Trane 4TTZ0024A, 4TWZ0024A, 4TTZ0036A, 4TWZ0036A, 4TTZ0048A Installer's Manual

WARNING

!

WARNING

!

CAUTION

!

UNIT CONTAINS R-410A REFRIGERANT!

R-410A OPERATING PRESSURE EXCEEDS THE
LIMIT OF R-22. PROPER SERVICE EQUIPMENT IS
REQUIRED. FAILURE TO USE PROPER SERVICE
TOOLS MAY RESULT IN EQUIPMENT DAMAGE OR
PERSONAL INJURY.

SERVICE

USE ONLY R-410A REFRIGERANT AND

APPROVED POE/AB COMPRESSOR OIL.

1’ Behind

From Service Panel

3’

5’ Above

Unrestricted

18-BC53D2-3

Installer’s Guide

Air Conditioner/Heat Pump

4TTZ0/4TWZ0 with ComfortLink™ II and Charge Assist

ALL phases of this installation must comply with NATIONAL, STATE AND LOCAL CODES

IMPORTANT — This Document is customer property and is to remain with this unit. Please return to service information pack upon

completion of work.

These instructions and illustrations do not cover all varia­tions in systems nor provide for every possible contingency
to be met in connection with installation. All phases of this
installation must comply with NATIONAL, STATE AND
LOCAL CODES. Should further information be desired or should

particular problems arise which are not covered sufficiently for the
purchaser’s purposes, the matter should be referred to your install­ing dealer or local distributor.

A. GENERAL

Single Unit Installation

1

™

This information is intended for use by individuals pos ses s ing
adequate backgrounds of electrical and mechanical experience. Any
attempt to repair a central air condition ing product may result in
personal injury and or property damage. The manufacturer or seller
cannot be respon sible for the interpretation of this information, nor
can it assume any liability in connection with its use.

NOTICE:
Trane has always recommended installing Trane approved
matched indoor and outdoor systems.

The benefits of installing approved matched systems are maxi­mum efficiency, optimum performance and best overall system
reliability.

These units use R-410A refrigerant which operates at 50 to 70%
higher pressures than R-22. Use only R-410A approved service
equipment. Refrigerant cylinders are painted a “Rose” color to
indicate the type of refrigerant and may contain a “dip” tube to allow
for charging of liquid refrigerant into the system. All R-410A systems
use a

POE/AB
To limit this “hygroscopic” action, the system should remain sealed
whenever possible. If a system has been open to the atmosphere for
more than 4 hours, the compressor oil must be replaced. Never break
a vacuum with air and always change the driers when opening the
system for component replacement. For specific handling concerns
with R-410A and POE/AB oil, reference Retrofit Bulletin TRN-APG02­EN. Check for transportation damage after unit is uncrated. Re port
promptly, to the carrier, any damage found to the unit.

oil that readily absorbs moisture from the atmosphere.

Check for transportation damage after unit is uncrated. Report
promptly, to the carrier, any damage found to the unit.

To determine the electrical power requirements of the unit, refer
to the nameplate of the unit. The electrical power available must
agree with that listed on the nameplate.

B. LOCATION AND PREPARATION OF THE UNIT

(INFORMATION APPLICABLE TO HEAT PUMPS ONLY:)

The Heat Pump has been designed and manufactured to withstand
and operate in severe winter conditions. However, there are pre­cautionary steps which should be taken at the time of installation
which will help assure the efficient operation of the unit. It is rec-

ommended that these precautions be taken for units being
installed in areas where snow accumulation and prolonged
below freezing temperatures occur.

1. Units should be elevated three (3) to twelve (12) inches above
the pad or roof top, depending on local weather. This additional
height will allow better drainage of snow and ice (melted dur­ing defrost cycle) prior to its refreezing. This should prevent a

build-up of ice around the unit which occurs when unit is not
elevated. Insure that drain holes in unit base pan are

not obstructed preventing draining of defrost water.

2. If possible, avoid locations that are likely to accumulate snow
drifts. If not possible, a snow drift barrier should be installed
around the unit to prevent a build-up of snow on the sides
of the unit and should be of sufficient distance from the unit
to prevent restriction of airflow to and from the unit. Also
allow for proper maintenance space. The barrier should be
constructed of materials which will blend in with the building
design.

3. Avoid locating the unit where condensation and freezing of de­frost vapor may annoy the customer. For instance, installing
the unit under a bedroom, kitchen, or picture window may be
annoying to the customer since condensate and fog will occur
during the defrost cycle.

4. Avoid locating the unit under the eaves or other overhead
structures as sizeable icicles may form and the unit may be
damaged by these falling icicles.

Installer’s Guide

CAUTION

!

WARNING

!

BASEPAN

2

TAB REMOVAL

(INFORMATION APPLICABLE TO ALL UNITS:)

1. When removing unit from the pallet, notice the tabs on the
basepan. Remove tabs by cutting with a sharp tool as shown
in Figure 2 and slide unit off of pallet.

2. The unit should be set on a level support pad at least as
large as the unit base pan, such as a concrete slab. If this is
not the application used please refer to Application Guide
SSC-APG005-EN.

3. The support pad must NOT be in direct contact with any
structure. Unit must be positioned a minimum of 12" from
any wall or surrounding shrubbery to insure adequate airflow.
Clearance must be provided in front of control box (access
panels) and any other side requiring service access to meet
National Electrical Code. Also, the unit location must be far
enough away from any structure to prevent excess roof run-off
water from pouring directly on the unit. Do not locate unit(s)
close to bedroom(s).

4. The top discharge area must be unrestricted for at least five
(5) feet above the unit. See Figure 1.

5. When the outdoor unit is mounted on a roof, be sure the roof
will support the unit’s weight. Properly selected isolation is
recommended to prevent transmission to the building struc­ture.

6. The maximum length of refrigerant lines from outdoor to
indoor unit should NOT exceed eighty (80) feet.

7. If outdoor unit is mounted above the air handler, maxi mum
lift should not exceed twenty-five (25) feet (suction line). If
air handler is mounted above condensing unit, maximum lift
should not exceed twenty-five (25) feet (liquid line).

8. Locate and install indoor coil or air handler in accordance
with instruction included with that unit.

C. INSTALLING REFRIGERANT LINES

If using existing refrigerant lines make certain that all joints are
brazed, not soldered.

Condensing units have provisions for braze connections.

Pressure taps are provided on the service valves of outdoor unit for
compressor suction and liquid pressures.

The indoor end of the recommended refrigerant line sets may
be straight or with a ninety (90) degree bend, depending upon
situation requirements. This should be thoroughly checked out
before ordering refrigerant line sets.

NOTE:
The gas line must always be insulated. Liquid lines that run
through attic space must also be insulated.

The units are factory charged with the system charge required
when using fifteen (15) feet of rated connecting line. See unit
nameplate.

Final refrigerant charge adjustment is necessary. Use
Charge Assist™ or the Manual Charging procedure found in the
outdoor unit Service Facts. Charge level can always be verified
with the Refrigerant Charging Chart found in the Service Facts.

NOTE:
Large diameter tubing will be very difficult to rebend once it has
been shaped.

3. Determine the best starting point for routing the refrigerant
tubing — INSIDE OR OUTSIDE THE STRUCTURE.

4. Provide a pull-thru hole of sufficient size to allow both liquid
and gas lines.

5. Be sure the tubing is of sufficient length.

6. Uncoil the tubing — do not kink or dent.

7. Route the tubing making all required bends and properly
secure the tubing before making connections.

8. To prevent a noise within the building structure due to vibra­tion transmission from the refrigerant lines, the following
precautions should be taken:

a. When the refrigerant lines have to be fastened to floor

joists or other framing in a structure, use isolation type
hangers.

b. Isolation hangers should also be used when refrigerant

lines are run in stud spaces or enclosed ceilings.

c. Where the refrigerant lines run through a wall or sill, they

should be insulated and isolated.

d. Isolate the lines from all ductwork.

D. SERVICE VALVE OPERATION

BRASS LIQUID LINE SERVICE VALVE

The Brass Liquid Line Service Valve is factory shipped in the
seated position to hold factory charge. The pressure tap service
port (when depressed) opens only to the field brazing side of the
valve when the valve is in the seated position. The liquid line valve
is not a back seating valve (see WARNING below).

Extreme caution should be exercised when opening the Liquid
Line Service Valve. Turn valve stem counterclockwise only until
the stem contacts the rolled edge. (See Figure 3). No torque is
required. Failure to follow this warning will result in abrupt re­lease of system charge and may result in personal injury and/or
property damage.

BRASS GAS LINE BALL SERVICE VALVE

The Brass Gas Line Service Valve is shipped in the closed position
to hold the factory refrigerant charge. The pressure tap service
port (when depressed) opens only to the field brazing side when the
valve is in the closed position.

The Gas Line Ball Service Valve is full open with a 1/4 turn. See
Figure 4.

BRAZING REFRIGERANT LINES

1. Remove lower access cover to access service valves.

2. Before brazing, remove plugs from external copper stub tubes.
Clean internal and external surfaces of stub tubes prior to
brazing.

3. Cut and fit tubing, minimizing the use of sharp 90° bends.

4. Insulate the entire gas line and its fittings.

5. Do NOT allow uninsulated liquid line to come in direct con­tact with bare gas line.

3

LIQUID LINE SERVICE VALVE

1. Determine the most practical way to run the lines.

2. Consider types of bends to be made and space limitations.

© 2009 Trane 18-BC53D2-3

Installer’s Guide

WARNING

!

CAP

1/4 TURN ONLY
COUNTERCLOCKWISE
FOR FULL OPEN
POSITION

VALVE STEM

GAS LINE CONNECTION

UNIT SIDE
OF VALVE

PRESSURE TAP PORT

4

6. Precautions should be taken to avoid heat damage

NOTE:
Use care to make sure that no moisture enters pressure tap port,
while wet rag is being used.

NOTE:
Precautions should be taken to avoid heat damage to basepan during
brazing. It is recommended to keep the flame directly off of the basepan.

7. Use a Dry Nitrogen Purge and Brazing Alloy without flux

8. Braze using accepted good brazing techniques.

LEAK CHECK

IMPORTANT:
Replace pressure tap port valve core before attaching hoses for evacuation.

GAS LINE BALL SERVICE VALVE

to the pressure tap valve core during brazing. It is
recommended that the pressure tap port valve core be
removed and a wet rag wrapped around the valve body.

when brazing the field line to the copper factory connection.
Flow dry nitrogen into either valve pressure tap port, thru the
tubing and out the other port while brazing.

NOTE:
DO NOT VENT REFRIGERANT INTO THE ATMOSPHERE.

NOTE:
A 3/16" Allen wrench is required to open liquid line service valve.
A 1/4" Open End or Adjustable wrench is required to open gas
line valve. A 3/4" Open End wrench is required to take off the
valve stem cap.

9. The liquid line shut-off valve can now be opened. Remove
shut-off valve cap. Fully insert hex wrench into the stem and
backout counterclockwise until valve stem just touches rolled
edge (approximately five [5] turns) observing WARNING
statement on page 2. See Figure 3.

10. Replace liquid service pressure tap port cap and valve stem
cap. These caps MUST BE REPLACED to prevent leaks.
Replace valve stem and pressure tap cap finger tight, then
tighten an additional 1/6 turn.

11. The gas valve can now be opened. For a ball type gas valve,
open the gas valve by removing the shut-off valve cap and turn­ing the valve stem 1/4 turn counterclockwise, using 1/4" Open
End or Adjustable wrench. See Figure 4 and refer to Step 8
prior to opening gas valve.

12. The gas valve is now open for refrigerant flow. Replace valve
stem cap to prevent leaks. Again, these caps MUST BE RE-
PLACED to prevent leaks. Replace valve stem and pressure
tap cap finger tight, then tighten an additional 1/6 turn. See
Figure 4.

If refrigerant lines are longer than fifteen (15) feet and/or a
different size than recommended, it will be necessary to adjust
system refrigerant charge upon completion of installation. See
unit Service Facts.

E. ELECTRICAL CONNECTIONS

After the brazing operation of refrigerant lines to both the outdoor
and indoor unit is completed, the field brazed connections must be
checked for leaks. Pressurize through the service valve ports, the in­door unit and field refrigerant lines with dry nitrogen to 350-400 psi.
Use soap bubbles or other leak-checking methods to see that all
field joints are leak-free! If not, release pressure; then repair!

SYSTEM EVACUATION

NOTE:
Since the outdoor unit has a refrigerant charge, the gas and
liquid line valves must remain closed.

1. Upon completion of leak check, evacuate the refrigerant lines
and indoor coil before opening the gas and liquid line valves.

2. Attach appropriate hoses from manifold gauge to gas and
liquid line pressure taps.

NOTE:
Unnecessary switching of hoses can be avoided and com plete
evacuation of all lines leading to sealed system can be accom­plished with manifold center hose and connecting branch hose to
a cylinder of R-410A and vacuum pump.

3. Attach center hose of manifold gauges to vacuum pump.

4. Evacuate until the micron gauge reads no higher than 350 mi­crons.

5. Close off valve to vacuum pump and observe the micron
gauge. If gauge pressure rises above 500 microns in one (1)
minute, then evacuation is incomplete or system has a leak.

6. If vacuum gauge does not rise above 500 microns in one (1)
minute, the evacuation should be complete.

7. With vacuum pump and micron gauge blanked off, open valve
on R-410A cylinder and charge refrigerant lines and indoor
coil with vapor to tank pressure of R-410A supply.

8. Close valve on R-410A supply cylinder. Close valves on mani­fold gauge set and remove refrigerant charging hoses from
liquid and gas pressure tap ports.

Live Electrical Components!

During installation, testing, servicing and troubleshooting of this
product, it may be necessary to work with live electrical com­ponents. Failure to follow all electrical safety precautions when
exposed to live electrical components could result in death or
serious injury.

1. Power wiring and grounding of equipment must comply with
national, state and/or local codes.

2. Power supply must agree with equipment nameplate.

3. Install a separate disconnect switch at the outdoor unit.

4. Ground the outdoor unit per code requirements.

5. Provide flexible electrical conduit whenever vibration trans­mission may create a noise problem within the structure.

6. The use of color coded low voltage wire is recommended to
simplify connections between the outdoor unit, the Com­fortLink™ II control and the indoor unit

Table 1 – NEC Class II Control Wiring

ComfortLink™ II Control Wiring

WIRE SIZE MAX. WIRE LENGTH

18 AWG 250 FT

NOTE:
The maximum total cable length for the entire Comfort Control
communicating system is 500 ft. 18 AWG.

7. Mount the ComfortLink™ II control in accordance with in­struction included with the ComfortLink™ II control.
Wire per appropriate hook-up diagram (included in these
instructions).

18-BC53D2-3 3

Installer’s Guide

FRC_DFT

TEST_COMMON

TST

F. DEFROST CONTROL (HEAT PUMPS ONLY)

The demand defrost control measures heat pump outdoor ambi­ent temperature with a sensor located outside the outdoor coil. A
second sensor located on the outdoor coil is used to measure the
coil temperature. The difference between the ambient and the
colder coil temperature is the difference or delta-T measurement.
This delta-T measurement is representative of the operating state
and relative capacity of the heat pump system. By measuring the
change in delta-T, we can determine the need for defrost. The coil
sensor also serves to sense outdoor coil temperature for termina­tion of the defrost cycle.

FAULT IDENTIFICATION

A fault condition is indicated by the fault LED on the control board
inside the heat pump control box.

In normal operation, the status LED will flash once each second. If
the light is flashing more than once per second or not at all, refer to
the Service Facts for that unit.

OUTDOOR CONTROL

6

BOARD – PIN
IDENTIFICATION

G. COMPRESSOR START UP

After all electrical wiring is complete, SET THE COM­FORTLINK™ II CONTROL SWITCH IN THE OFF POSITION SO
COMPRESSOR WILL NOT RUN, and apply power by closing the
system main disconnect switch. This will activate the compressor
sump heat (where used). Do not change the ComfortLink™ II con­trol Switch until power has been applied for one (1) hour. Following
this procedure will prevent potential compressor overload trip at
the initial start-up.

PIN IDENTIFICATION (SEE FIGURE 6.)

1. TEST_COMMON (Shorting any of the other pins to this pin
causes the function of the other pin to be executed. Leaving
this pin open results in the normal mode of operation.)

2. TST = Test (Shorting TEST_COMMON to this pin speeds up
all defrost board timings.)

3. FRC_DFT = Forced Defrost (Short TEST_COMMON to this
pin for two [2] seconds to initiate a forced defrost. Remove the
short after defrost initiates.)

DEFROST CONTROL CHECKOUT

Normal operation requires:

a. Status LED on board flashing 1 time/second.

b. 12VDC between D & B.

c. Defrost initiation when FRC_DFT pin is shorted to TEST_

COMMON pin.

If a defrost control problem is suspected, refer to the service infor­mation in control box.

4 18-BC53D2-3

Installer’s Guide

7

FIELD WIRING DIAGRAM

COMMUNICATING INDOOR UNIT – COMMUNICATING OUTDOOR UNIT

NOTE: For non-

communicating
systems use
24-volt harness
accessory
BAYACHP024A.

18-BC53D2-3 5

Installer’s Guide

8

COMMUNICATING INDOOR UNIT WITH 24V COMFORT CONTROL,

24V 2-STAGE OR 2-STEP COOLING

6 18-BC53D2-3

Installer’s Guide

9

COMMUNICATING INDOOR UNIT WITH 24V COMFORT CONTROL,

24V 2-STAGE OR 2-STEP HEAT PUMP

18-BC53D2-3 7

Installer’s Guide

e r

OUTDOOR CONTROL BOARD –

CHARGE ASSIST™

CHARGE ASSIST™ PORT

DIRECTION FOR CHARGE ASSIST™

NOTE: Outdoor Temperature (ODT) must be between 55°F
and 120°F.

Be sure to set Dip Switches on the Outdoor Control Board for Line
Length and Lift before entering Charge Assist™ Mode. (See Sub­cool Charging Table Corrections for Line Length and Rise on the
next page or in the Service Facts for the outdoor unit.)

To enter Charge Assist™ Mode, press the MODE button for at least
one (1) second. The on-board LEDs will indicate if the system is
capable of continuing. For a detailed description of on-board LEDs
and their function, see the Service Facts.

The system will take approximately 12-20 minutes to stabilize
before the charge can be checked by Charge Assist™. Once the
system is stabilized, watch to see which LED turns on next. If the
system charge is correct, the “CHARGED” LED will turn on and re­main on for one (1) hour. Once charged, the system will exit Charge
Assist™ and control will return to the Comfort Control.

NOTE: Charge Assist™ port is
designed for liquid refrigerant charging.

If the system charge is low, the “ADD” LED will turn on and stay
on up to one (1) hour or until enough refrigerant is added to reach
the required system charge level and turn on the “CHARGED”
LED.

When the “ADD” LED is on, the charging solenoid output will be
active. This feature works to automatically control refrigerant flow
with BAYCAKT001.

If the system charge is high, the “REC” LED will turn on and the
unit will exit Charge Assist™. You must recover refrigerant from
the system before re-entering Charge Assist™.

For instructions on the Charge Assist™ tool BAYCAKT001, see the
Installer's Guide 18-HH15D1-* (the position of the * denotes the
latest revision number).

For additional information on manual charging, please see the
Service Facts shipped with the outdoor unit.

8 18-BC53D2-3

Installer’s Guide

SUBCOOL CHARGING TABLE CORRECTIONS FOR LINE LENGTH AND RISE

TOTAL REFRIGERANT LINE LENGTH (FEET)

REFRIGERANT LINE LIFT (FEET)

Dip Switch 1- ON

Dip Switch 2-ON

Max Lift

25

20

15

10

0

10 20 25 30 40 60 80

Dip Switch 3-ON

TOTAL REFRIGERANT LINE LENGTH (FEET)

REFRIGERANT LINE LIFT (FEET)

Max Lift

25

20

15

10

0

10 20 25 30 40 60 80

TABLE A TABLE B

These
matches
ONLY

4TXCB003 Coil Downflow & Horizontal Right Only
4TXCC006 Coil Downflow & Horizontal Right Only

4TEE3_03 Air Handler Downflow & Horizontal Left Only

All other approved, matched systems.

SUBCOOL CHARGING TABLE CORRECTIONS FOR LINE LENGTH AND RISE

TOTAL REFRIGERANT LINE LENGTH (FEET)

TABLE A TABLE B

REFRIGERANT LINE LIFT (FEET)

Dip Switch 2-ON

Dip Switch 3-ON

All other approved, matched systems.

Max Lift

25

20

15

10

0

10 20 25 30 40 60 80

Dip Switch 1-ON

TOTAL REFRIGERANT LINE LENGTH (FEET)

REFRIGERANT LINE LIFT (FEET)

Max Lift

25

20

15

10

0

10 20 25 30 40 60 80

4TEE3_06 Air Handler
4TXCC008 Coil
4TXCD010 Coil

These matches ONLY

TOTAL REFRIGERANT LINE LENGTH (FEET)

REFRIGERANT

LINE LIFT (FEET)

LOWER

UPPER

MIDDLE

Dip Switch 1- ON

Dip Switch 2-ON

Dip Switch 3-ON

25
20
15

10

0

10 20 25 30 40 60 80

Max Lift

All approved, matched systems.

SUBCOOL CHARGING TABLE CORRECTIONS FOR LINE LENGTH AND RISE

SUBCOOL CHARGING TABLE CORRECTIONS FOR LINE LENGTH AND RISE

TOTAL REFRIGERANT LINE LENGTH (FEET)

REFRIGERANT LINE LIFT (FEET)

LOWER
Dip Switch 1- ON

MIDDLE
Dip Switch 2-ON

Dip Switch 3-ON

UPPER

Max Lift

25

20

15

10

0

10 20 25 30 40 60 80

Dip Switch 3-ON

TOTAL REFRIGERANT LINE LENGTH (FEET)

REFRIGERANT LINE LIFT (FEET)

Max Lift

25

20

15

10

0

10 20 25 30 40 60 80

4TEE3_10 Downflow & Horizontal Left Only

All other approved, matched systems.

SUBCOOL CHARGING TABLE CORRECTIONS

2-TON HP MODEL ONLY

4-TON HP MODEL ONLY

5-TON HP MODELS ONLY

ALL AC MODELS

18-BC53D2-3 9

AND

3-TON HP MODELS

Installer’s Guide

SYSTEM FAULTS

REFRIGE RANT CIRCUIT

Head Pressure Too High

Head Pressure Too Low

Suction Pressure Too High

Suction Pressure Too Low

Liquid Refrig. Floodback (TXV/EEV)

Liquid Refrig. Floodback
(Cap. Tube)

I.D. Coil Frosting

Compressor Runs
Inadequate or No Cooling/Htg

ELECTRI CAL

Compressor & O.D. Fan
Won’t Star t

Compressor Will Not Star t
But O.D. Fan Runs

O.D. Fan Won’t Star t

Compressor Hums But Won’t Star t

Compressor Cycles on IOL

I.D. Blower Won’t Start

DEFROST

Unit Won’t Initiate Defrost

Defrost Terminates on Time

Unit Icing Up

WHAT TO CHE CK MODE

POWER SUPPLY

HIGH VOLTAGE WIRING

COMP RESS OR IOL

RUN CAPACITOR

START CAPACITOR

START RELAY

CONTACTOR CONTACTS

LOW VOLTAGE WIRING

CONT ROL TRANSF ORMER

THER MOSTAT

CONTACTOR COIL

LOW VOLTAGE FUSE

STUC K COMPRESSO R

INEF FICI ENT COMP.

REF. UN DERCHARGE

REF. OVERCHARGE

EXCE SSIV E EVAP. LOAD

NONC ONDE NSABLES

RES. O.D. AIRFLOW

O.D. AIR RECIRCULATION

TXV/ EEV STUCK OPE N

SUPE RHEAT

RES. I. D. AIRFLOW

REF. CI R. RESTR ICTIONS

SOV LEAK ING

SOV COIL DEFECTIVE

CHEC K VALVE LE AKING

*

DEFROST REL AY DEF.

DEFROST CON TROL DEF.

C

H

C

H

C

H

C

H

C

H

C

H

C

H

C

H

C

H

C

H

C

H

C

H

C

H

C

H

C

H

C

H

C

H

P

P

P

P

P

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P

P

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P

P

P

S

S

S

S

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S

S

S

S

S

S

S

S

S

S

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S

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S

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S

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P

P

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S

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PPP

P

S

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S

S

S

S

S

S

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P

P

P

P

P

P

P

P

P

P

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P

P

P

P

P

P

P

P

S

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S

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S

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S

S

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S

S

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S

S

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P

P

S

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P

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C - Cooling H - Heating P - Primary Causes S - Secondary Causes * - 3 Phase Only

TROUBLESHOOTING CHART — WHAT TO CHECK

H. OPERATIONAL AND

CHECKOUT PROCEDURES

Final phases of this installation are the unit Operational and
Checkout Procedures which are found in this instruction on page

11. To obtain proper performance, all units must be operated and

charge adjustments made in accordance with procedures found in
the Service Facts.

IMPORTANT:

Perform a final unit inspection to be sure that factory tubing has not
shifted during shipment. Adjust tubing if necessary so tubes do not rub
against each other when the unit runs. Also be sure that wiring con­nections are tight and wire routing is secure.

I. ELECTRIC HEATERS

Electric heaters, if used, are to be installed in the air handling
device according to the instructions accompanying the air handler
and the heaters.

J. SEACOAST SHIELD

If installed within one mile of salt water, including seacoasts and
inland waterways, models without factory supplied Seacoast Salt
Shields require the addition of BAYSEAC001 (Seacoast Kit) at in­stallation time. Please refer to Application Guide SS-APB006-EN:
Trane - Sea Coast Applications.

IMPORTANT:

See Limited Warranty information in Use and Care Manual.

10 18-BC53D2-3

t

Installer’s Guide

4TTZ0/4TWZ0 OUTLINE DRAWING

NOTE: ALL DIMENSIONS ARE IN MM (INCHES).

MODELS BASE A B C D E F G H J K

4TTZ0024A
4TWZ0024A

4TTZ0036A
4TWZ0036A
4TTZ0048A
4TWZ0048A
4TTZ0060A
4TWZ0060A

4 1369 (53 7/8) 946 (37-1/4) 870 (34-1/4) 5/8 3/8 152 (6) 98 (3-7/8) 219 (8-5/8) 86 (3-3/8) 1035 (40 3/4)

4 1369 (53 7/8) 946 (37-1/4) 870 (34-1/4) 3/4 3/8 152 (6) 98 (3-7/8) 219 (8-5/8) 86 (3-3/8) 1035 (40 3/4)

From Dwg. D152635 Rev. 15

18-BC53D2-3 11

Installer’s Guide

y

MOUNTING HOLE LOCATION

NOTE: ALL DIMENSIONS ARE IN MM (INCHES).

From Dwg. D152637 Rev. 2

CHECKOUT PROCEDURE

After installation has been completed, it is recommended that the entire system be checked against the following list:

1. Refrigerant Line, Leak checked ............................................ [ ]

2. Suction Lines and Fittings properly insulated ..................... [ ]

3. Have all Refrigerant Lines been secured and

isolated properly? ................................................................... [ ]

4. Have passages through masonry been sealed?
If mortar is used, prevent mortar from coming

into direct contact with copper tubing .................................. [ ]

5. Verify tightness of all electrical connects ............................. [ ]

6. Observe outdoor fan during on cycle for clearance

and smooth operation ............................................................ [ ]

7. Indoor coil drain line drains freely. Pour water

into drain pan ......................................................................... [ ]

8. Supply registers and return grilles open and

unobstructed........................................................................... [ ]

9. Return air filter installed ...................................................... [ ]

10. ComfortLink™ II control is accurate. Check
against a reliable thermometer. Adjust per

instructions with ComfortLink™ II control ......................... [ ]

11. Is correct airflow setting used?

(Indoor blower motor) ............................................................ [ ]

12. Operate complete system in each mode to

insure safe operation. ............................................................ [ ]

Trane
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Trane has a policy of continuous product and product data improvement and it reserves the right to change

design and specifications without notice.

02/09