Trane Heat Pump 2TWA0 User Manual

2TWA2-IN-1A  
18-BC51D3-2  
Installer’s Guide  
Heat Pumps  
2TWA0, 2TWA2  
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 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.  
5 FT. ABOVE UNIT-UNRESTRICTED  
1
A. GENERAL  
The following instructions cover 2TWA Heat Pump Units.  
NOTICE:  
These outdoor units may be used with indoor units  
equipped with Thermostatic Expansion Valve or Accutron™  
Flow Control Check Valve (F.C.C.V.) assembly for refrigerant  
flow control only.  
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.  
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 conden-  
sate and fog will occur during the defrost cycle.  
The Weathertron® 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 recom-  
mended that these precautions be taken for units  
being installed in areas where snow accumulation and  
prolonged below freezing temperatures occur.  
4. Avoid locating the unit under the eaves or other over-  
head structures as sizeable icicles may form and the unit  
may be damaged by these falling icicles.  
B. LOCATION AND PREPARATION  
1. Units should be elevated 3 to 12 inches above the pad or  
rooftop, 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.  
OFTHE UNIT  
1. When removing unit from the pallet, notice the tabs on  
the basepan. Remove tabs by cutting with a sharp tool as  
shown on page 2, 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  
bulletin “Trane APB2001-02”.  
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. 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 struc-  
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Installer’s Guide  
GAS LINE SERVICE VALVE  
GAS LINE BALL SERVICE VALVE  
5
6
CAP  
1/4 TURN ONLY  
COUNTERCLOCKWISE  
FOR FULL OPEN  
POSITION  
VALVE STEM  
UNIT SIDE  
OF VALVE  
PRESSURE TAP PORT  
GAS LINE CONNECTION  
CAP  
6. Precautions should be taken to avoid heat damage  
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.  
BODY  
COOLING  
HEATING  
NOTICE:  
Use care to make sure that no moisture enters pressure tap  
port, while wet rag is being used.  
CORE  
NOTICE:  
b. Isolation hangers should also be used when refriger-  
ant lines are run in stud spaces or enclosed ceilings.  
Precautions should be taken to avoid heat damage to  
basepan during brazing. It is recommended to keep the  
flame directly off of the basepan.  
c. Where the refrigerant lines run through a wall or sill,  
they should be insulated and isolated.  
7. Use a Dry Nitrogen Purge and Brazing Alloy without  
flux 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.  
d. Isolate the lines from all ductwork.  
E. SERVICE VALVE OPERATION  
BRASS LIQUID AND GAS LINE SERVICE VALVES  
The Brass Liquid and Gas Line Service Valves are 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).  
8. Braze using accepted good brazing techniques.  
LEAK CHECK  
IMPORTANT:  
Replace pressure tap port valve core before attaching hoses for  
evacuation.  
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WARNING  
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!  
Extreme caution should be exercised when opening the  
Liquid and Gas Line Service Valves.Turn valve stem  
counterclockwise only until the stem contacts the rolled  
edge. (See Figures 4 and 6) No torque is required.  
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.  
SYSTEM EVACUATION  
NOTE:  
Since the outdoor unit has a refrigerant charge, the gas and  
liquid line valves must remain closed.  
The Gas Line Service Valve is full open with a 1/4 turn. See  
Figure 5.  
1. Upon completion of leak check, evacuate the refrigerant  
lines and indoor coil before opening the gas and liquid  
line valves.  
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.  
2. Attach appropriate hoses from manifold gauge to gas  
and liquid line pressure taps.  
NOTE:  
3. Cut and fit tubing, minimizing the use of sharp 90° bends.  
4. Insulate the entire gas line and its fittings.  
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 HCFC-22 and vacuum pump.  
5. Do NOT allow uninsulated liquid line to come in direct  
contact with bare gas line.  
18-BC51D3-2  
3
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3. Attach center hose of manifold gauges to vacuum pump.  
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WARNING  
4. Evacuate until the micron gauge reads no higher than  
350 microns.  
When installing or servicing this equipment, ALWAYS  
exercise basic safety precautions to avoid the possibility  
of electric shock.  
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.  
1. Power wiring and grounding of equipment must comply  
with local codes.  
6. If vacuum gauge does not rise above 500 microns in one  
(1) minute, the evacuation should be complete.  
2. Power supply must agree with equipment nameplate.  
3. Install a separate disconnect switch at the outdoor unit.  
4. Ground the outdoor unit per local code requirements.  
7. With vacuum pump and micron gauge blanked off, open  
valve on HCFC-22 cylinder and charge refrigerant lines  
and indoor coil with vapor to tank pressure of HCFC-22  
supply.  
5. Provide flexible electrical conduit whenever vibration  
transmission may create a noise problem within the  
structure.  
NOTE:  
6. The use of color coded low voltage wire is recommended  
to simplify connections between the outdoor unit, the  
thermostat and the indoor unit.  
DO NOT VENT REFRIGERANT INTO THE ATMOSPHERE.  
8. Close valve on HCFC-22 supply cylinder. Close valves on  
manifold gauge set and remove refrigerant charging  
hoses from liquid and gas pressure tap ports.  
Table 1 --- NEC Class II Control Wiring  
24 VOLTS  
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.  
WIRE SIZE  
18 AWG  
16 AWG  
14 AWG  
MAX. WIRE LENGTH  
150 FT  
225 FT.  
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 3. See Figure 4.  
300 FT.  
7. Table 1 defines maximum total length of low voltage  
wiring from outdoor unit, to indoor unit, and to  
thermostat.  
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.  
8. Mount the indoor thermostat in accordance with instruc-  
tion included with the thermostat. Wire per appropriate  
hook-up diagram (included in these instructions).  
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 counterclock-  
wise, using 1/4" Open End or Adjustable wrench. See  
Figure 5. For brass gas line service valve opening, follow  
9 and 10 above. See Figure 6.  
G. DEFROST CONTROL  
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 be-  
tween the ambient and the colder coil temperature is the  
difference or delta-T measurement. This delta-T measure-  
ment 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.  
12. The gas valve is now open for refrigerant flow. Replace  
valve stem cap to prevent leaks. Again, these caps  
MUST BE REPLACED 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 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.  
FAULT IDENTIFICATION  
A fault condition is indicated by the flashing light on the  
defrost control inside the heat pump control box.  
F. ELECTRICAL CONNECTIONS  
PIN IDENTIFICATION  
7
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CAUTION  
Three phase scroll compressors will run in reverse if  
powered up with improper phasing. If the compressor is  
running backwards there will be little or no difference in  
suction and discharge pressure and it will make a distinct  
louder sound. Reversing any two of the field installed  
power leads will correct the compressor rotation. Failure to  
change the power leads to correct compressor rotation  
may result in compressor damage during operation.  
4
18-BC51D3-2  
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In normal operation, the defrost control light will flash once  
each second. If the light is flashing more than once per  
second or not at all, refer to the service manual for that unit.  
H. COMPRESSOR START UP  
After all electrical wiring is complete, SET THE THERMO-  
STAT SYSTEM 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  
Thermostat System 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 7.)  
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.)  
I. OPERATIONAL AND CHECKOUT  
PROCEDURES  
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.)  
Final phases of this installation are the unit Operational and  
Checkout Procedures which are found in this instruction on  
page 8. To obtain proper performance, all units must be  
operated and charge adjustments made in accordance with  
procedures found in the Service Facts.  
DEFROST CONTROL CHECKOUT  
Normal operation requires:  
a. LED on board flashing 1 time/second.  
b. 24V AC between R & B  
J. ELECTRIC HEATERS  
Electric heaters, if used, are to be installed in the air han-  
dling device according to the instructions accompanying the  
air handler and the heaters.  
c. 24V AC between Y & B with unit operating  
d. Defrost initiation when FRC_DFT pin is shorted to  
TEST_COMMON pin.  
K. OUTDOORTHERMOSTAT  
If a defrost control problem is suspected, refer to the service  
information in control box.  
An outdoor thermostat TAYSTAT250B may be field installed.  
For data, see wiring diagram attached to unit and instruction  
sheet packaged with outdoor thermostat.  
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WARNING  
Do NOT connect 24 VAC toT1 (ODS-A) terminal. ODS-A  
thermistor WILL BE BLOWN.  
L. SEACOAST SALT SHIELD  
BAYSEAC001 (Seacoast Kit) is available for application on  
units installed within one mile of salt water including  
seacoasts and inland waterways.  
TYPICAL FIELD HOOK-UP DIAGRAMS  
Notes:  
1. Be sure power supply agrees with equipment nameplate.  
2. Power wiring and grounding of equipment must comply with local codes.  
3. Low voltage wiring to be No. 18 AWG minimum conductor.  
4. ODT-B must be set lower than ODT-A.  
5. If outdoor thermostats (ODT) are not used, connect W1 to W2 and W3.  
6. N/A to programmable thermostat.  
LEGEND  
FACTORY WIRING  
FIELD WIRING  
18-BC51D3-2  
5
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Installer’s Guide  
2TWA OUTLINE DRAWING  
Note: All dimensions are in MM (Inches).  
MODELS  
BASE FIG.  
A
B
C
D
E
F
G
H
J
K
2TWA0030A  
2TWA0036A  
2TWA0042A  
2TWA0048A  
2TWA0060A  
2TWA0072A  
2TWA2030A  
2TWA2036A  
2TWA2042A  
2TWA2048A  
2TWA2060A  
2
2
3
3
4
4
2
3
3
3
4
2
2
2
2
1
1
2
1
1
1
1
730 (28-3/4) 724 (28-1/2) 651(25-5/8) 3/4 5/16 137 (5-3/8) 65 (2-5/8) 210 (8-1/4) 57 (2-1/4) 457 (18)  
730 (28-3/4) 724 (28-1/2) 651(25-5/8) 7/8 3/8 137 (5-3/8) 65 (2-5/8) 210 (8-1/4) 57 (2-1/4) 457 (18)  
832 (32-3/4) 829 (32-5/8) 756 (29-3/4) 7/8 3/8 137 (5-3/8) 86 (3-3/8) 210 (8-1/4) 79 (3-1/8) 508 (20)  
832 (32-3/4) 829 (32-5/8) 756 (29-3/4) 1-1/8 3/8 137 (5-3/8) 86 (3-3/8) 210 (8-1/4) 79 (3-1/8) 508 (20)  
841 (33-1/8) 946 (37-1/4) 870 (34-1/4) 1-1/8 3/8  
1045 (41-1/8) 946 (37-1/4) 870 (34-1/4) 1-1/8 3/8  
152 (6)  
152 (6)  
98 (3-7/8) 219 (8-5/8) 86 (3-3/8) 508 (20)  
98 (3-7/8) 219 (8-5/8) 86 (3-3/8) 508 (20)  
730 (28-3/4) 724 (28-1/2) 651 (25-5/8) 3/4 5/16 137 (5-3/8) 65 (2-5/8) 210 (8-1/4) 57 (2-1/4) 457 (18)  
832 (32-3/4) 829 (32-5/8) 756 (29-3/4) 1-1/8 3/8 143 (5-5/8) 92 (3-5/8) 210 (8-1/4) 79 (3-1/8) 508 (20)  
832 (32-3/4) 829 (32-5/8) 756 (29-3/4) 1-1/8 3/8 143 (5-5/8) 92 (3-5/8) 210 (8-1/4) 79 (3-1/8) 508 (20)  
933 (36-3/4) 829 (32-5/8) 756 (29-3/4) 1-1/8 3/8 143 (5-5/8) 92 (3-5/8) 210 (8-1/4) 79 (3-1/8) 508 (20)  
1045 (41-1/8) 946 (37-1/4) 870 (34-1/4) 1-1/8 3/8  
152 (6)  
98 (3-7/8) 219 (8-5/8) 86 (3-3/8) 508 (20)  
From Dwg. 21D153074 Rev. 5  
6
18-BC51D3-2  
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Installer’s Guide  
MOUNTING HOLE LOCATION  
Note: All dimensions are in MM (Inches).  
NOTE: For model base size,  
see table on page 6.  
From Dwg. 21D152989 Rev. 0  
18-BC51D3-2  
7
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Installer’s Guide  
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 ........... [  
]
]
8. Supply registers and return grilles open and  
unobstructed ............................................................... [  
]
]
9. Return air filter installed............................................ [  
3. Have all Refrigerant Lines been secured and  
isolated properly? ........................................................ [  
]
10. Thermostat thermometer is accurate. Check  
against a reliable thermometer. Adjust per  
4. Have passages through masonry been sealed?  
If mortar is used, prevent mortar from coming  
into direct contact with copper tubing ........................ [  
instructions with thermostat ...................................... [  
]
]
]
]
]
11. Is correct speed tap being used?  
(Indoor blower motor) ................................................. [  
5. Verify tightness of all electrical connects ................... [  
12. Operate complete system in each mode to  
6. Observe outdoor fan during on cycle for clearance  
and smooth operation ................................................. [  
insure safe operation................................................... [  
]
]
7. Indoor coil drain line drains freely. Pour water  
into drain pan.............................................................. [  
TROUBLESHOOTING CHART — WHAT TO CHECK  
SYSTEM FAULTS  
REFRIGERANT CIRCUIT  
C
H
C
H
C
H
C
H
C
H
C
H
C
H
C
H
P
P
P
P
S
S
P
S
S
S
S
S
Head Pressure Too High  
Head Pressure Too Low  
P
S
S
S
S
P
P
S
S
S
S
S
S
S
S
S
S
P
P
S
S
P
P
P
P
P
Suction Pressure Too High  
Suction Pressure Too Low  
Liquid Refrig. Floodback (TXV)  
P
P
P
P
S
S
S
S
P
P
P
P
P
P
S
S
S
S
S
S
S
S
Liquid Refrig. Floodback  
(Cap. Tube)  
S
S
P
I.D. Coil Frosting  
S
S
P
P
S
S
S
S
S
P
P
S
S
S
S
S
S
Compressor Runs  
Inadequate or No Cooling/Htg  
ELECTRICAL  
C
H
C
H
C
H
C
H
C
H
C
H
P
P
P
P
P
P
P
P
S
S
P
P
S
S
P
P
P
P
Compressor  
Won’t Start  
&
O.D. Fan  
S
S
P
P
P
P
P
P
P
P
S
S
S
S
S
S
S
S
S
S
S
S
P
P
Compressor Will Not Start  
But O.D. Fan Runs  
O.D. Fan Won’t Start  
S
S
S
S
S
S
S
S
P
P
P
P
Compressor Hums But Won’t Start  
Compressor Cycles on IOL  
P
P
P
P
S
S
S
S
P
P
P
P
S
S
S
S
S
S
S
S
S
P
P
P
S
S
P
P
S
S
S
S
I.D. Blower Won’t Start  
DEFROST  
C
H
C
H
C
H
Unit Won’t Initiate Defrost  
P
P
P
P
P
P
Defrost Terminates on Time  
Unit Icing Up  
P
P
S
S
S
C
-
Cooling  
H
-
Heating  
P
-
Primary Causes  
S
-
Secondary Causes  
-
3
Phase Only  
*
Literature Order Number  
File Number  
P.I.  
2TWA2-IN-1A  
SV-UN-S/S-2TWA2-IN-1A 9/02  
2TWA2-IN-1 4/02  
Supersedes  
Stocking Location  
PI Louisville & Webb/Mason - Houston  
Trane  
A business of  
American Standard Companies  
Trane has a policy of continuous product and product data improvement and it reserves the right to change  
design and specifications without notice.  
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