INSTALLATION
INSTRUCTIONS
E2010 Lennox Industries Inc.
Dallas, Texas, USA
Dave Lennox Signature®
Collection XC17 Units
AIR CONDITIONER
506510−01
04/10
Litho U.S.A.
Supersedes 506498−01
RETAIN THESE INSTRUCTIONS FOR FUTURE
REFERENCE
TABLE OF CONTENTS
Shipping and Packing List . . . . . . . . . . . . . . . . . . . . . .
Unit Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Model Number Identification . . . . . . . . . . . . . . . . . . . .
Unit Parts Arrangement . . . . . . . . . . . . . . . . . . . . . . . .
Operating Gauge Set and Service Valves . . . . . . . . .
Recovering Refrigerant from Existing System . . . . .
New Outdoor Unit Placement . . . . . . . . . . . . . . . . . . .
NOTICE
A thermostat is not included and must be ordered
separately.
®
The Lennox ComfortSense 7000 thermostat may be
used, as well as other thermostats.
In all cases, setup is critical to ensure proper system
operation.
Field wiring is illustrated in diagrams, which begin on
WARNING
Improper installation, adjustment, alteration, service or
maintenance can cause personal injury, loss of life, or
damage to property.
Installation and service must be performed by a licensed
professional installer (or equivalent) or a service agency.
General
This single−stage outdoor unit is designed for use with
HFC−410A refrigerant only. This unit must be installed
with an approved indoor air handler or coil. See the
Lennox XC17 Engineering Handbook for approved
indoor component matchups.
Shipping and Packing List
Check unit for shipping damage. Consult last carrier
immediately if damage is found.
IMPORTANT
This model is designed for use in expansion valve
systems only. An indoor expansion valve approved for
use with HFC−410A refrigerant must be ordered
separately, and installed prior to operating the system.
1 ꢀ Assembled outdoor unit.
1 ꢀ Bag assembly which includes the following:
1 ꢀ Bushing (for low voltage wiring)
2 ꢀ Isolation grommets for liquid and suction lines
04/10
506510−01
Page 1
*2P0410*
*P506510-01*
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Typical Unit Parts Arrangement
FAN MOTOR CONTROL ꢀ
PULSE−WIDTH MODULATION (PWM)
GROUND LUG
CONTACTOR−1POLE (K1−1)
WIRE TIE
HIGH VOLTAGE FIELD
CONNECTIONS
SLEEVE
OUTDOOR AMBIENT
TEMPERATURE
SENSOR
CAPACITOR (C12)
MAIN CONTROL
CONTROL BOX
FAN MOTOR SURGE
PROTECTION
HIGH DISCHARGE
LINE TEMPERATURE
SENSOR
COMPRESSOR
HARNESS
MUFFLER
HIGH PRESSURE SWITCH
FIELD CONNECTION
FOR SUCTION LINE
SUCTION LINE SERVICE
VALVE PORT
SUCTION LINE SERVICE
VALVE
LIQUID LINE SERVICE
VALVE PORT
VIBRATION ISOLATOR
SLEEVE LOCATIONS (DO
NOT REMOVE)
LIQUID LINE SERVICE
VALVE
SR1 SOUND DOME
THERMOSTAT
FIELD CONNECTION
FOR LIQUID LINE SET
LIQUID LINE FILTER
DRIER (SINGLE FLOW)
LOW PRESSURE SWITCH
HIGH PRESSURE SWITCH
PLUMBING, SWITCHES AND SENSOR COMPONENTS
Figure 1. Typical Parts Arrangements
Page 3
XC17 SERIES
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CAUTION
IMPORTANT
Physical contact with metal edges and corners while
applying excessive force or rapid motion can result in
personal injury. Be aware of, and use caution when
working near these areas during installation or while
servicing this equipment.
Only use Allen wrenches of sufficient hardness (50Rc −
Rockwell Harness Scale minimum). Fully insert the
wrench into the valve stem recess.
Service valve stems are factory−torqued (from 9 ft−lbs for
small valves, to 25 ft−lbs for large valves) to prevent
refrigerant loss during shipping and handling. Using an
Allen wrench rated at less than 50Rc risks rounding or
breaking off the wrench, or stripping the valve stem
recess.
IMPORTANT
The Clean Air Act of 1990 bans the intentional venting of
refrigerant (CFCs, HCFCs AND HFCs) as of July 1,
1992. Approved methods of recovery, recycling or
reclaiming must be followed. Fines and/or incarceration
may be levied for noncompliance.
See the Lennox Service and Application Notes #C−08−1
for further details and information.
IMPORTANT
To prevent stripping of the various caps used, the
appropriately sized wrench should be used and fitted
snugly over the cap before tightening.
IMPORTANT
This unit must be matched with an indoor coil as
specified in Lennox’ Engineering Handbook. Coils
previously charged with HCFC−22 must be flushed.
Table 1. Torque Requirements
Parts
Recommended Torque
Service valve cap
Sheet metal screws
Machine screws #10
Compressor bolts
Gauge port seal cap
8 ft.− lb.
11 NM
16 in.− lb.
28 in.− lb.
90 in.− lb.
8 ft.− lb.
2 NM
3 NM
WARNING
Electric Shock Hazard. Can cause injury
or death. Unit must be grounded in
accordance with national and local
codes.
10 NM
11 NM
USING MANIFOLD GAUGE SET
When checking the system charge, only use a manifold
gauge set that features low loss anti−blow back fittings.
Line voltage is present at all components
when unit is not in operation on units with
single-pole contactors. Disconnect all
remote electric power supplies before
opening access panel. Unit may have
multiple power supplies.
Manifold gauge set used with HFC−410A refrigerant
systems must be capable of handling the higher system
operating pressures. The gauges should be rated for use
with pressures of 0 − 800 psig on the high side and a low
side of 30" vacuum to 250 psig with dampened speed to
500 psi. Gauge hoses must be rated for use at up to 800
psig of pressure with a 4000 psig burst rating.
Operating Gauge Set and Service Valves
These instructions are intended as a general guide and do
not supersede local codes in any way. Consult authorities
who have jurisdiction before installation.
OPERATING SERVICE VALVES
The liquid and vapor line service valves are used for
removing refrigerant, flushing, leak testing, evacuating,
checking charge and charging.
TORQUE REQUIREMENTS
When servicing or repairing heating, ventilating, and air
conditioning components, ensure the fasteners are
fasteners.
Each valve is equipped with a service port which has a
on how to access and operating both angle and ball service
valves.
Page 4
506510−01
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SERVICE PORT CAP
SERVICE VALVES
VARIOUS TYPES
SERVICE PORT
SERVICE PORT
CORE
(VALVE STEM SHOWN
CLOSED) INSERT HEX
WRENCH HERE
OPEN TO BOTH INDOOR AND
OUTDOOR UNITS
SERVICE PORT CAP
VALVE STEM
FRONT-SEATED
SERVICE PORT
SERVICE PORT
CORE
TO INDOOR
UNIT
(VALVE STEM
SHOWN OPEN)
INSERT HEX
STEM CAP
WRENCH HERE
TO OUTDOOR
UNIT
CLOSED TO BOTH
INDOOR AND OUTDOOR
UNITS
ANGLE−TYPE
SERVICE VALVE
(FRONT−SEATED
CLOSED)
TO INDOOR
UNIT
STEM CAP
TO INDOOR UNIT
ANGLE−TYPE SERVICE VALVE
(BACK−SEATED OPENED)
TO OUTDOOR UNIT
WHEN SERVICE VALVE IS CLOSED, THE SERVICE PORT IS OPEN TO THE
LINE SET AND INDOOR UNIT.
TO OPEN ROTATE STEM
COUNTERCLOCKWISE 90°.
BALL (SHOWN CLOSED)
VALVE STEM
WHEN SERVICE VALVE IS OPEN, THE SERVICE PORT IS OPEN TO LINE SET,
INDOOR AND OUTDOOR UNIT.
TO CLOSE ROTATE STEM
CLOCKWISE 90°.
SERVICE PORT
SERVICE PORT CORE
SERVICE PORT CAP
To Access Service Port:
STEM CAP
A service port cap protects the service port core from contamination and
serves as the primary leak seal.
TO OUTDOOR UNIT
1. Remove service port cap with an appropriately sized wrench.
2. Connect gauge set to service port.
1/6 TURN
BALL−TYPE SERVICE
VALVE
3. When testing is completed, replace service port cap and tighten as fol-
lows:
12
1
5
11
10
2
S
9
3
S Without Torque Wrench: Finger tighten and use an appropriately
sized wrench to turn an additional 1/6 turn clockwise.
Operating Angle Type Service Valve:
4
8
7
6
1. Remove stem cap with an appropriately sized wrench.
2. Use a service wrench with a hex−head extension (3/16" for liquid line valve sizes and 5/16" for vapor line valve
sizes) to back the stem out counterclockwise as far as it will go.
Operating Ball Type Service Valve:
1. Remove stem cap with an appropriately sized wrench.
2. Use an appropriately sized wrenched to open. To open valve, rotate stem counterclockwise 90°. To close rotate stem clockwise 90°.
Reinstall Stem Cap:
1/6 TURN
Stem cap protects the valve stem from damage and serves as the primary seal. Replace the stem cap and
tighten as follows:
12
1
5
11
10
2
S
S
9
3
Without Torque Wrench: Finger tighten and use an appropriately sized wrench to turn
an additional 1/12 turn clockwise.
4
8
7
6
NOTE ꢀ A label with specific torque requirements may be affixed to the stem cap. If the label is present, use the specified torque.
Figure 2. Angle and Ball Service Valves
Page 5
XC17 SERIES
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Recovering Refrigerant from Existing System
RECOVERING
REFRIGERANT FROM SYSTEM
CONNECT MANIFOLD GAUGE SET
DISCONNECT POWER
Disconnect all power to the existing outdoor unit at the disconnect
Connect a gauge set, clean recovery cylinder and a recovery
machine to the service ports of the existing unit. Use the
instructions provided with the recovery machine to make the
connections.
2
1
switch or main fuse box/breaker panel.
MAIN FUSE BOX/BREAKER PANEL
MANIFOLD GAUGES
SERVICE
DISCONNECT
SWITCH
RECOVERY MACHINE
LOW
HIGH
OUTDOOR UNIT
CLEAN RECOVERY
CYLINDER
RECOVERING REFRIGERANT
Remove existing HCFC−22 refrigerant using one of the following procedures:
3
IMPORTANT ꢀ Some system configurations may contain higher than normal refrigerant charge due to either large internal coil volumes,
and/or long line sets.
METHOD 1:
Us this method if the existing outdoor unit is not equipped with shut−off valves, or if the unit is not operational and you plan to use the existing
HCFC−22 to flush the system.
Remove all HCFC−22 refrigerant from the existing system. Check gauges after shutdown to confirm that the entire system is completely void of
refrigerant.
METHOD 2:
Use this method if the existing outdoor unit is equipped with manual shut−off valves, and you plan to use new HCFC−22 refrigerant to flush the
system.
The following devices could prevent full system charge recovery into the outdoor unit:
S
S
S
Outdoor unit’s high or low−pressure switches (if applicable) when tripped can cycle the compressor OFF.
Compressor can stop pumping due to tripped internal pressure relief valve.
Compressor has internal vacuum protection that is designed to unload the scrolls (compressor stops pumping) when the pressure ratio meets
a certain value or when the suction pressure is as high as 20 psig. (Compressor suction pressures should never be allowed to go into a vacuum.
Prolonged operation at low suction pressures will result in overheating of the scrolls and permanent damage to the scroll tips, drive bearings and
internal seals.)
Once the compressor can not pump down to a lower pressure due to one of the above system conditions, shut off the vapor valve. Turn OFF the
main power to unit and use a recovery machine to recover any refrigerant left in the indoor coil and line set.
Perform the following task:
A
B
Start the existing HCFC−22 system in the cooling mode and close the liquid line valve.
Use the compressor to pump as much of the existing HCFC−22 refrigerant into the outdoor unit until the outdoor system is full. Turn the outdoor unit
main power OFF and use a recovery machine to remove the remaining refrigerant from the system.
NOTE ꢀ It may be necessary to bypass the low pressure switches (if equipped) to ensure complete refrigerant evacuation.
C
D
When the low side system pressures reach 0 psig, close the vapor line valve.
Check gauges after shutdown to confirm that the valves are not allowing refrigerant to flow back into the low side of the system.
Page 6
506510−01
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MINIMUM CLEARANCE
ABOVE UNIT
CLEARANCE ON ALL SIDES ꢀ INCHES (MILLIMETERS)
6 (152)
ACCESS PANEL
NOTES:
48 (1219)
S
S
Clearance to one of the other three
sides must be 36 inches (914mm).
30 (762)
12 (305)
Clearance to one of the remaining
two sides may be 12 inches
(305mm) and the final side may be
6 inches (152mm).
LINE SET
CONNECTIONS
36 (914)
MINIMUM CLEARANCE BETWEEN
TWO UNITS
ACCESS PANEL
24 (610)
LINE SET
CONNECTIONS
REAR VIEW OF UNIT
Figure 3. Installation Clearances
property, not from the installation property. Install the
unit as far as possible from the property line.
New Outdoor Unit Placement
S
When possible, do not install the unit directly outside
a window. Glass has a very high level of sound
transmission. For proper placement of unit in relation
Detail A.
CAUTION
In order to avoid injury, take proper precaution when
lifting heavy objects.
PLACING UNIT ON SLAB
See Unit Dimensions on page 3 for sizing mounting slab,
installation clearance requirements.
When installing unit at grade level, the top of the slab
should be high enough above grade so that water from
higher ground will not collect around the unit. The slab
should have a slope tolerance as described in Figure 4,
Detail B.
POSITIONING CONSIDERATIONS
Consider the following when positioning the unit:
S
Some localities are adopting sound ordinances based
on the unit’s sound level registered from the adjacent
NOTE ꢀ If necessary for stability, anchor unit to slab as
Page 7
XC17 SERIES
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ELEVATING THE UNIT
With unit positioned at installation site, perform the
following:
Units are outfitted with elongated support feet as illustrated
1. Remove two side louvered panels to expose the unit
base.
If additional elevation is necessary, raise the unit by
extending the height of the unit support feet. This may be
achieved by using a 2 inch (50.8mm) Schedule 40 female
threaded adapter.
using conventional practices.
3. Replace the panels after installation is complete.
ROOF MOUNTING
The specified coupling will fit snuggly into the recessed
portion of the feet. Use additional 2 inch (50.8mm)
Schedule 40 male threaded adaptors which can be
threaded into the female threaded adaptors to make
additional adjustments to the level of the unit.
Install the unit a minimum of 6 inches (152 mm) above the
roof surface to avoid ice build−up around the unit. Locate
the unit above a load bearing wall or area of the roof that
can adequately support the unit. Consult local codes for
rooftop applications.
NOTE ꢀ Keep the height of extenders short enough to
ensure a sturdy installation. If it is necessary to extend
further, consider a different type of field−fabricated
framework that is sturdy enough for greater heights.
If unit coil cannot be mounted away from prevailing winter
winds, a wind barrier should be constructed. Size barrier at
least the same height and width as outdoor unit. Mount
barrier 24 inches (610 mm) from the sides of the unit in the
direction of prevailing winds.
STABILIZING UNIT ON UNEVEN SURFACES
NOTICE
IMPORTANT
Unit Stabilizer Bracket Use (field−provided):
Roof Damage!
This system contains both refrigerant and oil. Some
rubber roofing material may absorb oil and cause the
rubber to swell when it comes into contact with oil. The
rubber will then bubble and could cause leaks. Protect
the roof surface to avoid exposure to refrigerant and oil
during service and installation. Failure to follow this
notice could result in damage to roof surface.
Always use stabilizers when unit is raised above the
factory height. (Elevated units could become unstable in
gusty wind conditions).
Stabilizers may be used on factory height units when
mounted on unstable an uneven surface.
Page 8
506510−01
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DETAIL A
DETAIL B
INSTALL UNIT LEVEL OR, IF ON A SLOPE, MAINTAIN SLOPE TOLERANCE
OF 2 DEGREES (OR 2 INCHES PER 5 FEET [50 MM PER 1.5 M]) AWAY
FROM BUILDING STRUCTURE.
INSTALL UNIT AWAY FROM WINDOWS
BUILDING
STRUCTURE
MOUNTING
SLAB
TWO 90° ELBOWS INSTALLED IN LINE SET WILL
REDUCE LINE SET VIBRATION.
GROUND LEVEL
Slab Mounting at Ground Level
Outside Unit Placement
DETAIL D
DETAIL C
Slab Side Mounting
#10 1/2" LONG SELF−DRILLING
SHEET METAL SCREWS
COIL
STABILIZING BRACKET (18 GAUGE
METAL ꢀ 2" WIDTH; HEIGHT AS
REQUIRED)
BASE PAN
#10 1−1/4" LONG HEX HD SCREW
AND FLAT WASHER
CORNER POST
BASE
CONCRETE SLAB
ꢀ
ANCHORS (HOLE DRILL 1/4")
USE TWO PLASTIC
WOOD OR PLASTIC SLAB ꢀ NO PLASTIC ANCHOR
(HOLE DRILL 1/8")
MINIMUM ONE
PER SIDE
LEG DETAIL
Deck Top Mounting
2" (50.8MM) SCH 40
FEMALE THREADED
ADAPTER
STABILIZING BRACKET (18 GAUGE METAL
2" (50.8MM) WIDTH; HEIGHT AS
REQUIRED); BEND TO FORM RIGHT ANGLE
ꢀ
2" (50.8MM) SCH 40
MALE THREADED
ADAPTER
FOR EXTRA
SAME FASTENERS AS
SLAB SIDE MOUNTING.
STABILITY
ONE BRACKET PER SIDE (MIN.); FOR EXTRA STABILITY, TWO
BRACKETS PER SIDE, 2" (50.8MM) FROM EACH CORNER.
Use additional 2" SCH 40 male threaded adapters
which can be threaded into the female threaded
adapters to make additional adjustments to the level
of the unit.
Stabilizing Unit on Uneven Surfaces
IMPORTANT ꢀ To help stabilize an outdoor unit, some installations may require strap-
ping the unit to the pad using brackets and anchors commonly available in the market-
place.
Elevated Slab Mounting using Feet
Extenders
Figure 4. Placement, Slab Mounting and Stabilizing Unit
Page 9
XC17 SERIES
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Removing and Installing Panels
ACCESS PANEL REMOVAL
Removal and reinstallation of the access
panel is as illustrated.
PANELS
ACCESS AND LOUVERED
REMOVE 4 SCREWS TO
REMOVE PANEL FOR
ACCESSING COMPRESSOR
AND CONTROLS.
WARNING
To prevent personal injury, or damage to panels, unit or structure, be sure to observe
the following:
POSITION PANEL WITH HOLES
ALIGNED; INSTALL SCREWS
AND TIGHTEN.
While installing or servicing this unit, carefully stow all removed panels out of the
way, so that the panels will not cause injury to personnel, nor cause damage to ob-
jects or structures nearby, nor will the panels be subjected to damage (e.g., being
bent or scratched).
While handling or stowing the panels, consider any weather conditions, especially
windy conditions, that may cause panels to be blown around and battered.
Detail A
IMPORTANT ꢀ Do not allow panels to hang on unit by top tab. Tab is for align-
ment and not designed to support weight of panel.
LIP
PANEL SHOWN SLIGHTLY ROTATED TO ALLOW TOP TAB TO EXIT (OR ENTER) TOP SLOT
FOR REMOVING (OR INSTALLING) PANEL.
LOUVERED PANEL REMOVAL
Remove the louvered panels as follows:
1. Remove two screws, allowing the panel to swing open slightly.
2. Hold the panel firmly throughout this procedure. Rotate bottom corner of panel
away from hinged corner post until lower three tabs clear the slots as illustrated in
Detail B.
SCREW
HOLES
3. Move panel down until lip of upper tab clears the top slot in corner post as illustrated
in Detail A.
LOUVERED PANEL INSTALLATION
Position the panel almost parallel with the unit as illustrated in Detail D with the screw
Detail B
side as close to the unit as possible. Then, in a continuous motion:
1. Slightly rotate and guide the lip of top tab inward as illustrated in Detail A and C;
then upward into the top slot of the hinge corner post.
2. Rotate panel to vertical to fully engage all tabs.
3. Holdingthe panel’s hinged side firmly in place, close the right−hand side of the pan-
el, aligning the screw holes.
4. When panel is correctly positioned and aligned, insert the screws and tighten.
Detail C
MAINTAIN MINIMUM PANEL ANGLE (AS CLOSE TO PARALLEL
WITH THE UNIT AS POSSIBLE) WHILE INSTALLING PANEL.
ROTATE IN THIS DIRECTION; THEN
DOWN TO REMOVE PANEL
Detail D
ANGLE MAY BE
TOO EXTREME
HOLD DOOR FIRMLY ALONG THE
HINGED SIDE TO MAINTAIN
FULLY−ENGAGED TABS
PREFERRED
ANGLE FOR
INSTALLATION
IMPORTANT ꢀ To help stabilize an outdoor unit, some installations may require
strapping the unit to the pad using brackets and anchors commonly available in the
marketplace.
Page 10
506510−01
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NOTE ꢀ When installing refrigerant lines longer than 50
feet, see the Lennox Refrigerant Piping Design and
Fabrication Guidelines, CORP. 9351−L9, or contact
Lennox Technical Support Product Applications for
assistance.
New or Replacement Line Set
REFRIGERANT LINE SET
This section provides information on installation or
replacement of existing line set. If new or replacement line
set is not being installed then proceed to Brazing
IMPORTANT
Mineral oils are not compatible with HFC−410A. If oil
must be added, it must be a Polyol ester oil.
IMPORTANT
Lennox highly recommends changing line set when
converting the existing system from HCFC−22 to
HFC−410A. If that is not possible and the line set is the
proper size as reference in Table 2, use the procedure
outlined under Flushing the System on page 13.
The compressor is charged with sufficient Polyol ester oil
for line set lengths up to 50 feet. If line set lengths longer
than 50 feet will be required, all one (1) ounce of oil for
every additional 10 feet of line set. Do not add any more
than seven (7) ounces of oil.
Recommended topping−off POE oils are Mobil EAL
ARCTIC 22 CC or ICI EMKARATEt RL32CF.
If refrigerant lines are routed through a wall, then seal and
isolate the opening so vibration is not transmitted to the
building. Pay close attention to line set isolation during
installation of any HVAC system. When properly isolated
from building structures (walls, ceilings. floors), the
refrigerant lines will not create unnecessary vibration and
subsequent sounds. See Figure 5 for recommended
installation practices. Also, consider the following when
placing and installing a high−efficiency outdoor unit.
To obtain the correct information from Lennox, be sure to
communicate the following information:
S
S
Model (XC17) and size of unit (e.g. −036).
Line set diameters for the unit being installed as listed
S
Number of elbows vertical rise or drop in the piping.
Liquid lines that meter the refrigerant, such as RFC1 liquid
lines, must not be used in this application. Existing line set
was previously charged with HCFC−22 refrigerant, then
existing line set must be flushed (see Flushing the System
WARNING
Danger of fire. Bleeding the refrigerant
charge from only the high side may result
in the low side shell and suction tubing
being pressurized. Application of a
brazing torch while pressurized may
result in ignition of the refrigerant and oil
mixture − check the high and low
pressures before unbrazing.
Field refrigerant piping consists of liquid and vapor lines
from the outdoor unit to the indoor unit coil (braze
connections). Use Lennox L15 (sweat, non−flare) series
line set, or field−fabricated refrigerant line sizes as listed in
WARNING
Table 2. Refrigerant Line Set ꢀ Inches (mm)
When using a high pressure gas such as
dry nitrogen to pressurize a refrigeration
or air conditioning system, use a
regulator that can control the pressure
down to 1 or 2 psig (6.9 to 13.8 kPa).
Field
RecommendedLine Set
Connections
Model
L15
Line Sets
Size
Liquid
Line
Vapor
Line
Liquid
Line
Vapor
Line
Feet (Meters)
−024
−030
3/8ꢁ
(10)
3/4ꢁ
(19)
3/8ꢁ
(10)
3/4ꢁ
(19)
L15−41
15 − 50’ (5 − 15)
CAUTION
Brazing alloys and flux contain materials which are
hazardous to your health.
3/8ꢁ
(10)
7/8ꢁ
(22)
3/8ꢁ
(10)
7/8ꢁ
(22)
−036
Avoid breathing vapors or fumes from brazing
operations. Perform operations only in well ventilated
areas.
L15−65
15 − 50’ (5 − 15)
−042
−048
3/8ꢁ
(10)
7/8ꢁ
(22)
3/8ꢁ
(10)
7/8ꢁ
(22)
Wear gloves and protective goggles or face shield to
protect against burns.
3/8ꢁ
(10)
1−1/8ꢁ.
(29)
3/8ꢁ
(10)
1−1/8ꢁ
(29)
−060
Field Fabricated
Wash hands with soap and water after handling brazing
alloys and flux.
NOTE ꢀ Some applications may required a field provided 7/8" to
1−1/8" adapter
Page 11
XC17 SERIES
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IMPORTANT ꢀ Refrigerant lines must not contact structure.
LINE SET
Line Set Isolation ꢀ The following illustrations are
examples of proper refrigerant line set isolation:
INSTALLATION
REFRIGERANT LINE SET ꢀ INSTALLING
VERTICAL RUNS (NEW CONSTRUCTION SHOWN)
NOTE ꢀ Insulate liquid line when it is routed through areas where the
surrounding ambient temperature could become higher than the
temperatureof the liquid line or when pressure drop is equal to or greater
than 20 psig.
REFRIGERANT LINE SET ꢀ TRANSITION
FROM VERTICAL TO HORIZONTAL
ANCHORED HEAVY NYLON
IMPORTANT ꢀ Refrigerant lines must not contact wall
WIRE TIE OR AUTOMOTIVE
MUFFLER-TYPE HANGER
AUTOMOTIVE
MUFFLER-TYPE HANGER
OUTSIDE WALL
LIQUID LINE
VAPOR LINE
WALL
STUD
WIRE TIE
INSIDE WALL
STRAP
WOOD BLOCK
BETWEEN STUDS
STRAP LIQUID LINE TO
VAPOR LINE
NON−CORROSIVE
METAL SLEEVE
WIRE TIE
LIQUID LINE
NON−CORROSIVE
METAL SLEEVE
WOOD BLOCK
WIRE TIE
VAPOR LINE − WRAPPED
IN ARMAFLEX
STRAP
REFRIGERANT LINE SET ꢀ INSTALLING
HORIZONTAL RUNS
SLEEVE
To hang line set from joist or rafter, use either metal strapping material
or anchored heavy nylon wire ties.
WIRE TIE (AROUND
VAPOR LINE ONLY)
VAPOR LINE WRAPPED
WITH ARMAFLEX
8 FEET (2.43 METERS)
OUTSIDE
WALL
STRAPPING
MATERIAL (AROUND
VAPOR LINE ONLY)
FLOOR JOIST OR
LIQUID
LINE
ROOF RAFTER
TAPE OR
WIRE TIE
8 FEET (2.43 METERS)
PVC
PIPE
CAULK
NON−CORROSIVE
METAL SLEEVE
FIBERGLASS
INSULATION
STRAP THE VAPOR LINE TO THE JOIST
OR RAFTER AT 8 FEET (2.43 METERS)
INTERVALS THEN STRAP THE LIQUID
LINE TO THE VAPOR LINE.
TAPE OR
WIRE TIE
NOTE ꢀ Similar installation practices should be used if line set is
to be installed on exterior of outside wall.
WARNING ꢀ Polyol ester (POE) oils used with HFC−410A
FLOOR JOIST OR
ROOF RAFTER
refrigerant absorb moisture very quickly. It is very important that the
refrigerant system be kept closed as much as possible. DO NOT
remove line set caps or service valve stub caps until you are ready
to make connections.
Figure 5. Line Set Installation
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NOTE − Use silver alloy brazing rods with five or six percent minimum silver
alloy for copper−to−copper brazing, 45 percent alloy for copper−to−brass and
copper−to−steelbrazing.
BRAZING
CONNECTIONS
CAP AND CORE REMOVAL
Remove service cap and core
from both the vapor and liquid line
service ports.
2
CUT AND DEBUR
Cut ends of the refrigerant lines square
1
(free from nicks or dents) and debur the
ends. The pipe must remain round and do
not pinch end of the line.
USE REGULATOR TO FLOW
NITROGEN AT 1 TO 2 PSIG.
LOW
HIGH
ATTACHED GAUGES
A
Connect gauge set low pressure side to liquid line service
valve.
3
B
Connect gauge set center port to bottle of nitrogen with
regulator.
B
ATTACH
GAUGES
SERVICE PORT MUST BE OPEN TO ALLOW EXIT
POINT FOR NITROGEN
VAPOR LINE
SERVICE
VALVE
vapor LINE
OUTDOOR
UNIT
INDOOR
UNIT
NITROGEN
LIQUID LINE SERVICE
VALVE
A
LIQUID LINE
FLOW NITROGEN
WRAP SERVICE VALVE
Flow regulated nitrogen (at 1 to 2 psig) through the refrigeration
gauge set into the valve stem port connection on the liquid line service
valve and out of the valve stem port connection on the vapor service
valve.
To protect components during
brazing, wrap a wet cloth around
the liquid line service valve body
and copper tube stub and use
anotherwet cloth underneath the
valve body to protect the base
paint.
5
4
HIGH
LOW
NOTE ꢀ The fixed orifice or check
expansion valve metering device at the
indoor unit will allow low pressure
nitrogen to flow through the system.
BRAZE LINE SET
Braze the liquid line to the liquid line
USE REGULATOR TO
FLOW NITROGEN AT 1
TO 2 PSIG.
6
service valve. Turn off nitrogen flow.
POINT FLAME AWAY FROM
SERVICE VALVE
INSTALL SERVICE PORT CAPS ONLY
After all connections have been brazed, disconnect manifold gauge
set from service ports, cool down piping with wet rag and remove all
wrappings. Do not reinstall cores until after evacuation procedure.
Reinstall service port caps if desired to close off refrigerant ports.
7
SERVICE PORT CORE
WARNING ꢀ Allow braze joint to cool before removing the wet
rag from the service valve. (TEMPERATURES ABOVE 250ºF
CAN DAMAGE VALVE SEALS
SERVICE PORT CAP
SERVICE PORT
IMPORTANT ꢀ Connect gauge set low pressure side to vapor
line service valve and repeat procedure starting at paragraph 4
for brazing the liquid line to service port valve.
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XC17 SERIES
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Flushing the System
TYPICAL CHECK EXPANSION VALVE
REMOVAL PROCEDURE
(Uncased Coil Shown)
FLUSHING
TYPICAL FIXED ORIFICE REMOVAL PROCEDURE
STUB END
LINE SET AND INDOOR COIL (1 OF 2)
TWO PIECE PATCH PLATE
(UNCASED COIL ONLY)
LIQUID LINE
ORIFICE
HOUSING
CHECK
EXPANSION
VALVE
DISTRIBUTOR
TUBES
(Uncased Coil Shown)
1
TEFLON
RING
DISTRIBUTOR TUBES
LIQUID LINE ORIFICE HOUSING
TEFLON
RING
TEFLON RING
FIXED ORIFICE
SENSING
LINE
OR
BRASS NUT
DISTRIBUTOR
ASSEMBLY
EQUALIZER
LINE
DISTRIBUTOR
ASSEMBLY
LIQUID LINE
ASSEMBLY WITH
BRASS NUT
REMOVE AND DISCARD
WHITE TEFLON SEAL (IF
PRESENT)
LIQUID LINE ASSEMBLY
(INCLUDES STRAINER)
MALE EQUALIZER
LINE FITTING
VAPOR
LINE
A
B
On fully cased coils, remove the coil access and plumbing panels.
LIQUID
LINE
SENSING BULB
Remove any shipping clamps holding the liquid line and distributor
assembly.
A
B
On fully cased coils, remove the coil access and plumbing panels.
C
Using two wrenches, disconnect liquid line from liquid line orifice
housing. Take care not to twist or damage distributor tubes during
this process.
Remove any shipping clamps holding the liquid line and distributor as-
sembly.
C
Disconnect the equalizer line from the check expansion valve equaliz-
er line fitting on the vapor line.
D
E
Remove and discard fixed orifice, valve stem assembly if present
and Teflon washer as illustrated above.
D
E
Remove the vapor line sensing bulb.
Use a field−provided fitting to temporary reconnect the liquid line to
the indoor unit’s liquid line orifice housing.
Disconnect the liquid line from the check expansion valve at the liquid
line assembly.
F
Disconnect the check expansion valve from the liquid line orifice hous-
ing. Take care not to twist or damage distributor tubes during this pro-
cess.
CONNECT GAUGES AND EQUIPMENT FOR
FLUSHING PROCEDURE
2
G
H
Remove and discard check expansion valve and the two Teflon rings.
INVERTED HCFC−22
GAUGE
MANIFOLD
CYLINDER CONTAINS
CLEAN HCFC−22 TO BE
USED FOR FLUSHING.
Use a field−provided fitting to temporary reconnect the liquid line to the
indoor unit’s liquid line orifice housing.
A
HIGH
LOW
1
CAUTION ꢀ This procedure should not be performed on sys-
tems which contain contaminants (Example compressor burn
out.
NEW
OUTDOOR
UNIT
VAPOR LINE
SERVICE VALVE
FLUSHING LINE SET
OPENED
CLOSED
EXISTING
INDOOR unit
The line set and indoor unit coil must be flushed with at least the
same amount of clean refrigerant that previously charged the sys-
tem. Check the charge in the flushing cylinder before proceeding.
3
B
B
LIQUID LINE SERVICE
VALVE
A
Set the recovery machine for liquid recovery and start the recov-
ery machine. Open the gauge set valves to allow the recovery
machine to pull a vacuum on the existing system line set and in-
door unit coil.
RECOVERY
CYLINDER
TANK
RETURN
B
Invert the cylinder of clean HCFC−22 and open its valve to allow
liquid refrigerant to flow into the system through the vapor line
valve. Allow the refrigerant to pass from the cylinder and through
the line set and the indoor unit coil before it enters the recovery
machine.
C
INLET
D
DISCHARGE
RECOVERY MACHINE
A
Inverted HCFC−22 cylinder with clean refrigerant to the vapor service
valve.
C
D
After all of the liquid refrigerant has been recovered, switch the
recovery machine to vapor recovery so that all of the HCFC−22
vapor is recovered. Allow the recovery machine to pull down to 0
the system.
B
C
HCFC−22 gauge set (low side) to the liquid line valve.
HCFC−22 gauge set center port to inlet on the recovery machine with
an empty recovery tank to the gauge set.
Close the valve on the inverted HCFC−22 drum and the gauge
set valves. Pump the remaining refrigerant out of the recovery
machine and turn the machine off.
D
Connect recovery tank to recovery machines per machine
instructions.
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FLUSHING LINE SET AND INDOOR COIL (2 OF 2)
TYPICAL CHECK EXPANSION VALVE INSTALLATION PROCEDURE
This outdoor unit is designed for use in systems that use check expansion valve metering device. See the Lennox XC17 Engineering Handbook
for approved check expansion valve kit match−ups and application information.
4
The check expansion valve unit can be installed internal or
1/2 TURN
external to the indoor coil. In applications where an uncased coil
is being installed in a field−provided plenum, install the check
expansion valve in a manner that will provide access for field
servicing of the check expansion valve. Refer to below
illustrationfor reference during installation of check expansion
valve unit.
12
1
5
11
10
9
TWO PIECE
PATCH PLATE
(UNCASED
2
(Uncased Coil Shown)
STUB
END
3
4
LIQUID LINE
ORIFICE
HOUSING
COIL ONLY)
CHECK
EXPANSION
VALVE
8
DISTRIBUTOR
TUBES
7
6
TEFLON
RING
A
B
Remove the field−provided fitting that temporary reconnected the liquid
line to the indoor unit’s distributor assembly.
TEFLON
RING
SENSING
LINE
Install one of the provided Teflon rings around the stubbed end of the
check expansion valve and lightly lubricate the connector threads and
expose surface of the Teflon ring with refrigerant oil.
C
Attach the stubbed end of the check expansion valve to the liquid line
orifice housing. Finger tighten and use an appropriately sized wrench to
turn an additional 1/2 turn clockwise as illustrated in the figure above, or
20 ft−lb.
DISTRIBUTOR
ASSEMBLY
EQUALIZER
LINE
LIQUID LINE
ASSEMBLY WITH
BRASS NUT
D
E
Place the remaining Teflon washer around the other end of the check
expansion valve. Lightly lubricate connector threads and expose sur-
face of the Teflon ring with refrigerant oil.
Attach the liquid line assembly to the check expansion valve. Finger
tighten and use an appropriately sized wrench to turn an additional 1/2
turn clockwise as illustrated in the figure above or 20 ft−lb.
MALE EQUALIZER LINE
FITTING (SEE
VAPOR
LINE
EQUALIZER LINE
INSTALLATION FOR
FURTHER DETAILS)
LIQUID LINE
ON LINES SMALLER THAN 7/8",
VAPOR LINE
MOUNT SENSING BULB AT
EITHER THE 3 OR 9 O’CLOCK
POSITION.
SENSING BULB INSULATION IS REQUIRED
IF MOUNTED EXTERNAL TO THE COIL
CASING. SENSING BULB INSTALLATION
FOR BULB POSITIONING.
12
BULB
BULB
SENSING BULB INSTALLATION
VAPOR LINE
A
Attach the vapor line sensing bulb in the proper orientation
as illustrated to the right using the clamp and screws pro-
vided.
ON 7/8" AND LARGER LINES,
MOUNT SENSING BULB AT
EITHER THE 4 OR 8 O’CLOCK
POSITION. NEVER MOUNT ON
BOTTOM OF LINE.
NOTE ꢀ Confirm proper thermal contact between vapor line
and check expansion bulb before insulating the sensing bulb
once installed.
12
1/8 TURN
BULB
BULB
B
Connect the equalizer line from the
check expansion valve to the
equalizervapor port on the vapor
line. Finger tighten the flare nut
plus 1/8 turn (7 ft−lbs) as illus-
trated below.
12
1
5
11
10
9
2
NOTE ꢀ NEVER MOUNT ON BOTTOM OF LINE.
3
4
8
FLARE SEAL CAP
FLARE NUT
7
6
COPPER FLARE
SEAL BONNET
EQUALIZER LINE INSTALLATION
OR
A
B
Remove and discard either the flare seal cap or flare nut
with copper flare seal bonnet from the equalizer line port
on the vapor line as illustrated in the figure to the right.
MALE BRASS EQUALIZER
LINE FITTING
Remove and discard either the flare seal cap or flare nut
with copper flare seal bonnet from the equalizer line port on
the vapor line as illustrated in the figure to the right.
VAPOR LINE
Page 15
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INSTALLING ISOLATION GROMMETS
Leak Testing the System
Locate the isolation grommets (provided). Slide grommets
onto vapor and liquid lines. Insert grommets into piping
panel to isolate refrigerant lines from sheet metal edges.
PIPING PANEL
SUCTION LINE
WARNING
When using a high pressure gas such as
dry nitrogen to pressurize a refrigeration
or air conditioning system, use a
regulator that can control the pressure
down to 1 or 2 psig (6.9 to 13.8 kPa).
LIQUID LINE
TWO ISOLATION GROMMETS ARE
PROVIDE FOR THE LIQUID AND
SUCTION LINE PIPE PANEL PASS
THROUGH.
IMPORTANT
Leak detector must be capable of sensing HFC
refrigerant.
REAR VIEW OF UNIT EXTERIOR
Figure 6. Isolation Grommets
IMPORTANT
WARNING
Refrigerant can be harmful if it is inhaled. Refrigerant
must be used and recovered responsibly.
The Environmental Protection Agency (EPA) prohibits
the intentional venting of HFC refrigerants during
maintenance, service, repair and disposal of appliance.
Approved methods of recovery, recycling or reclaiming
must be followed.
Failure to follow this warning may result in personal injury
or death.
IMPORTANT
WARNING
Fire, Explosion and Personal Safety
Hazard.
If this unit is being matched with an approved line set
or indoor unit coil which was previously charged with
mineral oil, or if it is being matched with a coil which
was manufactured before January of 1999, the coil
and line set must be flushed prior to installation. Take
care to empty all existing traps. Polyol ester (POE) oils
are used in Lennox units charged with HFC−410A
refrigerant. Residual mineral oil can act as an
insulator, preventing proper heat transfer. It can also
clog the expansion device, and reduce the system
performance and capacity.
Failure to follow this warning could
result in damage, personal injury or
death.
Never use oxygen to pressurize or
purge refrigeration lines. Oxygen,
when exposed to a spark or open
flame, can cause damage by fire
and/or an explosion, that could result
in personal injury or death.
Failure to properly flush the system per the
instructions below will void the warranty.
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LEAK TEST
LINE SET AND INDOOR COIL
NOTE ꢀ Normally, the high pressure hose is connected to the liquid line port. How-
ever, connecting it to the vapor port better protects the manifold gauge set from high
pressure damage.
CONNECT GAUGE SET
A
Connect an HFC−410A manifold gauge set high
pressure hose to the vapor valve service port.
1
B
With both manifold valves closed, connect the
cylinder of HFC−410A refrigerant to the center port
of the manifold gauge set.
LOW
HIGH
MANIFOLD GAUGE SET
NOTE ꢀ Later in the procedure, the HFC−410A
container will be replaced by the nitrogen container.
OUTDOOR UNIT
VAPOR SERVICE VALVE
A
B
TO VAPOR
SERVICE VALVE
NITROGEN
HFC−410A
LIQUID LINE
SERVICE VALVE
TEST FOR LEAKS
After the line set has been connected to the indoor unit and air conditioner, check the line set connections and
indoor unit for leaks. Use the following procedure to test for leaks:
2
A
B
With both manifold valves closed, connect the cylinder of HFC−410A refrigerant to the center port of the manifold gauge set. Open
the valve on the HFC−410A cylinder (vapor only).
Open the high pressure side of the manifold to allow HFC−410A into the line set and indoor unit. Weigh in a trace amount of
HFC−410A. [A trace amount is a maximum of two ounces (57 g) refrigerant or three pounds (31 kPa) pressure]. Close the valve on
the HFC−410A cylinder and the valve on the high pressure side of the manifold gauge set. Disconnect the HFC−410A cylinder.
C
D
Connect a cylinder of dry nitrogen with a pressure regulating valve to the center port of the manifold gauge set.
Adjust dry nitrogen pressure to 150 psig (1034 kPa). Open the valve on the high side of the manifold gauge set in order to pressurize the
line set and the indoor unit.
E
F
After a few minutes, open one of the service valve ports and verify that the refrigerant added to the system earlier is measurable
with a leak detector.
After leak testing disconnect gauges from service ports.
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Evacuating the System
EVACUATING
CONNECT GAUGE SET
NOTE ꢀ Remove cores from service valves (if not al-
MANIFOLD
GAUGE SET
LINE SET AND INDOOR COIL
HIGH
LOW
1
ready done).
A
Connect low side of manifold gauge set
with 1/4 SAE in−line tee to vapor line
service valve
OUTDOOR
UNIT
A34000 1/4 SAE TEE WITH
SWIVEL COUPLER
B
C
D
Connect high side of manifold gauge
set to liquid line service valve
A
VAPOR
SERVICE
VALVE
Connect micron gauge available
connector on the 1/4 SAE in−line tee.
Connect the vacuum pump (with
vacuum gauge) to the center port of the
manifold gauge set. The center port line
will be used later for both the HFC−410A
and nitrogen containers.
500
MICRON
GAUGE
C
TO VAPOR
SERVICE VALVE
LIQUID LINE
SERVICE VALVE
HFC−410A
B
TO LIQUID LINE
SERVICE VALVE
VACUUM PUMP
D
RECOMMEND
MINIMUM 3/8" HOSE
NITROGEN
EVACUATE THE SYSTEM
A
B
Open both manifold valves and start the vacuum pump.
2
Evacuate the line set and indoor unit to an absolute pressure of 23,000 microns (29.01 inches of mercury).
NOTE ꢀ During the early stages of evacuation, it is desirable to close the manifold gauge valve at least once. A rapid rise in pressure
indicates a relatively large leak. If this occurs, repeat the leak testing procedure.
NOTE ꢀ The term absolute pressure means the total actual pressure within a given volume or system, above the absolute zero of
pressure. Absolute pressure in a vacuum is equal to atmospheric pressure minus vacuum pressure.
C
When the absolute pressure reaches 23,000 microns (29.01 inches of mercury), close the manifold gauge valves, turn off the vacuum
pump and disconnect the manifold gauge center port hose from vacuum pump. Attach the manifold center port hose to a dry nitrogen
cylinder with pressure regulator set to 150 psig (1034 kPa) and purge the hose. Open the manifold gauge valves to break the vacuum in
the line set and indoor unit. Close the manifold gauge valves.
D
E
Shut off the dry nitrogen cylinder and remove the manifold gauge hose from the cylinder. Open the manifold gauge valves to release the
dry nitrogen from the line set and indoor unit.
Reconnect the manifold gauge to the vacuum pump, turn the pump on, and continue to evacuate the line set and indoor unit until the
absolutepressure does not rise above 500 microns (29.9 inches of mercury) within a 20−minute period after shutting off the vacuum pump
and closing the manifold gauge valves.
F
When the absolute pressure requirement above has been met, disconnect the manifold hose from the vacuum pump and connect it to an
upright cylinder of HFC−410A refrigerant. Open the manifold gauge valve 1 to 2 psig in order to release the vacuum in the line set and
indoor unit.
1/6 TURN
G
Perform the following:
S
S
S
S
Close manifold gauge valves.
12
6
1
11
10
9
Shut off HFC−410A cylinder.
2
Reinstall service valve cores by removing manifold hose from service valve. Quickly install cores with
core tool while maintaining a positive system pressure.
3
4
8
Replace the stem caps and secure finger tight, then tighten an additional one−sixth (1/6) of a turn as
illustrated.
5
7
Page 18
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temperatures and pressures present during operation of
an air conditioning system. Non−condensables and water
suction combine with refrigerant to produce substances
that corrode copper piping and compressor parts.
IMPORTANT
Use a thermocouple or thermistor electronic vacuum
gauge that is calibrated in microns. Use an instrument
capable of accurately measuring down to 50 microns.
Electrical
In the U.S.A., wiring must conform with current local codes
and the current National Electric Code (NEC). In Canada,
wiring must conform with current local codes and the current
Canadian Electrical Code (CEC).
WARNING
Danger of Equipment Damage. Avoid deep vacuum
operation. Do not use compressors to evacuate a
system. Extremely low vacuums can cause internal
arcing and compressor failure. Damage caused by
deep vacuum operation will void warranty.
Refer to the furnace or air handler installation instructions
for additional wiring application diagrams and refer to unit
nameplate for minimum circuit ampacity and maximum
overcurrent protection size.
24VAC TRANSFORMER
Evacuating the system of non−condensables is critical for
proper operation of the unit. Non−condensables are
defined as any gas that will not condense under
Use the transformer provided with the furnace or air
handler for low-voltage control power (24VAC − 40 VA
minimum)
INSTALL THERMOSTAT
SIZE CIRCUIT AND INSTALL DISCONNECT
SWITCH
Install room thermostat (ordered separately) on an inside wall
2approximately in the center of the conditioned area and 5 feet
(1.5m) from the floor. It should not be installed on an outside wall
or where it can be affected by sunlight or drafts.
1
Refer to the unit nameplate for minimum circuit ampacity, and
maximum fuse or circuit breaker (HACR per NEC). Install power
wiring and properly sized disconnect switch.
MAIN FUSE BOX/
BREAKER PANEL
THERMOSTAT
SERVICE
DISCONNECT
SWITCH
5 FEET
(1.5M)
NOTE ꢀ Units are approved for use only with copper conductors.
Ground unit at disconnect switch or to an earth ground.
NOTE ꢀ 24VAC, Class II circuit connections are made in the control
panel.
WARNING
Electric Shock Hazard. Can cause injury or death. Unit must be grounded in accordance with national and
local codes.
Line voltage is present at all components when unit is not in operation on units with single-pole contactors.
Disconnect all remote electric power supplies before opening access panel. Unit may have multiple power
supplies.
CAUTION
Electrostatic discharge can affect electronic components. Take precautions
during unit installation and service to protect the unit’s electronic controls.
Precautions will help to avoid control exposure to electrostatic discharge by
putting the unit, the control andthe technicianat thesame electrostaticpotential.
Neutralize electrostaticchargebytouchinghandandalltoolsonanunpaintedunit
surface before performing any service procedure
ELECTROSTATIC DISCHARGE
(ESD)
Precautions and Procedures
Page 19
XC17 SERIES
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ROUTE CONTROL WIRES
Install low voltage control wiring from outdoor to indoor unit and from
typical configurations.
CONTROL PANEL
3
A
B
Run 24VAC control wires through hole with grommet.
Make 24VAC control wire connections to Main Control.
NOTE ꢀ Do not bundle any excess 24VAC control wires inside control
panel.
B
NOTE ꢀ Wire tie provides low voltage wire strain relief and to maintain
separation of field installed low and high voltage circuits.
NOTE ꢀ For proper voltages, select thermostat wire (control wires)
gauge per table below.
MAIN CONTROL
HOLE
A
WIRE RUN LENGTH
AWG# INSULATION TYPE
LESS THAN 100’ (30 METERS) 18
MORE THAN 100’ (30 METERS) 16
TEMPERATURE RATING
35ºC MINIMUM.
ROUTE HIGH VOLTAGE AND GROUND WIRES
Any excess high voltage field wiring should be trimmed and secured away from any low voltage field wiring. To facilitate a conduit, a cutout is
located in the bottom of the control panel. Connect conduit to the control panel using a proper conduit fitting.
4
PIPING PANEL
CONTROL PANEL
GROUND LUG
CONTACTOR
HIGH VOLTAGE
CONDUIT HOLE
ELECTRICAL INLET
(HIGH VOLTAGE)
WATERTIGHT
CONDUIT
FITTING
WIRING ENTRY POINTS
WATERTIGHT
FLEXIBLE
CONDUIT
TO SERVICE
DISCONNECT BOX
ELECTRICAL INLET (CONTROL WIRING ꢀ LOW VOLTAGE).
USE BUSHING PROVIDED IN BAG ASSEMBLY HERE.
ACCESS VIEW
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Figure 7. Typical XC17 Wiring
Page 21
XC17 SERIES
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Main Control Jumpers and Terminals
MAIN CONTROL ꢀ AIR CONDITIONER ꢀ ONE STAGE
FOR THE MAIN CONTROL.
TEST PINS
E33
DS11 and DS14
LED ALERT CODES
E12
E16
DS13 and DS15
LED ALERT CODES
W1
CUT FOR HUMIDITROL ꢀ ENHANCED
DEHUMIDIFICATION ACCESSORY (EDA)
APPLICATIONS.
Figure 8. Control Jumpers, Loop and Terminals
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Table 3. Main Control Jumpers and Terminals
Description
Board ID
E12
Label
PSC Fan
PSC Fan
W
240 VAC output connection for outdoor fan.
240 VAC input connection for outdoor fan.
24VAC output for defrost auxiliary heat output.
Thermostat service light connection.
E16
L
Y2
24VAC thermostat input/output for second stage operation of the unit.
24VAC thermostat input for first stage operation of the unit.
24VAC thermostat input for reversing valve operation
Humiditrol Input
Y1
E18
O
DS
C
24VAC system common
24VAC system power input
R
E21 and E22
E31 and E32
E24 and E25
LO−PS
Y1 OUT
HS−PS
S4 connection for low−pressure switch (2.4 milliamps @ 18VAC)
24VAC common output, switched for enabling compressor contactor.
S87 connection for high−pressure switch.
First Stage and second stage basic and precision dehumidification ECM fan motor 24VDC out-
put connection 1.
E26
FAN 1
Second stage basic and precision dehumidification ECM fan motor 24VDC output connection
2.
E27
E28
FAN 2
FAN C
ECM common connection for ECM fan.
Six position square pin header E30 provides connections for the temperature sensors.
DIS 5 ꢀ Discharge line temperature sensor supply.
DIS (YELLOW)
DIS 6 ꢀ Discharge line temperature sensor return.
Pins 5 and 6
Range is −35ºF to 310ºF. Sensor is clipped on a 1/2" copper tube.
AMB 3 ꢀ Outdoor ambient temperature sensor supply.
AMB (BLACK)
Pins 3 and 4
E30
AMB 4 ꢀ Outdoor ambient temperature return.
Range is −40ºF to +140ºF
COIL 1 ꢀ Outdoor coil temperature sensor supply.
COIL 2 ꢀ Outdoor coil temperature sensor return
COIL (BROWN)
Pins 5 and 6
This model does not utilize a coil sensor. The cable harness assembly for the sensors
incorporates a built−in 10K resistor between pins 5 and 6.
This jumper allows service personnel to defeat the timed off control, and field programming of
unit capacity feature. Placing a jumper across both pins on E33 will terminate the anti−short
delay. It will also clear lockout alarms
E33
W1
Field Test
Short DS To R
Cut for Humiditrol ꢀ Enhanced Dehumidification Accessory (EDA) applications.
* Factory default setting
Page 23
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Field Control Wiring
ComfortSense[ 7000 Thermostats
One−Stage
Air Conditioner Control
Air Handler Control
Catalog # Y0349 or Y2081
DS
O
R
On−board link
W
L
G
Low voltage thermostat
wiring
Flat metal jumper
L
H
5
W2
Y2
Y1
O
W1
O
DH
L
R
C
DS
H
C
2
D
B
Y1
Y2
G
Y2
Y1
C
1
W3
R
W2
W1
3
4
T
T
1
2
Outdoor sensor for outdoor temperature display (Optional).
R connection required for outdoor unit with Control LSOM function. Resistor Kit (Cat# 47W97) is required when
using the ComfortSense 7000 (Y0349) with Control LSOM feature. Resistor kit not required when using
ComfortSense 7000 (Y2081).
Air Handler Control comes from factory with metal jumpers across W1, W2 and W3. For one−stage electric heat, do not remove
3
metal jumpers.
Air Handler Control comes from factory with metal jumpers across W1, W2 and W3. For two−stage electric heat, remove metal
jumper between W1 to W2 and connect thermostat wire between Air Handler Control W2 to thermostat W2.
4
5
Cut for Humiditrol ꢀ Enhanced Dehumidification Accessory (EDA) applications.
Figure 9. ComfortSense® 7000 Series Thermostat ꢀ
Air Hander/One−Stage Air Conditioner
Page 24
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ComfortSense[ 7000 Thermostats
One−Stage
Air Conditioner Control
Furnace Control
Catalog # Y0349 or Y2081
DS
O
R
On−board link
W
L
G
Low voltage thermostat
wiring
L
H
3
W2
Y2
Y1
O
W1
O
DH
L
R
C
DS
C
H
2
D
B
Y1
Y2
G
Y2
Y1
C
1
R
W2
W1
T
T
Cut on−board link (W914) (clippable wire) from DS to R for dehumidification (Optional).
Outdoor sensor for outdoor temperature display (Optional).
1
2
R connection required for outdoor unit with Control LSOM function. Resistor Kit (Cat# 47W97) is required when
using the ComfortSense 7000 (Y0349) with Control LSOM feature. Resistor kit not required when using
ComfortSense 7000 (Y2081).
3
Cut for Humiditrol ꢀ Enhanced Dehumidification Accessory (EDA) applications.
Figure 10. ComfortSense® 7000 Series Thermostat ꢀ
Furnace/One−Stage Air Conditioner
Page 25
XC17 SERIES
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1. Rotate fan to check for binding.
Servicing Units Delivered Void of Charge
2. Inspect all factory− and field−installed wiring for loose
connections.
If the outdoor unit is void of refrigerant, clean the system
using the procedure described below.
3. After evacuation is complete, open both the liquid and
vapor line service valves to release the refrigerant
charge contained in outdoor unit into the system.
1. Leak check system using procedure outlined on Page
16.
2. Evacuate the system using procedure outlined on
4. Replace the stem caps and tighten to the value listed
3. Use nitrogen to break the vacuum and install a new
filter drier in the system.
5. Check voltage supply at the disconnect switch. The
voltage must be within the range listed on the unit’s
nameplate. If not, do not start the equipment until you
have consulted with the power company and the
voltage condition has been corrected.
4. Evacuate the system again using procedure outlined
5. Weigh in refrigerant using procedure outlined in Figure
14.
6. Set the thermostat for a cooling demand. Turn on
power to the indoor indoor unit and close the outdoor
unit disconnect switch to start the unit.
6. Monitor the system to determine the amount of
moisture remaining in the oil. It may be necessary to
replace the filter drier several times to achieve the
required dryness level. If system dryness is not
verified, the compressor will fail in the future.
7. Recheck voltage while the unit is running. Power must
be within range shown on the nameplate.
8. Check system for sufficient refrigerant by using the
procedures listed under System Charge.
Unit Start−Up
System Refrigerant
IMPORTANT
If unit is equipped with a crankcase heater, it should be
energized 24 hours before unit start−up to prevent
compressor damage as a result of slugging.
This section outlines procedures for:
1. Connecting gauge set for testing and charging;
2. Checking and adjusting indoor airflow;
3. Adding or removing refrigerant.
MANIFOLD GAUGE SET
GAUGE SET
B
CONNECTION
HIGH
LOW
CONNECTIONS FOR TESTING AND CHARGING
SUCTION LINE
SERVICE PORT
OUTDOOR UNIT
REFRIGERANT TANK
CHARGE IN
LIQUID PHASE
A
VAPOR LINE
SERVICE VALVE
DIGITAL SCALE
TEMPERATURE
SENSOR
D
TEMPERATURE SENSOR
(LIQUID LINE)
C
LIQUID LINE
SERVICE VALVE
TO LIQUID
LINE SERVICE
VALVE
A
B
C
D
Close manifold gauge set valves and connect the center hose to a cylinder of HFC−410A. Set for liquid phase charging.
Connect the manifold gauge set’s low pressure side to the suction line service port.
Connect the manifold gauge set’s high pressure side to the liquid line service port.
Position temperature sensor on liquid line near liquid line service port.
Figure 11. Gauge Set Setup and Connections
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ADDING OR REMOVING REFRIGERANT
This system uses HFC−410A refrigerant which operates at much higher pressures than HCFC−22. The pre−installed liquid
line filter drier is approved for use with HFC−410A only. Do not replace it with components designed for use with HCFC−22.
This unit is NOT approved for use with coils which use capillary tubes or fixed orifices as a refrigerant metering device.
AIRFLOW
INDOOR COIL
DT
80 24 24 24 23 23 22 22 22 20 19 18 17 16 15
78 23 23 23 22 22 21 21 20 19 18 17 16 15 14
76 22 22 22 21 21 20 19 19 18 17 16 15 14 13
74 21 21 21 20 19 19 18 17 16 16 15 14 13 12
72 20 20 19 18 17 17 16 15 15 14 13 12 11 10
70 19 19 18 18 17 17 16 15 15 14 13 12 11 10
Temperature of air
entering indoor
coil ºF
A
Wet−bulb ºF
57 58 59 60 61 62 63 64 65 66 67 68 69 70
DRY
BULB
B
A
72º
T
Drop
C
53º
19º
air flow
air flow
B
64º
DRY BULB
INDOOR COIL
All temperatures are expressed in ºF
WET BULB
Use the following procedure to adjust for optimal air flow across the indoor coil:
1. Determine the desired DT ꢀ Measure entering air temperature using dry bulb (A) and wet bulb (B). DT
is the intersecting value of A and B in the table (see triangle).
2. Find temperature drop across coil ꢀ Measure the coil’s dry bulb entering and leaving air temperatures
(A and C). Temperature Drop Formula: (T
) = A minus C.
Drop
3. Determine if fan needs adjustment ꢀ If the difference between the measured T
DT (T
and the desired
Drop
–DT) is within +3º, no adjustment is needed. See example below:
Drop
Assume DT = 15 and A temp. = 72º, these C temperatures would necessitate stated actions:
Cº
T
–
DT
=
ºF ACTION
Drop
Changing air flow affects all temperatures; recheck
temperatures to confirm that the temperature drop
and DT are within +3º.
53º 19 –
58º 14 –
62º 10 –
15
15
15
=
=
=
4 Increase the airflow
−1 (within +3º range) no change
−5 Decrease the airflow
4. Adjust the fan speed ꢀ See indoor unit instructions to increase/decrease fan speed.
Figure 12. Checking Indoor Airflow over Evaporator Coil using Delta−T Chart
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Use WEIGH IN to initially charge a system when the outdoor unit is void of charge. To verify charge and add or
remove refrigerant use either APPROACH or SUBCOOLING methods.
WHEN TO CHARGE?
START: Determine the correct charge method:
S
S
Warm weather best
TXV
Can charge in colder weather
CHARGE METHOD? Determine by:
S
Outdoor ambient temperature
REQUIREMENTS:
65ºF
(18.3ºC) and
Above
64ºF
(17.7ºC) and
Below
S
S
S
S
Sufficient heat load in structure
Indoor temperature between 70-80ºF (21−26ºC)
Manifold gauge set connected to unit
Thermometers:
−
−
−
to measure outdoor ambient temperature
to measure liquid line temperature
to measure suction line temperature
APPROACH OR
SUBCOOLING
WEIGH-IN
Figure 13. Determining Charge Method
WEIGH IN
64ºF (17.7ºC) and Below
CHARGING METHOD
CALCULATING SYSTEM CHARGE FOR OUTDOOR UNIT VOID OF CHARGE
If the system is void of refrigerant, first, locate and repair any leaks and then weigh in the refrigerant charge into the
unit. To calculate the total refrigerant charge:
Adjust amount. for variation
in line set length listed on
line set length table below.
nameplate
Amount specified on
Total charge
+
=
Refrigerant Charge per Line Set Length
Ounces per 5 feet (g per 1.5 m)
Liquid Line
adjust from 15 feet (4.6 m) line set*
Set Diameter
3/8" (9.5 mm)
3 ounce per 5’ (85 g per 1.5 m)
*If line length is greater than 15 ft. (4.6 m), add this amount. If
line length is less than 15 ft. (4.6 m), subtract this amount.
NOTE ꢀ Insulate liquid line when it is routed through areas where the surrounding ambient temperature
could become higher than the temperature of the liquid line or when pressure drop is equal to or greater
than 20 psig.
NOTE ꢀ The above nameplate is for illustration purposes only. Go to actual nameplate on outdoor unit for
charge information.
Figure 14. Using HFC−410A Weigh In Method
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APPROACH
TEST AND CHARGE METHOD
65ºF (18.3ºC) and Above
3. Use APPROACH to correctly charge unit or to verify the charge is
correct.
4. Set thermostat to call for heat (must have a cooling load between
70-80ºF (21−26ºC).
If refrigerant added or removed, retest to confirm that unit is properly
charged
5. Connect gauge set.
6. When heat demand is satisfied, set thermostat to call for cooling.
7. Allow temperatures and pressures to stabilize.
8. Record outdoor ambient temperature:
AMBº =_________
If value is greater than shown (high approach), add refrigerant; if less
than shown (liquid temp too close to ambient temp, low approach),
remove refrigerant.
9. Record line temperature:
APPº (Approach) Values(F:+/−1.0° [C: +/−0.6°])*
Models
LIQº = __________
ºF (ºC)*
Any
−024
−030
−036
−042 . . . −048 . . . −060
10. Subtract to determine approach (APPº):
LIQº_____ − AMBº _____ = APPº_____
11. Compare results with table to the left.
10 (5.6) 10 (5.6) 6 (3.3) 10 (5.6) . 8 (4.4) . . 8 (4.4)
*Temperature of air entering outdoor coil
* These approach values are also listed on the unit charging sticker
580005−01located on the access panel.
Figure 15. Using Approach Test and Charge Method
SUBCOOLING
TEST AND CHARGE METHOD
65ºF (18.3ºC) and Above
BLOCK OUTDOOR COIL: [sometimes
necessary with lower temperatures]
Use cardboard or plastic sheet to restrict
the airflow through the outdoor coil to
achieve pressures from 325−375 psig
(2240−2585kPa). Higher pressures are
needed to check charge. Block equal
3. Use SUBCOOLING to correctly charge unit or to verify the charge is
correct.
4. Set thermostat to call for heat (must have a cooling load between 70-80ºF
(21−26ºC)
5. Connect gauge set
sections of air intake panels and move
CARDBOARD OR
coverings sideways until the liquid
PLASTIC SHEET
pressure is in the above noted ranges.
6. Measure outdoor ambient temperature
7. When heat demand is satisfied, set thermostat to call for cooling
8. Allow temperatures and pressures to stabilize.
NOTE − If necessary, block outdoor coil to maintain 325 − 375 psig.
If refrigerant added or removed, verify charge using the approach
method
9. Record liquid line temperature:
If value is greater than shown, remove refrigerant; if less than shown,
add refrigerant
LIQº = ______
10. Measure liquid line pressure and use the value to determine saturation
SCº (Subcooling) Values (F:+/−1.0° [C: +/−0.6°])
Models
SATº = ______
ºF (ºC)*
Any
−024
−030
−036
−042 . . . −048 . . . −060
5 (2.8) . 6 (3.3) . . 6 (3.3)
11. Subtract to determine subcooling (SCº):
SATº_____ − LIQº _____ = SCº _____
12. Compare results with table to the left.
4 (2.2)
4 (2.2) 7 (3.9)
*Temperature of air entering outdoor coil
* These subcooling values are also listed on the unit charging sticker
580005−01located on the access panel.
Figure 16. Using Subcooling Test and Charge Method
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Operating and Temperature Pressures
Minor variations in these pressures may be expected due to differences in installations. Significant differences could mean
that the system is not properly charged or that a problem exists with some component in the system.
Table 4. Normal Operating Pressures (Liquid +10 and Suction +5 psig)*
Use this table to perform maintenance checks; it is not a procedure for charging the
system. Minor variations in these pressures may be due to differences in installations.
Significant deviations could mean that the system is not properly charged or that a
IMPORTANT
problem exists with some component in the system.
Model
°F (°C)**
65 (18.3)
70 (21.1)
75 (23.9)
80 (26.7)
85 (29.4)
90 (32.2)
95 (35.0)
100 (37.8)
105 (40.6)
110 (43.3)
115 (46.1)
−024
Suction
−030
Suction
−036
Suction
−042
Suction
−048
Suction
−060
Suction
Liquid
234
249
268
289
310
334
358
383
408
436
465
Liquid
236
251
271
291
312
335
358
383
409
436
467
Liquid
226
245
266
287
310
333
358
383
410
437
464
Liquid
232
249
270
291
314
338
363
389
419
447
480
Liquid
232
249
268
288
311
Liquid
236
254
273
294
317
340
364
389
416
444
475
139
140
141
142
142
144
145
146
147
148
150
134
135
138
139
140
142
142
143
144
145
147
134
135
137
138
139
140
141
143
144
145
146
137
139
140
141
142
143
144
145
147
148
149
132
133
134
135
136
137
138
139
140
142
143
131
132
133
135
136
137
139
140
142
143
145
333
357
380
406
433
462
*
Typical pressures only, expressed in psig (liquid +/− 10 and vapor+/− 5 psig); indoor match up, indoor air quality, and indoor load will cause the pressures
to vary. These operating pressures are also listed on the unit charging sticker (580005−01) located on the access panel.
** Temperature of air entering outdoor coil.
Table 5. HFC−410A Temperature (° Fahrenheit) ꢀ Pressure (Psig)
°F
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
Psig
100.8
102.9
105.0
107.1
109.2
111.4
113.6
115.8
118.0
120.3
122.6
125.0
127.3
129.7
132.2
°F
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
Psig
137.1
139.6
142.2
144.8
147.4
150.1
152.8
155.5
158.2
161.0
163.9
166.7
169.6
172.6
175.4
°F
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
Psig
178.5
181.6
184.3
187.7
190.9
194.1
197.3
200.6
203.9
207.2
210.6
214.0
217.4
220.9
224.4
°F
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
Psig
231.6
235.3
239.0
242.7
246.5
250.3
254.1
258.0
262.0
266.0
270.0
274.1
278.2
282.3
286.5
°F
94
Psig
290.8
295.1
299.4
303.8
308.2
312.7
317.2
321.8
326.4
331.0
335.7
340.5
345.3
350.1
355.0
°F
Psig
365.0
370.0
375.1
380.2
385.4
390.7
396.0
401.3
406.7
412.2
417.7
423.2
428.8
434.5
440.2
°F
Psig
°F
Psig
545.6
552.3
559.1
565.9
572.8
579.8
586.8
593.8
601.0
608.1
615.4
622.7
630.1
637.5
645.0
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
445.9
451.8
457.6
463.5
469.5
475.6
481.6
487.8
494.0
500.2
506.5
512.9
519.3
525.8
532.4
95
96
97
98
99
100
101
102
103
104
105
106
107
108
47
134.6
78
228.0
109
360.0
140
539.0
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OUTDOOR AMBIENT TEMPERATURE (RT13)
System Operation
If the outdoor ambient temperature sensor detected a
open, or out of range −40ºF to +140ºF (−40ºC to 60ºC) then
LED alert codes are displayed, however cooling operation
ambient sensor. Location of outdoor ambient temperature
IMPORTANT
Some scroll compressor have internal vacuum protector
that will unload scrolls when suction pressure goes
below 20 psig. A hissing sound will be heard when the
compressor is running unloaded. Protector will reset
when low pressure in system is raised above 40 psig. DO
NOT REPLACE COMPRESSOR.
COIL TEMPERATURE SENSOR
This model does not use a coil temperature sensor. The
cable assembly attached to the Main Control’s E30
connection has a 10K resister installed between pins 5 and
6 as illustrated in Figure 17. No alerts or alarms would be
generated if resistor is damage.
The Main Control provides the following system functions:
S
S
S
Compressor anti−short−cycle delay.
High and low pressure switches
AmbientandDischargeLineTemperaturesMonitoring
and Protection.
Ambient Air
Temperature Sensor
10K resistor
S
Five strikes lockout safety feature for High/Low
Pressure Switches and High Discharge Line
function.
COMPRESSOR ANTI−SHORT CYCLE DELAY
The Main Control protects the compressor from:
High Discharge Line
Temperature Sensor
S
Short cycling (five minutes) when there is initial power
up
S
Interruption in power to the unit
S
High or low pressure switch or discharge line sensor
trips
Figure 17. 10k Resistor Location
TESTING AMBIENT AND HIGH DISCHARGE LINE
TEMPERATURE SENSORS
S
Delay after Y1 demand is removed.
The anti−short timer in the outdoor control is 5 minutes. To
override timer when active or inactive − place jumper on the
field test pins between 1 and 2 seconds.
Sensors connect through a field-replaceable harness
assembly that plugs directly into the Main Control.
Through these sensors, the Main Control can monitor
outdoor ambient and discharge line temperature fault
conditions. As the detected temperature changes, the
lists how the resistance varies as the temperature changes
for both type of sensors. Sensor resistance values can be
Resetting Anti−Short Cycle Delay
The FIELD TEST pins (E33) on the Main Control can be
jumpered between 1 to 2 seconds to bypass delay.
HIGH AND LOW PRESSURE SWITCHES
The unit’s reset pressure switches LO PS (S4) and HI PS
(S87) are factory−wired into the Main Control on the LO−PS
and HI−PS terminals, there locations are illustrated on
When a sensor indicates a resistance value that is not
condition may be present:
HIGH DISCHARGE LINE TEMPERATURE SENSOR
(RT28)
The high discharge line temperature sensor location is
illustrated on Page 3. This sensor’s sequence of
S
Sensor detects an out−of−range outdoor ambient air
temperature condition and will display LED alert code
on the Main Control.
S
The sensor is operating normally when the ambient air
temperature at the sensor is below or above the Main
Control’s expected ohm values. The Main Control will
indicate the sensor as faulty, however under this
scenario, the sensor is not actually faulty.
High Discharge Line Sensor Open/Shorted Event
Condition
Discharge sensor open / short fault is ignored during initial
90−seconds of compressor run time. After that, if discharge
temperature sensor is detected open or short, the control
will de−energize all the outputs and anti−short cycle timer is
started. Discharge sensor faulty alert LED code will be
displayed.
S
Once the outdoor ambient air temperature has
returned to within the sensor’s normal operating
range, the LED alert code will automatically stop.
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TEST PINS FUNCTION
Placing the JUMPER ON the field test pins (E33) (see Page 22 for location of TEST pins) allows the technician to
S
S
Clear compressor anti−short cycle delay.
Clear five−strike fault lockouts ꢀ High / Low pressure switches and High Discharge Temperature Sensor.
Y1 Active
1
Place a JUMPER ON the TEST pins for longer than one
2
second . Then remove jumper and place in JUMPER
FACTORY DEFAULT
JUMPER SETTING
OFF position.
JUMPER
OFF
JUMPER
ON
Clears any short cycle lockout and five strike fault lockout
function, if applicable. No other functions will be executed
and unit will continue in the mode it was operating.
NOTES:
1 ꢀ Placing a JUMPER ON the TEST pins will not bring the unit out of inactive mode. The only way manually
activate the outdoor unit from an inactive mode is to cycle the 24VAC power to the outdoor unit’s Main Control.
2 ꢀ If the jumper remains on the TEST pins for longer than five seconds, the Main Control will ignore the
JUMPER ON TEST pins and revert to normal operation.
Figure 18. Clearing Anti−Short Cycle Delay and Five−Strike Fault Lockouts
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Table 6. Ambient Sensor Temperature / Resistance Range
Degrees
Fahrenheit
Degrees
Fahrenheit
Degrees
Fahrenheit
Degrees
Fahrenheit
Resistance
Resistance
Resistance
Resistance
136.3
133.1
130.1
127.3
124.7
122.1
119.7
117.5
115.3
113.2
111.2
109.3
107.4
105.6
103.9
102.3
100.6
99.1
97.6
96.1
94.7
93.3
92.0
90.6
89.4
88.1
86.9
85.7
84.5
83.4
82.3
81.2
80.1
79.0
78.0
77.0
76.0
75.0
74.1
73.1
72.2
71.3
70.4
69.5
68.6
67.7
66.9
66.0
65.2
64.4
63.6
62.8
62.0
61.2
60.5
59.7
59.0
58.2
57.5
2680
2859
56.8
56.0
55.3
54.6
53.9
53.2
52.5
51.9
51.2
50.5
49.9
49.2
48.5
47.9
47.3
46.6
46.0
45.4
44.7
44.1
43.5
42.9
42.3
41.7
41.1
40.5
39.9
39.3
38.7
38.1
37.5
37.0
36.4
35.8
35.2
34.7
34.1
33.5
33.0
32.4
31.9
31.3
30.7
30.2
29.6
29.1
28.6
28.0
27.5
26.9
26.4
25.8
25.3
24.8
24.2
23.7
23.2
22.6
22.1
16657
16973
17293
17616
17942
18273
18607
18945
19287
19633
19982
20336
20695
21057
21424
21795
22171
22551
22936
23326
23720
24120
24525
24934
25349
25769
26195
26626
27063
27505
27954
28408
28868
29335
29808
30288
30774
31267
31766
32273
32787
33309
33837
34374
34918
35471
36031
36600
37177
37764
38359
38963
39577
40200
40833
41476
42130
42794
43468
21.6
21.0
20.5
20.0
19.4
18.9
18.4
17.8
17.3
16.8
16.3
15.7
15.2
14.7
14.1
13.6
13.1
12.5
12.0
11.5
11.0
10.4
9.9
44154
44851
45560
46281
47014
47759
48517
49289
50074
50873
51686
52514
53356
54215
55089
55979
56887
57811
58754
59715
60694
61693
62712
63752
64812
65895
67000
68128
69281
70458
71661
72890
74147
75431
76745
78090
79465
80873
82314
83790
85302
86852
88440
90068
91738
93452
95211
97016
98870
100775
102733
104746
106817
108948
111141
113400
115727
118126
120600
−11.3
−11.9
−12.6
−13.2
−13.9
−14.5
−15.2
−15.9
−16.5
−17.2
−17.9
−18.6
−19.3
−20.1
−20.8
−21.5
−22.3
−23.0
−23.8
−24.6
−25.4
−26.2
−27.0
−27.8
−28.7
−29.5
−30.4
−31.3
−32.2
−33.2
−34.1
−35.1
−36.1
−37.1
−38.2
−39.2
123152
125787
128508
131320
134227
137234
140347
143571
146913
150378
153974
157708
161588
165624
169824
174200
178762
183522
188493
193691
199130
204829
210805
217080
223677
230621
237941
245667
253834
262482
271655
281400
291774
302840
314669
327343
3040
3223
3407
3592
3779
3968
4159
4351
4544
4740
4937
5136
5336
5539
5743
5949
6157
6367
6578
6792
7007
7225
9.3
7444
8.8
7666
8.3
7890
7.7
8115
7.2
8343
6.7
8573
6.1
8806
5.6
9040
5.0
9277
4.5
9516
3.9
9757
3.4
10001
10247
10496
10747
11000
11256
11515
11776
12040
12306
12575
12847
13122
13400
13681
13964
14251
14540
14833
15129
15428
15730
16036
16345
2.8
2.3
1.7
1.2
0.6
0.0
−0.5
−1.1
−1.7
−2.2
−2.8
−3.4
−4.0
−4.6
−5.2
−5.7
−6.3
−6.9
−7.5
−8.2
−8.8
−9.4
−10.0
−10.6
Page 33
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Table 7. High Discharge Sensor Temperature / Resistance Range
Degrees
Fahrenheit
Degrees
Fahrenheit
Degrees
Fahrenheit
Degrees
Fahrenheit
Resistance
Resistance
Resistance
Resistance
303.1
298.1
293.4
289.0
284.8
280.9
277.1
273.6
270.2
267.0
263.9
260.9
258.1
255.3
252.7
250.1
247.7
245.3
243.0
240.8
238.6
236.5
234.4
232.4
230.5
228.6
226.7
224.9
223.2
221.5
219.8
218.1
216.5
214.9
213.4
211.9
210.4
208.9
207.5
206.0
204.6
203.3
201.9
200.6
199.3
198.0
196.8
195.5
194.3
193.1
191.9
190.7
189.5
188.4
187.2
183
195
207
220
232
245
258
270
283
297
310
323
336
350
364
378
391
405
420
434
448
463
478
492
507
523
538
553
569
584
600
616
632
649
665
682
698
715
732
750
767
785
803
821
839
857
876
894
913
932
952
971
991
1011
1031
186.1
185.0
183.9
182.8
181.8
180.7
179.6
178.6
177.6
176.6
175.5
174.6
173.6
172.6
171.6
170.6
169.7
168.7
167.8
166.9
165.9
165.0
164.1
163.2
162.3
161.4
160.5
159.7
158.8
157.9
157.1
156.2
155.3
154.5
153.6
152.8
152.0
151.1
150.3
149.5
148.7
147.9
147.1
146.2
145.4
144.6
143.8
143.0
142.3
141.5
140.7
139.9
139.1
138.3
137.6
1052
1072
1093
1114
1135
1157
1179
1201
1223
1245
1268
1291
1315
1338
1362
1386
1411
1435
1460
1486
1511
1537
1563
1590
1617
1644
1672
1699
1728
1756
1785
1815
1845
1875
1905
1936
1968
1999
2032
2064
2098
2131
2165
2200
2235
2270
2306
2343
2380
2418
2456
2495
2534
2574
2615
136.8
136.0
135.2
134.5
133.7
132.9
132.2
131.4
130.6
129.9
129.1
128.4
127.6
126.8
126.1
125.3
124.6
123.8
123.1
122.3
121.6
120.8
120.1
119.3
118.5
117.8
117.0
116.3
115.5
114.8
114.0
113.2
112.5
111.7
111.0
110.2
109.4
108.7
107.9
107.1
106.4
105.6
104.8
104.0
103.3
102.5
101.7
100.9
100.1
99.3
2656
2698
2740
2783
2827
2872
2917
2963
3010
3057
3105
3154
3204
3255
3307
3359
3413
3467
3523
3579
3637
3695
3755
3816
3877
3940
4005
4070
4137
4205
4274
4345
4418
4491
4567
4644
4722
4802
4884
4968
5054
5141
5231
5323
5416
5512
5610
5711
5814
5920
6028
6139
6253
6370
6489
94.5
93.6
92.8
92.0
91.2
90.3
89.5
88.6
87.8
86.9
86.0
85.2
84.3
83.4
82.5
81.6
80.7
79.8
78.8
77.9
76.9
76.0
75.0
74.1
73.1
72.1
71.1
70.0
69.0
68.0
66.9
65.8
64.7
63.6
62.5
61.3
60.2
59.0
57.8
56.6
55.3
54.0
52.7
51.4
50.0
48.6
47.2
45.7
6613
6739
6869
7002
7139
7281
7426
7575
7729
7888
8051
8220
8394
8574
8759
8951
9149
9354
9566
9786
10013
10250
10495
10749
11014
11289
11575
11873
12184
12509
12848
13202
13573
13961
14368
14796
15246
15719
16218
16744
17301
17891
18516
19180
19887
20641
21448
22311
98.5
97.7
96.9
96.1
95.3
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Table 8. Sensor Temperature / Resistance Range
Temperature
Range °F (°C)
These LEDs display the most common fault conditions in
the system. When an abnormal condition is detected, this
function communicates the specific condition through
LEDs. The diagnostic function is capable of detecting both
mechanical and electrical system abnormal conditions.
Resistance values Pins/Wire
range (ohms)
Color
Sensor
Outdoor
(Ambient)
−40ºF to 140ºF
(−40ºC to 60ºC)
280,000 to 3750
3 and 4
(Black)
Discharge
−35ºF to 310ºF
41,000 to 103
1 and 2
(Yellow)
RESETTING LED ALERT CODES
(−37ºC to 154ºC)
LED alert codes can be reset either manually or
automatically:
Note: Sensor resistance decreases as sensed temperature increases
1. Manual Reset
Main Control LED Alert Codes
Manual reset can be achieve by one of the following
methods:
Main Control LED alert codes (simply referred to as LED
alert codes) are located on the Main Control and marked
with the following identification.
S
S
Disconnect R wire from the Main Control’s R
terminal.
DS11 AND DS14 LED SYSTEM AND ALERT CODES
DS11 (Green) and DS14 (Red) LEDs indicate diagnostics
Turning main power OFF and then ON at the unit’s
disconnect switch.
After power up, existing code will display for 60
seconds and then clear.
These LEDs display fault conditions in system cooling
capacity, dehumidificationmode,anti−shortcyclelockout,
high and low pressures, discharge line temperature,
outdoor temperature, and discharge sensor failures.
2. Automatic Reset
After an alert is detected, the Main Control continues
to monitor the unit’s system and compressor
operations. When/if conditions return to normal, the
alert code is turned off automatically.
DS15 AND DS13 LED COMPRESSOR ALERT CODES
DS15 (Yellow) and DS13 (Red) LEDs indicate diagnostics
IMPORTANT
LED alert codes do not provide safety protection. The is a monitoring function only and cannot control or shut down other
devices.
Table 9. System LED Alert Codes
Outdoor Main Control
LEDs
Condition
Possible Cause(s)
Solution
DS11
Green
DS14 Red
SYSTEM STATUS
No power (24V) to control
terminals R and C or
control failure.
1
2
Check control transformer power (24V).
OFF
OFF
Power problem
If power is available to control and LED(s) do not light, replace control.
Simultaneous SLOW
Flash
Unit operating normally or Indicates that control has internal component failure. Cycle 24 volt pow-
er to control. If code does not clear, replace control.
Normal operation
in standby mode.
5−minute
anti−short cycle
delay
Initial power up, safety trip,
end of room thermostat
demand.
Alternating SLOW
Flash
None required (Jumper FIELD TEST pins to override)
Simultaneous FAST
Flash
Ambient Sensor Sensor being detected open or shorted or out of temperature range. control will revert to time/temper-
Problem
ature defrost operation. (System will still heat or cool).
This model does not utilize a coil sensor, however this alert indicates either an open or shorted circuit.
See if 10K resistor is not damage or missing. Resistor is located in the sensor harness assembly,
brown lead.
Coil Sensor
Problem
Alternating FAST Flash
Main Control
Board Failure
Indicates that control has internal component failure. Cycle 24 volt power to control. If code does not
clear, replace control.
ON
ON
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Outdoor Main Control
LEDs
Condition
Possible Cause(s)
Solution
DS11
DS14 Red
Green
1 Fast
Flash then
Pause
Heating Low
Capacity
OFF
OFF
ON
2 Fast
Flash then
Pause
Heating High
Capacity
2 Fast
Flash then
Pause
Defrost
These are codes that show status of operation whether in low stage or high stage, heating or cooling,
defrost or in the EDA mode.
1 Fast
Flash then
Pause
Cooling Low
Capacity
OFF
OFF
ON
2 Fast
Flash then
Pause
Cooling High
Capacity
2 Fast
Flash then
Pause
Dehumidification
Mode
ALERT STATUS
SLOW
Flash
Low Pressure
Fault
1
Restricted air flow over
indoor or outdoor coil.
OFF
OFF
1
Remove any blockages or restrictions from coils and/or fans. Check
indoor and outdoor fan motor for proper current draws.
2
Improper refrigerant
charge in system.
Low Pressure
Switch Lockout
ON
2
Check system charge using approach and subcooling temperatures.
3
Improper metering de-
vice installed or incorrect
operation of metering de-
vice.
3
Check system operating pressures and compare to unit charging
charts.
SLOW
Flash
High Pressure
Fault
OFF
4
Make sure all pressure switches and sensors have secure connec-
tions to system to prevent refrigerant leaks or errors in pressure and
temperature measurements.
4
Incorrect or improper
sensor location or con-
nection to system.
High Pressure
Discharge Sensor
Lockout
ON
OFF
ON
SLOW
Flash
Discharge Line
Temperature Fault
This code detects high discharge temperatures. If the discharge line temperature exceeds a temperature
of 279ºF (137ºC) during compressor operation, the control will de−energize the compressor contactor
output (and the defrost output if active). The compressor will remain off until the discharge temperature
procedures.
Discharge Line
Temperature
Lockout
FAST
Flash
ON
The control detects open or short sensor or out of temperature sensor range. This fault is detected by
allowing the unit to run for 90 seconds before checking sensor resistance. If the sensor resistance is
not within range after 90 seconds, the control will raise the alarm.
Discharge Sensor
Fault
OFF
Fast Flash
Fast simultaneous
flashing of DS11, DS13,
DS14 and DS15
OEM Mode
Factory Test Mode.
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Table 10. Compressor LED Alert Codes
Outdoor Main
Control LEDs
Possible
Cause(s)
Condition
Solution
Clearing Status
DS15
Yellow
DS13
Red
1
Compressor protector is open.
S
S
Check for high head pressure
Check compressor supply voltage
Thermostat
Clears the error after current
is sensed in the run and
start winding for two
seconds, service removed
or power reset.
2
3
4
5
Outdoor unit power disconnect is open.
Compressor
Internal
Overload Trip
demand signal Y1
is present, but
compressor not
running
OFF
ON
Compressor circuit breaker or fuse(s) is open.
Broken wire or connector is not making contact.
Low or high pressure switch open if present in the
system.
6
Compressor contactor has failed to close.
1
2
Low refrigerant charge.
Evaporator blower is not running.
S
S
S
S
S
S
Check blower relay coil and contacts
Check blower motor capacitor
Check blower motor for failure or blockage
Check evaporator blower wiring and connectors
Check indoor blower control
Check thermostat wiring for open circuit
3
Evaporator coil is frozen.
S
S
S
Check for low suction pressure
Check for excessively low thermostat setting
1 Flashes
then
Pause
Compressor is
running extremely
long run cycles.
Clears the error after 30
consecutive normal run
cycles, or after power reset.
Check evaporator airflow (coil blockages or return
air filter)
OFF
Long run time.
S
Check ductwork or registers for blockage.
4
Faulty metering device.
S
S
Check TXV bulb installation (size, location and
contact)
Check if TXV/fixed orifice is stuck closed or de-
fective
5
6
7
.
Condenser coil is dirty
.
Liquid line restriction (filter drier blocked if present)
.
Thermostat is malfunctioning
S
Check thermostat sub−base or wiring for short cir-
cuit
S
High head pressure.
Check thermostat installation (location and level)
1
S
S
S
Check high pressure switch if present in system
Check if system is overcharged with refrigerant
Check for non−condensable in system
Indicates the
compressor
protector is open
or missing supply
power to the
Clears after four
2
3
Condenser coil poor air circulation (dirty, blocked,
damaged).
2 Flashes
then
Pause
System
Pressure Trip
consecutive normal
compressor run cycles, or
after power reset.
OFF
Condenser fan is not running.
S
S
S
Check fan capacitor
compressor.
Check fan wiring and connectors
Check fan motor for failure or blockage
4
Return air duct has substantial leakage.
1
2
3
Thermostat demand signal is intermittent.
Time delay relay or Main Control is defective.
Clears after four
3 Flashes
then
Pause
Compressor is
running less than
three minutes.
consecutive normal
compressor run cycles, or
after power reset.
OFF
OFF
Short Cycling
Locked Rotor
If high pressure switch is present, see Flash Code 2
information.
1
2
Compressor has
a locked out due
to run capacitor
short, bearings
are seized, ex-
cessive liquid re-
frigerant.
Run capacitor has failed.
Low line voltage (contact utility if voltage at disconnect
is low).
4 Flashes
then
Pause.
Clears after power reset or
four normal compressor
cycles.
S
Check wiring connections
3
4
Excessive liquid refrigerant in the compressor.
Compressor bearings are seized.
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Outdoor Main
Control LEDs
Possible
Cause(s)
Condition
Solution
Clearing Status
DS15
Yellow
DS13
Red
1
Outdoor unit power disconnect is open.
2
Unit circuit breaker or fuse(s) is open.
3
Unit contactor has failed to close.
S
S
S
S
Check compressor contactor wiring and con-
nectors
Check for compressor contactor failure (burned,
pitted or open)
Compressor has
an open circuit
due to power dis-
connection, fuse
is open or other
similar conditions.
Check wiring and connectors between supply and
compressor
5 Flashes
then
Pause
Clears after one normal
compressor run cycle or
power reset.
OFF
Open Circuit
Check for low pilot voltage at compressor con-
tactor coil
4
5
6
7
High pressure switch is open and requires manual
reset.
Open circuit in compressor supply wiring or con-
nections.
Unusually long compressor protector reset time due
to extreme ambient temperature.
Compressor windings are damaged.
S Check compressor motor winding resistance
Run capacitor has failed.
1
2
Open circuit in compressor start wiring or connec-
tions.
Clears when amperage is
detected in RUN and
START sensors, or after
power reset.
6 Flashes
then
Pause
Current not
sensed by Start
transformer.
Open Start
Circuit
S
Check wiring and connectors between supply and
the compressor S terminal
OFF
3
1
Compressor start winding is damaged.
S Check compressor motor winding resistance
Open circuit in compressor start wiring or connections.
Clears when amperage is
detected in RUN and
START sensors, or after
power reset.
S
Check wiring and connectors between supply and
the compressor R terminal
7 Flashes
then
Pause
Current not
sensed by run
transformer.
Open Run
Circuit
OFF
2
Compressor start winding is damaged.
S
Check compressor motor winding resistance
8 Flashes
then
Pause
Clears after one normal
compressor run cycle or
after power reset.
1
2
Compressor contactor failed to open.
Welded
Contactor
Compressor
always runs
OFF
OFF
Thermostat demand signal not connected to module.
1
2
Control circuit transformer is overloaded.
Clears after voltage is higher
9 Flashes
then
Pause
Secondary
Low Voltage 18VAC.
24VAC is below
Low line voltage (contact utility if voltage at disconnect than 20VAC for two
is low).
seconds, or after power
reset.
S
Check wiring connections
Fast simultaneous
flashing of DS11,
DS13, DS14 and
DS15
OEM Mode
Factory Test Mode.
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Maintenance
VERIFYING LED STATUS CODES
WARNING
During start up, the fan motor control LED will
display any error conditions. If error conditions
exist then no other codes will display. If no error
conditions are present, then the stage status and
and RPM indicator are displayed. Fan motor speeds
are not adjustable for a single stage outdoor unit (see
Electric shock hazard. Can cause injury
or death. Before attempting to perform
any service or maintenance, turn the
electrical power to unit OFF at disconnect
switch(es). Unit may have multiple power
supplies.
VERIFYING CORRECT DC OUTPUT VOLTAGE (J2)
The following three methods can be used to determine
whether the fan motor is operating at the correct RPMs
based on unit size.
WARNING
Improper installation, adjustment, alteration, service or
maintenance can cause personal injury, loss of life, or
damage to property.
all four jumper terminals are set correctly for the
specific size unit.
Installation and service must be performed by a licensed
professional installer (or equivalent) or a service agency.
2. Verify LED RPM indicator is displaying the correct
flash sequence for the applicable size unit (see Table
11).
DEALER
Verifying Fan Motor Operation
3. Test DC voltage output on the Motor Control’s J2
for the applicable size unit.
FAN MOTOR CONTROL AND START UP
This motor control is used in controlling motors which
employ a Pulse Width Modulation (PWM) controller. A
PWM signal will run the fan motor at a revolutions per
minute (RPM) that corresponds to a specific PWM signal.
4. If no voltage is detected at the J2 terminals, verify
there is a Y1 demand at the thermostat and 24V
present at the Fan Control’s EXT PWR/R terminal
VERIFYING JUMPER SETTINGS (J2)
The unit is shipped from the factory with the default motor
RPM setting required for the specific model size. Use table
11 for one−stage to verify that the jumpers are set correctly
for the specific size unit.
5. If 24V is present at the Fan Control EXT PWR/R
terminal during a Y1 thermostat demand, and no
voltage is present at the J2 terminals, then Fan Control
should be replaced.
Table 11. One Stage ꢀ Motor Control RPM Jumper Settings, LED RPM Indicator and P2 DC Voltage Outputs
ECM1/Y1
CFM Profile Pin Select
(One Stage and EDA Operation)
Model
LED Code*
4
3
2
1
RPM
675
600
450
400
(J2) DC Volt
21.6
XP/XC17−048, −060
XP/XC17−036, −042
XP/XC17−030
9
8
6
5
OFF
OFF
OFF
OFF
OFF
OFF
ON
OFF
ON
ON
ON
ON
ON
OFF
ON
19.2
14.3
XP/XC17−024
ON
12.7
* LED Code indicates Fan Control LED flash sequence. For example, LED Code 9 indicates 9 slow flashes and pause.
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LED CODES AND SEQUENCE OF OPERATIONS
During start up, the LED will first display any error conditions (see table 12) if present. If no errors are detected then the LED
code indicating one or two stage operation will display then a long pause. The RPM indicator is displayed next. After the RPM
indicator is displayed there is a short pause and the sequence repeats if a thermostat demand is still present. See Figure 22
Table 12. Error/Fault LED Codes
Unit Status
Motor Control LED
Fast Flash with no pause
Constant ON.
Possible Cause
Internal feedback, PWM does not match tar-
get.
Mismatched RPM
CRC Failure
Microcontroller CRC failure.
Table 13. Fan Motor Board Unit LED Codes
Unit Status
Unit Status
Motor Control LED
One Stage Operation
RPM Indicator
Low Stage ꢀ ECM1/Y1 ONLY
One slow flash, then short pause.
Appropriate number of flashes (See Tables
11 and 2).
NOTE ꢀ There is a long pause between stage
operationand RPM indicator. See Tables 1 and 2
for LED RPM indicator.
RPM Indicator
Flash Flash = Three flashes per second.
Slow Flash = One flash per second.
Short Pause = Two seconds of OFF time.
Long Pause = Five seconds of OFF time.
FAN MOTOR PWM CONTROL (ONE STAGE AND
SINGLE FAN SPEED)
DEMAND
BEGINS
DEFAULT FAN
MOTOR SPEED
MISMATCHED
RPM
REPLACE FAN MOTOR
CONTROL BOARD
LED CONTINUOUS FAST
FLASH
USED
DEFAULT FAN
MOTOR SPEED
USED
LED CONSTANT ON
REPLACE FAN MOTOR
CONTROL BOARD
CRC FAILURE
ECM1/Y1
STAGE LED INDICATOR: ONE
SLOW FLASH AND ONE
SHORT PAUSE FOR SINGLE
STAGE OR EDA OPERATION
FAN MOTOR
RPM SET PER
JUMPER
SINGLE STAGE
OR EDA
OPERATION
YES
ONLY OR
ECM2/Y2
ONLY
SETTINGS
LED RPM INDICATOR:
NO
EXAMPLE: (2−TON
UNIT) – 5 SLOW
FLASHES AND ONE
LONG PAUSE
DEMAND
ENDED
Figure 22. Single Stage LED Sequence of Operation
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CFM Profile Pin Select
FAN MOTOR CONTROL ꢀ
PULSE−WIDTH MODULATION (PWM)
JUMPER
OFF
LED
JUMPER
ON
CONTROL PANEL
MAIN CONTROL
VERIFY DC VOLTAGE OUTPUT USING FAN PWM OUT AND
VOLTAGE BASED ON CFM PROFILE USED.
J2
J2
COM
FAN PWM OUT
GREEN
GREEN
YELLOW
YELLOW
RED
RED
RED
BLACK
BROWN
RED
BLACK
BLUE
YELLOW
BLACK
YELLOW
PWM FAN
CONTROL
YELLOW
BLACK
Figure 23. Fan Control, Wiring, Jumper Settings, Testing and LED Location
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FAN MOTOR CONTROL ꢀ
PULSE−WIDTH MODULATION (PWM)
CONTROL PANEL
MAIN CONTROL
COM
BLACK WIRE
TO MAIN CONTROL
EXT PWR/R
YELLOW WIRE
GREEN
GREEN
YELLOW
YELLOW
RED
RED
RED
BLACK
BROWN
RED
BLACK
BLUE
YELLOW
BLACK
YELLOW
PWM FAN
CONTROL
YELLOW
BLACK
Figure 24. Testing for External Power to Fan Control
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FAN MOTOR TEST PROCEDURE
A simple test can be used to test the fan motor operation. A fully charged 9V battery will be required for this procedure.
FAN MOTOR TEST
This is a test that will verify that the motor does operate.
1. Verify main (240 volt) power if OFF to unit.
2. Remove both wires (brown and black) from the J2 terminal on the fan motor
control.
3. Room thermostat should be in OFF position (Unit in idle mode − no heating or
cooling demands)
4. Turn main power (240 volt) ON to unit.
5. Connect 9 Volt batter to outdoor fan motor plugs as noted in pic-
ture below..
6. Outdoor fan motor should run at a reduced fan speed.
7. If Outdoor fan motor does not run, then replace fan motor assem-
bly.
FAN MOTOR CONTROL
BLACK LEAD
BROWN LEAD
J2
J2
BROWN LEAD
BLACK LEAD
REMOVE BOTH LEADS
FROM J2 TERMINALS
CONNECT FAN MOTOR WIRE TO
9V BATTERY POSITIVE TERMINAL
V
BLACK LEAD
CONNECT FAN MOTOR BLACK
COMMON WIRE TO 9V BATTERY
NEGATIVE TERMINAL
BROWN LEAD
NEGATIVE TERMINAL
POSITIVE TERMINAL
FULLY CHARGED 9V BATTERY
Figure 25. Fan Motor Test
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FAN MOTOR SURGE PROTECTION
NOTE ꢀ It may be necessary to flush the outdoor coil
more frequently if it is exposed to substances which are
corrosive or which block airflow across the coil (e.g., pet
urine, cottonwood seeds, fertilizers, fluids that may contain
high levels of corrosive chemicals such as salts)
Surge Protector (Metal Oxide Varistor − MOV) − A part
designed to protect electrical devices from voltage spikes
that are 3 to 4 times the normal circuit voltage (See Figure
26 for illustration of component).
Sea Coast ꢀ Moist air in ocean locations can carry salt,
which is corrosive to most metal. Units that are located
near the ocean require frequent inspections and
maintenance. These inspections will determine the
necessary need to wash the unit including the outdoor coil.
Consult your installing contractor for proper
intervals/procedures for your geographic area or service
contract.
An MOV works as follows: It is essentially a batch of
metallic−oxide grains separated by insulating layers.
Repeated voltage surges break down the insulating layers,
lowering the overall resistance and eventually causing the
device to draw too much current and trip whatever
over−current protection is inherent in the system)
MOV Check: They are supposed to be located beyond the
line fuse (though possibly not always). In this case, where
the line fuse blows or circuit breaker trips but there is no
visible damage to the MOV(s), the simplest test may be to
just temporarily remove the MOV(s) and see if the problem
goes away.
Indoor Unit
1. Clean or change filters.
2. Lennox blower motors are prelubricated and
permanently sealed. No more lubrication is needed.
3. Adjust blower speed for cooling. Measure the pressure
drop over the coil to determine the correct blower CFM.
Refer to the unit information service manual for pressure
drop tables and procedure.
See Figure 1 for location of the Surge Protections device
which is located in the unit control box area.
4. Belt Drive Blowers − Check belt for wear and proper
tension.
5. Check all wiring for loose connections.
6. Check for correct voltage at unit. (blower operating)
7. Check amperage draw on blower motor.
Motor Nameplate:_________ Actual:__________.
Indoor Coil
1. Clean coil if necessary.
2. Check connecting lines, joints and coil for evidence of
oil leaks.
3. Check condensate line and clean if necessary.
HOMEOWNER
Cleaning of the outdoor unit’s coil should be performed by
a trained service technician. Contact your dealer and set
up a schedule (preferably twice a year, but at least once a
year) to inspect and service your outdoor unit. The
following maintenance may be performed by the
homeowner.
Figure 26. Fan Motor Surge Protection Device
Outdoor Unit
Maintenance and service must be performed by a qualified
installer or service agency. At the beginning of each
cooling season, the system should be checked as follows:
1. Outdoor unit fan motor is pre−lubricated and sealed.
No further lubrication is needed.
CAUTION
2. Visually inspect all connecting lines, joints and coils for
evidence of oil leaks.
Physical contact with metal edges and corners while
applying excessive force or rapid motion can result in
personal injury. Be aware of, and use caution when
working near these areas during installation or while
servicing this equipment.
3. Check all wiring for loose connections.
4. Check for correct voltage at unit (unit operating).
5. Check amperage draw on outdoor fan motor.
Motor Nameplate:_________ Actual:__________.
IMPORTANT
6. Inspect drain holes in coil compartment base and
clean if necessary.
Sprinklers and soaker hoses should not be installed
where they could cause prolonged exposure to the
outdoor unit by treated water. Prolonged exposure of the
unit to treated water (i.e., sprinkler systems, soakers,
waste water, etc.) will corrode the surface of steel and
aluminum parts and diminish performance and longevity
of the unit.
NOTE - If insufficient cooling occurs, the unit should be
gauged and refrigerant charge should be checked.
Outdoor Coil
Clean and inspect outdoor coil (may be flushed with a
water hose). Ensure power is off before cleaning.
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inside air. Have your dealer show you the location of
the drain line and how to check for obstructions. (This
would also apply to an auxiliary drain, if installed.)
Outdoor Coil
The outdoor unit must be properly maintained to ensure its
proper operation.
Thermostat Operation
®
S
S
S
Please contact your dealer to schedule proper
inspection and maintenance for your equipment.
See the ComfortSense 7000 thermostat homeowner
manual for instructions on how to operate your thermostat.
Make sure no obstructions restrict airflow to the
outdoor unit.
Preservice Check
If your system fails to operate, check the following before
calling for service:
Grass clippings, leaves, or shrubs crowding the unit
can cause the unit to work harder and use more
energy.
S
S
S
S
S
S
Verify room thermostat settings are correct.
Verify that all electrical disconnect switches are ON.
Check for any blown fuses or tripped circuit breakers.
Verify unit access panels are in place.
S
Keep shrubbery trimmed away from the unit and
periodically check for debris which collects around the
unit.
Routine Maintenance
Verify air filter is clean.
In order to ensure peak performance, your system must be
properly maintained. Clogged filters and blocked airflow
prevent your unit from operating at its most efficient level.
If service is needed, locate and write down the unit
model number and have it handy before calling.
Accessories
For update−to−date information, see any of the following
publications:
1. Air Filter ꢀ Ask your Lennox dealer to show you
where your indoor unit’s filter is located. It will be either
at the indoor unit (installed internal or external to the
cabinet) or behind a return air grille in the wall or
ceiling. Check the filter monthly and clean or replace
it as needed.
S
S
S
Lennox XC17 Engineering Handbook
Lennox Product Catalog
Lennox Price Book
2. Disposable Filter ꢀ Disposable filters should be
replaced with a filter of the same type and size.
WARNING
This product and/or the indoor unit it is matched with may
contain fiberglass wool.
NOTE ꢀ If you are unsure about the filter required for your
system, call your Lennox dealer for assistance.
3. Reusable Filter ꢀ Many indoor units are equipped
with reusable foam filters. Clean foam filters with a
mild soap and water solution; rinse thoroughly; allow
filter to dry completely before returning it to the unit or
grille.
Disturbing
the
insulation
during
installation,
maintenance, or repair will expose you to fiberglass wool
dust. Breathing this may cause lung cancer. (Fiberglass
wool is known to the State of California to cause cancer.)
NOTE ꢀ The filter and all access panels must be in place
any time the unit is in operation.
Fiberglass wool may also cause respiratory, skin, and
eye irritation.
4. Electronic Air Cleaner ꢀ Some systems are
equipped with an electronic air cleaner, designed to
remove airborne particles from the air passing through
the cleaner. If your system is so equipped, ask your
dealer for maintenance instructions.
To reduce exposure to this substance or for further
information, consult material safety data sheets
available from address shown below, or contact your
supervisor.
Lennox Industries Inc.
P.O. Box 799900
Dallas, TX 75379−9900
5. Indoor Unit ꢀ The indoor unit’s evaporator coil is
equipped with a drain pan to collect condensate
formed as your system removes humidity from the
XC17 Start−Up and Performance Checklist
Customer
Address
Serial
Indoor Unit Model
Outdoor Unit Model
Notes:
Serial
START UP CHECKS
RefrigerantType:
Rated Load Amps
Actual Amps
Actual Amps:
Rated Volts
Actual Volts
Condenser Fan Full Load Amps
COOLING MODE
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XC17 Start−Up and Performance Checklist
Suction Pressure:
Liquid Pressure:
Supply Air Temperature:
Ambient Temperature:
Return Air: Temperature:
System Refrigerant Charge (Refer to manufacturer’s information on unit or installation instructions for required subcooling and approach
temperatures.)
A
A
A
ꢀ
ꢀ
ꢀ
B
B
B
=
=
=
SUBCOOLING
Subcooling:
Saturated Condensing Temperature (A)
minus Liquid Line Temperature (B)
APPROACH
Approach:
Liquid Line Temperature (A)
minus Outdoor Air Temperature (B)
Indoor Coil Temperature Drop (18 to 22°F)
Return Air Temperature (A)
minus Supply Air Temperature (B)
COIL TEMP DROP
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