SAR attachment 3

FCC ID: N7NAC500

RF Exposure Info

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FCCID_1209291

Calibration Laboratory of SciweisanscherKalbrirciont Schmid & Partner Senvee suisse ditatonnage Engineering AG Servite svizer6 tatura Paoghaussasse 33 8004 Zurich, Suttarand Cns Swiss Gatbration Service Accedted by tSvss Accrudtaton Senvce (GA5) Acsredtation o: SCS 108 Te Suise Accretation Savicn is one ofthasignatresto he EA MoltitoratAgroomentforthe ecogniton ofcallbratonconiicatos Cattraton pocesuety Catbaton t March 23,2000 «e Contonot hecaivesen |lMTéBranée Thicatralon cerifctedorumeni h raceailyto ntonatatandarts,whch retzn thephyslcal uns f measreronts (50. ‘e messurement and the uncerainies uiconfdence probaoity e guen on e fotoing nagesand are part oh cotate Adcaltatonshavebeanconducls in h cosesatortoy facite ontanmentlenperaire 2 2 3)C and humiaty «T01 CalicatonEqupment used (WETE citefocaitatcn) Rimay Stndacts e albate (CenteaeNo) Sthadued Gatbaion rovernenstsi1ss commmun maoros m 2rraores Aproe Powsersscserzn wramoserr 1noros io arrores pars roversensorceerzn mrasiosoer 1horos io arraoree par Reterce 3 s Aeniie sncssoseca) tdsfi 2tromss) dace Retemnce 20 9 Aenamer sicssore t Prtaro(erraoren Asroo Reternce 2009 Arenar SN.Serz0 0. tdb (ie.2tro005) dace Reterrce pove scove on aore 2uam00 tw Essaorssw dinco ores sn aeo aSczoe ie oxesss0.Se5) Seooe Secenday Sandarte Lo« CreckDae(ntoosg_ scratied Chock Rf qoremorh cesb USEERIITINE aug90 (ntowse ceat Ond Intowsectes Oxts Nemert reajzerhe arsse |ussrasoses 18001 t rouse enc at05) Intouse cteac octor wose Furcion sqrewe Cattrtedy KatsPoiove Fedvicaliarager Anprovty Naakisi desoe: Mn 23. 2000 Thiscaltraton corifctsshal nohe recvcnd meestin iwihostwiten aoron!of e tontay Gonifeate No: Ex3300Marca Page 1 ot 10

Calibration Laboratory of SetwaisrnchorKatbrirtinst Schmid & Partner Sarvice suie italonnage Engineering AG Servio vizzere i tratura Zroghausstrasse d, 0004 Zurih, Suttzntand Suies Gllbration Sarvice Aceedtns by te Suiss Accrestaton Sevce (GAS) Accrdtaton io: SCS 108 The SuiseAceredtaion Sevicei onofhesignatros tohe EA Motttatrat Agroomontforthecogniion ofcaltrationconticatos Glossary: TSL tissue simulating lquid NORMcy,z sensitivity in free space ConvF sensitivty in TSL / NORMxy,2 DeP diode compression point Polarization 0 5> rotation around probe axis Polarization 8 rotetion around an axis thatis in the plane normal to probe axis (at measurement center), ie., 8 = 0 is normal to probe axis Calibration is Performed According to the Following Standards: a) IEEE Std 1528—2003, ‘IEEE Recommended Practice for Determining the Peak Spatial« Averaged Specific Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement Techniques‘, December 2003 b) 12C 62209—1, *Procedure to measure the Specific Absorption Rate (SAR) for hand—held devices used in close proximity to the ear (requency range of 300 MHz to 3 GHz)®, February 2005 Methods Applied and Interpretation of Parameters: * NORMky,z: Assessed for E—field polarization 9 = 0 (f < 800 MHz in TEM—cel; > 1800 MHz: R22 waveguide). NORMxy,z are only intermediate values, L.e., the uncertainties of NORMicy,z does not effect the E—field uncertainty inside TSL (see below ConvF) * NORM(Mxy.z NORMxy,* frequency._response (see Frequency Response Chart). This linearization is implemented in DASY4 software versions later than 4.2. The uncertainty of the frequency responseis included in the stated uncertainty of ConvF. * DGPxy,z:DGP are numerical Iinearization parameters assessed based on the data of power sweep (no uncertainty required). DCP does not depend on frequency nor media. * ConvF and Boundary Effect Parameters: Assessed in flat phantom using E—field (or Temperature Transfer Standard for f < 800 MHz) and inside waveguide using analytical feld distributions based on power measurements for {> 800 MHz. The same setups are used for assessment of the parameters applied for boundary compensation (alpha, depth) of which !ypical uncertainty values are given. These parameters are used in DASY4 software to improve probe accuracy close to the boundary. The sensitvity in TL corresponds to NORMy,z * ConvF whereby the uncertainty corresponds to that given for ConvF, A frequency dependent Convis used in DASY version 4.4 and higher which allows extending the validityfrom + 50 MHz to + 100 MHz. * Spherical isotropy (3D deviation from isotropy); in a field of low gradients realized using a flat phantom exposed by a patch antenna. + Sensor Offset: The sensoroffset corresponds to the offset of virtual measurement center from the probe tip (on probe axis). No tolerance required Conifeate No: Ex32008Marco Page 2 of 10

Ex3oV4 SN:ses6 March 23, 2009 Probe EX3DV4 SN:3686 Manufactured: March 10, 2009 Calibrated: March 23, 2009 Calibrated for DASY Systems (Note: non—compatble wih DASY2 syster) Cerifcats No: Ex30.Marce Page seto

ExsovsN:sess March 23, 2009 DASY — Parameters of Probe: EX3DV4 SN:3686 Sensitivily in Free Space® Diode Compression® NormX q490 s 101%.. @ViVim]® DcP xX so mV Norm¥ o4 e101% kVi(Vim] DoP Y 92 mV NormZ oss a 1010 wVi(Vim] DoP2 so mV Sensitivity in Tissue Simulating Liquid (Conversion Factors) Please see Pages 8 and 9. Boundary Effect Ts 900 Miiz Typical SAR gradient: 5% per mm Sensor Conteo Phantom Suface Distance 20 mm 30 mm SAR., (%].— Wihout Correcton Agorthm es se SAR., ) Wih Corecton Algorthim os o« Ts 1750 Mite Typleal SAR gradient10 % por mm Sensor GentetPhantom Surtace Distance 20mm 30 mm SARa, ) Wihout Correcton Algorthin se as SAR., (%)..— Wih CorectonAlgrthim os os Sensor Offset Probe Tto Sonso: Gonter 1.0 mm {The reported uncertainty of measurement is stated as the standard uncertainty of measurement multiplied by the coverage factor k=2, which for a normal distribution corresponds to a coverage probabiity of approximately 95%. * murcerantas t Nez ds not atesnE:tit nceranyce T9L sePage 0) * Nomeralincasatopuanater weerany ntonens Certfeat No: Ex2.008Marce Page 4 ot10

EX3DV4 SN:3686 March 23, 2009 Frequency Response of E—Field Frequency response(normalized) (TEM—Cellifi110 EXX, Waveguide: RZ2) os os or os as _ o soo 1ooo rsoo aam asce soce toug —o—rem —o—ne Uncertainty of Frequency Responso of E— Cenifcat No: ©3—3008. Marce Page Set 10

EX3DV4 SN:3686 March 23, 2009 Receiving Pattern (¢), 3 = 0° (= 600 mke, Tem ifrtorxx 1= 1800 mie, we ez 10 as C r =s0 ie y Ca— roomce Err t) e —+— 600 hite 00 beoeagart********Ssssppettt ca oniny 34 —a~2sc0nite as as 40 o so 12 1so mo xo en Uncertanty of Axil Isotropy Assessments £ 0.5%(ke2) Corifcat No: E006.Marce PaseSoto

Exsovs sN:sess March 23, 2009 Dynamic Range f(SARneaq) (Waveguide R22, £= 1800 MHz) neeos nesos + 1g0 : tnout Signa!) 1e« reee resor nE acoor ocor oo o 1 10 1c S (mWien‘) ~9~notcompensates —+—conensaies Ba a01 o1 1 to 100 Sa (mwen‘) Uncertainty of Linearity Assossment 0.6% (ke2) Certteats No: Ex35 marce Page or10

EX3DV4 SN:3686 March 23, 2009 Conversion Factor Assessment 1e Valdiy (Mie]® ts remnitiviy Conductiviy Alpha Deoth ConF Uncortainy 4so £80/2100 Head «oses% oarash oss ont oi6 arost(en) ass ss0/a100 Head 4isk5% Osorsh 080 07e a72 £11.0%(e2) e00 ss0/s100 Head «ise5% ogrash 082. 071 842 £110%(en) 14so £80/2100 Head 4s25% 12025% oes O86 774. £110%(n2) 1730 £80/2100 Head Abrest tares% o8r o62..— 760 £110%(2) 1000 £80/2100 Head 400+8% 14025% o2 080 781 £110%(e2) doso «s0/e100 Head 40o#5% 140k8% ore Ost 721 £110%(e2) 2000 ss0/2100 Head 4005% n40k% O77. 050 735 £11.0%(e2) 2200 +80/2100 Head: doax5% 1.7te8% Oe og2 T4 £110%(e2) 2aso ss072100 Head sore5% neor6h 0st 072 621 +11.0%(e2) 2600 ss0/2100 Head soou5% noskh O3 086. 620. £11.0%(e2) asoo 5072100 ead are«s% poresh 088. 196. 641 a104%(e2) 4050 28072100 Head deas% a4orst o4s 180 455 a1ai%(en) s200 +80/2100 Head deoxs% asse5% 080| 180 430 a10.1%(2) ss00 «80/2100 Head d60#8% A7625% 080 180 414 131%(e2) s509 «80/2100 Head sse«st 40625% 080 180 387 +10.%(2) 5609| £80/2100 Head d65+8% Sork5% 080 180 365 a121%(2) se09 «s0/a100 Head dss«5% Sare8% 080 180 301 a101%(2) 5 thavaliy t 190 Mt onl anpla orDASY vtandater sePage 21 Theuncertiny is me es ofthe Gonve uncerlat atcabaton roquency and h uncralny forth indenindreauency band Certfeate No: E306.Marce Page8ar1o

EX3DV4 SN:3606 March 23, 2009 Conversion Factor Assessment ttiity Valy Mite® ____rsu, pornitiviy Conducthty Alpha Dopth ConvF Uncatainty «o sso/ar00 Bow serksm ooresn 040 OSs 977 £193%(2) sss «soje0o Bow sszes% ogresm ost ors 870 £110% e0o ssojert0 Bosy seos% t0se5% 063. Ort #47 a110% 150 «so/a100 Bow storsh tabesh 041 105. 719 +110% irso «sore100 Bow ssassm rdoesm 080 Ose 716 a110% fo00 «so/a100 Bow: ssaasm nseasn 087 O6t 685 a110%(—2) doso «so/er00 Bom: ssa«sm nseesm o63 oss 70t a110%(e2) 2000 «so/a100 Bowy ssa«sm ns2es OSt 073. 684 1104 (e2) 2a00 «so/e100 Bow seaasm neses.. oss o4 668 £110%(2) 2eso «so/et00 Body se7es% tesesn 043. Ost 648 a110% 2000 «so/e100 Body s2s«5% 2ee5% 028. 113. 640 a110% ss00 «so/ar00 Bowy staase ssres% 050 100 614 a134%(e2) woso +so/s 100 Body wowe5% soresh 050 185 407 ai9%(en) sao sso/s100 Body «ooest ssoush 050 185 405 a19i%(en) s000 ssofe100 Body dbss% sézesh 050 185 d2t £19.%(ern) ssoo «so/e 100 Bogy dse«ss sesest 046 185. 376 a134%(e2) se00 «sore100 Bogy desasm s7re5% Cas 1ss 361 +10%(e2) seoo «sore100 Boay dszese soous% 050 1ss 384 a13t%(e2) 5e vaty ots 100 e ont anles o DASYv and Ngher(sePage 2The uncerant is menso ot e Gom uncerintat caltratin tecuency ad th uncralny o th Inclnias teuency n CenieaNo: Ex.3008arce Pagesorto

EX3DV4 SN:3686 March 23, 2009 Deviation from Isotropy in HSL Error (4, 8. £= 900 MHz Error (a8) w s0—080 maso—o00 more—010 ©.010—00 maz0000 mossom momasmowom momos mosero Uncertaity of Spharica sotropy Assessment: 2.6% (ke2) Corifcat No: Ex3—3008marce Page toot 10


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Document Modified: 2019-05-27 00:44:37
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