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BLD2021-0426_Manufacturer_Specifications_and_Installation_Instructions_3.24.2021_2.20.14_PM_2109829Hyunda Solar Module Hyundai Heavy Industries was founded in 1972 and is a Fortu ne 500 com party. The comparry employs more than 48,000 people, and has a global leading 7 business divisions with sales of 513 Billion USD in 2013. As one of our core businesses of the company, Hyundai Heavy Industries is committed to develop and invest heavily in the field of renewable energy. Hyundai Solar is the largest and the longest standing PV cell and module manufacturer in South Korea. We have 6o0 MW of module production capacity and provide high -quality solar PV products to more than 3,000 customers worldwide. We strive to achieve one of the most efficient PV modules by establishing an PAD laboratory and investing more than 20 Million USD on innovative technologies. TI-Series Multi -crystalline Type HiS-M305TI I HiS-M310TI I His-M31 STl I HiS-M320TI I HiS-M32ST1 I HIS-M330T1 Mono -crystal line Type HiS-S325TI I HiS-S330TI I HiS-S335TI I HiS-S340T1 I HiS-S34ST1 I HiS-S3S0TI Mechanical Characteristics 998 men (3929')(W) x 1 %0 flMn (77.17')(l) x 50 men (1.97')(F) Approx. 232 kg (51.1 Ibs) 72celIsinseries (6x 12 matrix) (Hyu nda i cel I, Made in Korea) 4 mm, (12AWG) cables with polarized weatherproof connectors, IEC certified (UL listed), Length 1.2 m (4721 IP67, weatherproof; IEC certified (UL listed) 3 bypass d iodes to prevent power decrease by partial shade front : High transmission law4ron tempered glass, 32 mm (0.1261 Encapsulant:EVA Back Sheet: Weatherproof film Clear anodized aluminum alby type 6063 r 1;-,I n „ -I;... • UL listed (UL 1703), Type 1 for Class A Fire Rating • Output power tolerance +3/d% • ISO9001:2Wo and ISO 14001:2004 Certified • Advanced Mechanical Test(5,400 Pa) Passed (IEQ / Mechanical Load Test (40 IbwM Passed (UU • Ammonia Corrosion Resistance Test Passed • IEC 61701 Nit Mist Corrosion Test) Passed Fast and IneAlII I Dive Mounting • Delvered Wady for connectkm IEC (UU certified and weatherproof connectors •Integrated bypass diodes Limited Warranty • 10 years for product defect • 10 years for 90 % of warranted min. power • 25 years for 80 % of warranted min. power r Important Notroa on Wanangr The varranties apple only to the PYrr odul,- with Nyundsi Way Ind2sbes Co, Ltd bgo(ftwn bekw) and pr-d,ct serial number on t C E ,@■ ry ®® ,ant V AHYUNDAI HEAVY INDUSTRIES Electrical Characteristics I Mulitkrysta cam Type I Nornnal output (Pnpp) votage at Pmu (vnpp) Current at P.Tu (lmpp) Open circuit voltage (Voc) Short C¢s.it current (Isc) Output tolerance No of cells 8 connections Cell type Module efficiency Temperature coefficient of Pmpp temperature coelf dent of Voc Temperature coeffuient of Isc W 305 310 315 3" 32S 330 v 36.0 36.1 36.2 X4 3Q6 36A A 85 8.6 8.7 8.8 88 119 v 45.1 453 45.5 45.7 4s.9 4&1 A 88 8.9 9.0 1 9.0 9.1 92 % +3/-0 PCs 72 in series 6'Mtlaaystallite silicon Made in Korea) 1S.6 158 16.1 16< 166 16.9 INK .0.41 -0.41 -0.r11 -041 -0.41 -0Al 4.lK -0.32 -0.32 -0.32 0.32 032 -0.32 INK I 0A39 Q039 OW9 0.039 0.039 0.039 !Al =a Y STC Rtldjro T&I Concrimsl 1DCw Cat] may no c-,rg;d wi'Cut 17Cr rco:. Mono -crystalline Type Nomnal output ;Pmpp) W 32s 130 335 340 345 ISO votage at Pmu (Vmpp) v 372 38.0 38.2 38.1 XIS 311.7 Current at pmar (lmpp) A 116 8.7 8.78 8.9 90 9.0 Open circuit voltage (Voc) v 46.1 46.3 66.S r16,7 46.9 47.1 short orctatcurrern Ilse) A 9.2 9.3 9.4 9.5 9.6 9.6 Output tolerance % *31-0 No of cells & connections pcs 72 in series Col type 6'Mono-crystadine ukon 0fyta+dai cell Made in Korea) Modile eff c,en y 4. 16,6 16.9 17.1 17.4 17.6 17.9 Temperature coefficient of Prnpp VX -0A2 -0A2 .0.42 -QQ -0.42 -0A2 Temperature coefficient of Voc 76'K -030 -030 -0.30 -0.30 -030 -030 Temperatuire coolkien of Isc WK Obey O.047 0.047 Q017 0.0/7 0.047 2 At CYa 1R STC LVjro rC Tv1 Corsi: k)r-.1 AnCw (Uta may Do CYO] -"oi t pru raK. I Module Diagram I I Installation Safety Guide I Only qualified personnel should install or perform maintenance. Be aware of dangerous high DC voltage. Do not damage or scratch the rear surface of the module. Do not handle or install modules when they are wet. sint mrrtlrOi sex:. RTKA ►OlaOr Sdu true a Riot a a II,T i 3sr• Una c Sales a ktarkm" Hpindai61dg. Ts. Yti9okro.Jorgno-g45oWMose.Korw roe; �•d a.r. Tel .82 2 746 B4C6, 7422.8525 Fa ♦82 7 746767S I I-V Curves I Cw•• K • ■a, re.rp,lr,rr -q.�uta.s1: l-aea���.■.I����.J11.7fL d•rN �-yta•t. tpmAw � 4 •-srtar.aw.+ ' 46'C 12 DC 1,000V Q(C) Dc 1.000 v M) 15A (A- DaY: rattuan 30161 A HYU N DAI HEAVY INDUSTRIES l� co a � a O C4 � 4., J � Z 0 O,00 6; Wd dov);t 3: fy WOU C O U J " CD Vi T_ COMPANY SEAL I CONTRACTOR REPRESENTATIVE OR MASTER OR Q.I. IF PLUMBING ELECTRICAL OR NUMBER t� Z O 0 N N O ZD ZLU O N z = rn cQ o G 00 C, 0 CD O CTl PROJECT INFORMATION JURISDOON: SNOHO■SHWUNTY DES. BY: JC DNM.BY: JC EE: JC DigO. Br: DATE 02-22M1 REVISIONS SHEET INFO MODULE DATA SHEET SHEET No. PV.7 / Single Phase Inverter with HD -Wave Technology far North America SE300OH-US / SE380OH-US / SE500OH-US / SE6000H-US/ SE760OH-US / SE1000OH `US / SE1140OH-US ,' OUTPUT SM 00 . 1~0RatodA+. 1N2Y 4. Mali v AC Ftarer Output 3DDD 3WO Q AIN sDM 60M @ 240V 76DO 1D000 11400 @ MOV VA @ 208V som @ 208V 10000 @ 208V AC Output Whagc Min. -No A&- J I f ♦ 1 J J 1�•: 01 - 240- 264) AL Output Vatia¢ Min. -Nan. -fats, _ _ _ •: 093-2N-229) AC Fmquerq 04dr w aQ 593 - 60 - 6QSn H: Madmrn Confi u Ou4x r. - - 16 21 25 32 42 4T5 A CLrrmt @24UV Maxi v Can11_ outFxr. 16 - 24 - - 48.5 A Carrot @2CSV GU Thrandd 1 A lb'ky Maiming, Isbd'ng %Ic't Country Caiglrahk Threftkld INPUT Madmrn DC P-- @210V 4650 5900 I 7750 1 9300 1 119Y: 15 `CO 17650 N% Madmrn DC Power @2WY - S1D0 I 7750 - - 155M W Tmmfomre &m, Lrgnxrde.: Y� Madmrn Irp a 4blbp 480 V6 Nominal DC Input 1ohage 380 1 400 110: %A"mrn Input Currem @240Vp' 8.5 10.5 13.5 15-5 1 20 27 30.5 A4 Ma.i—I IrW Current @20W9' - 9 - 135 - - 27 Ar. Marc InP.a 9—t Ci—h Csrrc- • 45 A_ . Reverse-Ra{erity ProueLLton 'ks Ground -Fault Isola for Dele :' 600hr 5er " Madm Irrerta Efciercy -- 992 % GC Weditd ESDem-y 99 99 @ 240V 9E S @ 208V % Nghr*im Dveer Cmst r. c 2.5 ADDITIONAL FEATURES Supporled C=i,uni:Y.ion interfa �5485, Elhcnet 596ee (op1btuQ, Celk"r (optionan Reeerrx Grade Data, ANSI C1220 Optro pk Rapid SFuldawt - NEC 2014 and 2N7 690'2 ALe atk Rapid Shutdo rn upon AC Grid LtoorrK t STANDARD COMPLIANCE Safety I U1.1741 UL1741 SA, U1.169%, CSA C222, Canadian AFO acoading In T.L. N-.".7 Grid Conwt an Stry a ds IEEE1547. Rule 21, RJe 14 M) Erg : FCC Part 15 Gass B INSTALLATION SPECIFICATIONS I' Madrrum 114-6 AWG 7 Maxinurn t" AWG C>;. ,nou: Cmout Sat r r d ilrrg:: AWG-. Ran 1' Mmtimm / 1-2 wings / 14-6 AwG 1' Maomum / 1-3 erhgs /'-6 A A G .� s arth S.4ey Swtch 17.7 x 14J5 z 68 145C z 3701174 213114,6 z 7.3 / S40 x 370 x 105 kq mrn YkigMWtnSafety Swo-h 22/10 25.1/11.4 A2/11.9 31.8117.6 lb/kg N: i. < 25 dBA C—Ing Natral Corrre t— Ciperai-g Tmp rater Range -13 to *AD / -25 to 460a (-407 / -40-C op*mY r -F / -C P7ec:ior Rating NEMA 4x Dntsty with Safety Swrk:h) n For adrar rr "W s amp Plasm meax SolwEdge support .A tk)tt aanrc sour. rna/ to = 6 R,a,runt. xi imrt n "rW ua,vnr W to aJuf zero] Pw gaoa itvrrtor PM: SEm H-UMWN%C7 K'Fr P(Mr♦fda•rz"irkmaon mtvrd rai41:� Wnipi`=" dwarf ng, rx" N'JI? e ,fin a dm PM' SF—H,1JM01W le a sd.se¢ Tesrdop.s 4r_At rye .awl. SaAraccr. a.:a.tap crntaeta n suA ... u.d.r.al r r.l►r,.e t .ar d %*bddq• r.dmk4.. Y rw s..n.a...,�.,...r..ar,..w....r...w..ty.r....a.N.. a.,,..._o.�mr ,wrnrvrc w�a s•a..+..:...,r,�.a,,..,..�� RoHS Single Phase Inverter with HQ -Wave Technology for North America SE300OH-US J SE380OH-US / SE500OH-US / SE600OH-LJS J SE760OH-US / SE1000OH-US / SE1140OH-US BaerriiFG . #a> 0 OVOID e e O o A O � @ Optimized installation with HD -Wave technolog r / Specifically designed to work with / Extremely Lmall power optimizers Record -breaking efficiency / Built-in module -level monitoring Fixed voltage inverter for longer strings / Outdoor and indoor installation Integrated arc fault protection and rapid shutdown for I Optional: Revenue grade data, ANSI C12.20 NEC 2014 and 2017, per article 690.11 and 690.12 Class 0.5 (0.5% accuracy) UL1741 SA certified, for CPUC Rule 21 grid compliance so laredg e corn z m m cn solar =@@ it co a 0- O N H 0.0 J N le o E� O t� a. d N m W �oQY) a C/) aa) 0LU W U C�!o � H J T oN COMPANY SEAL I a CONTRACTOR REPRESENTATIVE OR MASTER OR Q.I. IF PLUMBING ELECTRICAL OR NUMBER Z O 0 N N O Z:) z Q 10=0) - Ol Q 00 CT) 0 O a-) 1-4 PROJECT INFORMATION JURSDOON: %MOMISHWUNTY DES.BY: JC DIM.BY: JC EF: JC Dram. BY: DATE 02-71M1 REVISIONS SHEET INFO INVERTER DATA SHEET SHEET No. PV.8 Power Optimizer For North America P= 2(_, P-330 i' P370 / P400 / P401 / P405 / P485 / P505 INPUT Rated lnpa DC PV ra 34,1 37; _ 405 1 40 `" ;05 AbmLde MaximasminpLA lHtagc {4hc at bresi terrpe h-1 6c aj 12W. 03T ... MPPT Operating Range - `•: d - Eil L„ 12.5 - YK 12.5 - 83 Maximum Shut Circuit Curter, tD 11.75 tt 14 Maximum ERoency - - W"ghted EHrtiff" C - - -- over Vdtage Cate mry I OUTPUT DURING OPERATION (POWER OPTIMIZER CONNECTED TO OPERATING SOLAREDGE INVERTER} Max n-n a_tcu: C-r,eit 15 ^zi: Naxn_n .i_t�1J' 17 tagc - OUTPUT DURING STANDBY (POWER OPTIMIZER DISCONNECTED FROM SOLAREDGE INVERTER OR SOLAREDGE INVERTER OFF) S.�ety Outptr. %btage ner Fay.'cr CbGrn¢er t �J 1 ... STANDARD COMPLIANCE EMC FCC Part15 Class By IEC610OD-6-Z IEC610OD-6-3 Saiely IECrs2109-1 (dw II s"I, LJL1741 Maberial U.94 V-a, LIV Rmisfast ROHS V= INSTALLATION SPECIFICATIONS Ma xn_n Atvsed Sy'stten Vet x100 Vdc Conpafibk irraertes Al SobrEdge Single Phase and Three Phase irmerbvs DmertsansMxlxlr) 129x153x27.5J51z6z11 29c1S3r_US /5.1x6x1.3 129x153x29.5 /S1x6x1.16 129c159i495/5.1xQ3x1.9 129x162xS9/ S.1x6.4x23 mm /in WegFrt Chdudng rablesj 630 / 1A 750 / 1.7 1 655 / 15 84511.9 1064 / 2.3 gr/lb IrptA Connector MCN" 5 � 64* MCdx Input Wire Length 0-16 / 0.52 M J't Culput Wae Type ICmnecbbr Dotible Insulated / MC4 Output WM Length 0.9 / 295 12119 M / tt OPerafing Temperature Ranger' -40 - .85 j -M - .185 -C / -F Prabecbon Rating P68 / NEMA6P Relative Humidity 0 - Ix % a Rare p— d Cv moaaa a 57C ..'a roc tt«raad 1-. opd,,hr 'natad'n" DC P—'. M A.M. nth ua x . S% pave ztcran.a — a. — ¢I AEC 2017 rogAnm maa"vntaga be not more than WV 01 For arm mroaw IryPo. P6nm oonead Sdaredgr A For dual Nar.-en tar WOW mrrva to of two r-ooJas " P48: ct �D WV_ �n etas am d in ode n.rbv of PV moduYs 6- arc wing VaArg arw F4ES &W ,,wdon pe-K oF1Yr42ra i,onnaaod to arm PV modJa WRan cww"a sole moasa mat the _n uaJ i.u-t r nnaaDt 'Mn Yv suWW par at mat. a For mbarY tampaa abisba .9soc J . Is3n Pawn dr aV.i c iUoa War :o mow, OFtMzx lanprwr Dr Raw 1LC!rk1i Nde tot mom dank P32D, P34o, F•3Tq Nfrirrum String Length P400, P401 f'wer opbmQero DMS Dd1iS DSIrS Mach m Ftraer Per String I SE76W-US - SE114D0- 1 5250 1 �+J:1^w umul Parallel Strings al Dillerent Lergft cr Crientations I *S ty For J.rmkd strlrg siting tratrufw, wW tI¢ t't�jfrn.+.rditoe�tADmVsbaNdaf�rNpd (71 m h na alas d to me F4X T-%3SR5D5.Rh P3241P34WM7CyP40C,1P4D1 n arr snrg Q A string w r man than 30 cpdrrivas dove not trmat NEC (*U sh_tdan regJrotrar,tC sakt, r "A] b4 aba tho 30h' war.marr. C+T For 2U0'a'tre h s ala and m !rag up to 7.200W Par song whr t'v m &MM pour dtlormcc breuaan *ad, sting Is LOOM UW For Z7.rr4&: i 91d t h A owed to- tatAl up W 15,00M Pr"ut— rra rn t m prawn dn—. bensvan mason ming h Z=W IM eswcd.. r.m�.rop.. r.lwa ,gr.,�...ns �• u.vd.ady. orrr t¢ca nsrn'.sna ... „ya..a u.a...t.m�r..seq. t.e..mq�sK. \'�rit ROHS Mxh. t.ln.rh nrbe ad hw� traB ftM 0Wr��iw wxraG� o r.EZ(•wW W1tnG . Suq Y b<Mq. v 1rcba Power optimizer For North America F'= _) ; F' >4i:'I F'=;^l;=! F1400 / P401 / P405 / P485 / P505 PV power optimization at the module -level Specifically designed to work with SolarEdge inverters Up to 25% more energy Superior efficiency (99.5%) 1 Mitigates all types of module mismatch losses, from manufacturing tolerance to partial shading Flexible system design for maximum space utilization solaredge.com N m / Fast installation with a single bolt Next generation maintenance with module - level monitoring / Meets NEC requirements for arc fault protection (AFCI) and Photovoltaic Rapid Shutdown System (PVRSS) / Module -level voltage shutdown for installer and firefighter safety solar=ve it U) a � a O N H 4Fr J N le o�� E o d C, W �oarn QI a. r d W 0 W U CCD � H J " N COMPANY SEAL I CONTRACTOR REPRESENTATIVE OR MASTER OR Q.I. IF PLUMBING ELECTRICAL OR NUMBER z O 0 N N (] Z:) z Q 10=0) t7l Ln Q 0O CT) 0 O CD Ql —4 PROJECT INFORMATION JURSDOON: %MOMISH MUNTY DES.BY. JC DIM.BY. JC EE: JC Drram. BY: DATE 02-?2M1 REVISIONS SHEET INFO OPTIMIZER DATA SHEET SHEET No. PV.9 Is Not Always Sunny design loads:. while minimizing material costs- Depending on your location, there is an XR Rail to match - Over their lifetime, solar panels experience countless extreme weather events. Not just the worst storms in years, but tie worst storms in 40 years. High winds capable of ripping panels from a roof, and snowfalls weighing - i � i � ---- enough to buckle a panel frame. XR Rails are the structural backbone preventing these results. They resist uplift, protect XR14 XR100 XR1040 against buckling and safely and efficiently transfer loads into the building structure. Their superior spanning capability � requires fewer roof attachments, x Rio Is sleek, k>Hr promle mDtnmg rollkl�lgr : rea rot regions with, light o4 no snow.. n achlevres spans up to a reef, Mile remalnhg IIgM and ecanamlraL XRf vo is the ultimate revkierfllal xRf ooD fs a neavywegrma l atlg mounting loll if suppor� a Iange of sonar mouttng ram. its or't to narale wr,d and snow oondtratr, while also extreme dlmates and sports up to z manlm�trg spans u¢ to 7o ieet_ feel tcrr mrrinlertlal appbcrrlans reducing the number of roof • e-�rnny rapaDrmy • 1o•spanmg capability • iz'spanmg capaClllty penetrationspenetrations and the amount of installation time. - - tNaderale pav CapaD111ty - Clear & xk anaill�ed finish tKonternal splices available treavy pa0 Y F�cueme load capaallny Clear 8 tJfHl:k arpClmCd 1trlYr sCrean anOdZ2A rtnlM t111211rai sploes avaiable trlferrlal splloes a�iallable Rail Selection The table below was prepared in compliance with applicable engineering it U) a � a O N N le O0 CC 37), EC', a) W N �oQrn d ��� I1�[ONI-[IDL7E XR Rail Family XR Rail Family t'r W W rJ OU H J CD o rn COMPANY SEAL CONTRACTOR REPRESENTATIVE OR MASTER OR Q.I. IF PLUMBING ELECTRICAL OR NUMBER z _ Lz LU LU CD (V Rail Spanz = rn rn Q o � 0 rn PROJECT INFORMATION JURSDOON: SNOHOM&CCUNTY OM.BY: JC DNM.BY: JC E: JC Dnre Dz-z�, REVISIONS SHEET INFO RACKING DATASHEET SHEET No. PV.10 The XR Rail Family offers the strength of a curved rail in three targeted sizes- Each size supports specific codeLn s 0 sloped 160TS generate Dorn 4,emcal and Thifililillillf 20 s kigO. BY: ce AWA mill a /%0k IRONRIQGE Moving Flashing Forward We set out to design a flashing that checked all the boxes: fully waterp(oof, fast and easy to install correctly, economical, and strong enough to handle every environmental condition_ FlashVue does it all_ The optimized flashing design features a large viewport, for easy alignment with the pilot hole- And the GripCap and GripCap+ sit snugly in place, so the lag can be driven single-handedly. The wo' capable GrlpCap 12.74" tall) and GrpCap+ 13_-4" tali can be placed In any ollenlation, and proVlUe a -Ti lotion 'Ir for easy W"IS. Push snug Into the';Izpon wtih0rtl worryrrg n YAN roll may c I rotate whlle dilaing the tag. % 1 Intertek Triple CertlTlea to Protect the Roof— UL z7o,3,441 l2: ) TAS 1 oo(A)-9D M O FlashVueTM Three -Tier Water Seal. Reimaginecl Flastrltie's seal archiledure utllCes three layers or protection me ,.hewport Is elevated o 3o", anti prixides a'trldlon.'IC ror the GripCap The GripCap ruRg coveis the Olewpoit 4,hlle a sealing Hasher Wclb anothel layer of piolectlon..snd an EPDM Nuohei and lag DO'seal The oe-al' In line slaclt �1 r� 0.75" i Large Viewpor't in Flashing The large oe-oporl manes n exy to align the fla.-ling with The pl bt hole and Oil':elhe lag centeietl Inlothe laftei The ele'k'ateo rim not onty pro'.1dle`: a stuidly Dock far the GrIpGap or GiIpCap+ Dui Increases walei. Madding capalNlltleS See Your Pilot Holes Solve Roof Undulations Trusted Strength & Certification Attachment Loading F1=tshVL.e 1,as r-=in tested and rated to support 1161 (lbs) of uplift and 353 (lbs) of lateral load - Structural Certification Designed and certified for compliance with the international Building Code & ASCEISEI-7- Water Seal Ratings 'assed both the UL 441 Section 27 "Rain Test' and TAS 100-95 "Wind Driven Rain Test'° by Intertek UL 2703 Listed System Conforms to UL 2703 mechanical and bonding requirements. See Flush Mount Manual for more info W/%ram �r U) a � a O N H J N le 0 >' E O L It d N a) W �oQln a U) 0 LU W U �� o H J U) o N COMPANY SEAL I CONTRACTOR REPRESENTATIVE OR MASTER OR Q.I. IF PLUMBING ELECTRICAL OR NUMBER Z O 0 N N O ZD LU Z Orn N z = Q o rn 0 O 0 rn 14 PROJECT INFORWTION JURISDOON: %MOMISHMUNTY DES.BY: JC DWN.BY: JC EE: JD C}l= BY: DATE Dz-=i REVISIONS SHEET INFO MOUNT DATASHEET SHEET No. PV.11 AOL IRONICIDCE 28357 Industrial Blvd Hayward, CA94545 1-800-227-9523 Attn: Corey Geiger, COO, IronRldge Inc. www.IronRidge.com Date: September 1V, 2020 Re; Structural Certification for the IronRidge FlashVue This letter certifies the structural capacity of IronRidge FlashVue for use as a roof attachment for flush mounted PV solar systems. The FlashVtve assembly consists of an aluminum bracket cap (GrijoCap or GripCap Plus) and an 8" x 12" aluminum flashing- FlashVue is fastened to an underlying roof rafter using a 5/16" x 4-25" lag bolt. The full assembly details are shown in Exhibit EX-0019 The referenced uplift, and lateral capac ities of Flash Vue are based on mechanical load tests conducted along the three respective load directions shown in Figure 1, using a Universal Instron Test Unit in accordance with ASTM D1761-20 "Standard Test Methods for i'Wfechanicaf Fasteners in Wood and Wood -Based Materials". For each load test, a FlashVue assembly using GnpCap ar GripCap Plus was installed on a sample roof deck composed of 15132" OSB Board over 2M rafters_ The moisture content and the specific gravity of the rafters were measured per ASTM D2395-17 `Standard Test Methods for Density and Specific Gravity (Relative Gravity) of Kbod and Wood -Based Materials". The recorded moisture content of the rafters among all sample roof decks is between 10% and 15%. For each load direction, the tests provided different capacity results for Flashvue assemblies using GnpCap or GnpCap Plus. The tabulated results reported in this letter are the lesser of the allowable capacities for GdpCap or GnpCap Pius and therefore are applicable to Flashvue using either bracket cap - The critical failure mode along the uplift direction was observed on the Flashvue using GripCap Plus as the pullout of the 5/16T lag bolt from the rafter. The average peak loads recorded at the ultimate failure point is 3483 Ibs- on rafters with a measured specific gravity of 0-50. A safety factor of 3 was applied wh ich results in an allowable uplift capacity of 1161 IN. Along the lateral direction (parallel to rafter), the controlling failure mode was observed in the tests using GhpCap Plus as the bendi ng yielding of the 5/16' lag bolt. The average peak load recorded at the ultimate failure point is 1060 lbs. A safety factor of 3 was applied which results in an allowable capacity of 353 lbs. in the lateral direction along the roof slope. The dominating failure mode observed for the lateral direction (perpendicular to rafter) was observed in the tests for the assembly using GripCap as the compressive rupture of the OSB board adjacent to the rafter. The average peak load recorded at the ultimate failure point is 772 IN- A safety factor of 2-54 was applied according to National Design Specification for Wood Construction (NDS-2018) which results in an allowable capacity along the cross slope lateral direction of 304 IN. Uptt U (Perperidic Figure 1: FlashVue Assembly and Applied Loading Directions (using Grip Cap or GnoGap Phis). 0 2C20 IronRidge. Inc. FlashVue Certification Letter - 1 AQL IPONRIDCE 28357 Industrial Blvd Hayward, CA 94545 1-800-227-9523 www.ironRidge.com Table 1: IronRidge FlashVue Allawab{eCapacities lslns Load Direction Specimen Quantity Average Peak Load at Deviation of Test Critical Failure Mode Safely Facor i�J Allowable Capacity Failure (lbs) Results "I {IbsJ Lplift Load ❑=ndicvlar to Roof 5 3483 6.83% tag pull out from raker 3 Surface -Bteral Load Sending yielding of lag JPara llel to Rafter) 5 low 10% bolt 3 353 Lateral Load Compressive rupture of 5 772 5?6 roof desk adjacent to 2S4 304 (Perpendicular to Railer) rafter Table 1 Notes: (1) The summarized results are the lesser of the allowable capacities of assemblies using GripCap or GrpGap Phis and shall be applicable to Flashvue using either bracket cap. (2) Capacroes apply to rafter size of 2x4 or greater, a deck thickness 15132" or greater, and lag bolts secured within the center 1,r3 of rafter width with a minimum 2.5' end distance. Rafters should be in sound structural condition with no sign or rot or decay_ (3) Deviation reflects the variance of the highest or the lowest test value from the group mean for the respective load d rection_ (4) Safety Factor is associated with the respective failure mode recorded and determined by the specific code as shown on Page 1. (5) Allowable capacity is equal to Average Peak Load at Failure divided by its associated Safety Factor. (8) The uplift allowable capacity in Table 1 applies to rafters with a specific gravity (SG) of 0.5 or higher. For a wood species with specific gravity lower than 0.50 the aWwable uplift capacity shall be adjusted by a factor of ! 1' per National Design Specification (NDS-211f B) Eq. (122-1 Y Results of us" common wood species are adjusted and provided in Table 2 below. Table 2: lronRidge FlashVue Allowable Uplift Capacities for Rafter with 5G Less Than 0.50 Wood Species Specific Gravity Allowable Uplift Capacity (lbs) Douglas Fir, South 0-46 1025 Hem, FI r ( North) 0-46 1025 Hem, Fir Q43 926 Spruce, Pine, Fir 0-42 am sncerefyr, Gang Xuan, SE Senior Structural Engineer C 2020 IronRidge. Inc. FlashVue Certification Letter - 2 it v) a 0- 0 N H a.r J N le Ea.O'J 1L It a) W 04 - c � < in a. a) Or�W W U C OU 1.-J " T CD N COMPANY SEAL I CONTRACTOR REPRESENTATIVE OR MASTER OR Q.I. IF PLUMBING ELECTRICAL OR NUMBER Z 0 0 NLU N Z O N z T rn Q o 0,) 0 0 0 rn PROJECT INFORMATION JURSDOON: SNCHOMISHOCUNTY DES. BY: JC DAM.BY: JC EF: Jc CkigO. BY: DATE 02-71M1 REVISIONS SHEET INFO RACKING ENGINEERING LETTER SHEET No. PV.12