Goodman AVPTC42D14 series, AVPTC48D14 series, AVPTC30C14 series, AVPTC36C14 series, AVPTC24B14 series Installation & Operating Instructions Manual

AVPTC**14**

®

AIR HANDLERS
INSTALLATION & OPERATING INSTRUCTIONS

Contents

1 Important Safety Instructions ................................... 2

2 Shipping Inspection .................................................. 2

3 Codes & Regulations................................................. 3

4 Replacement Parts .................................................... 3

5 Pre-Installation Considerations................................ 3

6 Installation Location.................................................. 4

7 Refrigerant Lines ....................................................... 7

8 Condensate Drain Lines............................................ 7

9 Ductwork .................................................................... 8

10 Return Air Filters ....................................................... 8

11 Electric Heat............................................................... 9

12 Electrical and Control Wiring.................................. 10

13 Achieving 2% Low Leakage Rate ........................... 11

14 24 Volt Wiring ........................................................... 11

15 Auxiliary Alarm Switch ............................................ 13

16 AVPTC Motor Orientation ........................................ 13

17 Circulator Blower..................................................... 14

18 Heat Kit Selection .................................................... 16

19 Troubleshooting....................................................... 16

20 ComfortNet™ System.............................................. 18

21 Start-Up Procedure.................................................. 20

22 Regular Maintenance............................................... 20

23 Communications Troubleshooting Chart .............. 23

24 Air Handler Advanced Features Menu ................... 24

25 Troubleshooting....................................................... 25

27 Wiring Diagrams ...................................................... 29

26 Diagnostic Codes .................................................... 32

© 2013-2014 Goodman Manufacturing Company, L.P.

5151 San Felipe, Suite 500, Houston, TX 77056
www.goodmanmfg.com - or - www.amana-hac.com

P/N: IO-443E Date: October 2014

RECOGNIZE THIS SYMBOL AS A

SAFETY PRECAUTION.

is a registed trademark of Maytag Corporation or its related companies and is used under license. All rights reserved.

ATTENTION INSTALLING PERSONNEL

Prior to installation, thoroughly familiarize yourself with this Instal­lation Manual. Observe all safety warnings. During installation or
repair, caution is to be observed. It is your responsibility to install
the product safely and to educate the customer on its safe use.

1 Import ant Safety Instructions

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.

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.

Install ati on an d re pair of t his u ni t sho uld b e p erf orm ed

by indiv id uals me et ing t he requi re men ts of an

ONLY
“entry level technician” as specified by

, at a minimum,

the Ai r-Co ndi ti on in g, H eati ng a nd Re fri g erati on I nst i tu te
(AHRI). Attempting to install or repair this unit without
such ba ck grou nd may re sul t i n p r od uct damag e,
personal inju ry or death.

This product is factory-shipped for use with
208/240/1/60 electrical power supply.

DO NOT
reconfigure this air handler to operate with any other
power supply.

To avoid property damage, personal injury or death
due to electrical shock, this unit MUST have an
uninterrupted, unbroken

electrical ground. The
electrical ground circuit may consist of an
appropriately sized electrical wire connecting the
ground lug in the unit control box to the building
electrical service panel.
Other meth ods of gro unding ar e p ermit te d i f pe rfo rmed
in accordance with the National Electric Code
(NEC) /Amer ican National Stan dards I nsti tute
(ANSI)/ Nati onal Fire P rotec tion A ssocia tion (NFP A) 70
and local /s ta te c ode s. I n Canada, e le ctr ica l gro undi ng
is to be in accordance with the C ana di an El ec tri c Code
(CSA) C22.1.

To prevent the risk of property damage, personal
injury , or dea th, do not store comb ustible m aterials or
use gasoline or other flammable liquids or vapors in
the vicin ity of this u ni t.

CO can cause serious illness including permanent brain
damage or death.

Advertencia especial para la instalación de calentadores ó manejadoras
de aire en áreas cerradas como estacionamientos ó cuartos de servicio.

Las emisiones de monóxido de carbono pueden circular a través
del ap arat o cuando se ope ra en cualquie r modo.

El mon ó xido de ca rbono pu ede causar enferme d ades seve ras
como daño cerebral permanente ó mue rte.

When installing or servicing this equipment, safety
clothing, including hand and eye protection, is
strongly recommended. If installing in an area that has
special safety requirements (hard hats, etc.), bserve
these requirements.

Do not connect to or use any device that is not design­certified by Goodman for use with th is unit. Serious
property damage, personal injury, reduced unit
performance and/or hazardous conditions may result
from the use of such non-approved devices.

RISQUE D'EMPOISO N NEME NT AU

MONOXYDE DE CARBON E

o

Cette ve n t i la t io n est nécess a ir e pour éviter le danger d'i n toxication
au CO pouvant survenir si un appareil produisant du monoxyde
de carbone continue de fonctionner au sein de la zone confinée.

2

2 Shipping Inspection

Always transport the unit upright; laying the unit on its side or top during transit may cause equipment damage. The installer
should inspect the product upon receipt for shipping damage and subsequent investigation is the responsibility of the carrier.
The installer must verify 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.

2.1 Parts

Also inspect the unit to verify all required components are present and intact. Report any missing components immedi­ately to Goodman or to the distributor. Use only factory authorized replacement parts (see Section 5). Make sure to
include the full product model number and serial number when reporting and/or obtaining service parts.

2.2 Handling

Use caution when transporting/carrying the unit. Do not move unit using shipping straps. Do not carry unit with hooks or
sharp objects. The preferred method of carrying the unit after arrival at the job site is to carry via a two-wheel hand truck
from the back or sides or via hand by carrying at the cabinet corners.

3 Codes & Regulations

This product is designed and manufactured to comply with applicable 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.

The United States Environmental Protection Agency (EPA) 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 office of the EPA and/or refer to

EPA’s website www.epa.gov.

4 Replacement Part s

When reporting shortages or damages, or ordering repair parts, give the complete product model and serial numbers as
stamped on the product. Replacement parts for this product are available through your contractor or local distributor. For
the location of your nearest distributor consult the white business pages, the yellow page section of the local telephone book
or contact:

CONSUMER AFFAIRS

GOODMAN MANUFACTURING COMPANY, L.P.

7401 SECURITY WAY

HOUSTON, TEXAS 77040

(877) 254-4729

5 Pre-Inst allation Considerations

5.1 Preparation

Keep this document with the unit. Carefully read all instructions for the installation prior to installing product. Make sure
each step or procedure is understood and any special considerations are taken into account before starting installation.
Assemble all tools, hardware and supplies needed to complete the installation. Some items may need to be purchased
locally. Make sure everything needed to install the product is on hand before starting.

5.2 System Matches

The entire system (combination of indoor and outdoor sections) must be manufacturer approved and Air-Conditioning,
Heating, and Refrigeration Institute (AHRI) listed. NOTE: Installation of unmatched systems is not permitted and will
void the product warranty.

5.3 Interconnecting Tubing

Give special consideration to minimize the length of refrigerant tubing when installing air handlers. Refer to Remote
Cooling/Heat Pump Service Manual RS6200006, and TP-107 Long Line Set Application R-410A for tubing guidelines. If
possible, allow adequate length of tubing such that the coil may be removed (for inspection or cleaning services) from
the cabinet without disconnecting the tubing.

5.4 Clearances

The unit clearance from a combustible surface may be 0". However, service clearance must take precedence. A mini­mum of 24" in front of the unit for service clearance is required. Additional clearance on one side or top will be required

3

for electrical wiring connections. Consult all appropriate regulatory codes prior to determining final clearances. When
installing this unit in an area that may become wet (such as crawl spaces), elevate the unit with a sturdy, non-porous
material. In installations that may lead to physical damage (i.e. a garage) it is advised to install a protective barrier to
prevent such damage. Always install units such that a positive slope in condensate line (1/4" per foot) is allowed.

5.5 Horizontal Applications

If installed above a finished living space, a secondary drain pan (as required by many building codes), must be installed
under the entire unit and its condensate drain line must be routed to a location such that the user will see the condensate
discharge.

6 Installation Location

NOTE: These air handlers are designed for indoor installation only.

The AVPTC**14** product line may be installed in one of the upflow, downflow, horizontal left or horizontal right orientations
as shown in Figures 2, 3, 4 and 5. The unit may be installed in upflow or horizontal left orientation as shipped (refer to specific
sections for more information).

Minor field modifications are necessary to convert to downflow or horizontal
right as indicated in below sections.

6.1 Upflow Installation

No field modifications are mandatory however to obtain maximum effi­ciency, the horizontal drip shield must be removed.

Drip Shield Removal: Refer to Figure 1, remove the two (2) screws that
secure the drip shield support brackets to the condensate collectors (one
screw per side). Remove the two (2) screws that secure the drip shield to
the drain pan. The drip shield and drip shield brackets may now be re­moved.

The bottom left drain connection is the primary drain for this application
and condensate drain line must be attached to this drain connection. The
top connection of the three drain connections on the drain pan must re­main plugged for this application. The bottom right drain connection is for
the secondary drain line (if used).

6.2 Horizontal Left Installation

Screw

Screw

DRIP SHIELD REMOVAL

Figure 1

No field modifications are permissible for this application.
The bottom right drain connection is the

primary drain for this application and
condensate drain line must be attached
to this drain connection. The top con­nection of the three drain connections
on the drain pan must remain plugged
for this application. The bottom left
drain connection is for the secondary

CMK0001 CMK0002 CMK0003 CMK0007

AVPTC42D14** AVPTC48D14** AVPTC30C14** AVPTC24B14**

MODEL LISTS FOR HORIZONTAL LEFT KITS

AVPTC60D14** AVPTC36C14**

AVPTC48C14**

Table 1

drain line (if used).
Use condensate management kit if equipment is installed in high humidity condition (for example: 70% or higher).

6.3 Downflow/Horizontal Right Installation

MODEL LIS T FOR DOWNFLOW KITS

IMPORTANT NOTE: In the downflow application, to pre-

vent coil pan “sweating”, a downflow kit (DFK) is available
through your local Goodman distributor. The DFK is not
supplied with the air handler and is required by Goodman
on all downflow installations. See Table 2 for the correct
DFK and follow the instructions provided for installation.

Refer to Figure 6 and 7 for the location of the compo­nents referenced in the following steps.

DFK-B

Downflow Kit

AVPTC24B14* * AVPTC30C 14* * AVPTC42D 14* *

DFK-C

Downflow Kit

AVPTC36C14** AVPTC48D14**
AVPTC48C14** AVPTC60D14**

Downflow Kit

DOWNFLOW KIT

Table 2

1. Before inverting the air handler, remove blower access
panel and coil access panel. The coil access panel and

DFK-D

4

tubing panel may remain screwed together during this procedure. Remove and retain the seven (7) screws securing
the coil access panel to the cabinet and the six (6) screws securing the blower access panel to the cabinet.

2. Slide the coil assembly out using the drain pan to pull the assembly from the cabinet.

NOTE: DO NOT USE MANIFOLDS OR FLOWRATOR TO PULL THE COIL ASSEMBLY OUT. FAILURE TO DO SO
MAY RESULT IN BRAZE JOINT DAMAGE AND LEAKS.

3. Removal of the center support is required on units with 21" wide cabinet. Remove and retain the two (2) screws that
secure the center support to the cabinet. Remove the center support.

4. Using the drain pan to hold the coil assembly, slide the coil assembly back into the cabinet on the downflow brackets as
shown in Figure 8.

UPFLOW

Figure 2

HORIZONTAL LEFT

Figure 4

NOTE: If removing only the coil access panel from the unit, the filter access panel must be removed first. Failure to do so
may result in panel damage.

DOWNFLOW

Figure 3

HORIZONTAL RIGHT

Figure 5

5

Upper T ie Plate

Control
Deck

Downflow
Bracket

Center
Support

Filter
Bracket

Filter Acces s
Panel

INTERNAL PART TERMINOLOGY

Figure 6

Blower
Access
Panel

Coil
Access
Panel

Secondary
Drain Port
for Horizontal
Application

Thumb
Screw

Secondary Drain Po r t
for Upflow/Downflow
Application

EXTERNAL PART TERMINOLOGY

Figure 7

Tubing
Panel

IMPORTANT NOTE:

Ensure coil slides o n the rails
along the groove provided
on the drain pan side walls.
Failure to do so will resu lt
in improper condensate drainage.

COIL INSTALLATION FOR DOWNFLOW

Figure 8

Coil Slides

on the

downflow bracket

ACCESS PANEL

CONFIGURATION FOR

DOWNFLOW OR

HORIZONTAL RIGHT

Figure 9

6

5. Re-install the center support (if removed) using the two (2) screws removed in Step 4.

6. Re-install the access panels removed in Step 1 as shown in Figure 9.

7. The bottom left drain connection is the primary drain for this application and condensate drain line must be attached to
this drain connection. The top connection of the three drain connections on the drain pan must remain plugged for this
application. The bottom left drain connection is for the secondary drain line (if used).

7 Refrigerant Lines

NOTE: Refrigerant tubing must be routed to allow adequate

access for servicing and maintenance of the unit.
Do not install the air handler in a location that violates the

instructions provided with the condenser. If the unit is located
in an unconditioned area with high ambient temperature and/
or high humidity, the air handler may be subject to nuisance
sweating of the casing. On these installations, a wrap of 2"
fiberglass insulation with a vapor barrier is recommended.

7.1 Tubing Size

For the correct tubing size, follow the specification for
the condenser/heat pump.

7.2 Tubing Preparation

All cut ends are to be round, burr free, and clean. Failure
to follow this practice increases the chances for refrigerant leaks. The suction line is spun closed and requires tubing
cutters to remove the closed end.

This product is factory-shipped with R410A and dry
nitrogen mixture gas under pressu re. Use appr opria te
service tools and follow these instructions to prevent
injury .

A quenching cloth is strongl y recommended to prevent
scorching or marring of the equipment finish when
brazing close to the painted surfaces. Use brazing
alloy of 5% minimum silver content.

NOTE: To prevent possible damage to the tubing joints,

do not handle coil assembly with manifold or flowrator
tubes. Always use clean gloves when handling coil assem­blies.

NOTE: The use of a heat shield is strongly recommended
when brazing to avoid burning the serial plate or the finish
of the unit.

Heat trap or wet rags must be used to protect

CAUTION

Applying too much heat to any tube can melt the tube. Torch
heat required to braze tubes of various sizes must be
proportional to th e s ize of th e tube. S er vice p er sonn el mu st
use the appropriate heat level for the size of the tube being
brazed.

heat sensitive components such as service valves and TXV valves sensing bulb.

7.3 Tubing Connections for TXV Models

TXV models come with factory installed TXV with the bulb pre-

installed on the vapor tube.

REFRIGERANT BULB
MUST BE POSITIONED
BETWEEN 10 & 2 O’CLOCK

1. Remove refrigerant tubing panel or coil (lower) access panel.

2. Remove access valve fitting cap and depress the valve stem in
access fitting to release pressure. No pressure indicates pos­sible leak.

3. Replace the refrigerant tubing panel.

4. Remove the spin closure on both the liquid and suction tubes using
a tubing cutter.

SUCTION LINE
WITH SPIN CLOSURE

5. Insert liquid line set into liquid tube expansion and slide grommet
about 18" away from braze joint.

6. Insert suction line set into suction tube expansion and slide insula­tion and grommet about 18" away from braze joint.

Figure 10

REFRIGERANT BULB
MUST BE POSITIONED
BETWEEN 10 & 2 O’CLOCK

RUBBER
GROMMET

7. Braze joints. Quench all brazed joints with water or a wet rag upon
completion of brazing.

NOTE: The sensing bulb must be permanently located. A heat shield,
heat trap, or wet rag must be used during brazing to prevent damage to
the TXV valve.

Suction Line Grommet

Figure 11

7

8. Replace access panels, suction line grommet, insulation and all screws.

8 Condensate Drain Lines

The coil drain pan has a primary and a secondary drain with 3/4" NPT female connections. The connectors required are 3/
4" NPT male, either PVC or metal pipe, and should be hand tightened to a torque of no more than 37 in-lbs. to prevent
damage to the drain pan connection. An insertion depth of approximately 3/8” to 1/2” (3-5 turns) should be expected at this
torque.

1. Ensure drain pan hole is not obstructed.

2. To prevent potential sweating and dripping on to finished space, it may be necessary to insulate the condensate drain
line located inside the building. Use Armaflex® or similar material.

A secondary condensate drain connection has been provided for areas where the building codes require it. Pitch all drain
lines a minimum of 1/4" per foot to provide free drainage. Provide required support to the drain line to prevent bowing. If the
secondary drain line is required, run the line separately from the primary drain and end it where condensate discharge can
be easily seen.

NOTE: Water coming from secondary line means the coil primary drain is plugged and needs immediate attention.
Insulate drain lines located inside the building or above a finished living space to prevent sweating. Install a condensate trap

to ensure proper drainage.
NOTE: When units are installed above ceilings, or in other

locations where damage from condensate overflow may
occur, it is MANDATORY to install a field fabricated auxiliary

If secondary drain is not installed, the secondary
access must be plugged.

drain pan under the coil cabinet enclosure.
The installation must include a “P” style trap that is located

as close as is practical to the evaporator coil. See Figure 12 for de­tails of a typical condensate line “P” trap.

NOTE: Trapped lines are required by many local codes. In the ab­sence of any prevailing local codes, please refer to the requirements
listed in the

Uniform Mechanical Building Code.

A drain trap in a draw-through application prevents air from being
drawn back through the drain line during fan operation thus prevent­ing condensate from draining, and if connected to a sewer line to pre­vent sewer gases from being drawn into the airstream during blower
operation.

Field experience has shown condensate drain traps with an open ver­tical Tee between the air handler and the condensate drain trap can
improve condensate drainage in some applications, but may cause
excessive air discharge out of the open Tee. Goodman® does not prohibit this type of drain but we also do not recommend
it due to the resulting air leakage. Regardless of the condensate drain design used, it is the installer’s responsibility to ensure
the condensate drain system is of sufficient design to ensure proper condensate removal from the coil drain pan.

Use of a condensate removal pump is permitted when necessary. This condensate pump should have provisions for shut­ting off the control voltage should a blocked drain occur. A trap must be installed between the unit and the condensate pump.

CAUTION

Air Handler

POSITIVE LIQUID
SEAL REQUIRED

AT TRAP

Drain

Connection

2" MIN.

3" MIN.

Figure 12

IMPORTANT NOTE: The evaporator coil is fabricated with oils that may dissolve styrofoam and certain types of plastics.
Therefore, a removal pump or float switch must not contain any of these materials.

Tip: Priming the “P” trap may avoid improper draining at the initial installation and at the beginning of the cooling season.

9 Ductwork

This air handler is designed for a complete supply and return ductwork system.
To ensure correct system performance, the ductwork is to be sized to accommodate 350-450 CFM per ton of cooling with

the static pressure not to exceed 0.5" in w.c. Refer to ACCA Manual D, Manual S and Manual RS for information on duct
sizing and application. Flame retardant ductwork is to be used and sealed to the unit in a manner that will prevent leakage.

NOTE: A downflow application with electric heat must have an L-shaped sheet metal supply duct without any outlets or
registers located directly below the heater.

9.1 Return Ductwork

DO NOT LOCATE THE RETURN DUCTWORK IN AN
AREA THAT CAN INTRODUCE TOXIC, OR OBJEC­TIONABLE FUMES/ODORS INTO THE DUCTWORK.

Do not operate this product without all the ductwork
attached.

8

The return ductwork is to be connected to the air handler bottom (upflow configuration).

10 Return Air Filters

Each installation must include a return air filter. This filtering may be performed at the air handler using the factory filter rails
or externally such as a return air filter grille. When using the factory filter rails, a nominal 16x20x1”, 20x20x1” or 24x20x1”
(actual dimension must be less than 23-½”x20”) filter can be installed on a B, C and D cabinet respectively (the cabinet size
is the seventh letter of the model number).

11 Electric Heat

Refer to the installation manual provided with the electric heat kit for the correct installation procedure. All electric heat must
be field installed. If installing this option, the ONLY heat kits that are permitted to be used are the HKS series. Refer to the
air handler unit’s Serial and Rating plate or the HKS specification sheets to determine the heat kits compatible with a given
air handler. No other accessory heat kit besides the HKS series may be installed in these air handlers.

The heating mode temperature rise is dependent upon the system airflow, the supply voltage, and the heat kit size (kW)
selected. Use data provided in Tables 3, 4 and 5 to determine the temperature rise (°F).

NOTE: For installations not indicated above the following formula is to be used:

TR = (kW x 3412) x (Voltage Correction) / (1.08 x CFM)

Where: TR = Temperature Rise

kW = Heater Kit Actual kW
3412 = Btu per kW
VC* = .96 (230 Supply Volts)

= .92 (220 Supply Volts)
= .87 (208 Supply Volts)

1.08 = Constant
CFM = Measured Airflow

VC* (Voltage Correction)

NOTE: The Temperature Rise Tables can also be used to estimate the air handler airflow delivery. When using these tables
for this purpose set the room thermostat to maximum heat and allow the system to reach steady state conditions. Insert two
thermometers, one in the return air and one in the supply air. The temperature rise is the supply air temperature minus the

CFM

800 12 19 23 31 37
1000 9 15 19 25 30 44
1200 8 12 15 21 25 37 49 62
1400 7 11 13 18 21 32 42 53
1600 6 9 12 15 19 28 37 46
1800 5 8 10 14 16 25 33 41
2000 5 7 9 12 15 22 30 37

3568101519/2025

HEAT KIT NOMINAL kW

230/1/60 SUPPLY VOLTAGE - TEMP. RISE °F

Table 3

CFM

3 5 6 8 10 15 19/20 25

800 10 17 21 28 33
1000 8 13 17 22 27 40
12007 11141922334556
14006 10121619293848
1600 5 8 10 14 17 25 33 42
1800 5 7 9 12 15 22 30 37
2000 4 7 8 11 13 20 27 33

HEAT KIT NOMINAL kW

208/1/60 SUPPLY VOLTAGE - TEMP. RISE °F

CFM

8001118223035
10009 1418242842
12007 12152024354759
14006 10131720304051
1600 6 9 11 15 18 27 35 44
1800 5 8 10 13 16 24 31 39
20004 7 9 1214212835

3568101519/2025

220/1/60 SUPPLY VOLTAGE - TEMP. RISE °F

3 5 6 8 10 15 19 20 21 or 25

AV PT C 24B14
AV PT C 30B14
AV PT C 36C14
AV PT C 48C14
AV PT C 42D14
AV PT C 48D14
AV PT C 60D14

Please ref er to page 16 for specific heater kit application guidelines.

550 650 700 800 850 NR NR NR NR
600 700 750 875 950 NR NR NR NR

NR 850 900 1000 1200 1440 1500 1500 NR
NR 850 900 1000 1200 1440 1500 1500 NR

†

850** 1250 1300 1500 1550 1720 NR 1800 NR

††

NR 1250 1300 1500 1550 1720 NR 1815 1850

†††

NR 1250 1300 1500 1550 1780 NR 1850 1850

M INIM UM CFM RE QUIRED FOR HE ATER KITS

HEAT KIT NOMINAL kW

Table 4

Heater Kit (Kw)

Table 6

Table 5

9

return air temperature. Using the temperature rise calculated, CFM can be estimated from the TR formula above. See
Technical Manual and/or Service Manual for more information.

Nomin al Input Minimum Vo ltage Maximum Voltage

208-240 197 253

12 Electrical and Control Wiring

IMPORTANT: All routing of electrical wiring must be

made through provided electrical knockouts. Do not
cut, puncture or alter the cabinet for electrical wiring.

12.1 Building Electrical Service Inspection

This unit is designed for single-phase electrical supply only. DO NOT OPERATE ON A THREE-PHASE POWER
SUPPLY. Measure the power supply to the unit. The supply voltage must be measured and be in agreement with the
unit nameplate power requirements and within the range shown.

12.2 Wire Sizing

Wire size is important to the operation of your equip­ment. Use the following check list when selecting the
appropriate wire size for your unit.

• Wire used must carry the Minimum Circuit Ampac-

ity (MCA) listed on the unit’s Series and Rating
Plate.

FIRE HAZARD!
To avoid the risk of property damage, personal injury
or fire, use only copper conductors.

ELECTRICAL VOLTAGE

Table 7

• Refer to the NEC (USA) or CSA (Canada) for wire siz­ing. The unit MCA for the air handler and the optional
electric heat kit can be found on the unit Series and
Rating Plate.

• Wire must be sized to allow no more than a 2%

voltage drop from the building breaker/fuse panel
to the unit.

• Wires with different insulation temperature rating have
varying ampacities - be sure to check the temperature
rating used.

Refer to the latest edition of the National Electric Code
or in Canada the Canadian Electric Code when deter­mining the correct wire size.

12.3 Maximum Overcurrent Protection (MOP)

Every installation must include an NEC (USA) or CEC
(Canada) approved overcurrent protection device.
Also, check with local or state codes for any special
regional requirements.

Protection can be in the form of fusing or HACR style
circuit breakers. The Series and Rating Plate provides
the maximum overcurrent device permissible.

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.

HIGH VOLTAGE!
T o avoid prope rty dama ge , persona l injury or death
due to el ect rical s ho ck, this unit MUST ha ve an
uninterrupted, unbroken
electrical ground circuit may consist of an
appro pri at ely sized electrical wire connecting the
ground lug in the unit control box to the building
electrical service panel.
Other methods of grounding are permit ted if perform ed
in accordance with the National Electric Code
(NEC) /Americ an Nation al Standar ds Institut e
(ANSI)/National Fire Protection Association (NFP A) 70
and local/state codes. In Canada, electrical grounding
is to be in ac co rda nce w ith th e C ana dian Elec tric Cod e
(CSA) C22.1.

electrical ground. The

NOTE: Fuses or circuit breakers are to be sized larger
than the equipment MCA but not to exceed the MOP.

12.4 Electrical Connections – Supply Voltage

IMPORTANT NOTE: USE COPPER CONDUCTORS ONLY.

Knockouts are provided on the air handler top panel and sides of the cabinet to allow for the entry of the supply voltage
conductors, as shown in Figure 13. If the knockouts on the cabinet sides are used for electrical conduit, an adapter
ring must be used in order to meet UL1995 safety requirements. An NEC or CEC approved strain relief is to be used

10

at this entry point. Some codes/municipalities require the supply
wire to be enclosed in conduit. Consult your local codes.

Top of

Cabinet

12.4.1 Air Handler Only (Non-Heat Kit Models)

The building supply connects to the stripped black and red wires
contained in the air handler electrical compartment cavity. A ground
screw is also contained in this area. Attach the Supply wires to the
air handler conductors as shown in the unit wiring diagram using
appropriately sized solderless connectors or other NEC or CEC
approved means.

12.4.2 Air Handler - Non-Circuit Breaker Heat Kits

A terminal block is provided with the HKS kit to attach the power
supply and air handler connections. Follow the HKS Installation
Manual and wiring diagram for complete wiring details.

12.4.3 Air Handler With Circuit Breaker Heat Kit

KNOCK-OUT FOR ELECTRICAL

CONNECTIONS

Figure 13

The air handler has a plastic cover on the upper access panel that
will require either one or both sections to be removed to allow the heat kit circuit breaker(s) to be installed. The circuit
breakers have lugs for power supply connection. See the HKS Installation Instructions for further details.

12.5 Low Voltage Connections

Several combinations of low voltage schemes are possible, depending on the presence of a heat kit and whether the
heat kit is single-stage or multi-stage, whether the outdoor section is an air conditioner or heat pump, and whether the
system is setup with a communicating or traditional thermostat. The 24V-control voltage connects the air handler to
the room thermostat and condenser. Low voltage wiring must be copper conductors. A minimum of 18 AWG must be
used for installations up to 100 feet. Low voltage wiring must be connected through the top of the cabinet or either
side. See the “Thermostat Wiring” section of this manual for typical low voltage wiring connections.

Side of

Cabinet

13 Achieving 2% Low Leakage Rate

Ensure all the gaskets remain intact on all surfaces as shipped with the unit. These surfaces are areas between the upper tie
plate and coil access panel, blower access and coil access panels, and between the coil access and filter access panels.
Ensure upon installation, that the plastic breaker cover is sitting flush on the blower access panel and all access panels are
flush with each other and the cabinet. With these requirements satisfied, the unit achieves less than 2% airflow leakage
when tested in accordance with ASHRAE Standard 193.

14 24 V olt Wiring

14.1 24 Volt Thermostat Wiring - Non-Communicating
Thermostat Connections

NOTE: Wire routing must not interfere with the circulator blower
operation or routine maintenance.
The air handler’s integrated control module provides terminals
for “Y1” and “Y2” and “W1” and “W2” thermostat connections.
This allows the air handler to support the systems shown in the
following table. Refer to the following figures for typical connec­tions to the integrated control module. Thermostat wiring entrance
holes are located in the top of the blower. Wire routing must not
interfere with circulator blower operation or routine maintenance.

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.

14.2 24 Volt Dehumidistat Wiring - Non-Communicating Thermostat Connections

The optional usage of a dehumidistat allows the air handler’s circulator blower to operate at a slightly lower speed during a
combined thermostat call for cooling and dehumidistat call for dehumidification. This lower blower speed enhances dehu­midification of the conditioned air as it passes through the AC coil. For proper function, a dehumidistat applied to this air
handler must operate on 24 VAC and utilize a switch which opens on humidity rise.

To install/connect a dehumidistat:

COOLING HEAT PUMP HEATING ELECTRIC HEATING

1-STA G E ------ 1- or 2-STAGE
2-STA G E ------ 1- or 2-STAGE
1-STAGE 1-STAGE -----­2-STAGE 2-STAGE -----­1-ST AGE 1-STAGE 1- or 2-STAGE
2-ST AGE 2-STAGE 1- or 2-STAGE

Table 8

11

Typical Single-Stage Cool,

A

A

Single-Stage Heat Thermostat

RCG

W1 Y1

Place Jumper Between Y1

and O for Proper

Dehumidification Operation

and Proper Ramping

Profile Operation

Typical Two-Stage Cool,

Two-Stage Heat Thermostat

RCG

W1 W2 Y1 Y2

Place Jumper Between Y1

and O for Proper

Dehumidification Operation

and Proper Ramping

Profile Operation

Air Handler Integrated

12RCG

RC

Remote Condensing Unit

W1 Y1 Y2

W2

Y

(Single -Sta ge AC)

DEHUM

O

NEU

HOT

Control Module

Dehumidistat

[Optional]

Typical Single-Stage Cooling with Single-Stage Heating

Figure 14

RCG

12RC

RC

Remote Condensing Unit

W/E

W1 W2 Y1 Y2

G

W1 Y

(Single-Stage H P)

Y1

Typical Single-Stage Cool,

O

O

O

Single-Stage Heat

Heat Pump Therm ostat

DEHUM

ir Handler

Integrated Cont rol Module

NEU

Dehumidistat

HOT

[Optional]

Typical Single-Stage Heat Pump

with Auxiliary/Emergency Heating

Figure 16

Air Handler Integrated

12RCG

RC

Remote Con densing Unit

W1 W2 Y1 Y2

Y1 Y2

(T wo-S tage AC )

DEHUM

O

NEU

HOT

Control Module

Dehumidistat

[Optional]

Typical Two-Stage Cooling with Two-Stage Heating

Figure 15

RCG

12RC

RC

Remote Condensing Unit

W/E

W2 Y1 Y2

W1 W2 Y1 Y2

G

W1 Y1 Y2

(T wo -S tage HP)

Typical Two-Stage Cool,

O

O

O

Two-Stage Heat

Heat Pump Therm ostat

DEHUM

Integrated Cont rol Module

NEU

HOT

Typical Two Stage Heat Pump Heating

and Auxiliary/Emergency Heating

Figure 17

ir Handler

Dehumidistat

[Optional]

1. Turn OFF power to air handler.

2. Secure the dehumidistat neutral wire (typically the white lead) to the screw terminal marked “DEHUM” on the air
handler’s integrated control module.

3. Secure the dehumidistat hot wire (typically the black lead) to the screw terminal marked “R” on the air handler’s inte­grated control module.

4. Secure the dehumidistat ground wire (typically the green lead) to the ground
screw on the air handler. NOTE: Ground wire may not be present on all dehumi­distats.

5. To enable the dehumidification function, move the dehumidification dip switch
(S7) from OFF to ON. See following figure.

6. Turn ON power to air handler.

S5 S6 S7 S8

ON

OFF

Dip Switches -

Dehumidification Enable

Figure 18

Move to the
ON position

to enable

dehumidification

15 Auxiliary Alarm Switch

The control is equipped with two Auxiliary Alarm terminals labeled CAS which can
be utilized with communicating mode setups (typically used for condensate switch
wiring but could be used with compatible C02 sensors or fire alarms).

Legacy mode use

CAS

In a legacy system (Non-communicating), this feature is not operational. Any auxil­iary alarm switch must be used to interrupt the Y1 signal either to the indoor or
outdoor unit.

Communication mode use

Figure 19

This feature can be activated or deactivated through the thermostat user menus. An
auxiliary alarm switch must be normally closed and open when the base pan’s water
level in the evaporator coil reaches a particular level. The control will respond by turning off the outdoor compressor and

SWITCH

12

display the proper fault codes. If the switch is detected closed for 30 seconds, normal operation resumes and the error

A

A

message will be removed.

16 AVPTC Motor Orientation

If the unit is in the upflow position, there is no need to rotate
the motor. If the unit is in the downflow position, loosen
motor mount and rotate motor as shown in the AVPTC Mo-
tor Orientation figure below. Be sure motor is oriented with
the female connections on the casing down. If the motor is
not oriented with the connections down, water could collect
in the motor and may cause premature failure.

2

W1W2

C

ST1

FRONT VIEW

FEMALE CONNECTIONS

24VAC

TH

AVPTC Motor Otrientation

Figure 20

TR

COM

ST3
FUSE
3A

SIDE VIEW

Auxiliary

Alarms

W
RNING

SOFTW

RE VER.

TOP

Seven Segment

LED

Green CFM LED

CAS

DE
HUM

O

Y2

Y1

W2

W1

G
C
R

2

ST2

1

C
2
1
R

3

ST4

Dip Switches

Communicating Board

Figure 21

13

17 Circulator Blower

This air handler is equipped with a multi-speed circulator blower. This blower provides ease in adjusting blower speeds.
The Specification Sheet applicable to your model provides an airflow table, showing the relationship between airflow (CFM)
and external static pressure (E.S.P.), for the proper selection of heating and cooling speeds. The heating blower speed
shipped is set at 21kW or 25kW, and the cooling blower speed is set at “D”. These blower speeds should be adjusted by the
installer to match the installation requirements so as to provide the correct electric heating CFM and correct cooling CFM.

Use the CFM LED (green) to obtain an approximate airflow quantity. The green CFM LED blinks once for each 100 CFM of
airflow.

1. Determine the tonnage of the cooling system installed with the air handler. If the cooling capacity is in BTU/hr divide it
by 12,000 to convert capacity to TONs.

Example: Cooling Capacity of 30,000 BTU/hr.
30,000/12,000 = 2.5 Tons

2. Determine the proper airflow for the cooling system. Most cooling systems are designed to work with airflows between
350 and 450 CFM per ton. Most manufacturers recommend an airflow of about 400 CFM per ton.

Example: 2.5 tons X 400 CFM per ton = 1000 CFM

The cooling system manufacturer’s instructions must be checked for required airflow. Any electronic air cleaners or other
devices may require a specific airflow; consult installation instructions of those devices for requirements.

3. Knowing the air handler model, locate the high stage cooling airflow charts in the Specification Sheet applicable to your
model. Look up the cooling airflow determined in step 2 and find the required cooling speed and adjustment setting.

Example: An AVPTC30C14 air handler installed with a 2.5 ton air conditioning system. The airflow needed is 1000

CFM. Looking at the cooling speed chart for AVPTC30C14, find the airflow closest to 1000 CFM. A cooling airflow of
1000 CFM can be attained by setting the cooling speed to “C” and the adjustment to “0” (no adjustment).

4. Locate the blower speed selection DIP switches on the integrated con­trol module. Select the desired “cooling” speed tap by positioning
switches 1 and 2 appropriately. If airflow adjustment is required, set dip
switch S8 (trim enable) to ON (trim enable default is off). Then select
the desired “adjust” tap by positioning switches S3 and S4 appropri­ately. Refer to the following Airflow Adjust Taps figure for switch posi­tions and their corresponding taps. Verify CFM by counting the number
of times the green CFM LED blinks, see page 13 for LED locations.

5. Continuous fan speeds that provide 25, 50, 75, and 100% of the air
handler’s maximum airflow capability are selectable via dip switches
S12 and S13.

If the air handler’s maximum airflow capability is 2000 CFM and 25%
continuous fan speed is selected, the continuous fan speed will be

0.25 x 2000 CFM = 500 CFM.

6. The multi-speed circulator blower also offers several custom ON/OFF
ramping profiles. These profiles may be used to enhance cooling
performance and increase comfort level. The ramping profiles are
selected using DIP switches 5 and 6. Refer to the following Dip
Switches - Cooling Airflow Ramping Profiles figure for switch positions
and their corresponding taps. Refer to the bullet points below for a
description of each ramping profile. Verify profile selection by count­ing the green CFM LED blinks and timing each step of the ramping profile.

Tap A Tap B

OFF OFF OFF OFFON ON ON ON
S1
S2

Cooling Airflow Speed Tap (* indicates factory setting)

S1
S2

Tap C Tap D*

S1
S2

S1
S2

Figure 22

+5% -5%

OFF OFF OFF OFFON ON ON ON

S3
S4

S3
S4

Airflow Adjust Taps (*indicates factory setting)

+10% -10%

S3
S4

S3
S4

Dip Switches -

Cooling Airflow and Airflow Adjust Taps

Figure 23

25% 50%*

OFF

OFF

S12

S13

12
13

S12
S13

Fan Only Selection (*indicates factory setting)

Fan Only Selection (*indicates factory setting)

ON

ON

OFF

OFF
12
13

75% 100%

OFF

OFF

ON ON

ON ON

12

S12

13

S13 S13

12
13

Figure 24

OFFON

OFFON

14

21 kW* or

25 kW*

19 kW or

20 kW

15 kW 10 kW

8 kW 6 kW 5 kW 3 kW

OFF OFF OFF OFFON ON ON ON

S9

S10
S1 1

S9

S10

S1 1

S9

S10

S1 1

S9

S10
S1 1

OFF OFF OFF OFFON ON ON ON

S9

S10

S1 1

S9

S10

S1 1

S9

S10

S1 1

S9

S10

S11

Electric Heating Airflow (*indicates factory setting)

Figure 25

NOTE: Upon start up in communicating mode the circuit board may display an “Ec” error. This is an indication that the dip
switches on the control board need to be configured in accordance with the Electric Heating Airflow Table. Configuring
the dip switches and resetting power to the unit will clear the error code.

Within the thermostat user menu, CTK0* communicating thermostat will display 20 kW for OFF-OFF-ON dip switch
selection and 21 kW for OFF-OFF-OFF dip switch selection.

• Profile A provides only an OFF delay of one (1) minute
at 100% of the cooling demand airflow.

OFF

100% CFM 100% CFM

OFF

1 min

Figure 26

• 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.

OFF

A one (1) minute OFF delay at 100% of the cooling air­flow.

• Profile C ramps up to 82% of the full cooling demand
airflow and operates there for approximately 7 1/2 min-

OFF

utes. The motor then steps up to the full demand air­flow. Profile C also has a one (1) minute 100% OFF de­lay.

• Profile D ramps up to 50% of the demand for 1/2 minute,

OFF

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.

7. If an electric heater kit has been installed, determine the heater kilo­watt (kW) rating. Using the Electric Heat Airflow table on page 16,
set dip switches 9, 10, and 11 for the installed heater. The adjust
setting (already established by the cooling speed selection) also
applies to the electric heater kit airflow. Thus, the electric heater
airflow is adjusted by the same amount. This does not apply to sys­tems setup with a communicating thermostat. See Set-Up section
in the AIR HANDLER ADVANCED FEATURES MENU on page 22. Verify se-
lected CFM by counting the green CFM LED blinks.

50% CFM

1/2 min

100% CFM

100% CFM

Figure 27

100% CFM

Figure 28

Figure 29

Tap A* T ap B Tap C Tap D

OFF OFF OFF OFFON ON ON ON

S5
S6

S5
S6

S5
S6

Figure 30

Dip Switches - Cooling Airflow Ramping Profiles

OFF

1 min

OFF

OFF

S5
S6

15

If an electric heater kit has not been installed, set dip switches 9, 10, and 11 to any valid heater kit setting (see ariflow
table for valid settings). This will prevent an Ec Error code from being displayed.

NOTE: For installations not indicated in the preceding Temperature Rise Tables, the following formula is to be used:

TR = (kW x 3412) x (Voltage Correction) / (1.08 x CFM)
Where: TR = Temperature Rise
kW = Heater Kit Actual kW
3412 = Btu per kW
Voltage Correction =.96 (230 Supply Volts)

=.92 (220 Supply Volts)
=.87 (208 Supply Volts)

1.08 = Constant
CFM = Measured Airflow

NOTE: The Temperature Rise Tables can also be used to determine the air handler airflow delivery. When using these
tables for this purpose set the room thermostat to maximum heat and allow the system to reach steady state conditions.
Insert two thermometers, one in the return air and one in the supply air. The temperature rise is the supply air temperature
minus the room air temperature.
Use HKR specification sheets to determine the HKR available for a given air handler.

18 Heat Kit Selection

For heat kit selection, see the Specification Sheet for each specific Air Handler.

19 Troubleshooting

19.1 Electrostatic Discharge (ESD) Precautions

NOTE: Discharge body’s static electricity before touching unit. An electrostatic discharge can adversely affect electrical
components.
Use the following precautions during air handler installation and servicing to protect the integrated control module from
damage. By putting the air handler, the control, and the person at the same electrostatic potential, these steps will help
avoid exposing the integrated control module to electrostatic discharge. This procedure is applicable to both installed and
uninstalled (ungrounded) blowers.

1. Disconnect all power to the blower. Do not touch the integrated control module or any wire connected to the control
prior to discharging your body’s electrostatic charge to ground.

2. Firmly touch a clean, unpainted, metal surface of the air handler blower near the control. Any tools held in a person’s
hand during grounding will be discharged.

3. Service integrated control module or connecting wiring following the discharge process in step 2. Use caution not to
recharge your body with static electricity; (i.e., do not move or shuffle your feet, do not touch ungrounded objects, etc.).
If you come in contact with an ungrounded object, repeat step 2 before touching control or wires.

4. Discharge your body to ground before removing a new control from its container. Follow steps 1 through 3 if installing
the control on a blower. Return any old or new controls to their containers before touching any ungrounded object.

19.2 Diagnostic Chart

Refer to the Troubleshooting Chart at the end of this manual for
assistance in determining the source of unit operational prob­lems. The 7 segment LED display will provide any active fault
codes. An arrow printed next to the display indicates proper
orientation (arrow points to top of display). See Figure 31.

HIGH VOLTAGE!

TO

AVOID PERSONAL INJURY OR DEATH DUE TO
ELECTRICAL SHOCK, DISCONNECT ELECTRICAL POWER
BEFORE PERFORMING ANY SERVICE OR MAINTENANCE

WARNING

.

7 Segment
Diagnostic
Display

Figure 31

16

RNR

RNR

F

F

RNR

RNR

RNRNR

RNR

F

RNRNRNRNR

Speed Selection Dip Switches

Cooling/Heat Pump Airflow Tabl e

Cool Adjust Profile
Selection Selection Selection
Switches Switches Switches

TAP S1 S2 S3 S4 S5 S6

A OFF OFF OFF OFF OFF OFF
B ON OFF ON OFF ON OFF
C OFF ON OFF ON OFF ON
D ON ON ON ON ON ON

Profiles Pre-Run Shor t-Run OFF Delay

A ------- -------- 60 sec/100%

B ------- 30 sec/50% 60 sec/100%
C ------- 7.5 min/82% 60 sec/100%
D 30 sec/50% 7.5 min/82% 30 sec/50%

To set A irflow:

Airflow. Determine the corresponding tap (A, B, C, D). Set dip
switches S1 and S2 to the appropriate ON / OFF pos itions.
(2) Select model an d installed electric heater size. Set dip

switches S9, S10, and S11 to the appropriate ON / OFF positions.

(3) If airflow adjustment is required set Trim Enable Switch to

ON (OFF = 0% Trim) and set S3 and S4 to appropriate ON / OFF

positions. Tap A is +5%,Tap B is -5%, T ap C is +10%, Tap D is

-10%.

To Set Comfort mode:

profiles above). Set dip switches S5 and S6 to appropriate ON /
OFF positions.

Dehumidification:

airflow will be reduced to 85% of nominal value during cool call
when Dehum comm and is present. To disable, set S7 to OFF.

Continuous Fan Speed:

one of 4 continuous fan speeds, Tap A is 25%. Tap B is 50%, Tap
C is 75%, Tap D is 100%.

Notes:

1. Airflow data shown applies to legacy mode operation only.
For a fully communicating system, please see the outdoor
unit's installation instruc tions for cooling and heat pump
airflow data. See

section for details.

2. Airflow blink codes are approximations of actual airflow.

(1) Select model and desired High Stage Cooling

Select des ire d Comfort Mode Profile (see

To enable, set dip switch S7 to ON. Cooling

Use dip switches S12 and S13 to select

ComfortNet System-Airflow Consideration

Continuous

Fan

Speed

S12

OFF

ON

OFF

ON

S13

OFF

OFF

ON

ON

S8

Model Speed tap

A

AVPTC24B14**

B

C
D
A

AVPTC30C14**

B

C
D
A

AVPTC36C14**

B

C
D

A

AVPTC48C14**

B

C
D

A

AVPTC42D14**

B

C
D
A

AVPTC48D14**

B

C
D
A

AVPTC60D14**

B

C
D

NOTE: Airflow blink codes are approximations of actual airflow. Airflows provided
are at 0.3 static.

Low stage

(CFM)

410 610
565 835
660 970
765 112 5
440 610
605 835
740 102 0
885 122 5
500 725
700 100 0
930 133 0

1120 1600

500 725
700 100 0
930 133 0

1120 1600

560 800
765 109 0
995 142 0

1225 1750

900 135 0
1035 1550
1140 1700
1200 1800
1210 1610
1365 1815
1450 1920
1525 2025

High stage

(CFM)

HTR kW 9 10 11 AVPTC24B14A AVPTC30C14A AVPTC36C14A AVPTC48C14A AVPTC42D14A† AVPTC48D14A†† AVPTC60D14A†††

3 ON ON ON 550 600 N
5 ON ON OFF 650 700 850 850 1250 1250 1250
6 ON OFF ON 700 750 900 900 1300 1300 1300

8 ON OFF OFF 800 875 1000 1000 1500 1500 1500
10 OF
15 OF

19* N

20 N

21 or 25* OF

Note: Airflow data shown applies to the electric heat only in either legacy mode or communicating mode operationNR - Not rated* Within thermostat
user menu, CTK0* communicating thermostat will display 20 kW for OFF-OFF-ON dip switch selection and 21 kW for OFF-OFF-OFF dip switch
selection.

† For match up with a 2 ton outdoor unit: Heater kit application shall not exceed 10 kW. Airflow for 5 kW up to 10 kW heater kits shall be set to 850 cfm speed tap of
ON-ON-ON.
†† For match up with a 3 ton outdoor unit: Heater kit application shall not exceed 15 kW.
Airflow for 5 kW up to 15 kW heater kits shall be set to 1300 cfm speed tap of ON-OFF-ON.
††† For match up with a 3.5 ton outdoor unit: Heater kit application shall not exceed 20 kW.
Airflow for 5 kW up to 20 kW heater kits shall be set to 1500 cfm speed tap of ON-OFF-OFF
** 3 kW heater kit is not applicable for this indoor application.

ON ON 850 950 1200 1200 1550 1550 1550
ON OFF N

OFF OFF ON

OFF OFF N

ELECTRIC HEAT AIRFLOW TABLE

850** N

1440 1440 1720 1720 1780
1500 1500 N
1500 1500 1800 1815 1850

1850 1850

17

THIS PAGE INTENTIONALL LEFT BLANK

18

19.3 Fault Recall

The integrated control module is equipped with a momentary push-button switch that can be used to display the last six
faults on the 7 segment LED display. 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 LED display 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.

NOTE: Consecutively repeated faults are displayed a maximum of three times. Example: A clogged return air filter causes
the air handler’s motor to repeatedly enter a limiting condition. The control will only store this fault the first three consecutive
times the fault occurs.

20 ComfortNet™ System

20.1 Overview

The ComfortNet system is a system that includes a ComfortNet compatible air handler 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 (or non-communicating) system (see the 24 VOLT THERMOSTAT WIRING - NON-COMMUNICATING THERMOSTAT CON-

NECTIONS section for details).

A ComfortNet heating/air conditioning system differs from a non-communicating/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 VAC signals. It is a one-way communication path in that the indoor and
outdoor units 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 path. The thermostat still sends commands to the indoor and outdoor
units. However, the thermostat may also request and receive information from both the indoor and outdoor units. This
information may be displayed on the ComfortNet thermostat. The indoor and outdoor units also interact with one another.
The outdoor unit may send commands to or request information from the indoor unit. This two-way digital communications
between the thermostat and subsystems (indoor/outdoor unit) and between subsystems is the key to unlocking the benefits
and features of the ComfortNet system.

Two-way digital communications is accomplished using only two wires. The thermostat and subsystem controls are pow­ered with 24 VAC Thus, a maximum of 4 wires between the equipment and thermostat is all that is required to operate the
system.

20.1 Airflow Consideration

Airflow demands are managed differently in a fully communicating system than they are in a non-communicating 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.

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. See the
applicable ComfortNet air conditioner or heat pump installation
manual for the airflow delivered during cooling or heat pump heat­ing.

In continuous fan mode, the CTK0* thermostat provides the airflow
demand. Depending on which CTK0* thermostat has been installed
three or four continuous fan speeds may be available. If the
thermostat provides three speeds (low, medium, high) they
correspond to 25%, 50% and 75%, respectively, of the air handlers’

System

Air Conditioner +

Air Handler

Heat Pump + Air

Handler

System

Operati ng Mode

Cooling Air Conditioner

Heating Air Handler

Continuous Fan Thermostat

Co oling Heat Pump

Heat Pump Heating

Only

HP + Electric Heat

Strips

Electric Heat Strips

Only

Airflow Demand

Source

Heat Pump

> of Heat Pump or Air

Handler Demand

Air Handler

Continuous Fan Thermostat

Figure 32

19

maximum airflow capability. If the thermostat provides four continuous fan speeds then a 100% airflow option is added. During

A

continuous fan operation, the thermostat sends a fan request along with the continuous fan demand to the air handler. The
air handler, in turn, sends the demand to the ECM motor. The ECM motor delivers the requested continuous fan airflow.

20.2 CTK0* Thermostat Wiring

NOTE: Refer to section Electrical Connections for 208/230 volt line connections to the air handler.
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. One hundred (100) feet is the maximum

length of wire between indoor unit and outdoor unit, or between indoor unit and thermostat.

CTK0*

20.3 Four-Wire Indoor and Outdoor Wiring

12

RC

Thermostat

Typical wiring will consist of four 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 VAC hot) and
“C” (24 VAC common).

12RC

CT™ Compatible

ir Handler Blower

Integrated Control Module
CT™ Compatib le AC/HP

Integrated Control Module

Figure 33

CTK0*

12RC

12RC

RC

12

Thermostat

CT™ Compatible
Air Handler Blower
Integrated Control
Module

CT™ Compatible
AC/HP Integrated
Control Module

20.4 Two-Wire Outdoor, Four-Wire Indoor Wiring

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
40VA, 208/230 VAC to 24 VAC transformer must be installed
in the outdoor unit to provide 24 VAC power to the outdoor
unit’s electronic control. See kit instructions for mounting and
wiring instructions. Four wires are required between the in­door unit and thermostat.

12RC

System Wiring Using Four-Wires

40VA Transformer

208/230 VAC

System Wiring using Two-Wires between Air Handler and AC/

HP and Four-Wires between Air Handler and Thermostat

24 VAC

Figure 24

20.5 ComfortNet™ System Advanced Features

The ComfortNet system permits access to additional system information, advanced set-up features, and advanced diagnos­tic/troubleshooting features. These advanced features are organized into a menu structure. See the AIR HANDLER AD­VANCED FEATURES MENU section for layout of menu shortcuts.

20.6 Diagnostics

Accessing the air handler’s diagnostics menu provides ready access to the last six faults detected by the air handler. Faults
are stored most recent to least recent. Any consecutively repeated fault is stored a maximum of three times. Example: A
clogged return air filter causes the air handler’s motor to repeatedly enter a limiting condition. 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 air handler.

20.7 Network Troubleshooting

The ComfortNet system is a fully communicating system, and thus, constitutes a network. Occasionally the need to trouble­shoot the network may arise. The integrated air handler control 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. Refer to the Communi-
cations Troubleshooting Chart at the end of this manual for error codes, possible causes and corrective actions

• Red communications LED – Indicates the status of the network. The table below indicates the LED status and the
corresponding potential problem.

20

• 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.

20.8 System Troubleshooting

NOTE: Refer to the instructions accompanying the ComfortNet compatible outdoor AC/HP unit for troubleshooting information.
Refer to the Troubleshooting Chart at the end of this manual for a listing of possible air handler error codes, possible causes
and corrective actions.

21 Start-Up Procedure

• Prior to start-up, ensure that all electrical connections are properly sized and tightened.

• All panels must be in place and secured. For Air Tight application, neoprene gasket must be positioned at prescribed
locations to achieve 2% leakage.

• Tubing must be leak free.

• Unit should be elevated, trapped and pitched to allow for drainage.

• Low voltage wiring is connected.

• Auxiliary drain is installed when necessary and pitched to allow for drainage.

• Drain pan and drain tubing has been leak checked.

• Return and supply ducts are sealed.

• Unit is elevated when installed in a garage or where flammable vapors may be present.

• Unit is protected from vehicular or other physical damage.

• Return air is not obtained from any areas where there may be objectionable odors, flammable vapors or products of
combustion such as carbon monoxide (CO), which may cause serious personal injury or death.

22 Regular Maintenance

The only item to be maintained on a regular basis by the user
is the circulating air filter(s). Filter should be cleaned or re­placed regularly. A certified service technician must perform
all other services.

NOTE: THESE INSTRUCTIONS ARE SPECIFICALLY FOR
AVPTC MODELS. DO NOT USE THESE DIAGRAMS FOR
ANY OTHER MODELS. SEE SEPARATE INSTALLATION

HIGH VOLTAGE!
Disconnect ALL power before servicing or
installing this unit. Multiple power sources may
be present. Failure to do so may cause property
damage, personal injury or death.

AND OPERATING INSTRUCTIONS FOR ATUF, ARUF,
ARPT, ADPF, AND ASPF MODELS.

NOTICE: THIS PRODUCT CONTAINS ELECTRONIC COMPONENTS WHICH REQUIRE A DEFINITE GROUND.
PROVISIONS ARE MADE FOR CONNECTION OF THE GROUND. A DEDICATED GROUND FROM THE MAIN
POWER SUPPLY OR AN EARTH GROUND MUST BE PROVIDED.

21

23 Communications Troubleshooting Chart

LED LED

Status

1 Flash

Red

Communications

LED

2 Flashes

1 Steady

Flash

Green Receive

LED

Rapid
Flashing
On Solid

Off

Off

Indication Possible Causes Correcti ve Action(s ) Notes & Cautions

• Normal condition • None • None • None

• Communications

Failure

• Out-of-box reset • Control power up

• No power

• Communications

error

• No network found • Broken/ disconnected

• Normal network

traffic

• Data 1/ Data 2
miss-wire

• Communications
Failure

• Learn button
depressed

• No power to air
handler

• Open fuse

• Communications error

data wire(s)

• Air handler is installed
as a legacy/ traditional
system

• Control is “talking” on
network as expected

• Data 1 and data 2
wires reversed at air
handler, thermostat,
or CT™ compatible
outdoor AC/HP

• Short between data 1
and data 2 wires

• Short between data 1
or data 2 wires and R
(24VAC) or C (24VAC
common)

• Depress Learn Button

• Verify that bus BIAS

and TERM
dipswitches are in the
ON position.

• None • None

• Check fuses and

circuit breakers;
replace/reset

• Replace blown fuse

• Check for shorts in

low voltage wiring in
air handler/system

• Reset network by
depressing learn
button

• Check data 1/ data 2
voltages

• Check
communications
wiring (data 1/ data 2
wires)

• Check wire
connections at
terminal block

• Verify air handler
installation type
(legacy/ traditional or
communicating)

• Check data 1/ data 2
voltages

• None • None

• Check

communications
wiring (data 1/ data 2
wires)

• Check wire
connections at
terminal block

• Check data 1/ data 2
voltages

• Depress once
quickly for a power­up reset

• Depress and hold
for 2 seconds for
an out-of-box reset

• Turn power OFF
prior to repair

• Turn power O FF
prior to repair

• Verify wires at
terminal blocks are
securely twisted
together prior to
inserting into
terminal block

• Verify data1 and
data voltages as
described above

• Turn power O FF
prior to repair

• Verify wires at
terminal blocks are
securely twisted
together prior to
inserting into
terminal block

• Verify data1 and
data voltages as
described above

22

24 Air Handler Advanced Features Menu

CONFIGURATION

Submenu Item

Electric Heat Size (HTR KW)
Motor HP (1/2, 3/4, or 1 MTR HP)
Heat ON Delay (HT ON) Displ ays the el ec tric heat i ndoor blower ON delay.
Heat OFF Delay (HT OFF ) Displ ays the el ec tric heat i ndoor blower OFF del ay .

Submenu Item Indication/User Modifiabl e Options Comments

Fault 1 (FA ULT #1) Most recent m odul ar fault For dis play only
Fault 2 (FA ULT #2) Next most recent modular fault For dis play only
Fault 3 (FA ULT #3) Next most recent modular fault For dis play only
Fault 4 (FA ULT #4) Next most recent modular fault For dis play only
Fault 5 (FA ULT #5) Next most recent modular fault For dis play only
Fault 6 (FA ULT #6) Least rec ent modular fault For dis play only
Clear Fault Hist ory (CLEAR) NO or YES Selecting “Y ES” cl ears the fault hi story

Consec ut i vely repeat ed fault s are s hown a maximum of 3 ti mes

NOTE:

Displ ays the size i n k W of the selected elec tric heaters.
Displ ays the ai r handler indoor bl ower mot or hors epower.

Indica ti on (for Display Only; not User Modi fi a ble)

DIAGNOSTICS

IDENTIFICATION

Submenu Item

Model Number (MOD NUM) Displays t he modul ar bl ower model number
Serial Number (S E R NUM) Dis pl ays the m odular bl ower seri al num ber (Opt ional )
Software (SOFTWARE) Displays the application software revision

Submenu Item Use r M odifiable Options Comme n ts

Heat Ai rflow Trim (HT TRM) -10% to +10% i n 2% i nc rem ent s, default i s 0%

Submenu Item

Mode (MODE) Displ ays the current air handler operati ng mode
CFM (CFM) Displ ays the ai rflow for the c urrent operat i ng mode

Indica ti on (for Display Only; not User Modi fi a ble)

SET-UP

STATUS

Indica ti on (for Display Only; not User Modi fi a ble)

Trims the heating airflow
by t he s el ected amount .

23

25 Troubleshooting

Notes & Cautions

Corrective Actions

Possible Causes

x Normal operation x None x Normal operation

x Turn power OFF prior to

x Verify electric heat dipswitch

x Heater kit selected via

EC

repair.

x Use memory card for

settings

x Verify the installed electric

dipswitches is too large for

heater kits in shared data set

the specific model.

heater is valid for the air

BEFORE turning power

x Insert memory card

handler blower. Check

nameplate or Specification

ON. Memory card may

Sheet applicable to your

be removed after data is

loaded.

model* for allowable heater

kit(s).

x Turn power off before

x Verify shared data set is

repair.

the specific model.

BEFORE turning power

ON. Memory card may

be removed after data is

removing memory card.

x Turn power OFF prior to

x Use memory card for

x Insert memory card

correct for the specific model.

Re-populate data using

correct memory card if

required.

settings

heater is valid for the air

dipswitches is too small for

x Verify the installed electric

heater kits in shared data set

handler blower. Check

x Verify electric heat dipswitch

x Heater kit selected via

EC

loaded.

removing memory card.

x Turn power off before

nameplate or Specification

Sheet applicable to your

model* for allowable heater

kit(s).

correct for the specific model.

Re-populate data using

x Verify shared data set is

repair.

the specific model.

BEFORE turning power

ON. Memory card may

be removed after data is

loaded.

removing memory card.

x Turn power OFF prior to

x Use memory card for

x Insert memory card

settings

heater is valid for the air

handler blower. Check

nameplate or Specification

Sheet applicable to your

correct memory card if

required.

x Verify electric heat dipswitch

x Verify the installed electric

dipswitches is doesn’t match

heater kits in shared data set

x Heater kit selected via

EC

model* for allowable heater

x Turn power off before

kit(s).

correct for the specific model.

Re-populate data using

x Verify shared data set is

correct memory card if

required.

service.

x Turn power OFF prior to

service

x Check overflow pan and

evaporation coil.

x High water level in the

EF

ComfortNet™

None None

Thermostat Only

Message Code

HTR TOO

Fault Description

x Heater kit selected via

x Normal operation

EC

ON

Codes

Characters

Will Alternate

7-Segment LED

LARGE

dipswitches is too

large for heater kits

specified in shared

SMALL

HTR TOO

data set

x Heater kit selected via

EC

dipswitches is too

small for heater kits

specified in shared

data set

MATCH

NO HTR

dipswitches does not

heater kits specified in

x Heater kit selected via

EC

shared data set

Fault

Aux Alarm

x Aux switch open

EF

Symptoms of Abnormal Operation

(Legacy & ComfortNet™ Thermostat)

call for W1 or Auxiliary/Emergency

heat

provides the indicated error code.

Service” icon illuminated

x LED display is ON continuously

x Electric heaters fail to energize on a

x Integrated control module LED display

“Check Air Handler” message

x ComfortNet™ thermostat “Call for

x ComfortNet™ thermostat scrolls

x Electric heat airflow is higher than

expected on a call for W1 or

Auxiliary/Emergency heat

x Integrated control module LED display

provides the indicated error code.

expected on a call for W1 or

Auxiliary/Emergency heat

x Electric heat airflow is higher than

provides the indicated error code.

x Integrated control module LED display

x Integrated control module LED display

EF error code.

x ComfortNet™ thermostat “Call for

Service”.

24

25 Troubleshooting (Sheet 2 of 4)

repair.

control module fuse with

3A automotive fuse.

control module with

correct replacement part

x Turn power OFF prior to

x Replace integrated

x Replace integrated

volt power to air handler

blower and integrated control

module.

x Assure 208/230 volt and 24

Possible Causes Corrective Actions Notes & Cautions

or 24 volt wire improperly

x Manual disconnect switch OFF

EE

module fuse (3A). Replace if

x Check integrated control

connected or loose

an internal fault

x Blown fuse or circuit breaker

x Integrated control module has

“Electrostatic Discharge”

x Read precautions in

necessary.

208/230 volt and 24 volt

circuits. Repair as necessary.

x Check for possible shorts in

section of manual.

x Replace bad integrated

control module.

repair

the specific model.

x Turn power OFF prior to

x Use memory card for

using memory card.

x Populate shared data set

contain any shared data.

x Air handler blower does not

d0

repair

BEFORE turning power

ON. Memory card may

be removed after data is

loaded.

cleared once data is

loaded.

x Insert memory card

x Error code will be

x Turn power off before

removing memory card

the specific model.

x Turn power OFF prior to

x Use memory card for

set using memory card.

x Populate correct shared data

contain an appropriate shared

data set.

x Air handler blower does not

d1

BEFORE turning power

ON. Memory card may

be removed after data is

x Insert memory card

loaded.

x Error code will be

cleared once data is

loaded.

x Turn power OFF prior to

x Verify shared data set is

x Shared data set on memory

d4

repair

x Use memory card for

correct for the specific model.

Re-populate data using

card has been rejected by

integrated control module

the specific model.

BEFORE turning power

ON. Memory card may

be removed after data is

loaded.

cleared once data is

loaded.

x Insert memory card

correct memory card if

required.

x Error code will be

x Turn power off before

removing memory card

ComfortNet™

Thermostat Only

Codes

7-Segment LED

FAULT

Message Code

INTERNAL

Fault Description

to air handler blower

x No 208/230 volt power

No Display

Characters

Will Alternate

or no 24 volt power to

integrated control

module

breaker

x Blown fuse or circuit

DATA

NO NET

module has an internal

fault.

x Integrated control

x Data not yet on

d0

network.

INVALID

x Invalid data on

d1

DATA

network.

INVALID

x Invalid memory card

d4

MC DATA

data.

Symptoms of Abnormal Operation

(Legacy & ComfortNet™ Thermostat)

provides no signal.

Service” icon illuminated

x Air handler blower fails to operate

x Integrated control module LED display

“Check Air Handler” message

x ComfortNet™ thermostat “Call for

x ComfortNet™ thermostat scrolls

provides indicated error code.

x Air handler blower fails to operate.

x Integrated control module LED display

Service” icon illuminated.

“Check Air Handler” message.

x ComfortNet™ thermostat “Call for

x ComfortNet™ thermostat scrolls

provides indicated error code.

Service” icon illuminated.

x Air handler blower fails to operate.

x Integrated control module LED display

“Check Air Handler” message.

x ComfortNet™ thermostat “Call for

x ComfortNet™ thermostat scrolls

operation.

provides indicated error code.

Service” icon illuminated.

x Operation different than expected or no

x Integrated control module LED display

“Check Air Handler” message.

x ComfortNet™ thermostat “Call for

x ComfortNet™ thermostat scrolls

25

25 Troubleshooting (Sheet 3 of 4)

Notes & Cautions

Corrective Actions

Possible Causes

x Turn power OFF prior to

x Tighten or correct wiring

x Loose wiring connection at

b0

repair

x Replace circulator motor

connection.

x Check circulator blower

circulator motor power leads

or circulator motor power

with correct

replacement part.

motor. Replace if necessary.

leads disconnected.

x Failed circulator blower motor.

x Turn power OFF prior to

x Tighten or correct wiring

x Loose wiring connection at

b1

repair

x Replace circulator motor

connection.

x Check circulator blower

circulator motor control leads.

x Failed circulator blower motor.

with correct

replacement part.

motor. Replace if necessary.

x Check integrated control

module.

x Failed integrated control

control module with

correct replacement

x Replace integrated

module. Replace if

necessary.

part.

repair

x Turn power OFF prior to

horse power is the same

x Verify circulator blower motor

motor in air handler blower.

x Incorrect circulator blower

b2

correct replacement

x Replace motor with

specified for the specific air

handler blower model.

integrated control module.

x Incorrect shared data set in

part.

Replace is necessary.

x Use memory card for

x Verify shared data set is

the specific model

x Insert memory card

correct for the specific model.

Re-populate data using

for installation requirements.

x See "Installation Instructions"

x Turn power OFF prior to

x Check filters, filter

x Abnormal motor loading,

b4

repair.

grills/registers, duct system,

and air handler blower/coil air

sudden change in speed or

torque, sudden blockage of air

inlet/outlet for blockages.

handler blower/coil air inlet or

outlet.

x High loading conditions,

blocked filters, very restrictive

ductwork, blockage of air

handler blower/coil air inlet or

outlet.

BEFORE turning power

ON. Memory card may

be removed after data is

loaded.

cleared once shared

data and motor horse

power match.

removing memory card

x Error code will be

correct memory card if

required.

x Turn power off before

x Turn power OFF prior to

x Check filters for blockage.

x Blocked filters.

b3

repair.

Clean filters or remove

obstruction.

x Restrictive ductwork.

x Undersized ductwork.

x Check ductwork for blockage.

x High ambient temperatures.

Remove obstruction. Verify

all registers are fully open.

x Verify ductwork is

appropriately sized for

system. Resize/replace

ductwork if necessary.

ComfortNet™

Thermostat Only

MOTOR

Message Code

NOT RUN

Fault Description

motor is not running

x Circulator blower

b0

Codes

Characters

Will Alternate

7-Segment LED

when it should be

running.

MOTOR

x Integrated control

b1

COMM

module has lost

MOTOR

MISMATCH

communications with

circulator blower

motor.

x Circulator blower

b2

motor horse power in

shared data set does

not match circulator

blower motor horse

power.

MOTOR

x Circulator blower

b3

LIMITS

motor is operating in a

power, temperature, or

speed limiting

condition.

MOTOR

x Circulator blower

b4

TRIPS

motor senses a loss

rotor control.

x Circulator blower

motor senses high

current.

Symptoms of Abnormal Operation

(Legacy & ComfortNet™ Thermostat)

provides indicated error code.

Service” icon illuminated.

“Check Air Handler” message.

provides indicated error code.

Service” icon illuminated.

x Air handler blower fails to operate.

x Integrated control module LED display

x ComfortNet™ thermostat “Call for

x ComfortNet™ thermostat scrolls

x Air handler blower fails to operate.

x Integrated control module LED display

“Check Air Handler” message.

x ComfortNet™ thermostat “Call for

x ComfortNet™ thermostat scrolls

provides indicated error code.

Service” icon illuminated.

x Air handler blower fails to operate.

x Integrated control module LED display

“Check Air Handler” message.

x ComfortNet™ thermostat “Call for

x ComfortNet™ thermostat scrolls

performance.

x Air handler blower operates at reduced

provides b3 error code.

x Airflow delivered is less than expected.

x Integrated control module LED display

provides indicated error code.

Service” icon illuminated.

x Air handler blower fails to operate.

x Integrated control module LED display

“Check Air Handler” message.

x ComfortNet™ thermostat “Call for

x ComfortNet™ thermostat scrolls

26

25 Troubleshooting (Sheet 4 of 4)

Notes & Cautions

Corrective Actions

Possible Causes

repair

x Turn power OFF prior to

obstructions. Remove and

x Check circulator blower for

blower housing.

x Obstruction in circulator

b5

correct replacement

part.

x Replace motor with

repair/replace wheel/motor if

necessary.

x Check circulator blower motor

bearings.

x Seized circulator blower motor

x Failed circulator blower motor.

repair.

correct replacement

part.

x Turn power OFF prior to

x Replace wheel with

blower. Verify line voltage to

blower is within the range

specified on the air handler

blower rating plate.

hander blower.

x High ambient temperatures.

for installation requirements.

x See "Installation Instructions"

shaft rotation and motor.

Replace motor if necessary.

x Check power to air handler

handler blower.

x High AC line voltage to air

x Low AC line voltage to air

b6

repair.

x Turn power OFF prior to

module. Verify control is

x Check integrated control

module.

x Error with integrated control

b7

x Replace with correct

populated with correct shared

x Motor has a locked rotor

replacement part(s).

x Use memory card for

data set. See data errors

above for details.

condition.

the specific model.

x Check for locked rotor

BEFORE turning power

ON.

removed after data is

x Memory card may be

loaded

x Insert memory card

condition (see error code

above for details).

x Turn power off before

repair.

removing memory card.

x Turn power OFF prior to

Clean filters or remove

obstruction.

Remove obstruction. Verify

all registers are fully open.

appropriately sized for

system. Resize/replace

x Check filters for blockage.

x Blocked filters.

b9

x Restrictive ductwork.

x Check ductwork for blockage.

x Undersized ductwork.

ductwork if necessary.

x Verify ductwork is

ComfortNet™

MTR

Thermostat Only

LCKD

Message Code

Fault Description

motor fails to start 10

x Circulator blower

b5

Codes

Characters

Will Alternate

7-Segment LED

ROTOR

consecutive times.

VOLTS

MOTOR

motor shuts down for

x Circulator blower

b6

over or under voltage

condition.

x Circulator blower

motor shuts down due

to over temperature

condition on power

module.

MOTOR

x Circulator blower

b7

PARAMS

motor does not have

LOW ID

AIRFLOW

enough information to

operate properly.

Motor fails to start 40

consecutive times.

demanded.

x Airflow is lower than

b9

Symptoms of Abnormal Operation

(Legacy & ComfortNet™ Thermostat)

provides indicated error code.

Service” icon illuminated.

x Air handler blower fails to operate.

x Integrated control module LED display

“Check Air Handler” message.

x ComfortNet™ thermostat “Call for

x ComfortNet™ thermostat scrolls

provides indicated error code.

Service” icon illuminated.

x Air handler blower fails to operate.

x Integrated control module LED display

“Check Air Handler” message.

x ComfortNet™ thermostat “Call for

x ComfortNet™ thermostat scrolls

provides indicated error code.

Service” icon illuminated.

x Air handler blower fails to operate.

x Integrated control module LED display

“Check Air Handler” message.

x ComfortNet™ thermostat “Call for

x ComfortNet™ thermostat scrolls

x Air handler blower operates at reduced

performance or operates on low stage

when high stage is expected.

provides indicated error code.

x Integrated control module LED display

27

27 Wiring Diagrams

WARNING

HIGH VOLTAGE!

MULTIPLE POWER SOURCES MAY BE PRESENT. FAILURE TO DO SO

DISCONNECT ALL POWER BEFORE SERVICING.

MAY CAUSE PROPERTY DAMAGE, PERSONAL INJURY OR DEATH.

PL1

PL2

2

2

3

3

1

1

6

6
5

5

4

4

7

7

8

8

9

9

SEE

NOTE 7

BK

RD

BL

GY

BK

RD

40 VA TRANSFORMER, SEE NOTE 1

230 VAC

RD

RD

208 VAC

BK

BK

WH

BR

BL

4

4 CIRCUIT HEATER

CONNECTOR

SEE NOTE 5

SEE NOTE 6

CONNECTOR

4

3

2

1

TWO-STAGE INTEGRATED CONTROL MODULE

ECM MOTOR

HARNESS

C

4 CIRCUIT MOTOR

3

COM

S1

W2

2

STATUS

LED

CFM LED

AF SELECT

S2 S3 S4

3

2

1

W1

1

FAULT

RECALL

TRIM %

DIP SWITCHES

4

RD

24 VAC

BL

SEE NOTE 6

7 SEGMENT

DIAGNOSTIC

DISPLAY

SEE NOTE 6

TRIM ENABLE

DEHUM ENABLE

COOL AF PROFILE

S5 S6 S7 S8

S9

S10

CIRCULATOR BLOWER

3

2

1

1
2

3
4

5

HTR KIT(KW)

S11

24 V 3 A

RX LED

S12

RD

TH

SEE NOTE 8

DEHUM

CONT FAN

S13

GN

RD

BK

GRND

O

Y2

Y1

W2

W1

COM

FUSE

CAS

G

C

R

2

1

BL

TR

GRND

GN

DISCONNECT

L1

24 V THERMOSTAT CONNECTIONS

FUSE 3 A

R

24V THERMOSTAT CONNECTIONS

W1

W2

Y1

TO

Y2

MICRO

G

O

DEHUM

C

L1

GRND

INDOOR

AIR

CIRCULATOR

BLWRLEARN

208/230 VAC

TH

W1 (1)

W2 (2)

CAS (1)

CAS (2)

+VDC (1)

RX (2)

TX (3)

GRND (4)

TR

COM

INTEGRATED CONTROL MODULE

24 VAC

HEAT 1 COIL/R1

HEAT 2 COIL/ R2

CONDENSATE SWITCH

L2

GRND

40 VA
TRANSFORMER

INDOOR

CIRCULATOR

BLWR

L2

AIR

GRND

NOTES:

1. PLACE RED WIRES ON TRANSFORMER TERMINAL 2 FOR 208 VAC OPERATION.

2. MANUFACTURER'S SPECIFIED REPLACEMENT PARTS MUST BE USED WHEN SERVICING.

3. IF ANY OF THE ORIGINAL WIRES AS SUPPLIED WITH THIS UNIT MUST BE REPLACED,
IT MUST BE REPLACED WITH WIRING MATERIAL HAVING A TEMPERATURE RATING OF AT
LEAST 105°C. USE COPPER CONDUCTORS ONLY.

4. UNIT MUST BE PERMANENTLY GROUNDED AND CONFORM TO N.E.C AND LOCAL CODES.

5. TO RECALL THE LAST 6 FAULTS, MOST RECENT TO LEAST RECENT, DEPRESS
SWITCH FOR MORE THAN 2 SECONDS WHILE IN STANDBY (NO THERMOSTAT INPUTS)

6. RED STATUS LED PROVIDES NETWORK STATUS. GREEN RX LED INDICATES NETWORK TRAFFIC.
USE LEARN BUTTON TO RESET NETWORK.

7. DISCARD CONNECTOR PL1 WHEN INSTALLING OPTIONAL HEAT KIT .

8. THE CONDENSATE ALARM SWITCH (CAS) TERMINALS CAN ONLY BE UTILIZED WITH COMMUNICATING
MODE SETUPS AND MUST BE ENABLED WITH A COMMUNICATING THERMOSTAT. THIS FEATURE IS NOT
OPERATIONAL WITH LEGACY SYSTEMS.

USE N.E.C CLASS 2 WIRE.

INTEGRATED CONTROL

LOW VOLTAGE (24V)

LOW VOLTAGE FIELD

HI VOLTAGE (230V)

HI VOLTAGE FIELD

JUNCTION

TERMINAL

INTERNAL TO

EQUIPMENT GRND

FIELD GRND

FIELD SPLICE

RESISTOR

OVERCURRENT

PROT. DEVICE

PLUG CONNECTION

COLOR CODES:
PK ---- PINK

BR ---- BROWN
WH ---- WHITE
BL ---- BLUE

GY ---- GRAY

RD ---- RED

YL ---- YELLOW
OR ---- ORANGE

PU ---- PURPLE

GN ---- GREEN

BK ---- BLACK

0140A00244-B

Wiring is subject to change. Always refer to the wiring diagram on the unit for the most up-to-date wiring.

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27 Wiring Diagrams

WARNING

3-Phase Heat Kit

HIGH VOLTAGE!

MULTIPLE POWER SOURCES MAY BE PRESENT. FAILURE TO DO SO
MAY CAUSE PROPERTY DAMAGE, PERSONAL INJURY OR DEATH.

DISCO NNECT ALL POWER BEFORE SERVICING.

Wiring is subject to change. Always refer to the wiring diagram on the unit for the most up-to-date wiring.

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SPLIT SYSTEMS

AIR CONDITIONING AND HEAT 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

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.

qualified servicer.

Wait 15 minutes. Some devices in the outdoor unit or in pro-

•
grammable 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. 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.

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

.

30

,

.

26 Diagnostic Codes

7 SEGMENT LED

(characters will

alternate)

(no dis play ) INTE RNAL CONTROL FAULT / NO POW ER

On STANDBY, WAITING FOR INPUTS

Ed HEATER KIT DIP SWITCHES NOT SET PROPERLY
Eb NO HTR KIT INSTALLED - SYSTEM CALLING FOR AUXILIARY HEAT
E5 FUSE OPEN

EF AUXILIARY SWITCH OPEN

d0 DATA NO T ON NETW ORK
d1 INVALID DATA ON NETWORK
d4 INV ALID M EMORY CARD DATA
b0 BLOWER MOTOR NOT RUNNING
b1 BLOWER MOTOR COMMUNICATION E RROR
b2 BLOWER MOTOR HP MISMATCH
b3 BLOWER MOTOR OPERATING IN POWER, TEMP., OR SPEED LIMIT
b4 BLOWER MOTOR CURRENT TRIP OR LOST ROTOR
b5 BLOWER MOTOR ROTOR LOCKED
b6 OVER/UNDER VOLTAGE TRIP OR OVER TEMPERATURE TRIP

b7 INCOMPLETE P ARA METER SENT TO MOTOR

b9 LOW INDOOR AIRFLOW
C1 LOW STAGE COOL - LEGACY MODE ONLY
C2 HIGH STAGE COOL - LEGACY MODE ONLY
P1 LOW STAGE HEAT PUMP HEAT - LEGACY MODE ONLY
P2 HIGH STAGE HEAT PUMP HEAT - LEGACY MODE ONLY

h1 EMERGENCY HEAT LOW - COMMUNICATING MODE ONLY

h2 EMERGENCY HEAT HIGH - COMMUNICATING MODE ONLY

FC FAN COOL - COMMUNICATING MODE ONLY
FH FAN HEAT - COMMUNICATING MODE ONLY

FFAN ONLY
H1 ELECTRIC HEAT LOW
H2 ELECTRIC HEAT HIGH

dF

DESCRIPTION OF CONDITION

DEFROST - COMMUNICATING MODE ONLY

(note: defrost is displayed as H1 in a legacy setup)

GREEN CFM LED - EACH FLASH REPRESENTS 100CFM (USE FOR AIRFLOW

AP PROXIMATION ONLY) - EXAMPLE: 8 FLASHES = 800CFM

0140A00079-A

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© 2013 - 2014 Goodman Manufacturing Company, L.P.

5151 San Felipe, Suite 500, Houston, TX 77056

www.goodmanmfg.com - or - www.amana-hac.com

is a registered trademark of Maytag Corporation or its related entities and is used under license. All rights reserved.

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