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Home My WebLink About47086-Z �O�Q��ffOl�lr Town of Southold 12/18/2021 a y P.O.Box 1179 0 C" ;roc 53095 Main Rd Southold,New York 11971 CERTIFICATE OF OCCUPANCY No: 42643 Date: 12/18/2021 THIS CERTIFIES that the building ALTERATION Location of Property: 32275 Route 25, Orient SCTM#: 473889 Sec/Block/Lot: 14.-2-16 Subdivision: Filed Map No. Lot No. conforms substantially to the Application for Building Permit heretofore filed in this office dated 6/15/2018 pursuant to which Building Permit No. 47086 dated 11/8/2021 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"window replacements to existing single-family dwelling as applied for. The certificate is issued to Kelso,Heidi of the aforesaid building. SUFFOLK COUNTY DEPARTMENT OF HEALTH APPROVAL ELECTRICAL CERTIFICATE NO. PLUMBERS CERTIFICATION DATED ut riz d ignature �o�S�FFot TOWN OF SOUTHOLD aye BUILDING DEPARTMENT TOWN CLERK'S OFFICE SOUTHOLD, NY a0ao'�4,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#: 47086 Date: 11/8/2021 Permission is hereby granted to: Kelso, Heidi 10 Sheridan Sq #213 New York, NY 10014 To: Legalize "as built" window replacements to existing single-family dwelling as applied for. Replaces BP#42815 At premises located at: 32275 Route 25, Orient SCTM #473889 Sec/Block/Lot# 14.-2-16 Pursuant to application dated 11/8/2021 and approved by the Building Inspector. To expire on 5/10/2023. Fees: PERMIT RENEWAL $225.00 Total: $225.00 Building Inspector �So 04TOWN OF SOUTHOLD BUILDING DEPARTMENT TOWN CLERK'S OFFICE CO/1 g "oy • o� SOUTHOLD, NY 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#: 42815 Date: 6/25/2018 Permission is hereby granted to: Kelso, Heidi 10 Sheridan Sq #213 New York, NY 10014 To: legalize "as built" window replacements to existing single-family dwelling as applied for. At premises located at: 32275 Route 25, Orient SCTM # 473889 Sec/Block/Lot# 14.-2-16 Pursuant to application dated 6/15/2018 and approved by the Building Inspector. To expire on 12/25/2019. Fees: AS BUILT- SINGLE FAMILY ADDITION/ALTERATION $400.00 CO -ALTERATION TO DWELLING $50.00 Total: .$450.00 B u i I d i nY4wi ector 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. II_'a /) New Construction: Old or Pre-existing Building: (check one) Location of Property: S. C ms House No. i Street Hamlet Owner or Owners of Property:_ ��t f'ii 16ejj 0 Suffolk County Tax Map No 1000,Section L4 Block a- Lot �J Subdivision �(?fl ( 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: $ App an i nature Ltl o 8(o q SOUTyoI * * TOWN OF SOUTHOLD BUILDING DEPT. `yoou765-1802 INSPECTION ] FOUNDATION 1ST [ ] ROUGH PLBG. [ '} FOUNDATION 2ND [ ] SULATIOWCAULKING [ ] FRAMING /STRAPPING [q FINAL PJ2; &AtU'r [ ] FIREPLACE & CHIMNEY [ ] FIRE SAFETY INSPECTION [ ] FIRE RESISTANT CONSTRUCTION [ ] FIRE RESISTANT PENETRATION [ ] ELECTRICAL (ROUGH) [ ] ELECTRICAL (FINAL) [ ] CODE VIOLATION [ ] PRE C/O REMARKS: oa I�f 2�2 DATE L INSPECTOR FIELD INSPECTION REPORT DATE COMMENTS FOUNDATION(1ST) H -------------------------------------- 'FOUNDATION (2ND) zt O � W ' • l k ROUGH FRAMING& y PLUMBING ci INSULATION PER N.Y. y STATE ENERGY CODE C Q FINAL ADDITIONAL COMMENTS 0() aq5 MEG 0 z . c�.Z �'-X ICA f z Z � d - b y OF SOUTHOLD BUILDING PERMIT APPLICATION CHECKLIST /6DING DEPARTMENT Do you have or need the following,before applying? dWN HALL � Board of Health /SOUTHOLD, NY 11971 4 sets of Building Plans' ' TEL: (631) 765-1802 Planning Board approval 5 FAX: (631) 765-9502 I l Survey Southoldtownny.gov PERMIT NO. r[ `lam2 Checkoo Septic Form N.Y.S:D.E.C: Trustees C.O.Application 1 Flood Permit Examined S 20_ Single&Separate l • Truss Identification.Form Storm-Water Assessment Form Contact: n Approved 20 Mail'to. Disapproved a/c N y oC) q Phone: Expiration 5 20 jq D G [ � 1[ D B pector JUN V 2018 PLICATION FOR BUILDING PERMIT FITs'I?GDIl Date__ � � 1. � , 20 TOWN OF SIOU HOLD 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 showing location of lot and of buildings on premises,relationship to adjoining premises or public streets or areas, and waterways. c. The work covered by this application inay 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 throughoufthe Work. e.No building shall be occupied or 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,B1ii1ding I).epartment for the issuance of a Building Permit pursuant to the Building Zone Ordinance of the Town of Southold,'Suffalk 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,housng•cbde, and'tegulations, and to admit authorized inspectors on premises and in building for necessary inspections. (Signature icant or name,if a corporation) (Maili g address of applicant) — ? State whether applicant is owner, lessee, agent, architect, engineer, general contractor, electrician,plumber or builder Name of owner of premises �'� (As oinn-the tax roll,or latest deed) If applicant is a corporation, signature of duly authorized officer (Name and title of corporate' 'off cer) .. Builders License No. Plumbers License No. Electricians License No. Other Trade's License No. , 1. Location of land on which roposed work be don , 3 62 House Number Street Hamlet County Tax Map No. 1000 Section L4 Block o2 Lot j ziunalvlslon riinu 1vlaP IN L). LvL 2. State existing use and occupancy of premises and intended use and occupancy of proposed construction: a. Existing use and occupancy b. Intended use and occupancy 0 t l Jr- 1,.111-1,A D w S 3. Nature of work(check which applicable):New Building Addition Alteration Repair Removal Demolition Other Work (Description) 4. Estimated Cost Fee (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 otories 8. Dimensions of entire new construction: Front Rear s` ._¢ Depth ' r Height :Number of Stories' ' -; f i �iltll t`' +� tip]{ t.. �D 9. Size of lot: Front Rear Depth 10. Date of Purchase Name of Former Owner 11. Zone or use district in which premises are situated 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 Address Phone No. Name-of-Architect . Address-. Phone No Name of Contractor Address Phone-No. 1 S Is this property within 100 feet of a tidal wetland or a freshwatervetland?*YES NO * YES, SOUTHOLD TOWN TRUSTEES &D.E.0 -PERMITS"MAY EE REQUIRED. b. Is thisproperty within 300 feet of a"tidal wetland? * YES 'NO * 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.pdint 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 * IF YES, PROVIDE A COPY. STATE OF NEW YORK)-. " SS: COUNTY OF ) being duly sworn, deposes and says that(s)he is"the applicant (Name of individual signing contract)above named, -CONNIE D.,BUNCH Notary Public,State of Neter York (S)He is the No.01 BU6185050 (Contractor,Agent, Corporate Officer ua a 'n` eunty (CttCESS iss;on Expires April 14,2 of said owner or owners, and is duly authorized to perforin 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 work will be performed in the manner set forth in the application filed therewith. Swo4n to before me this —41 day of 20 0 i6vsv ' v � Notary Public Signature of Applicant pE SO(/Py®l Town Hall Annex ~ Telephone(631)765-1802 54375 Main Road Fax(631)765-9502 P.O.Box 1179 Southold,NY 11971-0959 BUILDING DEPARTMENT July 19, 2021 TOWN OF SOUTHOLD Heidi Kelso 10 Sheridan Square #213 New York, New York 10014 ,RE-, 32275 Route 25, Orient VNio' E: We are. unable to rocess your Certificate of Occupancy for the pool until Building Permit 42 or ilt"windows has been renewed an rnspecd. he ee to renew is TO WHOM IT MAY CONCERN: The items marked below are required to obtain your Certificate of Occupancy Chapter 236, Soil stabilization required. Electrical Underwriters Certificate. (Electric inspection form on website) Final Health Department survey. Plumbers Solder Certificate or Pex Affidavit Trustees Certificate of Compliance. (Town Trustees #765-1892) Final Planning Board Approval. (Planning # 765-1938) Final Fire Inspection from Fire Marshall. (631-765-1802) Storm Shutters required for all glazing Energy Test Results and Manuals required Final elevation certificate from surveyor. Spray Foam Insulation Certification from a NYS licensed architect or Engineer BUILDING PERMIT: 40652 (swimming pool) & 42815 (as built windows) AP RO ED AS NOTED DATE: S FEE;-_- V `'BY: NOTIFY,'BUILDING DEPAR NT AT . 765=f802 .6 AM TO 4 PM FOR THE FOLLOWING�.INSPECTIONS: 1-.,FOUNDATION, TWO REQUIRED FOR POURED CONCRETE 2. ROUGH..- FRAMING & PLUMBING _:fAiN STORM WATER RUNOFF 3. INSULATION `.iRSUANTTO CHAPTE1R 236 4. FINAL - CONSTRUCTION MUST -)F THE TOWN CODE. 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. COMPLY WITH ALL CODES OF NEW YORK STATE & TOWN CODES AS REQUIRED AND CONDITIONS OF N76A� �� lPIIN6-B9ARD OCCUPANCY OR USE IS UNLAWFUL 5,;A,J,TPC,!. t,- t_%FRTlF'CATE Jr JGUFANO Y Andersen Performance Standards The Window and Door Manufacturers Association(WDMA),The American Architectural Optional Higher Performance Grades(PG)&Corresponding Test Pressures(PSF) Manufacturers Association(AAMA)and the Canadian Standards Association(CSA)have jointly released AAMA/WDMA/CSA 101/I.S.2/A440-08;North American Fenestration Standard/ PG20 ; PGzs�PG3o PG35 PG40 I PG45 + P050 ;:PG55J :PG60 3.00 3.75 5.25 0.00 6.75 7.50 :. 8.25,` 9.00 Specification for Windows,Doors and Skylights,which calls for using"Performance Grade"as the 20 25 30 35 40 4 50 55 11 60 new rating to describe products that comply to the standard.This new version dated"-08"has 30.0 37.5 a5 0 �sz.5 so.o 6` 75.0 82.5' so.o been adopted by the 2009 International Building Code(IBC)and the International Residential 0.3 0.3 0.3 oa 0.3 Code(IRC). •Forced Entry Resistance(FER)is always a performance level 30 regardless of Performance Grade(PG). Performance Grade ratings are being used to replace Design Pressure Ratings as the preferred •Minimum and maximum Operating Force varies by product type. method of measuring product performance throughout the window,door and skylight industry to define products that comply with all of the requirements of the 101/I.S.2/A440 standard. A product only achieves a"Performance Grade"or"PG"rating if that product complies with not only the structural loading requirement,but all other performance requirements such as air Hallmark Certification infiltration resistance,water penetration resistance,ease of operation and resistance to forced entry.A"Design Pressure Rating"or"DP"rating will now describe a product rating that has only The Window and Door Manufacturers Association(WDMA)sponsored Hallmark Certification been tested to structural loading and not air infiltration,water testing or other requirements for Program is designed to provide builders,architects,specifiers and consumers with an easily Performance Grade. recognizable means of identifying products that have been manufactured in accordance with the appropriate WDMA and other referenced performance standards.Conformance is determined Performance Classes by periodic in-plant inspections by a third party administrator.The inspections include auditing licensee quality control procedures and processes,and a review to confirm products are This Standard/Specification defines requirements for four performance classes.The performance manufactured in accordance with the appropriate performance standards.Periodic testing of classes are designated R,LC,CW,and AW.This classification system provides for several levels representative product constructions and components by a third party testing laboratory is also of performance.Product selection is always based on the performance requirements of the required.When all of the program requirements are met,the licensee is authorized to use the particular project. WDMA Hallmark registered logo on the Certification Label as a means of identifying products. - Products successfully obtaining Hallmark Certification will be labeled with a 3-part code,which - Elements of Performance Grade(PG)Designations includes performance class,performance grade and maximum size tested. In order to qualify for a given performance grade(PG),test specimens need to pass all required Below is a sample certification label: performance tests for the following,in addition to all required auxiliary(durability)tests(not shown here)for the applicable product type and desired performance class: EM woM,DOOR q (a)Operating force(if applicable):minimum and maximum operating force vary by product type '.WDMA Andersen Corporation and performance class. 400 SERIES CASEMENT WINDOW Hallmark Certified Manufacturer Stipulates Conformance as indicated below (b)Air leakage resistance:tested in accordance with ASTM E283 at a test pressure of 1.57 PSF. www.wdma.com The allowable air infiltration for R,LC&CW is 0.3 cubic feet per minute per square foot of frame STANDARD RATING (cfm/ft'). CLASS LC41+-PG50(`+-SIZE TESTED 56 x 71.8 In.P) (c)Water penetration resistance:tested in accordance with ASTM E547 with the specified test AAMA/WDMA/CSA 101/I.S2/A440-08 DP+50/-5(Y4) pressure applied per AAMA/WDMA/CSA 101/I.S.2/A440-08.The test consists of four cycles. AAMA/WDMA/CSA 101/I.S.2/A440-05 C-LC50 Each cycle consists of five minutes with pressure applied and one minute with the pressure DP+50/-50 released,during which the water spray is continuously applied.The water spray shall be uniformly applied at a constant rate of 5.0 U.S.gal/ft'•hr. (1)-Performance Class (2)-Performance Grade (d)Uniform load deflection test:tested in accordance with ASTM E330 for both positive (3)-Size Tested and negative pressure(pressure defined by AAMA/WDMA/CSA 101/I.S.2/A440-08)with the (4)-Design Pressure load maintained for a period of 60 seconds.After loads are removed there shall be no more permanent deformation in excess of 0.4%of its span and no damage to the unit which would In the example above,the performance class is LC,the performance grade(PG)is 50 PSF make it inoperable. and the size tested is 56"x 71.8".What this means to the specifier is,based on the optional higher performance grade chart,the laboratory tested air infiltration was less than 0.3 Cfm/ft2 Starting with the 2008 specification,design pressure(DP)will only represent (test pressure is always 1.57 PSF and the allowable airflow is 0.3 cfm/ft2),the product tested the"uniform load deNection test." successfully resisted a laboratory water penetration test at a test pressure of 7.5 PSF(test (e)Uniform load structural test:tested in accordance with ASTM E330 for both positive and pressure equals 15%of PG),the product tested successfully withstood a laboratory positive negative pressure(pressure defined by AAMA/WDMA/CSA 101/I.S.2/A440.08)with the load and negative structural test at a pressure of 75 PSF(test pressure equals 150%of performance maintained for a period of 10 seconds.After loads are removed there shall be no damage to the grade)in both the positive and negative directions and the product tested passed the laboratory unit which would make it inoperable. requirements for operational force and forced entry resistance.Based on this test,all products (f)Forced-entry resistance(If applicable):tested in accordance with ASTM F588(Windows), smaller in both width and height can be labeled with this product performance rating. F476(Swinging Doors)and F842(Sliding Doors)at a performance level 10 rating. Maximum Size Tested(MST) Test size is a factor in determining compliance with this Standard/Specification.Each product Important type and class has a defined minimum set of requirements.The minimum test size increases with Building codes prescribe Performance Grade(PG)based on a variety of criteria(i.e.windspeed each class(i.e.R,LC,CW or AW). zone,building height,etc.),therefore structural test pressures should nA be used for code compliance.In the example above,a PG 50 performance grade rating,which passes a 50 PSF Minimum Requirements design pressure,should be used for determining code compliance,not the structural test The minimum requirements to obtain a Performance Grade(PG)are listed below: pressure of 75 PSF. If you need further details about how Andersen®products perform to this standard,contact your Minimum Water Andersen supplier. Product- Performance Minimum Design Minimum Structural' Penetration Test Per ormarca „' Grade(PG) Pressure(DP) Test Pressure(STP); Pressure iwTP) If you need further information about the AAMA/WDMA/CSA 101/I.S.2/A440-08 standard or Class P F) (PS PSF PSF the Hallmark Certification Program lease contact:WDMA,401 N.Michigan Avenue,Suite 2200 �Windows and Doof; g P g R 15 5 i 22.5 I , 2.90 Chicago,IL 60611 Phone:312-321-6802 Web:www.wdma.com 25 25 37.5 s 75 Where designated,Andersen products are tested,certified and labeled to the requirements 30 30 45.0 4.50 of the Hallmark Certification Program.Actual performance may vary based on variations 40 ao 60.0 6.00 in manufacturing,shipping,installation,environmental conditions and conditions of use. •"Structural Test Pressure(STP)"is 150;,ci u,,Pericrr:ance Grade(PG)for windows and doors. •"Water Penetration Test Pressure(WTP)"is 15%of the Performance Grade(PG). 271 PRODUCT PERFORMANCE Performance Grade,Air Infiltration and Sound Transmission Ratings — 400 Series Windows and Patio Doors For current performance information please visit andersenwindows.com. [ent AAMA/WDMA/CSA �! Sound Outdoor/Indoor 101/IS2/A440 I Corresponding Transmission Transmission Air Infiltration rsen`PtOdUCt Performance Gmde(PG) Design Pressure(DP)I Class(STC) Class(OITC) CFMJFT' Windows Single Stationary(CXV116) Class LC-PO50 SizeTestec 35"x 71' 50i 50 26 22 <0.2 Single Venting(CXV116-155,CX16-155) Class LC-PG40 Size Tested 35"x 71" 45/45 26 , 22 <0.2 Single Venting(CXW15) Class LC-PG45 Size Tested 71'x 60" 50/50 26 22 <0.2 Single Venting(CW16 and smaller) Class LC-PG50 Size Tested 56"x 71" 50150 26 22 <0.2 Single Venting(CXW145 and smaller) Class LC-PG50 Size Tested 71"x 52" 50/50 26 22 -0.2 Single Venting(CX15 and smaller) Class LC-PG50 Size Tested 62'x 59' 50/50 26 22 <0.2 Double Stationary(CX7245,C)(25,CW26 and smaller) Class LC-PG50 Size Tested 56"x 71' 50/50 26 22 <0.2 Double Venting(C)OW25) Class LC-PG45 Size Tested 71'x 60' 45/45 26 22 <0.2 Double Venting(CMV245 and smaller) Class LC-PG50 Size Tested 71'x 52' 50/50 26 22 <0.2 Double Venting(CX25 and smaller) Class LC-PG50 Size Tested 62'x 59' 50/50 26 22 <02 Double Venting(CVt26 and smaller) Class LC-PG50 Size Tested 56'x 71" 50/50 26 22 <0.2 triple Venting(C%V35 and smaller) Class LC-PG40 Size Tested 84'x 60' 40/40 26 22 <0.2 Triple Venting(C35 and smal!cr) Class LC-PG50 Size Tested 71'x 60" 50/50 26 22 <0.2 Casement/Awning Picture Windows(P5060 and I!er) Class LC-PG70 Size Tested 59"x 71' 70/70 29 25 <0.2 Casement/Awning Transom Windows(CTR32410 and smaller) Class LC-PG70 Size Tested 84'x 12' 7 7 ;i 29 .. 25 <0.2 Casement Wlndmrs.PG Upgrade Single Stationary(tempered r^jass,CXW16) Class LC-PG70 Size Tested 35'x 71' 70/70 n/a n/a <0.2 Single Venting(CXW145 and smaller) Class LC-PG70 Size Tested 35'x 52' 70/70 26 22 <0.2 Single Venting(CX16 and smaller) Class LC-PG70 Size Tested 31'x 71' 70/70 26 22 <02 Double Venting(CW26 and smaller) Class LC-PG70 Size Tested 56'x 71' 70/70 26 22 <0.2 Triple Venting(035 and smaller) Class LC-PG70 Size Tested 71'x 59' 70/70 26 22 <0.2 'Complementary Casement Windom '! Casement Venting Class CW-PG50 Size Tested 35'x 84' 50/50 n/a n/a <0.2 Casement Stationary Class LC-PG60 Size Tested 107"x 84' 60/60 n/a n/a <0.2 French Casement Venting - Class LC-PG30 Size Tested 56'x 71" _ 30/30 n/a n!a <0.2 Awning Windows ., ice_ _ -- ----- ------ --— Single Stationary(AXW61) Class LC-PG50 Size Tested 35'x 71' 50/50 26 21 <0.2 Single Venting(AXW51 and smaller) Class LC-PG35 Size Tested 59'x 35' 35/35 26 21 <0.2 Single Venting(AX61 and smaller) Class LC-PG35 S'¢eTested 72'x 31' 35/35 26 21 <0.2 Double Venting(AXW231 and smaller) Class LC-PG35 Size Tested 71'x36' 35/35 26 21 <0.2 Triple Venting(AX3251 and smaller) — Class LC-PG35 Size Tested 84'x 31' 35/35 26 21 <0.2 Triple Venting(A313 and smaller) Class LC-PG35 Size Tested 35'x 71' 35/35 26 21 <0.2 Picture Venting(PA4C60 and smaller) Class LC-PG35 Size Tested 48'x 71' 35/35 n/a n/a <02 Awning Windows,PQ Upgrade single Stationary(tempered glass,AXW61) Class LC-PG70 SizeTested 35'x 71' rj n/a n/a <02 a Single,Double&Triple Venting(AX3251 and sma!ler) Class LC-PG60 Size Tested 84'x 31' 26 21 <0.2 Triple Venting(A313 and smaller) Class LC-PG60 Size Tested 35'x 71' 26 21 <0.2 •"Performance Grade(PG)'ratings may vary from tested performance rating for larger or smaller units of a particular type. continued on next page •'Sound Transmission Class(STC)'&'Outdoor/Indoor Transmission Class(OITC)'ratings are for individual units based on independent tests and represent entire unit. •This data is accurate as of March 2015.Due to ongoing product changes,updated test results,or new Industry standards,this data may change over time. •Where designated,Andersen products are certified and labeled to the requirements of the Hallmark Certification Program.Actual performance may vary based on variations in manufacturing,Shipping,installation, environmental conditions and conditions of use. •Contact your Andersen supplier for more information. 272 de"i's"i6n"'. FTECHNICAL DATA_ Performance Grade,Air Infiltration and Sound Transmission Ratings — 400 Series Windows and Patio Doors (continued) For current performance information please visit andersenwindows.com. AAMA/WDMA/CSAi Sound Outdoor/indoor 101/IS2/A440 I Corresponding I Transmission Transmission Airinfflmon„ Andersen*n•PTDdUCt Performance Gmde(PG) I Design Pressure(DP)! Class(STC Woodwright'Full-Frame Wladows Double-Hung(3862 and smaller) Class LC-PG30 Size Tested 45"x 76" 30/30 27 23 <02 Double-Hung(cottage sash,3862 and smaller) Class R-20 Size Tested 45"x 76' 20/20 27 23 <02 Arch Double-Hung(3862 and smaller) Class LC-PG30 Size Tested 45"x 76" 30/30 28 23 <0.2 Spdngllne-Single-Hung(3872 and smaller) Class LC-PG30 Size Tested 45'x 86" 30/30 28 23 <02 Picture(5662 and smaller) Class LC-PG65 Size Tested 67"x 76" 65/65 28 23 <02 Transom(6231 and smaller) Class LC-PG70 Size Tested 75'x 39" 70/70 28 S22 <02 Woodwright'Full-Frame Windows,PG Upgrade Double-Hung(3052 and smaller) Class LC-PG50 Size Tested 37'x 64' 50/50 27 23 <02 Arch Double-Hung(3054) Class LC-PG50 Sire Tested 37"x 64" 50/50 28 23 <02 Spdngline'Single-Hung(3057) Class LC-PG50 Size Tested 37"x 67' 50/50 28 23 ---- <0.2 — Woodw Ighrinsert Windows Double-Hung(3862 and smaller) Class R-PG25 Size Tested 45'x 77' 25/25 26 21 <0.2 - Double-Hung(cottage sash,3862 and smaller) Class R-PG20 Size Tested 45'x 68" 20/20 26 21 <0.2 Picture(5662 and smaller) Class LC-PG30 Sae Tested 68'x 78' 30/30 30 26 <0.2 Transom(6878 and smaller) Class LC-PG30 Size Tested 68"x 78' 30/35 30 26 <02 mt-wash FUH-Frame windows Double-Hung(3862 and smaller) Class LC-PG30 Size Tested 45"x 76" 30/35 26 ~23 KK <02 Double-Hung•(3876and smaller) Class LC-PG30Size Tested 45"x92" 30/35 26 23 <0.2 Picture(5662 and smaller) Class LC-PG50 Size Tested 67'x 76" 50/65 30 25 <0.2 Transom(6231 and smaller) ClassLC-P1150S¢eTested75'x39" 50/50 28 •r' <0.2 Tilt-Wash Windows,PG Upgrade --------- —.._ Double-Hung Class LC-PG50 SbeTested 45"x 76' 50/65 26 ,2, <0.2 Double-Hung(3456,3856,34510,38510,3462,3862) Class LC-PG50 Size Tested 45'x 76" 50/55 26 23 <0.2 Tilt-Wash Insert Windows Double-Hung(double lock) Class R-PG20 Sizellested 45'x 92" 20/20 27 24 <02 Double-Hung(single lock) Class R-PG20 Size Tested 35"x 92' 20/20 27 24 <0.2 Double-Hung Class R-PG20 Size Tested 45'x 76' 30/30 27 24 <02 Gliding Windows(G65 and smaller) Class LC-PG30 Size Tested 71"x 59' 30/30 26 22 <02 Specialty Windows ----- Arch(AMV6080 and smaller) Class LC-PG50 Size Tested 71"x 105' 50/50 30 25 <0.2 Flexlframe"(12050 and smatter) Class LC-PG50 Size Tested 144'x 60" " 50/50 30 25 '02 Spdngtine'(SP802 and smaller) Class LC-PG50 Size Tested 96"x 72" 50/50 30 25 <0.2 Specialty Windows,PG Upgrade Arch(tempered glass,AFFW6080 and smaller) Class LC-PG70 Size Tested 71"x 105' 70/70 n/a n/a <0.2 Flexiframe'(tempered glass,12050 and smaller) Class LC-PG70 Size Tested 144'x 60' 70/70 hire n/a <0.2 Spdngline'(tempered glass,SP802 and smaller) Class LC-PG70 Size Tested 96'x 72' 70/70 n/a n/a <0.2 Complementary specialty Windows(direct-set,food) _--- Class LC-PG50 Size Tested 120"x 78" 50/50 28 24 <02 •"Performance Grade(PG)"ratings may vary from tested performance rating for larger or smaller units of a particular type. continued on next page •'Sound Transmission Class(STC)'&"Outdoor/Indoor Transmission Class(OITC)"ratings are for individual units based on independent tests and represent entire unit. •This data is accurate as of March 2015.Due to ongoing product changes,updated test results,or new industry standards,this data may change over time. •Where designated,Andersen products are certified and labeled to the requirements of the Hallmark Certification Program.Actual performance may vary based on variations in manufacturing,shipping,installation, environmental conditions and conditions of use. •Contact your Andersen supplier for more information. •7'-4'/.s(2250)and 7'-8'/e"(2359)high units have interior and exterior brackets.Interior brackets,located on each side of the check rail,must be flipped up for proper product performance. 273 PRODUCT PERFORMANCE Performance Grade,Air Infiltration and Sound Transmission Ratings—400 Series Windows and Patio Doors (continued) For current performance information please visit andersenwindows.com. I AAMA/WDMA/CSA +/. Sound Outdoor/Indoor 101/IS2/A440 Corresponding Transmission Transmission Air Infiltration Andersen'Product Performance Grade(PG) i Design Pretsura(DP)I Class(STC) Class(01TC) CRA/Fr' Freirchwood'Gilding Patio Doors Single-Panel Class LC-PG40 Size Tested 50'x 95" 40/40 31 �„. 26 <0.2 Two-Panel Class LC-PG40 Sae Tested 95'x 95" 40/40 . 31 26 <0.2 Four-Panel(8') Class LC-PG35 Size Tested 189"x 95" 35/35 - <0.2 Four-Pane[(6'-il',6'-8") Class LC-PG25 Size Tested 189"z 82' 25/25 - <0.2 Frenchwood'Hinged inswing Patio Doors Single-Panel Class LC-PG40 Size Tested 38'x 95' 40/40 30 " 28 ,� <0.2 Two-Panel Class LC-PG40 Size Tested 71'x95" 40„90 30 - _—�—5 — <0.2 Three-Panel Class LC-PG40 Size Tested 107'x 95' 40/40 : <0.2 Frenchwood'Hinged Outs-wing Patio Dom sinb a-Panel Class LC-PG40 Sae Tested 38"x 95' 40/40 30 25 ? <0.2 Two Panel - Class LC-PG40 Sae Tested 71"x 95" 40/40 31 It 25 <0.2 Frenchwood"Patio Door Sidelights Class LC-PG65 Size Tested 18"x 95' 65/65 r 32 ` 26 <0.2 FR,nchw"(r Patio Door Transoms Class LC-PG65 Sae Tested 71'x 21' 65/65 y 29 3' - 25 <0.2 Complementary Spirtr ine'&Arch Inswing Patio Doors Single Stationary — Class LC-PG45 Size Tested 37"x 95' — 45/45 ) 30 25 <0.2 Single Active*" — Class LC-PG45 Sae Tested 37"x 95° 45145 30 25 <0.2 Two-Panel Stationary Class LC-PG45 Sae Tested 75"x 95" 45/45 30 25 <0.2 Two-Panel Active•• Class LC-PG45 Sae Tested 75'x 95' 45/45 30 25 <0.2 Complementary Springline-&Arch Outswing Pada Doors ` Single Stationary Class LC-PG45 Size Tested 37'x 95' 45/45 31 25 <0.2 Single Active•• - Class LC-PG45 Sae Tested 37'x 95' 45/45 e 31 25 <0.2 Two-Panel Stationary Class LC-PG45 Sae Tested 75"x 95' 45/45 31 2S <0.2 Two-Panel Active" Class LC-PG45 Sae Tested 75"x 95" 45/45 31 25 20.2 •"Performance Grade(PG)"ratings may vary train tested performance rating for larger or smaller units of a particular type. •"Sound Transmission Class(STC)"&"Outdoor/Indoor Transmission Class(OITC)"ratings are for individual units based on independent tests and represent entire unit. •This data is accurate as of March 2015.Due to ongoing product changes,updated test results,or new industry standards,this data may change over time. •Where designated,Andersen products are certified and labeled to the requirements of the Hallmark Certification Program.Actual performance may vary based on variations in manufacturing,shipping,installation, environmental conditions and conditions of use. •Contact your Andersen supplier for more information. '"Tested with standard multi-point hardware. Performance Grade,Air Infiltration and Sound Transmission Ratings— Folding Doors For current performance information please visit andersenwindows.com. AAh"A/WDtdA/CSA Sound Outdoor/Indoor 101/IS2/A440 Corresponding Transmms on Transmission ( Air fnfi!tration Andersen'Product Performance Grade(PG) -- Design Pressure(DP)` Class(STC) 'i Class(01TC) CRA/Fr' Folding Outswing Doors(,rp to 2286 .ane width) '� .. ,gip; •;.:-_ `� 1L3R Class SP-PG30 Size Tested 159"x 119"• 30/30 — 30 242 0.2 2121 Class SP-PG30 Size Tested 159'x 119"• 30/30 30 24 <0.2 •"Performance Grade(PG)"ratings may vary from tested performance rating for larger or smaller units of a particular type. •"Sound Transmission Class(STC)'&'Outdoor/Indoor Transmission Class(OITC)"ratings are for individual units based on independent tests and represent entire unit. •This data is accurate as of March 2015.Due to ongoing product changes,updated test results,or new industry standards,this data may change over time. •Where designated,Andersen products are certified and labeled to the requirements of the Hallmark Certification Program.Actual performance may vary based on variations in manufacturing,shipping,installation, environmental conditions and conditions of use. •Contact your Andersen supplier for more information. *Actual door size tested;certification maximum door size 288'x 119'/a° 274 Andersen.. TECHNICAL DATA Center of Glass Performance Data for products with Low-E4`SmartSun"and Low-E SmartSun- Glass For current performance information please visit andersenwindows.com. Fading Andersen'Product -_- VTL' SC' SHGC' RHG4 I Too idyl 0 Cen er' IGSTe 400 Series Casement/Awning&Tilt-Wash Puff-Frame Double-Hung Windows;200 Series TRt-Wash&Gilding Windows 66% 0.32 0.28 66 5% 21% 61% 56°F 400 Series Gilding Window,Half Circle,Circle&Oval Windows - -- 66% 0.31 0.27 66 5% 21% 61% 56°F 400 Series Casement/Awning Picture/Transoms,Woodwrfght'Full-Frame Double-Hung,Picture&Transoms, Woodwright'Insert Double-Hung,Picture&Transoms,Tilt-Wash Full-Frame Picture&Transams,flit-Wash Insert 65% 0.31 0.27 65 5% 21% 61% 56°F Double-Hung,Picture&Transom Windows;208 Series Fixed Windows 400 Series Einird-cal&ams&Windows,Frenchwrootl'InswMg&Outsvdng Patto pours,Frerrchwood'patio Dow 5ldeiights, 65% 0.31 0.27 66 5% 21% 61% 56°F Sidelight Transoms Transoms - 400 Series Frenchwswd'Gliding Patio Doors;200 Series Narroine Gilding,Perma-Shteld'Gliding&Hinged Inswing Patio Doors 64% 0.32 0.27 66 5% 21% 61% 56°F 400 Series Fkziframe;Arch&Springtime Windows 63% 0.31 0.27 65 4% 20% 61% 56°F Entry Doors,Folding Doors&400 Series Complementary Curved Top Patio Doors - 65% 0.31 0.27 207 5% 21% 61% 56°F Center of Glass Performance Data for products with Low-E4" and Low-E Glass For current performance information please visit andersenwindows.com. ` Fading %RH --- Andersen'Ptoduc , �� V(L' SC' SHGC' RHG' Tuvs I Tdw° 0 CenterIGSTs 400 Series Casement/Awning&TIR-Wash Full-Frame Double-Hung Windows;200 Series Tin-Wash&Gliding Windows 73% 0.48 0.42 100 17% 34% 61% 56°F 400 Series Gliding Window,Haff Circle,Circle&Oval Windows 73% 0.48 0.42 99 - 17% 34% 61% 56°F 400 Series Casement/Awning Picture/Transoms,Woodwright'Full-Frame Double-Hung,Picture&Transoms, Woodwright'Insert Double-Hung,Picture&Transoms,Tilt-Wash Full-Frame Picture&Transoms,Tilt-Wash Insert 72% 0.47 0.41 98 16% 33% 61% 56°F Double-Hung,.Picture&Transom Windows;200 Series Fixed Windows ----------------------wing& ---------- -chwoo_._ ..._.. 4D0 Sart Tr Etliptte&Wlrmows,Frenchwnod'Insuring&Outsrdng Patio Doors,fretrctmood'patio poor Sidelights, 72% 0.48 0.41 98 16% 33% 61% 56°F Sidelight Transoms&Trensarns 400 Series Frenchwood'Gilding Patio Doors;200 Series Narrrdlne Gliding,Perma-shield'Gilding&Hinged irmwfng 71% 0.47 0.41 98 16% 33% 61% 56°F Patio Doors Series Flevlframe',Arch&Simingline Windows 70% 0.46 0.40 95 14% 31% 61% 56°F 'Entry Doors,Folding Doors&400 Serles.Complementary Curved Top Patio Doors 72% 0.48 0.41 310 16% 33% 61% 56°F Center of Glass Performance Data for products with Low-EV Sun and Low-E Sun Glass For current performance information please visit andersenwindows.com. Fading %RH Andersen'Product V L' ( SC' I SHGC' I RHG' Tu-0 + Tdv° ®Center' IGST' 4DO Series Casement/Awntng&nit-Wash Full Frame Double-Hung Windows;200 Series Tiff-Wash&Gilding Windows 40% 0.30 0.26 62 17% 25% 61% 56°F 400 Series Gilding Window Half Circle Circle&Oval Windows 40% 0.29 - 0.26 62 17% 25% 59% 55°F �-. ----.-__ _..-...-- -------.-- -_-----__-.-._---. ..---- - 400 Series Casemant,/Awning Picture/Transoms,Woodwright'Full-Frame Double-Hung,Picture&Transoms, Woodwright-Insart Double-Hung,Picture&Transoms,Tilt-Wash Full Frame Picture&Transoms,TlibWash Insert ' 40% 0.29 0.25 61 16% 24% 59% 55°F -Double-Hung,Picture&Transom Windows;200 Series Fixed Windows -400 Series Elliptical Windows,Frenctnwod'Inswing&Outswing Patio Doors,Frerwh*ocd'Patio Door Sidelights, -r Sidelight Transoms,&hansoms - 40% 0.29 0.25 61 16% 2496 59% 55°F 400 Series Frenchwood'GIWIng Patio Doors;200 Series Narroline'G1Wing,Perma-Shield'Gliding&Hinged Inswing Patio Doors 39% 0.29 0.25 61 15% 23% 61% 56°f 400 Series Fle ifrsme',Arch&5 r Pdngllne�N7mlows 37% 0.28 0.24 59 13% 22% 61% 56°F Entry Doors,Folding Dom&400 Series Complementary Curved Top Patio Doors - 40% 0.29 0.25 193 16% 24% 59% 55°F •"Low-E4","Low-E4'SmartSun"and"Low-E4"Sun'are Andersen trademarks for"Low-E"glass. •Based on NFRC testing/simulation conditions using Windows 5.2 and NFRC validated spectral data.0°F outside temperature,70°F inside temperature and a 15 mph wind. 1)Visible Light Transmittance(VLT)measures how much light comes through the glass.The higher the value,from 0 to 1,the more daylight the glass lets in.Visible Transmittance is measured over the 380 to 760 nanometer portion of the solar spectrum. 2)Shading Coefficient(SC)defines the amount of heat gain through the glass compared to a single lite of clear 1h'(3)glass. 3)Solar Heat Gain Coefficient(SHGC)defines the fraction of solar radiation admitted through the glass both directly transmitted and absorbed and subsequently released inward.The lower the value,the less heat is transmitted through the glass. 4)Relative Heat Gain(RHG)is the amount of heat gain through a glazing incorporating U-Factor and Solar Heat Gain Coefficient. 5)Transmission Ultra-Violet Energy(Tuv).The transmission of short wave energy in the 300-380 nanometer portion of the solar spectrum.The energy can cause fabric fading. 6)Transmission Damage Function(Tdw).The transmission of UV and visible light energy in the 300-600 nanometer portion of the solar spectrum.The value includes both the UV and visible light energy that can cause fabric fading. This rating has also been referred to as the Krochmann Damage Function.This rating better predicts fading potential than UV transmission alone.The lower the Damage Function rating,the less transmission of short wave energy through the glass that can potentially cause fabric fading.Fabric type is also a key component of fading potential. 7)Percent relative humidity before condensation occurs at the center of glass,taken using center of glass temperature. 8)Inside glass surface temperatures are taken at the center of glass. •This data is accurate as of March 2015.Due to ongoing product changes,updated test results,or new industry standards,this data may change over time.Contact your Andersen supplier for current performance information or upgrade options. •Contact your Andersen supplier or visit andersenwindows.com/nfrc for total unit performance data on windows and patio doors(including units with patterned glass,patterned glass,tempered glass and capillary breather tubes). 277 PRODUCT PERFORMANCE Andersen NFRC Certified Total Unit Performance-400 Series Refer to notes on page 282 for important information on performance data. For current performance information please visit andersenwindows.com. GlassType 1 LI-Factor, SHGC' VLT' Andersen'Product GlassType U-Factor'I,SHGC' .� VLT'' Without Grilles 0.29 0.31 0.54 Without Grille=: r,30.?' 0.30 0.52 _ -.�.. .A_. w Simulated Divided Light Grilles 0 29 6.29 _ 0.49 _ �' Simulated Divided light Grilles C 30` 0.27 Firelight Grilles 0.30 0.29 0 49 Firelight`Grilles •-;.0.31 0.27 --___ --- -_.- `__-- Full Divided Light Grilles 029. 0.29 0.49 Full Divided Light Grilles :C 31` 0.27 Without Grilles 0.25 0.31 0.52 "x Without Grilles `0.26 0.30 ---- --- - -- - u _ ._. Simulated Divided Light Grilles 0.25 0.28 0,47 ; w.� Simulated Divided Light Grilles 0.26 0.27 = Finelight`Grilles 0,26_ 0.28 0A7 _,. Firelight`Grilles 0.27. 0.27 400 5eites 3 Full Divided Light Gdlles 0.26 0.28 0.47 400 Series Waodwrtgh}' 3 Full Divided Light Grilles 0.28 0.27 k' Without Grilles 0.20 0.30 Fufl Frame Without Grilles 0.30 0.19 CasemeAlWituiowar*' ---0.29 _ _... w Simulated Divided Light Grilles 0.29 0 18 0 27 Double-Hung Windows ��,, Simulated Divided Light Grilles 0 30 0.17 yrr�- Fineli t � Firelight"Gnlles030 _ _0.18 _0_27 -��- � gh Grilles 0.31 0.17 Full Divided Light Gdlles 0.30 0.18 0.27_ _ _ Full Divided Li t Grilles '8..0.31 0.17 Without Grilles 0.28 0.21 0.48 .� Without Grilles - 0.29. 0.21 w' Simulated Divided Light Grilles 0.28. 0.19 0.44 w Simulated Divided Light Grilles `0.29 0.19 ' Finelight"Grilles 029 0.19 014 ! - Finelight`Grilles 0.3 0.19 Full Divided Light Gnlles 029 0.19 C1 4� _ `" Full Divided Light Grilles 0.30 0.19 ;8 Without Grilles _024 0.21 _0.47 Without Grilles 0 26 .. 0.20 Simulated Divided Light Grilles U4 0.19 0.43 3 r'n Simulated Divided Light Grilles 0.26 0.18 = Finelight"Grilles 025_ 019 0.43 E= Firelight`Grilles ,. 0.27 0.18 3 Full Divided Light Grilles 0.26 0.19 0.43 °' Full Divided Light Grilles 027- 0.18 Without Grilles 0.31 0.28 0.47 t Without Grilles ' 0.28 _ 0.31 w Simulated Divided Light Grilles 0.31 _ CE 0.42 w Simulated Divided Light Grilles ; 0.28 0.28 Finelight7 Grilles 0,31 0.25 0,42 Finelight7 Grilles - 012 ' 0.28 Full Divided Light Gnlles 0.31 _ 0.25 0.42 _ ? Full Divided Light Grilles .'0.29a 0.29 !„ Without Gnlles_ 0 27 0.27 _0.46 ' Without Grilles 0.24; 0.30 SimuWted Divided light Grilles ^0.27 _-- 0.25 0.41 I w Simulated Divided Light Grilles 0.2 0.27 9#d relight"Gnlles ^0 27 0 25 0.41 J= Finelight"Grilles 0.25 0.27 F s 400 Ser} ii Full Divided Light Grilles ^0.29 0.25 0.41 - 400 Series Woodwright' 3 Full Divided Light Grilles 0.27 complementary ;. Without Gnlles 0.31 0.17 0.26 Full-Frame Without Grilles 0.20 caseme w= Simulated Divided L Light Gnlles 031 0.16 u 0 23 Picture Windows' w Simulated Divided Light Grilles 0.18 A y l yr „ri 5- 9 O Finefi t"Grilles 0.17 Firelight`Gnlles �0 31� 0.16 0 23 � g Bh Full Divided Light Gnlles 0.32 0.16 0.23 __ Full Divided Light Grilles 0.18 Without Gnlles __0.30 018 0.42 Without Grilles 0.21 w' Simulated Divided Light Gnlles 0 30 017 033 w Simulated Divided Light Grilles 0.19 S E - __. Finelight"Grilles D.30_ 0.17 0.38 _ ,x 5 E Firelight"Grilles 0.19 Full Divided Light Grilles 0.31 _ 0.17 -0.38 • `� Full Divided Light Grilles 0.19 Without Gnlles - 0,27 0.18 0,41 +� Without Grilles 0.21 y' Simulated Divided Light Gnlles �0 27 0_17 0 3T y vSimulated Divided Light Grilles 0.19 Finelight Grilles �0 27 _ 0.17 0 37 -9 E= Firelight"G1111 0.19 Full Divided Light Gnlles 0.28 0.17 0.37 `"3 Full Divided light Grilles 0.19 OA2` _....__ ...-. Without Gnlles _. 029 -0.31- �3 Without Grilles 0.33 'red Si _ _ - Simulated Divided Light Gdlles 0.30 Simulated Divided L ht Grilles 0 29 0.28 s w Firelight`Gdlles n 0,29 0.28 0.48_ o Finelight"Grilles 0.30 Full Divided light Grilles DO 0.28 .0.48 _ _... Full Divided Light Grilles 0.30 !� Without Gnlles 0.25 0.30 0151 Without Grilles 0.32 w Simulated Divided Light Gnlles 0.25 0.28 Q.47 Simulated Divided Light Grilles 0.29 _ Finelight-Gnlles 0.26 0.28 0.47 Finelight"Grilles 0.29 _- �- _ 3 Full Divided Light Grilles 0.26. 0.28 0.47 400 Series WoadwNght - Full Divided Light Grilles 0.29 Without Gnlles 0.29 0.19 0.29 Full-Frame Without Grilles 0.20 ---- -- ----- Transom Windows w Simulated Divided Light Grilles 029 .. 018 ._027 , .;. Simulated Divided Light Grilles 0.18 9#°s Finell t'Grilles_ 0,30 0.18 _0 27 V Finelight"Grilles 0.18 Full Divided Light Gnlles 0.30 0.18 T 0.27__ Full Divided Light Grilles 0.18 Without Gnlles - 0.28 ___0.21 _ 0.47 _ Without Grilles 0.22 Simulated Divided Light Gnlles0 28 0 19 0 43_ _ Simulated Divided Light Grilles 0.20 �- Firelight Gnlles_0.29, 0.19 0 43_ .. E Fineli f Grilles 0.20 fA Full Divided Light Grilles 0.29. 0.19 _ 0.43 Full Divided Light Gdlles 0.20 Without Gnlles 0.25 0.20 _ DAG Without Grilles 0.22 w' Simulated Divided Lipt Grilles 0,25 0 19 w' Simulated Divided Light Grilles 0.20 ' •� 3 _ Finelight"Grilles r 0.25 _ 0.19 _0.42w E= Fineli t"Grilles 0.20 ---- - 3! Full Divided Light Grilles 0.26 0.19 0.42 ^q_ "3 Full Divided Light Grilles 0.20 0,45 ! Without Grilles 0.27 0.34 0.59 Without Grilles 0.31 0.53 w Simulated Divided Light Grilles 0_27 0.31 0.53 w Simulated Divided Light Grilles 0.28 0.47 Finelight"Grilles 0.27 0.31 0.53 Finelight`Grilles 0.28 0 47__ Full Divided Light Gnlles 0.28 0.31 0.53 Full Divided L ght Grilles 0.28 0.A7 Without Grilles 0.22 0.33 0.58 Without Grilles 0.30 0 52 < Simulated Divided Light Grilles 0 22 0.30 0 52 y', Simulated Divided Light Gdlles 0.27 0.46 F relight Gnlles 0 22 0 30 D.52 _ Firelight'Grilles 0.27 0 46 460 Se es - - - s Full Divided Light Grilles 0.27 0.46 Casement g ,� - 3 i Full Divided light Grilles 0.24 0.30 0.52 400 Series Woodwright' Picture/TranaomW3rdows _ without Grilles _ 0.27 0.21 032 Insert Without Grilles 0.19 029 `�' ,e., Simulated Divided Light Gnlles 027 0.19 0 29 Double-Hung Windows _ Simulated Divided Light Grilles 0.17 _0.26 � c Firelight Grilles _ 0.2l _ 0.19 0.29 Firelight`Grilles 0.17 __ 026 Full Divided Light Grilles 0.29 0.19 0.29 _ Full Divided Light Grilles 0.17 0.26 Without Gnlles 026 0.23 053 Without Grilles 0.21 048 ,�„ Simulated Divided Light Grilles i 0.26 0.21 _ 0.48 J w Simulated Divided Light Gdlles 0.19 _ 0 42 9# Finelight`Grilles 026 021 048 E FinelilGrilles 0.19 042 Full Divided Light Grilles 0.28 0.21 0.48 w Full Divided Light Grilles 0.19 0.42 ' Without Gnlles_ 0.22 0.22 0.52 . ' I Without Grilles 0.20 __0.4G____ Simulated Divided Light Grilles 0.22 0.20 0.47 w Simulated Divided Light Gdlles 0.18 0.41 = Firelight Grille 0 22 0 20 0.4'7-* = Finelight'Grilles 018 0.41 3 Full Divided Light Grilles 0.24 0.20 0.47 3 Full Divided Light Gnlles 0.18 a 0.41 •This data is accurate as of April,2015.Due to ongoing product changes,updated test results,or new industry standards or requirements,this data may change over time. continued on next page Ratings are for sizes specified by NFRC for testing and certification.Ratings may vary depending on use of tempered glass,different grille options,glass for high altitudes,etc. 278 Andersen Andersen*NFRC Certified Total Unit Performance-400 series (continued) Refer to notes on page 282 for important information on performance data. For current performance information please visit andersenwindows.com. dersen Product GlassType U Factoe . SHGCz I VILT' dersen'Produet •_w GlassT i U-Factor'j SHGV VLV ` :.: 0.29M...0.32 0.54 0.29 0.33 0.56 Simulated Divided Light Grilles 0.29 0.29 s 60.48 v Simulated Divided Light Grilles 0 29 0.30 0.50 .., _. ----------- Finelight`Grilles 0.3 0.28 0.48 A.;' Finelight"Grilles 0.29 0.30 0.50 Full Divided light Grilles 0.30 029 €0.48 b. Full Divided Light Grilles 041 0.30 Without Grilles ..02� 0.30 -' .52-'' Without Grilles 0.25 0.32 0.55 ' x s s . o Simulated Divided light Grilles ,`,,,� Simulated Divided Light Grilles 0.25 0.29 0.49 400 Series Wt¢odwdght FinelighP Grilles - 0.27 = Finelight"Grilles 0 20 0 29 0.49 Insert __.3 Full Divided Light Grilles : 0.2 0.27 •,5erfef TLIt-SYa' ; Full Divided Light Grilles -0 27 0.29 0.49 ' PictureWhtdows Without Grilles 0.29 0.20 Without Grilles 030 0.20 031 '4 'Picture Windows .�; _..-_ -Frame ; a'+D=,�-+° = Simulated Divided Light Grilles 0.29 0.18 w= Simulated Divided Light Grilles 0.30 0.18 Fnelight`Grilles -' 0.30 0.18 Finelight"Grilles 030 018 0.27__` Full Divided Light Grilles 0.3 0.18 Full Divided Light Grilles_ 0.31 0.18 0.27 " Without Grilles ,0.2$ 0.22 Without Grilles 0.29 0.22 0.51 ._ c W Simulated Divided Light Grilles 0,28, 0.20 w Simulated Divided light Grilles 0 29 0.20 ---0.45- E 45E Firelight`Grilles 0.2 0.20 A Firelight'Grilles _0.29 0.20 0.45 Full Divided Light Grilles D.3- 0.19 Full Divided Light Grilles 0.30 0.20 0.45 Without Grilles 0.21 Without Grilles _0.25 0.21 __0 50 _ W yL' Simulated Divided Light Grilles - W Simulated Divided Light Grilles '6.25, 0.19 0,44 A d Fineli t Grilles 3 e x 8h` 0.2 0.19 -9 = Firelight`Grilles 0 25 019 0.44 Full Divided Light Grilles ':°0.28: 0.19 "'a Full Divided Light Grilles 0.27 0 19 0.44 Without Grilles 0.29 0.33 Without Grilles _0.27 0.32 0.55 w Simulated Divided Light Grilles _ 0.29' 0.30 w Simulated Divided Light Grilles __0.27___ 0.29 Firelight"Grilles 0.29^ 0.30 '�` Finelight"Grilles _ 0.2_7 0.29 Full Divided Light Grilles_ 0.30 0.30 Full Divided Light Grilles 0.28 0.29 Without Grilles _0.24:,. 0.32 Without Grilles 0.23 0.31 - _ . - ... Simulated Divided Light Grillesa- ,,: - :°<_ w Simulated Divided Light Grilles _. 0.23 __ 0.28 _ Firelight`Grilles 0.24 0.29 5= Firelight Grilles 0 23 0.28 400 Series Woodwrigrl' i - Full Divided Light Grilles 0.26' 0.29 Series Tilt-Wash seri3 Full Divided Light Grilles 0.25 ' 0.28 nsom Windows Without Grilles 0.2 0.20 •Frame Without Grilles 0.27` 0.19 'som Windows ---- Simulated Divided Light Grilles `0.24 0.18 w= Simulated Divided Light Grilles 0.27 0.18 ° r_ Finelight`Grilles 0_29 0.18 Firelight'Grilles T`0.27 L 0.18 Full Divided Light Grilles 0 31 0.18 Full Divided Light Grilles 0.29 7 0.18 Without Grilles 0.22 , Without Grilles 026', 0.21 .0� Simulated Divided Light Grilles 0.20 w Simulated Divided Light Grilles _0.214?� 0.19 , Firelight`Grilles 0.20 E Firelight"Grilles A 026 0.19 i Full Divided Light Grilles 0.20 °' Full Divided Light Grilles 0.28.�, 0.19 _-6 Without Grilles 0.21 Without Grilles ,022 . 0.21 y A Simulated Divided Light Grilles - w Simulated Divided Light Grilles 0,22 0.19 x Fineli ght'Grilles 0.19 E= Firelight'Grilles �0.22 0.19 Full Divided Light Grilles 0.19 `� Full Divided Light Grilles �=0.2fi:' 0.19 Without Grilles 0.30 Without Grilles " 0.30 0.31 W Simulated Divided Light Grilles 0.27 q Simulated Divided Light Grilles 0.30 0.28 Finelight"Grilles 0.27 o Finelight"Grilles 0.31 0.28 Full Dmded Light Grilles 0.27 J Full Divided Light Grilles 0.. ;` 0.28 'y Without Grilles 0,24 0.30 51 .1 Without Grilles • 0.26 0.30 Simulated Divided light Grilles 24:. 0.27 .45 Simulated Divided Light Grilles 0.26 ' 0.27 Fineli t Grilles 25; 0.27 '45_ z gh� FinelighP Grilles _0.26 0.27 0 Series Woodwd n Full Divided Light Grilles 0.26= 0.27 ;45 _ Full Divided Light Grilles �p,28 a 0.27 Curved Top Without Grilles ,0.28_ 0.19 29 Without Grilles _0.31 ". 0.19 ouble•Hung Wind¢ o --k - `Y Simulated Divided Light Gnlies •p.28 0.17 26 _ W Simulated Divided Light Grilles ---.0-..31 : 0.17 D->v-1z t - Finelight'Grilles 0,29; 0.17 Firelight'Grilles 03-2 0.17 Full Divided Light Grilles 0.29 0.17 26 ':g Full Divided Light Grilles 0,32 0.17 Without Grilles 0,27 0.20 7,.` - Without Grilles --0.30- 0.21 w Simulated Divided Light Grilles 0 27 0.18 Simulated Divided Light Grilles 0 30 0.19 Finellght Grilles 28 0.18 Firelight'Grilles 631 0.19 Full Divided Ught Grilles .0.29 0.18 °' Full Divided Light Grilles 0.31::. 0.19 Without Grilles `p.24 0.20 Without Grilles . 0.26 0.20 _ Simulated Divided U Grilles 0.24 0.18 v , _ .g Light `r Simulated Divided Light Grilles 0 26 `. 0 IS 0. a Fineli t Grilles 0.25_' 0.18 A x Firelight' �x Firelight`Grilles -0 26 0 18 0:• 3 Full Divided Light Grilles .0.26 0.18 "'s l Full Divided Light Grilles0.26 0.18 T Oi Without Grilles -0,30 .r 0.31 Without Grilles _0.31 : 0.31 Simulated Divided Light Grilles .30 0.28 w Simulated Divided Light Grilles 0:' : Finelight`Grilles .30 0.28 9 Firelight"Grilles _D:32 Full Divided Light Grilles g 31 - 0.28 Full Divided Light Grilles 0.32 0.28 0. ' Without Grilles 0,27 ° 0.30 Without Grilles 0-,2 7 0 31 0: w Simulated Divided Light Grilles 0.27 w Simulated Divided Light Grilles 0.27 0.28 0.. \ Finelight"Grilles 0.27 " Fine] 0 28 028 0: 400 Series Tilt Wash y Full Divided Light Grilles 0.27 'Series Tilt-Wash 3 Full Divided Light Grilles 0.29 0.28 0:48-}. Full-Frame Without Grilles 0.19 ;29 Doubla•Hung Windows vy= Simulated Divided Light Grilles 0.17 ;26 bie-Hung Windows Without Grilles 0 31 'r 0 19 0 30 23 AND ;a2 w= Simulated Divided Light Grilles 0 31 018 0.26 -------- Firelight'Grilles 0.17 6 -. S�' Finelight'Grilles 0,33 0.18 0.26 :. ,.. .. ----' --- ------ Full Divided Light Grilles 0.17 Full Divided Light Grilles 0.32 0.18 " 0.26 Without Grilles 0.21 Without Grilles _ 0.30 0.21 0.48 W Simulated Divided Light Grilles 0.19 Simulated Divided Light Grilles 0 30C ° 0.43 J Finelight`Grilles 0.19 Finelight`Grilles b,32 _ 0.19 0.43 _ Full Divided Light Grilles 0.19 ' Full Divided Light Grilles 0.31 0 19 w 0.43 Without Grilles 0.20 ,_ Withou[Grilles ___027 0.20 0.47 a Simulated Divided Light Grilles 0.18 ' Simulated Divided Light Grilles 0 27 ; 0_19 0.42 3 Fineli t Grilles 0.18 5 s Bh E= Finelight'Grilles 0 27 0-19 042 3 Full Divided Light Grilles 0.18 l Divided Light Galles 0.28 0.19 0.42 ... •This data is accurate as of April,2015.Due to ongoing product changes,updated test results,or new industry standards or requirements,this data may change over time. continued on next page Ratings are for sizes specified by NFRC for testing and certification.Ratings may vary depending on use of tempered glass,different grille options,glass for high altitudes,etc. 279 PRODUCT PERFORMANCE Andersen NFRC Certified Total Unit Performance-400 Series (continued) Refer to notes on page 282 for important information on performance data. For current performance information please visit andersenwindows.com. de CY Glass Type U-Factor' SHGC' VIP Andersen'Product Glass Type ! U-Factor'; SHGC2 VLT1 Without Grilles 0.29 - 0.32 0.54 1 Without Grilles 0.27 0.35 0.60 w Simulated Divided Light Grilles 029 0.29 0.48 " ' w Simulated Divided Light Grilles 0.27 0.32 0.53 Finelight`Grilles 030 . 0.28 0.48 Finelight Grilles 02Y 032 _,.--- -- --. .__ _.. ...-____ _- ._._ Full Divided Light Grilles 0.30 0.29 0.48 Full Divided Light Grilles 0.28. 0.32 0.53 Without Grilles 0.25 0.30 0 52 is ',rte Without Grilles_ 0.22 0.34 0.58 _ '' w Simulated Divided Light Grilles _�_T_ - ___ - w Simulated Divided Light Grilles__ 0 22 _ 0.31 0 52 = Finelight'Grilles 026 _0.27 0.47 _ _ Finelight Grilles 022 0.31 052 Sedcs Tllt Washy 3 Full Divided Light Grilles 0.27 T 0.27 0.47 400 Series -_J a Full Divided Light Grilles 0.25 0.31 0.52 'rt ""-- Half CircWindows Without Circle Wind - _ -- ` Without Grilles 0.29 020 0.23 thout Gnlles 027 021 0.33 re 1Ylndows .r w c Simulated Divided Light Grilles 0.29 6.18 0.26 - ;� Simulated Divided Light Grilles 0.27 0.19 0.30 ARDtt 147 y _- -_._ Flneiight`Grilles 030 0.18 0.26 Finelight'Grilles 027 019 030 Full Divided Light Grilles 0.31 0.18 0.26 Full Divided Light Grilles 029 0.19 0.30 Without Grilles 0.28 0.22 0.43 Without Grilles 0.26 0.23 0 54 Z5 Simulated Divided Light Grilles 0.28 _ _0.20 043 Simulated Divided Light Galles 0 26' 0.21 --0 48 - _._.. FlnelighP Grilles 0.29 0.20 0 43 Finelight`Grilles 026 0.21 0.48 Full Divided Light Grilles 0.30 . 0.19 0.43 _ 4 Full Divided Light Grilles 0.28 0.21 0.48 Without Grilles _0.24- 0.21 0.47 .e;� Without Grilles 022 0220.53 _ w v' Simulated Divided Light Grilles = w e Simulated Divided Light Grilles-022 0.20__ i Finefight7 Grilles 0.25--0.19 0.42 E= Finelight'Grilles 0.22 0.20 -0.47- Full 47Full Divided Light Grilles 0.26 - 0.19 0.42 3i Full Divided Light Grilles 0.24 0.20 0.47 Without Grilles 0.29 0.33 0.56 WithouttGdlles- 027 0.35 0.60 - - - --. T� --E32 - Simulated Divided Light Grilles^_0.29 _ 0.30- 0 50f w Simulated Divided Light Grilles_ 0.27 0.53 9 Finelight`Galles_ 0`29 0.30 0.50 Finelight`Grilles 0.27 0 32 0 53 - .. Full Divided Light Grilles 0.30 0.30 0.50 Full Divided Light Grilles 0.28 0.32 0.53 Without Grilles 0.24 0.32 0.55 'r� Without Grilles 023 0.34 0.58 W Simulated Divided Light Grilles _. - __ i w Simulated Divided Light Grilles 0 23 _ 0.31 _ 0.52 3= Finelight`Grilles 024 0.29 -0.49 = Flnelight`Grilles 4023 0.31 0.52 400 Series flit Wash ii Full Divided Light Grilles 0.27 0.29 .0.49 40O Series. % Full Divided Light Grilles 0.25 0.31 0.52 Insert Without Grilles 029 020 0.31 +oto&Oval Mirdows i Without Grilles 027 021 033 ransom Windows ._. - �---_� - --- - --- r w� Simulated Divided Light Grilles- 0 27 019 0 30 -` we SlmulatedDlvidedLightGrilles 029 018 -0.27 ±-t•a d -N 134 ' Finelight'Grilles 0.29 _ 0.18 _ 0.27 °•° s `° Finelight`Gnlles_ :_ 0_27_ _ 0.19 0.30 Full Divided Light Grilles 0.31 0.18 0.27 Full Divided Light Grilles -0.29 0.19 0.30 Without Grilles 028 0.22 050 Without Grilles-__ 026 -0.23, 0.54--' w Simulated Divided Light Gnlles 0.28 0.20 - 045 w'{ Simulated Divided Light Gnlles 0.26 0.21 �0.48 �E Finegght`Grilles 0.28 _ 0.20 -045: E Finelight`Grilles- 026 q 021 _ 0.48 Full Divided Light Grilles 0.30 0.200.45 Full Divided Light Grilles `0.28 0.21 Without Grilles 024 0.21 0.49Without Grilles 022 022 0.53 - w Simulated Divided Light Grilles - - w<'n Simulated Divided Light Grilles 0 2Z 0.20 0.47 d Flnelight Grilles 0.24 0.19 0.44 �E= Finelight'Grilles 0 22 0 20 0 47 'a Full Divided Light Grilles 0.26 0.19 0.44, r 3 Full Divided Light Grilles 0.24 0.20 0.47 Without Grilles 0.30 0.29 0.49 Without Grilles 0.2_8 0_33_ _ 0.58 y Simulated Divided LghtGrilles r 0.30 0.26 0.43w Simulated Divided Light Grilles-0.28 0.30 - 0.52 3 Finelight'Grilles 0.30 0.26 0.43 Firelight-Grilles__0.28 0.30 __-0.52 Full Divided Light Grilles 0.31 0.26 0.43 Full Divided Light Grilles 0.29 0.30 0.52 Without Grilles0.260.28 v 0.488 5c Without Grilles_023 032 056 w� Simulated Divided Light Grilles_ ,026 0.25 0.42; w Simulated Divided Light Grilles _ 023m 029 050 r _ _ Finelight Grilles_ 026 0.25 _ 0.42 9x Finelight Grilles 023 029050 3 Full Divided Light Gnlles A.18 -6.H- 0.42 00 Series a Full Divided Light Grilles ~0.25 0.29 _0.50 T Without Galles 0.30 0.18 _ 027 ItWindo Without Gnlles-- 0.28 . _ 0.20 _ 0.31 4 `*a Simulated Divided Light Galles 0.30 _0.16 _ 0.24 "tl`3a - w e Simulated Divided Light Grilles_ 0,28 0.18 Finelight`Grilles 0.30 016 0.24' Finelight'GrillesO Z8_ 018 0.28 Full Divided Light Grilles 0.31 0.16 - 0.24' Full Divided Light Grilles-0.29 0.18 r 0.28 Without Grilles 029 0.19 0.44 . Without Grilles 027 023 0.52 y, Simulated D vided Light Grilles 029 0.17 0.39 Simulated Divided Light Grilles 0 27 0 21 0.46 Finelight Grilles 029 0.17 0.39 Finelight Grilles 027 0.21 0.46 Full Divided Light Grilles 0.31 0.17 0.39 Full Divided Light Grilles0.28 0.21 0.46 Without Grilles 026 019 0.43 . Without Grilles 023 022 051 w r Simulated Divided Light Grilles_ 0.26 _ 0.17 _ 0.38 �' Simulated Divided Light Ganes 0.23 020 _ 0.45 _�- 9 E= t7 Grilles 026 017 0.38 d Finelight Grilles X023 020 _ 0.45 Fineli gh x ti3 FullDvdedLghtGnlles 0.28- 0.17 0.38- 3 Full Divided Light Grilles 0.25 0.20 0.45 Without Grilles_0.27 0.34 _ 0.59-_ Without Grilles 0.30 _ 0.33 - 0.57._.___ Simulated Divided light Grilles 0.27 031 053 _ Simulated Divided Light Grilles 030 030 051 5 I Finelight`Grilles __0.29 - 031 _053 Finelight`Grilles 030____ 030 051 - Full Divided Light Grilles 029' T 0.31 0.53 Full Divided Light Grilles 0.32 0.30 0.51` -a ° ' Without Grilles 026 0.32 - 0.56 Without Grilles 023 034 _ 058 �c _ _ w Simulated Divided Light Grilles __ 0.23_ 0.30 0.52 ism Simulated Divided Light Grilles v 0 26 0_29 _0.50 J i Finelight`Grilles 0.23 0.30 0.52 = Finelight'Grilles 0 26 0.29 0.50 3 Full Divided Light Grilles 025 0.30 0.52 400 Series ; Full Divided Light Grilles 028 0.29 0.50 Without Grilles 0.28 0.21 0.33 1 �gprieolee Windows Without Grilles 031 0.20 0.31 T v e Simulated Divided Light Grilles 0 31 0.18 X0.27 c Simulated Divided Light Grilles .028 . 019 029 RNl N-25 yr Bh -` _�- -9 F--Iinelight7 Grilles 029 019 0.29 Finelight Grilles 031 0.18 0.27 Full Divided Light Grilles : 0.29 0.19 0.29 Full Divided Light Grilles 0.32 0.18 0.27 Without Grilles 0.26 0.23 0.53 _ :l . Without Grilles 030 023 0.51 - -- -- c - w rhe' Simulated Divided Light Grilles 026 _ (T2 0 0_48 u�i t� Simulated Divided Light Grilles 0 30 _ 0 21 0 46 Finelight`Grilles 028 0.20 0.48 Finelight`Grilles 030 021 046 - _._ _. __- - Full Divided tight Grilles 0.28 0.20 0.48 Full Divided tight Grilles 0.31_ 0.21 0.46 Without Grilles 0.22 0.22 0.52 c�tr5 I Without Grilles 0.25 6.22 --0.50--- 'Y 50__'Y ` Simulated Divided Light Grilles 0.22 0.20 M6 w' r Simulated Divided Light Grilles 0.25--- 0.20 0 45 Flnelight`Grilles 0.22 0.20 0.46E= Finelight'Grilles 0 25 0.20_ 0 45 JS ---- - - - - - ._5 3 Full Divided Light Grilles 0.25 0.20 0.46 kr-__ `^3 Full Divided Light Grilles 0.28 0.20 0.45 •This data is accurate as of April,2015.Due to ongoing product changes,updated test results,or new industry standards or requirements,this data may change over time. continued on next page Ratings are for sizes specified by NFRC for testing and certification.Ratings may vary depending on use of tempered glass,different grille options,glass for high altitudes,etc. 280 deTsen, TECHNICAL DATA Andersen'NFRC Certified Total Unit Performance-400 Series(continued) Refer to notes on page 282 for important information on performance data. For current performance information please visit andersenwindows.com. Glass Type I U-Factor( SHGC' ' YLT3 Mdersen'Product Glass Type U-Factor' I SHGC' I YLTa Without Grilles__ 0.27 0.33 _ 0.58_ Without Grilles _ 0.3D_ _0.24 0.40 w Simulated Divided Light Galles 0.27 _0.30___-0.52 _ a Simulated Divided Light Grilles0.30 _ 0.21 _ 0.34 Firelight Grilles 0.27 0.30 0.52 =-i.� Full ight"Grilles 0.32_ 0.21_ _0.34 Full Divided Light Grilles 0.28 0.30 0.52 Light Galles 0 31 0.21 0.34 ' Without Grilles 0.22_ 0.32 0.56__ Wit Grilles 0.27 0.23 0.39 w Simulated Divided Light Galles 022 0.29 -0.50 ,. Light Galles 0.27 _ 0.20 034 _ r v . = Firelight'Galles 0.22 0.29 0.50 ight`Grilles 0.270.20 0.34 400 - .-_i Full Divided Light Grilles 0.25 0.29 0.50 400 Series Frenchwood' Light Galles 029 020 0.34 Flcxrhame'VYIrdWithout Grilles 0.27 0.20 _ 0.31 Hinged InswingWithout Grilles 0.30 . 0.15 022 - nticn-1 '' N Simulated Divided Light Grilles_ 0.27 0.18_ _0.28 - do Doors �;t_ -� - - �jHD N 10 `l W c Simulated Divided Light Grilles 0.30_ 0.13_ 0.19 Finelight'Grilles 0.27 0.18 0.28. Firelight'Grilles 0.32 0.13 0.19 Full Divided Light Grilles 0.28 0.18 0.28 Full Divided Light Grilles 0.32 0.13 -0.19 Without Grilles 0.26 0.23 0.52 Without Grilles 030 0.16 0.36 -- w Simulated Divided Light Galles _ 0.26 0.21 0.46x r'ti Q --- - - -. .. . Simulated Divided Light Galles_ JO 30_ 0.14 0.31 Fnelight'Grilles -0.26 0.21 0.46 r o Fnelight'Grilles 03 1_ 0.14 0.31 `� Full Divided Light Grilles -0.27 0.21 0.46' J E -- - _ `� Full Divided Light Grilles "0.31 0.14 -0,31 • c Without Grilles 0.22 0 22 A45 s Without Grilles 027 0.16 0.36 w Simulated Divided Light Grilles 0 22 0 20 Simulated Divided Light Grilles 027 0.14 0.30 o E= Finelight"Grilles 0.22 0 20 $E= Fnelight Grilles X0.27 0.14 0.30 Full Div ded Light Grilles 0.24 0.20 "i' Full Divided Light Grilles 0.29 0.14 0.30 Without Grilles 029' 0.35 _ 0.61 Without Grilles 0.30 0.24 0.40 w Simulated Divided Light Grilles 0.29- 0.32 0.55 Simulated Divided Light Grilles 0.30 0.21 0.34 i Firelight"Grilles _0.29 0.32 0.55'' Fnelight`Grilles 0.32 0.21 0.34IJ - Full Divided Light Grilles 0.30 0.32 0.55 d" Full Divided Light Grilles 0.31 0.21 0.34 - Without Grilles 0.24 0.35 0.60' Without Grilles 0.27 0.24 0.39 •',.,. - ", gyp,, Simulated Divided Light Grilles 024___ 0.31 0.54 - Simulated Divided Light Grilles _ 0.27 _ 0.21_ 0.34 - 1 5 Finelight"Grilles 0.24 0.31 __0.54 Fnelight'Grilles 0.27 0.21 0.34 400 Series Complementary. 3 Full Divided Light Grilles 0.27 0.31 0.54 J Full Divided U Specialty Windows i 400 Series Fire I ght Grilles -0.29 0.21 0.34 Without Grilles 0.29 0.22 _0.34 Hinged 0utswin`. Without Grilles 0.30 0.15 0.22 400 Series Casenrent a.,n�,�:q, W Simulated Divided Light Grilles 0.29 0.20 0.30_ Patio Doors - _-� Waure Wind- AND-N-105 h _ w Simulated Divided Light Galles 0.30 0.13 0.19 = Finelight`Gnlles 0.29 0.20 0.30 '" N I-- --'- -- aao-N-fes = Fnelight`Gnlles_ _0.32 0.13 0.19 Full Divided Light Grilles 0.30 0.20 0.30. - Full Divided Light Grilles 0.32 0.13 0.19 • M Without Gnlles 0.28 0.23 __ 0.55 Without Grilles_ 0.30_ 0.16 0.36 d Light Grilles 0.28' 0.21 0.49 w ut=t Simulated Divided Light Grilles T0.30 _0.14 0.31 Eelight'Grilles 0.28° 0.21 0.49" j Firelight"Grilles 0.31 0.15 0.31 d Light Gnlles 0.29; 0.21 0.491 . �' Full Divided Light Grilles 0.31 y 0.15Without Grilles 0.24' 0.23 0.54 _ Without Grilles _027 0.160.36_d Light Gnlles _ 0 24'+ 0.21 0.48 w' Simulated Divided Light Gnlles0 27 0.14 0.30elight'Galles 0 24P 0.21 0.48 -- �7 E= Firelight"Grilles 0.27 0.14 0.30 d Light Grilles _ 027` 021 0 48 ?i s Full Divided Light Grilles 0.29- 0.14ithout Grilles 0.28 0.37 064 Ig Without Grilles 0.22 0.36 w Simulated Divided Light Grilles__ 0.28 0.33 057 n W Simulated Divided Light Grilles 0 31 _ 0.20 _ 0.32_ 3g Fnelight'Grilles 0.28 0.33 0 57 _ � Fnelight'Grilles 0.31 v 0.20 0.32_- - Full Divided Light Grilles 029 0.33 0.57 Full Divided Light Grilles LL 0.32 0.20 0.32 Without Grilles 0.23 0.36 0.62 s x Without Grilles 0.27 0.22 0.36 i Simulated Divided Light Grilles 0.23 0.33 -0.56 _ w Simulated Divided Light Grilles 0.27 0.19 0.31 �= Fnelight Grilles 0.23 0.33 _ 0.56 �'d j Fnelight'Grilles 027 0.19 ---6.-31- 400 Series compleme - J 3 - -- --- r _ _ __ Full Divided Light Grilles 0.26 = 0.33 - 0.56 Series Frenc ; Full Divided Light Grilles 0.29 m 0.19 0.31 400 Sr des Windows Without Grilles 0.28 0.22 0.35 aOO Series t7oume-NunQ - � 'a - -_ _ -__ 'a Door SldeOQds" Without Grilles _ _0.31 0.14 0.20 wndrn4 a Pam Door w Simulated Divided Light Grilles 0.28- 0.20 0.32 a, w Simulated Divided Light Grilles 0.31 0.13 0.18 ANPZM Firelight'Grilles 0.28 0.20 0 32 Fnelight"Grilles 0.31 0.13 0.18 Full Divided Light Grilles 0.29 0.20 0.32 Full Divided Light Grilles 0.32 0.13 0.18 s Without Grilles_0 27 _0.24 _0 57 _ Without Grilles _0.3_0__ 0.15 0.33 Simulated Divided Light Grilles -0 27 0 22 0 51 w y`' Simulated Divided Light Grilles 0.30 0.14 029 E Fnelight'Grilles 0.27 0.22 0.51 r ti Firelight"Grilles _0.31 0.14 029_ Full Divided Light Gnlles 0.28 0.22 0.51 � Full Divided Light Grilles 0.31 0.14 029 .� W thout Grilles 0.23 0.24 0.56" Without Grilles 0.27 0.15 0.32_ w Simulated Divided U Grilles 0,23_ 0.22 _0.50 ': w v= Simulated Divided U Grilles -0.27 0.13 0.28 E s Fnelight'Grilles -0.23 0.22 0.50 E_ Fnelight"Grilles 0.27 - 0.13 0.28 Full Divided Light Grilles 0.26 0.22 0.50 `�3 Full Divided Light Grilles 0.28 0.13 028 Without Grilles 0.30 0.26 0.44 Without Grilles 0.29 0.24 0.39 w Simulated Divided Light Grilles 0.30 0.23 0.38 - --- w Simulated_D_ividedLightGrilles 029 0.21 0.35 Flnelight'Grilles 0.32 0.23 0.38 Finelight'Grilles 0.30 0.21 035 Full Divided Light Grilles 0.32 0.23 0.38 -- Full Divided Light Grilles 0.30 0.21 0.35 Without Grilles 0.27 0.25 _ 0.43 Without Grilles _0.27 0.23__ 0.38_ w Simulated Div ded Light Grilles_-0.27_ 0.22 0.37 w-g Simulated Divided Light Grilles 0.27 0.21 0.34 _Finelight'Grilles 0.27_ 0.22 _0.37 _ -- - -- i _Firelight Grilles 027 0.21 0.34 0 Series Frenchw 3 Full Divided Light Grilles 0.29 0.22 ^0.3T s Full Divided ng Patio Doors 400 Series Frenchwood' _ i Light Grilles 028 0.21 0.34 Without Grilles 031 016 0.24 PaUoDoor Transoms Without Grilles 0.30 0.15 0.22 rel - -.. - NC - �,= Simulated Divided Light Grilles 0.31 0 0.21 AND-N 65 w Simulated Drvided Light Grilles 0.30------0.- 14 0.19 - - - ---- 13 Firelight`Grilles 0.32 0.14 0.21 ' 9 Firelight'Grilles 0.30 0.13 0.19 -------------- ---- ----- Full Divided Light Grilles 0.32 0.14 0.21 r Full Divided Light Grilles 0.30 0.13 0.19 Without Grilles 0.30 0.18 0.39 Without Grilles 0.29; 0.16 0.35 - .e Simulated Divided Light Grilles-030- - . 0.16 0.34-- o i- - ------ .-- -...------ w Simulated Divided Light Grilles 0.29 _0.14 0.31. N Firelight'Grilles 0.31 0.16 0.34 E j Firelight'Grilles 030 0.14 031 Full Divided Light Grilles 0.31- 0.16 0.34 Full Divided Light Grilles 0.30 0.14 0.31 ' Without Grilles 0.26 0.17 0.39 Without Grilles 016 0.15 0.34 - ------ y Simulated Divided Light Grilles 026 0.15 0.33 - - m - --- �:,=n�' Simulated Divided Light Grilles 026 0.14 0.30 - E s Firelight'Grilles 0.26 0.15 p.33 a Ad E s Firelight'Grilles 026 0.14 0.30 3 Full Divided Light Grilles 0.29. 0.15 0.33 `"a Full Divided light Grilles 028 0.14 030 •This data is accurate as of April,2015.Due to ongoing product changes,updated test results,or new industry standards or requirements,this data may change over time. continued on next page Ratings are for sizes specified by NFRC for testing and certification.Ratings may vary depending on use of tempered glass,different grille options,glass for high altitudes,etc. 281 PRODUCT PERFORMANCE Andersen'NFRC Certified Total Unit Performance-400 Series (continued) Andersen'NFRC Certified Total Unit Performance-Folding&Entry Doors For current performance information please visit andersenwindows.com. For current performance information please visit andersenwindows.com. actor' SHGC I VLTs VLT3 Without Grilles tl.31 ' 024 0.41 Without Grilles '3 ,. 0.25 0.42 •,e„ Simulated Divided Light Grilles .31, 0.18 x.0.30_ w Simulated Divided Light Grilles U 351, 0.19 :30__ 9# Finelight`Grilles 0 32 0.21 5 Fnelight"Grilles 35 0.22 35 Full Divided Light Grilles 32: 0.18 30 Full Divided Light Grilles 0.36 0.19 :30 Without Grilles - 8`' 0.24 40 Without Grilles 0.3z. 0.24 }41 _ W Simulated Divided Light Grilles 0.18 29 W Simulated Divided Light Grilles 0.18 29 4 Finelight`Grilles III 0.21 Fir l Grilles 0.21 35 -9. s Full Divided Light Grilles 0.18 ,�9 400 Series Compiementary� 3 Full Divided Light Grilles .30! 0.18 Ing Outswing Doors - springllne'&Arch �•' Without Grilles 031'. 0.15 Without Grilles 0.16 `23 Inswbig PaI o Dcors w r� Simulated Divided Light Grilles 31', 0.12 W Simulated Divided light Grilles 0.12 17 ,,!:D-t4 121 vS Fnelight'Grilles 33- 0.13 Firelight`Grilles 0.14 17 Full Divided Light Grilles 0.33"� 0.12 Full Divided Light Grilles 0.12 _ Without Grilles 0.31; 0.16 - „-_,.:... .�:` Without Grilles 0.17 37 Simulated Divided Light Grilles 0.13 �7 w Simulated Divided Light Grilles 0.31 0.12 - Fnelight Grilles 0.32' 0.14 Fnelight"Grilles 0.15 ;32_ Full Divided Light Grilles .32 0.12 Full Divided Light Grilles 0.13 27 Without Grilles 0.28e 0.16 6. Without Grilles 0.16 [so Simulated Divided Ught Grillas .28- 0.12 Simulated Divided Light Grilles 0.13 9 � Fnelight Grilles A 0.14 .31 9 E Fnelight Grilles 0.14 _ "3 Full Divided Light Grilles 0.30; 0.12 26 s:€ 3 Full Divided Light Grilles -D.3'' 0.13 Without Grilles 0.324 0.25 .41 Without Grilles 0.32' 0.22 w Simulated Divided Light Grilles 0 32'x'' 0.19 li.30'; w Simulated Divided Light Grilles 0.3 0.16 Fnelight Grilles 33- 0.22 35, Firelight Grilles 4.33` 0.19 Full Divided Light Grilles 033"I' 0.19 .30 Full Divided Light Grilles 0 0.16 Without Grilles 0.29'. 0.24 40''.. ' Without Grilles 0.18 29 w Simulated Divided Light Grilles w Simulated Divided Light Grilles - 9 x Firelight Grilles .30` 0.21 35 = Fnelight Grilles _ - .. '- - Full Divided Light Grilles 400 Series Compleme- ; Full Divided Light Grilles '0.31' 0.18 29.. Residential springllne-&Arch Without Grilles 0.3211, 0.16 .23,A try Doors' Without Grilles 0.14 .20 Outswing Patlo Doors, W c , ��„c Simulated Divided Light Grilles 0.11 14_ Simulated Divided Light Grilles p.32i 0.12 :17' Mcn z e. AND-tl:2' S'n Finelight"Grilles 0.33- 0.14 20 4d 5 Firelight"Grilles 0.12 17 Full Divided Light Grilles 0.334. 0.12 :17 Full Divided Light Grilles 0.11 .14 Without Grilles 0.31 0.17 .37; , Without Grilles 0.15 y Simulated Divided Light Grilles 0.31 0.15 32 w Simulated Divided Light Grilles 0.11 23 g Flnelight Grilles 0 33. 0.15 .32):. Firelight Grilles 0.13 c� Full Divided Light Grilles '0.33' 0.15 .32 Full Divided Light Grilles 0.11 Without Grilles 0.28 0.16 36 a Without Grilles „�.,' Simulated Dded Light GAlles Simulated Divided Light Grilles 0 28 0.15 0.31 # ±- =-- 8 Fnelight`Grilles 0.29 0.15 .31 9 = Fnelight Grilles s = Full Divided Light Grilles tl30.15 .31 3 Full Divided Light Grilles $_ Without Grilles 0.23 .38 Without Grilles 0.270.47--_ Simulated Divided Light Grilles 0.25 .41 w Simulated Divided light Grilles - - - 9 Fnelight`Grilles 0.21 034' Firelight'Grilles 0.24 0 41 Full Divided Light Grilles 0.18 0.30: _ Full Divided Light Grilles 0.25 41 Without Grilles 0.22 0.37;= :tl Without Grilles - _ w Simulated Divided Light Grilles - ,.. W Simulated Divided Light Grilles = Fnelight`Grilles 0.20 x Fnelight"Grilles J 3 FullDivided Light Grilles 0.18 :Residentlai/Commercial B Full Divided Light Grilles 400 Series Complementary-.._. swing Entry Door Without Grilles 0.17 m Arch Sidelights Without Grilles 0.14 , -131 w g Simulated Divided Light Grilles - ronsos w c Simulated Divided Light Grilles 0.15 u1 sn �• _ Fnelight`Grilles 0.13 -N.'45 " Fnelight Grilles 0.15 Full Divided Light Grilles 0.12 .1 Full Divided Light Grilles 0.15 Without Grilles 0.15 .1 r Without Grilles 0.18 W Simulated Divided Light Grilles 0.16 g Simulated Divided Light Grilles - - 333# 9 Fnelight Grilles ,: 0.14 i3O.30- 2 Firelight"Grilles 0.16 Full Divided Light Grilles 0.32'; 0.13 -0.27.x.. u� Full Divided Light Grilles 0: 0.16 Without Grilles '0.28' 0.15 0 34 Without Grilles Simulated Divided Light Grilles - ya, Simulated Divided Light Grilles 5# s� - = Fnelight Grilles 0 2 0.14 0.30 x Finelight Grilles - ' 3 Full Divided Light Grilles `,0.30 0.12 .0.26v full Divided Light Grilles •1. Without Grilles 0.3 0.19 0.31 •"Low-E4'SmartSun",'Low-E4"and'Low-E4'Sun'are Andersen trademarks for"Low-E'glass. Simulated Divided Light Grilles 's" 0. 0.15 0.24 e 1)U-Factor defines the amount of heal loss through the total unit in BTU/hr/ft'.°E The lower the value,the Firelight Grilles 0. 0.17 `0.27_ less heat is lost through the entire product.Window values represent non-tempered glass.Use of tempered - -- glass can increase U-Factor ratings.See andersenwindows.com/nfrc for specific performance values.Door Full Divided Light Grilles 0- 03M 0.15 0.24 values represent tempered glass. 2)Solar Heat Gain Coefficient(SHGC)defines the fraction of solar radiation Without Grilles `.7_ admitted through the glass both directly transmitted and absorbed and subsequently released inward.The W Simulated Divided U_t Grilles lower the value,the less heat is transmitted through the product.3)Visible Light Transmittance(VLT) '• . Fnelight`Grilles measures how much light comes through a product(glass and frame).The higher the value,from 0 to 1,the j I Full Divided Ug it Grilles more daylight the product lets in over the product's total unit area.Visible Light Transmittance is measured Residential Without Grilles f:, 0.3" 0.12 0.17 over the 380 to 760 nanometer portion of the solar spectrum. Inswing Entry Door �-- • A 13 NFRC ratings are based on modeling by a third party agency as validated by an independent test lab in Sidelights' W# Simulated Divided Light Grilles >`a,, 0.3 0.10 compliance with NFRC program and procedural requirements. a n i k z g.ar 9y Firelight'Grilles " 0.3:, 0.11 0 15 _ •This data is accurate as of April,2015.Due to ongoing product changes,updated test results,or new Full Divided Light Grilles 0. 0.10 0.13 industry standards or requirements,this data may change over time.Ratings are for sizes specified by NFRC Without Grilles 0. 0.13 0.28- for testing and certification.Ratings may vary depending on use of tempered glass,different grille options, +�8 Simulated Divided Light Grilles 0.3 0.10 0,21* glass for high altitudes,etc. E Finehght Grilles a 0. 0.12 0 25 Full Divided Light Grilles 'L 0 0.10 0.21 Grilles �ttg Grilles = GAlles. Grilles - continued on nest page 282