HomeMy WebLinkAbout44757-Z Town of Southold 3/10/2020
a
P.O.Box 1179
4' 53095 Main Rd
Southold,New York 11971
CERTIFICATE OF OCCUPANCY
No: 41132 Date: 3/10/2020
r
THIS CERTIFIES that the building AS BUILT ALTERATION
Location of Property: 2252 Park Ave,Mattituck
SCTM#: 473889 Sec/Block/Lot: 123.-8-11.3
Subdivision: Filed Map No. Lot No.
conforms substantially to the Application for Building Permit heretofore filed in this office dated
2/25/2020 pursuant to which Building Permit No. 44757 dated 3/3/2020
was issued, and conforms to all of the requirements of the applicable provisions of the law. The occupancy for
which this certificate is issued is:
"as built"air conditioning as applied for.
The certificate is issued to Mueller,Nancy
of the aforesaid building.
SUFFOLK COUNTY DEPARTMENT OF HEALTH APPROVAL
ELECTRICAL CERTIFICATE NO. 44757 3/6/2020
PLUMBERS CERTIFICATION DATED
Authorize Signature
o�Su�EntK�oTOWN OF SOUTHOLD
BUILDING DEPARTMENT
y z TOWN CLERK'S OFFICE
o • SOUTHOLD, NY
t BUILDING PERMIT
(THIS PERMIT MUST BE KEPT ON THE PREMISES
WITH ONE SET OF APPROVED PLANS AND SPECIFICATIONS
UNTIL FULL COMPLETION OF THE WORK AUTHORIZED)
Permit#: 44757 Date: 3/3/2020
Permission is hereby granted to:
Mueller, Nancy
1925 Galleon Dr
Naples, FL 34102
To: legalize "as built" air conditioning as applied for.
At premises located at:
2252 Park Ave, Mattituck
SCTM # 473889
Sec/Block/Lot# 123.-8-11.3
Pursuant to application dated 2/25/2020 and approved by the Building Inspector.
To expire on 9/2/2021.
Fees:
AS BUILT- SINGLE FAMILY ADDITION/ALTERATION $400.00
CO-ALTERATION TO DWELLING $50.00
Tot 1: $450.00
Building Inspec o
>_ Form No.6
TOWN OF SOUTHOLD
BUILDING DEPARTMENT
TOWN HALL
765-1802
APPLICATION FOR CERTIFICATE OF OCCUPANCY
This application must be filled in by typewriter or ink and submitted to the Building Department with the following:
A. For new building or new use:
1. Final survey of property with accurate location of all buildings,property lines,streets,and unusual natural or
topographic features.
2. ,;Final Approval from Health Dept. of water supply and sewerage-disposal(S-9 form).
3. Approval of electrical installation from Board of Fire Underwriters.
4. Sworn statement from plumber certifying that the solder used in system contains less than 2/10 of 1%lead.
5. Commercial building, industrial building,multiple residences and similar buildings and installations,a certificate
of Code Compliance from architect or engineer responsible for the building.
6. Submit Planning Board Approval of completed site plan requirements.
B. For existing buildings(prior to April 9, 1957)non-conforming uses,or buildings and"pre-existing"land uses:
1. Accurate survey of property showing all property lines, streets,building and unusual natural or topographic
features.
2. A properly completed application and consent to inspect signed by the applicant. If a Certificate of Occupancy is
denied,the Building Inspector shall state the reasons therefor in writing to the applicant.
C. Fees
1. "Certificate of Occupancy-New dwelling$50.00,Additions to dwelling$50.00,Alterations to dwelling$50.00,
Swimming pool$50.00,Accessory building$50.00,Additions to accessory building$50.00,Businesses$50.00.
2. Certificate of Occupancy on Pre-existing Building- $100.00
3. Copy of Certificate of Occupancy-$.25
4. Updated Certificate of Occupancy- $50.00
5. Temporary Certificate of Occupancy-Residential$15.00,Commercial$15.00
Date. fCbC(Jdv1q 2,1 ,L02Z
New Construction: Old or Pre-existing Building: ✓ (check one) A `
Location of Property: 21$00 &(,k pa
House No. Street Hamlet
Owner or Owners of Property: Sue`9U r%lty
Suffolk County Tax Map No 1000, Section ' Block g Lot_ 1 ` .�
Subdivision Filed Map. Lot:
Permit No. Date of Permit. Applicant: � �
Health Dept.Approval: Underwriters Approval:
Planning Board Approval:
Request for: Temporary Certificate Final Certificate: ✓ (check one)
Fee Submitted: $
pplicant Sipme
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o� sorry®�
Town Hall Annex ® Telephone(631)765-1802
54375 Main Road Fax(631)765-9502
P.O.Box 1179
Southold,NY 11971-0959 � sean.devlin cC)town.southold.ny.us
lyC®UNN
BUILDING DEPARTMENT
TOWN OF SOUTHOLD
CERTIFICATE OF ELECTRICAL COMPLIANCE
SITE LOCATION
Issued To: Nancy Mueller
Address: 2252 Park Ave city Mattituck st: NY zip: 11952
Building Permit# 44757 Section: 123 Block- 8 Lot 11.3
WAS EXAMINED AND FOUND TO BE IN COMPLIANCE WITH THE NATIONAL ELECTRIC CODE
Contractor: DBA: AS BUILT License No:
SITE DETAILS
Office Use Only
Residential X Indoor Basement Service Only
Commerical Outdoor 1st Floor Pool
New Renovation 2nd Floor Hot Tub
Addition Survey Attic Garage
INVENTORY
Service 1 ph X Heat Duplec Recpt Ceding Fixtures Bath Exhaust Fan
Service 3 ph Hot Water GFCI Recpt Wall Fixtures Smoke Detectors
Main Panel A/C Condenser 2 Single Recpt Recessed Fixtures CO2 Detectors
Sub Panel A/C Blower 2 Range Recpt Ceiling Fan Combo Smoke/CO
Transformer UC Lights Dryer Recpt Emergency Fixtures Time Clocks
Disconnect 2 Switches 4'LED Exit Fixtures Pump
Other Equipment
Notes,
r�
Inspector Signature: Date:
March 6, 2020
S Devlin-Cert Electrical Compliance Form As
nof SO"
# TOWN OF SOUTHOLD BUILDINGDEPT,
765-1802
INSPECT-ION -[ ] FOUNDATION 1ST [ ] ROUGH PLBG.
[ ] FOUNDATION 2ND [ ] ]NSULATION/CAULKING
[ ] FRAMING /STRAPPING [ ] FINAL
[ ]
FIREPLACE-,&CHIMNEY [ ] FIRE-SAFETY INSPECTION
[ ] FIRE RESISTANT-CONSTRUCTION [ ] FIRE RESISTANT PENETRATION
[ ] ELECTRICAL (ROUGH) ELECTRICAL (FINAL)
[ ] CODE VIOLATION [ ] PRE C/O
REMARKS:
DATE i INSPECTOR
TOWN OF SOUTHOLD BUILDING PERMIT APPLICATION CHECKLIST
BUILDING DEPARTMENT Do you have of need the following,before applying?
TOWN HALL Board of Health
SOUTHOLD,NY 11971 4 sets of Building Plans
TEL: (631)765-1802 Planning Board approval
FAX:(631)765-9502 Survey
Southoldtownny.gov PERMIT NO. ���� Check
Septic Form
MY S.D.E.C.
Trustees
C.O.Application
Flood Permit
Examined _20— Single&Separate
Truss Identification Form
„t U Storm-Water Assessment Form
+/� VContact: �/ G
Approved 20_ LInspect
Mail to: i y er �� NOv®ZQ0.1 G
Disapproved a/c � CLI � tJ�q�j1
Phone: 411 —2 R Tr- '19153_
Expiation .20
APPLICATION FOR BUILDING PERMIT
FEB 2 5 2020 Date bCO OSY2A 20 2,
INSTRUCTIONS
a.This application MUST be completely filled in by typewriter or in ink and submitted to the Building Inspector with 4
sets of plans,accurate plot plan to scale Fee according to schedule.
. b.Plot plan slifting location of lot and of buildings on premises,relationship to adjoining premises or public stieets or
aicas,and waterways
c.The work covered by this application may not be commenced before issuance of Building Permit.
d.Upon approval of this application,the Building Inspector will issue a Building Permit to the applicant Such a permit
shall be kept on the premises available for inspection throughout the work.
e.No building shall be occupied of used in whole or in part for any purpose what so ever until the Building Inspector
issues a Certificate of Occupancy
f.Every building permit shall expire if the work authorized has not commenced within 12 months after the date of
issuance or has not been completed within 18 months from such date If no zoning amendments or other regulations affecting the
property have been enacted in the interim,the Building Inspector may authorize,in writing,the extension of the permit for an
addition six months.Thereafter,a new permit shall be required.
APPLICATION IS HEREBY MADE to the Building Department for the issuance of a Building Permit pursuant to the
Building Zone Ordinance of the Town of Southold,Suffolk County,New York,and other applicable Laws,Ordinances or
Regulations,for the construction of buildings,additions,or alterations or for removal or demolition as herein described The
applicant agrees to comply with all applicable laws,ordinances,building code,housing code,and regulations,and to admit
authorized inspectors on premises and in building for necessary inspections 0
(Sibnature of applica t ame,if a corporation)
(Mailing addr ss of applicant) y�
State w ether a plicant is owner,lessee,agent,architect,en ineer,general contractor,electrician,plumber or builder
Name of owner of premises C t 1�t
(As on the tax roll or latest deed)
If applicant is a corporation,signature of duly authorized officer
(Name and title of corpoi ate officer)
Buildeis License No.
Plumbers License No.
Electricians License No,
Other Trade's License No. b hLrA%
1. Location of lam on which proposed work will be done:
�2 C&49t oo r seA
House Numb-/ Street Hamlet
County Tax Map No. 1000 Section Li Block Lot �1
Subdivision Filed Map Into. Lot
2. State existing use and occupancy of premises and intend d use and occu ancy of proposed construction:
a. Existing use and occupancy�e�{�
b. Intended use and occupancy
3. Nature of work(check which applicable):New Building Addition Alteration
Repair Removal Demolition Other Work Ca* A (i
C6n�Ch�etS�Z�
4. Estimated Cost Fee (Deschion
(To be paid on filing this application)
5. If dwelling,number of dwelling units Number of dwelling units on each floor
If garage, number of cars
6 If business,commercial or mixed occupancy,specify nature and extent of each type of use.
7. Dimensions of existing structures,if any:Front Rear Depth
Height Number of Stories
Dimensions of same structure with alterations or additions: Front Rear
Depth Height Number of Stories
8. Dimensions of entire new construction:Front Rear Depth
Height Number of Stories
9. Size of lot:Front—1 b® 64 Rear 100 4 Depth 6
10.Date of Purchase 05 Name of Former Owner bICotv6\61
11.Zone or use district in which premises are situated R-%A o
12.Does proposed construction violate any zoning law,ordinance or regulation?YES_NO
13.Will lot be re-graded?YES_NO ✓Will excess fill be removed from premises??YES NO ✓
14.Names of Owner of premises ddres'7"S 9_',CA^�Phohe l7o. N �1
Name of Architect Address Phone No
Name of Contractor Address Phone No.
15 a.Is this property within 100 feet of a tidal wetland or a freshwater wetland?*YES NO
*IF YES,SOUTHOLD TOWN TRUSTEES&D.E.C.PERMITS MAY BE REQUIRED.
b.is this property within 300 feet of a tidal wetland?*YES NO wl#'
*IF YES,D.E.C.PERMITS MAY BE REQUIRED.
16.Provide survey.to scale,with accurate foundation plan and distances to property lines.
17.If elevation at any point on property is at 10 feet or below,must provide topographical data on survey.
18.Are there any covenants and restrictions with respect to this property?*YES NO don
*1F YES,PROVIDE A COPY.
STATE OF NEW YORK)
0
COUNTY
,✓�rys ��/��,c.� d being duly sworn,deposes and says that(s)he is the applicant
(Naive of individual alkning contract)above na ed,
(S)He is the fi,✓t
(Cont(actor,Agent,Corporate Officer,etc.)
of said owner or owners,and is duly authorized to perform or have performed the said work and to make and file this application;
that all statements contained in this application are true to the best of his knowledge and belief;and that the N;oik will be
performed in the manner set forth in the application filed therewith
I
SM t b fore me this '//
_day of �' 20
i
e!� S c Signature of A tc
Notary Public,Sta lo
e 0 �ewYork
ho.31-4970341
Qualified In Suffolk County
Commission Expires February 4,20
��guFFO(�-co BUILDING DEPARTMENT- Electrical Inspector
��O Gym TOWN OF SOUTHOLD
Town Hall Annex - 54375 Main Road - PO Box 1179
u' - Southold, New York 11971-0959
Telephone (631) 765-1802 - FAX (631) 765-9502
rogerr(cDsouthold town ny.gov -- seand(c)southoldtownny-gov
APPLICATION FOR ELECTRICAL INSPECTION
ELECTRICIAN INFORMATION (Ail information Required) Date:
Company Name: Y-�
Name:
'License No.: email:
Address:
Phone No.:
JOB SITE INFORMATION (All Information Required)
Name: kii h
Address e `
Cross Street: Y -
Phone No.: Jr
Bldg.Permit#: eV-%005, M+O JjLAA1_0� mail ��1L� V
Tax Map District: 1000 Section: t Z,3 Block: jr Lot: XL. 3
I
BRIEF DESCRIPTION OF WORK(Please Print Clearly)
r
2
QQ d C�trcl All Th t pply �-4- (kSA0&CjX d•.
Is job ready for inspection?: YES NO Rough In Final
Do you need a Temp Certificate?: YES I NO Issued On
Temg jnformation: (All information required)
Service Size 1 Ph 3 Ph Size: A # Meters Old Meter#
New Service - Fire Reconnect- Flood Reconnect- Service Reconnected - Underground -Overhead
# Underground Laterals 1 2 H Frame Pole Work done on Service? Y N
Additional Information:
PAYMENT DUE WITH APPLICATION
ReVuest for Inspection Form-As
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P1 VED ANOTED
DATE: '3 B.P.##
, C(--)MPLY WITH ALL CODES OF
FEC. w BY:
MOTIF BUILDING [DEPARTMENT AT - Hr�VV YORK STATE &T011Vi� CODES
765-1302 8 AM TO 4 PM FOR THE AS REQUIRED A
FOLLOWING INSPECTIONS: SOUTHOLDTOWNZBA
1. FOUNDATION - TWO REQUIRED SpUTHOIDTOWN NING BOARD
FOR POURED,CONCRETE
2. ROUGH - FRAMING & PLUMBING SOLVOL WN TRUSTEES
3. INSULATION
4. FINAL - CONSTRUCTION MUST N. . .DEC
BE COMPLETE FOR C.O.
ALL CONSTRUCTION SHALL MEET THE
REQUIREMENTS OF THE CODES OF NEW
YORK STATE. NOT RESPONSIBLE FOR
DESIGN OR CONSTRUCTION ERRORS.
ELECTRICAL INSPECTION REQUIRE®
OCCUPANCY OR
USE IS UNLAWFUL
WITHOUT CERTIFICATE
OF OCCUPANCY
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These instructions must be read and understood completely before attempting installation.
Safety Labeling and Signal Words
DANGER, WARNING, CAUTION, and
NOTE Signal Words in Manuals
The signal words DANGER, WARNING, The signal word WARNING is used throughout this
CAUTION, and NOTE are used to identify levels of manual in the following manner:
rd seriousness. The signal word DANGER is
only used on product labels to signify an immediate
hazard. The signal words WARNING, CAUTION,
and NOTE will be used on product labels and The signal word CAUTION is used throughout this
throughout this manual and other manuals that may manual in the following manner:
apply to the product.
DANGER- Immediate hazards which will result in
severe personal injury or death.
WARNING - Hazards or unsafe practices which Signal Words on Product Labeling
could result in severe personal injury or death. Signal words are used in combination with colors
CAUTION - Hazards or unsafe practices which and/or pictures on product labels.
may result in minor personal injury or product or
property damage.
*�"rNOTE - Used to highlight suggestions which will
result in enhanced installation,reliability,or operation.
TABLE OF CONTENTS
Inspect New Unit . . . . . . .. . .. .. .. . . . . . . .. . .. . . .. . 2
Safety Considerations . . . . . . . .. .. . . . . . . .. ... . . .. . 2 0 110
Location . . . . . . . . . ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 DEATH, PERSONAL INJURY,AND/OR PROPERTY
Clearances . . . .. . . .. . . . . . . . . .. . . . . . .. .. . . . . . . 2-3 DAMAGE HAZARD
Unit Support . . . . . .. . . . ... . . .. . ... . .. . . .. .. . . . . . 4 Failure to carefully read and follow this warning
Refrigeration System . . . . . . ... . . . .. .. . . .. . . ... 4- 8 could result in equipment malfunction, property
'Elul Wiring . . .. .. . . .. . . .. . . . . . .. .. . . . . . 9- 10 damage, personal injury and/or death.
Start-up Procedure . . . . . . . .. .. . . . . . .. . . ... . 11 Installation or 'repairs made by unqualified per-
sons could result in equipment malfunction, prop-
Refrigerant Charge . . . . . . . .. .. . . . . . ... .. . . . 11 - 12 erty damage, personal injury and/or death.
Sequence of Operation . . . . . . ... . . . . .. . . . . . .. . . . 13 The information contained in this manual,is in-
Troubleshooting . . . . . . . . . .. . .. . . ... .. . . . . . . . . . . 13 tended for use by a qualified service technician fa-
miliar with safety procedures and equipped with
Maintenance . . . . . . . . . .. . .. . .. . . .. . .. . . ... . . . . . 13 the proper tools and test instruments.
Comfort omfort Alert- Diagnostics Codes . . .. . . . . . . .. . . 14 Installation must conform with local building
codes and with the National Electrical Code
NFPA70 current edition or Canadian Electrical
Code Part I CSA C.22.1.
42101 5002,01 May 2009
.'t`��•�j'WORIA
� 'a '.l ;:S.zr.�.:�xaa�ah`.:s
INSPECT NEW UNIT
After uncrating unit, inspect thoroughly for hidden company immediately and file a concealed damage
damage. If damage is found, notify the transportation claim.
SAFETY CONSIDERATIONS
Consult a qualified installer, service agency, or the
dealer/distributor for information and assistance. The I WARNING
qualified installer must use factory authorized kits and
accessories when modifying this product. Refer to the ELECTRICAL SHOCK HAZARD
individual instructions packaged with the kit or accessory Failure to turn off the main(remote)electrical dis-
when installing. connect device could' result in personal injury or
The weight of the product requires careful and proper death.
handling procedures when lifting or moving to avoid Before installing, modifying or servicing system,
WOR61 injury. Use care to avoid contact with sharp or turn OFF the main (remote) electrical disconnect
pointed edges. device. There may be more than one disconnect
Follow all safety codes.Wear safety glasses, protective device. Lock out and tag switch with a suitable
clothing, and work gloves. Use a heat sinking material - warning label.
such as a wet rag-during brazing operations. Keep a fire
extinguisher available. Consult local codes and the
National Electric Code (NEC)for special requirements.
Improper installation, adjustment, alteration, service or
maintenance can void the warranty.
LOCATION
Check local codes for'regulations concerning zoning, Locate unit away from recessed or'confined areas where
noise, platforms, and other issues. recirculation of discharge air may occur (refer to
EMiftr'unit away from fresh air intakes, vents, or CLEARANCES section of this document).
bedroom windows. Noise may carry into the openings Roof-top installation is acceptable providing the roof will
and disturb people inside. support the unit and provisions are made for water
Locate unit in a well drained area, or support unit high drainage and noise/vibration dampening.
enough so that water runoff will not enter the unit. NOTE: Roof mounted units exposed to wind may require
Locate unit away from areas where heat, lint, or exhaust wind baffles. Consult the manufacturer for additional
fumes will be discharged onto unit(as from dryer vents). information.
CLEARANCES
Nominal minimum clearances are 48 inches (1.2m) Do not install unit under roof overhangs unless gutters`are
above unit for discharge air and 18 inches (457mm) on present. A minimum vertical clearance of 48 inches_
each side of the coil for intake air. Clearance on any one, (1.2m) is required to the overhang.
side of the coil (normally between unit and structure) may Inside corner locations on single story structures require
f� duced to 6 inches (152mm). Nominal minimum evaluation. Large overhanging soffits may' cause air
clearances are based on a solid parallel object such as a recirculation in a corner area even though recommended
wall or roof overhang. minimum clearances are maintained. As a guide, locate
The clearance may be reduced for a single object with the unit far enough out so that half of the discharge grille is
small surface area, such as the end of a wall, outside out from under the soffit.
corner of a wall, fence section, post, etc. As a general When placing two or more units side-by-side, provide a
rule, the minimum'clearance from the unit should equal minimum of 18 inches (457mm)between units.
the width of the object. For example, a 6 inch (152mm)
fence post should be a minimum of 6 inches (152mm) Provide minimum service clearance of 24 inches
from the unit. (610mm)from control box corner and side service panel.
Refer to Figure 1.
2 421 01 5002 01
Tp
NON,
K I��VLi !01, M
Figure I Clearances (various examples)
M Wa
69)
15
52mm 2495
(610mm)
Service
2
4„ 18
(610mm) (457mm)
6
Service 18 `4
(
(457mm) I 62m m)
18
(457mm) 18"
(457mm)
Z
r
61j 6ys
(1 52mm)
(1
(I 62mm)
24)1 1853 2451 1813
(610mm) (162mm) (610mm) (457mm)
Service Service
4" 691
4" (1 52mm)
0 02mm
(102mm)
6"
wide fence
(1 62mm)
Post
241) 241J 2493
(610mm)
(610mm)
14
Om
(610mm) (610mm) (610mm)
Service Service Service
187) 1851 1815 189$
(457mm) (457mm) (457mm) (457mm)
421 01 5002 01 3
`
UNIT SUPPORT
- ' inch rise or fall
per foot of run (1 Omm rise or fall per 305 mm of run)I or
compressor may not function properly.
A. GROUND LEVEL INSTALLATION PROPERTY DAMAGE HAZARD
The unit must be level and supported above grade by
Failure to follow this caution may result in proper-
beaMs;-platform, Platform orpad can baofopen ty damage.
or solid construction but should be of permanent Inadequate unit support may cause excessive
matodn|o such as oonorate, brioks, b|ooks, stee|, or vibration, noise, and/or stress on the refrigerant
pressure-treated timbers approved for ground contnct. lines, leading to refrigerant line failure.
Soil conditions mustb considered oothat the platformur
pad does not shift orsettle and leave the unit partially Tie Down Knockouts
supported. Minimum pod dimensions are ohown'|n Figura Figure 2
2.
|fbeams oranopen platform are used for support, itis 3/8"(10mm)dia.Tie Down Knockouts View From Top
recommended that the soil botreated orarea begraveled In Base an(2 places)
horeduce the growth ufgrasses and weeds. 9 00
To minimize vibration or noise tnsnsmission, it is
recommended that supports not be in contact with the
building structure. However, slabs ongrade constructions
with onextended pad are normally acceptable.
kizu"I-- Base
B. ROOF TOP INSTALLATION 0 Pan
This type nfinstallation is not recommended on wood Depth
frame structures where low noise levels are required.
Supporting structure orplatform for the unit must belevel. oil
|finstallation isnDoflat roof, locate unit minimum 0inches
(152mm) above roof level.
Place the unit over one ormore load bearing walls. ifthere
are snvono| un|ts, mount them on platforms that are
self-supportingand span several load bearing walls.
These suggestions are to minimize noise and vibration
transmission through the structure. If the structure is a Base Pan Width
home or apartment, avoid locating the unit over Inches (mm)
bedrooms orstudy.
When nit is' to be installed on o bonded Base Pan Tie Down Minimum
guaranteed roof, m release must beobtained from the Width x Depth Knockouts Mounting Pad
building owner tofree the installer from all liabilities.
C. FASTENING UNIT DOWN 23 x 23 73/4 4371r, 18 23 x 23
|fconditions orlocal codes requirethe unit boattached in
plaoa, remove the knockouts inthe base pan and install
Ua down bolts through the holes(refer to Figure 2).
Contact local distributor for hurricane hold-down details 31Y8 x 31Y8 9Y16 6Y2 24% 31Y2 x 31Y2
and the PE (Professional Engineer) certification, when
required. 3415/ic, x 3415/16 9Y16 6 Y2 28716 35 x 35
REFRIGERATION SYSTEM A. COMPONENT MATCHES
'Ch86(hosee that the proper systemcomponents are in
place, especially the indoor coil.
R-22outdoor units can only be used with R-22specific PRODUCT DAMAGE HAZARD
indoor coils. Ifthere ioarefrigerant mis-matoh. consult Failure to follow this caution may result in product
the indoor coil manufacturer tndetermine/farefrigerant
conversion kit is available for the indoor coil. Indoor coil and outdoor unit must be listed as a
This outdoor unit indesigned for use only with indoor coils certified combination (match) in the ARI Unitary
that utilize aTXVrefrigerant metering device. |fany other Directory of Certified Products.
type of metering device is installed on the indoor coil,
consult the indoor coil manufacturer hodetermine ifolXV When installing a TXV on an indoor ooi|, follow the
conversion kit is available. instructions provided with the new TX\/
4 42101 5002D1
,
�
T i LEM
Atypical TXVinstallation ksshown inFigure 3.
A WARNING
Figure 3 Typical TXV Installation PERSONAL INJURY HAZARD
Failure to relieve system pressure could result in
INDOOR personal injury and/or death.
DOOIOR
EQUALIZER COIL Relieve pressure and recover all refrigerant before
servicing existing equipment, and before final un it
disposal. Use all service ports and open all flow-
control devices, including solenoid valves.
SENSING,, SUCTION C' ROOT0�� AND SUSPENDING REFRIGERANT
BULB TUBELINES
Run refrigerant lines as straight and direct as possible,
avoiding unnecessary bends and turns.Always insulate
the entire suction line. Both lines should be insulated
LIQUID when routed through anattic orwhen routed through on
TUBE underground raceway.
When routing refrigerant lines through mfoundation or
vvaU, do not allow refrigerant lines to come in direct
TXV contact with the building structure. Make openings large
enough sothat lines can bewrapped with extra insulation.
Fill all gaps with RTV caulk. This will prevent noise
.."Vi'A79ENSING BULB STRAP transmission between the tubing and the foundation or /
wall.
SUCTION 7;0 hangers. Metal straps must be at least 1"(25mm)wide to
Along floor or ceilingjoists, suspend refrigerant||naseo
that they do not contact the building structure, water
TUBE pipes, or ductwork. Use insulated or suspension type
8 UCLOCK 4 O'CLOCK avoid cuffing into the tube insulation. Keep the liquid and
suction lines separate. Refer to Figure 4.
B. REFRIGERANT LINE GETS
The refrigerant line set must beproperly sized hoassure
maximum efficiency and proper oil circulation. A CAUTION
Refer to Product Specifications and Long Line UNIT OPERATION HAZARD
Applications Guideline for ]ima set sizing.
| ||na set |ength must not exceed 200 feet er product operation.
(61m).
Acrankcase heater must boused when the refrigerant
Unelength exceeds OOfeet(24.4m).
Inter-
If outdoor unit ismore than 1Ofeet(3m) higher than the nal system components - especially refrigerant
indoor coil, refer buthe Long Line Applications Guideline
con-
manual for instructions. tamination. Keep ends of tubing sealed during
installation until the last possible moment.
When the outdoor unit ishigher than the indoor coil, the
vertical separation must not exceed 1OOfeet (3Om).
When the outdoor unit islower than the indoor coil, the
vertical separation must not exceed 5Ofeet(15.2m).
If it is necessary to add refrigerant line in the 8n|d, use
dehydrated or dry, sea|od, dooxidizod, copper
refrigeration tubing. Donot use copper water pipe.
UFO�remove rubber plugs orcapsfromuoppertubing
until connections are ready hobemade.
'Be extra careful when bending refrigeration tubing.
Tubing nen "kink" easily, and if this oonuns, the entire
length oftubing must bereplaced.
�
42101500201
• .2 � s' ^•a•;�� :.De�'r'w%.'i-.t...':'»pgqf .Y:y' x•«;i•ii" ,t� g •'t ..�', i ,.o x t tM,'•i: `6 'ASF°t••.'e::k.�#� ;�:_�:,•'..
fi `tea .K. 7� J3� ECRL •� t3�.� X3._ .. �+ �,.�-r''i»
� � ,�¢gip`b��� � �.f-�• ;.,��.� � I1�� "�i ,�ys ', �J�•' �dit� ri,
I'�1SAt;��T10,;� TGT('Q ''; �;;�h ,u �,» � -':�� °>•, � .:;� vY mak .
'- :t ve ca<rd a�y a tt.,a:>:�?�`t..'' �•�'�� ...21�P°"
Figure 4 Routing and Suspending Refrigerant Lines
JOIST
OUTDOOR WALL INDOOfvv,�L
HANGER STRAP
CAULK (AROUNDTSUCTION UBE ONLY) INSULATION
IQUID TUBE p
SUCTION TUBE
O
O
O
UCTION TUBE
INSULATION
1"(25mm)MIN
LIQUID TUBE
THROUGH THE WALL SUSPENSION
I Figure 5 Liquid Line Filter-Drier
Installed at Indoor Coil
UNIT OPERATION HAZARD
Failure to follow this caution may result in improp-
er product operation.
Do not bury more than 36"(1 m) of line set under-
ground. Refrigerant may migrate to cooler buried
'S4tFon during extended periods of unit shut-
down, causing refrigerant slugging and possible �hl
compressor damage at start-up.
If ANY section of the line set is buried under- , 1
ground, provide a minimum 6"(152mm) vertical
rise at the service valve.
D. OUTDOOR UNIT HIGHER THAN INDOOR UNIT ra
Proper oil return to the compressor should be maintained
with suction gas velocity. If velocities drop below 1500
fpm (feet per minute), oil return will be decreased. To
maintain suction gas velocity, do not upsize vertical
suction risers.
E!--LIQUID LINE FILTER-DRIER
0
0
Outdoor units are shipped with an appropriate filter-drier
for installation in the liquid line.Leave the plugs in the tube
ends until the filter-drier is installed.The optimal location
for the filter-drier is close to the indoor coil. Install the
filter-drier with the arrow pointing towards the indoor coil. R
Refer to Figure 5.
Filter-Drier 38-11-84
(arrow points towards indoor coil)
6 421 01 5002 01
�: :'ti'': k;x`r c�i.t-ter::;..': aMsy-,.`:a :rt�;,er 4 :� �;�a ,::d �✓+s ,"a_,�5;.. t�e�,.�.:'.. ta�''�:°gs®c.� '.?�.,.�«:
�tjC� e
':I!L i a``T. AC:�� � �'{_ . ;��''�' ;33r<.'?fw`'�e"`i.'s'.l'A#&'•' ,*yt.-;k'�..t: :�t}'a': aos�c,.,�i. .k.. ..�r v^^-K:t:szx»::�-&«.u'�r;
F. SERVICE VALVES H. EVACUATING LINE SET AND INDOOR COIL
Service valves are closed and tube stubs are plugged The unit is shipped with a factory refrigerant charge.The
from the factory. Outdoor units are shipped with a liquid line and suction line service valves have been
refrigerant charge sealed in the unit. Leave the service closed after final testing at the factory. Do not disturb
valves closed until all other refrigerant system work is these valves until the line set and indoor coil have been
complete or the charge will be lost. Leave the plugs in evacuated and leak checked, or the charge in the unit
place until line set tubing is ready to be inserted. may be lost.
Service valve bodies are brass and tube stubs are copper. NOTE: Do not use any portion of the factory charge for
purging or leak testing.The factory charge is for filling the
Figure 6 Service Valve system only after a complete evacuation and leak check
has been performed.
-t ori
CAUTION
SERVICE VALVE
VALVE CORE �� PRODUCT DAMAGE HAZARD
® Failure to follow this caution may result in product
damage.
Never use the outdoor unit compressor as a vacu-
um pump. Doing so may damage the compressor.
Line set and Indoor coil should be evacuated using the
recommended deep vacuum method of 500 microns. If
G. BRAZING CONNECTIONS deep vacuum equipment is not available, the alternate
NOTE: Remove valve core from Schrader port on both triple evacuation method may be used by following the
Service Valves BEFORE brazing. This helps prevent specified procedure.
overheating and damage to valve seals (refer to Figure 6). If vacuum must be interrupted during the evacuation
Replace valve core when brazing is completed. procedure, always break vacuum with dry nitrogen.
I Deep Vacuum Method
WARNINGThe deep vacuum method requires a vacuum pump
capable of pulling a vacuum to 500 microns and a vacuum
FIRE HAZARD gauge capable of accurately measuring this vacuum
Failure to remove refrigerant and oil charge before level.The deep vacuum method is the most positive way
brazing could result in personal injury,death, and/ of assuring a system is free of air and water.
or property damage. Watch the vacuum gauge as the system is pulling down.
Refrigerant and oil mixture could ignite and burn The response of the gauge is an indicator of the condition
as it escapes and contacts brazing torch. Make of the system (refer to Figure 7).
sure the refrigerant charge is properly removed With no leaks in the system, allow the vacuum pump to
from both the high and low sides of the system be- run for 30 minutes minimum at the deep vacuum level.
Grazing any component or lines. Deep Vacuum Gauge Response
Clean line set tube ends with emery cloth or steel brush. Figure 7 and System Conditions
Remove any grit or debris.
Insert line set tube ends into service valve tube stubs. 5000
Apply heat absorbing paste or heat sink product between 4500
service valve and joint. Wrap service valves with a heat 4000
sinking material such as a wet cloth. 3500SYSTEM
LEAK IN
Braze joints using a Sil-Fos or Phos-copper alloy. z 3000
2500
U
CAUTION 2000 -
1500 VACUUM TIGHT
TOO WET
PRODUCT DAMAGE HAZARD 1000
TIGHT
'=Faure to follow this caution may result in product 500 DRY SYSTEM
damage. 0 1 2 3 4 5 6 7
Braze with Sil-Fos or Phos-copper alloy on cop- MINUTES
per-to-copper joints and wrap a wet cloth around
rear of fitting to prevent damage to TXV.
421 01 5002 01 7
A R2U Til
F, 1v c
x "
Triple Evacuation Method
The triple evacuation method should only be used when NOTE: Open the Suction service valve first. If the Liquid
system does not contain any water in liquid form and service valve is opened first,oil from the compressor may
vacuum pump is only capable of pulling down to 28 inches be drawn into the indoor coil TXV, restricting refrigerant
"b"f2Y%cury (711 mm Hg). Refer to Fig.8 and proceed as flow and affecting operation of the system.
follows: Remove Suction service valve cap and insert a hex
1. Pull system down to 28 inches of mercury wrench into the valve stem. Hold the valve body steady
(711 mm Hg)and allow pump to continue operating with an end-wrench and back out the stem by turning the
for an additional 15 minutes. hex wrench counterclockwise. Turn the stem until it just
contacts the rolled lip of the valve body.
2. Close manifold valves or valve at vacuum pump After the refrigerant charge has bled into the system,
and shut off vacuum pump. open the Liquid service valve.
3. Connect a nitrogen cylinder and regulator to NOTE: These are not back-seating valves. It is not
system and fill with nitrogen until system pressure necessary to force the stem tightly against the rolled lip.
is 2 psig.
4. Close nitrogen valve and allow system to stand for The service valve cap is a primary seal for the valve and
must be properly tightened to prevent leaks. Make sure
1 hour. During this time, dry nitrogen will diffuse
throughout the system absorbing moisture. cap is clean and apply refrigerant oil to threads and
sealing surface on inside of cap.
AtZwgRepeat this procedure as indicated in Figure 8. Tighten cap finger tight and then tighten additional A of a
6. After the final evacuate sequence, confirm there turn (1 wrench flat)to properly seat the sealing surfaces.
are no leaks in the system. If a leak is found,repeat J. GAUGE PORTS
the entire process after repair is made.
Check for leaks at the Schrader ports and tighten valve
Figure 8 Triple Evacuation Sequence cores if necessary. Install plastic caps finger tight.
EVACUATE
BREAK VACUUM WITH DRY NITROGEN
WAIT
r� EVACUATE
BREAK VACUUM WITH DRY NITROGEN
WAIT
EVACUATE
CHECK FOR TIGHT, DRY SYSTEM
(IF IT HOLDS DEEP VACUUM)
CHARGE SYSTEM
I. OPENING SERVICE VALVES
Outdoor units are shipped with a refrigerant charge
sealed in the unit. Opening the service valves releases
this charge into the system.
8 421 01 5002 01
'
~
ELECTRICAL WIRING
° Wiring Connections
Make all outdoor electrical supply (Line Voltage)
connections with nainbght conduit and fittings. Most
ELECTRICAL SHOCK HAZARD codes require a disconnect switch outdoors within sight cf
Failure to turn off the main (remote)electrical dis- the unit. Consult local codes for special requirements.
connect device could result in personal injury or Route electrical supply (Line Voltage) wiring through
knockout hole inbottom ofControl Box. Connect wires ho
Before installing, modifying or servicing system Contactor and Ground Lug according toWiring Diagram
on unit.Also refer to Figure 9.
turn OFF the main (remote) electrical disconnect
device. There may be more than one disconnect Route thermostat vvihnO through rubber grommet in
bottom of Control Box. Low voltage lead vvinos are
provided in the control box for connection to thermostat
The supply voltage must be 208/230 volts (197 volt wires (use wire nuts). Refer to WiringDiagram onunit and
mimineonn to253volts maximum)60 Hzsingle phase. Figure 1Ofor low voltage wiring examples.
Outdoor units are approved for use with copper NOTE: Use No. 18 AWG (American Wire Gage)
conductors only. Do not use aluminum wire. color—coded, insulated (35 "C minimum) wire. If
Refer tounit rating plate for minimum circuit ompocityand thermostat iolocated more than 1ODfeet(31m)from unit
circuit protection requirements. aameasured along the control voltage wires, use No. 1O
Grounding AWG color—coded wires hoavoid excessive voltage drop.
Permanently ground unit inaccordance with the National NOTE: Some models are factory equipped with Comfort
Electrical Code and local codes or ordinances. Use m Alert= D|mgnnaUos device. |fComfort Alert is used as a
copper conductor nfthe correct size from the grounding fia|Uinstalled option, then ahot bundle must berun for
lug incontrol box toagrounded connection inthe service proper connection.
pane( or a properly driven and electrically grounded
ground rod.
.rR"Fivare 9 T_ Electrical Supply (Line Voltage) Connections
DISCONNECT
LOCAL CODES
CONTACTOR
Ll 11
FIELD POWER
WIRING L2
------------------------- -
.23 or 13
WIRING GROUND
LUG
42101600201 9
V,2
t. IP-0 1,
W
-
ON
Figure 10 Typical Thermostat Connections
THERMOSTAT FURNACE AIR CONDITIONER
24 VAC HOT
24 VAC COM - - - - - - -
HEAT STAGE I -7E] 0
COOL STAGE 1 - - - - - -
INDOOR FAN
THERMOSTAT FAN COIL AIR CONDITIONER
24 VAC HOT El - -E]
24 VAC COM El - - -El - - - - - - -
HEAT STAGE 1 Hil --E 0
COOL STAGE I . . . . . . ...
INDOOR FAN
THERMOSTAT FAN COIL AC with Comfort Alert
24 VAC HOT D -
24 VAC COM E3 - - - - -El - - - -Fc
HEAT STAGE 1 FW/Wil-
COOL STAGE I
INDOOR FAN
10 421 01 5002 01
`
�
START-UP PROCEDURE -
1. Set indoor thermostat selector switch toOFF. 4. S.�/ndoothermnstaatdesiro temperature. Be
2. Turn ONall electrical disconnect devices. sure netpointksbelow indoor ambient temperature
orthonnostotwiUnnt�aKfor000Ung�
3. |funit has acrankcase haaba� energizethehaator
5 Set indoor thermostat selector switch to COOL.
ondvva�24hoursbefonepr000mding. � '
Operate unit for minimum 15minutes, then check
system refrigerant charge.
'REFRIGERANT ��������
^~~~^ ^~"~°~-^�~^~ ^ ~~" ^^ ^^~~~~-
Outdoor units are shipped with a refrigerant charge to NOTE: When adding refrigerant, charge in liquid
match a specific indoor nni| and 15 feet (4.8m) of fonn, using a flow restricting devioa, into the
refrigerant line. |fshorter or longer refrigerant lines or a suction port.
different indoor coil one used, the charge will have to be If the measured liquid Una temperature is lower
adjusted. than the chart number, reclaim refrigerant to raise
For different line lengths,add orremove charge based on the measured temperature.
O.8ounces (17g)charge per foot(305mm)of difference. Tolerance is 3°F (±1'70{ )
'
For example, a 25 foot (7.6m) line set is 10 feet (3m)
longer than the specified 1Sfeet(4.Gm).Add 0.6 ounces
(17g)charge for each of the extra 10 feet(8m):
1OxD.G =G.Oounces additional charge
(3mn17g=51gadditional charge)
Thh5lbbbdoorunit isdesigned for use only with indoor coils
that utilize a TXV refrigerant metering device. VVith an
indoorTX\/ use the subuoo|ing method to make final
charge adjustments:
NOTE: Only use sub000|ingcharging method when
°outdoorombient temperature is between 0^Fand 1OO"F
(21"Cand 38°C)
° indoor temperature|obetween 7O" and 8O"F
(21 OC and 270C)
° line set isless that 80 feet(24.4m).
1. Operate unit a minimum of 15 minutes before
checking charge.
NOTE' |foutdoor unit has a2-speed faoto
motor will operate in low speed when outdoor
=*p*=--w//m/e/u temperature is uemvv 820F (280C). Pull -
one of the yellow |mx voltage wires off the fon
control and the unit will default tohigh speed fan for
sen/icing. Reconnect wire after servicing.
2. Measure liquid eomioevalveprosourebyottaching
anaccurate gauge hoservice port.
3. Measure liquid line temperature by attaching an
accurate thermistor hype sensor or electronic
thermometer holiquid line near outdoor coil.
4. Refer to unit rating plate for required sub000|ing
temperature.
5. Refer to Figure 11. Find the required liquid line
temperature where the rating plate suboon|ing
temperature intersects measured liquid service
valve pressure.
'
the measured liquid line temperature is higher
than the chart number, add refrigerant tolower the
measured temperature.
42101600201 11
0 "MEN
",-
A
�to?4 4 Nk
��Nito-i
N
Figure 11 Rating Plate (required) Subcooling Temperature OF (0 C)
U 0
F LQiOZ
OF� 0 F F
Measured Liquid 20
10
Pressure
R-22 Required Liquid Line Temperature OF (0 C)
163 83 78 2 fi 73 W,41 68 ANA F-`"
171 8681 76 71 f.-. 2,
179 89 84 79 74
187 92
87 = 1 82 ps 77
196 95H3 90 85 jQ, 80
IM—A651
205 98 `'''=437`" 93 88
83
214 101 96
91 86
223 104 89
99 94
233 107 102 97 92
243 110 105 100 95
253 113
108 ="'`42 r > 103
98
264 116 111 ,.}= r 106 101
274 119
114 1! 109 104 ffl�W
117
286 1 112 7
22 10
-r�e
297 125Bi-i
120 115 110
309 128 123 118 4 113
12 421 01 5002 01
. |
AWN 4
,
0 NO��
SEQUENCE OF OPERATION
With power supplied to indoor and outdoor units. When thermoutbt is satisfiod, its contacts open,
transformer isenergized. de-energizing contactor and blower ralay. Compressor
On a call for mob�rsoh�p for000|ing.the thermostat makes circuits R-Y '
and R-Q. Circuit R-Y energizes contactor, starting NOTE: |findoor unit isequipped with atime-delay relay
outdoor fon motor and compressor. Circuit R-G ciruuit, the blower runs an additional length of time to
energizes indoor unit blower relay, starting indoor blower inoneoea system ofhcimncy.
motor.
TROUBLESHOOTING
Some models are factory equipped with the Comfort Comfort Alert- Diagnostics
Alert- Diagnostics device in the control bon (refer to Figure 12 (some models)
Figure 12). Comfort Alert provides around-the-clock
monitoring for common electrical problems, compressor Compressor Wires
dofado d broad system faults. |ftrouble isdetected,an Pass Through Holes(3)
alert code isdisplayed with mflashing LED indicator.Alert
codes are listed in Figure 13.
The device is factory wired and requires no
modification. Low voltage lead wires are provided in the POWs
oonbn| box for connection to thermostat wires (use vv|ne
nuts). '
The Comfort Alert device operates by monitoring the
compressor power leads and the thermostat demand
s16R91 (Yter0ina|). -qi�--24 VAC Common
hermostat Demand
XMT
MAINTENANCE
Condensate Drain
During the cooling season,check monthly for free flow of
drainage and clean ifnecessary.
MANneea
These tips will help keep the air conditioner looking better
and working more efficiently:
1. Free Oovv of air is essential. Keep fences, shrubs
trash oana, and other obstructions at least 18
inches (4G7mm)from all coil inlets.
2. Keep the coil free of grass clippings, leaves,
weeds, and other debris.
NOTE: Coil may occasionally require cleaning with
e liquid solution. The oui| must be cold when
cleaning. Use an alkaline based cleaner only.
Cleaning ohot coil orusing anacid based deanor
will remove the paint from the fins and may dog the
coil. `
°w@:��,Nevnruse aweather cover over the outdoor unit
unless itivaventilated type or made ofbreathable
fabric that will allow moisture toevaporate rapidly.
A cover that holds moisture in the unit will cause
more runt build-up and damage than normal
exposure toweathec
421 01500201 13
^
Figure 13 Comfort Alert- Diagnostics (some models)
�
Status LED Status LED Description Status LED Troubleshooting Information
Green "POWER" Module has power Supply voltage is present at module terminals
Red "TRIP" Thermostat demand signal 1. Compressor protector is open
Y1 is present, but the 2. Outdoor unit power disconnect is open
compressor is not running 3. Compressor circuit breaker or fuse(s) is open
4. Broken wire or connector is not making contact
5. Low pressure switch open if present in system
6. Compressor contactor has failed open
Nblfft "ALERT" Long Run Time 1. Low refrigerant charge
Flash Code 1 Compressor is running 2. Evaporator blower is not running
extremely long run cycles 3. Evaporator coil is frozen
4. Faulty metering device
5. Condenser coil is dirty
6. Liquid line restriction (filter drier blocked if present in system)
7. Thermostat is malfunctioning
Yellow "ALERT" System Pressure Trip 1. High head pressure
Flash Code 2 Discharge or suction 2. Condenser coil poor air circulation (dirty, blocked, damaged)
pressure out of limits or 3. Condenser fan is not running
compressor overloaded 4. Return air duct has substantial leakage
Yellow "ALERT" Short Cycling 1. If high pressure switch open, go to Flash Code 2 information
,Vg�D,,Code 3 Compressor is running 2. If low pressure switch open,go to Flash Code 1 information
only briefly 3. Thermostat demand signal is intermittent
4. Loose wiring at contactor coil
Yellow "ALERT" Locked Rotor 1. Run capacitor has failed
Flash Code 4 2. Low line voltage (contact utility if voltage at disconnect is low)
3. Excessive liquid refrigerant in compressor
4. Compressor bearings are seized
Yellow "ALERT" Open Circuit 1. Outdoor unit power disconnect is open
Flash Code 5 2. Compressor circuit breaker or fuse(s) is open
3. Compressor contactor has failed open
4. High pressure switch is open and requires manual reset
5. Open circuit in compressor supply wiring or connections
6. Unusually long compressor protector reset time due to
extreme ambient temperature
7. Compressor windings are damaged
Yellow "ALERT" Open Start Circuit 1. Run capacitor has failed
Flash Code 6 Current only in run circuit 2. Open circuit in compressor start wiring or connections
3. Compressor start winding is damaged
Yellow "ALERT" Open Run Circuit 1. Open circuit in compressor run wiring or connections
Flash Code 7 Current only in start circuit 2. Compressor run winding is damaged
Yellow "ALERT" Low Voltage 1. Control circuit transformer is overloaded
Flash Code 9 Control circuit< 17VAC 2. Low line voltage (contact utility if voltage at disconnect is low)
• Flash Code number corresponds to a number of LED flashes, followed by a pause and then repeated.
°TRIP and ALERT LEDs flashing atsame time means control circuit voltage is too low for operation.
International Comfort Products, LLC
14 Lewisburg, TN 37091 USA 421 01 5002 01
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Puron@Comfort T"13 Air Conditioner for Coastal Applications
with Refrigerant
Carrier
turn to the .-
Product Data
INDUSTRY LEADING
FEATURES/ BENEFITS
Efficiency
• 13 SEER/11 EER
( '-�` "` �`* r • Microtube Technologyrefri eration system
" g Y
.. "-' . 1�4 • Indoor air quality accessories available
Sound
• Sound level as low as 75 dBA
Comfort
• System supports Thermidistat- or standard thermostat
controls
Reliability
• Puron@ refrigerant — environmentally sound, won't
deplete the ozone layer and low lifetime servce cost.
• Front—seating service valves
• Scroll compressor
• Internal pressure relief valve
• Internal thermal overload
• Filter drier
j>n • Balanced refrigeration system for maximum reliability
Miran Durability
WeatherArmor' protection package:
• Solid,durable sheet metal construction
Carrier's Air Conditioners with Puron@ refrigerant provide a
collection of features unmatched by any other family of ' Dense wire coil guard
equipment. The 24ABB has been designed utilizing Carrier's • Baked—on powder paint on all sides
Puron refrigerant.The environmentally sound refrigerant allows ArmorPlate Condenser Coil
you to make a responsible decision in the protection of the earth's
ozone layer. • Aluminum fin material is pre—coated on both sides with
a corrosion protective epoxy phenolic coating.
NOTE: Ratings contained in this document are subject to Applications
change at any time. Always refer to the AHRI directory • Long—line—up to 250 feet(76.20 m)total equivalent
(www.ahridirectoryorg) for the most up—to—date ratings length, up to 200 feet (60.96 m) condenser above
information. evaporator,or up to 80 ft. (24.38 m)evaporator above
condenser(See Longline Guide for more information.)
• Low ambient (down to —20°F/-28.9°C)) with
accessory kit
"r MODEL NUMBER NOMENCLATURE
2 3 4 5 6 7 8 9 10 11 12 13
N N A A A/N N N N A/N A/N A/N N N
2 4 A B B 3 3 6 C 0 N 3 0
Product Product Tier Major SEER Cooling variations Open Region Voltage Series
Family Series Capacity
24=AC A=RES AC B=Comfort B=Puron 3=13 SEER C=Coastal 0=Not 0=pre2015 3=208/230-1 0=
Defined built units Original
N=North Series
region only
C UL US
Use of the AHRI Certified
TM Mark indicates a
manufacturer's
participation in the
program For verification
of certification for individual
products,go to
www.ahridirectory.org. IS0 9001
QMI-SAl Globall
c
STANDARD FEATURES
AQ` re 18 24 30 36 42 48 60
Puron Refrigerant X X X X X X X
SEER Rating 13 13 13 13 13 13 13
Scroll Compressor X X X X X X X
Dense Wire Coil Guard X X X X X X X
Field Installed Filter Drier X X X X X X X
Front Seating Service Valves X X X X X X X
Internal Pressure Relief Valve X X X X X X X
Internal Thermal Overload X X X X X X X
Long Line capability X X X X X X X
Low Ambient capability with IGt X X X X X X X
X=Standard
- F—.
2
REFRIGERANT PIPING LENGTH LIMITATIONS
Liquid Line Sizing and Maximum Total Equivalent Lengthst for Cooling Only Systems with Puron®Refrigerant:
The maximum allowable length of a residential split system depends on the liquid line diameter and vertical separation between indoor and
outdoor units.
See Table below for liquid line sizing and maximum lengths:
Maximum Total Equivalent Length
Outdoor Unit BELOW Indoor Unit
Liquid AC with Puron Refrigerant Maximum Total Equivalent Lengtht: Outdoor unit BELOW Indoor
Size Liquid Line Line Vertical Separation ft(m)
Connection Diam. 0-5 6-10 11-20 21-30 31-40 41-50 51-60 61-70 71-80
w/TXV (0-1.5) (1.8-3.0) (3.4-6.1) (6.4-9.1) (9.4-12.2) (12.5-15.2) (15.5-18.3) (18.6-21.3) (21.6-24.4)
1018• 1/4 150 150 125 100 100 75 -- -- --
AC with 3/8 5/16 250* 250* 250* 250* 250* 250* 250* 225* 150
Puron 3/8 250* 250* 250* 250* 250* 250* 250* 250* 250*
024 1/4 75 75 75 50 50 -- -- -- --
AC with 3/8 5/16 250* 250* 250* 250* 250* 225* 175 125 100
Puron 3/8 250* 250* 250* 250* 250* 250* 250* 250* 250*
030 1/4 30 -- -- -- -- -- -- -- --
AC with 3/8 5/16 175 225* 200 175 125 100 75 -- --
Puron 3/8 250* 250* 250* 250* 250* 250* 250* 250* 250*
036 5/16 175 150 150 100 100 100 75 -- --
AC with 3/8
Puron 3//8 250* 250* 250* 250* 250* 250* 250* 250* 250*
042 5/16 125 100 100 75 75 50 -- -- --
AC with 3/8
Puron 3/8 250* 250* 250* 250* 250* 250* 250* 250* 150
048
AC with 3/8 3/8 250* 250* 250* 250* 250* 250* 230 160 --
Puron
060
AOWth 3/8 3/8 250* 250* 250* 225* 190 150 110 --
Puron
* Maximum actual length not to exceed 200 ft(61 m)
t Total equivalent length accounts for losses due to elbows or fitting.See the Long Line Guideline for details.
--=outside acceptable range
Maximum Total Equivalent Length
Outdoor Unit ABOVE Indoor Unit
Liquid AC with Puron Refrigerant Maximum Total Equivalent Lengtht: Outdoor unit ABOVE Indoor
Size Liquid Line Line Vertical Separation ft(m)
Connection Diam. 25 26-50 51-75 76-100 101-125 126-150 151-175 176-200
W/TXV (7.6) (7.9-15.2) (15.5-22.9) (23.2-30.5) (30.8-38.1) 38.4-45.7) (46.0-53.3) (53.6-61.0)
018 1/4 175 250* 250* 250* 250* 250* 250* 250*
AC with 3/8 5/16 250* 250* 250* 250* 250* 250* 250* 250*
Puron 3/8 250* 250* 250* 250* 250* 250* 250* 250*
024 1/4 100 125 175 200 225* 250* 250* 250*
A vjjlh 3/8 5/16 250* 250* 250* 250* 250* 250* 250* 250*
uron 3/8 250* 250* 250* 250* 250* 250* 250* 250*
030 1/4 30 -- -- -- -- -- -
AC with 3/8 5/16 250* 250* 250* 250* 250* 250* 250* 250*
Puron 3/8 250* 250* 250* 250* 250* 250* 250* 250*
036 5/16 225* 250* 250* 250* 250* 250* 250* 250*
AC with 3/8
Puron 3/8 250* 250* 250* 250* 250* 250* 250* 250*
042 5/16 175 200 250* 250* 250* 250* 250* 250*
AC with 3/8
Puron 3/8 250* 250* 250* 250* 250* 250* 250* 250*
048
AC with 3/8 3/8 250* 250* 250* 250* 250* 250* 250* 250*
Puron
060
AC with 3/8 3/8 250* 250* 250* 250* 250* 250* 250* 250*
Puron
*Maximum actual length not to exceed 200 ft(61 m)
t Total equivalent length accounts for losses due to elbows or fitting.See the Long Line Guideline for details.
F--�p,butside acceptable range
3
REFRIGERANT CHARGE ADJUSTMENTS
Liquid Line Size Puron Charge oz/ft(g/m)
3/8 0.60(17.74)
(Factory charge for lineset=9 oz/266.16 g)
5/16 0.40(11.83)
1/4 0.27(7.98)
Units are factory charged for 15 ft(4.6 m)of 3/8"liquid line. The factory charge for 3/8"lineset 9 oz. When using other length or diameter
liquid lines,charge adjustments are required per the chart above.
Charging Formula:
[(lineset oz/ft x total length)-(factory charge for lineset)]=charge adjustment
Example 1:System has 15 ft of line set using existing 1/4"liquid line. What charge adjustment is required?
Formula: (.27 oz/ft x 15ft)-(9 oz)=(4.95)oz.
Net result is to remove 4.95 oz of refrigerant from the system
Example 2: System has 45 ft of existing 5/16"liquid line.What is the charge adjustment?
� ,��rmula: (.40 oz/ft.x 45ft)-(9 oz.)=9 oz.
Net result is to add 9 oz of refrigerant to the system
LONG LINE APPLICATIONS
An application is considered Long Line,when the refrigerant level in the system requires the use of accessories to maintain acceptable
refrigerant management for systems reliability. See Accessory Usage Guideline table for required accessories. Defining a system as long line
depends on the liquid line diameter,actual length of the tubing,and vertical separation between the indoor and outdoor units.
For Air Conditioner systems,the chart below shows when an application is considered Long Line.
AC WITH PURON®REFRIGERANT LONG LINE DESCRIPTION ft(m)
Beyond these lengths,long line accessories are required
Liquid Line Size Units On Same Level Outdoor Below Indoor Outdoor Above Indoor
1/4 No accessories needed within allowed No accessories needed within allowed 175(53.3)
lengths lengths
5/16 120(36.6) 50(15.2)vertical or 120(36.6)total 120(36.6)
3/8 80(24.4) 35(10.7)vertical or 80 24.4)total 80(24.4)
Note: See Long Line Guideline for details
r
VAPOR LINE SIZING AND COOLING CAPACITY LOSS
Acceptable vapor line diameters provide adequate oil return to the compressor while avoiding excessive capacity loss. The suction line
diameters shown in the chart below are acceptable for AC systems with Puron refrigerant:
Vapor Line Sizing and Cooling Capacity Losses-Puron®Refrigerant 1-Stage Air Conditioner Applications
Maximum Cooling Capacity Loss(%)
Unit Liquid Line Vapor Line Total Equivalent Line Length ft.(m)
Nominal Diameters Diameters
Size(Btuh) (In.OD 26-50 51-80 81-100 101-125 126-150 151-175 176-200 201-225 226-250
1 (In.OD) (7.9-15.2) (15.5-24.4) 24.7-30.5 30.8-38.1 38.4-45. 46.0-53.3 53.6-61.0 61.3-68.6 68.9-76.2
018 1/2 1 2I Stage
x5, _ S a. _•Ttv .F
AC with 3/8 5/8 0 1
wn 3/4 0 0 j" :$ 1° ''±r:__�'w -j• �.j" �'`>#' •has
j024 5/8 0 12-
1 Stage
AC with 3/8 3/4 0 1 0
Puron 7/8 0 0
030 5/8 1 2 3` 31 �.;4" :~i. 5"yp`; W
1 Stage g.__ -�>_ a_
AC with 3/8 3/4 0 0
Puron 7/8 0 0
036 5/8 1 2 -`
1 Stage -,--. s
AC with 3/8 3/4 0 1 ` M 3r ;4.;" :<`4':�M,•
Puron7/8 0 0
042 3/4 0 1
1 Stage __. ':_
-7
AC with 3/8 7/8 0 0 1. 1. .*t' :1 q „w-,2-. 'µ`r2: :Y �.��
Puron 1 1/8 0 0 , r ., x5 mA} rd- rO y
V -048 3/4 0 1 7 ^ $ _ �
1 Stage 3/8 7/8 0 0 01h
Puron
11/8
0 r :'Wi it' u Tot I rF4 f1 r
00` ,0'• 0 v.0: v' :0= _'
060 3/4 1 2 ,&•f P =,;5 w : i -.'Y- :.t3 iT .$, r7 ,�° �: "9 .. ;„#)y,%a,a:a,' #:1`, '
1 Stage _; .., w• _ _ -. ...... w. ,,
3/8 7/8 0 1 2% `2:, _."3.- :4'.,:i'r i s (
AC with .z A t i'%'>. :c
Puron 1 1 1/8 0 0v: `4 _' ,, :1 vJ•�.S~ p�i~' 'ti"r#� p ° "S7` i u
l o s:dt sarea:ma . e.on n®, a a e e s:... a hRM _o art n a 8 ne.
4
, 1
PHYSICAL DATA
UNIT SIZE SERIES 18-30 24-30 30-30 1 36-30 1 42-30 48-30 60-31
Operating Weight Ib(kg) 128 133 155 167 188 197 227
(58.1) (60.3) (703) (75.7) (85.3) (89.4) (102.7)
Shipping Weight Ib(kg) 159 167 193 205 225 235 267
(72.1) (75.7) (87.3) (92 8) (102.1) (106.6) (120.9)
Compressor Type Scroll
REFRIGERANT Puron®(R-410A)
Control TXV(PuronO Hard Shutoff)
Charge Ib(kg) 4.1 5.1 5.8 6.8 6.2
(1.86) (2.31) (2 63) (3 08) 1 (2.81) (3.31) (4.49)
COND FAN Propeller Type,Direct Drive
Air Discharge Vertical
Air Qty(CFM) 1881 2196 3167 3167 3810 3810 4046
Motor HP 1/12 1/10 1/5 1/5 1/5 1/5 1/4
Motor RPM 1100 1100 1100 1100 800 800 800
COND COIL
Face Area(Sq ft) 13.13 14.77 1725 21.56 1760 20.12 17.60
Fins per In 20 20 20 20 20 20 20
Rows 1 1 1 1 1 1 2
-.09pults 3 3 3 5 4 5 8
VALVE CONNECT.(in.ID)
Vapor 5/8 5/8 3/4 3/4 7/8 7/8 7/8
Liquid 3/8 3/8 3/8 3/8 3/8 3/8 3/8
REFRIGERANT TUBES(in.OD)
Rated Vapor* 5/8 3/4 7/8 1-1/8
Vapor 3/4 7/8 1-1/8 1-1/8
Liquid(0-50 ft/0—15.2 m)Tube Length) 3/8"
Liquid(For Long—Line applications) 3/8"
*Units are rated with 25 ft(7.6 m)of lineset length. See Vapor Line Sizing and Cooling Capacity Loss table when using other sizes and lengths of lineset
Note: See unit Installation Instruction for proper installation.
ACCESSORY THERMOSTATS
PART NUMBER I PROGRAM GAS ELECTRIC I HEAT PUMP I HEAT I COOL
TC—PAC01 5-2 Day 1 I 1 1
TC—NAC01 NP 1 -4 1 1
TCSNAC01 NP 1 -4 1 1
THERMOSTAT ACCESSORIES
PART NUMBER DESCRIPTION THERMOSTATS USED WITH
TSTATXXCNV10$ Thermostat Conversion Kit(4 to 5 wire)—10 pack All Carrier@ branded thermostats
TX—LBP01 Large Decorative Backplate TP—Pxx,TP—Nxx,TC—Pxx
TX—MBP01 Medium Decorative Backplate TC—Nxx,TB—Pxx
ACCESSORIES
ORDER DESCRIPTION Size—Voltage&Series
NUMBER 18-30 24-30 30-30 36-30 42-30 48-30 60-31
KSAFT0101AAA FREEZE THERMOSTAT X X X X X X X
KAATD0101TDR TIME DELAY RELAY X X X X X X X
KAAWS0101AAA WINTER START X X X X X X X
KSAIA0301410 LOW AMBIENT PSW X X X X X X X
KSALA0601AAAt MOTORMASTER 230V X X X X X X X
HC32GE234 MOTOR FAN BALL BEARING X
HC34GE239 MOTOR FAN BALL BEARING X
HC38GE219 MOTOR FAN BALL BEARING X X
4646GE'28 MOTOR FAN BALL BEARING X X X
KSAHS1701 AAA HARD START(CAP/RELAY) X X X X X X X
KSACY0101AAA CYCLE PROTECTOR X X X X X X X
KSASF0101AAA SUPPORT FEET X X X X X X X
KAACS0201 PTC START ASSIST PTC X X X X X X X
KAACH1201AAA CRANKCASE HTR X X X
KAACH1401AAA CRANKCASE HTR X X X X
KSATX0201PUR TXV PURON HSO X X X
KSATX0301PUR TXV PURON HSO X X
KSATX0401 PUR TXV PURON HSO X
KSATX0501 PUR TXV PURON HSO I X
KSASH0601COP SOUND HOOD X X X X X X
KSASH2101 COP SOUND HOOD X
KAALP0301 PUR LOW PRESSURE SWITCH X X X X X X X
KAAH10501 PUR HIGH PRESSURE SWITCH X X X X X X X
KAALS0201 LLS LIQUID LINE SOLENOID X X X X X X X
KHASS0606MPK* ISNOW STAND RACK X X X X X X X
tpled accessones include ball bearing fan motor,compressor start assist(CAP/Relay),crankcase heater,evaporator freeze stat,hard shut—off TXV.
` ailable accessory
* Available for order through RCD
5
`ACCESSORY USAGE GUIDELINE
REQUIRED FOR LOW—AMBIENT REQUIRED FOR LONG LINE REQUIRED FOR
ACCESSORYCOOLING APPLICATIONS APPLICATIONS* SEA COAST
(Below 55°F/12.8°C) (Over 80 fL/24.38 m) APPLICATIONS
(Within 2 miles/3.22 km)
Ball Bearing Fan Motor Yest No No
Compressor Start Assist Capacitor and Relay Yes Yes No
Crankcase Heater Yes Yes No
Evaporator Freeze Thermostat Yes No No
Hard Shut—Oft TXV Yes Yes Yes
Liquid Line Solenoid Valve No No No
MotorMaster or Low—ambient Pressure Switch Yes No No
Support Feet Recommended No Recommended
Winter Start Control Yes No No
t Additional requirement for Low—Ambient Controller(full modulation feature)MotorMaster®Control.
Accessory Description and Usage (Listed Alphabetically)
a1.Bl earing Fan Motor 5. Cycle Protector
A fan motor with ball bearings which permits speed reduction The cycle protector is designed to prevent compressor short
while maintaining bearing lubrication. cycling. This control provides an approximate 5—minute delay
Usage Guideline: after power to the compressor has been interrupted for any
Required on all units when MotorMaster@— reason,including power outage,protector control trip,thermostat
2.Compressor Start Assist—Capacitor and Relay jiggling,or normal cycling.
Start capacitor and relay gives a "hard" boost to compressor 6.Evaporator Freeze Thermostat
motor at each start up. An SPST temperature—actuated switch that stops unit operation
Usage Guideline: when evaporator reaches freeze—up conditions.
Required for reciprocating compressors in the Usage Guideline:
following applications: 7.Liquid—Line Solenoid Valve(LLS)
Long line An electrically operated shutoff valve which stops and starts
Low ambient cooling refrigerant liquid flow in response to compressor operation.It is
to be installed at the outdoor unit to control refrigerant off cycle
Hard shut off expansion valve on indoor coil migration in the heating mode.
aaw0• Liquid line solenoid on indoor coil Usage Guideline:
Required for single—phase scroll compressors in the An LLS is required in all long line heat pump
following applications: applications to control refrigerant off cycle migration in
Long line the heating mode.See Long Line Guideline.
Low ambient cooling Required when low ambient kit has been added.
Suggested for all compressors in areas with a history of 8.Low—Ambient Pressure Switch Kit
low voltage problems. A long life pressure switch which is mounted to outdoor unit
3.Compressor Start Assist—PTC Type service valve. It is designed to cycle the outdoor,fan motor in
Solid state electrical device which gives a "soft" boost to the order to maintain head pressure within normal operating limits
compressor at each start—up. (approximately 100 psig to 225 psig).The control will maintain
Usage Guideline: working head pressure at low—ambient temperatures down to 0°F
when properly installed.
Suggested in installations with marginal power supply. Usage Guideline:
4.Crankcase Heater
A Low—Ambient Pressure Switch or MotorMaster@
An electric resistance heater which mounts to the base of the Low—Ambient Controller must be used when cooling operation is
cpWxossor to keep the lubricant warm during off cycles. used at outdoor temperatures below 55°F(12.8°C).
Improves compressor lubrication on restart and minimizes the 9.MotorMaster®Low—Ambient Controller
chance of liquid slugging.
Usage Guideline: A fan—speed control device activated by a temperature sensor,
designed to control condenser fan motor speed in response to the
Required in low ambient cooling applications. saturated, condensing temperature during operation in cooling
Required in long line applications. mode only.For outdoor temperatures down to—20°F(-28.9°C),
Suggested in all commercial applications. it maintains condensing temperature at 100°F±10°F(37.8*C±
—5.5°Q.
Usage Guideline:
A MotorMaster@ Low Ambient Controller or
Low—Ambient Pressure Switch must be used when
cooling operation is used at outdoor temperatures
below 55*F(12.8°C).
Suggested for all commercial applications.
6
Accessory Description and Usage (Listed Alphabetically) (Continued)
10.Outdoor Air Temperature Sensor 14.Time—Delay Relay
Designed for use with Carrier Thermostats listed in this An SPST delay relay which briefly continues operation of indoor
publication. This device enables the thermostat to display the blower motor to provide additional cooling after the compressor
outdoor temperature.This device also cycles off.
is required to enable special thermostat features such as auxiliary NOTE:Most indoor unit controls include this feature.For those
heat lock out. that do not,use the guideline below.
Usage Guideline: Usage Guideline:
Suggested for all Carrier thermostats listed in this For improved efficiency ratings for certain
publication. combinations of indoor and outdoor units.Refer to
11.Sound Hood, AHRI Unitary Directory.
Wiaparound sound reducing cover for the compressor.Reduces 15. Winter Start Control
the sound level by about 2 dBA. This control is designed to alleviate nuisance opening of the
Usage Guideline: low—pressure switch by bypassing it for the first 3 minutes of
Suggested when unit is installed closer than 15 ft(4.6 m)to operation.
quiet areas,bedrooms,etc.
Suggested when unit is installed between two houses less
than 10 ft(3.0 m)apart.
12.Support Feet
Four stick—on plastic feet that raise the unit 4 in. above the
mounting pad. This allows sand, dirt, and other debris to be
flushed from the unit base,minimizing corrosion.
Usage Guideline:
Suggested in the following applications:
Coastal installations.
`'Windy areas or where debris is normally circulating.
Rooftop installations.
For improved sound ratings.
13.Thermostatic Expansion Valve(TXV)
A modulating flow—control valve which meters refrigerant liquid
flow rate into the evaporator in response to the superheat of the
refrigerant gas leaving the evaporator.
Kit includes valve, adapter tubes, and external equalizer tube.
Hard shut off types are available.
NOTE: When using a hard shut off TXV with single phase
reciprocating compressors, a Compressor Start Assist Capacitor
and Relay is required.
Usage Guideline:
Required to achieve AHRI ratings in certain equipment
.1111.
combinations.Refer to combination ratings.
Hard shut off TXV or LLS required in air conditioner
long line applications.
Required for use on all zoning systems.
7
ELECTRICAL DATA
UNIT SIZE-VOLTAGE, OPER VOLTS* COMPR FAN MAX FUSE**
SERIES V/PH MCA or CKT BRK
MAX MIN LRA RLA FLA AMPS
18-30 48 0 9.0 0.5 11.7 20
24-30 58.3 13.5 0.8 17.6 30
30-30 730 14.1 1.1 187 30
36-30 208/230/1 253 197 79.0 16.7 1.1 21.9 35
42-30 109.0 19.9 1.2 26.0 40
48-30 117.0 21.8 1.2 28.4 40
60-31 1340 26.3 1.2 34.1 50
* Permissible limits of the voltage range at which the unit will operate satisfactorily.
** Time-Delay fuse.
FLA - Full Load Amps
LRA - Locked Rotor Amps
MCA- Minimum Circuit Amps
RLA - Rated Load Amps
NOTE:Control circuit is 24-V on all units and requires external power source. Copper wire must be used from service disconnect to unit.
All motors/compressors contain internal overload protection.
Complies with 2010 requirements of ASHRAE Standards 90.1
A-WEIGHTED SOUND POWER LEVEL (dBA)
UNIT SIZE- STANDARD RATING TYPICAL OCTAVE BAND SPECTRUM(dBA,without tone adjustment)
VOLTAGE,SERIES (dBA) 125 250 500 1000 2000 4000 8000
18-30 75 50.0 59.0 65.5 69.5 64.5 61.0 55.0
24-30 75 53.0 60.0 68.0 69.5 68.0 63.0 58.5
30-30 77 57.0 66.5 71.0 73.0 69.5 66.5 59.0
36-30 77 55.0 66.5 71.0 70.5 69.0 67.0 63.5
42-30 77 57.0 60.0 66.5 69.0 68.0 64.5 58.0
48-30 80 57.0 60.0 68.0 1 75.0 69.0 66.5 65.5
60-31 80 59.5 65.0 71.5 1 72.0 67.0 65.0 62.0
NOTE:Tested in compliance with AHRI 270-2008 but not listed with AHRI.
A-WEIGHTED SOUND POWER LEVEL (dBA) WITH SOUND SHIELD
UNIT SIZE- STANDARD RATING TYPICAL OCTAVE BAND SPECTRUM(dBA,without tone adjustment)
VOLTAGE,SERIES (dBA) 125 250 500 1000 2000 4000 8000
18-30 73 50.5 60.0 66.0 68.0 64.0 60.5 54.0
24-30 73 53.5 60.0 67.0 68.5 66.5 61.5 56.0
30-30 77 57.5 66.0 71.0 72.5 69.0 65.5 57.5
36-30 76 55.5 66.0 70.0 69.5 68.5 66.0 61.5
- 42-30 74 57.0 60.5 66.5 67.5 67.0 62.5 56.5
48-30 78 57.0 60.5 67.5 74.0 68.0 64.0 62.5
60-31 77 59.5 65.0 71.0 68.5 66.0 61.5 58.5
NOTE:Tested in compliance with AHRI 270-2008 but not listed with AHRI.
CHARGING SUBCOOLING (TXV-TYPE EXPANSION DEVICE)
UNIT SIZE-VOLTAGE,SERIES REQUIRED SUBCOOLING°F (°C)
18-30 8(4.4)
24-30 11 (6.1)
30-30 9(5.0)
36-30 10(5.6)
42-30 11 (6.1)
48-30 12(6.7)
60-31 11 (6.1)
8
DIMENSIONS - ENGLISH v
ELECTRICAL OPERATING NG SHIPPING
CHARACTERISTICS
LUT SERIES A B C D E F G K L M N P WEIGHT (bs WEIGHT (bs) DIMENSIONS x W x H)
24ABB318 0 X 0 0 0 25 314° 31 13/16' 3 3/4• 5/8' 4 T/16' 21 114• 9 1/8' 2 13/16' 1/2' 15 3/8' 12 112• 14 314• 126 159 26 7/8' X 30 1/16' X 35 15/16•
24ABB324 0 X 0 0 0 25 3/4• 35 114° 3 3/4' 5/8• 4 T/16• 21 1/4• 9 1/8• 2 13/16' 112' 13' 14 1/4' 15 T/8' 133 16T 26 7/8• X 30 1/16' X 39 3/6'
24ABB330 0 X 0 0 0 31 3/16' 32 5/16' 3 3/4' 3/4• 6 9/16' 24 11/16' 9 1/8' 2 13/16' 112' 16 1/8' 15• 15 7/8• 155 193 32 3/8' X 35 112' X 35 15/16'
24ABB336 0 X 0 0 0 31 3/16° 39 1/8' 3 314• 3/4' 6 9/16' 24 11/16' 9 1/8' 2 13/16' 112' 13 5/8' 1_153!4' 18 18 1/2' 1 167 205 32 3/8° X 35 112' X 42 3/4'
24ABB342 0 X 0 0 0 35' 28 15116' 3 118' 7/8• 6 9/16' 28 7/16' J-i-arl 2 15116' 5/8' 15 3/4' 15' 12 3/8' 188 1 225 36 1/8' X 39 5/16' X 32-9/16'
24ABB348 0 X 0 0 0 35' 32 5/16' 3 7l8' 7/8' 6 9/16' 28 T/16' 9 1/8' 2 15/16' 5/8' 1 16 1!4' 16 3/8° 1 14 1/4• 197 235 1 36 1/8• X 39 5/16' X 35 15/16'
24ABB360 1 CX 0 0 0 35° 28 15/16° 3 7/6' 7/8' 6 9/16' 28 7/16' 9 1/8' 2 15/16' 5/8' 16 3/8° 16 518° 1 12 114• 227 26T 36 1/8° X 39 5/16' X 32 9/16'
y Oj C� X = YES
0 NOC
N ap
N N
A
so. M
AIR IN AIR
DISCHARGE
AIR DISCHARGE G
I
0 0
FIELD CONTROL
B SUPPLY CONN,
07/8' HOLE AIR IN-
FIELD POWER SUPPLY CONN. F
0 118' HOLE WITH AIR IN
01 1/8° KNOCKOUT o
N
03/1' o
LIQUID LINE CONN. P
C 3 112' 3• E
1 71s•
L
OD VAPOR LINE CONN. 5/16'
K AIR IN
mNmw 0 3/8' TIEDOWN KNOCKOUTS
UNIT SIZE MOUNTING PAD Ill PLACES
DIMENSIONS
23 112' X 23 112'
18.24 26' X 26'
30.36 31 1/2' X 31 112'
42,48.60 35' X 35'
DIMENSIONS - SI
UNIT SERIES ELECTRICAL A B C D E F G K L M N p OPERATING SHIPPING SHIPPING
CHARACTERISTICS WEIGHT s)WEIGHT s DIMENSIONS x W x H)
24ABB318 0 X 0 0 0 654.0 608.5 95.6 15.9 113.0 539.9 231.3 70.9 12.8 390.5 317.5 374.6 58.0 72.1 682.8 X 762.8 X 913.2
24ABB324 0 X 0 0 0 654.0 894.8 95.6 15.9 113.0 539.9 231.3 70.9 12.8 330.2 362.0 403.2 60.3 15,7 682.8 X 762.8 X 999.5
24ABB330 0 X 0 0 0 792.5 821.2 95.6 19.1 166.7 626.3 231.3 70.9 12.8 409.6 381.0 403.2 70.3 81.5 821.2 X 901.2 X 913.2
24ABB336 0 X 0 0 0 792.5 993.9 95.6 19.1 166.7 626.3 231.3 70.9 12.8 346.1 400,0 469.9 75.T 93.0 821.2 x 901.2 X 1085.9
24ABB342 0 x 0 0 0 889.0 734.8 97.9 22.2 166.7 722.8 231.3 74.5 16.3 400.0 381.0 1 314.3 85.3 102.0 917.7 X 997.7 X 826.8
24ABB348 0 x 0 0 0 889.0 821.2 97.9 22.1 166,7 T22.8 231.3 74.5 16.3 412.8 415.9 362.0 89.4 106.6 911,7 % 997,7 X 913.2
24ABB360 1 X 0 0_ 0 889.0 734.8 1 97.9 1 22.2 166.7 722.8 231.3 74.5 16.3 415.9 422.3 1 311.2 103.0 121.1 917.7 X 997.7 X 826.8
X _ YES
0 = NO
N N
A
so. M
AIR IN AIR
DISCHARGE
AIR DI}SCHARGE G--1
1 I I
O o
O
FIELD CONTROL
B SUPPLY CONN.
022.23 HOLE AIR IN
F
FIELD POWER SUPPLY CONN. AIR IN
0 22.23 HOLE WITH
028.58 KNOCKOUT o
N
LIOUID LINE 000NN 9.53 P
C 88.9 16.2 E
47.6
01)VAPOR LINE CONN.-/ 8.0
K LAIR 1N
Mmmw 09.53 TIEDOWN KNOCKOUTS
UNIT SIZE MOUNTING PAD (2) PLACES
DIMENSIONS
596.9 X 596.9
18.24 660.4 X 660 4 -
30.36 - 800.1 x 800.1
42.48.60 889.0 X 889.0
CLEARANCES
Clearances (various examples)
�:.s°:'�` "t. - ry W`Y2.Y ;ro - �� - ^;nom.�.',:��€:.�r+_-.. +°'_'#.�";•+
IL'
�YsI .i.' 11 K^' �. ,4"f,1 _.a•: 3. °.,it. ': t�'I�! -rr.,�r,,,fir.. .i'1,3
h*. :N,ii{„R'i, �� i7::y,.e„ .;,'_ — ,;.•;f,;F TiSl�r..r; } x3?'
f
6„ g" '
,,
152.4 24" '
(609.6)
Service
24py
12
(609.6) (304.8)
Service .
t 12" 6„
;s�L4
304.8
( ) 152.4)
12" {
(304.8) §d w
12"
(304.8)
r
:J;.i •�.�Y
's.
yi<'i.
24" 24" 24"
(609.6) 4 (609.6) (609.6)
Service Service Service
18"
(457.2) (457.2) (457.2)
Note: Numbers in () = mm
A07832
TESTED AHRI COMBINATION RATINGS*
,
NOTE: Ratings contained in this document are subject to change at any time.
For AHRI ratings certificates,please refer to the AHRI directory www.ahridirectory.org
Additional ratings and system combinations can be accessed via the Carrier database at:
http://cactaxeredits.info/carrier-ratings/ac ratings sreh phn
Equipment performance Calculator can be accessed at: http://rpmob.wrightsoft.com/
Model Number Indoor Model Furnace Model Capacity EER SEER
24AB13318C30 CAP**1814A**+TDR 17,700 110 13.0
24ABS324C30 CAP**2414A**+TDR 22,600 110 13.0
24ABB33OC30 CAP**3014A**+TDR 29,000 110 130
24ABB336C30 CAP**3617A**+TDR 34,400 110 130
24A1313342C30 CAP**4221A**+TDR 40,500 110 130
24ABB34SC30 CAP**4821A**+TDR46,500 11.0 13.0
24ABB360C31 CAP**6024A**+TDR 59,500 11.0 130
*Matings are net values reflecting the effects of circulating fan heat.Supplemental electric heat is not included.Ratings are based on.
EER — Energy Efficiency Ratio
SEER— Seasonal Energy Efficiency Ratio
TDR — Time—Delay Relay. In most cases,only 1 method should be used to achieve TDR function.Using more than 1 method In a system may cause
degradation in performance. Use either the accessory Time—Delay Relay KAATD0101TDR or a furnace equipped with TDR.Most Carrier furnaces are
equipped with TDR.
NOTES: 1. Ratings are net values reflecting the effects of circulating fan motor heat.Supplemental electric heat is not included.
2.Tested outdoor/indoor combinations have been tested in accordance with DOE test procedures for central air conditioners.Ratings for other
combinations are determined under DOE computer simulation procedures
3.Determine actual CFM values obtainable for your system by referring to fan performance data in fan coil or furnace cod literature.
4 Do not apply with capillary tube coils as performance and reliability are significantly affected.
12
DETAILED COOLING CAPACITIES#
EVAPORATOR AIR h h CONDENSER ENTERING AIR TEMPERATURES °F(°C)
1 75(23.9) 85(29.4) 95(35) 105(40.6) 115(46.1) 125(51.7)
gyyg Capacity MBtuh Total Capacity MBtuh Total I Capacity MBtuh TO Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total
CFM eF (,C) System System System Systom System • System
Total Sens$ KW+. Total Sens$ KW+* Total Sens$ KW++ Total Sens# KW++ Total Sens$ KW.. Total Sens# Kyr++
0
72(22.2) 21.05 10.18 127 2009 984 1.42 19.06 Outdoor 9.48 1 56 18.01 Indoor 9.12 1.76 1689 8.74 1.96 1564 8.33 2.17
525 67(19 4) 19.27 12.5127 18.38 1216 1.42 17.43 11.79 158 16.45 11.42 176 1541 11.03 1.96 14.26 1061 217
62(16.7) 1768 14.8227 16.86 14.46 1.42 1601 14.09 1.58 15 13 13.68 1.76 14.28 14.28 1.96 13.40 13.40 2.17
57(13.9) 17.16 171627 16.51 _ 16.51 1.42 15.81 15.81 1.58 15.07 15.07 1.76 1428 14.28 1.96 1340 1340 217
72(22 2) 21.40 106729 2039 10.32 1.44 19.33 996 161 16.25 9.60 1.79 17.08 9.21 1.98 15.80 8.79 2.20
600 67(19 4) 19.61 13.3030 18 68 12.95 1.45 17.70 12.58 161 1669 12.21 1 79 15.61 11.81 1.99 1443 11 38 2.20
62(16.7) 18.06 15.9130 17.25 1553 1.45 1641 16.41 1.61 15.63 1563 179 1479 14.79 199 13.85 13.85 2.20
57(13.9) 1787 17 8-7-pl.30 17.17 17.17 1.45 1642 1642 1.61 1563 1563 179 14.79 14.79 1.99 13.85 13.85 220
72(22.2) 21.65 11.13 1.32 2061 10.78 1.47 19.51 10.42 1.63 18.40 10.05 1.82 17.21 9.66 2.01 15 B9 9.24 2.23
675 67(19.4) 19.86 14.07 1.33 18.90 13 71 1.47 17.69 13.34 1 64 16.86 12 96 1 82 15.76 12.55 2.01 14.55 12 11 2.23
62(16 7) 18.46 1835 1.33 17.70 17 70 1.48 16.91 16.91 164 16.09 16.09 1 82 1520 15.20 2.01 1421 1421 2.23
57(13 9) 18.45 18.45 133 1770 1770 1.48 1691 16.91 1.64 1609 1609 1.82 15.20 15.20 201 14.21 1421
2 23
EVAPORATOR AIR CONDENSER ENTERING AIR TEMPERATURES °F(°C)
75(23.9) 85(29.4) 95(35) 105(40.6) 115(46.1) 125(51.7)
EWB Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total
CFM System Syst¢m System System System System
°F (°C) Total Sens$ KW++ Total Sens$ KW++ Total Sens$ KW++ Total Sens# KW+* Total Sens$ KW** Total Sens$ KW++
i •
72(22 2) 26.88 12 92 1 68 25.69 12.51 1.87 24.42•• 1 1207 1 2.06 1 2310 111.62 2.32 21 68 11.14 2.58 2012 1063 2.66
700 67(19.4) 24.51 1585 1.67 23.40 1542 1.86 2224 14.98 2.07 21.01 14.52 231 19.71 14.04 257 18.29 1352 2.85
62(16.7) 2241 18.77 1.66 21.40 18.33 1.85 20.35 17.87 2.07 1527 17.38 2.30 18.24 18.24 256 17.16 17.16 2.85
57(13 9) 21.79 21.79 1.66 2098 2098 1.85 20.13 20.13 207 1922 19.22 2.30 18 24 18.24 2.56 17.16 17.16 2.85
72(22 2) 27.35 1356 1.72 2611 13.14 1.91 24.79 12.70 2.12 2343 1224 2.36 21.95 11.76 2.61 20.34 11.23 2.90
B00 67(19 4) 24.96 1688 1.71 2381 16.45 190 22.60 1600 2.11 21 33 15.53 2.35 19.98 15.04 261 18.51 14.51 2.89
62(16 7) 2294 20.17 1.70 21.92 1970 1.89 2092 20.92 211 19.96 1996 2.34 1891 18.91 260 17.76 1776 2.89
57(13 9) 22.71 2271 1.70 2184 21.84 1.89 20.93 2093 2.11 1996 19.96 234 18.91 1891 260 17.76 1776 289
W 72(22 2) 27.70 14.16 1.76 26,41 13 74 1.95 25.06 13.29 2.16 23 65 12.83 2.39 22.14 12.34 2 65 2047. 11 81 293
900 67(19 4) 25.30 17 86 1.75 24 11 17.43 1.94 22.87 16.97 2.15 21.57 16.50 2 39 20.18 1599 2.64 1868 15 45 2.93
62(16 7) 23.45 23.45 1.74 2255 22.55 1.93 21.58 2158 215 20.56 20.56 2.38 19.45 1945 2.64 1824 18.24 2.93
57(13.9) 23.47 2347 1.74 22.55 22.55 1.93 2158 21.58 215 20.56 20.56 2.38 1945 1945 264 18.24 1824 2 93
See notes on pg.16
DETAILED COOLING CAPACITIES# (CONT.) ;
EVAPORATOR AIR d q CONDENSER ENTERING AIR TEMPERATURES °F(°C)
75(23.9) 85(29.4) 95(35) 105(40.6) 115(46.1) 125(51.7) .
CFM EWB Capacity MBtuh Total CapacityMBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total
°F (°C) System System System _ System System System
Total Sens# KW++ Total Sens$ KW- Total Sens# KW** Total Sons
# FC1N++ Total Sens$ KW+r Total Sens# KW**
0 Outdoor
Indoor
72(22.2) 34.42 17.55 214 3293 1700 2.35 31.37 16.43 2.60 29.70 1 1582 1 2.87 27.89 15.18 1 3.16 25.89 14.48 3.49
875 67(19.4) 31 38 2154 2.13 30.01 2098 234 28.55 20.39 259 27.00 19.78 2.86 25.33 19 12 3 15 23.50 18 41 3 48
62(16 7) 2871 2553 2.12 27.46 24.95 2.34 26.15 2433 2.58 2479 23.66 2.85 23.46 2346 315 22.06 22.06 3.47
57(13.9) 27.97 2797 211 2695 2695 234 25.88 25.88 2.58 24.72 24.72 2 85 23.46 23.46 315 22.06 22 06 3 47
72(22 2) 35.01 18.40 2.19 33 47 17.84 2.40 31.84 17 26 2 65 30.11 16.65 2.92 28.24 15.99 3.21 26.17 15.28 3.54
1000 67(19.4) 31.95 2291 217 30.51 2234 239 29.00 2175 264 27.40 21.13 2.91 25.68 20.46 320 23.79 19.73 3.53
62(16.7) 29.37 27.39 217 28.12 2677 2.39 2687 26.87 2.63 25.65 25.65 290 24.31 24.31 320 22.82 2282 3.52
57(13 9) 2911 2911 2.16 28.03 28.03 238 26.88 2688 2.63 2565 2565 290 2431 24.31 3.20 22.62 22.82 3.52
72(22.2) 35.44 19 20 2 23 33.85 18 63 2.45 32.17 18.04 2.70 30.39 17.43 2.96 28.47 16.76 3 26 26.35 16.04 358
1125 67(19.4) 32.36 24.22 2.22 30 89 23.65 2.44 29 34 23.05 2.68 27.70 22 41 2.95 2594 21.73 3.25 2401 20.98 3.57
62(16.7) 3003 3003 2.21 28.91 2891 2.43 27.70 2770 2 6826.41 26.41 295 2500 25.00 325 23.43 2343 3.57
57(13 9) 3005 3005 2.21 28.92 28.92 2.43 27.70 2770 2.68 26.41 2641 295 25.00 1 25.00 3.25 2343 2343 357
EVAPORATOR AIR CONDENSER ENTERING AIR TEMPERATURES OF(°C)
75(23.9) 85(29.4) 95(35) F 105(40.6) 115(46.1) 125(51.7)
EWB Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total Capacity MBtuh Total
CFM System System System System System System
°F (°C) Total Sens# KW Total Sens$ KW«+ Total Sens$ KW++ Total Sens# KW+. ---TQIW-1 Sens# I KW** Total Sens$ KW
0
72(22 2) 40.76 20.75 259 38.98 20.09 2.87 37.11 Outdoor 19.41 3.17 35.12 Indoor 18.68 3.51 32.94 17.90 3.88 30 52 17 04 4 27
1050 67(19.4) 3732 2553 2.57 3568 2485 285 33.93 24.15 3.16 32.08 2340 349 30.07 2261 386 27.85 21.75 4.25
62(16.7) 34.25 3028 2.56 32.76 29.59 283 31.19 28.85 3.14 29.56 2805 3.47 27.92 2792 3.84 26.21 2621 4.23
57(13.9) 33.35 33.35 2.55 3213 32.13 2.83 3083 30.83 3.14 29.44 29.44 347 27.92 27.92 384 26.22 26.22 4.23
72(22 2) 41.30 21 69 2.65 3954 21 01 2.93 3760 20.32 3.23 35.53 19.58 357 33.28 18.79 394 30.79 17.92 4.33
1200 67(19.4) 3792 27.04 263 36.21 26.36 291 34.40 2564 321 32.49 2490 355 3042 24.09 3.92 28.14 23.21 4.31
62(16.7) 34.98 3238 2.62 33.47 31.64 2.89 31.90 31.90 3.20 30.47 30.47 3.54 28.85 28.85 3.90 2703 27.03 4.30
57(13.9) 34.63 3463 262 3333 3333 2.89 3195 31.95 3.20 30.47 30.47 3.54 26.85 28.85 3.90 27.04 27.04 4.30
72(22.2) 41 84 22 56 2.71 39.94 21 88 2.99 37 95 21.17 3 29 35.82 20 42 3.63 33.52 19.62 4.00 30.96 1873 439
1350 67(19.4) 31136 26 48 2.69 36 59 27 79 2.97 34.75 27.08 3.27 32.79 26.32 3.61 30 68 25.50 3.98 2836, 24.59 437
62(16.7) 35.68 1 3540 1 268 3430 34.30 2.96 32.85 32.85 3.26 31.29 31.29 3.60 29.59 29.59 397 27.68 27.68 436
57(13.9) 3567 1 35.67 1 2.68 34.31 3431 296 32.85 3285 3.26 31.29 31.29 360 29.59 29.59 397 27.68 27.68 436
See notes on pg.16
ST
C
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o mmmJ�nmmJ nmmJ O cnmmJmm0JmmmJ O r
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DETAILED COOLING CAPACITMS# (CONT.)
EVAPORAT R AIR �+ CONDENSER ENTE@ING AIR TEMPERATURES °F(°C)
75(23.9) 85(29.4) 95(35) 105(40.6) n 115(46.1) 125(51.7)
EWB Capacity MBtuh Total Capacity M8tuh Total Capacity MBtuh Total Ca aci MBtuh Total
p ty Capacity MBtuh Total Capacity MBtuh Total
CFM °F C System SystemSystem _ System System System
f° ) Total Sens# KW+* Total Senst KW++ Total San-s: KW++ Total Sens# KW** Total Sers# KW:+ Total Sens# Kyy**
•
Outdoor
Indoor
72(22.2) 70.46 35.93 4.33 6731 34.74 4.78 63,92 33.47 5.27 60.32 32.15 5 81 56 39 30.72 6.39 52.01 29.16F7.1
1750 67(194) 6468 44.05 4.27 61.75 42.83 4.72 5863 4154 5.21 55.32 40.20 5.74 5173 38.76 6.33 47.76 37.2062(167) 5939 52.12 421 56.74 50.88 4.66 5392 4956 5.15 50.97 4876 569 47.86 47.65 628 4483 448357(13.9) 57.39 57.39 4.19 55.26 55.26 464 5297 5297 5.14 50.52 50.52 5 68 47.85 47.85 6 28 44.83 44 8372(222) 71 67 3760 444 68.36 36.38 4.88 64.83 35.09 5.38 61.09 33.75 591 57.02 3230 6.49 52.47 30.71 2000 67(19.4) 65.82 46.74 4.37 6276 45 50 482 59.50 44,19 531 5606 42.82 5 85 52.35 4137 6.43 4823 39,7762(167) 6066 55 81 432 57.92 54.51 4,77 55.06 53.07 526 5229 52.29 -5.80 49.42 49.42 6.39 46,19 46.1957(139) 5965 5965 4.31 57.36 57.36 4.76 54.91 54.91 526 52.29 52.29 580 49.42 49.42 6.39 46.19 4619
72(22.2) 72.54 39.16 4.54 69.12 37.93 4.99 6588 36.63 5.48 61 62 35 26 6.02 57.43 3380 6.59 52.76 32 19 7 21
2250 67(19.4) 66.64 49.29 4 48 63,48 48 03 4.92 60.13 46.72 5,42 56 59 45.34 5.95 52.78 43 85 6.53 48.57 42.20 7.15
62(16.7) 61 76 59.17 4.43 59.03 59.03 4 88 56 48 56.48 5.37 53 71 53.71 5.92 50.67 50 67 6.50 47.25 47 25 7.14
57(13.9) 61 50 1 61.50 1 -442 59,08 5908 1 4.88 1 56.48 56.40 5.37 53.71 5371 592 1 50.67 1 50.67 6.51 1 47.26 47.26 7.14
t Total and sensible capacities are net capacities.Blower motor heat has been subtracted
#Sensible capacities shown are based on 80°F(27°C)entering air at the indoor coil.For sensible capacities at other than 80°F(271C),deduct 835 Btuh
(245 kW)per 1000 CFM(480 US)of indoor coil air for each degree below 80°F(271C),or add 835 Btuh(245 kW)per 1000 CFM(480 US)of indoor coil air per degree above 80°F(270C).
#Detailed cooling capacities are based on indoor and outdoor unit at the same elevation per AHRI standard 210/240-94.If additional tubing length and/or indoor unit is located above outdoor unit,a slight variation in capacity may
occur.
**System kw is total of indoor and outdoor unit kilowatts.
tt At TVA rating indoor condition(75°F edb/63°F ewb).All other Indoor air temperatures are at 80°F edb.
NOTE,When the required data falls between the published data,interpolation may be performed.Extrapolation is not an acceptable practice.
EWB-Entering Wet Bulb
NOTE:When the required data fall between the published data,interpolation may be performed.Extrapolation is not an acceptable practice.
rn
CONDENSER ONLY RATINGS*
SST CONDENSER ENTERING AIR TEMPERATURES°F (°C)
- °F'�°C) 1 55(12.78) 65(18.33) 75(23.89) 1 85(29.44) 1 95(35.0) 105(40.56) 1 115(46.11) 1 125(51.67)
24ABB31BC30
TCG 16.90 15.90 15.00 14.00 12.
30 90 11.90 10.80 9.70
(-30 SDT 6850 77.80 87.20 96.60 10610 115.50 125.00 134.40
KW 083 0.95 1.08 1.23 1.39 1.56 1.74 1.93
TCG 18.60 17.60 16.50 15.50 14.40 13.20 12.10 10.80
(135 5 SDT 69.60 78.90 88.30 97.60 107.00 116.40 125.80 135.20
KW 0.83 0.95 1.08 1.23 1.39 1.56 1.75 1.94
0 TCG 20.50 19.40 18.20 17.10 15.90 14.70 13.40 12.10
40
SDT 70.80 80.10 89.30 98.60 107.90 117.20 126.60 135.90
KW 0.83 0.95 1.08 1.23 1.39 1.57 1.75 1.96
45 TCG 22.40 21.20 20.00 18.70 17.50 16.20 14.80 13.40
(7 22) SDT 72.10 81.30 90.50 99.70 108.90_ 118.20 127.40 136.70
KW 0.83 0.95 1.08 1.23 1.39 1.57 1.76 1.96
50 TCG 24.40 23.10 21.80 20.50 19.10 17.70 16.20 14.70
(10.0) SDT 73.40 82.50 91.60 100.80 109.90 119.10 128.30 137.40
KW 0.83 0.95 1.08 1.23 1.39 1.57 1.76 1.97
55 TCG 26.50 25.10 23.70 22.20 20.70 19.20 17.70 16.10
(12.78) SDT 74.80 83.80 92.90 101.90 111.00 120.10 129.20 138.20 Za
z4 KW 0.83 0.95 1.08 1 1.23 1.39 1.57_ 1.76 1.97
30 TCG 20.60 19.40 18.30 17.10 16.00 14.70 13.50 M2.54
(-111) SDT 71.70 80.80 90.10 99.30 108.60 118.00 127.40
KW 1.07 1.22 1.39 1.58 1.78 2.01 2.25
35 TCG 22.70 21.40 20.20 18.90 17.70 16.40 15.00
(1 5 SDT 73.10 82.20 91.30 100.50 109.70 119.00 128.40
KW 1.08 1.23 1.40 1.58 1.79 2.02 2.27 40 TCG 24.90 23.60 22.20 20.90 19.50 18.10 16.60
(4.44) SDT 74.60 83.60 92.60 101.70 110.90 120.10 129.30 138.60
KW 1.09 1.24 1 1.41 1.59 1.80 2.03 2.28 2.55
45 TCG 2730 25.90 24.40 23.00 21.50 1990 18.30 16.70
(7.22) SDT 76.20 85.00 94.00 103.00 112.00 121.20 130.30 139.50
KW 1.10 1.25 1.42 1.60 1.81 2.04 2.29 2.56
50 TCG 29.80 28.30 26.70 25.10 23.50 21.90 20.20 18.30
(10.0) SDT 77.90 86.60 95.40 104.30 113.30 122.30 131.30 140.40
KW 1 1.11 1.26 1.43 1.61 1.82 2.05 230 2.57
55 TCG 32.50 30.80 29.10 27.40 25.70 23.90 22.00 20:10
(12.78) SDT 79.60 88.20 97.00 105.80 114.60 123.50 132.40 141.30
KW 1.12 1.27 1.44 1.62 1.83 1 2.06 2.31 2.5B
30 TCG 26.90 25.50 24.00 22.50 21.00 19.40 17.70 15.90
(-111) SDT 71.30 80.30 89.40 98.50 107.70 117.00 126.30 135.60
KW 1.42 1.59 1.78 2.00 2.23 2.48 2.76 3.04
35 TCG 29.60 28.10 26.50 24.90 23.20 2150 19.70 17.80
(1 5 SDT 72.70 81.60 90.60 99.70 108.80 118.00 127.20 136.40
KW 1.42 1.60 1.79 2.00 2.24 2.50 2.78 3.07
40 TCG 32.50 30.90 29.20 27.40 25.70 23.80 21.90 19.80
(4 44) SDT 74.30 83.00 91.90 100.90 109.90 119.00 128.10 137.30
KW 1.43 1.61 1.80 2.01 2.25 2.51 2.79 3.10
45 TCG 35.60 33.80 32.00 30.20 28.20 26.20 24.20 21.90
(7 5 SDT 75.90 84.50 93.30 102.10 111.10 120.10 129.10 13820
KW 1.45 1.62 1.81 2.02 2.26 2.52 281 3.12
50 TCG 38.90 37.00 35.00 33.00 31.00 28.80 26.60 24.20
(10.0) SDT 77.60 86.10 94.70 103.50 112.30 121.20 130.10 139.10
KW 1.46 1.63 1.82 2.04 2.27 2.54 2 82 3.13
55 TCG 42.50 40 40 38.20 36.10 33.80 31.50 29.10 26.50
(12 78) SDT 79.50 87.80 96.30 104.90 113.60 122.40 131.20 140.00
KW 1.48 1.65 1.84 2.05 1 2.29 2.55 2.84 3.15
30 TCG 1 3330 1 31.50 1 29.70 27.80 1 25.90 23.90 21 80 19.50
SDT 71.60 80.70 89.90 99.10 108.30 117.50 126.70 135.90
KW 1.69 1.91 2.15 2.42 2.71 3.02 3.36 3.70
35 TCG 36.70 34.70 32.80 30.80 28.70 26.50 24.20 21.80
(167) SDT 73.10 82.10 91.20 100.30 109.40 118.60 127.70 136.80
KW 1.70 1.92 2.16 2.43 2.73 3.05 3.39 3.75
40 TCG 40.20 38.10 36.00 33.80 31.60 29.30 26.80 24.20
(4.44) SDT 74.60 83.50 92.50 101.60 1 110.60 119.70 128.80 137.80
KW 172 1.94 2.18 2.45 2.75 3.07 3.42 3.79
45 TCG 44.00 41.70 39.40 37.10 34.60 32.10 29.50 26.70
(7 5 SDT 76.30 85.10 94.00 102.90 111.90 120.90 129.90 138.80
KW 1.74 1.95 2.20 2.47 2.77 3.10 3.45 3.82
50 TCG 47.90 45.50 43.00 40.40 37.80 35.10 32.30 29.20
(10.0) SDT 78.00 86.70 95.50 104.30 113.20 12210 131.00 139.70
KW 1.75 1.97 2.22 2.49 2.79 3.12 3.47 385
55 TCG 52.10 49.40 46.70 43.90 '41 10 38.20 35.10 31.80
(12 78) SDT 79.80 88.40 97.00 105.80 114.60 123.30 132.10 140.70
KW 1.78 1.99 224 2.51 2.81 3.14 3.49 3.87
sonpg.18
17
CONDENSER ONLY RATINGS* (CONT.)
SST CONDENSER ENTERING AIR TEMPERATURES°F (°C)
:.
°F (°C) 55(12.78) 1 65(18.33) 75(23.89) 1 85(29.44) 95(35.0) 105(40.56) 115(46.11) 1 i25(51.67)
30 TCG 38.30 36.20 34.00 31.90 29.80 27.70 25.50 23.20
(-111) SDT 75.60 84.60 93.70 102.80 111.90 121.10 130.40 139.60
KW 2.07 2.36 2.67 2.98 3.29 3.61 3.94 4,27
TCG 42.20 39.90 37.60 35.30 33.00 30.60 28.20 25.70
(135 5 SDT 77.30 86.10 95.10 104.10 113.10 122.30 131.40 140.60
KW 2.01 2.33 2.64 2.97 3.30 3.64 3.98 4.33
40 TCG 46.40 43.90 41.30 38.80 36.30 33.80 31.10 28.40
(4.44) SDT 7900 87.70 96.50 105.40 11440 123.40 132.50 141.50
KW 1.95 2.28 2.61 2.95 3.30 3.65 4.01 438
45 TCG 50.90 48.10 45.40 42.60 39.90 37.10 34.20 31.20
(7.22) SDT 80.80 89.40 98.10 106.90 115.70 124.60 133.50 142.40
KW 1.88 2.22 2.57 2.93 3.29 3.66 4.03 4.41
50 TCG 55.60 52.60 49.60 46.60 43.60 40.50 37.40 34.10
(10.0) SDT 82.70 91.20 99.70 108.40 117.10 125.90 134.60 143.40
KW 1.80 2.15 2.52 2.89 3.27 3.65 1 4.04 4.44
5 TCG 60.50 57.20 54.00 50.70 47.40 44.10 40.70 37.00
55
SDT 84.70 93.00 101.40 109.90 118.50 127.20 135.80 144.30
KW 1.71 2.08 2.45 2.84 3.23 3.64 4.04 4.45
30 TCG 43.60 41.10 38.60 36.20 33.70 31.20 28.70 26.10
(-1.11) SDT 75.50 84.50 93.60 102.70 111.80 121.00 130.20 139.50
KW 2.19 2.52 2.88 3.27 3.68 4.12 4.60 5.11
35 TCG 48.10 45.30 42.60 3990 37.20 34.50 31.70 28.80
(1.67) SDT 7720 86.10 95.00 104.00 113.10 122.20 131.30 140.40
KW 2.19 2.53 2.89 3.29 3.71 4.16 4.64 5.16
40 TCG 52.80 49,80 46.80 43.90 40.90 38.00 34.90 31.70
(4�)
.SDT 78.90 87.70 96.60 105.40 114.40 123.40 132.40 141.40
KW 2.19 2.53 2.90 3.30 3.73 4.19 4.68 5.20
5 TCG 57.80 54.50 51.30 48.00 44.80 41.50 3820 34.70
4
(7 5 SDT 80.80 89.40 98.10 106.90 115.70 124.60 133.50 142.30
KW 2.18 2.53 2.91 3.31 3.75 4.21 4.71 5.24
50 TCG 63.00 59.40 55.90 52.30 48.80 45.20 41.60 37.70
(10.0) SDT 82.70 91.20 99.80 108.50 117.10 12590 134.60 143.30
KW 2.17 2.53 2.91 3.32 376 4.24 4.74 5.26
55 TCG 68.40 64.50 60.60 56.70 52.80 49.00 45.00 40.70
(12 78) SDT 84.80 93.10 101.50 110.00 118.60 127.20 135.80 144.20
KW 2.17 2.53 2.91 3.33 3.78 4.25 4.76 5.29
TCG 57.70 54.50 51.30 48.00 44.70 41.20 37.70
1.1
30 33.90
(-30 SDT 74.10 83.20 92.30 101.50 110.60 119.70 128.80 137.80
KW 2.74 3.09 3.48 3.90 4.37 4.88 5.43 6.01
5 TCG 63.40 59.90 56.40 52.90 49.20 45.50 41.60 37.50
3
(1 5 SDT 75.80 84.80 9380 10290 111.90 120.90 129.90 138.80
KW 2.79 3.14 353 3.96 4.43 4.94 5.49 6.08
0 TCG 69.40 65.70 61.90 58.00 54.00 49.90 45.70 41.20
4
(4 0 SDT 77.60 86.50 95.40 104.40 113.30 122.20 131.10 139.90
KW 2.85 3.19 358 4.01 4.48 5.00 5.55 6.15
5 TCG 75.80 71.70 67.50 63.30 59.00 54.60 49.90 45.00
4
(7 5 SDT 79.40 88.20 97.10 105.90 114.80 123.60 132.30 140.90
KW 2.90 3.25 3.64 4.07 4.55 5.06 5.62 621
50 TCG 82.50 78.00 73.50 68.90 64.20 59.30 54.30 48.90
(10.0) SDT 81.40 90.10 98.80 107.50 116.30 124.90 133.60 142.00
KW 2.97 3.32 3.71 4.14 4.61 5.12 5.68 1 6.27
55 TCG 89.40 84.60 79.70 74.70 69.50 64.30 58.70 52.80
(12.78) SDT 83.40 92.00 100.60 109.20 11780 126.40 134.80 143.10
KW 1 3.03 3.38 3.78 4.21 4.68 5.19 5.74 6.33
*AHRI listing applies only to systems shown in Combination Ratings table.
Outdoor Unit Kilowatts Only.
SDT - Saturated Temperature Leaving Compressor CF/°C)
SST - Saturated Temperature Entering Compressor(°F/°C)
TCG- Gross Cooling Capacity(1000 Btuh)
,r
18
GUIDE SPECIFICATIONS AIR—COOLED,SPLIT—SYSTEM AIR CONDITIONER?
24ABB3C
GENERAL 1-1/2 TO 5 NOMINAL TONS
System Description Fans
MfflWr—mounted, air—cooled,split—system air conditioner unit — Condenser fan will be direct—drive propeller type,
suitable for ground or rooftop installation. Unit consists of a discharging air upward.
hermetic compressor, an air—cooled coil, propeller—type — Condenser fan motors will be totally enclosed,1—phase
condenser fan,and a control box.Unit will discharge supply air type with class B insulation and permanently lubricated
upward as shown on contract drawings. Unit will be used in a bearings.Shafts will be corrosion resistant.
refrigeration circuit to match up to a packaged fan coil or coil — Fan blades will be statically and dynamically balanced.
unit.
Quality Assurance — Condenser fan openings will be equipped with coated
steel wire safety guards.
Unit will be rated in accordance with the latest edition Compressor
of AHRI Standard 210.
Unit will be certified for capacity and efficiency, and — Compressor will be hermetically sealed.
listed in the latest AHRI directory. — Compressor will be mounted on rubber vibration
— Unit construction will comply with latest edition of isolators.
Condenser Coil
ANSI/ASHRAE and with NEC.
Unit will be constructed in accordance with UL — Condenser coil will be air cooled.
tet% '" standards and will carry the UL label of approval.Unit — Coil will be constructed of aluminum fins mechanically
will have c—UL approval. bonded to copper tubes which are then cleaned,
— Unit cabinet will be capable of withstanding Federal dehydrated,and sealed.
Test — ArmorPlate coating — Aluminum fin material is
Method Standard No. 141 (Method 6061)500—hr salt pre—coated on both sides with a corrosion protective
spray test. epoxy phenolic coating.
— Air—cooled condenser coils will be leak tested at 150 Refrigeration Components
psig and pressure tested at 450 psig. — Refrigeration circuit components will include
— Unit constructed in IS09001 approved facility. liquid—line shutoff valve with sweat connections,
Delivery,Storage,and Handling vapor—line shutoff valve with sweat connections,
— Unit will be shipped as single package only and is system charge of PuronO (R-410A) refrigerant, and
stored and handled per unit manufacturer's compressor oil.
recommendations. — Unit will be equipped with filter drier for Puron
Warranty(for inclusion by specifying engineer)
refrigerant.
Operating Characteristics
� �A, U.S.and Canada only. — The capacity of the unit will meet or exceed
PRODUCTS Btuh at a suction temperature of °F/°C. The
Equipment power consumption at full load will not exceed
Factory assembled,single piece,air—cooled air conditioner unit.
kW.
Contained within the unit enclosure is all factory wiring,piping, — Combination of the unit and the evaporator or fan coil
controls,compressor,refrigerant charge Purono (R-410A), and unit will have a total net cooling capacity of
special features required prior to field start—up. Btuh or greater at conditions of CFM entering
Unit Cabinet air temperature at the evaporator at °F/°C wet
bulb and °F/°C dry bulb, and air entering the
Unit cabinet will be constructed of galvanized steel, unit at T/°C.
bonderized,and coated with a powder coat paint. — The system will have a SEER of Btuh/watt or
greater at DOE conditions.
Electrical Requirements
— Nominal unit electrical characteristics will be v,
single phase, 60 hz. The unit will be capable of
Wr333001, satisfactory operation within voltage limits of v
to V.
— Unit electrical power will be single point connection.
— Control circuit will be 24v.
Special Features
— Refer to section of this literature identifying accessories
and descriptions for specific features and available
enhancements.
19
Copyright 2015 Carrier Corp.• 7310 W.Morris St.• Indianapolis,IN 45231 Edition Date. 08/15 Catalog No:24ABB3C—SPD
Manufacturer reserves the right to change,at any time,specifications and designs without notice and without obligations. Replaces 24ABB3C-7PD
20