Goodman DSZC160241AA, DSZC160241AB, DSZC160241AC, DSZC160361AA, DSZC160361AB Installation Manual
...Page 1
CONDENSING UNIT
HEAT PUMP
INSTALLATION & SERVICE REFERENCE
I
MPORTANT SAFETY INSTRUCTIONS
© 2009-2014 Goodman Manufacturing Company, L.P.
5151 San Felipe, Suite 500, Houston, TX 77056
www.goodmanmfg.com -or- www.amana-hac.com
P/N: IO-348M Date: September 2014
The following symbols and labels are used throughout this manual
to indicate immediate or potential safety hazards. It is the
owner’s and installer’s responsibility to read and comply with all
safety information and instructions accompanying these symbols. Failure to heed safety information increases the risk of
personal injury , property damage, and/or product damage.
S
HIPPING INSPECTION
HIGH VOLTAGE!
D
ISCONNECT
ULTIPLE POWER SOURCES MAY BE PRESENT
M
TO DO SO MAY CAUSE PROPERTY DAMAGE, PERSONAL
INJURY OR DEATH
ALL
POWER BEFORE SERVICING
.
WARNING
.
. F
AILURE
Always keep the unit upright; laying the unit on its side or top
may cause equipment damage. Shipping damage, and subsequent investigation is the responsibility of the carrier. V erify the
model number, specifications, electrical characteristics, and accessories are correct prior to installation. The distributor or manufacturer will not accept claims from dealers for transportation
damage or installation of incorrectly shipped units.
C
ODES
& R
EGULATIONS
ONLY
INDIVIDUALS MEETING THE REQUIREMEN TS OF AN
ECHNICIA N
T
ONDITIONING
C
USE THIS INFORMATION
WITHOUT SUCH BACKGROUND MAY RESU LT IN PRODUCT DAMAGE
PERSONAL INJURY, OR DEATH
”
AT A MINIMUM
,
, H
EATING AND REFRIGERATION INSTITU TE
WARNING
“E
NTRY LEVEL
AS SPECIFIED BY THE AIR
,
(AHRI)
. A
TTEMPTING TO INSTALL OR REPAIR THIS UNIT
.
MAY
,
This product is designed and manufactured to comply with national codes. Installation in accordance with such codes and/or
prevailing local codes/regulations is the responsibility of the installer . The manufacturer assumes no responsibility for equipment installed in violation of any codes or regulations. Rated
performance is achieved after 72 hours of operation. Rated performance is delivered at the specified airflow. See outdoor unit
specification sheet for split system models or product specifi-
S
CROLL EQUIPPE D UNITS SHOULD NEVER BE USED TO EVACUATE THE AIR
CONDITIONING SYSTEM
ELECTRICAL ARCING RESU LTING IN A DAMAGED OR FAILED
COMPRESSOR
.
CAUTION
. V
ACUUMS THIS LOW CAN CAUSE INTERNAL
cation sheet for packaged and light commercial models. Specification sheets can be found at www.goodmanmfg.com for
Goodman® brand products or www.amana-hac.com for Amana® brand products. Within either website, please select the
residential or commercial products menu and then select the submenu for the type of product to be installed, such as air
conditioners or heat pumps, to access a list of product pages that each contain links to that model’s specification sheet.
The United States Environment al Protection Agency (EP A) has issued various regulations regarding the introduction
and disposal of refrigerants. Failure to follow these regulations may harm the environment and can lead to the
imposition of substantial fines. Should you have any questions please contact the local of fice of the EP A.
If replacing a condensing unit or air handler, the system must be manufacturer approved and Air Conditioning, Heating and
Refrigeration Institute (AHRI) matched. NOTE: Installation of unmatched systems is strongly discouraged.
Outdoor units are approved for operation above 55°F in cooling mode. Operation below 55°F in cooling mode requires the use
of an approved low ambient kit.
Operating the unit in a structure that is not complete (either as part of new construction or renovation) will void the warranty.
F
EA TURES
This heat pump is a part of the ComfortNet™ family of products. It may be installed as part of a “legacy” system using a
standard 24 V AC thermostat. However , with the CTK0* ComfortNet™ thermostat kit, this heat pump may be installed as part of
a digitally communicating system. The ComfortNet system provides automatic airflow configuration, enhanced setup features,
and enhanced diagnostics. It also reduces the number of thermostat wires to a maximum of four and a minimum of two.
is a registered trademark of Maytag Corporation or its related companies and is used under
license to Goodman Company, L.P., Houston, TX. All rights reserved.
Page 2
I
NST ALLATION CLEARANCES
Special consideration must be given to location of the condensing
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 unobstructed;
however, if vertical conditions require placement beneath an obstruction there should be a minimum of 60 inches between
the top of the unit and the obstruction(s). The specified dimensions meet requirements for air circulation only. Consult all
appropriate regulatory codes prior to determining final clearances.
Another important consideration in selecting a location for the
unit(s) is the angle to obstructions. Either side adjacent the valves
can be placed toward the structure provided the side away from
the structure maintains minimum service clearance. Corner installations are strongly discouraged.
This unit can be located at ground floor level or on flat roofs. At
ground floor level, the unit must be on a solid, level foundation
that will not shift or settle. To reduce the possibility of sound
transmission, the foundation slab should not be in contact with or
be an integral part of the building foundation. Ensure the foundation is sufficient to support the unit. A concrete slab raised above
ground level provides a suitable base.
NOT
RECOMMENDED
B B B
AA AAA
C
AA
A
Model Type A B C AA
Residential
Light Commercial
AA
Minimum Airflow Clearance
10" 10" 18" 20"
12" 12" 18" 24"
AA
C
AA
CC
B
AA
OK!
OK!
OK!
OK!
OK!
OK!
R
OOFTOP INST ALLATIONS
If it is necessary to install this unit on a roof structure, ensure the roof structure can support the weight and that proper
consideration is given to the weather-tight integrity of the roof. Since the unit can vibrate during operation, sound vibration
transmission should be considered when installing the unit. Vibration absorbing pads or springs can be installed between the
condensing unit legs or frame and the roof mounting assembly to reduce noise vibration.
NOTE: These units require special location consideration in areas of heavy snow accumulation and/or areas with prolonged
continuous subfreezing temperatures. Heat pump unit bases have cutouts under the outdoor coil that permit drainage of frost
accumulation. Situate the unit to permit free unobstructed drainage of the defrost water and ice. A minimum 3” clearance under
the outdoor coil is required in the milder climates.
In more severe weather locations, it is recommended that the
unit be elevated to allow unobstructed drainage and air flow. The
elevation minimums at right are recommended:
S
AFE REFRIGERANT HANDLING
Design Temperature Suggested Minimum Elevation
+15° and above 2 1/2"
-5° to +14° 8"
below -5° 12"
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
.
WARNING
TO
AVOID POSSIBLE EXPLOSION, USE ONLY RETU RNABLE (NOT
DISPOSABLE) SERVICE CYLINDERS WHEN REMOVING REFRIGERANT FROM
A SYSTEM
• E
• E
• E
W
.
NSURE THE CYLINDER IS FREE OF DAMAGE WHICH COUL D LEAD TO A
LEAK OR EXPLOSION
NSURE THE HYDROSTATI C TEST DATE DOES NOT EXCEED
NSURE THE PRESSURE RATING MEETS OR EXCEEDS
HEN IN DOUBT, DO NOT USE CYLINDER
.
5
YEARS
400
PSIG
.
2
.
.
Page 3
WARNING
R
EFRIGERANTS ARE HEAVIER THAN AIR
OXYGEN IN YOUR LUNGS OR IN ANY ENCLOSE D SPACE
POSSIBLE DIFFICULTY IN BREATHING OR DEATH
EVER PURGE REFRIGERANT INTO AN ENCLOSE D ROOM OR SPACE
• N
LAW, ALL REFRIGERANTS MUST BE RECLAIMED
F AN INDOOR LEAK IS SUSPECTED, THOROUGHLY VENTI LATE THE AREA
• I
BEFORE BEGINNING WORK
IQUID REFRIG ERANT CAN BE VERY COLD
• L
OR BLINDNESS, AVOID CONTA CT AND WEAR GLOVES AND GOGGLES
LIQUID REFRIGE RANT DOES CONTA CT YOUR SKIN OR EYES, SEEK MEDICAL
HELP IMMEDIATELY
LWAYS FOLLOW
• A
OISONOUS GAS WILL BE PRODUCED
P
EP A
.
.
REGULATIONS
. T
HEY CAN “PUSH OUT” THE
. TO
AVOID
:
.
. TO
AVOID POSSIBLE FROST BITE
. N
EVER BURN REFRIGERANT, AS
.
. BY
. IF
WARNING
TO
AVOID POSSIBLE EXPLOSION
• N
EVER APPLY FLAME OR STEAM TO A REFRIG ERANT CYLINDER
MUST HEAT A CYLINDER FOR FASTER CHARGING, PARTIALLY IMMERSE IT
IN WARM WATER
EVER FILL A CYLINDER MORE THAN
• N
EVER ADD ANYTHING OTHER THAN
• N
TO AN
410A
BE LISTED OR CERTIFIED FOR THE TYPE OF REFRIG ERANT USED
TORE CYLINDERS IN A COOL, DRY PLACE
• S
LATFORM OR A ROLLER
P
.
R-410A
CYLINDER
.
:
80%
FULL OF LIQUID REFRIG ERANT
R-22 TO AN R-22
. THE
SERVICE EQUIPM ENT USED MUST
. N
EVER USE A CYLINDER AS A
. IF
CYLINDER OR
.
YOU
.
R-
R
EFRIGERANT LINES
Use only refrigerant grade (dehydrated and sealed) copper tubing to connect the condensing unit with the indoor evaporator.
After cutting the tubing, install plugs to keep refrigerant tubing
clean and dry prior to and during installation. Tubing should
always 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 plumbing, ductwork, floor joists, wall studs, floors, and walls. When
running refrigerant lines through a foundation or wall, openings
should allow for sound and vibration absorbing material to be
placed or installed between tubing and foundation. Any gap
between foundation or wall and refrigerant lines should be filled
with a pliable silicon-based caulk, RTV or a vibration damping
material. A void suspending refrigerant tubing from joist s and
studs with rigid wire or straps that would come in contact with
the tubing. Use an insulated or suspension type hanger. Keep
both lines separate and always insulate the suction line.
These sizes are suitable for line lengths of 79 feet or less. If a
run of more than eighty feet is required, refer to Remote Cooling Service Manual, or TP-106 Long Line Set Application R-22,
or TP-107 Long Line Set Application R-410A or contact your
distributor for assistance.
CAUTION
THE
COMPRESSOR
SUSCEPTIBLE TO MOISTURE ABSORPTION AND COUL D CAUSE
COMPRESSOR FAILURE
ANY LONGER THAN NECESSARY FOR INSTALLATION
POE
OIL FOR
R-410A
. DO
NOT LEAVE SYSTEM OPEN TO ATMOSPHERE
UNITS IS EXTREMELY
.
RECOMMENDED INTERCONNECTING TUBING (Ft)
Cond
Unit
0-24 25-49 50-79*
Line Diameter ( In . OD)
Tons Suct Liq Suct Liq Suct Liq
1 1/2 5/8 1/4 3/4 3/8 3/4 3/ 8
2 5/81/43/43/83/43/8
2 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 3/8
3 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 3/8
5 7/ 8 3/8 1 1/8 3/8 1 1/8 3/8
* Lines greater than 79 feet in length or vertical elevation
changes more than 50 feet
Service Manual or contact your distributor for assistance.
refer to the Remote Cool ing
Insulation is necessary to prevent condensation from forming and dropping from the suction line. Armaflex (or satisfactory
equivalent) with 3/8” min. wall thickness is recommended. In severe conditions (hot, high humidity areas) 1/2” insulation may be
required. Insulation must be installed in a manner which protects tubing from damage and contamination.
Where possible, drain as much residual compressor oil from existing systems, lines, and traps; pay close attention to low areas
where oil may collect. NOTE: If changing refrigerant types, ensure the indoor coil and metering device is compatible with the
type of refrigerant being used; otherwise, the indoor coil must be replaced.
3
Page 4
B
URYING REFRIGERANT LINES
If burying refrigerant lines can not be avoided, use the following
checklist.
1. Insulate liquid and suction lines separately .
2. Enclose all underground portions of the refrigerant lines in
waterproof material (conduit or pipe) sealing the ends where
tubing enters/exits the enclosure.
3. If the lines must pass under or through a concrete slab, ensure
lines are adequately protected and sealed.
R
EFRIGERANT LINE CONNECTIONS
IMPORTANT
T o avoid overheating the service valve, TXV valve, or filter
drier while brazing, wrap the component with a wet rag,
or use a thermal heat trap compound. Be sure to follow
the manufacturer’s instruction when using the heat trap
compound. Note: Remove Schrader valves from service
valves before brazing tubes to the valves. Use a brazing
alloy of 2% minimum silver content. Do not use flux.
Torch heat required to braze tubes of various sizes is
proportional to the size of the tube. T ubes of smaller size
require less heat to bring the tube to brazing temperature before adding brazing alloy . Applying too much heat
to any tube can melt the tube. Service personnel must use the appropriate heat level for the size of the tube
being brazed. NOTE: The use of a heat shield when brazing is recommended to avoid burning the serial plate
or the finish on the unit.
1. The ends of the refrigerant lines must be cut square, deburred, cleaned, and be round and free from nicks or dents. Any
other condition increases the chance of a refrigerant leak.
2. “Sweep” the refrigerant line with nitrogen or inert gas during brazing to prevent the formation of copper-oxide inside the
refrigerant lines. The POE oils used in R-410A applications will clean any copper-oxide present from the inside of the
refrigerant lines and spread it throughout the system. This may cause a blockage or failure of the metering device.
3. After brazing, quench the joints with water or a wet cloth to 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 or chipped,
repaint or treat with a rust preventative. This is especially important on suction line filter driers which are continually wet
when the unit is operating.
NOTE: Be careful not to kink or dent refrigerant lines. Kinked or dented lines will cause poor performance or compressor
damage.
Do NOT make final refrigerant line connection until plugs are removed from refrigerant tubing.
NOTE: Before brazing, verify indoor TXV is correct for R410A and proper size.
L
EAK TESTING
(N
ITROGEN OR NITROGEN-TRACED
)
WARNING
Pressure test the system using dry nitrogen and soapy water
to locate leaks. If you wish to use a leak detector, charge the
system to 10 psi using the appropriate refrigerant then use
nitrogen to finish charging the system to working pressure then
apply the detector to suspect areas. If leaks are found, repair
them. After repair, repeat the pressure test. If no leaks exist,
proceed to system evacuation.
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
NO MORE THAN
4
. THE
PRESSURE RELIEF VALVE MUST BE SET TO OPEN AT
150
PSIG
.
Page 5
S
YSTEM EVACUATION
Condensing unit liquid and suction valves are closed to contain
the charge within the unit. The unit is shipped with the valve
stems closed and caps installed. Do not open valves until
the system is evacuated.
WARNING
REFRIGERANT UNDER PRESSURE!
F
AILURE TO FOLLOW PROPER PROCEDURES MAY CAUSE PROPERTY
DAMAGE, PERSONAL INJURY OR DEATH
.
NOTE: Scroll compressors should never be used to evacuate or
pump down a heat pump or air conditioning system.
1. Connect the vacuum pump with 250 micron capability to
the service valves.
2. Evacuate the system to 250 microns or less using suction
and liquid service valves. Using both valves is necessary
as some compressors create a mechanical seal 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 remains
steady the system is considered leak-free; proceed to
startup.
• If pressure rises above 1000 microns but holds steady
below 2000 microns, moisture and/or noncondensibles
may be present or the system may have a small leak.
Return to step 2: If the same result is encountered check
for leaks as previously indicated and repair as necessary
then repeat evacuation.
• If pressure rises above 2000 microns, a leak is present.
Check for leaks as previously indicated and repair as
necessary then repeat evacuation.
E
LECTRICAL CONNECTIONS
The condensing unit rating plate lists pertinent electrical data
necessary for proper electrical service and overcurrent protection. 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 the
correct wire gauge and length.
Local codes often require a disconnect switch located near the
unit; do not install the switch on the unit. Refer to the installation instructions supplied with the indoor furnace/air handler for
specific wiring connections and indoor unit configuration. Likewise, consult the instructions packaged with the thermostat for
mounting and location information.
CAUTION
P
ROLONGED OPERATION AT SUCTION PRESSURES LESS THAN
FOR MORE THAN
SCROLLS AND PERMANENT DAMAGE TO THE SCROLL TIPS, DRIVE
BEARINGS AND INTERNAL SEAL
5000
4500
4000
3500
MICRONS
3000
IN
2500
ACUUM
2000
V
1500
1000
500
5
SECONDS WILL RESU LT IN OVERHEAT ING OF THE
.
LEAK(S)
PRESENT
CONDENSIBLES OR SMALL
LEAK PRESENT
NO LEAKS
NO CONDENSIBLES
0 1 2 3 4 5 6 7 8 9
MINUTES
20
10
WARNING
HIGH VOLTAGE!
D
ISCONNECT
ULTIPLE POWER SOURCES MAY BE PRESENT
M
TO DO SO MAY CAUSE PROPERTY DAMAGE, PERSONAL
INJURY OR DEATH DUE TO ELECTRIC SHOCK
MUST CONFO RM WITH
CODES
EQUIPM EN T PERFORMANCE, EQUIPM EN T DAMAGE OR
FIRE
.
TO
AVOID THE RISK OF FIRE OR EQUIPM EN T DAMAGE, USE COPPER
CONDUCTORS
ALL
POWER BEFORE SERVICING
NEC OR CEC
. U
NDERSIZED WIRES COUL D CAUSE POOR
AND ALL LOCAL
WARNING
.
. W
.
. F
AILURE
IRING
PSIG
O
VERCURRENT PROTECTION
The following overcurrent protection devices are approved for use.
• Time delay fuses
• HACR type circuit breakers
These devices have sufficient time delay to permit the motor-compressor to start and accelerate its load.
H
IGH VOLTAGE CONNECTIONS
Route power supply and ground wires through the high voltage port and terminate in accordance with the wiring diagram provided
inside the control panel cover .
5
Page 6
LOW V
OL TAGE CONNECTIONS
Condensing unit control wiring requires a nominal 24 V AC (+/- 6
V AC), 60 Hz, minimum 25 V A service from either the indoor or an
optional outdoor transformer. Low volt age wiring for the condensing units depends on the thermostat used. The unit is designed to
work as part of a fully communicating HV AC system utilizing the
ComfortNet™ CTK0* thermostat, ComfortNet™ compatible indoor
unit, and up to four wires.
The unit also has legacy 24 V AC inputs to support non-communicating systems. Route control wires through the low voltage port
and terminate in accordance with the wiring diagram provided inside the control panel cover.
NOTE: For two-stage units, refer to the Installation Instructions
supplied with the variable speed indoor units for field wiring connections.
NOTE: If the heat pump unit is wired in the communicating mode together
with a compatible communicating indoor unit and CTK0* communicating
thermostat, then the communicating thermostat is able to search and identify
the condensing unit when power is applied to the system. Refer to the
Installation Manual of the optional communicating thermostat for more
information.
Use the dipswitch to select defrost time interval (30, 60, 90, 120
minutes; see chart below).
60
60
30 Min ut e s
60
60
Factory default setting is 30 minutes. The maximum defrost cycle time is
10 minutes.
90 Minutes
Voltage Ports
60
30
0
60
60
30
60
0
60 Minutes
120 Minutes
HIGH
VOLTAGE
PORT
LOW
VOLTAGE
PORT
30
0
30
0
Dipswitch Settings for Selection
S
YSTEM START UP
NOTE: Power must be supplied to the 18 SEER outdoor units
containing ECM motors before the power is applied to the indoor
unit. Sending a low voltage signal without high voltage power
present at the outdoor unit can cause malfunction of the control
module on the ECM motor.
Adequate refrigerant charge for the matching evaporator coil or
air handler and 15 feet of lineset is supplied with the condensing unit. If using evaporator coils or air handlers other than
HSVTC coil it maybe necessary to add or remove refrigerant to attain proper charge. If line set exceeds 15 feet in length,
refrigerant should be added at .6 ounces per foot of liquid line.
NOTE: Charge should always be checked using superheat when using a piston and subcooling when using TXV equipped
indoor coil to verify proper charge.
Open the suction service valve first! If the liquid service valve is opened first, oil from the compressor may be drawn into the indoor
coil TXV , restricting refrigerant flow and affecting operation of the system.
When opening valves with retainers, open each valve only until the top of the stem is 1/8” from the retainer . To avoid loss of
refrigerant, DO NOT apply pressure to the retainer . When opening valves without a retainer remove service valve cap and insert
a hex wrench into the valve stem and back out the stem by turning the hex wrench counterclockwise. Open the valve until it
contacts the rolled lip of the valve body .
NOTE: These are not back-seating valves. It is not necessary to force the stem tightly against the rolled lip.
After the refrigerant charge has bled into the system, open the liquid service valve. The service valve cap is the secondary seal
for the valve and must be properly tightened to prevent leaks. Make sure cap is clean and apply refrigerant oil to threads and
sealing surface on inside of cap. Tighten cap finger-tight and then tighten additional 1/6 of a turn (1 wrench flat) to properly seat
the sealing surfaces.
POSSIBLE REFRIGERANT LEAK!
TO
AVOID A POSSIBLE REFRIG ERANT LEAK, OPEN THE SERVICE VALVES
UNTIL THE TOP OF THE STEM IS
of Defrost Time
CAUTION
1/8”
FROM THE RETAINER
.
6
Page 7
Do not introduce liquid refrigerant from the cylinder into the crankcase of the compressor as this may damage the
compressor.
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 for 10 minutes
for fixed orifices and 20 minutes for expansion valves.
C
HARGE VERIFICA TION
WARNING
CAUTION
USE
REFRIG ERANT CERTIFIED TO
MAY CAUSE COMPRESSOR DAMAGE, AND IS NOT COVERED UNDER THE
WARRANTY
REFRIG ERANT TO MEET
. M
OST PORTABLE MACHINES CANNOT CLEAN USED
AHRI
AHRI
STANDARDS
STANDARDS
. U
SED REFRIG ERANT
.
REFRIGERANT UNDER PRESSURE!
• DO
NOT OVERCHARGE SYSTEM WITH REFRIG ERANT
O NOT OPERATE UNIT IN A VACUUM OR AT NEGATIVE PRESSURE
• D
AILURE TO FOLLOW PROPER PROCEDURES MAY CAUSE PROPERTY
F
DAMAGE, PERSONAL INJURY OR DEATH
.
.
.
NOTICE
V
IOLATION OF
PENALTIES
F
INAL CHARGE ADJUSTMENT
EPA
REGULATIONS MAY RESU LT IN FINES OR OTHER
.
O
PERATING THE COMPRESSOR WITH THE SUCTION VALVE CLOSED MAY
CAUSE SERIOUS COMPRESSOR DAMAGE
The outdoor temperature must be 60°F or higher. Set the room thermost at to COOL, fan switch to AUTO, and set the temperature control well below room temperature.
After system has stabilized per startup instructions, check subcooling and superheat as detailed in the following section.
SATURATED SUCTION PRESSURE
TEMPERATURE CHART
SUCTION PRESSURE
P SIG R-22 R-410A
50 26 1
52 28 3
54 29 4
56 31 6
58 32 7
60 34 8
62 35 10
64 37 11
66 38 13
68 40 14
70 41 15
72 42 16
74 44 17
76 45 19
78 46 20
80 48 21
85 50 24
90 53 26
95 56 29
100 59 31
110 64 36
120 69 41
130 73 45
140 78 49
150 83 53
160 86 56
170 90 60
SATURATED SUCTI ON
TEMPERATURE ºF
LIQUID PRESSURE
SATURATED LIQUID PRESSURE
TEMPERATURE CHART
P SIG R-22 R - 410A
200 101 70
210 105 73
220 108 76
225 110 78
235 113 80
245 116 83
255 119 85
265 121 88
275 124 90
285 127 92
295 130 95
305 133 97
325 137 101
355 144 108
375 148 112
405 155 118
415 157 119
425 n/a 121
435 n/a 123
445 n/a 125
475 n/a 130
500 n/a 134
525 n/a 138
550 n/a 142
575 n/a 145
600 n/a 149
625 n/a 152
7
CAUTION
.
SATUR ATED LIQU ID
TEMPERATURE ºF
Page 8
E
XPANSION VALVE SYSTEM
NOTE: Units matched with indoor coils equipped with
non-adjustable TXV should be charged by subcooling
only .
Run the unit on low stage cooling for 10 minutes until refrigerant pressures stabilize. Use the following guidelines and meth-
TO
PREVENT PERSONAL INJURY, CAREFULLY CONNECT AND DISCONNECT
MANIFOLD GAUGE HOSES
BURNS
. DO
NOT VENT REFRIG ERANT INTO THE ATMOSPHERE
ALL REFRIG ERANT DURING SYSTEM REPAIR AND BEFORE FINAL UNIT
DISPOSAL
.
CAUTION
. E
SCAPING LIQUID REFRIGERANT CAN CAUSE
. R
ECOVER
ods to check unit operation and ensure that the refrigerant
charge is within limits. Charge the unit on low stage.
1. Purge gauge lines. Connect service gauge manifold to base-valve service ports. Run system at least 10 minutes to allow
pressure to stabilize.
2. T emporarily inst all a thermometer on the liquid line at the liquid line service valve and 4-6" from the compressor on the
suction line. Ensure the thermometer makes adequate contact and is insulated for best possible readings. Use liquid line
temperature to determine subcooling and vapor temperature to determine superheat.
3. Check subcooling and superheat. Systems with TXV application should have a subcooling of 5 to 7°F and superheat of
7 to 9 °F.
a. If subcooling and superheat are low, adjust TXV to 7 to 9 ºF superheat, then check subcooling.
NOTE: T o adjust superheat, turn the valve stem clockwise to increase and counter clockwise to decrease.
b. If subcooling is low and superheat is high, add charge to raise subcooling to 5 to 7 °F then check superheat.
c. If subcooling and superheat are high, adjust TXV valve to 7 to 9 ºF superheat, then check subcooling.
d. If subcooling is high and superheat is low, adjust TXV valve to 7 to 9 ºF superheat and remove charge to lower the
subcooling to 5 to 7 ºF.
NOTE: Do NOT adjust the charge based on suction pressure unless there is a gross undercharge.
4. Disconnect manifold set, installation is complete.
SUBCOOLING FORMULA = SAT. LIQUID TEMP. - LIQUID LINE TEMP.
NOTE: Check the Schrader ports for leaks and tighten valve cores if necessary . Install cap s finger-tight.
H
EAT PUMP
- H
EATING CYCLE
The proper method of charging a heat pump in the heat mode is by weight with the additional charge adjustments for line size,
line length, and other system components. For best results on outdoor units with TXVs, superheat should be 2-5° at 4-6" from
the compressor. Make final charge adjustment s in the cooling cycle.
ADDITIONAL NOTES
1. There are (3) 7-segment LED displays on the PCB. Refer to the Troubleshooting chart at the end of this manual for
definitions of the LED status.
2. “TERM” dip switch is used for communications bus configuration. Leave the settings to the factory default position.
3. “LEARN” push button is used in communication mode to support device recognition on start-up. As the communication
system supports automatic identification of both indoor unit and outdoor unit, this button is not used for a normal start-up.
4. Press “TEST” push button, during system “Standby” mode to turn on both the compressor and outdoor fan for five
seconds.
5. The “RECALL” push button is used to retrieve the six most recent faults. The control must be in Standby Mode (no
thermostat inputs) to use the feature. Depress the push button for approximately two seconds and less than five seconds.
The 7-segment LED displays will then display the six most recent faults beginning with the most recent fault and
decrementing to the least recent fault. The faults may be cleared by depressing the button for greater than five seconds.
Consecutively repeated faults are displayed a maximum of three times. Refer to the fault code definitions at the end of
this manual for more details.
6. A forced defrost can be initiated by pressing “TEST” and “RECALL” push buttons simultaneously for more than 1 second
with a valid call for heat. The forced defrost can be terminated by
• A 10 minute lapse in time,
• A coil temperature rise above 75°F or
• By pressing the two buttons again for more than 1 second.
8
Page 9
C
OMFORTNET
™ S
YSTEM
OVERVIEW
The ComfortNet system (or CT system) is a system that includes a ComfortNet compatible air handler/furnace/modular
blower and air conditioner or heat pump with a CTK0* thermostat. Any other system configurations are considered invalid
ComfortNet systems and must be connected as a traditional
CT compatible
Air Handler/Furnace/Modular
Blower
CT compatible
Air Handler/Furnace/Modular
Blower
(or legacy) system. The following table compares the valid CT
systems.
A ComfortNet heating/air conditioning system differs from a legacy/traditional system in the manner in which the indoor unit,
outdoor unit and thermostat interact with one another . In a traditional system, the thermostat sends commands to the indoor
and outdoor units via analog 24 V AC signals. It is a one-way communication path in that the indoor and outdoor unit s typically
do not return information to the thermostat.
On the other hand, the indoor unit, outdoor unit, and thermostat comprising a ComfortNet system “communicate” digitally with
one another. It is now a two-way communications p ath. The thermostat still sends commands to the indoor and outdoor units.
However, the thermost at may also request and receive information from both the indoor and outdoor units. This information may
be displayed on the CT thermostat. The indoor and out door units also interact with one another. The outdoor unit may send
commands to or request information from the indoor unit.
Two-way digit al communications is accomplished using only two wires. The thermostat and subsystem controls are powered
with 24 V AC. Thus, a maximum of 4 wires between the equipment and thermostat is all that is required to operate the system.
CT compatible
Air Conditioner
CT compatible
Heat Pump
Full CT system
benefits & features
Full CT system
benefits & features
AIRFLOW CONSIDERATION
Airflow demands are managed differently in a fully communicating system than they are in a legacy wired system. The
system 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 demand, it calculates the demand and sends it to the ECM motor.
If the outdoor unit or thermostat is responsible for determining
the demand, it calculates the demand and transmits the demand along with a fan request to the indoor unit. The indoor
unit then sends the demand to the ECM motor. The table
below lists the various ComfortNet systems, the operating
mode, and airflow demand source.
System
Heat Pump + Air
Handler
System
Operating Mode
Cooling Heat Pump
Heat Pump Heating
Only
HP + Electric Heat
Strips
Electric Heat Strips
Only
Continuous Fan Thermostat
Airflow Demand
Sou rce
Heat Pump
> of Heat Pump or A ir
Handler Demand
Air Handler
For example, assume the system is a heat pump matched
with an air handler. With a call for low stage cooling, the heat
pump will calculate the system’s low stage cooling airflow
demand. The heat pump will then send a fan request along
with the low stage cooling airflow demand to the air handler .
Once received, the air handler will send the low stage cooling
airflow demand to the ECM motor. The ECM motor then delivers the low stage cooling airflow . The t able at right lists the
nominal high and low stage airflow for the ComfortNet™ heat
pumps.
Cooling Heat Pump
Heat Pump Heating
Heat Pump +
Furnace
Models
*SZC160241 800 600 800 600
*SZC160361 1200 800 1200 800
*SZC160481 1550 1100 1550 1100
*SZC160601 1800 1210 1800 1210
*SZC180361 1250 850 1250 850
*SZC180481 1750 1210 1750 1210
*SZC180601 1750 1210 1750 1210
Only
A uxiliary Heating Furnace
Continuous Fan Thermostat
Co oling Heat ing
High Low High Low
Heat Pump
9
Page 10
CTK0* WIRING
NOTE: Refer to section Electrical Connections - High Voltage Connections for 208/230 volt line connections to the air conditioner
or heat pump.
NOTE: A removable plug connector is provided with the control to make thermostat wire connections. This plug may be
removed, wire connections made to the plug, and replaced. It is strongly recommended that you do not connect multiple wires
into a single terminal. Wire nuts are recommended to ensure one wire is used for each terminal. Failure to do so may result in
intermittent operation.
Typical 18 AWG thermostat wire may be used to wire the system components. However, communications reliability may be
improved by using a high quality, shielded, twisted pair cable for the data transmission lines. In either case, 150 feet is the
maximum 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 4 wires between the indoor unit and outdoor
unit and between the indoor unit and thermostat. The required wires are: (a)
data lines, 1 and 2; (b) thermostat “R” (24 V AC hot) and “C” (24 VAC common).
12RC
12RC
12RC
CTK0*
Thermostat
CT Compatible
Air Handler/Furnace/Modular Blower
Integrated Control Module
CT Compatible AC/HP
Integrated Control Module
TWO-WIRE OUTDOOR, FOUR-WIRE INDOOR WIRING
System Wiring Using Four-Wires
Two wires only may be utilized between the indoor and outdoor units. For this wiring scheme, only the data lines, 1
and 2, are required between the indoor and outdoor units. A
40V A, 208/230 VAC to 24 V AC transformer must be installed
in the outdoor unit to provide 24 VAC power to the outdoor
unit’s electronic control. CTK0* manual will state if this transformer is optional or mandatory . Four wires are required between the indoor unit and thermostat.
NOTE: Use of the CTK0* transformer is recommended if
installing a dual fuel system. Failure to use the transformer
40VA Transformer (included in
CTK0* kit)
208/230 VAC
24 VAC
12RC
12RC
12RC
CTK0*
Thermostat
CT Compatible Air
Handler/Furnace/Modular
Blower Integrated
Control Module
CT Compatible
AC/HP Integrated
Control Module
in the outdoor unit could result in over loading of the furnace
transformer.
System Wiring using Two-Wires between Furnace
COMFORTNET™ SYSTEM ADVANCED FEATURES
The ComfortNet system permits access to additional sys-
and AC/HP and Four-Wires between Furnace
and Thermostat
tem information, advanced setup features, and advanced diagnostic/troubleshooting features. These advanced features are organized into a menu structure. See thermostat installation
manual for directions on how to access the ComfortNet User Menus. See following tables for menu layout.
CONFIGURATION
The configuration menu provides functional information about the installed equipment. System tonnage and number of cooling
and heating stages are displayed within this menu. A tonnage check will help determine if the equipment shared data is correct
for the unit. If the tonnage is not correct, even though very rare, a memory card is available to load the proper data.
DIAGNOSTICS
Accessing the air conditioner/heat pump’s diagnostics menu provides ready access to the last six faults detected by the air
conditioner/heat pump. Faults are stored most recent to least recent. Any consecutively repeated fault is stored a maximum
of three times. Example: The power supply to the air conditioner/heat pump is continuously below 187 V AC. The control will
only store this fault the first three consecutive times the fault occurs.
NOTE: It is highly recommended that the fault history be cleared after performing maintenance or servicing the heat pump.
10
Page 11
IDENTIFICATION
Model Number, Serial Number and Sof tware Version are displayed within this menu. A model number check will help determine
if the equipment shared data is correct for the unit. If the model number is not correct, even though very rare, a memory card
is available to load the proper data.
SENSORS
The outdoor ambient temperature and coil temperature are displayed in the Sensor Menu. This information can be used for
troubleshooting purposes.
COOL SET-UP
This menu allows for the adjustment of several cooling performance variables. Cool Airflow Trim (range from -10% to 10% in 2%
increments), Cool Airflow Profiles, Cool Fan ON Delay, Cool Fan OFF Delay and Dehumidification Select (enable or disable
dehumidification) can be adjusted in this menu. See the following images showing the four cooling airflow profiles.
• Profile A (default) provides only an OFF delay of one (1) minute at 100% of the cooling demand airflow .
OFF
100% CFM 100% CFM
OFF
1 min
• Profile B ramps up to full cooling demand airflow by first stepping up to 50% of the full demand for 30 seconds. The motor then
ramps to 100% of the required airflow. A one (1) minute OFF delay at 100% of the cooling airflow.
OFF
50% CFM
1/2 min
100% CFM
100% CFM
OFF
1 min
• Profile C ramps up to 82% of the full cooling demand airflow and operates there for approximately 7 1/2 minutes. The motor then
steps up to the full demand airflow . Profile C also has a one (1) minute 100% OFF delay .
OFF
100% CFM
OFF
• Profile D ramps up to 50% of the demand for 1/2 minute, then ramps to 82% of the full cooling demand airflow and operates there
for approximately 7 1/2 minutes. The motor then steps up to the full demand airflow . Profile D has a 1/2 minute at 50% airflow OFF
delay.
OFF
Airflow Tables
OFF
STATUS
The current system operational mode and requested indoor CFM is reported in this menu. This information can be used for
troubleshooting purposes.
HEAT SET-UP
This menu allows for the adjustment of several heating performance variables. Heat Airflow Trim (range from -10% to 10% in
2% increments), Heat Fan ON Delay , Heat Fan OFF Delay , Defrost Interval and Compressor Delay can be adjusted in this
menu. Defrost Interval determines the amount of compressor run time between defrost cycles. Compressor delay selects a
compressor off time after a reversing valve shift.
11
Page 12
AIR CONDITIONER/HEAT PUMP ADVANCED FEATURES MENU
CONFIGURATION
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
N umber of HP Stages (HT STG) Displays the number of heat pump st ages; applies to HP only.
AC Tonnage (TONS) Displays the air conditionin g tonnage; applies to AC and HP.
DIAGNOSTICS
Submenu Item Indication/User Modifiable Options Comments
Fault 1 (FAULT #1) Most recent AC/HP fault For display only
Fault 2 (FAULT #2) Next most recent AC/HP fault For display only
Fault 3 (FAULT #3) Next most recent AC/HP fault For display only
Fault 4 (FAULT #4) Next most recent AC/HP fault For display only
Fault 5 (FAULT #5) Next most recent AC/HP fault For display only
Fault 6 (FAULT #6) Least recent AC/HP fault For display only
Clear Fault History (CLEAR) NO or YES
NOTE: Consecutively repeated faults are shown a maximum of 3 times
Selecting "YES" clears the fault
history
IDENTIFICATION
Submenu Item Indication (for Display Only; not User Modifiable)
Model Number (MOD NUM) Displays the air conditioner or heat pump model number
Serial Number (SER NUM) Displays the air conditioner or heat pump serial number (Optional)
Software (SOFTWARE) Displays the application software revision
SENSORS
Submenu Item User Modifiable Options Comments
Outdoo r Air Temp erature
(AIR TMP)
Outdoor Coil Temperature
(COIL TMP)
Submenu Ite m Use r Modifia ble Options Comme nts
Cool Ai rflow Trim
(CL TRM )
Cool Airflow Profile
(CL P R F L)
Cool ON Del ay
(CL O N)
Cool OFF Delay
(CL OFF)
Dehumidification Selec t
(DEHUM)
D ispl a ys the outdoor air
temperature
Sensor may or may not be available on an
air conditioner. Check air conditioner
instructions for details.
D ispl a ys the outdoor coil
Required for heat pump operation.
temperature
COOL SET-UP
-10% to +10% in 2% increments,
default is 0%
A, B , C, or D, default i s D Select s t he ai rflow profile; appl ies t o a ir
5, 10, 20, or 30 sec onds, default
is 5 seconds
30, 60, 90, or 120 s econds ,
default is 30 s econds
ON or OF F (default is O F F) Sel ect in g " O F F" disabl es dehum i dificat ion ;
Sel ec t s t he ai rflow trim am ount ; appl ies t o
air conditioner only.
conditioner only.
Sel ect s t he i ndoor blo wer ON d elay;
applies t o air c ondi t ioner only.
Sel ec t s t he i ndoor blower OF F del ay ;
applies t o air c ondi t ioner only.
s elect ing " O N" ena bles dehu m i dific ation;
applies t o air c ondi t ioner only.
12
Page 13
AIR CONDITIONER/HEAT PUMP ADVANCED FEATURES MENU (CONT’D)
STATUS
Submenu It e m I ndica tion (for Display Only; not User Mo difi able)
Mode (MODE) Displays the current air conditioner operating mode
CFM (CFM) Displays the airflow for the current operating mode
HEAT SET-UP
Submenu Item Use r Modifiable Options Comm e nts
Heat Airflow Trim
(HT TRM )
Heat ON Delay
(HT ON)
Heat O F F Delay
(HT OF F )
De fro st In te r val
(DEFROST)
Comp res s o r Delay
(CMP DL Y )
-10% t o + 10% in 2% inc rem ent s ,
default is 0%
5, 10, or 15 s ec onds, default is 5
seconds
30, 50, 70, or 90 s ec onds, default
is 30 s ec onds
30, 60, 90, or 120 m inut es ,
default is 30 m inut es .
0, 5, 15, or 30 s ec onds, default is
30 seconds
Select s t he airflow trim am ount ; applies t o
heat pum p only .
Selec t s t he indoor blower heat ON delay ;
applies to heat pump only .
Selec t s t he indoor blower heat OFF delay ;
applies to heat pump only .
Selec t s t he tim e int erval between defrost s ;
applies to heat pump only .
Selects the compressor off time after a
revers ing valve s hift; appli es t o heat pum p
only .
THERMOSTAT MENU
If this heat pump is installed with a CT compatible furnace, the system is recognized as a dual fuel system. The balance point
temperature should be set via the thermostat. See thermostat instruction manual for details on how to set the balance point.
NETWORK TROUBLESHOOTING
Verify that the bus TERM dipswitches are in the ON position.
The ComfortNet™ system is a fully communicating system which operates over a communicating
network. Occasionally the need to troubleshoot the network may arise. The integrated control
module has some on-board tools that may be used to troubleshoot the network. These tools are: red
communications LED, green receive (Rx) LED, and learn button.
• Red communications LED - Indicates the status of the network. The table below indicates the
LED status and the corresponding potential problem.
• Green receive LED - Indicates network traffic. The table below indicates the LED status and the corresponding
potential problem.
• LEARN button - Used to reset the network. Depress the button for approximately 2 seconds to reset the network.
OFF ON
1
2
TERM
TERM
SYSTEM TROUBLESHOOTING
NOTE: Refer to the instructions accompanying the CT compatible indoor air handler/furnace/modular blower unit for troubleshooting
information regarding indoor unit diagnostics..
Refer to the Troubleshooting Chart at the end of this manual for a listing of possible air conditioner and heat pump error codes,
possible causes and corrective actions.
13
Page 14
LED LED Stat us Indi cation Possible Causes Correcti v e A ct ion(s) Notes & Cautions
Red Communications
LED
Off • Normal condition • None • None • None
1 Flash • Communi cati ons Failure • Communic ations Fai lure
2 Flas hes • Out -of-box res et • None
Off • Turn power OFF pri or to
1 Stead y Flash • No net work found
• No power • No power t o furnac e • Check fuses and circuit
• Communic at ions error • O pen fus e • Replace blown fuse
• Con trol powe r up
• Learn button depressed
• Com m uni cati ons error • Check for s horts i n l ow
• B roken/ di sconne cted data
wire(s)
• Heat pump is i n stal l ed as a
legacy/ traditional system
• Depres s Learn Button
breakers; repl ace/reset
voltage wiring i n
heat pum p/system
• Res et network by
depressing lea rn button
• Chec k data 1/ dat a 2
voltages
• Check communications
wiring (dat a 1/ data 2
wires)
• Chec k wire c onn ecti ons at
term i nal bl ock
• Depres s onc e qui ck l y for a
power-up reset
• Depres s and hold for 2
seconds for an out-of-box
reset
• None
repair
• Turn power OFF pri or to
repair
• Verify wires at terminal
blocks are securely twisted
together prior t o i nserti ng
into terminal block
Green Recei ve LED
Rapid Flashing • Normal network t raffic • Control is “t alki ng” on
On Solid • Data 1/ Data 2 miss-wire
network as ex pected
• Dat a 1 a nd data 2 wires reversed
at heat pump, thermostat , or
CT compat i b l e i ndoo r uni t
• S ho rt be tween data 1 and
data 2 wi res
• S ho rt be tween data 1 or
data 2 wi res and R
(24VAC) or C (24VAC
common)
• V eri fy h eat pump
installation type (legacy/
traditional or
communicating)
• Chec k data 1/ dat a 2
voltages
• None • None
• Check communications
wiring (dat a 1/ data 2
wires)
• Check wire connec t ions at
term i nal bl ock
• Chec k data 1/ dat a 2
voltages
• Turn power OFF pri or to
repair
• Verify wires at terminal
blocks are securely twisted
together prior t o i nserti ng
into terminal block
14
Page 15
TROUBLESHOOTING INFORMATION: CONDENSING UNIT
Complaint
POSSIBLE CAUSE
DOTS IN ANALYSIS
GUIDE INDICATE
"POSSIBLE CAUSE"
Power Failure
Blown Fuse
Unbalanced Power , 3PH
Loose Connection
Shorted or Brok en Wires
Open Fan Overload
Faulty Therm o stat
Faulty Transf ormer
Shorted or Open Cap ac i tor
Internal Compressor Overloa d Open
Shorted or Groun ded Compressor
Compressor Stuck
Faulty Compressor Contactor
Faulty Fan Rela y
Open Control Circuit
Low Voltage
Faulty Evap. Fan Motor
Shorted or Groun ded Fan Motor
Improper Coo ling Antici pator
Shortage of Refrigerant
Restricted Liquid Line
Open Elemen t or Limit on Elec . Heater
Dirty Air Filter
Dirty Indoor Co il
Not enough air across Indoor Coil
Too much air ac r os s Indoor Coil
Overcharge of R efrigerant
Dirty Outdoor Coil
Noncondensibles
Recirculation of Condensing Air
Infiltration of Outdoor Air
Improperly Lo cated Thermostat
Air Flow Unbala nc ed
System Undersized
Broken Internal Parts
Broken Valves
Inefficient Compre s so r
Wrong Type Expansion Valve
Expansion Devic e Restricted
Oversized Expans ion Valve
Undersized Expansion Valve
Expansion Val ve B ul b Loose
Inoperative Expansion Valve
Loose Hold-down B olts
Faulty Reversing Valve
Faulty Defr os t C ontrol
Faulty Defrost Thermos ta t
Flowrator Not Seating Properly
No Cooling Unsatisfactory Cooling/Heating
SYMPTOM
System wi ll not start
Compressor will not start - fan runs
Comp. and Cond. Fan will not start
Evaporator fan will not start
Condenser fa n will not start
Compressor r un s - goes off on overl o ad
Compressor cycles on overload
System runs continuous ly - little c oo l ing/htg
•
•••
•••
•••
••••••
••
••• •
••
• ••••
•
••
•••
•••
•
•
•••
••
••
••
••
•• •• •
♦♦
••• •
••• •
••• •
•• •
•• •
••
•• •
•••
••
••
••
•• ••
•
••• • ••
••• • •• •
••
••• • •
•• •
•
•
•
Cooling or Heating Cycle (Heat Pump)
•••
System
Operating
Pressures
Test Method
Remedy
Too cool and then too warm
Not cool enoug h on warm days
Certain areas too cool, others too warm
Compressor is noisy
System runs - blows cold ai r i n heating
Unit will not terminate defrost
Unit will not defrost
Low suction pressure
Low head press ure
High suction pressure
High head pressure
Test Voltage
Inspect Fuse Size & Ty pe
Test Voltage
Inspect Co nnection - Tigh ten
Test Circuits With Ohmmeter
Test Contin ui ty of Overload
Test Contin ui ty of Thermostat & Wir i ng
Check Control Circuit wit h Voltmeter
Test Capacitor
♦
♦
♦
♦
♦
♦
•
♦
••
♦
♦
••
••
•
♦♦♦ ♦♦♦
♦♦♦♦♦ ♦
♦♦♦♦♦♦♦
♦
Heating Cycle Only (Heat Pump)
Test Contin ui ty of Overload
Test Motor Windings
Use Test Cord
Test Contin ui ty of Coil & Cont ac ts
Test Contin ui ty of Coil And Contacts
Test Control Circuit with Voltmeter
Test Voltage
Repair or Replace
♦
Test Motor Windings
Check Resistance of Anticipator
Test For Leak s, Add Refriger a nt
Remove Restr iction, Repl ace Restricted Part
Test Heater E lement and Contr o l s
Inspect Filter-Clean or Replace
♦
Inspect Coil - Clean
♦
Check Blower Speed, Duct Static Press, Filter
♦
Reduce Blower Speed
•
Recover Part of Charge
••
Inspect Coil - Clean
•
Recover Charge, E v ac uate, Recharge
•
Remove Obstruction to Air Flow
Check W i n dows, Doors, Vent Fans, Etc .
Relocate Ther mo stat
Readjust Air Volume Dampers
Refigure Cool ing Load
Replace Com p r es sor
Test Compressor Efficiency
Test Compressor Efficiency
Replace Valv e
♦
Remove Restriction or Repl ace Expansion Devi ce
Replace Valv e
Replace Valv e
Tighten Bulb Bracket
Check Valve Op er ation
Tighten Bolts
Replace Valv e or S ol e no i d
Test Control
Test Defrost Thermostat
Check Flowrator & Seat or Replace Flowrator
For detailed service information refer to the Remote Condensing Unit Service manual.
15
Page 16
TROUBLESHOOTING INFORMATION: UNITARY DIAGNOSTIC CODES
3934%-42/5",%3(//4).'
5.)4!29$)!'./34)##/$%3
3YMPTOMSOF
!BNORMAL/PERATION
,EGACY#OMFORT.ET
4HERMOSTAT
sIntegrated control
module diagnostic/status
LED display shows the
indicated code.
s#OMFORT.ETTHERMOSTAT
displays ‘---‘ in the
temperature display area.
sHeat pump fails to operate
in heating mode.
sIntegrated control
module diagnostic/status
LED display shows the
indicated code.
s#OMFORT.ETTHERMOSTAT
displays error message.
sAir conditioner/heat pump
fails to operate.
sIntegrated control
module diagnostic/status
LED display shows the
indicated code.
sAir conditioner/heat pump
fails to operate.
sIntegrated control
module diagnostic/status
LED display shows the
indicated code.
sAir conditioner/heat pump
fails to operate.
sIntegrated control
module diagnostic/status
LED display shows the
indicated code.
s#OMFORT.ETTHERMOSTAT
displays error message.
s Air conditioner/heat
pump operates at reduced
performance.
sAir conditioner/heat pump
operating at low stage
when expected to operate
at high stage.
sIntegrated control
module diagnostic/status
LED display shows the
indicated code.
$IAGNOSTIC3TATUS
,%$$ISPLAY#ODES
$IGIT $IGIT $IGIT -ESSAGE #ODE
",!.+ A 2 sOutdoor air
",!.+ A3sOutdoor coil
",!.+ E5sOpen fuse ",/7.
",!.+ EEsBoard mis-
",!.+ b0sCirculator
",!.+ b9sAirflow is
&AULT
$ESCRIPTION
temp sensor
fault
temp sensor
fault
operation
blower motor
is not running
when it
should be
running.
lower than
demanded
#OMFORT.ET
4HERMOSTAT/NLY
AIR
3%.3/2
FLT
COIL
3%.3/2
FLT
FUSE
).4%2.!,
FAULT
MOTOR
./425.
LOW ID
AIRFLOW
4-
A2 sShorted sensor.
A3 s Shorted sensor
E5 sShort in low
EE s Compressor
b0 sIndoor blower
b9 sIndoor blower
0OSSIBLE
#AUSES
sOpen sensor.
sSensor
disconnected.
sSensor out of
range.
sOpen sensor.
sSensor.
disconnected.
sSensor out of
range.
voltage wiring.
relay contacts
welded.
motor problem.
sCommunications
error between
indoor and
outdoor unit.
motor problem
s
Blocked filters.
sRestrictive/
undersized
ductwork
sIndoor/ outdoor
unit miss-match.
sCheck sensor
sReplace open/
sCheck sensor
sReplace open/
sLocate and
sReplace control. sTurn power OFF prior
sCheck indoor
sCheck indoor
sCheck indoor unit
sRepair/ replace
sRepair/ replace
sCheck indoor
sCheck filters;
sCheck ductwork;
sVerify indoor and
#ORRECTIVE
!CTIONS
connection.
shorted sensor.
connection.
shorted sensor.
correct short
in low voltage
wiring.
blower motor.
blower motor
wiring.
control.
any faulty wiring.
indoor blower
motor or control.
blower motor.
clean/replace as
needed.
resize as needed.
outdoor units are
properly matched.
.OTES
#AUTIONS
sTurn power OFF prior
to repair.
sReplace with correct
replacement part.
sTurn power OFF prior
to repair.
sReplace with correct
replacement part.
sTurn power OFF prior
to repair.
sReplace fuse with
3-amp automotive type.
to repair
sReplace with correct
replacement part.
sTurn power OFF prior
to repair.
sApplies only to fully
communicating system
USING#OMFORT.ET
thermostat.
sReplace with correct
replacement part.
sTurn power OFF prior
to repair.
sApplies only to fully
communicating system
USING#OMFORT.ET
thermostat.
sReplace with correct
replacement part. See
specification sheet(s)
for airflow requirements
and maximum external
static pressure.
sSee specification
sheets for approved
system matches.
16
Page 17
TROUBLESHOOTING INFORMATION: UNITARY DIAGNOSTIC CODES
5.)4!29$)!'./34)##/$%3
3YMPTOMSOF
!BNORMAL/PERATION
,EGACY#OMFORT.ET
4HERMOSTAT
sAir conditioner/heat pump
fails to operate.
sIntegrated control
module diagnostic/status
LED display shows the
indicated code.
s#OMFORT.ETTHERMOSTAT
displays error message.
sAir conditioner/heat pump
fails to operate.
sIntegrated control
module diagnostic/status
LED display shows the
indicated code.
s#OMFORT.ETTHERMOSTAT
displays error message.
sAir conditioner/heat pump
fails to operate.
sAir conditioner/heat pump
operating at reduced
performance.
sAir conditioner/heat pump
operating at low stage
when expected to operate
at high stage.
sIntegrated control
module diagnostic/status
LED display shows the
indicated code.
s#OMFORT.ETTHERMOSTAT
displays error message.
$IAGNOSTIC3TATUS
,%$$ISPLAY#ODES &AULT
$IGIT $IGIT $IGIT -ESSAGE #ODE
",!.+ d0sData not yet
",!.+ d1sInvalid Data
",!.+ d2s System
$ESCRIPTION
ON.ETWORK
ON.ETWORK
Mis-Match
#OMFORT.ET4-
4HERMOSTAT/NLY 0OSSIBLE
./.%4
DATA
).6!,)$
DATA
).6!,)$
SYSTEM
d0 sAir conditioner/
d1 s Air conditioner/
d2 s Air conditioner/
#AUSES
heat pump is
wired as part of
a communicating
system and
integrated control
module does
not contain any
shared data.
heat pump is
wired as part of
a communicating
system and
integrated control
module contains
invalid shared
data or network
data is invalid for
the integrated
control module.
heat pump is
wired as part of
a communicating
system and
outdoor unit
requires airflow
greater than
indoor unit’s
airflow capability.
sShared data is
incompatible
with the system
or missing
parameters.
#ORRECTIVE
!CTIONS
sVerify
system type
(communicating
or legacy)
sPopulate shared
data using
memory card
sWire system as
legacy system
sVerify
system type
(communicating
or legacy).
sPopulate correct
shared data using
memory card.
sWire system as
legacy system.
sVerify system type
(communicating
or legacy).
sVerify shared
data is correct
for your specific
model; repopulate data if
required.
sWire system as
legacy system.
.OTES
#AUTIONS
sTurn power OFF prior
to repair.
sUse memory card for
your specific model.
sInsert memory card
BEFORE turning power
/.-EMORYCARDMAY
be removed after data
is loaded. Turn power
OFF before removing
memory card.
sError code will
be cleared once
data is loaded.
Applies only to fully
communicating system
USING#OMFORT.ET
thermostat.
sTurn power OFF prior
to repair.
sUse memory card for
your specific model.
sInsert memory card
BEFORE turning power
/.-EMORYCARDMAY
be removed after data
is loaded. Turn power
OFF before removing
memory card.
sError code will
be cleared once
data is loaded.
Applies only to fully
communicating system
USING#OMFORT.ET
thermostat.
sTurn power OFF prior
to repair.
sUse memory card for
your specific model.
sInsert memory card
BEFORE turning power
/.-EMORYCARDMAY
be removed after data
is loaded. Turn power
OFF before removing
memory card.
sError code will
be cleared once
data is loaded.
Applies only to fully
communicating system
USING#OMFORT.ET
thermostat.
17
Page 18
TROUBLESHOOTING INFORMATION: UNITARY DIAGNOSTIC CODES
5.)4!29$)!'./34)##/$%3
3YMPTOMSOF
!BNORMAL/PERATION
,EGACY#OMFORT.ET
4HERMOSTAT
s Air conditioner/heat pump
fails to operate.
sIntegrated control module
diagnostic/status LED
display shows the indicated
code.
s#OMFORT.ETTHERMOSTAT
displays error message.
sAir conditioner/heat pump
fails to operate.
sIntegrated control
module diagnostic/status
LED display shows the
indicated code.
s#OMFORT.ETTHERMOSTAT
displays error message.
s Very long run time.
sFour consecutive
compressor protector
trips with average run
time between trips greater
than 3 hours.
sCompressor operating at
high speed and outdoor fan
operating at low speed
sIntegrated control
module diagnostic/status
LED display shows the
indicated code.
sCompressor and outdoor
fan are off.
sThermostat demand is
present.
sIntegrated control
module diagnostic/status
LED display shows the
indicated code.
$IAGNOSTIC3TATUS
,%$$ISPLAY#ODES &AULT
$IGIT $IGIT $IGIT -ESSAGE #ODE
",!.+ d3sConfiguration
",!.+ d4s Invalid
",!.+ 01sLow Side
",!.+ 01sLow Pressure
$ESCRIPTION
Mis-match
Memory
Card Data
Fault
Cut Out Trip
#OMFORT.ET
4HERMOSTAT/NLY 0OSSIBLE
).6!,)$
#/.&)'
).6!,)$
MC DATA
LOW SIDE
FAULT
,03/0%. 01 sLow refrigerant
4-
#AUSES
d3 sShared data sent
to integrated
control module
does not match
hardware
configuration.
d4 sShared data on
memory card has
been rejected.
01 sLow refrigerant
charge.
sRestriction in
liquid line.
sIndoor blower
motor failure.
sIndoor
thermostat set
extremely low.
charge.
sRestriction in
liquid line.
sIndoor blower
motor failure.
sIndoor
thermostat set
extremely low.
#ORRECTIVE
!CTIONS
sVerify
system type
(communicating
or legacy).
sVerify shared
data is correct
for your specific
model; repopulate data if
required.
sWire system as
legacy system.
sVerify
system type
(communicating
or legacy).
sVerify shared
data is correct
for your specific
model; repopulate data if
required.
sWire system as
legacy system.
sVerify refrigerant
charge; adjust as
needed.
sCheck for
restricted liquid
line; repair/
replace as
needed.
sCheck indoor
blower motor;
repair/replace as
needed.
sCheck indoor
thermostat setting.
sVerify refrigerant
charge; adjust as
needed.
sCheck for
restricted liquid
line; repair/
replace as
needed.
sCheck indoor
blower motor;
repair/replace as
needed.
sCheck low
pressure switch;
repair/replace as
needed.
sCheck indoor
thermostat setting.
.OTES
#AUTIONS
sTurn power OFF prior
to repair.
sUse memory card for
your specific model.
sInsert memory card
BEFORE turning power
/.-EMORYCARDMAY
be removed after data
is loaded. Turn power
OFF before removing
memory card.
sError code will
be cleared once
data is loaded.
Applies only to fully
communicating system
USING#OMFORT.ET
thermostat.
sTurn power OFF prior
to repair.
sUse memory card for
your specific model.
sInsert memory card
BEFORE turning power
/.-EMORYCARDMAY
be removed after data
is loaded. Turn power
OFF before removing
memory card.
sError code will be
cleared once data is
loaded.
sTurn power OFF prior
to repair.
sFault will clear after 30
consecutive normal
cycles.
sFault may be cleared
by cycling 24VAC to
control.
sReplace with correct
replacement part(s).
sTurn power OFF prior
to repair.
sReplace with correct
replacement part(s).
18
Page 19
TROUBLESHOOTING INFORMATION: UNITARY DIAGNOSTIC CODES
Digit 3 Digit 2 Digit 1
Compressor and outdoor
f
Low pressure switch
trip 3 times within same
thermostat demand.
Thermostat demand is
present.
Integrated control
module diagnostic/status
LED display shows the
indicated code.
displays error message.
Four consecutive
compressor protector trips
with average run time
between trips greater than
1 minute and less than 15
minutes.
Low pressure and high
pressure switches are
closed.
Integrated control
module diagnostic/status
LED display shows the
indicated code.
Compressor and outdoor
f
Thermostat demand is
present.
Integrated control
module diagnostic/status
LED display shows the
indicated code.
Compressor and outdoor
f
Low pressure switch
trip 3 times within same
thermostat demand.
Thermostat demand is
present.
Integrated control
module diagnostic/status
LED display shows the
indicated code.
displays error message.
.
.
.
L1Low Pressure
Cut Out
Lockout
(3 T rips)
02High Side
Fault
02High
Pressure
Cut Out
Trip
L2High
Pressure
Cut Out
Lockout
(3 T rips)
LPS 01 Low refrigerant
HIGH SIDE
FAULT
HPS
charge.
Restriction in
liquid line.
Indoor blower
motor failure.
Indoor
thermostat set
extremely low.
02 Blocked
condenser coil.
Outdoor fan not
running.
02 Blocked
condenser coil.
Outdoor fan not
running.
02 Blocked
condenser coil.
Outdoor fan not
running.
Verify refrigerant
charge; adjust as
needed.
Check for
restricted liquid
line; repair/replace
as needed.
Check indoor
blower motor;
repair/replace as
needed.
Check low
pressure switch;
repair/replace as
needed.
Check indoor
thermostat setting.
Check and clean
condenser coil.
Check outdoor
fan motor; repair/
replace as
needed.
Check outdoor
fan motor wiring;
repair/replace as
needed.
Check outdoor
fan motor
capacitor; replace
as needed.
Check and clean
condenser coil.
Check outdoor
fan motor; repair/
replace as
needed.
Check outdoor
fan motor wiring;
repair/replace as
needed.
Check outdoor
fan motor
capacitor; replace
as needed.
Check and clean
condenser coil.
Check outdoor
fan motor; repair/
replace as
needed.
Check outdoor
fan motor wiring;
repair/replace as
needed.
Check outdoor
fan motor
capacitor; replace
as needed.
Turn power OFF prior
to repair.
Must clear fault by
cycling 24VAC to
control.
Replace with correct
replacement part(s).
Turn power OFF prior
to repair.
Fault will clear after 4
consecutive normal
cycles.
Fault may be cleared
by cycling 24VAC to
control.
Replace with correct
replacement part(s).
Turn power OFF prior
to repair.
Replace with correct
replacement part(s).
Turn power OFF prior
to repair.
Must clear fault by
cycling 24VAC to
control.
Replace with correct
replacement part(s).
19
Page 20
TROUBLESHOOTING INFORMATION: UNITARY DIAGNOSTIC CODES
1
Digit 3 Digit 1Digit 2
Run time for last 4 cycles
is less than 3 minutes
each.
Compressor protector has
not tripped.
Low pressure and high
pressure switches are
closed.
Integrated control
module diagnostic/status
LED display shows the
indicated code.
Compressor and outdoor
f
Compressor protector trips
four consecutive times.
Average run time between
trips is less than 15
seconds.
Integrated control
module diagnostic/status
LED display shows the
indicated code.
displays error message.
Compressor and outdoor
f
4 hours.
Low pressure and high
pressure switches are
closed.
Integrated control
module diagnostic/status
LED display shows the
indicated code.
displays error message.
Compressor and outdoor
f
Low pressure and high
pressure switches are
closed.
Integrated control
module diagnostic/status
LED display shows the
indicated code.
displays error message.
.
or greater than
.
03Short Cycling CMPR
04Locked Rotor
05Open Circuit
06Open Start
Circuit
SHRT
CYCLE
ROTOR
CIRCUIT
START
03 Intermittent
thermostat
demand.
Faulty
compressor
relay.
04
Compressor
bearings are
seized.
Failed
compressor run
capacitor.
Faulty run
capacitor wiring.
Low line voltage.
05
Power is
disconnected.
Failed
compressor
protector.
Compressor not
properly wired to
control.
06
Compressor start
winding is open.
Failed
compressor run
capacitor.
Faulty run
capacitor wiring.
Compressor not
properly wired to
control.
Faulty
compressor
wiring.
Check thermostat
and thermostat
wiring; repair/
replace as
needed.
Check
compressor
relay operation;
replace control as
needed.
Check
compressor
operation; repair/
replace as
needed.
Check run
capacitor; replace
as needed.
Check wiring;
repair/replace as
needed.
Verify line voltage
is within range
on rating plate;
contact local
utility is out of
range.
Check circuit
breakers and
fuses.
Check wiring
to unit; repair/
replace as
needed.
Check
compressor;
repair/replace as
needed
Check
compressor
wiring; repair/
replace as
needed.
Check
compressor;
repair/replace as
needed.
Check run
capacitor; replace
as needed.
Check wiring;
repair/replace as
needed.
Turn power OFF prior
to repair.
Fault will clear after 4
consecutive normal
cycles.
Fault may be cleared
by cycling 24VAC to
control.
Replace with correct
replacement part(s).
Minimum compressor
runt time is changed
from 30 seconds to 3
minutes.
Turn power OFF prior
to repair.
Must clear fault by
cycling 24VAC to
control.
Replace with correct
replacement part(s).
Turn power OFF prior
to repair.
Fault will clear after
normal cycle.
Fault may be cleared
by cycling 24VAC to
control.
Replace with correct
replacement part(s).
Turn power OFF prior
to repair.
Fault will clear after 1
normal cycle.
Fault may be cleared
by cycling 24VAC to
control.
Replace will correct
replacement part(s).
20
Page 21
TROUBLESHOOTING INFORMATION: UNITARY DIAGNOSTIC CODES
Digit 3 Digit 2 Digit 1
Compressor and outdoor
f
Low pressure and high
pressure switches are
closed.
Open start circuit has been
detected 4 times with 5
minute delay between each
detection.
Integrated control
module diagnostic/status
LED display shows the
indicated code.
displays error message.
Compressor and outdoor
f
Low pressure and high
pressure switches are
closed.
Integrated control
module diagnostic/status
LED display shows the
indicated code.
displays error message.
Compressor and outdoor
f
Low pressure and high
pressure switches are
closed.
Open run circuit has been
detected 4 times with 5
minute delay between
each detection.
Integrated control
module diagnostic/status
LED display shows the
indicated code.
.
.
.
L6Open Start
Circuit
Lockout
07Open Run
Circuit
L7Open Run
Circuit
Lockout
START
06 Compressor start
winding is open.
Failed
compressor run
capacitor.
Faulty run
capacitor wiring.
Compressor not
properly wired
to control.
Faulty
compressor
wiring.
07 Compressor run
winding is open.
Compressor not
properly wired
to control.
Faulty
compressor
wiring.
07 Compressor run
winding is open.
Compressor not
properly wired
to control.
Faulty
compressor
wiring.
Check
compressor;
repair/replace as
needed.
Check run
capacitor; replace
as needed.
Check wiring
repair/replaced
as needed.
Check
compressor;
repair/replace as
needed.
Check wiring;
repair/replace as
needed.
Check compressor; repair/replace as needed.
Check wiring;
repair/replace as
needed.
Turn power OFF prior
to repair
Must clear fault by
cycling 24VAC to
control.
Replace with correct
replacement part(s).
Turn power OFF prior
to repair.
Fault will clear after 1
normal cycle.
Fault may be cycling
24VAC to control.
Replace with correct
replacement part(s).
Turn power OFF prior
to repair.
Must clear fault by cycling 24VAC to control.
Replace with correct
replacement part(s).
displays error message.
Air conditioner/heat
pump may appear to be
operating normally.
Compressor protector may
be open (compressor and
outdoor f
Integrated control
module diagnostic/status
LED display shows the
indicated code.
L8Low Line
Voltage
VOLT
Low line voltage. Check circuit
08
breakers and
fuses.
Verify unit is
connected to
power supply
rating plate.
Correct low line
voltage condition;
contact local
utility if needed.
Turn power OFF prior
to repair.
Control detects line
voltage less than
185 VA C.
Fault will clear if line
voltage increases
above 185 VAC.
21
Page 22
TROUBLESHOOTING INFORMATION: UNITARY DIAGNOSTIC CODES
Air conditioner/heat
pump may appear to be
operating normally.
Compressor protector
may be open (compressor
and outdoor f
Integrated control
module diagnostic/status
LED display shows the
indicated code.
Air conditioner/heat
pump may appear to be
operating normally.
Integrated control
module diagnostic/status
LED display shows the
indicated code.
Integrated control
module diagnostic/status
LED display shows the
indicated code.
Air conditioner/heat
pump may appear to be
operating normally.
Compressor protector
may be open (compressor
and outdoor f
Integrated control
module diagnostic/status
LED display shows the
indicated code.
.
Digit 3
Digit 1Digit 2
H8High Line
Voltage
09Low Pilot
Voltage
P0Comp
Protector
Open
08
High line
08
09
08
voltage
Control detects
secondary
voltage less
than 18 VAC.
Transformer
overloaded.
Low line voltage.
start windings.
Compressor
run winding is
open.
Compressor not
properly wired to
control.
Faulty
compressor
wiring.
Failed
compressor run
capacitor.
Faulty run
capacitor wiring.
VOLT
LOW
VOLT
displayed displayed through run or
VOLT AGE
Correct high line
voltage condition;
contact local utility
if needed.
Verify unit is
connected to power
on rating plate.
Check fuse.
Correct low secondary voltage condition.
Check transformer;
replace if needed.
Check compressor;
repair/replace as
needed.
Check wiring; repair/
replace as needed.
Check run capacitor; replace as
needed.
Check circuit
breaker and fuses.
Verify unit is connected to power
on rating plate.
Turn power OFF prior
to repair.
Control detects line
voltage greater than
255 VA C.
Fault will clear if line
voltage decreases
below 255 VAC.
Turn power OFF prior to
repair.
Fault will clear if
secondary voltage rises
above 21VAC.
Replace with correct
replacement part(s).
Turn power OFF prior
to repair.
Fault will clear after 1
normal cycle.
Fault may be cleared
by cycling 24VAC to
control.
Replace with correct
replacement part(s).
Turn power OFF prior
to repair.
Control detects line
voltage less than
185 VA C.
Fault will clear if line
voltage increases
above 185 VAC.
22
Page 23
SPLIT SYSTEMS
AIR CONDITIONING AND HEA T PUMP HOMEOWNER’S ROUTINE MAINTENANCE RECOMMENDATIONS
We strongly recommend a bi-annual maintenance checkup be performed before the heating and cooling seasons begin by a qualified servicer.
Replace or Clean Filter
IMPORTANT NOTE: Never operate unit without a filter installed as dust and lint will build up on internal parts resulting in loss of
efficiency, equipment damage and possible fire.
An indoor air filter must be used with your comfort system. A properly maintained filter will keep the indoor coil of your comfort
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 a blower unit, or in “filter grilles” in your ceiling or walls. The installer
of your air conditioner or heat pump can tell you where your filter(s) are, and how to clean or replace them.
Check your filter(s) at least once a month. When they are dirty, replace or clean as required. Disposable type filters should be
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 catching small airborne particles.
Compressor
The compressor motor is hermetically sealed and does not require additional oiling.
Motors
Indoor and outdoor fan motors are permanently lubricated and do not require additional oiling.
Clean Outside Coil (Qualified Servicer Only)
Air must be able to flow through the outdoor unit of your comfort system. Do not construct a fence near the unit or build a
deck or patio over the unit without first discussing your plans
with your dealer or other qualified servicer. Restricted airflow
could 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 of
the outdoor coil becomes necessary, hire a qualified servicer.
Inexperienced people could easily puncture the tubing in the coil. Even a small hole in the tubing could eventually cause a large
loss of refrigerant. Loss of refrigerant can cause poor operation and/or severe equipment damage.
Do not use a condensing unit cover to “protect” the outdoor unit during the winter, unless you first discuss it with your dealer.
Any cover used must include “breathable” fabric to avoid moisture buildup.
Before Calling Your Servicer
•
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 compressor operation for
•
awhile, and then reset automatically. Also, some power companies will install devices which shut off air conditioners for
several minutes on hot days. If you wait several minutes, the unit may begin operation on its own.
Check the electrical panel for tripped circuit breakers
•
or failed fuses. Reset the circuit breakers or replace fuses
as necessary.
Check the disconnect switch near the indoor furnace or
•
blower to confirm that it is closed.
Check for obstructions on the outdoor unit . Confirm that
•
it has not been covered on the sides or the top. Remove
any obstruction that can be safely removed. If the unit
is covered with dirt or debris, call a qualified servicer to
clean it.
Check for blockage of the indoor air inlets and outlets.
•
TO
AVOID THE RISK OF EQUIPMENT DAMAGE OR FIRE, INSTALL
SAME AMPERAGE BREAKER OR FUSE AS YOU ARE
THE
REPLACING
AGAIN
TO
F YOU REPEATEDLY RESET THE BREAKER OR REPLACE
I
THE
YOU RUN THE RISK OF SEVERE EQUIPMENT DAMAGE
. IF
WITHIN THIRTY DAYS, CONTACT A QUALIFIED SERVICER
CORRECT THE PROBLEM
FUSE WITHOUT HAVING THE PROBLEM CORRECTED
THE CIRCUIT BREAKER OR FUSE SHOULD OPEN
.
Confirm that they are open and have not been blocked
by 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 outdoor unit. If you
•
hear unusual noise(s) coming from the unit, call a qualified servicer.
23
,
.
Page 24
Goodman Manufacturing Company , L.P.
5151 San Felipe, Suite 500, Houston, TX 77056
www.goodmanmfg.com or www.amana-hac.com
© 2009-2014 Goodman Manufacturing Company, L.P.
is a registered trademark of Maytag Corporation or its related companies and is used under
license to Goodman Company, L.P., Houston, TX. All rights reserved.
24
Loading...