TRANE R410A 2-5Tons ECM Air Handlers Installation Guide
- June 13, 2024
- Trane
Table of Contents
- TRANE R410A 2-5Tons ECM Air Handlers
- Product Information
- Product Usage Instructions
- RECOGNIZE THIS SYMBOL AS AN INDICATION OF IMPORTANT SAFETY INFORMATION
- SAFETY
- GENERAL
- APPLICATIONS
- ELECTRICAL WIRING
- AIRFLOW PERFORMANCE (OXBOX AIR HANDLERS ARE SUITABLE FOR MOBILE HOME
- DUCTWORK
- REFRIGERANT CONNECTIONS
- AIR FILTER (Not Factory-Installed)
- FILTER INSTALLATION DIMENSIONS
- PISTION/TXV INSTALLATION
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
TRANE R410A 2-5Tons ECM Air Handlers
Product Information
The ECM Air Handlers 2-5Tons R410a is a product designed for air conditioning systems. It is intended for indoor use only and should not be used outdoors. The air handler features various safety measures and is suitable for mobile home applications. The unit dimensions, electrical wiring, airflow performance, refrigerant connections, air filter installation dimensions, and wiring diagrams are provided in the user manual. The installation must comply with national, state, and local codes.
Product Usage Instructions
Safety Precautions
- Before using the unit, read the manual carefully and keep it for future reference.
- Follow all safety instructions and warnings provided in the manual.
- Ensure that the unit is installed, adjusted, and operated by qualified licensed service personnel.
- Disconnect all power to the unit before installing or servicing to prevent personal injury.
- If removal of the blower assembly is required, de-energize and lock all disconnect switches supplying power to the equipment.
Installation
Follow the installation instructions provided in the manual. Ensure that
the unit is installed properly to avoid fire, electrical shock, property
damage, personal injury, or death. The manual provides instructions for
vertical upflow, vertical downflow, horizontal, and installation in an
unconditioned space.
Electrical Wiring
- Refer to the power wiring section for instructions on connecting the unit to the power source.
- Follow the control wiring section for guidance on connecting the unit’s controls.
- Proper grounding is important. Follow the grounding instructions provided in the manual.
- Refer to the electrical data and electric kit Mca/mop data sections for specific electrical information.
Airflow Performance
The air handlers are suitable for mobile home applications. Refer to the
airflow performance section for detailed information on the unit’s airflow
capabilities.
Ductwork
Proper ductwork installation is essential for the efficient operation of
the air handler. Follow the instructions provided in the ductwork section for
guidance.
Refrigerant Connections
Refer to the refrigerant connections section for instructions on connecting
the condensate drain tubing.
Air Filter Installation
An air filter is not factory-installed but can be installed separately.
Follow the instructions provided in the air filter and filter installation
dimensions sections for guidance on installing the air filter.
Wiring Diagram
- For model 24/36/60, refer to the wiring diagram in section 10.1.
- For model 61, refer to the wiring diagram in section 10.1.
Pistion/TXV Installation
Instructions for piston/TXV installation can be found in section 11 of the
manual.
Note: This response provides a summary of the product information and usage instructions based on the text provided from the user manual. For complete and accurate instructions, please refer to the original user manual included with your product.
RECOGNIZE THIS SYMBOL AS AN INDICATION OF IMPORTANT SAFETY INFORMATION
WARNING
These instructions are intended as an aid to qualified licensed service
personnel for proper installation, adjustment and operation of this unit. Read
these instructions thoroughly before attempting installation or operation.
Failure to follow these instructions may result in improper installation,
adjustment, service or maintenance possibly resulting in fire, electrical
shock, property damage, personal injury or death.
WARNING
This appliance is not intended for use by persons (including children) with
reduced physical, sensory or mental capabilities, or lack of experience and
knowledge, unless they have been given supervision or instruction concerning
use of the appliance by a person responsible for their safety.
Children should be supervised to ensure that they do not play with the
appliance. This unit can’t be used outdoor.
WARNING
Proposition 65: This appliance contains fiberglass insulation. Respirable
particles of fiberglass are known to the state of California to cause cancer.
For more information, go to
www.P65Warnings.ca.gov.”
Air Handler Features
- Multi-speed blower motor.
- Replace piston to TXV easily.
- Multi-position installation – upflow or horizontal right standard; field convertible to horizontal left or downflow.
- Multiple electrical entry locations.
- Field-installed electric heater kits 5, 7.5, 10, 15, 20 kW available as an accessory.
- Dual front panel design for ease of maintenance.
- Blower and coil easy slide out for ease of maintenance.
- Fully-insulated cabinet design.
- Horizontal and vertical condensate drain pans standard.
- Condensate drain pan is polymer with UVC inhibitor.
- Primary and secondary condensate drain fittings.
- Factory-sealed cabinet certified to achieve 2% or less air leakage rate at 1.0 inch water column.
- Integrated filter rack with tool-less door access.
- AHRI and ETL listed.
This document is customer property and is to remain with this unit.
These instructions do not cover all the different variations systems nor does
it 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. If additional information is required, please contact your
local distributor.
SAFETY
- This is a safety alert symbol. When you see this symbol on labels or in manuals, be alert to the potential for personal injury.
- This is an attention alert symbol. When you see this symbol on labels or in manuals, be alert to the potential for personal injury.
WARNING
Disconnect all power to unit before installing or servicing. More than one
disconnect switch may be required to de-energize the equipment. Hazardous
voltage can cause server personal injury or death.
WARNING
If removal of the blower assembly is required, all disconnect switches
supplying power to the equipment must be de-energized and locked (if not in
sight of unit ) so the field power wires can be safely removed from the blower
assembly. Failure to do so can cause electrical shock resulting in personal
injury or death.
WARNING
Because of possible damage to equipment or personal injury, installation,
service, and maintenance should be performed by a trained, qualified service
personnel. Consumer service is recommended only for filter cleaning/
replacement. Never operate the unit with the access panels removed.
WARNING
These instructions are intended as an aid to qualified, licensed service
personnel for proper installation, adjustment and operation of this unit. Read
these instructions thoroughly before attempting installation or operation.
Failure to follow these instructions may result in improper installation,
adjustment, service or maintenance possibly resulting in fire, electrical
shock, property damage, personal injury or death.
WARNING
The unit must be permanently grounded. Failure to do so can result in
electrical shock causing personal injury or death.
WARNING
PROPOSITION 65 : This appliance contains fiberglass insulation.
Respirable particles of fiberglass are known to State of California to cause
cancer.
All manufacturer products meet current federal OSHA Guidelines for safety.
California Proposition 65 warnings are required for certain products, which
are not covered by the OSHA standards.
California’s Proposition 65 requires warnings for products sold in California
that contain or produce any of over 600 listed chemicals known to the State of
California to cause cancer or birth defects such as fiberglass insulation,
lead in brass, and combustion products from natural vapor.
All “new equipment” shipped for sale in California will have labels stating
that the product contains and/or produces Proposition 65 chemicals. Although
we have not changed our processes, having the same label on all our products
facilitates manufacturing and shipping. We cannot always know “when, or if”
products will be sold in the California market.
You may receive inquiries from customers about chemicals found in, or produced
by, some of our heating and air-conditioning equipment, or found in natural
vapor used with some of our products. Listed below are those chemicals and
substances commonly associated with similar equipment in our industry and
other manufacturers.
- Glass Wool (Fiberglass) Insulation
- Carbon Monoxide (CO)
- Formaldehyde
- Benzene
More details are available at the websites for OSHA (Occupational Safety and Health Administration), at www.osha.gov and the State of California’s OEHHA (Office of Environmental Health Hazard Assessment), at www.oehha.org. Consumer education is important since the chemicals and substances on the list are found in our daily lives. Most consumers are aware that products present safety and health risks, when improperly used, handled and maintained.
CAUTION
Fig.1-1 CHECKING MOTOR FIX STATUS
Make sure the blower motor support is tight (3-motor mount bolts) , then check to see if wheel is secured to motor shaft before operating unit.
WARNING
The first 6 inches of supply air plenum and ductwork must be constructed of
sheet metal as required by NFPA 90B. The supply air plenum or duct must have a
solid sheet metal bottom directly under the unit with no openings, registers
or flexible air ducts located in it. If flexible supply air ducts are used,
they may be located only in the vertical walls of rectangular plenum, a
minimum of 6 inches from the solid bottom. Metal plenum of duct may be
connected to the combustible floor base, if not, it must be connected to the
unit supply duct exposed to the supply air opening from the downflow unit.
Exposing combustible (non-metal) material to the supply opening of a downflow
unit can cause a fire resulting in property damage, personal injury or death.
Exception warning to downflow
Installations on concrete floor slab with supply air plenum and ductwork
completely encased must be not less than 2 inches of concrete (See NFPA 90A).
GENERAL
The unit can be positioned for bottom return air in the upflow position, left
and right return in the horizontal position, top return in downflow position.
This Air Handler provides the flexibility for installation in any upflow or
downflow horizontal application. The direct drive motors provide a selection
of air volume to match any application. 3-Speed motors provide selections of
air flow to meet desired applications.
Top and side power and control wiring, accessible screw terminals for control
wiring all combine to make the installation easy, and minimize installation
cost. See Fig.2-5.
Do not install unit in an area where flammable materials are present due to
the risk of an explosion resulting in serious injury or death.
WARNING
If the supporting structural members are not strong enough to take the unit’s
weight, the unit could fall out of place and cause serious injury.
If a return-air duct is not installed, carefully select the place and method
of product installation so that air flow into the product will not be blocked.
The unit should be installed in a level position to ensure proper condensation
drainage. Up to an additional ¼” rise over the width or depth of the unit is
allowed to create additional sloping towards the drain. Unit must be
positioned between level and ¼” rise, sloping toward the drain connections.
Install the indoor and outdoor unit, power supply wiring and connecting wires
at least 3.5 ft. away from televisions or radios in order to prevent image
interference or noise.
See Fig.2-1 and Fig.2-2.
Fig.2-1 CLEARANCES IN THE HORIZONTAL POSITION
Fig.2-2 CLEARANCES IN THE VERTICAL POSITION
When the unit is installed in a hot and humid place, If the humidity inside
the installation space might exceed 86°F and RH 80%, it is recommended to
insulate the cabinet exterior.
Use glass wool or polyethylene foam as insulation so that the thickness is
more than 2 in. and fits inside the installation space opening.
Respectively, condensation may form on the surface of the insulation.
Be sure to use insulation that is designed for use with HVAC Systems.
Condensation may form on the product during cool operation. It is also
recommended to use the second drain pan and secure the unit firmly to prevent
it from falling. See Fig.2-3 and Fig.2-4 . Fig.2-3 INSTALLED VERTICALLY
Fig.2-4 INSTALLED HORIZONTALLY
Unit Dimensions
Fig.2-5 DIMENSIONS
UPFLOW UNIT SHOWN;
UNIT MAY BE INSTALLED UPFLOW, DOWNFLOW, HORIZONTAL RIGHT OR LEFT AIR SUPPLY.
DIMENSIONAL DATA
MODEL SIZE| UNIT HEIGHT “H” IN. [mm]| UNIT WIDTH “W” IN. [mm]| UNIT LENGHT “D” IN. [mm]|
SUPPLY DUCT “A”
| UNIT WEIGHT /SHIPPING WEIGHT(LBS.[kg])
---|---|---|---|---|---
24| 41-3/8″[1050]| 18-1/8″[460]| 20-1/2″[520]| 16″[406]| 99 /[45]
36| 46-1/2″[1180]| 19-5/8″[500]| 21-5/8″[550]| 18″[456]| 121/ [55]
60| 54-1/2″[1385]| 22″[560]| 24″[610]| 19-1/2″[496]| 152/ [69]
61| 54-1/2″[1385]| 22″[560]| 24″[610]| 19-1/2″[496]| 159/[72]
APPLICATIONS
Vertical Upflow
Vertical Upflow configuration is the factory set on all models. See Fig.2-5.
If return air is to be ducted, install duct flush with floor. Use fireproof
resilient gasket 1/8 to 1/4 in. thick between the ducts, unit and floor. Set
unit on floor over opening.
IMPORTANT NOTE
Torque applied to drain connections should not exceed 15ft.lbs. See Fig.2-5 &
3-1.
Fig.3-1 DIMENSIONS FOR FRONT CONNECT COIL
Vertical Downflow
Conversion to Vertical Downflow : A vertical upflow unit may be converted
to vertical downflow. Remove the door and indoor coil and reinstall 180° from
original position. See Fig.3-2.
IMPORTANT: To comply with certification agencies and the National Electric Code for downflow application, the circuit breaker(s) on field- installed electric heater kits must be re-installed per procedure below so that the breaker switch “on” position and marking is up and, “off” position and marking is down.
- To rotate breaker(s ): Rotate one breaker set (circuit) at a time starting with the one on the right. Loosen both lugs on the load side of the breaker. (Make sure that wires are identified and are reinstalled into proper breaker). Wires are bundled with wire ties, one bundle going to the right lug and one bundle going to the left lug.
- Using a screwdriver or pencil, lift white plastic tab with hole away from breaker until breaker releases from mounting opening.
- With breaker held in hand, rotate breaker so that “on” position is up, “off” position is down with unit in planned vertical mounting position. Insert right wire bundle into top right breaker lug, ensuring all strands of all wires are inserted fully into lug, and no wire insulation is in lug.
- Tighten lug as tight as possible while holding circuit breaker. Check wires and make sure each wire is secure and none are loose. Repeat for left wire bundle in left top circuit breaker lug.
- Replace breaker by inserting breaker mounting tab opposite white pull tab in opening, hook mounting tab over edge in opening.
- With a screwdriver or pencil, pull the blue tab with hole away from breaker while setting that side of breaker into opening. When breaker is in place, release tab, locking circuit breaker into location in opening.
- Repeat above operation for remaining breaker(s) (if more than one is provided).
- Replace single point wiring jumper bar, if it is used, on line side of breaker and tighten securely.
- Double check wires and lugs to make sure all are secure and tight. Check to make sure unit wiring to circuit breaker load lugs match that shown on the unit wiring diagram.
CAUTION
When using the unit with electrical heater, the switch is used only for
electrical heater on the front of panel.
Horizontal
- Horizontal right is the default factory configuration for the units.
- Horizontal left isn’t the default factory configuration for the units.
Conversion to Horizontal left : A vertical upflow unit may be converted to horizontal left by removing indoor coil assembly and reinstalling coil as shown for left hand air supply.
- Rotate unit into the downflow position, with the coil compartment on top and the blower compartment on bottom. See Fig. 3-2.
- Reinstall the indoor coil 180° from original position. Ensure the retaining channel is fully engaged with the coil rail. See Fig. 3-2.
- Secondary drain pan kits are recommended when the unit is configured for the horizontal position over a finished ceiling and/or living space.
CAUTION
Horizontal units must be configured for right hand air supply or left hand air
supply. Horizontal drain pan must be located under indoor coil. Failure to use
the drain pan can result in property damage.
Conversion in Horizontal Direction: Horizontal right-hand supply can be changed to horizontal left-hand supply by removing the indoor coil and reinstalling 180° from original.
Installation In An Unconditioned Space
IMPORTANT: There are two pairs of coil rails in the air handler for default and counter flow application. If the air handler is installed in an unconditioned space, the two unused coil rails should be removed to minimize air handler surface sweating. The coil rails can be easily removed by taking off the 6 mounting screws from both sides of the cabinet.
ELECTRICAL WIRING
Field wiring must comply with the National Electric Code (C.E.C. in Canada) and any applicable local ordinance.
WARNING
Disconnect all power to unit before installing or servicing. More than one
disconnect switch may be required to de-energize the equipment. Hazardous
voltage can cause severe personal injury or death.
Power Wiring
It is important that proper electrical power is available for connection to
the unit model being installed. See the unit nameplate, wiring diagram and
electrical data in the installation instructions.
- If required, install a branch circuit disconnect of adequate size, located within sight of, and readily accessible to the unit.
- IMPORTANT: After the Electric Heater is installed, units may be equipped with one two or three 30-60 amp. circuit breakers. These breaker(s) protect the internal wiring in the event of a short circuit and serve as a disconnect. Circuit breakers installed within the unit do not provide over-current protection of the supply wiring and therefore may be sized larger than the branch circuit protection.
- Supply circuit power wiring must be 75°C minimum copper conductors only. See Electrical Data in this section for ampacity, wire size and circuit protector requirement. Supply circuit protective devices may be either fuses or “HACR” type circuit breakers.
- Power wiring may be connected to either the right, left side or top. Three 7/8″, 1-3/8″, 1-3/4″ dia. concentric knockouts are provided for connection of power wiring to unit.
- Power wiring is connected to the power terminal block in unit electric cabinet.
Control Wiring
IMPORTANT: Class 2 low voltage control wiring should not be run in
conduit with main power wiring and must be separated from power wiring, unless
class 1 wire of proper voltage rating is used.
- Low voltage control wiring should be 18 Awg. color-coded. For lengths longer than 100 ft., 16 Awg. wire should be used.
- Low voltage control connections are made to low voltage pigtails extending from top of air handler (upflow position – see Fig 2-2).
- Connections for control wiring are made with wire nuts. Control wiring knockouts (5/8″and 7/8″) are also provided on the right and left side of the unit for side connection.
- See wiring diagrams attached to indoor and outdoor sections to be connected.
- Make sure, after installation, separation of control wiring and power wiring has been maintained.
Grounding
WARNING
The unit must be permanently grounded. Failure to do so can result in
electrical shock causing personal injury or death.
- Grounding may be accomplished by grounding metal conduit when installed in accordance with electrical codes to the unit cabinet.
- Grounding may also be accomplished by attaching ground wire(s) to ground lug(s) provided in the unit wiring compartment.
- Ground lug(s) are located close to wire entrance on left side of unit (up-flow). Lug(s) may be moved to marked locations near wire entrance on right side of unit (up-flow). If alternate location is more conve-nient.
- Use of multiple supply circuits require grounding of each circuit to lug(s) provided in unit.
Electrical Data
Electric Kit Mca/Mop Data
NOTE: HEATER MODEL NUMBER DIGITS “*” : A,B Heat kit suitable for AHU
4-way position installation.
Ampacities for MCA and Fuse/breaker including the blower motor.
Heat pump systems require a specified airflow. Each ton of cooling requires
between 350 and 450 cubic feet of air per minute (CFM), or 400 CFM nominally.
Electric Heater Kits
NOTE: HEATER MODEL NUMBER DIGITS “*” : A,B
AIRFLOW PERFORMANCE (OXBOX AIR HANDLERS ARE SUITABLE FOR MOBILE HOME
APPLICATIONS)
Airflow performance data is based on cooling performance with a coil and no
filter in place. Select performance table for appropriate unit size.
External static applied to unit allows operation within the minimum and
maximum limits shown in table below for both cooling and electric heat
operation.
AIRFLOW PERFORMANCE DATA
Air Handler Model| Outdoor Unit Size(Tons)|
Motor Speed
| | CFM Wet Coil without filter and Electric Heat
---|---|---|---|---
External Static Pressure-Inches W.C.[kPa]
0[0]| 0.1[.025]| 0.2[.050]| 0.3[.075]| 0.4[0.100]| 0.5[0.125]| 0.6[0.150]|
0.7[0.175]| 0.8[0.200]
24
|
1.5
|
1
| SCFM| 590| 544| 511| 447| 404| 345| 311| 273| 239
Power/W| 49| 57| 64| 70| 75| 82| 91| 97| 102
Current/A| 0.77| 0.81| 0.84| 0.87| 0.91| 0.94| 0.99| 1.02| 1.11
2
| SCFM| 681| 633| 591| 535| 490| 446| 388| 354| 313
Power/W| 63| 69| 77| 83| 90| 96| 103| 111| 118
Current/A| 0.84| 0.87| 0.93| 0.96| 0.99| 1.03| 1.07| 1.13| 1.16
3
(Recommended)
| SCFM| 788| 736| 687| 648| 597| 558| 511| 473| 429
Power/W| 86| 91| 100| 108| 114| 121| 128| 133| 142
Current/A| 0.95| 0.99| 1.11| 1.14| 1.18| 1.21| 1.26| 1.31| 1.37
4
(Factory Default)
| SCFM| 883| 842| 796| 758| 717| 681| 642| 599| 524
Power/W| 121| 128| 135| 144| 151| 159| 165| 173| 181
Current/A| 1.21| 1.28| 1.32| 1.38| 1.43| 1.47| 1.54| 1.59| 1.64
5
| SCFM| 1103| 1073| 1036| 998| 967| 934| 896| 855| 814
Power/W| 233| 241| 249| 258| 265| 275| 281| 286| 291
Current/A| 1.97| 2.03| 2.09| 2.16| 2.22| 2.29| 2.34| 2.37| 2.41
24
|
2
|
1
| SCFM| 590| 544| 511| 447| 404| 345| 311| 273| 239
Power/W| 49| 57| 64| 70| 75| 82| 91| 97| 102
Current/A| 0.77| 0.81| 0.84| 0.87| 0.91| 0.94| 0.99| 1.02| 1.11
2
| SCFM| 681| 633| 591| 535| 490| 446| 388| 354| 313
Power/W| 63| 69| 77| 83| 90| 96| 103| 111| 118
Current/A| 0.84| 0.87| 0.93| 0.96| 0.99| 1.03| 1.07| 1.13| 1.16
3
| SCFM| 788| 736| 687| 648| 597| 558| 511| 473| 429
Power/W| 86| 91| 100| 108| 114| 121| 128| 133| 142
Current/A| 0.95| 0.99| 1.11| 1.14| 1.18| 1.21| 1.26| 1.31| 1.37
4
(Factory Default)
| SCFM| 883| 842| 796| 758| 717| 681| 642| 599| 524
Power/W| 121| 128| 135| 144| 151| 159| 165| 173| 181
Current/A| 1.21| 1.28| 1.32| 1.38| 1.43| 1.47| 1.54| 1.59| 1.64
5
| SCFM| 1103| 1073| 1036| 998| 967| 934| 896| 855| 814
Power/W| 233| 241| 249| 258| 265| 275| 281| 286| 291
Current/A| 1.97| 2.03| 2.09| 2.16| 2.22| 2.29| 2.34| 2.37| 2.41
36
|
2.5
|
1
| SCFM| 898| 752| 603| 511| 405| 360| 301| 259| 203
Power/W| 78| 72| 65| 60| 54| 48| 41| 38| 36
Current/A| 0.68| 0.64| 0.59| 0.52| 0.46| 0.42| 0.36| 0.29| 0.28
2
| SCFM| 1026| 902| 810| 694| 630| 544| 490| 409| 366
Power/W| 109| 99| 106| 111| 120| 126| 135| 140| 148
Current/A| 0.94| 0.86| 0.91| 0.95| 1.03| 1.07| 1.14| 1.18| 1.24
3
| SCFM| 1161| 1114| 1052| 992| 893| 825| 768| 694| 646
Power/W| 148| 158| 164| 175| 187| 193| 203| 209| 219
Current/A| 1.26| 1.34| 1.39| 1.48| 1.57| 1.61| 1.69| 1.73| 1.81
4
(Recommended)
| SCFM| 1287| 1244| 1186| 1142| 1078| 969| 914| 892| 893
Power/W| 194| 205| 211| 221| 233| 241| 252| 253| 253
Current/A| 1.62| 1.69| 1.75| 1.83| 1.93| 1.98| 2.07| 2.08| 2.11
5
(Factory Default)
| SCFM| 1491| 1442| 1396| 1348| 1302| 1243| 1150| 1088| 1029
Power/W| 290| 298| 307| 318| 325| 337| 351| 362| 367
Current/A| 2.35| 2.42| 2.49| 2.58| 2.64| 2.73| 2.83| 2.92| 2.96
36
|
3
|
1
| SCFM| 898| 752| 603| 511| 405| 360| 301| 259| 203
Power/W| 78| 72| 65| 60| 54| 48| 41| 38| 36
Current/A| 0.68| 0.64| 0.59| 0.52| 0.46| 0.42| 0.36| 0.29| 0.28
2
| SCFM| 1026| 902| 810| 694| 630| 544| 490| 409| 366
Power/W| 109| 99| 106| 111| 120| 126| 135| 140| 148
Current/A| 0.94| 0.86| 0.91| 0.95| 1.03| 1.07| 1.14| 1.18| 1.24
3
| SCFM| 1161| 1114| 1052| 992| 893| 825| 768| 694| 646
Power/W| 148| 158| 164| 175| 187| 193| 203| 209| 219
Current/A| 1.26| 1.34| 1.39| 1.48| 1.57| 1.61| 1.69| 1.73| 1.81
4| SCFM| 1287| 1244| 1186| 1142| 1078| 969| 914| 892| 893
Power/W| 194| 205| 211| 221| 233| 241| 252| 253| 253
Current/A| 1.62| 1.69| 1.75| 1.83| 1.93| 1.98| 2.07| 2.08| 2.11
5
(Factory Default)
| SCFM| 1491| 1442| 1396| 1348| 1302| 1243| 1150| 1088| 1029
Power/W| 290| 298| 307| 318| 325| 337| 351| 362| 367
Current/A| 2.35| 2.42| 2.49| 2.58| 2.64| 2.73| 2.83| 2.92| 2.96
Air Handler Model| Outdoor Unit Size(Tons)|
Motor Speed
| | CFM Wet Coil without filter and Electric Heat
---|---|---|---|---
External Static Pressure-Inches W.C.[kPa]
0[0]| 0.1[.025]| 0.2[.050]| 0.3[.075]| 0.4[0.100]| 0.5[0.125]| 0.6[0.150]|
0.7[0.175]| 0.8[0.200]
60
|
3.5
|
1
| SCFM| 1344| 1284| 1226| 1151| 1076| 946| 904| 893| 869
Power/W| 143| 151| 159| 168| 177| 191| 197| 195| 194
Current/A| 1.23| 1.26| 1.33| 1.41| 1.5| 1.61| 1.63| 1.61| 1.62
2
| SCFM| 1531| 1477| 1418| 1366| 1299| 1239| 1138| 1064| 1001
Power/W| 200| 211| 222| 231| 239| 250| 266| 277| 291
Current/A| 1.73| 1.74| 1.81| 1.89| 2.02| 2.14| 2.22| 2.31| 2.38
3
(Recommended)
| SCFM| 1647| 1592| 1538| 1490| 1436| 1378| 1315| 1215| 1140
Power/W| 244| 254| 263| 273| 283| 300| 305| 325| 336
Current/A| 2.03| 2.11| 2.14| 2.19| 2.31| 2.38| 2.53| 2.64| 2.72
4
(Factory Default)
| SCFM| 1875| 1822| 1774| 1729| 1677| 1629| 1581| 1533| 1473
Power/W| 340| 353| 365| 375| 388| 399| 412| 423| 437
Current/A| 2.73| 2.79| 2.86| 3.02| 3.12| 3.21| 3.29| 2.38| 3.51
5
| SCFM| 2021| 1967| 1924| 1879| 1828| 1785| 1742| 1694| 1641
Power/W| 409| 416| 429| 447| 461| 471| 487| 500| 513
Current/A| 3.21| 3.29| 3.38| 3.52| 3.61| 3.73| 3.76| 3.86| 4.04
60
|
4
|
1
| SCFM| 1344| 1284| 1226| 1151| 1076| 946| 904| 893| 869
Power/W| 143| 151| 159| 168| 177| 191| 197| 195| 194
Current/A| 1.23| 1.26| 1.33| 1.41| 1.5| 1.61| 1.63| 1.61| 1.62
2
| SCFM| 1531| 1477| 1418| 1366| 1299| 1239| 1138| 1064| 1001
Power/W| 200| 211| 222| 231| 239| 250| 266| 277| 291
Current/A| 1.73| 1.74| 1.81| 1.89| 2.02| 2.14| 2.22| 2.31| 2.38
3
(Recommended)
| SCFM| 1647| 1592| 1538| 1490| 1436| 1378| 1315| 1215| 1140
Power/W| 244| 254| 263| 273| 283| 300| 305| 325| 336
Current/A| 2.03| 2.11| 2.14| 2.19| 2.31| 2.38| 2.53| 2.64| 2.72
4
(Factory Default)
| SCFM| 1875| 1822| 1774| 1729| 1677| 1629| 1581| 1533| 1473
Power/W| 340| 353| 365| 375| 388| 399| 412| 423| 437
Current/A| 2.73| 2.79| 2.86| 3.02| 3.12| 3.21| 3.29| 2.38| 3.51
5
| SCFM| 2021| 1967| 1924| 1879| 1828| 1785| 1742| 1694| 1641
Power/W| 409| 416| 429| 447| 461| 471| 487| 500| 513
Current/A| 3.21| 3.29| 3.38| 3.52| 3.61| 3.73| 3.76| 3.86| 4.04
60
|
5
|
1
| SCFM| 1344| 1284| 1226| 1151| 1076| 946| 904| 893| 869
Power/W| 143| 151| 159| 168| 177| 191| 197| 195| 194
Current/A| 1.23| 1.26| 1.33| 1.41| 1.5| 1.61| 1.63| 1.61| 1.62
2
| SCFM| 1531| 1477| 1418| 1366| 1299| 1239| 1138| 1064| 1001
Power/W| 200| 211| 222| 231| 239| 250| 266| 277| 291
Current/A| 1.73| 1.74| 1.81| 1.89| 2.02| 2.14| 2.22| 2.31| 2.38
3
| SCFM| 1647| 1592| 1538| 1490| 1436| 1378| 1315| 1215| 1140
Power/W| 244| 254| 263| 273| 283| 300| 305| 325| 336
Current/A| 2.03| 2.11| 2.14| 2.19| 2.31| 2.38| 2.53| 2.64| 2.72
4
(Factory Default)
| SCFM| 1875| 1822| 1774| 1729| 1677| 1629| 1581| 1533| 1473
Power/W| 340| 353| 365| 375| 388| 399| 412| 423| 437
Current/A| 2.73| 2.79| 2.86| 3| 3.12| 3.21| 3.29| 2.38| 3.51
5
| SCFM| 2021| 1967| 1924| 1879| 1828| 1785| 1742| 1694| 1641
Power/W| 409| 416| 429| 447| 461| 471| 487| 500| 513
Current/A| 3.21| 3.29| 3.38| 3.52| 3.61| 3.73| 3.76| 3.86| 4.04
61
|
6
|
1
| SCFM| 1348| 1280| 1227| 1180| 1130| 1042| 933| 871| 825
Power/W| 157| 165| 176| 187| 196| 206| 225| 233| 245
Current/A| 1.34| 1.4| 1.49| 1.58| 1.64| 1.73| 1.88| 1.94| 2.03
2
| SCFM| 1491| 1439| 1380| 1334| 1285| 1246| 1180| 1047| 988
Power/W| 205| 217| 226| 238| 250| 259| 269| 292| 300
Current/A| 1.71| 1.81| 1.88| 1.97| 2.06| 2.14| 2.21| 2.39| 2.45
3
| SCFM| 1677| 1633| 1586| 1543| 1499| 1449| 1409| 1370| 1281
Power/W| 281| 297| 311| 325| 338| 346| 358| 370| 386
Current/A| 2.3| 2.41| 2.52| 2.63| 2.73| 2.79| 2.88| 2.98| 3.09
4
(Factory Default)
| SCFM| 1881| 1843| 1800| 1754| 1708| 1666| 1626| 1590| 1558
Power/W| 391| 407| 423| 438| 449| 462| 474| 487| 498
Current/A| 3.12| 3.25| 3.36| 3.47| 3.56| 3.66| 3.75| 2.84| 3.93
5| SCFM| 2029| 1988| 1947| 1900| 1858| 1815| 1771| 1716| 1671
Power/W| 426| 482| 498| 514| 528| 541| 553| 565| 572
Current/A| 3.67| 3.8| 3.92| 4.03| 4.13| 4.24| 4.33| 4.41| 4.47
— Shaded boxes represent airflow outside the required 300-450 cfm/ton, which are not recommended.
NOTES: Airflow based upon cooling performance at 230V with no electric
heat and no filter. Airflow at 208V is approximately the same as 230V because
the mult-tap ECM motor is a constant torque motor. The torque doesn’t drop off
at the speeds in which the motor operates.
The air distribution system has the greatest effect on airflow. The duct
system is totally controlled by the contractor. For this reason, the
contractor should use only industry-recognized procedures.
Heat pump systems require a specified airflow for electric heat operating.
Each ton of cooling requires between 350 and 450 cubic feet of air per minute
(CFM), or 400 CFM nominally.
Duct design and construction should be carefully done. System performance can
be lowered dramatically through bad planning or workmanship.
Air supply diffusers must be selected and located carefully. They must be
sized and positioned to deliver treated air along the perimeter of the space.
If they are too small for their intended airflow, they become noisy. If they
are not located properly, they cause drafts. Return air grilles must be
properly sized to carry air back to the blower. If they are too small, they
also cause noise.
The installers should balance the air distribution system to ensure proper
quiet airflow to all rooms in the home. This ensures a comfortable living
space.
An air velocity meter or airflow hood can be used to balance and verify branch
and system airflow (CFM).
DUCTWORK
Field ductwork must comply with the National Fire Protection Association NFPA 90A, NFPA 90B and any applicable local ordinance.
WARNING
Do not, under any circumstances, connect return ductwork to any other heat
producing device such as fireplace insert, stove, etc. Unauthorized use of
such devices may result in fire, carbon monoxide poisoning, explosion,
personal injury or property damage.
Sheet metal ductwork in unconditioned spaces must be insulated and covered with a vapor barrier. Fibrous ductwork may be used if constructed and installed in accordance with SMACNA Construction Standard on Fibrous Glass Ducts. Ductwork must comply with National Fire Protection Association as tested by UL Standard 181 for Class I Air Ducts. Check local codes for requirements on ductwork and insulation.
- Duct system must be designed within the range of external static pressure the unit is designed to operate against. It is important that the system airflow be adequate. Make sure supply and return ductwork, grills, special filters, accessories, etc. are accounted for in total resistance. See airflow performance tables in this manual.
- Design the duct system in accordance with “ACCA” Manual “D” Design for Residential Winter and Summer Air Conditioning and Equipment Selection. Latest editions are available from: “ACCA” Air Conditioning Contractors of America, 1513 16th Street, N.W., Washington, D.C. 20036. If duct system incorporates flexible air duct, be sure pressure drop Information (straight length plus all turns) shown in “ACCA” Manual “D” is accounted for in the system.
- Supply plenum is attached to the 3/4” duct flanges supplied with the unit. Attach flanges around the blower outlet.
- IMPORTANT: If an elbow is included in the plenum close to the unit, it can not be smaller than the dimensions of the supply duct flange on the unit.
- IMPORTANT: The front flange on the return duct if connected to the blower casing must not be screwed into the area where the power wiring is located. Drills or sharp screw points can damage insulation on wires located inside unit.
Secure the supply and return ductwork to the unit flanges, using proper fasteners for the type of duct used and tape the duct-to-unit joint as required to prevent air leaks.
REFRIGERANT CONNECTIONS
Keep the coil connections sealed until refrigerant connections are made. See
the Installation Instructions for the outdoor unit for details on line sizing,
tubing installation, and charging information.
Coil is shipped with Nitrogen. Evacuate the system before charging with
refrigerant.
Install refrigerant tubing so that it does not block service access to the
front of the unit.
Nitrogen should flow through the refrigerant lines while brazing.
Use a brazing shield to protect the cabinet’s paint and a wet rag to protect
the rubber grommet and input pipe’s Pistion seal ring from being damaged by
torch flames. After the refrigerant connections are made, seal the gap around
the connections with pressure sensitive gasket.
WARNING
Use a wet rag to protect the two seal rings in the input pipe from being
damaged by torch flames while brazing.
After the work is finished, make sure to check that there is no vapor leak
after checking for vapor leaks, be sure to insulate the piping connections
referring to Fig.7-1.
Condensate Drain Tubing
Consult local codes for specific requirements. ****
IMPORTANT
- When making drain fitting connections to the drain pan, use a thin layer of Teflon paste, silicone or Teflon tape and install, hand tighten.
- When making drain fitting connections to drain pan, do not overtighten. Over tightening fittings can split pipe connections on the drain pan.
- Install drain lines so they do not block service access to front of the unit. Minimum clearance of 24 inches is required for filter, coil or blower removal and service access.
- Make sure unit is level or pitched slightly toward primary drain connection so that water will drain completely from the pan. (See Fig.7-2)
- Do not reduce drain line size less than connection size provided on condensate drain pan. Use 3/4″ PVC piping for drain piping connections.
- All drain lines must be pitched downward away from the unit a minimum of 1/8″ per foot of line to ensure proper drainage.
- Do not connect condensate drain line to a closed or open sewer pipe. Run condensate to an open drain or run line to a safe outdoor area.
- The drain line should be insulated where necessary to prevent sweating and damage due to condensate forming on the outside surface of the line.
- Make provisions for disconnecting and cleaning of the primary drain line should it become necessary. Install a 3 inch trap in the primary drain line as close to the unit as possible. Make sure that the top of the trap is below connection to the drain pan to allow complete drainage of pan. (See Fig. 7-2).
- Auxiliary drain line should be run to a place where it will be noticeable if it becomes operational. Homeowner should be warned that a problem exists if water should begin running from the auxiliary drain line.
- Plug the unused drain connection with the plugs provided in the parts bag, using a thin layer of teflon paste, silicone or teflon tape to form a water tight seal.
- Test condensate drain pan and drain line after installation is complete. Pour water into drain pan, enough to fill drain trap and line. Check to make sure drain pan is draining completely, no leaks are found in drain line fittings, and water is draining from the termination of the primary drain line.
- Be sure to insulate the drain piping and drain socket since condensation may cause water leakage.
- Be sure to install a drain trap at the drain outlet since the inside of the unit is at negative pressure relative to atmospheric pressure during operation.
AIR FILTER (Not Factory-Installed)
External filter or other means of filtration is required. Units should be sized
for a maximum of 300 feet/min air velocity or what is recomm-ended for the
type filter installed.
Filter application and placement are critical to airflow, which may affect the
heating and cooling system perfor-mance. Reduced airflow can shorten the life
of the system’s major components, such as motor, limits, elements, heat
relays, evaporator coil or compressor. Consequently, we recommend that the
return air duct system have only one filter location. For systems with a
return air filter grill or multiple filter grills, can have a filter installed
at each of the return air openings.
If adding high efficiency filters or electronic air filtration systems, it is
very important that the air flow is not reduced. If air flow is reduced the
overall performance and efficiency of the unit will be reduced. It is strongly
recommended that a professional installation technician is contacted to ensure
installation of these such filtration systems are installed correctly.
IMPORTANT: Do not double filter the return air duct system. Do not filter the
supply air duct system. This will change the performance of the unit and
reduce airflow.
WARNING
Do not operate the system without filters. A portion of the dust entrained in
the air may temporarily lodge in the duct and run at the supply registers. Any
circulated dust particles could be heated and charred by contact with the air
handler elements. This residue could soil ceilings, walls, drapes, carpets and
other articles in the house.
Soot damage may occur with filters in place, when certain types of candles,
oil lamps or standing pilots are burned.
FILTER INSTALLATION DIMENSIONS
DIMENSIONAL DATA
MODEL
| FILTER SIZE
IN [mm]
|
“W” IN [mm]
|
“D” IN [mm]
| “H” IN [mm]| Return width “A” IN| Return length MODEL “B” IN
---|---|---|---|---|---|---
24| 16Χ20[406Χ508]| 16.8[426]| 20.4[518]| 1[25.4]| 19.6| 14.8
36| 18Χ20[457Χ508]| 18.3[466]| 21.6[548]| 1[25.4]| 20.8| 16.3
60/61| 20Χ22[508Χ559]| 20.7[526]| 23.9[608]| 1[25.4]| 23| 18.8
AIR FILTER REMOVAL
- Remove bolts manually, remove air filter recover. See in Fig.9-1.
- Hold the edge of the air filter and extract out.
- Clean the air filter (Vacuum cleaner or pure water may be used to clean the air filter. If the dust accumulation is too heavy, use soft brush and mild detergent to clean it and dry out in cool place). See in Fig.9-2.
- Install new filter so that the arrow on the filter is in the same direction as airflow.
WIRING DIAGRAM
For 24/36/60 Model
WARNING
SEE RATING PLATE FOR VOLTS&HERTZ FIELD POWER WIRING
HIGH VOLTAGE!
DISCONNECT ALL POWER BEFORE SERVICING OR INSTALLING THIS UNIT. MULTIPLE POWER
SOURCES MAY BE PRESENT. FAILURE TO DO SO MAY CAUSE PROPERTY DAMAGE, PERSONAL
INJURY OR DEATH.
NOTES
- Use copper wire (75°C Min) only between disconnect switch and unit.
- To be wired in accordance with NEC and local codes.
- If any of the original wire, as supplied, must be replaced. Use the same or equivalent type wire.
- Connect R to R, G to G, etc. See outdoor instruction for details.
- To change speed tap, adjust dip switches (SW1).
- See airflow tables for airflow settings.
THE WIRING DIAGRAM SHOWN IS FOR REFERENCE ONLY, ACTUAL PRODUNCT MAY VARY.
For 61 Model
HIGH VOLTAGE!
DISCONNECT ALL POWER BEFORE SERVICING OR INSTALLING THIS UNIT. MULTIPLE POWER
SOURCES MAY BE PRESENT. FAILURE TO DO SO MAY CAUSE PROPERTY DAMAGE, PERSONAL
INJURY OR DEATH.
SCHEMATIC DIAGRAM
SEE RATING PLATE FOR VOLT&HERTZ FIELD POWER WIRING
CAUTION
NOT SUITABLE FOR USE ON SYSTEMS EXCEEDING 150V TO GROUND.
ATTENTION
NE CONVIENT PAS AUXINSTALLATIONS DE PLUS DE 150V ALA TERRE.
NOTES
- If connected to the 1-Stage controller, please short the signals Y1 and Y2.
- Use copper wire (75℃ min) only between disconnect switch and unit .
- To be wired in accordance with NEC and local codes.
- If any of the original wire, as supplied, must be replaced. Use the same or equivalent type wire.
- Connect R to R, G to G, Y1 to Y, etc. See outdoor instruction for details.
- If some signal lines of CN4 and CN5 are not used, please Wrap them up separately with cap.
- See airflow tables for airflow settings.
- When need to change the transformer stage, remove the lead from “240V” terminal and then connect the lead to “208V” terminal.
NOTE
- If connected to the 1-Stage controller, please short the signals Y1 and Y2.
- Use copper wire (75℃ min) only between disconnect switch and unit .
- To be wired in accordance with NEC and local codes.
- If any of the original wire, as supplied, must be replaced. Use the same or equivalent type wire.
- Connect R to R, G to G, Y1 to Y, etc. See outdoor instruction for details.
- If some signal lines of CN4 and CN5 are not used, please Wrap them up separately with cap.
- See airflow tables for airflow settings.
- When need to change the transformer stage, remove the lead from “240V” terminal and then connect the lead to “208V” terminal.
PISTION/TXV INSTALLATION
This coil comes with a factory installed piston metering device. See Table
11-1 for factory installed piston size. Some system combinations will require
a different sized piston to be field installed.
Contact your local parts center to order the appropriate piston kit for your
system combination.
Use Table 11-3 for TXV kit part numbers.
A TXV may be required to achieve minimum efficiency ratings or for long
refrigerant line set applications. Reference AHRI for system combination
ratings.
Table 11-1. Factory installed piston size for each model. Additional piston
sizes are provided in the ship with literature bag as necessary.
MODEL | 50 | 52 | 56 | 58 | 64 | 73 | 75 | 80 | 83 | 90 |
---|---|---|---|---|---|---|---|---|---|---|
24 | X* | X | ||||||||
36 | X | X | X | X* | ||||||
60 | X | X | X | X* |
means that this piston is pre-installed
WARNING
Failure to install the proper piston can lead to poor system performance and
possible compressor damage.
NOTE
Since the manufacturer has a policy of continuous product and product data
improvement, if the system combination you are looking for is not listed,
check for the latest version of this document
at www.oxboxhvac.com.
Table 11-2 . Optional TXV kit part numbers. Some combinations may require a TXV. See AHRI for system combination ratings.
Outdoor Unit Capacity (Tons) | R410a TXV Kit |
---|---|
1.5-3.0 | 3Ton |
3.5-4.0 | 4Ton |
5.0 | 5Ton |
Table 11-3.Superheat Charging Chart
Charge the system by superheat when using a piston. Reference the outdoor unit
installation guide to charge the system by subcooling when using a TXV.
Outdoor Temp (°F) | Indoor Temperature (°F) Dry Bulb/wet Bulb |
---|---|
95/79 | 90/75 |
Superheat (°F)
115| 23| 16| 7| 6| 5| 5
110| 24| 17| 9| 6| 5| 5
105| 26| 19| 11| 6| 5| 5
100| 27| 21| 13| 7| 6| 5
95| 29| 23| 14| 9| 6| 5
90| 30| 25| 18| 12| 7| 5
85| 32| 26| 20| 15| 9| 6
80| 34| 28| 22| 17| 11| 6
75| 35| 30| 24| 19| 13| 7
70| 37| 32| 26| 21| 16| 10
65| 38| 34| 29| 24| 19| 13
60| 40| 36| 31| 27| 22| 17
55| 41| 37| 34| 30| 26| 21
TwentyThreeC, LLC
- 800 Beaty Street, Davidson,NC, 28036
- www.oxboxhvac.com
For more information contact your local dealer (distributor)
Since the manufacturer has a policy of continuous product and product data
improvement, it reserves the right to change the design and specification
without notice.
c . 2019 TwentyThreeC, LLC
TXV Replacement Information for J4AH5E61E1C00AA
NOTE
- The TXV replacement options noted in this sheet supersede those in the installation guide. Please reference this sheet for all refrigerant metering options.
TXV-Replace Steps
- Step 1 : Remove the screws and front coil panel.
- Step 2 : Remove the rubber plugs from the liquid and vapor lines.
- Step 3 : Unwrap copper strap on sensing bulb and dismount the sensing bulb.
- Step 4 : Using a backup wrench to loose the nut of TXV.
- Step 5 : Take off TXV mounting clip ring.
- Step 6 : Use wet rag to protect pipe in coil, Al-Copper transition section (The black section of vapor line).
- Step 7: Braze and take off two pipes from TXV. Be extra care not to overheat the pipes.
- Step 8 : Wrap the new TXV with a wet rag to prevent overheating. Connect and braze pipe to new TXV. While brazing, use nitrogen flow and braze all connections.
- Step 9 : Replace a new sealing ring to the pipe joint, connect the TXV with pipe joint and tight the nut to 22 (±2) ft-lb.
- Step 10 : Allow tube to cool and pressurize line sets with 150 PSI of nitrogen to check braze connections for leaks. Make repairs if needed.
- Step 11 : Use the supplied copper straps to secure the TXV sensing bulb on top of the vapor line as pictured.
- Step 12 : Use clip ring to hold TXV on mounting plate.
- Step 13 : Insulate the entire vapor line and sensing bulb. It is also recommended to insulate the TXV and liquid line to prevent condensation in hot humid environments.
- Step 14 : Replace the front coil pance and secure in place.
- Step 15 : Follow the steps in the installation guide for vacuum requirements and system start up procedures.
- Step 16 : Allow system to run for an additional 10 minutes to verify the subcooling and superheat readings.
References
Read User Manual Online (PDF format)
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