CARRIER Package Units(both Units Combined) Manual L0912143
User Manual: CARRIER CARRIER Package Units(both units combined) Manual CARRIER Package Units(both units combined) Owner's Manual, CARRIER Package Units(both units combined) installation guides
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Turn to the Expertg
Installation
EQUIPMENT
OPERATION
HAZARD
Failure to follow this caution may result
operation.
OAT
sensor
must be field installed.
Installation
for more details.
EQUIPMENT
OPERATION
Failure to follow this caution
operation.
This Infinity
unit is designed
Interface.
TM
NOTE:
Read
installation.
the entire
in improper
See
unit
Accessory
HAZARD
may result
in improper
unit
for use with an Infinity
User
instruction
manual
before
starting
A09032
the
Fig. 1 - Unit 48XL-A
TABLE
Checking
Checking
OF CONTENTS
PAGE
SAFETY CONSIDERATIONS
.........................
INTRODUCTION
...................................
RECEIVING
Instructions
AND INSTALLATION
2
2
.................
2-12
Check Equipment
..................................
Identify Unit ....................................
2
2
Inspect Shipment .................................
Provide Unit Support
...............................
Roof Curb ......................................
Slab Mount .....................................
2
2
2
3
Provide
Clearances
Cooling and Heating Control Operation
......
and Adjusting Refrigerant Charge ...........
Refrigerant Charge
..............................
No Charge .....................................
Low Charge Cooling .............................
29
29
Inducer Blower ...................................
Limit Switch .....................................
29
29
29
29
30
3
3
3
Burner Ignition
...................................
Main Burners
....................................
Inducer Pressure Switch
............................
Rigging/Lifting
of Unit ............................
Select and Install Ductwork
...........................
9
9
Outdoor
Outdoor
Install Gas Piping
.................................
Install Electrical Connections
........................
12
13
High-Voltage
Connections
........................
Routing Power Leads Into Unit .....................
Connecting
Ground Lead to Ground Screw
...........
Routing Control Power Wires
.....................
Accessory Installation
............................
Special Procedures
for 208-v Operation
PRE-START-UP
...................................
..............
13
13
13
13
13
14
16
Coil, Indoor Coil, and Condensate
Fan .....................................
Drain Pan
Pressure
31
Switches
.................................
Loss-of-Charge
Switch
............................
High-Pressure
Switches
............................
Copeland Scroll Compressor
(Puron cR)Refrigerant)
........
Compressor
Oil .................................
Servicing Systems on Roofs with Synthetic
31
31
Materials
Check for Refrigerant
Start-Up Adjustments
26
26
CARE AND MAINTENANCE
........................
START-UP
CHECKLIST
............................
Leaks .........................
..............................
31
31
31
Refrigerant
System ................................
Refrigerant
....................................
16
21
16-27
30
30
30
31
31
Unit Start-Up and Troubleshooting
...................
Sequence of Operation
.............................
.....................................
.....
Electrical Controls and Wiring
.......................
Refrigerant
Circuit .................................
Indoor Airflow
...................................
Liquid-Line
Filter Drier ..........................
Puron (R-410A)
Refrigerant
Charging
...............
TROUBLESHOOTING
..............................
FINAL CHECKS
...................................
START-UP
27
.. 27
29-30
Mode
Air Filter ........................................
Indoor Fan and Motor ..............................
.................................
. . . 10
11
11
27
27
27
To Use Cooling Charging Charts ....................
Non-Communicating
Emergency
Cooling/Heating
MAINTENANCE
................................
Rig and Place Unit .................................
Inspection
......................................
Configuring
Units for Downflow
(Vertical) Discharge
Provide for Condensate
Disposal
.....................
Install Flue Hood ..................................
26
26
....
31
31
32
32
32
33
33
37
SAFETY
Improper installation,
CONSIDERATIONS
adjustment,
alteration,
service
maintenance,
or use can cause explosion,
fire, electrical
shock,
or other
conditions
which may cause death, personal injury, or property
damage.
Consult
a qualified
installer,
service agency, or your
distributor
or branch for information
or assistance. The qualified
installer or agency must use factory-authorized
kits or accessories
when modifying
this product. Refer to the individual
packaged with the kits or accessories when installing.
Follow
all safety
codes.
Wear safety
glasses,
instructions
protective
clothing,
and work gloves. Have a fire extinguisher
available. Read these
instructions
thoroughly
and follow
all warnings
or cautions
included
in literature
and attached
to the unit. consult
local
building
codes,
the current
editions
of the National
Fuel Gas Code
units
can be converted
to downflow
configurations
for rooftop applications.
(NOx) emissions
requirements
of 40 nanograms/joule
or less as
shipped from the factory and must be installed in California
Air
Quality
America
Management
Districts
or any
where a Low NOx rule exists.
NOTE:
installations.
Low
NOx
requirements
RECEIVING
This is the safety-alert
symbol
/_.
signal
words
words:
DANGER,
WARNING,
and CAUTION.
These
are used with the safety-alert
symbol. DANGER
identifies
the most serious hazards which will result in severe personal injury
or death. WARNING
signifies hazards which could result in personal injury or death. CAUTION
is used to identify unsafe practices which may result in minor
erty damage. NOTE is used
result in enhanced
personal injury or product and propto highlight
suggestions
which will
installation,
reliability,
or operation.
for shipping
this warning
result
in personal
Before installing or servicing system, always turn off main
power to system and tag disconnect.
There may be more
than one disconnect switch. Turn off accessory heater power
switch
if applicable.
and serial number are printed on the unit
this information
against shipping papers.
damage
Failure to follow
injury or equipment
Puron (R-410A)
standard
R-22
AND SAFETY
this warning
damage.
systems
systems.
equipment
or components
Ensure service equipment
could
result
in personal
pressures than
R-22
service
on Puron (R-410A)
equipment.
is rated for Puron (R-410A).
on a curb in a downflow
application,
process
and lifting into place. The
the unit to be on the ground.
The unit must be secured
through the bottom
When
screws
installing
before
unit.
See Warning
curb instructions
hurricane
tie downs,
accessory
and into the unit base
the full weight
of six screws
unit properly
near Rigging/Lifting
information
The
contact
distributor
Certificate,
gasketing
tight
and
for more details.
for details
seal.
with instructions
of the
Install
with the roof curb. Improperly
applied
and PE
if required.
roof curb in accordance
for a water
curb, the
of the unit
are required for large
could result in an
with curb (See Fig. 4). Install insulation,
cant strips,
flashing. Ductwork must be attached to curb.
critical
may
to the curb by installing
onto the common
allowing
to rest on the curb. A minimum
base units. Failure to secure
accessory
removal
of the curb flange
large base units
must be installed
unstable
panel
Unit Support
IMPORTANT:
operate at higher
DO NOT
use
material.
rigging
require
Install
HAZARD
packaging
to determine
panels before
For
OPERATION
removing
review "Configuring
Units for Downflow
Discharge"
which method is to be used to remove the downflow
(Professional
Engineering)
ROOF CURB
UNIT
before
If the unit is to be mounted
screws
could
gas
nearest distributor
office if any item is missing. To prevent loss or
damage, leave all parts in original packages until installation.
rails.
Failure to follow
iniury or death.
natural
Manufacturer
is not responsible
for any damage incurred in transit.
Check all items against shipping
list. Immediately
notify the
IMPORTANT:
HAZARD
to
If unit appears to be damaged or is torn loose from its anchorage,
have it examined
by transportation
inspectors
before removal.
Forward
claim
papers
directly
to transportation
company.
Provide
ELECTRICALSHOCK
only
in North
UNIT
Inspect
information.
apply
regions
Check Equipment
IDENTIFY
Canada
CAN/CSA-BI49.1
and .2 Natural
Gas and Propane
Installation
codes, and Canadian Electrical Code CSA C22.1
safety
other
AND INSTALLATION
The unit model number
informative
plate. Check
INSPECT
SHIPMENT
When you see this symbol on the unit and in instructions
or manuals, be alert to the potential for personal injury. Understand
these
discharge
Models with an N in the fifth position of the model number are
dedicated
Low NOx units designed
for California
installations.
These models meet the California
maximum
oxides of nitrogen
(NFGC) NFPA 54/ANSI Z223.1, and the National Electrical Code
(NEC) NFPA 70.
In Canada refer to the current editions of the National Standards of
Recognize
(vertical)
unit
shipped
roofing,
and
to the roof
curb
material
supplied
gasketing
gasketing
is
also can result in
air leaks and poor unit performance.
Curb should be level to within 1/4 in. (6.35 m) (See Fig. 2). This is
necessary
for unit drain to function
properly. Refer to accessory
roof curb installation
instructions
for additional
information
as
required.
CUT
HAZARD
Failure
to follow
When removing
functions
inside
parts and screws.
sharp edges to
handling parts or
this caution
may result in personal
iniury.
access panels or performing
maintenance
your unit, be aware of sharp sheet metal
Although
special care is taken to reduce
a minimum,
be extremely
careful when
reaching into the unit.
INTRODUCTION
The 48XL-A
packaged
unit is a fully self-contained
combination
Category I gas heating/electric
air conditioner
designed for outdoor
installation
(See Fig.
1). Standard
units are shipped
in a
horizontal-discharge
configuration
for installation
on a rooftop, or
on cement
slab (See Fig. 4 for roof
curb dimensions).
MAXIMUM ALLOWABLE
DIFFERENCE
in. (mm)
B
Standard
A-B
B-C
A-C
1/4 (6.35)
1/4 (6.35)
1/4 (6.35)
A07925
Fig.
2 - []nit
Leveling
Tolerances
Installation
on older
Provide
"G" series roof curbs.
Two accessory
kits are available to aid in installing
series unit on an old "G" roof curb.
a new
1. Accessory kit number CPADCURB001A00,
(small
and accessory
kit number
CPADCURB002A00,
"G"
chassis)
(large
chassis)
includes
roof curb adapter and gaskets for the
perimeter
seal
and
duct
openings.
No
additional
modifications
to the curb are required when using this kit.
2. An alternative to the adapter curb is to modify the existing
curb by removing
the outer horizontal
flange
and use
accessory
kit number
CPGSKTKIT001A00
which
includes
spacer blocks (for easy alignment
to existing
curb) and
gaskets for the perimeter seal and duct openings. This kit is
used when existing
curb is modified
by removing
outer
horizontal
flange.
Clearances
The required minimum
service clearances
are shown in Fig. 5 and
6. Adequate
ventilation
and outdoor
air must be provided.
The
outdoor fan draws air through the outdoor coil and discharges it
through the top fan grille. Be sure that the fan discharge does not
recirculate
to the outdoor coil. Do not locate the unit in either a
corner or under an overhead obstruction.
The minimum
clearance
under
a partial
overhang
(such as a normal
house
overhang)
is 48
in. (1219 mm) above the unit top. The maximum
horizontal
extension of a partial overhang must not exceed 48 in. (1219 mm).
IMPORTANT:
at either
Do not restrict
the
detrimental
outdoor-air
outdoor
airflow.
or
fan
inlet
to compressor
An air restriction
discharge
may
ice, or snow from
an overhang
or flood the unit. Do not install the unit on
combustible
materials.
Slab-mounted
units
should be at least 4 in. (102 mm) above the highest expected
and runoff levels. Do not use unit if it has been under water.
UNIT/STRUCTURAL
Failure
to follow
DAMAGE
this caution
HAZARD
damage.
Rigging
--==
Illll
/
il \i
,ill
,HI
/t I
I_ I
Hfl'
1
Ill,
IIHI
t ,4
@..G
__
)PTIONAL jl II
SUPPLY j_,
AIR
11II
"%\
./-L. /
x ,
W2,_I
I! _,L_s
'j
)
/z
/j
working
with
this equipment,
be hazardous
(roofs,
and ground
observe
of the lifter to the load,
lifts to adapt to various
,,
II
II
for
elevated
support
precautions
staff
in the
in any special
3. Condition
of the load as it relates
kit, such as balance,
all applicable
operation
temperature,
safety
should
include,
and adjustment
but
of the
sizes or kinds of loads.
2. Instruction
Follow
(50.atom)
can
location
qualified crane operators
and install this equipment.
1. Application
HH
i
installation
Training for operators of the lifting equipment
not be limited to, the following:
II,
II,
_"L--_/
of this equipment
to the
literature,
on tags, stickers, and labels attached to the equipment,
and any other safety precautions
that might apply.
II II
t
]
handling
Only trained,
should handle
When
i--"Y_"_-_-
and
many reasons due
structures, etc.).
Ensure there is sufficient clearance for saw blade when cutting
the outer horizontal
flange of the roof curb so there is no
damage to the roof or flashing.
._5_--X
water
Rig and Place Unit
may result in property
,_,_
/_,Ir/OPTIONA
illlt RETURN
AIR
IBR
be
life.
Do not place the unit where water,
or roof will damage
carpeting
or other
the
codes.
or precaution.
to operation
of the lifting
etc.
Wear safety
shoes
and work
gloves.
-
Inspection
EVAR COIL
COND. COIL
Prior
A07926
Fig. 3 - Slab Mounting
SLAB
Detail
MOUNT
Place the unit on a solid, level concrete
in. (102
mm) thick
with
pad that is a minimum
2 in. (51 mm)
above
grade.
The
of 4
slab
to initial use, and at monthly
clevis pins,
and
damage,
evidence
Particular
attention
intervals,
all rigging
shackles,
straps should be visually
inspected
for any
of wear, structural
deformation,
or cracks.
should be paid to excessive
wear at hoist
hooking points and load support areas. Materials showing any kind
of wear in these areas must not be used and should be discarded.
should extend approximately
2 in. (51 mm) beyond the casing on
all 4 sides of the unit (See Fig. 3). Do not secure the unit to the slab
except when required by local codes.
UNIT
FALLING
Failure to follow
iniury or death.
Never stand beneath
PROPERTY
Failure
to
iniury/death
When
straps
HAZARD
this warning
rigged
DAMAGE
result
in personal
units or lift over people.
HAZARD
follow
this warning
or property damage.
are taut, the clevis
in. (914 mm) above
could
could
should
the unit top cover.
result
in personal
be a minimum
of 36
HVAC
base
HVAC
unit
rails
unit
Y
basepan
/
_
/
Dashed
lines
location
for large
show
cross
basepan
support
units
G
Sealing
Gasket
Roofcurb
A
Anchor
screw
Flashing
/
_Wood
nailer*
field
/
Roofcurb*
Insulation
/(field
Roofing
supplied)
material
SMALL/COMMON
'Provided
A09413
CURB
with roofcurb
A09090
ROOF CURB DETAIL
/
SMALL
BASE
UNIT
./
LARGE
BASE
UNIT
E
UNIT PLACEMENT
ON
COMMON CURB
A09094
SMALL OR LARGE BASE UNIT
LARGE CURB
A09414
UNIT
SIZE
CATALOG
NUMBER
CPRFCURB011AOO
A
IN,
(mm)
11
(279)
14
(356)
Small
or
Large
CPRFCURB01OAOO
CPRFCURB012AOO
11
(279)
CPRFCURB013A00
14
(356)
Large
B (small / common
base)
IN, (mm)*
B (large
base)
IN, (mm)*
C
IN,
(mm)
14 (356)
16
(406)
1. Roof curb must be set up for unit being installed,
steel.
4. Attach ductwork to curb (flanges of duct rest on curb).
panels: 1-in. (25.4 mm) thick fiberglass
1 lb. density.
Fig.
47.8
(1214)
F
IN,
(mm)
4 - Roof
Curb
Dimensions
G
IN. (mm)
H
IN. (mm)
30.6 (778)
46.1 (1170)
2.7 (69)
43.9
(1116)
14 (356)
2. Seal strip must be applied, as required, to unit being installed.
5. Insulated
E
IN,
(mm)
32.4
(822)
10 (254)
NOTES:
3. Roof curb is made of 1d-gauge
D
IN,
(mm)
42.2 (1072)
c >
......
£3£
3
.......
3
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c_7
2
_
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....
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7
7
o
_2 X
r
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<:>
Lr>
_
_:
7
Ill _
xoo
_=
iiiii_
. !i_
.................
" ' LiT_t'!
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S
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:
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A09521
Fig. 5 - 48XL-A24-30
Unit Dimensions
u_
o
c>
ill
iiiil
........
'_i'_i'_i__i_i_i_
<_°i
i
il
L_
7
o=:E:
o_
iii
i
< ..
Lc;
................
........................
._ _,_
o
A09522
Fig. 6 - 48XL-A36-60
Unit Dimensions
Table
UNIT
SIZE
NOMINAL
COOLING
NOMINAL
HEATING
SHIPPING
WEIGHT
CAPACITY
CAPACITY
(ton)
(Btu)
(Ib)
(kg)
1 - Physical
Data - Unit 48XL-A
24040
24060
30040
30060
36060
36090
42060
42090
2
2
2-1/2
2-1/2
3
3
3-1/2
3-1/2
40,000
60,000
60,000
90,000
60,000
90,000
40,000
60,000
426
431
433
438
522
530
544
552
193
196
196
199
237
240
247
250
9.5
4.3
9.5
4.3
13.8
6.3
13.8
6.3
COMPRESSORS
2-Stage
Scroll
Quantity
REFRIGERANT:
Quantity (Ib)
PURON
(R-410A)
(kg)
REFRIGERANT
METERING
Face Area
OUTDOOR
Nominal
(sq if)
FAN
Cfm
Diameter
(in.)
(mm)
Hp (Rpm)
INDOOR
11.3
5.1
11.3
5.1
2Ton
2Ton
3Ton
3Ton
3Ton
3Ton
4Ton
4Ton
2...21
2...21
2...21
2...21
2...21
2...21
2...21
2...21
13.6
13.6
15.3
15.3
17.5
17.5
19.4
19.4
2700
22
2700
22
2700
22
2700
22
2800
22
2800
22
2800
22
2800
22
559
559
559
559
559
559
559
559
1/8 (825)
1/8 (825)
1/8 (825)
1/8 (825)
1/8 (825)
1/8 (825)
1/8 (825)
1/8 (825)
3...17
3...17
3...17
3...17
3...17
3...17
3...17
3...17
3.7
3.7
3.7
3.7
4.7
4.7
4.7
4.7
TXV
COIL
Rows...Fins/in.
Motor
10.1
4.6
DEVICE
Size
OUTDOOR
10.1
4.6
COIL
Rows...Fins/in.
Face Area
INDOOR
(sq if)
FAN
Nominal
Airflow
(Cfm)
Comfort
Variable
based on Comfort
Rol! back (see User Interface
instructions
for more information).
Efficiency
700
700
875
875
1050
1050
1225
1225
Max
800
800
1000
1000
1200
1200
1400
1400
475
727
475
727
745
875
745
875
844
1120
844
1120
1120
1410
1120
1410
10x10
254x254
10x10
254x254
10x10
254x254
11x10
279x254
11x10
279x254
11x10
279x254
11x10
279x254
1/2
1/2
1/2
1/2
3/4
3/4
3/4
3/4
2...44
2...55
3...44
3...55
2...44
2...55
3...44
3...55
3...44
3...55
3...38
3...53
3...44
3...55
3...38
3...53
Furnace
(gas
ht.) airflow-Low
Furnace
(gas
ht.) airflow-High
Size
Stage
Stage
(in.)
(ram)
Motor
HP
FURNACE
Burner
SECTION*
Orifice
No. (Qty...Drill
Natural Gas (Factory
Propane Gas
HIGH-PRESSURE
Cut-out
Size)
installed)
SWITCH
(psig)
670 -+10
Reset (Auto)
470 -+25
HIGH-PRESSURE
(Compressor
SWITCH
2 (psig)
Solenoid)
565 -+ 15
Cut-out
Reset (Auto)
455 -+ 15
LOSS-OF-CHARGE
LOW- PRESSURE
(Liquid
Cut-out
/
SWITCH
Line) (psig)
23 -+5
Reset (auto)
RETURN-AIR
(in.)
55 -+5
FILTERS
Throwawayt
20x24x1
(mm)
Continued
10x10
254x254
508x610x25
next
page.
24x30x1
610x762x25
24x36x1
610x914x25
1/
Table 1--Physical
UNIT SIZE
NOMINAL
COOLING
CAPACITY
(ton)
NOMINAL
HEATING
CAPACITY
(Btu)
SHIPPING
WEIGHT
(Ib)
(kg)
Data (Con't) - Unit 48XL-A
48090
48115
48130
60090
60115
4
4
4
5
5
5
90,000
115,000
130,000
115,000
130,000
558
253
558
253
558
253
609
276
609
276
609
276
COMPRESSORS
90,000
2-Stage
Quantity
Scroll
1
REFRIGERANT:
Quantity
PURON
(R-410A)
(Ib)
(kg)
REFRIGERANT
METERING
15.3
15.3
15.3
15.8
15.8
15.8
6.9
6.9
6.9
7.2
7.2
7.2
DEVICE
TXV
Size
4Ton
4Ton
4Ton
5Ton
5Ton
5Ton
Cfrn
3300
3300
3300
3300
3300
3300
(in.)
(mm)
Hp (Rpm)
22
559
22
559
22
559
22
559
22
559
22
559
1/4 (1100)
1/4 (1100)
1/4 (1100)
1/3 (1110)
1/3 (1110)
1/3 (1110)
2...21
2...21
2...21
2...21
2...21
2...21
19.4
19.4
19.4
23.3
23.3
23.3
3...17
5.7
3...17
5.7
3...17
5.7
4...17
5.7
4...17
5.7
4...17
5.7
OUTDOOR
FAN
Norninal
Diameter
Motor
60130
OUTDOOR
COIL
Rows...Fins/in.
Face Area
INDOOR
(sq ft)
COIL
Rows...Fins/in.
Face Area
INDOOR
(sq ft)
FAN
Norninal
Airflow
(Cfrn)
Comfort
Variable
based
on Comforf
Rollback(see
Userlnterfaceinstructionsfor
moreinformation).
Efficiency
1400
1400
1400
1750
1750
1750
Max
1600
1600
1600
2000
2000
2000
815
1215
1255
845
1215
1255
1385
1885
1875
1300
1910
1920
(in.)
11x10
11x10
11x10
11x10
11x10
11x10
(mm)
279x254
279x254
279x254
279x254
279x254
279x254
Furnace
(gas ht.) airflow-Low
Furnace
(gas ht.) airflow-High
Size
Motor
Stage
Stage
HP (RPM)
FURNACE
Gas
HIGH-PRESSURE
Cut-out
Reset
SWITCH
1
1
3...38
3...33
3...31
3...38
3...33
3...31
3...53
3...51
3...49
3...53
3...51
3...49
470 ± 25
2 (psig)
565 ± 15
455 ± 15
(Auto)
/
SWITCH
Line) (psig)
23 ± 5
55 ± 5
Reset (auto)
RETURN-AIR
(ram)
1
670 ± 10
LOSS-OF-CHARGE
LOW- PRESSURE
(Liquid
Cut-out
3/4
(psig)
(Auto)
HIGH-PRESSURE
SWITCH
(Cornpressor
Solenoid)
Cut-out
Reset
3/4
SECTION*
Burner Orifice No. (Qty...Drill
Size)
Natural Gas (Factory Installed)
Propane
3/4
FILTERS
Throwawayt
(in.)
24x36x1
610x914x25
*Based on altitude of 0 to 2000 ft (0 to 610 m).
1-Recommended filter sizes for field-installed
air filter grilles mounted on the wall or ceiling of the conditioned structure. Required filter sizes shown are based on
the larger of the ARI (Air Conditioning and Refrigeration Institute) rated cooling airflow or the heating airflow velocity of 300 ft/minute for throwaway type or 450
ft/minute for high-capacity
type. Air filter pressure drop for non-standard
filters must not exceed 0.08 IN. W.C.
CAUTION - NOTICE TO RIGGERS
PRUDENCE - AViS AUX MANIPULATEUR
ACCESS
PANELS
MUST
BE iN PLACE
PANNEAUX
D'ACCES
DOlT ETRE EN PLACE
WHEN
POUR
RIGGING.
MANiPULATiON.
Use top skid as spreader bar. / Utiliser la palette du haut comme barre de r6partition
DUCTS
jJ
.....
MiNiMUM HEIGHT: 36" (9!4.4 turn)
HAUTEUR MINIMUM
J
SEAL
UNIT HEIGHT
HAUTEUR D'UNITE
STRIP
MUST
PLACE
BEFORE
UNIT ON ROOF
BE
IN
PLACING
CURB
BANDE
SCELLANT
BOIT
ETRE
EN PL,_C E AVANT
DE PLACER
L:U NtTE SUR LA BASE
DE TOtT
j-
DETAIL A
VOIR DIETAIL A
SEE DETAIL A
VOIR DETAIL A
5ocY5o2286 2,0
A09079
CABINET
MODEL
Small
48XL-A24
Ib
426
kg
193
Small
48XL-A30
433
196
48XL-A36
48XL-A42
522
544
237
247
48XL-A48
558
253
48XL-A60
609
276
Large
NOTE: See dimensional
drawing for corner weight distribution.
Fig. 7 - Suggested
Ri_in_/Liftin_
RIGGING WEIGHT
of Unit (See Fi_. 7)
Rigging
Select and Install
Ductwork
The design
and installation
of the duct system
must be
accordance
with the standards
of the NFPA for installation
UNIT
FALLING
non-residence
type air conditioning
NFPA 90A or residence type, NFPA
ordinances.
HAZARD
Failure to follow
iniury or death.
this warning
could
result
in personal
Select and size ductwork,
according
Large base units must be secured to common
curb before
allowing full weight of unit to rest on curb. Install screws
through curb into unit base rails while rigging crane is still
supporting
Lifting
Refrigeration,
and Air Conditioning
skid on the unit for use as a spreader
ELECTRICAL
to protect
Failure to follow
iniury or death.
the unit from damage.
2. Attach shackles, clevis pins, and straps to the base rails of
the unit. Be sure materials are rated to hold the weight of the
unit (See Fig. 7).
of sufficient
strength
straps. Adjust the clevis location
with the ground.
After the unit is placed
the top skid.
and return
Society
Engineers)
on the supply-
of
air grilles
Heating,
recommendations.
and return-air
openings
bar
to prevent the rigging straps from damaging the unit. If the
skid is not available, use a spreader bar of sufficient length
a clevis
registers,
(American
systems,
codes and
in base rails as shown in Fig. 5 and 6.
1. Leave top shipping
3. Attach
supply-air
ASHRAE
The unit has duct flanges
on the side of the unit.
unit.
holes are provided
to
and ventilating
90B and/or local
in
of
in the middle
of the
to ensure unit is lifted level
on the roof curb or mounting
pad, remove
OPERATION
this
HAZARD
warning
could
result
in personal
For vertical supply and return units, tools or parts could
drop into ductwork,
therefore, install a 90 degree turn in the
return ductwork between the unit and the conditioned
space.
If a 90 degree elbow cannot be installed,
then a grille of
sufficient strength and density should be installed to prevent
objects from falling into the conditioned
space. Units with
electric heaters require 90 degree elbow in supply duct.
When
designing
and installing
ductwork,
consider
the following:
1. All units should have field-supplied
filters or accessory
filter rack installed
in the return-air
side of the unit.
Recommended
sizes for filters are shown in Table 1.
2. Avoid abrupt duct size increases and reductions. Abrupt
change in duct size adversely affects air performance.
IMPORTANT:
Use flexible connectors between ductwork and
unit to prevent transmission of vibration. Use suitable gaskets to
ensure weather tight and airtight seal. When electric heat is
installed, use fireproof canvas (or similar heat resistant material)
connector between ductwork and unit discharge connection. If
flexible duct is used, insert a sheet metal sleeve inside duct. Heat
resistant duct connector (or sheet metal sleeve) must extend 24-in.
(610 mm) from electric heater element.
5. Drill two holes diagonally opposed, of suitable size to accommodate jigsaw or reciprocating saw. (See Fig. 9.)
NOTE:
On large chassis units remove sheet metal shields on
panels by using a screw driver to shear off retainers and discard.
[]NIT
ELECTRICALSHOCK
for Downflow
(Vertical)
PROPERTY DAMAGE HAZARD
Failure to follow this caution may result in property damage.
Collect ALL screws that were removed. Do not leave screws
on rooftop as permanent damage to the roof may occur.
Discharge
6. Using a suitable saw cut along "V" groove and remove duct
panels.
7. Tip unit back onto its base and replace duct covers.
8. After completing unit conversion, perform all safety checks
and power up unit.
HAZARD
Failure to follow this warning
injury or death.
HAZARD
When cutting duct panels, do not contact or damage any
internal components (heat exchanger, electric heat). Do not
use a saw blade that protrudes more than 1 in. (25 mm) into
unit.
6. Read unit rating plate for any required clearances around
ductwork.
Units
DAMAGE
Failure to follow this caution may result in damage to the
unit being installed.
3. Size ductwork for max possible air flow (See Table 1).
4. Seal, insulate, and weatherproof all external ductwork. Seal,
insulate and cover with a vapor barrier all ductwork passing
through conditioned spaces. Follow latest Sheet Metal and
Air Conditioning
Contractors
National
Association
(SMACNA) and Air Conditioning Contractors Association
(ACCA) minimum installation standards for residential
heating and air conditioning systems.
5. Secure all ducts to building structure. Flash, weatherproof,
and vibration-isolate
duct openings in wall or roof
according to good construction practices.
Configuring
COMPONENT
could result in personal
Before installing or servicing system, always turn off main
power to system and install lockout tag. There may be
more than one disconnect switch.
1. Open all electrical disconnects before starting any service
work.
2. Remove horizontal (metal) duct covers to access vertical
(downflow) discharge duct knockouts in unit basepan. (See
Fig. 8.)
3. []sing Fig. 9 as a guide, proceed to cut out the downflow
duct panels.
4. Drill 1/2 in. (13 mm) diameter or larger holes in all four
corners of duct panels.
NOTE:
On large chassis units remove sheet metal shields on
panels by using a screw driver to shear off retainers and discard.
Horizontal Duct Covers
5. On left and side supply duct opening side with keyhole or
single bladed hacksaw cut out panel along "V" groove.
6. On right side, with keyhole or single blade hacksaw, with
teeth facing up and starting from the front and moving to
the rear, cut along "V" groove.
7. Now with three sides cut, flex panel up and down to remove.
A09076
Basepan
Downflow
i
t
(Vertical)
Basepan
Downflow
Supply
Knockout
8. Replace side access panel and duct cover.
Return
Knockout
9. After completing unit conversion, perform all safety checks
and power up unit.
Alternate Method
1. Open all electrical disconnects and install lockout tag before
starting any service work.
A09077
Fig. 8 - Supply
2. Remove horizontal (metal) ductcovers to access vertical
(downflow) discharge duct knockouts in unit basepan. (See
Fig. 8.)
3. Leave top shipping crate on unit during this method.
4. Tip unit over on the front side (access panels) so the bottom
of the base pan is accessible.
10
and Return
Duct
Opening
6. Adequately
-O
_5
,,,,_, Cut along
'V" grooves
I
of Sheet
7. Flash,
I
Return Duct Panels
Flex up & down
to remove
v
_-"-..Jl.,
grooves
I
I E I X I
I
"141
'VI .li7
,ac,ng
___
'_
.... C)'
--' _Drill
I
for Condensate
NOTE:
Ensure
3 places
can be drained
the unit,
condensate
at outlet
undersize
Method)
A09420
cooling
Duct Knockouts
The design
and installation
of the duct system
must be
accordance with the standards
of the NFPA for installation
air conditioning
90A or residence-type,
ordinances.
Adhere to the following
installing the duct system:
NFPA
and ventilating
90B;
and/or
1. Units
are shipped
for
removing duct covers).
when
horizontal
systems,
local
codes
selecting,
duct
sizing,
installation
Engineers
and airtight
draining
the condensate
water away from
or is field-supplied.
Make sure that the
3/4 -in. PVC or field-supplied
3/4 -in. copper
pipe
season
start-up.
Flue Hood
and
MONOXIDE
POISONING
and
(by
The venting system is designed to ensure proper venting.
The flue hood assembly
must be installed as indicated in
this section of the unit installation instructions.
Install
the flue hood
1. This
and
the
warning
could
result
in personal
as follows:
installation
with
54/ANSI
B149.2)
plumbing
codes.
seal.
this
HAZARD
Failure to follow
iniury or death.
(ASHRAE)
4. All units must have field-supplied
filters or accessory
rack
installed
in
the return-air
side
of the
Recommended
sizes for filters are shown in Table 1.
away from the unit.
requires
NFPA
3. Use flexible transition
between rigid ductwork
and unit to
prevent transmission
of vibration.
The transition
may be
screwed or bolted to duct flanges. Use suitaMe gaskets to
ensure weather-tight
installations
in
of
2. Select
and size
ductwork,
supply-air
registers,
and
return-air
grilles according to American Society of Heating,
Refrigeration
and Air Conditioning
recommendations.
onto the roof in rooftop
end of the 2 -in. (51 mm) trap (See Fig. 10). Do not
the tube. Pitch the drain tube downward
at a slope of at
CARBON
criteria
comply
least 1 in. for every 10 ft. (3 m) of horizontal
run. Be sure to check
the drain trough for leaks. Prime the trap at the beginning
of the
Install
nonresidence-type
directly
as an accessory
field-supplied
Panels from
of Base (Alternate
Discharge
methods
outlet of the trap is at least 1 in. (25 mm) lower than the unit
drain-pan
condensate
connection
to prevent
the pan from
overflowing.
Connect
a drain
tube
using
a minimum
of
Cut along
"V" grooves
i
(Downflow)
disposal
and practices.
install
a field-supplied
2-in.
(51 mm) trap at the
connection
to ensure proper drainage. Condensate
trap
is available
Fig. 9 - Vertical
in
and good
the outlet of the trap is at least 1 in. (25 mm) lower than the
drain-pan
condensate
connection
to prevent
the pan from
overflowing.
Prime the trap with water. When using a gravel apron,
Drill 2 places
Duct
all openings
Disposal
restrictions,
If the installation
& Supply
isolate
with local codes
that condensate-water
make sure it slopes
Underside
National
(where
permitted)
or onto a gravel
apron
in ground
level
installations.
Install a field-supplied
condensate
trap at end of
condensate
connection
to ensure proper drainage. Make sure that
Supply Duct Panels
Return
and vibration
in accordance
Provide
water
up
,I
i
Contractors
The units dispose of condensate
through a 3/4 -in. NPT female
fitting that exits on the compressor
end of the unit. Condensate
Cut along"V"
_ r_, I A I _. I _ I i.J _ grooveteeth
I
structure
practices.
with local codes,
I
located
structure.
weatherproof,
building
building
cota,oo0_
I
li I
all ductwork
Metal and Air Conditioning
building
.....
and weatherproof
Association
(SMACNA)
and Air Conditioning
Contractors
of America
(ACCA)
minimum
installation
standards
for
heating and air conditioning
systems. Secure all ducts to
Drill
places
I
insulate
outdoors.
Insulate
ducts passing
through
unconditioned
space, and use vapor barrier in accordance
with latest issue
must
National
conform
Fuel
with
Gas
local
Code
building
(NFGC),
codes
NFPA
Z223.1
(in Canada,
CAN/CSA
B149.1,
and
or latest revision.
Refer to provincial
and local
or wastewater
codes and other applicable
local
filter
unit.
2. Remove flue hood from shipping location (inside the return
section of the blower compartment-See
Fig. 8). Remove the
return duct cover to locate the flue hood. Remove
two
5. Size all ductwork
for maximum
required
airflow (either
heating or cooling)
for unit being installed.
Avoid abrupt
duct size increases or decreases
or performance
may be
affected.
screws on flue panel. Place flue hood assembly
over flue
panel. Orient screw holes in flue hood with holes in the flue
panel.
11
3.Secure
fluehood
to flue
the top and the bottom
panel by inserting
a single
screw on
6. Install ground-joint
union close to heating section
unit manual shutoff
and external manual main
valve.
of the hood.
TRAP
7. Pressure
test all gas piping
national
to unit.
l-in. (25 ram) rain.
plumbing
in accordance
and gas codes
NOTE:
Pressure test the gas supply
piping is connected
to the gas valve.
ram)
disconnected
rain.
systems
from
gas supply
A09052
Fig. 10 - Condensate
Install
The
Trap
The
the gas valve
when test pressure
piping
unit
system
heating
system
by
slightly
opening
nmst
external
supply
the testing
main
the ground-joint
and
piping
of the piping
test the
equal to or less than 0.5 psig.
be isolated
Gas Piping
gas
local
system after the gas supply
The supply piping nmst be
during
at pressures
the
with
connecting
is in excess of 0.5 psig. Pressure
section
closing
before
between
shut off
from
manual
the gas piping
shutoff
valve
and
union.
IN
pipe
enters
the
provided.
The gas connection
FPT gas inlet on the gas valve.
unit
through
the
to the unit is made
access
hole
to the l/2-in.
Install a gas supply line that runs to the heating section. Refer to
Table 2 and the current edition of NFGC in the U.S. and the current
NSCNGPIC
in
Canada.
Do
not
use
cast-iron
pipe.
It
is
recommended
that a black iron pipe is used. Check the local utility
for recommendations
concerning
existing lines. Size gas supply
piping for 0.5 IN. W.C. maximum
pressure drop. Never use pipe
smaller than the l/2-in. FPT gas inlet on the unit gas valve.
TEE
For natural gas @plications,
the gas pressure at unit gas connection
nmst not be less than 4.0 IN. W.C. or greater than 13 IN. W.C.
while the unit is operating.
For
propane conversion kit instructions.
propane
@plications,
refer
to
NIPPLE
A l/8-in. (3.2 ram) NPT plugged tapping, accessible for test gauge
connection,
must be installed
immediately
upstream
of the gas
supply connection
equipment shutoff
When
installing
to the gas valve
valve.
the gas supply
and downstream
line, observe
CAP
of manual
local codes pertaining
C99020
to gas pipe installations.
Refer to the NFPA
54/ANSI
Z223.1-2006
Fig. 11 - Sediment
(in Canada, CAN/CSA
B149.1).
NOTE:
In the state of Massachusetts:
1. Gas supply connections
plumber or gas fitter.
2. When
flexible
lever
be performed
by a licensed
FIRE
connectors
shall not exceed
3. When
MUST
are used,
the maximum
type manual
are used, they shall be T-handle
4. The use of copper
tubing
equipment
shutoff
is NOT
valves
• Connect
pertinent
of local building
@proved
codes,
adhere
connect
available
thermal
to heating
damage.
Support
system
all piping
against
physical
with @propriate
soap solution
• Use proper
• If a flexible
and
sparingly
and only to
pipe connections.
Use
5. Install
an accessible,
gas supply
pipe within
external,
manual
main
shutoff
for the detection
is required
or allowed
by authority
black iron pipe shall be installed
outside
furnace
serviced
a nfininmm
allow a flexible
connector,
Do not use a connector
another
been completed.
always use a new
which has previously
gas appliance.
gas
leaks
at
the
field-installed
gas lines after all piping connections
Use a commercially
availaMe
made specifically
for the detection
of leaks
specified by local codes and/or regulations).
valve in
section.
12
at
of 2 in. (51 ram)
casing.
8. Check
for
factory-installed
to heating section (See
as a trap for dirt and
6 fl (1.8 m) of heating
connector
gas valve and extend
connector.
only pipe dope that is resistant
to action of liquefied
petroleum
gases as specified by local and/or national codes.
Never use Teflon t@e.
trap in riser leading
drip leg functions
made specifically
furnace
• If codes
4. Install sediment
Fig. 11). This
condensate.
Never
length of pipe to avoid stress on gas control
having jurisdiction,
straps,
hangers, etc. Use a nfininmm of one hanger every 6 ft. (1.8
m).
For
pipe
sizes
larger
than
1/2
in.,
follow
recommendations
of national codes.
3. Apply joint compound
(pipe dope)
male threads of joint when making
chamber.
manifold.
and to meter.
of piping
a gas line into a combustion
of leaks to check all connections.
15 ft (4.6 m) of length to prevent traps.
runs downward
to risers. Use risers to
section
all segments
to avoid
test for gas leaks with an open flame. Use a commercially
to the following
1. Avoid low spots in long runs of pipe. Grade all pipe 1/4 in.
(6.35 ram) for every
Grade all horizontal
wrench
gas controls.
• Never purge
recommendations:
2. Protect
gas pipe to unit using a backup
damaging
by the state of Massachusetts.
In the absence
HAZARD
Failure to follow this warning could result in fire, explosion,
personal iniury, death and/or property damage.
valves.
for gas piping
OR EXPLOSION
length
36 in. (915 ram).
handle
Trap
and
have
soap solution
(or method
Table
2- Maximum
Gas
NOMINAL
IRON PIPE
SIZE (IN.)
INTERNAL
DIAMETER
Flow Capacity*
10
20
30
40
50
60
(IN.)
(3.0)
(6.1)
(9.1)
(12.1)
(15.2)
(18.3)
.622
LENGTH OF PIPE ft (m)'{"
70
80
90
(21.3)
(24.4)
100
(27.4)
125
(30.5)
150
(38.1)
175
(45.7)
200
(53.3)
(61.0)
--
--
3/4
1
.824
1.049
175
360
680
120
250
465
97
200
375
82
170
320
73
151
285
66
138
260
61
125
240
57
118
220
53
110
205
50
103
195
44
93
175
40
84
160
77
145
72
135
1 - 1/4
1 - 1/2
1.380
1.610
1400
2100
950
1460
770
1180
600
990
580
900
530
810
490
750
460
690
430
650
400
620
360
550
325
500
300
460
280
430
1/2
*Capacity of pipe in cu ft of gas per hr for gas pressure of 0.5 psig or less. Pressure drop of 0.5-IN.
NFPA 54/ANSI Z223,1.
1- This length includes an ordinary
Install
Electrical
number
W.C. (based on a 0.60 specific gravity gas). Refer to Table,
of fittings.
Connections
conduit termination
at the duct panel must be watertight.
Run the
high-voltage
leads through
the power
entry knockout
on the
power entry side panel. See Fig. 5 and 6 for location and size. For
single-phase
ELECTRICALSHOCK
HAZARD
Connect
Failure to follow
iniury or death.
this warning
could
result
in personal
The unit cabinet must have an uninterrupted,
unbroken
electrical ground. This ground may consist of an electrical
wire connected
to the unit ground screw in the control
compartment,
or conduit
approved
for electrical
ground
when installed in accordance with NEC, NFPA 70 National
Fire Protection
Association
(latest edition)
(in Canada,
Canadian Electrical
Code CSA C22.1) and local electrical
codes.
HIGH-VOLTAGE
disconnect
the high-voltage
on the unit over
UNIT
COMPONENT
ROUTING
CONTROL
WIRES
DAMAGE
1. Make
all electrical
NFPA
70
governing
connections
C22.1
unit
primary
section.
transformer
accessory
operation.
as described
and
only
copper
Code
conductor
field-supplied
electrical
NOT USE ALUMINUM
3. Be sure
operating
not
through
etc.
ROUTING
Use
only
voltage
damage
internal
any panel to mount
POWER
copper
leads should
LEADS
wire
with NEC
switch
between
in Special
Procedures
for 208-v
Operation
INSTALLATION
Air Temperature
Sensor
OPERATION
The OAT input is used
system
level functions
and unit. DO
(OAT)
HAZARD
components
There
electrical
hardware,
no
drilling
conduit,
and unit.
The
high
Mis-wiring
control
reading
normal
INTO UNIT
disconnect
is no polarity
NOTE:
Infinity
when
to supply outdoor
temperature
and for temperature
display
data for
on User
Interface (UI). Using two wires of the field-supplied
thermostat
wire cable, wire the ends of the two black OAT pigtails. Wire the
opposite ends of these two wires to the OAT provided with the UI.
wires.
between
system
For detailed
mounting
instructions
for the OAT sensor,
please refer installation instructions shipped with the OAT.
Part 1 and applicable
for connections
be in a conduit
for complete
The installation of an outdoor air temperature
sensor (OAT)
using the Infinity control board OAT terminals is required.
Many
Infinity
features
(auto humidity
control, comfort
rollback, etc.) will be lost if the OAT is not connected.
4. Insulate low-voltage
wires for highest voltage contained
within conduit when low-voltage
control wires are in
5. Do
power
diagram.
disconnect
WIRE.
as high-voltage
24-v
screws.
ACCESSORY
to the
that high-voltage
power
to unit is within
voltage range indicated on unit rating plate.
same conduit
supplies
electrical heater. Transformer
is factory wired
If supply voltage is 208-v, rewire transformer
of transformer
circuit is referenced
to chassis ground through a
printed circuit run at SEC2 and gas valve grounding wire. Check to
be
sure
control
board
is mounted
securely
using
both
A. Outdoor
in damage
in accordance
local codes. Refer to unit wiring
2. Use
to the User
HAZARD
may result
connections
Electrical
connections
guide.
The furnace board is fused by a board-mounted
automotive
fuse
placed in series with transformer SEC1 and R circuit. The C circuit
(latest edition)
and local electrical
codes
such
wiring.
In Canada,
all electrical
must be in accordance
with CSA standard
Canadian
screw on
(See Fig. 13).
on the low voltage
(UI), refer to the UI installation
EQUIPMENT
Failure to follow this caution
unit being installed.
POWER
instruction
factory-installed
abuse
using the ground
switch
The
inlet hole (See Fig. 5 and 6).
Operation
of unit on improper line voltage constitutes
may cause unit damage that could affect warranty.
lead to the chassis
wires.
SCREW
low-voltage
hole provided into unit (See Fig. 5 and 6). Connect
user interface leads to unit control power leads as shown in Fig. 15.
electrical
service
with
a
switch mounted at, or within
may be mounted
TO GROUND
Form a drip-loop
with the control leads before routing them into
the unit. Route the low voltage control leads through grommeted,
for wire sizing.
The field-supplied
LEAD
plate near the inducer
Interface
sight from, the unit. Refer to the unit rating plate, NEC and local
codes for maximum
fuse/circuit
breaker size and minimum
circuit
amps (ampacity)
the ground
including
for 230-v
a separate
disconnect
leads to the black and yellow
GROUND
the control
For detailed
CONNECTIONS
The unit
must
have
field-supplied,
waterproof
units, connect
CONNECTING
will
to be observed.
OAT inputs will not cause
or thermistor.
appear
If the thermistor
at UI.
B.
Humidifier
furnace
correctly
for
is provided
for
Connections
control
board
terminal
low voltage (24-vac)
control
required as UI monitors indoor
13
thermistor
to either
incorrectly,
operation.
The
until they enter the duct panel;
Re-wire
damage
is wired
marked
HUM
of a humidifier.
humidity.
No
humidistat
is
Whencommanded
to operate
humidifier,
theunitcontrol
will
energize
theHUMoutput
toturnhumidifier
onandde-energize
HUMoutputto turnhumidifier
off. WireHUMandCOM
terminals
directly
tohumidifier
asshown
inFig.15.
C. Electronic
Air Cleaner
Electronic
Air Cleaner
terminals
areprovided
on theInfinity
Control
Board
(EAC-IandEAC-2).
Whilethese
terminals
canbe
used
topower
a230VEAC,it isrecommended
thatanyEACbe
installed
pertheEACinstallation
instructions
andconnected
separately
toa standard
115Vor 230Voutletwithanairflow
sensor
tocontrol
operation
oftheEAC.
SPECIAL
PROCEDURES
FOR208-VOPERATION
Besure
unitdisconnect
switch
isopen.
Disconnect
theblack
primary
leadfromthetransformer.
See
unit
wiringlabel(See
Fig.17and18).
Connect
theblack
primary
leadtothetransformer
terminal
labeled
208-v.
INDOOR
THERMOSTAT
RETURN
FROM
POWER
SOURCE----
--
DISCONNECT
_:x..
PER NEC*
GAS LINE
*NEC - NATIONAL
ELECTRICAL
CODE
A09075
Fig. 12 - Typical Installation
GROUNDSCREW
(IN SPLICE BOX)
GROUND
LEAD
SINGLE-PHASE
CONNECTIONS
TO DISCONNECT
PER NEC
L1
_BLKm
-
L2 ........
NOTE:
LEGEND
NEC - National
Z_
Electrical
Use copper wire only.
Code
Field Wiring
Splice Connections
A06299
Fig. 13 - Line Power
14
Connections
HP/AC
BOARD
FURNACE BOARD
AO910S
Fig. 14 - Control
User
interface
Plate
Infinity HP/AC
Board
Infinity Furnace
Board
[
HUM
OAT
.[1
m
1
Outdoor Air Thermistor
(Supplied with IU)
FIELD CONNECTION
REQUIRED
(BLACK WIRES)
B:t:
B2_
OCT
|
|
|
Outdoor Coil Thermistor
FACTORY CONNECTED
I.
m
O
m
Y2
_m
m
m
Y1
m
Wf
m
|
m
LEGEND
Factory Wiring
FACTORY WIRES PROVIDED
FOR FIELD CONNECTION
OF UTILITY CURTAILMENT
C
R
m
A06301
Fig. 15 - Control
Voltage
Wiring
15
Connections
PRE-START-UP
joint
union
until
the odor
be loosened,
combustion
retighten
FIRE,
EXPLOSION,
ENVIRONMENTAL
ELECTRICAL
HAZARD
SHOCK
Failure to follow
this warning
could
iniury or death and/or property damage.
1. Follow
goggles
recognized
safety practices
when checking or servicing
result
not
remove
electrical
sources
compressor
c. Ensure
protective
system.
cover
until
refrigerant
ternfinals.
leak
is
suspected
around
5. Never
attempt
to repair soldered
refrigerant system is under pressure.
6. Do not
contains
7. To remove a component,
proceed as follows:
wear
a. Shut off gas supply
b. Shut off electrical
lockout tag.
protective
all
6. Each
System
with respect
to
(See Fig. 28).
sure that air filter(s)
system
Unit Start-Up
NOTE:
and
is in place.
drain trap is filled with water
loose parts
has
two
Do not loosen
Schrader-type
ports,
one
and Troubleshooting
Always
check
high-
and low-voltage
supply
to the unit
components.
Check the integrity of the plug receptacle
and unit wiring harness prior to assunfing a component
A. LED
LEDs
person information
the unit controls
from system
ports.
connections
failure.
Description
built into Infinity
available
control
concerning
and ECM
at the
system
boards
provide
installer
or service
operation
and/or fault condition
of
motor.
This information
is also
UI in text
with
basic
troubleshooting
d. Cut component
connecting
tubing with tubing
cutter and remove component
from unit.
instructions.
Careful use of information
displayed
need for extensive manual troubleshooting.
e. Carefully
necessary.
Both the furnace and heat pump (HP)/air conditioner
(AC) boards
have an amber LED and a green LED. On the HP/AC board, these
unsweat remaining tubing stubs when
Oil can ignite when exposed to flame.
are located
Use the Start-Up
Checklist supplied
proceed
as follows
to inspect and
at the end of this book and
prepare the unit for initial
start-up:
1. Remove
all access
2. Read and follow
panels.
instructions
on all DANGER,
3. Make
the following
labels
WARNING,
attached
to, or
following
Check
for Refrigerant
Leaks
c. Inspect all field- and factory-wiring
sure that connections
are completed
d. Ensure wires do not touch refrigerant
sheet metal edges.
e. Inspect coil fins. If damaged
handling, carefully straighten
4. Verify the following
tubing
If the gas supply
pipe was not purged
before
of system
see
connecting
status
on the STATUS
LED
using
of short flashes indicates
first digit of code.
of long flashes
second
indicates
on. A long
flashes
the
digit of code.
flash is 1 second
is 0.25 seconds.
last short flash
and first long
6. The LEDs will be off for 2.5 seconds
7. If multiple
Be
that the ground
communications
1. The number
5. The time between
second.
lighting the unit
tasks with the
(ABCD)
as installed in the unit).
at the upper right side,
2. The number
4. The time between
or sharp
connector
the
Oil.
and
conditions:
the unit, it will be full of air. It is recommended
as an indicator
3. A short flash is 0.25 seconds
during shipping and
fins with a fin comb.
a. Make sure gas line is free of air. Before
for the first time, perform the following
gas valve in the OFF position.
is used
Status Codes will be displayed
following
protocol:
section.
connections.
and tight.
reduce
(See Fig. 16 and 19).
a. Inspect for shipping and handling damages, such as
broken lines, loose parts, disconnected
wires, etc.
refrigerant leak. Leak test all refrigerant tubing
connections
using electronic leak detector, or
liquid-soap
solution. If a refrigerant leak is detected,
Conmmnications
will
adjacent to the fuse, above the terminal block. The amber LED is
the System Status LED, labeled STATUS. The green LED, labeled
inspections:
b. Inspect for oil at all refrigerant tubing connections
on unit base. Detecting oil generally indicates a
near the System
(lower right corner of the HP/AC board
On the furnace board, these are located
COMM,
(See Fig. 25.)
CAUTION,
and INFORMATION
shipped with unit.
NOTE:
correctly
fan blade
START-UP
to unit and install
c. Relieve and reclaim all refrigerant
using both high- and low-pressure
then light unit.
low-side
Schrader fitting located on the suction line, and
one high-side
Schrader fitting located on the compressor
discharge line. Be sure that caps on the ports are tight.
to unit.
power
a
odor,
blade is correctly
fan hub is positioned
unit
into
of gas
5. Compressors
are internally spring mounted.
or remove compressor
holddown bolts.
while
goggles
to purge
gas lines
f. Make sure that all tools and nfiscellaneous
have been removed.
compressor
use torch to remove any component.
oil and refrigerant under pressure.
to elapse,
e. Make sure that condensate
to ensure proper drainage.
before
box if
connection
detection
5 nfinutes
housing
d. Make
and tagged.
4. Relieve and recover all refrigerant
from system
touching
or disturbing
anything
inside ternfinal
upon
sure that condenser-fan
motor
ternfinal
are disconnected
purge
positioned
in fan orifice. Top 1/3 of condenser
should be within fan orifice venturi.
in personal
and wear
refrigerant
line be allowed
Never
Immediately
the union. Allow
2. Do not operate compressor
or provide any electric power
to unit unless compressor
ternfinal cover is in place and
secured.
3. Do
chamber.
b. Make
AND
and the supply
of gas is detected.
priority
status
power
up,
are active
before
repeating
concurrently,
code.
the highest
status code is displayed.
B. Control
Start-Up
Troubleshooting
On
codes
flash is 1
green
and
COMM
System
LEDs
will
Communications
be
turned
off
until
successful
system conmmnications
are established
(this should
happen within 10 seconds).
Once conmmnications
with UI are
successful, both COMM LEDs will be lit and held on. At the same
time, amber STATUS LEDs will be lit and held continuously
on
until a request for operating mode is received.
will be on any time unit is in idle mode.
The STATUS
If, at any time, communications
are not successful
exceeding
2 nfinutes,
the Infinity
control
will
16
LED
for a period
only
allow
emergency heating or cooling operation using a common
thermostat and the terminal strip connections on the two control
boards (See Non-Communicating
Emergency Cooling/Heating
Mode) and will display Status Code 16, System Communication
Fault, on amber STATUS LED. No further troubleshooting
information will be available at UI until communications are
re-established.
If either COMM LED does not light within proper time period and
status codes are not displayed;
1. Check system transformer high- and low-voltage
the system is powered.
2. Check ABCD connection on both boards.
to be sure
3. Check fuse on furnace board to be sure it is not blown. If
fuse is open, check system wiring before replacing it to be
sure a short does not cause a failure of replacement fuse.
If COMM LED does not light within proper time period and status
code is displayed:
1. Check system wiring to be sure UI is powered and
connections are made A to A, B to B, etc. and wiring is not
shorted.
Miswiring
or
shorting
of
the
ABCD
communications
wiring
will
not allow successful
communications.
NOTE:
Shorting or miswiring low-voltage system wiring will
not cause damage to unit control or UI but may cause low voltage
fuse to open.
C. Indoor Fan Motor Troubleshooting
The indoor fan is driven by an ECM motor consisting of two parts:
the control module and the motor winding section. Do not assume
motor or module is defective if it will not start. Use the
designed-in LED information aids and follow troubleshooting
steps described below before replacing motor control module or
entire motor. Motor control module is available as a replacement
part.
VERIFY MOTOR WINDING SECTION
ELECTRICALSHOCK
Failure to follow
iniury or death.
operate electric heaters while a fault condition exists. The control
communicates with the motor at least once every five seconds,
even when the motor is idle. If, during operation, the control does
not communicate with the motor for more than 25 seconds, the
motor will shut itself down and wait for communications to be
reestablished.
D. Furnace
Control Troubleshooting
Furnace control faults indicated by flashing codes on the amber
system STATUS LED can be resolved using troubleshooting
information provided below. Codes are listed in order of their
priority, highest to lowest. Though multiple faults can exist at any
time, only the highest priority code will be displayed on STATUS
LED. Clearing the indicated fault when multiple faults exist will
cause the next highest priority Status Code to be flashed. All
existing faults, as well as a fault history, can be viewed at UI.
STATUS CODE CONTINUOUS OFF
Check for 230 VAC at L1 and L2, and 24 VAC at SEC-1 and
SEC-2.
STATUS CODE CONTINUOUS ON
Control has 24 VAC power.
STATUS CODE 11 - NO PREVIOUS CODE
Stored status codes are erased automatically after 72 hours.
STATUS CODE 12 - BLOWER ON AFTER POWER UP
(230 VAC or 24 VAC) Blower runs for 90 seconds if unit is
powered up during a call for heat (R-W/W1 closed) or (R-W/W1
opens) during blower on-delay period.
STATUS CODE 13 - LIMIT CIRCUIT LOCKOUT
Lockout occurs if a limit or flame rollout switch is open longer
than 3 minutes or 10 successive limit trips occurred during high
heat. Control will auto reset after three hours. Refer to status code
33.
STATUS CODE 14 - IGNITION LOCKOUT
Control will auto reset after three hours. Refer to status code 34.
STATUS CODE 15 - BLOWER MOTOR LOCKOUT
Indicates the blower failed to reach 250 RPM or the blower failed
to communicate within 30 seconds after being turned ON in two
successive heating cycles. Control will auto reset after 3 hours.
Refer to status code 41.
HAZARD
this warning
could result in personal
gqHNSA
After disconnecting power from the ECM motor, wait at
least 5 minutes before removing the control section. Internal
capacitors require time to discharge.
Before proceeding to replace a motor control module:
1. Check motor winding section to be sure it is functional.
2. Remove motor control module section and unplug winding
plug. Motor shaft should turn freely, resistance between any
two motor leads should be similar and resistance between
any motor lead and unpainted motor end should exceed
100,000 ohms.
3. Failing any of these tests, entire ECM motor must be
replaced.
i
dm'g
T°
r_avffZl _
D
4. Passing all of the tests, motor control module alone can be
replaced.
MOTOR TURNS SLOWLY
_O
=
RN4
1. Low static pressure loading of blower while access panel is
removed will cause blower to run slowly. Particularly at low
airflow requests. This is normal, do not assume a fault
exists.
2. Recheck airflow and system static pressure using UI service
screens with access panel in place.
NOTE:
Blower motor faults will not cause a lockout of blower
operation. The fan coil control will attempt to run the blower motor
as long as UI maintains a demand for airflow. The control will not
A06026
Fig. 16 - Detail of Furnace
17
Board
z
NP/AC CON[ROL BOARD
:>
88
o
o
%
i-.
_s
%
(ZD
Z
cls
,_3
<
N
<
i
<:
<0
<9
z
4
A09080
Fig. 17 - Wiring
Schematic-48XL-A
Single
Phase
18
Gas Inputs
040, 060, 090 kBtu/hr
_
FURNACECONTROL BOAR1)
z
>
w
z
Lxa
z
z
z
0
2
<
N
=<
i
co
<
w
w
z
_c
A09081
Fig. 18 - Wiring
Schematic-48XL-A
Single Phase
19
Gas Inputs
115, 130 kBtu/hr
?f,?o
@
O
D
O
O
0
0
[] []
O0
0
1
O
O0
O0
0
0
r-q
0
m
m
UTILITY
RELAY
*
Liquid
Line
Solenoid
OPEN RELAY
* SUPPLIED
BY UTILITY PROVIDER
A05247
Fig. 19 - 2-Stage
STATUS
Control
CODE 21 - GAS HEATING
will NOT
defective
control
STATUS
SIGNAL
Flame
auto reset.
22
while
until fault is cleared.
valve.
STATUS
Check
closed.
Check
for mis-wired
for short circuit
Check
25
pressure
SWITCH
tubing
voltage
INVALID
will run
gas
FUSE
stuck
IS OPEN
wiring.
SELECTION
OR
is missing or incorrect.
If code
control
is defaulting
to model
STATUS CODE 31, 32 - PRESSURE
NOT CLOSE OR REOPENED
may be defective.
switch
(24VAC)
MODEL
selection stored in memory. Check for proper
and resistance values per wiring diagram.
relay
model
SWITCH
If open
longer
plug number
OR RELAY
DID
than five minutes,
inducer shuts off for 15 minutes before retry. If open during blower
on-delay
period, blower
will come on for the selected blower
off-delay.
Check for excessive
wind, restricted
inducer motor, defective
pressure switch, lower
(230VAC),
obstructed
vent, defective
inducer voltage
inadequate
combustion
air supply, disconnected
or
pressure tubing,
or low inlet gas pressure (if LGPS
used).
STATUS
CODE 33 - LIMIT
Indicates
a limit or flame
Board
shuts off. Check for loose blower wheel, restricted vent, excessive
wind, dirty filter or restricted
duct system, defective
switch or
or inadequate
Control
CIRCUIT
switch
FAULT
is open.
Blower
will run
for 4 minutes or until open switch remakes, whichever is longer. If
open longer than 3 minutes, code changes to lockout 13. If open
less than 3 minutes status code 33 continues to flash until blower
air supply
PROVING
will try three more times before
(flame
roll-out
FAILURE
lockout
signal lost during blower on-delay
period,
the selected blower off-delay.
Check for
14 occurs. If flame
blower will come on for
oxide buildup on flame
sensor (clean with fine steel wool), proper flame sense microamps
(.5 microamps
D.C. min., 4.0-6.0 nominal), manual valve shutoff,
low inlet gas pressure,
control
ground
continuity,
gas valve
defective
or turned off, flame sensor must not be grounded,
inadequate
flame carryover or rough ignition, or green/yellow
wire
must be connected to unit sheet metal.
STATUS
Indicates
CODE 41 - BLOWER MOTOR FAULT
the blower failed to reach 250 RPM or the blower
failed
to communicate
within the prescribed
time limits. Thirty seconds
after being
turned
ON or ten seconds
during
steady-state
operation.
STATUS
CODE 42 - INDUCER
MOTOR
Indicates
inducer motor hasn't started
limit. Check inducer motor and wiring.
STATUS
CODE 45 - CONTROL
FAULT
within
CIRCUITRY
a prescribed
time
LOCKOUT
Auto reset after one hour lockout due to gas valve relay stuck open,
flame sense circuit failure, or software check error. Reset power to
clear lockout.
E. HP/AC
See
Table
STATUS
SENSOR
Replace
Control
4
troubleshooting
rollout
combustion
switch open).
STATUS CODE 34 - IGNITION
DID NOT OPEN
or pressure
VOLTAGE
in secondary
-
Inducer
for leaky gas valve or stuck-open
Indicates
either the model plug
flashes 4 times on power-up,
Control
or
FLAME-PROVING
gas valve is de-energized.
CODE 24 - SECONDARY
STATUS
CODE
SETUP ERROR
gas valve
Control
connections,
ABNORMAL
CODE 23 - PRESSURE
for obstructed
STATUS
LOCKOUT
Check
(valve relay).
CODE
is proved
HP/AC
for
control
HP/AC
control
board
CODE
53,
OUTDOOR
AIR
FAULT - DETAILED
DESCRIPTION
to be within
status
codes
and
information.
If an OAT sensor is found
20
if status code repeats.
Troubleshooting
at power-up,
a valid temperature
range.
TEMPERATURE
input is constantly
If sensor
checked
is found
to be
open
orshorted
at any
time after initial
will be displayed
at amber STATUS
Check
in wiring
for faults
Using an Ohm meter,
open condition.
validation,
Status
Code 53
LED.
connecting
check resistance
sensor
for a short or
will
clear the
code
and return
the
system
to normal
cycled off, the fault code will be cleared on the next power-up
but
the fault will remain and system operation will not be as expected.
This is because
on power-up,
the unit control cannot discern
Sequence
between
sensor
or if a sensor
is not
packaged
unit is designed
UI. This unit will not
for installation
with a
respond
to commands
by a common thermostat except under certain emergency
described in Step 1--Start-Up
and Troubleshooting.
cooling system for optimum comfort. The unit will be commanded
by UI to supply airflow. The unit will operate the indoor blower at
requested airflow for most modes.
AIRFLOW
ADJUSTMENTS
efficiency.
UTILITY
fan motor
at low-stage,
than a standard
will
continue
system
single-stage
to operate
shuts off, when outdoor
INTERFACE
utility
WITH
curtailment
for one
ambient
is greater
INFINITY
relay
should
CONTROL
be
connected
to
factory
supplied pigtails (PINK, connected to R, VIOLET connected
to Y2
on the control board) located in the low voltage splice box (See
Fig. 17, 18 and 19). This input allows a power utility device to
interrupt compressor
operation during peak load periods. When the
utility sends a signal to shut the system down, the UI will display
"Curtailment
Active".
COMPRESSOR
OPERATION
temperature
and indoor humidity
data to
operation
for occupant
comfort and system
Refer to UI literature
33%
load
of the scroll compression
capacity.
The 24-volt
for further
system control details.
area so the system operates at part
solenoid
coil is de-energized
in
operation.
When the compressor
is operating
at high stage, the modulating
ring is activated,
sealing
the bypass
ports, which
allows the
compressor
to operate at full load capacity.
coil is energized in high stage operation.
CRANKCASE
HEATER
The
heater
crankcase
(18 ° C) outdoor
The nominal requested airflow for air conditioner operations will
be 350 cfm per ton of nominal cooling capacity as defined by unit
size. Actual airflow request will be adjusted from nominal using
indoor
and outdoor
optimize
the system
Outdoor
after compressor
low-stage
The UI uses temperature,
humidity
and other data supplied from
indoor
and outdoor
system
components
to control heating or
INDOOR
unit is operating
When the compressor
is operating
in low stage, the modulating
ring is deactivated,
allowing two internal bypass ports to close off
of Operation
The 48XL-A
communicating
provided
situations
an open
two-stage
than or equal to 100°F (38°C).
The
NOTE: If fault condition is an open thermistor or a wiring problem
that appears to be an open thermistor and the power to the unit is
the difference
installed.
NOTE:
nfinute
If thermistor is shorted or open, replace it to return the system to
normal operation.
If fault is in the wiring connections,
correcting
the fault
operation.
When
vapor (suction) pressure will be higher
system or high-stage
operation.
to OAT terminals.
of thermistor
NOTE:
OUTDOOR
The
outdoor
OPERATION
is energized
The 24-volt
solenoid
(IF APPLICABLE)
during
off cycle
below
65°F
air temperature.
FAN MOTOR
unit control
OPERATION
energizes
the outdoor
fan any time the
compressor
is operating.
The outdoor fan remains energized
if a
pressure switch or compressor
overload should open. Outdoor fan
motor will continue to operate for one nfinute after the compressor
shuts
off when
the outdoor
ambient
is greater
than or equal
to
100°F (38°C).
TIME
[]NIT
OPERATION
Failure
to follow
HAZARD
this caution
DELAYS-AIR
The unit time delays
CONDITIONER
OPERATIONS
include:
• Five nfinute time delay to start cooling
may result in unit damage.
call from the thermostat
operation
or user interface.
For cooling operation,
the recommended
airflow is 350 to
450 cfm for each 12,000 Btuh of rated cooling capacity. For
heating operation,
the airflow must produce a temperature
rise that falls within the range stamped on the unit rating
• Five nfinute compressor
plate.
• Two nfinute time delay to return to standby
momentarily
brown-out
short and release Forced
the temperature
rise in each
gas heating mode. Refer to these tables to determine
heating airflow for the system being installed.
the desired
NOTE:
free
Table 3 shows
Be sure that all supply-and
from
obstructions,
and
changed
detail.
using
NOTE:
Once the compressor
return-air
adjusted
properly.
the UI. See UI installation
grilles
Airflow
instructions
• One nfinute
be
should
not
cooling
cycle
be started
point that is slightly
AIR CONDITIONER
COOLING
again
remains
"on"
below
until
until
4 nfinutes
the room
the cooling
SEQUENCE
control
have
elapsed.
temperature
setting
from a
operation
from last
only).
fan at ternfination
is greater
of cooling
than or equal to 100°F
air conditioner
to high and from high to low capacity;
it
low to high
dictates.
The
drops
pins.
(38°C).
for more
and then has stopped,
ambient
• There is no time delay between
from
has started
(with Infinity
time delay of outdoor
mode when outdoor
are open,
can
Defrost
delay on return
this feature,
condition.
valid conmmnication
For gas heat operations,
recycle
when there is a
To bypass
to
of the UI.
OF OPERATION
OPERATION
With a call for first stage cooling, the outdoor fan, and low stage
compressor
are energized.
If low-stage
cannot satisfy cooling
demand, high-stage
cooling is energized by the UI. After second
stage is satisfied, the unit returns to low-stage
operation until first
stage is satisfied or until second stage is required again. When both
first stage and second stage cooling are satisfied, the compressor
will shut off.
21
and from
high
staging
the compressor
to low capacity
from low
will change
as demand
Table
3 - Air
Delivery
Rated Heating Input (Btu/hr)
and
Temperature
Rise
at Rated
Low Stage
48XL(-,N)A24040
48XL(-,N)A30040
40,000
26,000
48XL(-,N)A30060
48XL(-,N)A36060
48XL(-,N)A42060
60,000
48XL(-,N)A36090
48XL(-,N)A42090
48XL(-,N)A48090
48XL(-,N)A60090
High Stage
Input
Heating Rise Either Stage, °F (°C)
Unit
High Stage
Heating
Heating Rise Range OF (°C)
"Efficiency ....
High Stage
Low Stage
Low Stage
Comfort"
High Stage
Low Stage
20 - 50
15-45
35
30
40
(11-28)
(8-25)
(19)
(17)
(22)
35
(19)
25 - 55
25 - 55
40
50
(14-31)
(14-31)
(22)
(28)
35 - 65
(19-36)
35 - 65
(19-36)
50
(28)
55
(31)
39,000
90,000
58,500
48XL(-,N)A48115
48XL(-,N)A60115
115,000
75,000
30 - 60
(17-33)
30 - 60
(17-33)
45
(25)
50
(28)
48XL(-,N)A48130
48XL(-,N)A60130
130,000
84,500
35 - 65
(19-36)
35 - 65
(19-36)
50
(28)
55
(31)
Airflow delivery values for external static pressure values of up to 1 IN. W.C.
Table
OPERATION
4 - Heat
FAULT
On solid, no
flash
None
Emergency
Standard
Thermostat Control
Low Stage Cool/Heat
High Stage Cool/Heat
Operation
Operation
Conditioner
Board
Status
AMBER LED
FLASH
CODE
Standby - no call for unit operation
Mode
Pump/Air
Rapid, continuous
flashing
Codes
POSSIBLE
CAUSE AND ACTION
Normal operation.
Unit being controlled
by standard
thermostat
inputs instead of Infinity Control.
Only high stage operation
is available.
This operating
mode should be used in emergency
situations
only.
None
1, pause
Normal operation.
None
2, pause
Normal operation.
System Communications
Failure
16
Invalid Model Plug
25
Control does not detect a model plug or detects an invalid model plug.
will not operate without correct model plug.
High-Pressure
Switch Open
Low-Pressure
31
High-pressure
switch trip. Check refrigerant
and coils for airflow restrictions.
32
Low-pressure
45
Outdoor unit control board has failed.
46
Line voltage < 187v for at least 4 seconds. Compressor
not allowed until voltage>190v.
Verify line voltage.
No 230v at Unit
47
There is no 230v at the contactor when indoor unit is powered and cooling/
heating demand exists. Verify the disconnect is closed and 230v wiring is
connected to the unit.
Outdoor Air Temp
Sensor Fault
Outdoor Coil Sensor Fault
53
Outdoor air sensor not reading or out of range. Ohm out sensor and check
wiring.
55
Coil sensor not reading or out of range. Ohm out sensor and check wiring.
Thermistors
Range
56
Improper relationship between coil sensor and outdoor
sensors and check wiring.
Low Stage Thermal Cutout
71
Compressor voltage sensed, then disappears while cooling or heating demand exists. Possible causes are internal compressor overload trip or start
relay not releasing (if installed).
High Stage Thermal Cutout
72
Compressor voltage sensed, then disappears while cooling or heating demand exists. Possible causes are internal compressor overload trip or start
relay not releasing (if installed).
Contactor Shorted
73
Compressor voltage sensed when no demand for compressor operation
exists. Contactor may be stuck closed or there is a wiring error.
No 230V at Compressor
74
Compressor voltage not sensed when compressor should
tactor may be stuck open or there is a wiring error.
Low Stage Thermal Lockout
81
Thermal cutout occurs in three consecutive low/high stage cycles.
stage locked out for 4 hours or until 24v power recycled.
Low
High Stage Thermal Lockout
82
Thermal cutout occurs in three consecutive high/low stage cycles.
stage locked out for 4 hours or until 24v power recycled.
High
Low-Pressure
Lockout
83
Low-pressure
switch trip has occurred during 3 consecutive
operation locked out for 4 hours or until 24v power recycled.
cycles.
High-Pressure
Lockout
84
High-pressure
switch trip has occurred during 3 consecutive
operation locked out for 4 hours or until 24v power recycled.
cycles.
Switch Open
Control Fault
Brown Out
v)
(230
Out of
Communication
22
with UI lost. Check wiring to UI, indoor and outdoor
units.
Unit
charge, outdoor fan operation
switch trip. Check refrigerant charge and indoor air flow.
Control board needs to be replaced.
and fan operation
air sensor. Ohm out
be starting. Con-
Unit
Unit
INFINITY
CONTROLLED
LOW
AMBIENT
COOLING
period
This unit is capable
of low ambient
ONLY
the Infinity
when
required,
for
using
and the outdoor
Infinity
cooling
cycle
controlled
must
until
and outdoor
operates
control.
fan motor
low
be enabled
about
40°F
cooling
operation.
in the UI set-up.
(4°C).OAT.
air temperature.
Infinity
ambient
cycle
controlled
based
on coil
low ambient
temperature
plus
minutes.
outdoor
coil temp
3 ° F (1.7 ° C) or outdoor
(Fan
is turned
is 80°F
(27°C)
(Fan is turned
or if outdoor
ambient
switch
If flame
start up. After
motor is turned
outdoor
3 minutes,
10 minutes
fan cycling
during
low
if LPS trips, then outdoor
fan
for the remainder
then cooling
per the coil temperature
of the cooling
within
10 minutes,
cooling
operation
continues
and generate
control
If a power
amber
must be grounded
interruption
is restored,
occurs
blower
during
if the UI is still calling
After
the 90-second
period,
UNIT
The
period,
as long as no faults
the unit will respond
to
MODE
1. Inducer
up on
Infinity
second
Pre-purge
Period:
When
high speed, the pressure
2. Trial-For-Ignition
pre-purge
Sequence:
is
de-energized
and
present,
control
the inducer
on to the appropriate
terminal
energized
motor
speed
for the
HUM and electronic
air
throughout
the heating
with
Delay:
When
L2
and will
motor will remain
The indoor blower
remain
energized
stopping
the flow of gas to
the HUM terminal.
The
on for a 4-second
post-purge
and air cleaner terminal EAC-I
for 90,
120,
150,
or 180
seconds
on selection of blower-off
delay selected in the
factory-set
default is 120-second
blower-OFF
GAS INPUT
DAMAGE
(NATURAL
GAS)
HAZARD
this caution
may
Do
an
Improper
not
redrill
orifice.
result
in component
drilling
(burrs,
burner noise
hole appears
to have been redrilled,
drill bit of correct size.
check
The spark igniter
a 2-second
HAZARD
Failure to follow this warning
could
iniury, death and/or property damage.
result
in personal
DO NOT bottom out gas valve regulator adjusting screws.
This can result in unregulated
manifold
pressure and result
in excess overfire and heat exchanger failures.
period.
will spark
flame-proving
23
have
the call for gas heat is satisfied,
Failure to follow
damage.
FIRE
for 3 seconds.
The main gas valve relay contact closes to
energize the gas valve on low stage. After 5 seconds, the
igniter
Lockout
interrupting
at SEC1 or
the inducer motor comes
switch
closes, and the
ignition control on the furnace board begins a 15
pre-purge
period.
If the pressure switch fails to
a 15 second
high
furnace board performs
is open, and starts the
remain closed, the inducer will remain running.
After the
pressure switch re-closes,
the Infinity ignition control will
begin
be no flame
is common
damaged
or it is suspected
orifice hole with a numbered
AND ADJUSTMENTS
When the UI calls for gas heat, the Infinity
a self-check,
verifies the pressure switch
inducer on high speed.
the gas valve's
out-of-round
holes, etc.) can cause excessive
and misdirection
of burner flame. If orifice
the UI normally.
GAS HEAT
what
or
two seconds
for gas heating.
at the
determines
when unit is powered.
(depending
UI).
The
delay.
space.
operation
the 90-second
the LED will be ON continuously,
are detected.
will
a call for heat, the
only ON period
LED light will flash code 12 during
after which
inducer
period.
CHECK
for proper
is proved
and operate
the gas valve is de-energized,
the burners, and de-energizing
(shut down
HEAT
terminal
5. Blower-Off
LPS trip error) will occur.
OF OPERATION-GAS
will start a 90-second
after power
EAC-2
ll5VAC-to-ground
MODE
NOTE:
Infinity control
control will lock out.
NOTE:
NOTE:
with the
the living
flame
control
cycle.
listed above
LPS trip response
This Infinity system can be used to dehumidify
See UI Installation
Instructions
for more details.
SEQUENCE
If
on high
Delay:
If the burner
flame
is proven,
37 seconds after the gas valve is opened the
Indoor Blower is turned
gas heating stage.
cycle. If the LPS does not close
then the normal
DEHUMIDIFICATION
running.
routine
there should
Simultaneously,
the humidifier
cleaner
terminal
EAC-I
are
system to stabilize.)
for first 3 minutes
when
4. Blower-On
approximately
coil temp
off for 10 minutes with the compressor
LPS closes within
is proved
will lock out of Gas-Heating
mode
until flame is no longer proved.
fan has been OFF for 30 minutes.
is ignored
the burner
the furnace
Trials-For-Ignition
before going to Ignition-Lockout.
will reset automatically
after 3 hours, by momentarily
230 VAC power, or by interrupting
24 VAC power
SEC2 to the furnace board.
coil temp >
plus 25 °F (13.8 ° C) or outdoor
on to allow refrigerant
• Low-pressure
outdoor
lights
If the burner flame is not proved within 2 seconds, the control will
close the gas valve and repeat the ignition sequence up to 3 more
stabilize.)
• In high stage and low stage, fan is on when
sensor,
inducer on high speed and energize
stage relay to increase gas flow.
mode
as follows:
• In high stage, fan is off when
always
valve energized on low stage. If the UI is asking for high
stage gas heat, the ignition control will maintain running the
Fan may not begin to
Fan will
unit
heating stage to run based on feedback from the UI. If the
UI is asking for low stage gas heat, the ignition control will
change the inducer speed to low speed and keep the gas
kit is not
Low
The
When
flame-proving
does not need to be replaced
ambient
NOTE:
and low stage gas valve operation.
3. Flame-Proving:
down to 0°F (-18°C).
A low ambient
begins.
speed inducer
NOTE:
When this unit is operating
below 55°F (13°C) outdoor
temperature,
provisions
must be made for low ambient operation.
b. When
the gas supply
being used has a different
heating
value or specific gravity, refer to national and local
codes, or contact your distributor to determine the
CARBON
MONOXIDE
POISONING
HAZARD
Failure
to follow
this warning
could result in personal
iniury
and/or
required
orifice
2. Ac[iust manifold
Fig. 20).
death.
size.
pressure
a. Turn off gas supply
If the manifold
pressure
and/or gas rate is not properly
ac[iusted on HI and LO stages, excess carbon monoxide can
be produced.
to obtain
low stage input rate (See
to unit.
b. Remove pipe plug on manifold (See Fig. 21 and
connect manometer.
Turn on gas supply to unit.
c. Turn gas valve switch to ON.
d. Set unit to run for 20 minutes in low-stage
gas heat
operation using the "INSTALLER
CHECKOUT"
menu
on the User Interface.
FIRE
AND UNIT
DAMAGE
e. Remove
HAZARD
Failure to follow
this warning
could
injury or death and/or property damage.
result
in personal
Unsafe operation of the unit may result if manifold
is outside of the ranges listed in Table 6.
Gas input rates on rating plate are for installations
2000 ft (610 m).
input.
1. Determine
Input
rate nmst be within
regulator
valve pressure
adjustment
regulator
cap from low stage gas
(See Fig. 20) and turn
low-stage
ac[iusting screw (3/16 or smaller flat-tipped
screwdriver)
counterclockwise
(out) to decrease rate and
pressure
clockwise
at altitudes
up to
- 2% of rating
plate
(in) to increase
input rate.
the correct gas input rate.
a. The rated gas inputs shown
1/2"
in Table 6 are for altitudes
NPT
INLET
from sea level to 2000 ft (610 m) above sea level.
These inputs are based on natural gas with a heating
value of 1025 Btu/ft3 at .60 specific gravity.
IN THE U.S.A.:
The input rating for altitudes above 2,000 ft (610 m) nmst
reduced by 4 percent for each 1,000 ft (305 m) above sea level.
For installations
plate.
below
For installations
the rating plate
input rate.
Table
Altitude
2,000
ft, (610
m) refer to the unit
be
rating
A04167
above 2,000 ft, (610 m) nmltiply the input by on
by the derate nmltiplier in Table 5 for the correct
5 - Altitude
ft (m)
Derate
Percent
0-2000
(0-610)
Multiplier
for U.S.A*.
Derate Multiplier
Factort
of Derate
0
1.00
2001-3000*
(610-914)
8-12
0.90
3001-4000
(915-1219)
12-16
0.86
4001-5000
(1220-1524)
16-20
0.82
Fig. 20 - Redundant
20-24
0.78
6001-7000
(1829-2134)
24-28
0.74
7001-8000
(2134-2436)
28-32
0.70
8001-9000
(2139-2743)
32-36
0.66
36-40
0.62
9001-10,000
(2744-3048)
DO NOT set low stage manifold
IN. W.C.
or more than 2.0 IN. W.C. for natural
pressure
correct
size.
aligned
orifice hole is essential
3. Verify natural
Btuh Input Furnace
Furnace Input Rate
at Sea Level
Altitude
90,000
X
Installed
re-drill
damaged
an orifice.
for proper
or it is suspected
to have
drill bit of the
A burr-free
and squarely
flame characteristics.
and pilots
served by
c. Record number
one revolution.
of seconds
d. Divide number of seconds
of seconds in 1 hour).
for gas meter to complete
in step c. into 3600 (number
e. Multiply result of step d. by the number of cubic feet
shown for one revolution
of test dial to obtain cubic feet
of gas flow per hour.
f. Multiply
by an authorized
result of step f. by Btu heating
value of the gas
to obtain total measured input shown in Table 6.
(Consult the local gas supplier if the heating value of
gas is not known).
at 4300 fl (1372 m).
Derate Multiplier
Factor
0.90
cap.
gas low stage input rate.
Furnace Input Rate
at Installation
EXAMPLE:
Assume
a 90,000
installed.
Assume
that the size
high stage input unit is being
of the dial is 2 cubic ft., one
revolution
takes 129 sec, and the heating
Btu/ft 3. Proceed as follows:
X
ac[iustment
b. If unit is not running, set unit to run for 20 minutes in
low-stage
gas heat operation using the "INSTALLER
CHECKOUT"
menu on the UI.
EXAMPLE:
90,000
If manifold
orifices.
hole with a numbered
a. Turn off all other gas appliances
the gas meter.
(610 m) to 4,500 ft (1372
10 percent
less than 1.4
gas.
connected.
check orifice
Never
Valve
pressure
main burner
low stage regulator
If orifice hole appears
been re-drilled,
IN CANADA:
m) above sea level nmst be derated
Gas Conversion
Station or Dealer.
this range, change
f. Re-install
J-Derate multiplier factors are based on midpoint altitude for altitude range.
from 2,000
is outside
g. Leave manometer
In Canada see Canadian Altitude Adjustment.
The input rating for altitudes
Gas Control
NOTE:
NOTE:
5001-6000
(1524-1829)
Automatic
=
81,000
24
value of the gas is 1025
a.129sec.
to complete
b. 3600/129
In this example, the nonfinal input rate for high stage is 90,000
Btu/hr, so the high stage manifold pressure is correctly set.
If the measured high stage rate is too low, increase the manifold
pressure to increase rate. If the measured high stage rate is too
high, decrease the manifold pressure to decrease rate.
one revolution
= 27.9
c. 27.9 x 2 = 55.8 ft 3 of gas flow/hr.
d. 55.8 x 1050
= 58,590
Btuh input.
In this example,
the nonfinal
input rate for low stage is 58,500
Btu/hr, so the low stage manifold pressure is correctly set.
If the measured low stage rate is too low, increase the manifold
pressure to increase rate. If the measured low stage rate is too high,
decrease
the manifold
NOTE:
pressure
Double-check
while clocking
to decrease
a. Furnace
plate.
that UI is running
within
b. Select "COMFORT"
a. Furnace must operate within rise range listed on rating
plate.
on low stage gas heat
low stage gas heat temperature
must operate
7. Verify proper high stage gas heat temperature rise.
rate.
b. Make sure access panel is re-installed on the unit.
c. Measure supply and return temperatures as close to the
unit as possible. Subtract the return temperature from
the supply temperature to deternfine rise. Rise should
fall within the range specified on the rating plate.
NOTE:
If the temperature rise is outside the rating plate range,
first check:
the low stage firing rate.
4. Verify proper
NOTE: Double-check that User Interface is running on high stage
gas heat while clocking the low stage firing rate.
rise.
rise range listed on rating
or "EFFICIENCY"
mode
on UI.
"COMFORT"
mode will provide a warmer supply air
temperature,
while "EFFICIENCY"
will provide lower
a. Gas input for low and high stage gas heat operation.
gas consumption.
c. Make sure access panel is re-installed
d. Measure supply
unit as possible.
the supply
fall within
5.
Adjust
b. Derate for altitude, if applicable.
on the unit.
c. Return and supply ducts for excessive restrictions
causing static pressures in excess of .5 IN. W.C.
and return temperatures
as close to the
Subtract the return temperature
from
temperature
to deternfine rise. Rise should
the range specified on the rating plate.
manifold
pressure
to obtain
high
stage
input
d. Make sure model plug is installed.
8. Final Check
rate
a. Turn off gas to unit
(See Fig. 20).
b. Remove manometer from pressure tap.
a. Set unit to run for 20 minutes in high-stage
gas heat
operation using the "INSTALLER
CHECKOUT"
menu
on the UI.
b. Remove
regulator
valve pressure
NOTE:
IN. W.C.
pressure
adjustment
regulator
c. Replace pipe plug on manifold (See Fig. 21).
d. Turn on gas to unit.
e. Check for leaks.
cap from high stage gas
CHECK GAS INPUT (PROPANE GAS)
(See Fig. 20) and turn
high-stage
adjusting screw (3/16 or smaller flat-tipped
screwdriver)
counterclockwise
(out) to decrease rate and
Refer to propane kit installation instructions for properly checking
gas input.
clockwise
(in) to increase
DO NOT
set high stage manifold
NOTE:
For installations below 2,000 ft (610 m), refer to the unit
rating plate for proper propane conversion kit. For installations
above 2,000 ft (610 m), contact your distributor for proper propane
conversion kit.
input rate.
or more than 3.8 IN. W.C.
is outside
for natural
this range, change
c. Re-install
6. Verify natural
less than 3.2
gas.
If manifold
main burner orifices.
high stage regulator
d. Leave manometer
pressure
adjustment
cap.
CHECK
connected.
and pilots served by
b. If unit is not running, set unit to run for 20 minutes in
high stage gas heat operation using the "INSTALLER
CHECKOUT"
menu on the UI.
c. Record number
revolution.
of seconds
d. Divide number of seconds
of seconds in 1 hour).
for gas meter to complete
in step c. into 3600
FLAME
With control access panel removed (See Fig. 25), observe the unit
heating operation. Watch the burner flames to see if they are light
blue and soft in appearance,
and that the flames are approximately
gas high stage input rate.
a. Turn off all other gas appliances
the gas meter.
BURNER
the same for each burner. Propane will have blue flame (See Fig.
22). Refer to the Maintenance
section for information
on burner
removal.
1
(number
e. Multiply result of step d. by the number of cubic feet
shown for one revolution of test dial to obtain cubic feet
of gas flow per hour.
f. Multiply result of step f. by Btu heating value of the gas
to obtain total measured input shown in Table 6.
(Consult the local gas supplier
gas is not known).
EXAMPLE:
Assume a 90,000
installed.
Assume that the size
a. 84 sec. to complete
value of
high stage input unit is being
of the dial is 2 cubic ft., one
revolution
takes 84 sec., and the heating
Btu/ft3. Proceed as follows:
b. 3600/84
if the heating
value
of the gas is 1025
one revolution
Pi
= 42.9
A0g082
c. 42.9 x 2 = 85.8 ft3 of gas flow/hr.
d. 85.8 x 1050
= 90,090
Fig. 21 - Burner
Btuh input.
25
Assembly
BURNER
FLAME
COMPONENT
TEST
The Infinity Furnace Board features a gas component test system to
help diagnose a system problem in the case of a gas component
failure. To initiate the component test procedure, ensure that there
are no UI inputs to the control (the ABCD connector can be
removed from the Infinity control board for this operation) and all
time delays have expired. Turn on setup switch SWl-6.
BURNER
NOTE:
The component test feature will not operate if the control
is receiving any UI signals or until all time delays have expired.
MANIFOLD
C99021
Fig. 22 - Monoport
LIMIT
Burner
4. After shutting the blower motor OFF, the control runs the
inducer for 10 seconds, then turns it OFF.
SWITCHES
Normally
closed limit switch (LS) completes
the control circuit.
Should
the leaving-air
temperature
rise above the maximum
allowable
temperature,
the limit switch opens and the control
circuit "breaks." Any interruption
in the control circuit instantly
closes the gas valve and stops gas flow to the burners. The blower
motor continues to run until LS resets. The furnace board STATUS
LED will display
When
the
air
low-temperature
completes
the
STATUS
ROLLOUT
CODE
temperature
33.
at the
limit
switch
drops
to normal
heating
CONTINUOUS
switch is to close the main gas valve in
The switch is located above the main
fan operation
is requested
by the UI indoor
EAC-I
is energized
fan
for
as long as the
ignite, then shut OFF and remain
OFF for the
delay allowing the heat exchangers
to heat up more
then restarts
at the end of the blower-ON
fan motor
after the gas heating
When
will
revert
delay period.
to continuous-blower
airflow
cycle is completed.
the UI "calls for cooling",
the indoor
fan motor
will switch
to operate at cooling airflow. When the call for cooling is satisfied,
the indoor fan motor will operate an additional
90 seconds
at
cooling
airflow.
When
3. Check system for leaks using an approved method.
4. Evacuate refrigerant system and reclaim refrigerant
additional leaks are found.
airflow
before
transitioning
the call for continuous
back
to continuous-blower
fan is removed,
the indoor
blower
will continue operating
for an additional 5 seconds before shutting
down, if no other function requires blower motor operation.
if no
5. Charge unit with Puron (R-410A) refrigerant, using an
accurate scale. Refer to unit rating plate for required charge.
fan
During a call for gas heat, the Infinity control will transition the
indoor fan motor to continuous
blower airflow or gas heat airflow,
whichever
is lowest. The indoor fan motor will remain ON until
indoor
NOTE: Install a filter drier whenever the system has been opened
for repair.
furnace
motor will operate at continuous
blower airflow. Continuous
operation
is programmable.
See the UI Owner's
Manual
detailed instructions.
Terminal
indoor fan motor is energized.
Leaks
2. Repair leak following accepted practices.
FAN MODE
continuous
for Refrigerant
1. Use both high- and low-pressure ports to relieve system
pressure and reclaim remaining refrigerant.
motor (IFM) continues
to run until switch is reset. The
board STATUS LED will display STATUS CODE 33.
The
Check
Locate and repair refrigerant leaks and charge the unit as follows:
operation.
burners. When the temperature
at the rollout switch reaches the
maximum
allowable temperature,
the control circuit trips, closing
the gas valve and stopping gas flow to the burners. The indoor fan
quickly,
After the component test is completed, one or more status codes
(11, 25, or 41) will flash. See component test section or Status
Code Label for explanation of status codes.
NOTE:
To repeat component test, turn setup switch SWl-6 to
OFF and then back ON.
SWITCH
The function of the rollout
the event of flame rollout.
the burners
blower-ON
NOTE:
The EAC terminals are energized when the blower is
operating.
to the
setting of the limit switch, the switch closes and
control circuit. The direct-spark
ignition
system
cycles and the unit returns
When
The component test sequence is as follows:
1. The control turns the inducer motor ON and keeps it ON
through step 3.
2. After waiting 10 seconds, the control turns the igniter ON
for 15 seconds, then OFF.
3. The control then turns the indoor fan motor on for 15
seconds, then OFF.
Start-Up
Adjustments
Complete the required procedures given in the Pre-Start-Up
section before starting the unit. Do not jumper any safety devices
when operating the unit. Do not operate the unit in cooling mode
when the outdoor temperature is below 40°F (4°C) (unless
low-ambient operation is enabled in the UI). Do not rapid cycle
the compressor. Allow 5 min. between "on" cycles to prevent
compressor damage.
CHECKING
COOLING
AND
HEATING
CONTROL
OPERATION
See UI Installation Instructions for detailed system CHECKOUT.
CHECKING AND ADJUSTING REFRIGERANT CHARGE
The refrigerant system is fully charged with Puron (R-410A)
refrigerant and is tested and factory sealed.
NOTE:
Any adjustment to refrigerant charge must be done with
unit operating in HIGH stage.
NOTE:
Adjustment of the refrigerant charge is not required
unless the unit is suspected of not having the proper R-410A
charge. The charging label and the tables shown refer to system
temperatures and pressures in cooling mode only. A refrigerant
charging label is attached to the outside of the unit.
26
6 - Heating
Table
HEATING
INPUT(BTU/HR)*
Inputs
GAS SUPPLY PRESSURE
Natural
NUMBER OF
ORIFICES
(IN. W.C.)
MANIFOLD
High Stage
3.2-3.8
PRESSURE
Natural
(IN. W.C.)
High Stage
Low Stage
Min
Max
40,000
26,000
2
4.0
13.0
Low Stage
60,000
39,000
3
4.0
13.0
3.2-3.8
1.4 - 2.0
90,000
58,500
3
4.0
13.0
3.2-3.8
1.4 _ 2.0
115,000
75,000
3
4.0
13.0
3.2-3.8
1.4 _ 2.0
130,000
84,500
3
4.0
13.0
3.2-3.8
1.4 _ 2.0
1.4 - 2.0
*Cubic ft of natural gas per hour for gas pressures of .5 psig (14 IN. W.C.) or less and a pressure drop of .5 IN. W.C. (based on a .60 specific gravity gas). Ref:
Table 6.2 (b) NPFA 54 / ANSI Z223.1-2009.
7 - ECM
Table
Wet
Coil
Pressure
Drop
(IN.
UNIT
SIZE
600
700
800
900
1000
24
0.005
0.007
0.010
0.012
0.015
0.007
0.010
0.012
0.015
0.018
0.021
0.024
0.019
0.023
0.027
0.032
0.037
0.042
0.047
0.014
0.017
0.020
0.027
0.024
0.032
0.027
0.036
30
36
42
48
1100
60
Table
FILTERSIZE
in.(mm)
20X20X1
(508x508x25)
24X30X1
24X36X1
(610x914x25)
1700
1800
1900
2000
0.031
0.041
0.035
0.046
0.039
0.052
0.043
0.057
0.063
0.068
0.029
0.032
0.036
0.040
0.045
0.049
Drop Table (IN. W.C.)
CFM
1300 1400 1500 1600 1700
600
700
800
900
1000
1100
1200
0.07
0.08
0.1
0.12
0.13
0.14
0.15
0.05
0.6
0.07
0.07
0.08
0.09
0.1
0.06
0.07
0.07
0.08
.......
When
adjustment
evaluating
to the specified
the
refrigerant
factory
charge
charge,
must always
1800
1900
2000
2100
2200
2300
0.10
0.11
0.12
0.13
0.14
0.14
........
0.09
an
TO USE COOLING
be
Take
the liquid
0.09
CHARGING
Refer to the chart
should be.
to determine
REFRIGERANT
NOTE:
problem
CHARGE
and/or the physical
Techniques Manual,
charge
is listed on the unit rating
data table. Refer to the Refrigeration
Refrigerants
Section.
plate
Service
NO CHARGE
Check
for
leak.
Use
standard
evacuating
evacuating
system, weigh in the specified
(refer to system rating plate).
LOW
CHARGE
techniques.
amount
After
of refrigerant
refrigerant
If the
and read the manifold
what
the liquid
causing
leak, refer to Check
NON-COMMUNICATING
HEATING
MODE: 4-WIRE
line temperature
the inaccurate
for Refrigerant
readings
EMERGENCY
THERMOSTAT
COOLING
established
with
the UI, the Infinity
suction line. Mount the temperature
sensing device on the suction
line and insulate it so that the outdoor ambient does not affect the
The
the normal
operating
interconnecting
Infinity
a standard
from both
insulated
/
wire with 105C,
control
disconnect
the
thermostatic
the
ABCD
control boards and using No. 18 AWG
type 90°C minimum
or equivalent
wire,
will respond
with the maximum
safe airflow
unit cooling capacity.
27
thermostat,
will enable
simple
make the connections
between the standard thermostat,
board, and the HP/AC board per Fig. 23. Recommend
connectors
color-coded,
with
board
to allow
the units to correct subcooling
for the various operating conditions.
Accurate
pressure
gauge and temperature
sensing
devices
are
required.
Connect the pressure gauge to the service port on the
be within
control
furnace
terminals
For
must
is a
Leaks section.
Use Cooling Charging
Chart (Fig. 24). Vary refrigerant
until the
conditions
of the chart are met. Note that charging
charts are
different from type normally
used. Charts are based on charging
reading. Indoor air CFM
range of the unit.
pressure
This mode of operation
is provided only in the case where the UI
has failed or is otherwise unavailable.
If communications
cannot be
standard thermostat input
control of the 48XL unit.
COOLING
CHARTS
line temperature
gauges.
of refrigerant
0.053
...........
very minimal. If a substantial
adjustment is indicated, an abnormal
condition
exists somewhere
in the cooling
system,
such as
insufficient airflow across either coil or both coils.
The amount
2100
8 - Filter Pressure
0.05
IMPORTANT:
indicated
1600
500
....
(610x762x25)
W.C.)
STANDARD CFM (SCFM)
1200
1300
1400
1500
the furnace
the use of
600V, 2/64" insulation.
to cooling
based
and heating
on gas furnace
demands
output
and
infinity Furnace
Board
infinityHP/AC
Board
OutdoorAir Thermistor
(Suppliedwith IU)
FIELD CONNECTION
REQUIRED
(BLACKWIRES)
Standard
4..Wire
Thermostat
OutdoorCoil Thermistor
FACTORYCONNECTED
_m
m
FACTORYWIRESPROVIDED
FOR FIELDCONNECTION
OF UTILITYCURTAILMENT
A06302
Fig. 23 - Non-Communicating
Required
Subcooling
Outdoor
Model
Ambient
Emergency
Cooling/Heating
°F(°C)
Required
Temperature
°F(°C)
Required
Size
Liquid
Subcoolin_
Wiring
Line Temperature
24
85 (29)
16 (8.7)
95 (35)
16 (8.7)
105
16 (8.7)
(41)
115 (46)
16 (8.7)
for
a Specific
Subcoolin_
!°F)
IR-410A}
Required
Pressure
75 (24)
Connections
Subcoolin_
I°C)
Pressure
(psig)
5
10
15
20
25
(kPa)
3
6
8
11
14
189
61
56
51
46
41
1303
16
13
11
8
5
16 (8.7)
196
63
58
53
48
43
1351
17
15
12
9
6
66
68
61
63
56
58
51
53
46
48
1399
1449
19
20
16
17
13
14
10
11
8
9
30
17 (9.3)
10 (9)
16 (9.7)
15 (8.3)
15 (8.2)
36
14 (7.8)
14 (7.7)
14 (7.7)
14 (7.6)
14 (7.6)
203
210
42
48
19 (19.7)
21 (11.7)
19 (10.6)
21 (1%5)
19 (10.5)
20 (11.3)
19 (10.4)
20 (11.2)
19 (10.3)
20 (11.1)
217
224
70
72
85
67
60
62
55
57
50
52
1496
1544
21
22
18
19
15
16
13
14
10
11
60
17 (9.4)
17 (9.4}
17 (9.4)
17 (9.4)
17 (9.4)
231
74
69
64
59
54
1593
23
20
18
15
12
238
78
71
66
61
56
1641
24
21
19
16
13
245
77
72
67
62
57
1689
25
22
20
17
14
252
70
74
69
64
59
1737
26
23
21
18
15
260
268
81
83
76
78
71
73
66
68
51
63
1792
1848
27
29
25
26
22
23
19
20
16
17
276
85
284
87
80
82
75
77
70
72
65
67
1903
1958
30
31
27
28
24
25
21
22
19
20
292
89
300
91
84
86
79
81
74
76
69
71
2013
2068
32
33
29
30
26
27
23
24
21
22
309
93
88
83
78
73
2130
34
31
28
26
23
318
95
90
85
90
75
2192
35
32
29
27
24
327
336
97
99
92
94
87
89
82
84
77
79
2254
2316
36
37
33
34
31
32
28
29
25
26
345
101
96
91
86
81
2378
38
35
33
30
27
354
103
98
93
88
83
2440
39
36
34
31
28
364
374
105
107
100
102
95
97
90
92
85
87
2509
2578
40
41
38
39
35
36
32
33
29
39
384
108
103
99
93
88
2647
42
40
37
34
31
394
404
110
112
105
107
100
102
95
97
90
92
2716
2785
44
45
41
42
38
39
35
36
32
33
414
114
109
104
99
94
2854
46
43
40
37
34
424
116
111
106
101
96
2923
47
44
41
38
35
434
118
113
108
103
98
2992
48
45
42
39
36
444
454
119
121
114
116
109
111
104
106
99
101
3061
3130
48
49
46
47
43
44
40
41
37
38
464
474
123
124
118
119
113
114
108
109
103
104
3199
3268
50
51
48
48
45
46
42
43
39
40
484
126
121
116
111
106
3337
52
49
47
44
41
494
127
122
117
112
107
3406
53
50
47
45
42
504
129
124
119
114
199
3475
54
51
48
46
43
514
524
131
132
126
127
121
122
116
117
111
112
3544
3612
55
56
52
53
49
50
46
47
44
45
534
134
129
124
119
114
3681
56
54
51
48
•
1= Measure
c
Discharge
e
line
2= Measure
the Liquid
device to it.
pressure
line temperature
3- Insulate the temperature
doesn't affect the reading.
¢- Refer
to the
required
_he Outdoor
Ambient
5- interpolate
values.
if the
sensing
across
Iemperature
Outdoor
ambient
50DU500166
REV
on the
port.
sensing
Outdoor
based
the
Pressure
Ambient
model
size and
lies
corresponding
line,
reading
to obtain
in between
the
to the the
measured
the
Liquid
table
line
Subcooling
if the
3.0
temperature
in the table
Discharge
if the measured
charge
service
a temperature
so that the
in the table
to the
temperature.
for a required
_= Add Charge
= Remove
from
a gauge
by attaching
device
Subcooling
6- Find the Pressure
Value
Pressure
of the Compressor
7= Read
by attaching
temperature
measured
]
is higher
temperature
than the
is lower
than
table
the
value,
table
value.
45
A0gl0g
Fig. 24 - Cooling
Charging
Table-Subcooling
28
Air Filter
MAINTENANCE
To ensure continuing high performance, and to minimize the
possibility of premature equipment failure, periodic maintenance
must be performed on this equipment. This packaged unit should
be inspected at least once each year by a qualified service person.
To troubleshoot unit, refer to Table 9 and 10, Troubleshooting
Chart.
NOTE TO EQUIPMENT OWNER: Consult your local dealer
about the availability of a maintenance contract.
IMPORTANT:
Never
in the return-air duct
same dimensional size
for recommended filter
operate the unit without a suitable air filter
system. Always replace the filter with the
and type as originally installed. See Table 1
sizes.
Inspect air filter(s) at least once each month and replace
(throwaway-type) or clean (cleanable-type) at least twice during
each cooling season and twice during the heating season, or
whenever the filter becomes clogged with dust and lint.
Indoor
Fan and Motor
NOTE: All motors are pre-lubricated.
these motors.
PERSONAL
HAZARD
INJURY
AND
UNIT
Do not attempt to lubricate
DAMAGE
Failure to follow this warning could result in personal
injury or death and possible unit component damage.
The ability to properly perform maintenance on this
equipment requires certain expertise, mechanical skills,
tools and equipment. If you do not possess these, do not
attempt to perform any maintenance on this equipment,
other than those procedures recommended in the Owner's
Manual.
For longer life, operating economy, and continuing efficiency,
clean accumulated dirt and grease from the blower wheel and
motor annually.
Inducer
Blower
NOTE: All motors are pre-lubricated.
these motors.
Do not attempt to lubricate
Clean periodically to assure proper airflow and heating efficiency.
Inspect blower wheel every fall and periodically during the heating
season. For the first heating season, inspect blower wheel
bi-monthly to determine proper cleaning frequency.
Limit Switch
Remove unit access panel to gain access to the limit switch. The
limit switch is located above the indoor blower housing.
ELECTRICAL
SHOCK
Failure to follow
injury or death:
1. Turn
these warnings
any maintenance
could
result
in personal
NOTE:
On small chassis units, a second limit switch is located
beside the indoor blower housing.
Burner
off electrical
2. Use extreme
HAZARD
power
or service
caution
3. Never place anything
with the unit.
to the unit before
performing
on this unit.
when removing
combustible
panels
and parts.
either on or in contact
Ignition
Unit is equipped with a direct spark ignition 100 percent lockout
system. Ignition module is located in the control box. Refer to
additional information in the Start-Up & Troubleshooting section
for Status Code information.
Main
Burners
At the beginning of each heating season, inspect for deterioration
or blockage due to corrosion or other causes. Observe the main
burner flames and adjust, if necessary.
[]NIT OPERATION
HAZARD
Failure to follow this caution may result in equipment
damage or improper operation.
EQUIPMENT
HAZARD
Failure to follow this caution may result in equipment
damage or improper operation.
Errors made when reconnecting wires may cause improper
and dangerous
operation. Label all wires prior to
disconnecting when servicing.
When servicing gas train, do not hit or plug orifice spuds.
Removal
The minimum maintenance requirements for this equipment are as
follows:
DAMAGE
of Gas Train
To remove
the gas train for servicing:
1. Shut off main gas valve.
1. Inspect air filter(s) each month. Clean or replace when
necessary.
2. Shut off power
3. Remove
2. Inspect indoor coil, drain pan, and condensate drain each
cooling season for cleanliness. Clean when necessary.
control
4. Disconnect
to unit and install lockout
tag.
access panel (See Fig. 25).
gas piping
at unit gas valve.
5. Remove fan partition mounting
bracket (2 screws located
on the left side of control compartment
on the fan partition
3. Inspect indoor fan motor and wheel for cleanliness each
cooling season. Clean when necessary.
panel). Slide bracket
Fig. 26.)
4. Check electrical connections for tightness and controls for
proper operation each cooling season. Service when
necessary.
5. Check for restrictions on inducer outlet. Clean flue hood.
forward,
6. Remove
wires connected
7. Remove
the mounting
bottom
to gas valve.
first,
to remove.
(See
Mark each wire.
screw that attaches
the burner
rack to
the unit base (See Fig. 26).
6. Inspect burner compartment before each heating season for
rust, corrosion, soot or excessive dust.
8. Partially slide the burner rack out of the unit (see Fig. 26
and 27). Remove ignitor and sensor wires at the burner assembly. Remove wires to rollout switch.
7. Inspect all accessories. Perform any service or maintenance
to the accessories as recommended in the accessory
instructions.
9. Slide the burner
10. To reinstall,
29
rack out of the unit (See Fig. 26 and 27).
reverse
the procedure
outlined
above.
Outdoor Coil, Indoor
Drain Pan
Inspect
the condenser
Coil, and Condensate
coil, evaporator
coil, and condensate
drain
pan at least once each year.
The coils are easily cleaned when dry; therefore, inspect and clean
the coils either before or after each cooling season. Remove
all
obstructions,
including
weeds and shrubs, that interfere with the
airflow through the condenser
coil. Straighten bent fins with a fin
comb. If coated with dirt or lint, clean the coils with a vacuum
cleaner, using the soft brush attachment.
Be careful not to bend the
fins. If coated with oil or grease, clean the coils with a nfild
detergent and water solution. Rinse coils with clear water, using a
garden
hose. Be careful
wiring, or air filter(s).
from inside to outside
Bh wer
Access
Panel
Compressor
Access Panel
water
condenser
coil, be sure to clean between
all dirt and debris from the unit base.
Control
Access
Panel
Inspect
A09479
Fig. 25 - Unit Access
not to splash
Panels
the drain
on motors,
pan and condensate
coil fins
and inner
the coils. Be sure to flush
drain
line when
inspecting
the coils. Clean the drain pan and condensate
drain by removing all
foreign matter from the pan. Flush the pan and drain trough with
clear water. Do not splash water on the insulation, motor, wiring, or
air filter(s).
If the drain trough
is restricted,
"plumbers
snake" or sinfilar probe device.
Integrated
Gas Unit
insulation,
For best results, spray condenser
the unit. On units with an outer
Outdoor
clear
it
with
a
Fan
(IGC)
Auto Transformer
fuses used on 460
(Hidden)
Fan
Board
Induced
Motor
Fan
Partition
Mounting
Bracket
Flue
UNIT
Failure to follow
components.
Draft
Inducer
Blower
Housing
Burner
Rack
Mounting
Screw
Housing
this caution
may result in damage
to unit
Switch
1. Remove
cover.
A09480
Fig. 26 - Blower
HAZARD
Keep the outdoor fan free from all obstructions
to ensure
proper cooling operation.
Never place articles on top of the
unit.
RolIout
Collector
Box
OPERATION
(IFB)
and Flue Collector
Box
2. Turn
4 screws
motor/grille
expose
holding
assembly
outdoor
grille
upside
down
and motor
on top
to top
cover
to
fan blade.
3. Inspect
the fan blades
for cracks
or bends.
4. If fan needs to be removed,
motor shaft.
loosen setscrew
and slide fan off
5. When
position
according
replacing
table shown
6. Ensure
that
fan blade,
blade
to the
in Fig. 28.
set screw
engages
the flat area on the motor
shaft when tightening.
7. Replace
Electrical
Inspect
grille.
Controls
and Wiring
and check the electrical
sure to turn off the electrical
A07680
Fig. 27 - Burner
Inducer
Pressure
Rack
Removed
connections.
Inspect
Replace if needed.
pressure
switch
tube
and wiring
annually.
Be
to the unit.
Remove access panel to locate all the electrical controls and wiring.
Check all electrical connections
for tightness.
Tighten all screw
connections.
disassemble
Switch
Inspect pressure switch
for cracks or restrictions.
controls
power
If any smoky
the connection,
end and reassemble
After
inspecting
or burned
connections
are noticed,
clean all the parts, re-strip
the wire
the connection
the electrical
properly
controls
and securely.
and wiring,
replace
all the
panels. Start the unit, and observe at least one complete cooling
cycle to ensure proper operation.
If discrepancies
are observed in
operating
cycle, or if a suspected malfunction
has occurred, check
ELECTRICAL
Failure
injury
to follow
SHOCK
HAZARD
this warning
could
result
in personal
each
electrical
instrumentation.
checks.
or death.
Disconnect
and tag electrical
power to the unit
cleaning and lubricating the blower motor and wheel.
before
30
component
with
Refer to the unit wiring
the
proper
electrical
label when making these
Copeland
Scroll Compressor
(Puron
Refrigerant)
The compressor
used in this product is specifically
operate
with Puron
(R-410A)
refrigerant
and
interchanged.
The compressor
Exercise extreme
designed
cannot
is an electrical,
as well as mechanical,
caution when working near compressors.
should be shut off, if possible, for most troubleshooting
Refrigerants
present additional safety hazards.
A"
infinity Top
to
be
device.
Power
techniques.
A06035
UNIT SIZE
"A"
1 (26)
30
1 (26)
36
1 (26)
42
1 (26)
48
11/32 (9)
60
9/16 (14)
Fig. 28 - Outdoor
Refrigerant
Inspect
DIM. IN. (MM)
24
Fan Blade
EXPLOSION,
Clearance
tubing connections
Detecting
and the unit base for oil
oil
generally
indicates
a
If oil is detected or if low performance
is suspected,
leak test all
refrigerant tubing using an electronic leak detector, or liquid-soap
solution.
If a refrigerant
leak is detected,
refer to Check for
Refrigerant
Leaks section.
If no refrigerant
refer to Checking
and low performance
and Adjusting
Refrigerant
is suspected,
Charge
pressure-relief
extreme
high
Switches
- Refrigerant
switches
are specifically
designed
(Low Pressure)
Hi_h-Pressure
to operate
with
(HPS & HPS2)
High
the compressor
pressure
If system
to low-stage
may be caused
motor, or outdoor
not be used
pressure
is above
system
the
operation
by a dirty
only.
outdoor
coil, failed
this warning
damage.
AND
SAFETY
could
result
in personal
This system uses Puron (R-410A)
refrigerant
which has
higher operating pressures than R-22 and other refrigerants.
No other refrigerant may be used in this system. Gauge set,
hoses, and recovery
system nmst be designed
to handle
Puron.
If you
are unsure,
consult
the
equipment
manufacturer.
If additional
fan
OIL
oil is needed
use Uniqema
RL32-3MAF.
If this oil is
not available, use Copeland Ultra 32CC or Mobil Artic EAL22CC.
This oil is extremely
hygroscopic,
meaning
it absorbs
water
readily. POE oils can absorb 15 times as nmch water as other oils
designed
for HCFC
and CFC refrigerants.
Take all necessary
precautions
to avoid exposure of the oil to the atmosphere.
SERVICING
SYSTEMS
ON
POE (polyolester)
compressor
term damage to some synthetic
to unit.
leads on switch.
ohm
meter
leads
on a good
Because
under
including
roofs containing
charging.
ROOFS
WITH
SYNTHETIC
MATERIALS
2. Disconnect
continuity
of the 48XL,
this,
air recirculation.
1. Turn off all power
NOTE:
system
as
To check switches:
3. Apply
the refrigerant
COMPRESSOR
Switches
pressure.
System
Failure to follow
iniury or equipment
Puron
The high-pressure
switches are located on the discharge line and
protects against excessive condenser
coil pressure. HPS opens at
670 psig shutting down the compressor,
while HPS2 opens at 565,
limiting
550 and 625 psi differential
UNIT
OPERATION,
ENVIRONMENTAL
HAZARD
Switch
20 psig.
by
REFRIGERANT
This switch is located on the liquid line and protects against low
suction pressures caused by such events as loss of charge, low
airflow across indoor coil, dirty filters, etc. It opens if the system
pressure drops to about
switch should be closed.
the system
Circuit
(R-410A)
systems. R-22 pressure switches must
replacements
for the Puron (R-410A)
system.
Loss-of-Charge
throughout
compressor
oil needed,
servicing
systems
on
synthetic materials, the filter drier, and refrigerant
Pressure switches are protective devices integrated into the control
circuit (low voltage). They shut off compressor
if abnormally
high
or low pressures
are present in the refrigeration
circuit. These
pressure
refrigerant
port is a safety device, designed to protect against
pressure.
The relief port has an operating
range
This step covers
The heating and/or cooling airflow
does not require checking
unless improper performance
is suspected.
If a problem exists, be
sure that all supplyand return-air
grilles are open and free from
obstructions,
and that the air filter is clean.
pumps
refrigerants.
away from
flooded
starts. The compressor
is equipped
with noise reducing
shutdown
device
and an internal
pressure-relief
port.
The
Refrigerant
section.
Indoor Airflow
Pressure
in personal
the interaction
of a stationary
and an orbiting scroll. The scroll
compressor
has no dynamic suction or discharge valves, and it is
more tolerant of stresses caused by debris, liquid slugging,
and
between
leaks are found
result
Wear safety glasses and gloves when handling
Keep
torches
and other
ignition
sources
refrigerants
and oils.
The scroll compressor
accumulation
annually.
refrigerant leak.
HAZARD
Failure to follow this warning
could
iniury or death and/or property damage.
Circuit
all refrigerant
FIRE
these
pressure,
across
switch.
are
it is not advisable
troubleshooting
unless
exists.
If switch
must be removed,
charge
so that
without
breaking
pressure
vacuum
have
switch.
switches
you
You should
attached
are reasonably
gauges
remove
read
to refrigeration
to remove
certain
this device for
that a problem
and recover
0 psi.
Never
all system
open
system
Exposure,
even
if
lubricants are known
roofing materials.
immediately
cleaned
up,
to cause long
may
cause
embrittlement
(leading to cracking)
to occur in one year or more.
When
performing
any service
that may
risk exposure
of
compressor
oil to the roof, take appropriate
precautions
to protect
roofing.
Procedures
which risk oil leakage
include, but are not
limited to, compressor
replacing
refrigerant
switch,
with dry nitrogen.
31
metering
replacement,
components
device,
repairing
such as
coil, accumulator,
refrigerant leaks, and
filter drier, pressure
or reversing
valve.
Synthetic
Roof Precautionary
1. Cover
extended
polyethylene
approximate
2. Cover
Procedure
roof
area with
an inapermeable
(plastic)
drip
cloth
or
10 X 10 ft (3x3 m) area.
area in front
cloth
If communication
working
shop
towel
tarp.
run-offs,
and protect
or components.
drop
lubricant
panel with
spills
cloth from
an
MODEL
of the unit service
to absorb
Cover
and
tears caused
a terry
prevent
by tools
through
the louvered
4. Perform
required
openings
FILTER
material
per
PURON
3. Display
designed
to operate
with Puron.
Use
4. After
components.
Filter drier must be replaced
system is opened. When removing a filter
and contaminants
(R-410A)
hose. Charge
refrigerant
into suction
line.
lockout,
LEDs built into Infinity control boards provide installer or service
person information
concerning
operation and/or fault condition
of
the unit controls
and ECM motor.
This information
is also
If the HP/AC
available
BROWN
UI in
text
with
basic
troubleshooting
Start-Up
& Troubleshooting
and Table 4, as well as the UI
instructions,
for
additional
information.
Additional
Troubleshooting
information
can be found in Table 9 and 10.
MAJOR
COMPONENTS
2-STAGE
HP/AC
The two-stage
functions:
- Low-
BOARD
HP/AC
control
and high-stage
- Outdoor
fan motor
- Reversing
- Defrost
compressor
board
controls
operation
valve operation
- Crankcase
cooling
- Pressure
external
switch monitoring
The furnace
board
- Indoor
blower
(refrigerant)
controls
the following
functions:
appropriate
replaced.
control
fault code
- Remote
sparker
- Pressure
switch monitoring
delay, then resume
operation
cycles,
with a call
the unit operation
switch
charge
trip or low pressure
and indoor
airflow.
board
has failed,
(See Table 4).
the control
The control
will
board
flash the
should
be
OUT PROTECTION
Compressor
and fan operation
are not allowed until voltage is a
n_ininmm of 190v.
The control will flash the appropriate
fault
code
(See Table 4).
230V
LINE
(POWER
DISCONNECT)
DETECTION
If there is no 230v at the compressor
contactor
when the unit is
powered
and cooling demand exists, the appropriate
error code is
displayed.
connected
Verify that the disconnect
to the unit.
VOLTAGE
error.
is closed
and 230v
wiring
is
SENSING
is energized,
contactor
is
DETECTION
voltage sensed when there is no demand for
the contactor may be stuck closed or there is
The control
THERMAL
If the control senses
then absent for 10
module
COMMUNICATION
SHORTED
If there is compressor
compressor
operation,
COMPRESSOR
motor
is
If the line voltage is less than 187v for at least 4 seconds, the
appropriate
compressor
contactor
and fan relay are de-energized.
a wiring
operation
- Inducer
and
contactor
de-energized.
- Gas valve
SYSTEMS
following
compressor
FAULT
CONTACTOR
BOARD
the
should be present any time the compressor
contactor
and voltage
should
not be present
when
the
protection
- Time delays
FURNACE
is reset,
The control board input terminals VS and L2 (See Fig. 19) are
used to detect compressor
voltage status, and alert the user of
potential
problems.
The control continuously
monitors
the high
voltage on the run capacitor of the compressor
motor. Voltage
heater operation
- Compressor
for 15 minutes.
delay, if there is still a call for cooling
HPS
check the refrigerant
COMPRESSOR
operation
operation
- Low ambient
the
& LPS) or the
fault codes.
8. In the event of a low-pressure
use of information
displayed will reduce the
manual troubleshooting.
See section B in
(HPS1
(HPS2).
7. In the event of a high-pressure
switch trip or high pressure
lockout, check the refrigerant charge, outdoor fan operation
and outdoor coil for airflow restrictions.
Puron units with
metering device in
CONTROL
system
or
contactor
contactor
fan operating
a 15 minute
LED DESCRIPTION
at the
the compressor
solenoid
6. If LPS or HPS trips 3 consecutive
is locked out for 4 hours.
TROUBLESHOOTING
instructions.
Careful
need for extensive
PROTECTION-REFRIGERANT
after the 15-minute
for cooling.
Refer to unit information
plate and charging chart. Some R-410A
refrigerant
cylinders
contain
a dip tube to allow
liquid
refrigerant
to flow from cylinder
in upright
position.
For
manifold
to
5. If LPS or HPS has not closed after a 15 minute delay, the
outdoor fan is turned off. If the open switch closes anytime
CHARGING
with a dip tube, charge
position and a commercial
UI, the
the wiring
must have a valid model plug to operate.
the appropriate
the LPS
energized.
from drier into system.
REFRIGERANT
cylinders
equipped
cylinder in upright
SWITCH
compressor
drier, use a tubing cutter to cut the drier from the system. Do not
unsweat a filter drier from the system. Heat from unsweating
will
release moisture
board
2. Keep the outdoor
The filter drier is specifically
Check
The unit is equipped with high- and low-pressure
switches. If the
control senses the opening of a high- or low-pressure
switch, it
will respond as follows:
DRIER
only factory-authorized
whenever the refrigerant
control
1. De-energize
of any oil-contaminated
is lost with the
If a valid model plug is not detected, it will not operate and the
control will flash the appropriate
fault code, shown in Table 4.
service.
5. Remove and dispose
local codes.
LIQUID-LINE
in the unit base.
Control
fault codes.
PLUG
The HP/AC
PRESSURE
3. Place terry cloth shop towel inside unit immediately
under
component(s)
to be serviced and prevent lubricant run-offs
with the Infinity
controls will flash the appropriate
the UI, indoor and outdoor units.
will flash the appropriate
fault code.
CUTOUT
the compressor
voltage after start-up,
and is
consecutive
seconds
while cooling
demand
exists, the thermal protector is open. The control de-energizes
compressor
contactor for 15 minutes, but continues to operate
(gas)
FAILURE
the
the
outdoor fan.
The control Status LED will flash the appropriate
code shown in Table 4. After 15 minutes, with a call for low or
high stage cooling, the compressor
contactor is energized.
If the
thermal
32
protector
has not re-set,
the outdoor
fan is turned
off.
If
the call
for
compressor
cooling
continues,
contactor
every
closes (at the next 15 nfinute
operation.
If the thermal cutout
operation
displayed.
is locked
the
control
15 nfinutes.
will
interval),
check
the
cycles,
and the appropriate
warmer
is not
should
wiring
be starting, the contactor
error.
The control will
Check
the contactor
and control
sensed
when
may be stuck open
flash the appropriate
or there is a
fault code.
box wiring.
TROUBLESHOOTING
UNIT
FOR
BETWEEN
LOW & HIGH STAGES
PROPER
SWITCHING
thernfistor
FAILED
Factory
outdoor
pressures
operation,
so liquid
are very
sinfilar
pressure
should
between
not
low and
be used
for
troubleshooting.
Compressor
current should increase 20-45%
when switching from
low to high stage.
The compressor
solenoid, when energized in
high stage, should measure 24vac.
COMPRESSOR
INTERNAL
F (19.3
°
air sensor
o
C)
indicates
the sensors
are out of
will flash the appropriate
is not performed
during
low ambient
DEFAULT
OPERATION
provided
in the event
coil thernfistor.
of failure
of
If the OAT sensor should fail, low ambient cooling will not be
allowed and the one-nfinute
outdoor fan off delay will not occur.
allowed.
operation,
The liquid
comparison
defaults have been
air thernfistor and/or
capacity.
stage
(or) the outdoor
cooler than the coil sensor,
THERMISTOR
Defrost
high
_ 3.5
>
operation.
Check the suction pressures at the service valves.
Suction pressure
should be reduced by 3-10% when switching
from low to high
NOTE:
than the coil sensor
indicates
range.
cooling
the compressor
air sensor
If the sensors are out of range, the control
fault code as shown in Table 4.
The
voltage
if the outdoor
-> 10°F (5.5°C)
then unit
fault code is
NO 230V AT COMPRESSOR
If the compressor
• In heating
the unit will resume
trips for three consecutive
out for 4 hours
energize
If the thermal protector
will be initiated
If the OCT
sensor
based
should
on coil temperature
fail, low
ambient
and time.
cooling
Defrost will occur at each time interval
but will ternfinate after 5 nfinutes.
will
not be
during
heating
If there is a thernfistor out of range error, defrost will occur
time interval during heating operation,
but will ternfinate
nfinutes.
Refer to the Troubleshooting
troubleshooting
information.
at each
after 5
Chart (Table 9 and 10) for additional
RELIEF
The compressor
is protected by an internal pressure
relief (IPR)
which
relieves
discharge
gas into
compressor
shell
when
differential between suction and discharge pressures exceeds
550 625 psi. The compressor
is also protected
attached to motor windings.
TEMPERATURE
are electronic
temperature
increases,
devices
the
If the outdoor
ambient
or coil thernfistor
is mounted
(OAT) is field mounted
been properly installed.
As the
Thernfistors
should
fail,
are
(OCT).
See Fig.
tight on the liquid
"tub
the HP/AC
J
fault code (See Table 4).
Coil thernfistor
thernfistor
sense temperature.
decreases.
(OAT) and coil temperature
values versus temperature.
will flash the appropriate
IMPORTANT:
which
resistance
used to sense outdoor ambient
Refer to Fig. 29 for resistance
30 for OCT location.
insure
overload
THERMISTORS
Thernfistors
control
by an internal
is factory
properly.
mounted.
Outdoor
and connected.
Verify
Check
air thernfistor
F
that the OAT has
A06311
Fig. 3t) - Outdoor
THERMISTOR
Coil Thermistor
I
I
I
7o- -'_-- _------ I----- _-----6o- ---_- J.-- -- -- J----- _------
IMPORTANT:
1. Ensure
T------I ....
J----- --I....
2. Ensure
adding
covers.
3. Tighten
tight.
o ..................
I...................
I...................
I...................
I...................
I,,,,,_
40
60
TEMPERATURE
80
100
monitors
and compares
temperature
sensor and outdoor coil temperature
proper operating conditions.
The comparison
is:
• In cooling
mode,
if the outdoor
air sensor
(5.5 °C) warmer
than the coil sensor
indicates
(II.0°C)
-> 20°F
is routed
that all wiring
panels
service
and sheet
or wire pinching.
and tubing
is secure
and covers.
valve
away from tubing
rub-through
stem
Securely
fasten
caps
to l/2-turn
in unit before
all panels
past
and
finger
4. Leave Users Manual with owner. Explain system operation
and periodic maintenance
requirements
outlined in manual.
A91431
continuously
that all wiring
job, be sure to do the following:
120
(DEG. F)
5. Fill out Start-Up
Checklist
manual and place in customer
Fig. 29 - Resistance
Values Versus Temperature
THERMISTOR
SENSOR COMPARISON
The control
CHECKS
Before leaving
metal edges to prevent
\t
t
t
t
t
50....
'_------ 1----- _------ 1-------I ....
40- _,__
k__ d___
J____l ....
t\
t
t
t
t
3o.... _----_',_---_------I------I
....
20....
_ ______/'_/__
____/ ____--I....
t
t
_
t
t
lo....
H--t---_--_-20
Attachment
I
8o- k----4------4----M------4-------I
....
\
t
t
t
t
t
0
(OCT)
CURVE
FINAL
9O
o
to
CARE
the outdoor
sensor
indicates
(or) the outdoor
cooler than the coil sensor,
air
to ensure
-> 10 °F
air sensor
the sensors
For
continuing
equipment
equipment.
high
AND
Frequency
of maintenance
areas,
such as coastal
information.
are out of range.
33
at the back
of this
MAINTENANCE
performance
failure, periodic
located
file.
maintenance
and
to
nfininfize
must be performed
possible
on this
may vary depending
upon geographic
applications.
See Users
Manual
for
AIR CONDITIONER
REFRIGERATION
SECTION
WITH PURON
QUICK-REFERENCE
Puron refrigerant operates at 50-70 percent higher pressures than R-22. Be sure that servicing
designed to operate with Puron. Puron refrigerant cylinders are rose colored.
• Puron refrigerant
position.
cylinders manufactured
Cylinders
manufactured
GUIDE
equipment
and replacement
• Puron
cylinder
systems
• Manifold
service
should
March 1, 1999 and later DO NOT have a dip tube and MUST
sets should
be minimum
• Use hoses with minimum
• Leak detectors
• Puron,
• Vacuum
pressure
be charged
should
rating must be 400 psig. DOT 4BA400
with liquid refrigerant.
be positioned
upside down
will not remove
• Only use factory-specified
• POE oils absorb
moisture
liquid-line
• Do not install a suction-line
moisture
rapidly.
with POE oils.
from oil.
Do not expose
and service
filter drier is required
• Do not use an R-22
TXV.
• Never
to atmosphere
must be opened
• Do not vent Puron
rating.
pressures
valves
materials.
with wet cloth when brazing.
on every unit.
while it is under
a vacuum.
for service, break vacuum
with dry nitrogen
into the atmosphere.
all warnings,
cautions,
• Do not leave Puron suction
no less than 600 psig.
oil to atmosphere.
to certain plastics and roofing
• A Puron liquid-line
• Observe
pressure
filter driers with rated working
• Wrap all filter driers
• When system
device in the manifold
filter drier in liquid line.
• POE oils may cause damage
open system
metering
to detect HFC refrigerant.
as with other HFCs, is only compatible
pumps
or DOT BW400.
Use a commercial-type
700 psig high side and 180 psig low side with 550 psig low side retard.
700 psig service
be designed
are
prior to March 1, 1999, have a dip tube that allows liquid to flow out of cylinder in upright
to flow.
• Recovery
components
and bold text.
line driers in place for more than 72 hrs.
34
and replace
filter driers.
hose.
to allow liquid
Table 9 - Troubleshooting
SYMPTOM
Chart
- Cooling
CAUSE
REMEDY
Power failure
Fuse blown or circuit breaker tripped
Compressor and outdoor fan
will not start
Defective contactor, transformer, control relay, or highpressure, loss-of-charge
or low-pressure switch
Replace component
Insufficient line voltage
Determine cause and correct
Incorrect or faulty wiring
Check wiring diagram and rewire correctly
UI setting too low/too high
Reset UI setting
Units
have
a 5-minute
time
DO NOT bypass this compressor time
delay-wait for 5 minutes until time-delay
relay is de-energized
delay
Faulty wiring or circuit
Loose connections in compressor
Compressor
runs
will not start but condenser
fan
Check wiring and repair or replace
Compressor motor burned out, seized, or
internal overload open
Compressor
operates continuously
Low input voltage (20 percent low)
Determine cause and correct
Refrigerant
Recover refrigerant, evacuate system, and recharge to capacities shown on rating plate
overcharge
or undercharge
Insufficient line voltage
Blocked outdoor coil
Replace and determine cause
Determine cause and correct
Determine cause and correct
Defective run/start capacitor, overload or start relay
Determine cause and replace
Faulty outdoor fan motor or capacitor
Restriction in refrigerant system
Replace
Locate restriction and remove
Dirty air filter
Unit undersized for load
Replace filter
Decrease load or increase
UI temperature
set too low
Reset UI setting
Low refrigerant
charge
Locate leak, repair, and recharge
Recover refrigerant, evacuate system, and recharge
Clean coil or remove restriction
Outdoor coil dirty or restricted
Dirty air filter
Recover excess
pressure
Air in system
Indoor or outdoor air restricted
Head pressure too low
Excessive suction pressure
Check for leaks, repair and recharge
Remove restriction
High heat load
Reversing valve hung up or leaking internally
Check for source and eliminate
Refrigerant
Recover excess refrigerant
overcharged
charge
Metering device or low side restricted
Insufficient coil airflow
Temperature
IFM does not run
or air short-cycling
too low in conditioned
area
Replace valve
Replace filter
Check for leaks, repair and recharge
Remove source of restriction
Check filter-replace
if necessary
Reset UI setting
Outdoor ambient below 55°F (13°C)
Filter drier restricted
Verify low-ambient
Replace
Blower wheel not secured to shaft
Insufficient voltage at motor
Properly tighten blower wheel to shaft
Determine cause and correct
Power connectors
Connectors
not properly sealed
Water dripping into motor
IFM operation
refrigerant
Recover refrigerant, evacuate system, and recharge
Determine cause and correct
Low refrigerant charge
Restriction in liquid tube
Dirty air filter
Low refrigerant
Suction pressure too low
unit size
Replace filter
Clean coil
Dirty indoor or outdoor coil
Refrigerant overcharged
head
Replace compressor
Determine cause and replace
Air in system
Excessive
Determine cause
Defective run capacitor, overload, or PTC (positive
temperature coefficient) thermistor
Defective compressor
Compressor cycles (other than normally satisfying) cooling/heating calls
Call power company
Replace fuse or reset circuit breaker
should snap easily; do not force
Verify proper drip loops in connector wires
Gently pull wires individually to be sure they are
crimped into the housing
is intermittent
Connectors
cooling enabled in UI
not firmly sealed
35
Table
lO--Troubleshooting
SYMPTOM
Chart
- Gas
Furnace
CAUSE
heating
REMEDY
Drain. Install drip leg.
No power to unit
Check power supply fuses, wiring or circuit
breaker.
No 24-v power supply to control circuit
Check transformer.
NOTE: Some transformers have internal overcurrent protection that requires a cool-down period to reset.
Mis-wired
Check all wiring and wire nut connections
or loose connections
Misaligned spark electrodes
Check flame ignition and sense electrode
tioning.
Adjust as necessary.
No gas at main burners
1. Check gas line for air. Purge as necessary.
NOTE: After purging gas line of air, wait at least 5
minutes for any gas to dissipate before attempting to light unit.
2. Check gas valve.
Inducer pressure switch not closing
1. Check pressure switch wires, connections,
and tubing. Repair or replace if necessary.
Dirty air filter
Clean or replace filter as necessary
Gas input to unit too low
Check gas pressure at manifold match with that
on unit nameplate
Unit undersized for application
Restricted airflow
Replace with proper unit or add additional
posi-
unit
Clean or replace filter. Remove any restriction.
Check rotation of blower, temperature
Adjust as necessary.
Limit switch cycles main burners
Poor flame characteristics
peration
Water in gas line
Burners will not ignite
Inadequate
0
Incomplete combustion results in: Aldehyde odors,
carbon monoxide, sooting flame, floating flame
36
rise of unit.
1. Tighten all screws around burner compartment
2. Cracked heat exchanger. Replace.
3. Unit over-fired. Reduce input (change orifices
or adjust gas line or manifold pressure).
4. Check burner alignment.
5. Inspect heat exchanger for blockage. Clean
as necessary.
START-UP
(Remove
I. PRELIMINARY
MODEL
NO.:
SERIAL
NO.:
CHECKLIST
and Store
in Job
Files)
INFORMATION
DATE:
TECHNICIAN:
II. PRESTART-UP
( ) VERIFY
(Insert
check mark in box as each item is completed)
THAT ALL PACKING
( ) REMOVE
ALL SHIPPING
MATERIALS
HOLD
DOWN
( ) CHECK
ALL ELECTRICAL
( ) CHECK
GAS
( ) CHECK
THAT
INDOOR
( ) VERIFY
THAT
UNIT INSTALLATION
PIPING
HAVE BEEN REMOVED
BOLTS AND BRACKETS
CONNECTIONS
FOR LEAKS
AND TERMINALS
(WHERE
(EVAPORATOR)
FROM
UNIT
PER INSTALLATION
INSTRUCTIONS
FOR TIGHTNESS
APPLICABLE)
AIR FILTER
IS CLEAN
AND
IN PLACE
IS LEVEL
( ) CHECK
FAN WHEEL,
( ) MAKE
OUTDOOR
SURE THAT
- (If Applicable)
ON A60 SIZE PURON
COILS AND REVERSING
VALVE/ACCUMULATOR
AND PROPELLER
FOR LOCATION
IN HOUSING/ORIFICE
AND
HEAT PUMP ONLY, THE
HAVE BEEN REMOVED
SETSCREW
TWO
WIRE
III. START-UP
ELECTRICAL
SUPPLY
VOLTAGE
COMPRESSOR
INDOOR
AMPS
(EVAPORATOR)
FAN AMPS
TEMPERATURES
DB
OUTDOOR
(CONDENSER)
AIR TEMPERATURE
RETURN-AIR
TEMPERATURE
COOLING
GAS HEAT
SUPPLY
AIR
SUPPLY
DB
WB
DB
WB
AIR
PRESSURES
(;AS INLET PRESSURE
GAS MANIFOLD
IN. W.C.
PRESSURE
REFRIGERANT
SUCTION
REFRIGERANT
DISCHARGE
( ) VERIFY REFRIGERANT
GAS HEAT TEMPERATURE
IN. W.C.
PSIG,
PSIG,
CHARGE
RISE
USING
TEMPERATURE
RISE (See Literature)
MEASURED
TEMPERATURE
RISE
RANGE
( ) VERIFY
THAT
SUCTION
CONDENSATE
CHARGING
CONNECTION
( ) VERIFY THAT OUTDOOR
AIR THERMISTOR
* Measured at suction inlet to compressor
1- Measured at liquid line leaving condenser.
LINE
TEMP*
LIQUID
TEMPi-
CHARTS
IS INSTALLED
PROPERLY
(OAT) IS PROPERLY
37
INSTALLED
& CONNECTED
TIGHTNESS
TIRES
FASTEN
TO THE
Copyright
2009 Carrier Corp. •
Manufacturer
reserves
7310 W. Morris St. •
the right to change,
Indianapolis,
IN 46231
at any time, specification8
and design8
Printed in U.S.A.
without
Edition
notice and without
38
Date: 08/09
obligations,
Catalog No:48XL-06SI
Replaces:
48XL-
05Sl
Source Exif Data:
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