vol
tage
H
IGH
LIN
E
VO
LT
08
Hig
h lin
e vo
ltage
. C
orre
ct h
igh
line
volta
ge c
ondi
tion;
co
ntac
t loc
al u
tility
if
need
ed.
Ver
ify u
nit i
s co
nnec
ted
to
pow
er s
uppl
y as
sp
ecifi
ed o
n ra
ting
plat
e.
Cor
rect
low
line
vo
ltage
con
ditio
n;
cont
act l
ocal
util
ity
if ne
eded
.
Tur
n po
wer
OF
F
prio
r to
rep
air.
C
ontr
ol d
etec
ts li
ne
volta
ge g
reat
er th
an
255
VA
C.
Fau
lt w
ill c
lear
if li
ne
volta
ge d
ecre
ases
be
low
255
VA
C.
22
TROUBLESHOOTING INFORMATION: UNITARY DIAGNOSTIC CODES
Dia
gn
os
tic
/Sta
tus
LE
D C
od
es
C
om
fort
Ne
t™
Th
erm
os
tat
On
ly
Sym
pto
ms
of
Ab
no
rma
l O
pe
rati
on
(L
eg
ac
y &
C
om
fort
Ne
t™ T
he
rmo
sta
t)
Gre
en
Yel
low
R
ed
Red
Y1
Fa
ult
D
es
cri
pti
on
Mes
sage
C
ode
Po
ss
ible
Ca
us
es
Co
rre
cti
ve
Ac
tio
ns
N
ote
s &
Ca
uti
on
s
Air
cond
ition
er/h
eat p
ump
may
ap
pear
to b
e op
erat
ing
norm
ally
. I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
dis
play
th
e in
dica
ted
code
.
OF
F
9 F
lash
es
OF
F
ON
if c
all
pres
ent;
OF
F if
no
call
Low
Pilo
t V
olta
ge
LOW
S
EC
ON
D
VO
LT
09
Con
trol
det
ects
se
cond
ary
volta
ge le
ss
than
18
VA
C.
Tra
nsfo
rmer
ov
erlo
aded
. L
ow li
ne v
olta
ge.
Che
ck fu
se.
Cor
rect
low
se
cond
ary
volta
ge
cond
ition
. C
heck
tran
sfor
mer
; re
plac
e if
need
ed.
Tur
n po
wer
OF
F
prio
r to
rep
air.
F
ault
will
cle
ar if
se
cond
ary
volta
ge
rises
abo
ve 2
1VA
C.
Rep
lace
with
cor
rect
re
plac
emen
t par
t(s)
. C
ompr
esso
r is
off.
I
nteg
rate
d co
ntro
l mod
ule
diag
nost
ic/s
tatu
s LE
D’s
dis
play
th
e in
dica
ted
code
.
OF
F
ON
O
N
ON
if c
all
pres
ent;
OF
F if
no
call
Com
p P
rote
ctor
O
pen
Not
di
spla
yed
Not
di
spla
yed
No
curr
ent t
hrou
gh r
un
or s
tart
win
ding
s.
C
ompr
esso
r ru
n w
indi
ng is
ope
n.
Com
pres
sor
not
prop
erly
wire
d to
co
ntro
l. F
aulty
com
pres
sor
wiri
ng.
Fai
led
com
pres
sor
run
capa
cito
r.
Fau
lty r
un c
apac
itor
wiri
ng.
Che
ck c
ompr
esso
r;
repa
ir/re
plac
e as
ne
eded
. C
heck
wiri
ng;
repa
ir/re
plac
e as
ne
eded
. C
heck
run
ca
paci
tor;
rep
lace
as
nee
ded.
Tur
n po
wer
OF
F
prio
r to
rep
air.
F
ault
will
cle
ar a
fter
1 no
rmal
cyc
le.
Fau
lt m
ay b
e cl
eare
d by
cyc
ling
24V
AC
to c
ontr
ol.
Rep
lace
with
cor
rect
re
plac
emen
t par
t(s)
.
23
THIS PAGE LEFT INTENTIONALLY BLANK
24
REPLACE OR CLEAN FILTER
IMPORTANT NOTE: Never operate unit without a filter installedas dust and lint will build up on internal parts resulting in lossof efficiency, equipment damage and possible fire.An indoor air filter must be used with your comfort system. Aproperly maintained filter will keep the indoor coil of your com-fort system clean. A dirty coil could cause poor operation and/or severe equipment damage.Your air filter or filters could be located in your furnace, in ablower unit, or in “filter grilles” in your ceiling or walls. Theinstaller of your air conditioner or heat pump can tell you whereyour filter(s) are, and how to clean or replace them.Check your filter(s) at least once a month. When they aredirty, replace or clean as required. Disposable type filters shouldbe replaced. Reusable type filters may be cleaned.You may want to ask your dealer about high efficiency filters.High efficiency filters are available in both electronic and non-electronic types. These filters can do a better job of catchingsmall airborne particles.COMPRESSOR
The compressor motor is hermetically sealed and does notrequire additional oiling.MOTORS
Indoor and outdoor fan motors are permanently lubricated anddo not require additional oiling.
CLEAN OUTSIDE COIL (QUALIFIED SERVICER ONLY)
Air must be able to flow through the outdoor unit of your com-fort system. Do not construct a fence near the unit or build adeck or patio over the unit without first discussing your planswith your dealer or other qualified servicer. Restricted airflowcould lead to poor operation and/or severe equipment damage.Likewise, it is important to keep the outdoor coil clean. Dirt,leaves, or debris could also restrict the airflow. If cleaning ofthe outdoor coil becomes necessary, hire a qualified servicer.Inexperienced people could easily puncture the tubing in thecoil. Even a small hole in the tubing could eventually cause alarge loss of refrigerant. Loss of refrigerant can cause pooroperation and/or severe equipment damage.Do not use a condensing unit cover to “protect” the outdoorunit during the winter, unless you first discuss it with your dealer.Any cover used must include “breathable” fabric to avoid mois-ture buildup.
• Check the thermostat to confirm that it is properly set.• Wait 15 minutes. Some devices in the outdoor unit or in
programmable thermostats will prevent compressoroperation for awhile, and then reset automatically. Also,some power companies will install devices which shutoff air conditioners for several minutes on hot days. Ifyou wait several minutes, the unit may begin operationon its own.
TO AVOID THE RISK OF EQUIPMENT DAMAGE OR FIRE, INSTALLTHE SAME AMPERAGE BREAKER OR FUSE AS YOU AREREPLACING. IF THE CIRCUIT BREAKER OR FUSE SHOULD OPENAGAIN WITHIN THIRTY DAYS, CONTACT A QUALIFIED SERVICERTO CORRECT THE PROBLEM.IF YOU REPEATEDLY RESET THE BREAKER OR REPLACETHE FUSE WITHOUT HAVING THE PROBLEM CORRECTED,YOU RUN THE RISK OF SEVERE EQUIPMENT DAMAGE.
BEFORE CALLING YOUR SERVICER
• Check the electrical panel for tripped circuit breakersor failed fuses. Reset the circuit breakers or replace fusesas necessary.
• Check the disconnect switch near the indoor furnace orblower to confirm that it is closed.
• Check for obstructions on the outdoor unit . Confirm thatit has not been covered on the sides or the top. Removeany obstruction that can be safely removed. If the unitis covered with dirt or debris, call a qualified servicer toclean it.
• Check for blockage of the indoor air inlets and outlets.Confirm that they are open and have not been blockedby objects (rugs, curtains or furniture).
• Check the filter. If it is dirty, clean or replace it.• Listen for any unusual noise(s), other than normal
operating noise, that might be coming from the outdoorunit. If you hear unusual noise(s) coming from the unit,call a qualified servicer.
SPLIT SYSTEMSAIR CONDITIONING AND HEAT PUMP HOMEOWNER’S ROUTINE MAINTENANCE RECOMMENDATIONS
We strongly recommend a bi-annual maintenance checkup be performedbefore the heating and cooling seasons begin by a qualified servicer.