SAR attachment 3 - probe

FCC ID: N7NAC402

RF Exposure Info

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FCCID_1068258

Calibration Laboratory of Setvaizetachar Kitririont Schmid & Partner Servcn suisse tonnage Engineering AG Senite sezd tantue Hvgrausstasse d,tove rurehSutzerind Swise Caliraton Servce Acrnsto y tSuis cvestato Sence (GA5) Accrdtatono: 5CS 108 ‘heSss Accradtaion Sevic s ono thlnatois t th EA Muttatra Areemenfor threcogntonofcattraoncerticten co (G6SH cxirein: Excaesst_apros CALIBRATION CERTIFICATE ome exspvs—snisss Caltaionpocetiet) OA CAL—D16, OACAL—125, OA CAL—14.v3 and OA CAL—23.w8 ‘Galbration procedurefor dosimetric E—feld probes Cattraton se Aniizsiz0ne Condtonot n catorss un |IiiTol@rance Ti eattaton cerdat domnants e rceasity t raloalsandares it retze e ctyncalunts of memsromont ) To neasremenisand h unctantes uicondercn pstaity are uen on o tomingpages onar partotcontcai Adcatratons rave boonconticesin h doses itotoy fasity anironnertenpeaie(2237C on rumian «708 Caleato Easimentusnd (MBTE rtcal orcitvaion Prary Surcas o« cxloue Centateno) scrocuesCaeaton Pover naw cesiss conmuere supeas o 2rr0re0 Aceos Poversewrtsston mavsserr svpeos io arrcoree Aseoo PoverserserEston massosr peos o 2troor9 Aseco Ratwerce 300 Atrcaler sweses: co sasar no arroor moce Retwerce 200 Atoncate en ssoos eos . anamede ie aircoran Aece Ratonrce 300B Atrene shcssten toy eauor trrrcore Auocs Ratenrce reve Essove sw oo 2o t ese0r9.a00) Jnos oaee sns asuear o. osctososectr Sroce | neondaySndots o« ____ ChacOm(ntocse) Scaiieshesk _ RE goonery> es ussssoree 410990 (nowe eac 0200 Inrosmectoce oo Navots Araize n arsse ussmaeses 12020 (ntoome ce Oatan Intoummctoss Ocos ice Fuctsn Soratve Cattarecby KotaProions Teoicaliurage Appominy wakiiale Guiy tanige insuns aeeia,aoon 1i eataton crtfcan tb esosvend axestn t witout t acrmrnlom ooo Cortfeaie No: Exs.asst Apoe Page 1 t 10

Calibration Laboratory of Sctwatzedacher Kitvirdonst Schmid & Partner Servee suisectinonnage Engineering AG Servito nieiroi tantus Hnvghaunatanse , 106 RichSutzerind BwiseCattratonServce Acesstas y te Suns Acrstaton Sevce GA5) Acsrtaton: 5CS 108 ‘he Swise Acreitation Seric s one ofth igntoisto h EA Motintrt Agrooment fo th ecognton of caibatn crtfcnis Glossary: TSL tissue simulating liquid NORMx.y.z sensitivily in free space ConF sensitivity in TSL / NORMxcy.z por diode compression point Polarization o rotation around probe axis Polarization 8 8 rotation around an axis that is in the plane normal to probe axis (at measurement center), .e., 8 = 0 is normal to probe axis Callbration is Performed According to the Following Standards: a) IEEE Std 1528—2003, "IEEE Recommended Practice for Determining the Peak Spatal— Averaged Specific Absorption Rate (SAR)in the Human Head from Wireless Communications Devices: Measurement Techniques®, December 2003 b) 1EC 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: * NORkicy,z: Assessed for E—feld polarization & (f s 900 MHz in TEM—call 1 > 1800 MHz: R22 waveguide). NORMxy.z are only intermediate values, Le., the uncertainties of NORMxy,z does not effect the E—feld uncertainty inside TSL (see below ConvF). + NORM(Mxy,z = NORMxy,z * frequency_response (see Frequency Response Chart. This linearization is implemented in DASY4 software versions later than 4.2. The uncertainty of the frequency response is included in the stated uncertainty of ConyF * DCPxy,z: DCP 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 fat phantom using E—feld (or Temperature Transfer Standard for f < 800 MHz) and inside waveguide using analytical feld distributions based on power measurements for 1 > 800 MHz. The same setups are used for assessment of the parameters applied for boundary compensation (alpha, depth) of which typical uncertainty values are given. These parameters are used in DASY4 software to improve probe accuracy close to the boundary. The sensitivity in TSL corresponds to NORxy,z " Convwhereby the uncertainty corresponds to that given for Conv, A frequency dependent Conis used in DASY version 4.4 and higher which allows extending the validity from + 50 Mriz to + 100 MHz. * Sphericalisotropy (3D deviation from isotropy); in a feld of low gradients realized using a flat phantom exposed by a patch antenna. * Sensor Offset: The sensor offset corresponds to the offset ofvitual measurement center from the probe tip (on probe axis). No tolerance required Corifcate No: Exs—asst_apoe Page20f10

EX3DV3 SN:3531 April 23, 2008 Probe EX3DV3 SN:3531 Manufactured: May 17, 2004 Last calibrated: December 14, 2006 Recalibrated: April 23, 2008 Calibrated for DASY Systems (Note: non—compatile win DASYZ system) Cerifeats No: EX331 Aors PageSerto

Exsovs sN:3sst April 23, 2008 DASY — Parameters of Probe: EX3DV3 SN:3531 Sensitivity in Free Space® Diode Compression® NormX a.rs0 s toa% wV/(Vim)" DP x as mV Norm¥ 0.580 + t0.1% _u\//(V/m)Z DGP Y 104 mV Norm2 oto s totw aVi(Vim]® por 2 95 mV Sensitivity in Tissue Simulating Liquid (Conversion Factors) Please see Page . Boundary Effect Ts 900 Mitz Typical SAR gradiant. 5% per mm Sensor Genterto Phantom Surtace Ditance 20mm 30 mm san. oo Wihout Conecton Algorthm ra a7 SaR 0i WitCormecton Algarthm os os Ts 1750 Mite Typlcal SAR gradiont 10 %per mm Sensor Cente to Phantam Surace Distance 20 mm 30 mm SaR. 4) Without Correcton Algorthm se is seRm Wih Corecton Algorthm os os Sensor Offset Probe Tip t Sensor Conter 1.2 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 distrbution lcorresponds to a coverage probabilty of approximately 95%. A h unanantasa NamiONZ so etatectne E.turcanany nece T9. se Page ) * Nomereainanaton pornatuncerant rt enures Cerifeats No: Exeasot Anos Page4of10

EX3DV3 SN:3531 April 23, 2008 Frequency Response of E—Field (TEM—Collifi110 EXX, Waveguide: R22) Frequency response (normalized) ce on or os os o soo 1000 1s00 200 ason sooo uy ~o—rem —o—ne Uncertanty of Frequency Response of E—1ield: £ 6.3% (ke2) Cerifeat No: Ex33501 Apos Pagesero

EX3DVs SN:3531 April 23, 2008 Receiving Pattern (¢), $ = 0° 1= 600 MHz, TeM ift10EXX 1= 1800 miie, we Rez —o—zoue & ~a~1o0mte i —s—sooite s ~a— 1200 hite & ~s~—asco ie o so 120 1so mo xo so an Uncertainty of Axil sotrapy Assossment: 0.5% (ke2) centeats No: exss3t Ancos Page6ot10

Exsovs sN:3sst April 23, 2008 Dynamic Range f(SARneaq) (Waveguide R22, = 1800 MHz) 1847 , ness nees Inoutignal t 18« nees 182 Ed neso sooo oom cor o1 1 100 rm Sa8 Imwien‘) ~#—rotconponsites —6—consensaies Eor t) ooo on en 1 10 100 Sat imWen‘) Uncertaity of Linearity Assessment+ 0.6% (e2) centteaNo: 3531Anos Page otto

EX3DV3 SN:3531 April 23, 2008 Conversion Factor Assessment 1 itc Valelty Mi]® TSL Pernitiity Conductvty Alpha: Dopth ConnE Uncertainty aso ss072100 Head aasast oares% 080 046 1068 1338(o9) sas asore100 Head atses% osorsm oot se 1088 +110%(e2) s00 as0/a100 Head anse5% oorasm osr oss 1087 £110%(22) 1450 +502 100 Head 405 5% 1,2025% oss 087 aas £ 11.0%(od) 1760 £80/2100 Head 40.125% 137 £8% ose os2 sn a 11.0%(oo2) 1900 as0/£100 Head 40045% raokst 047 074 090 a110%(e2) d9s0 +80/2100 Head 400%8% 14028% ose 087 852 2 11.0% (o?) 2000 +50/z100 Head 40.08% 1402 8% o4s 073 so8 + 11.0% (ted) 2300 5072100 Head 30428% 1,7128% oar on 838 + 11.0% (o2) aiso +so/a100 Head soaes% neos% oso oso 805 +11.0% (c2) 2600 8072100 Head 300%8% 1.9625% os0 102 7190 2 11.0% (?) 3800 +807z 100 Head 37.9%8% 291 28% ose 10 738 a181% (on) 4050 25072100 Head 36328% 44028% 030 178 525 2 13.1% (2) 5200. +50/% 100 Head 360%8% 46625% 03s 178 495 2 13.1% (ced) sa00 5072100 ead asoust «7easm 035 175. 46t +19.t% (e2) 5800 5072100 Head 36625% 40625% oss 178 450 2 18.1% (ced) seoo +s07+100 Head ssses% soresm 0sn 175. 4s0 »190%(e2) seoo +5073 100 Head: ssaest sare 5 028 180 abs +13%(en) travaiy t 10 it ol applas tOASY ve.« ant gherseePage 2. The uncerany is tns ot e ComZ unceraint atealbraton renuency anho uncerint or h Inlcas Recuency dand Cerifeats No: E301 oi Pages otto

Exsovs siissst April 23, 2008 Conversion Factor Assessment «e VateityMHe]® ts Pormitiviy Conductviy AlshaDopth__ GonyE Uncerainy «so +so7z 100 Boay seras% osers% 040. 025. iss +133%(2) was sso/z 100 Boay seaas o8re5% 064 070 1022 2110%(2) soo sso7z 100 Boay seorsm losrs% oss oss 1021 +110%(e2) 1eso sso/a100 Boyy seorsh isors% oss o2 983 a110%(c2) irso «sork100 Boay soazsh rassm oss ost ore »110%(e2) 1900 «so/100 Boay soses% iseks% o48 070 870 £110%(2) des0 «so/e100 Bow soarsh nsmisn oar oss 906 st10%(e2) 2000 s0/z100 Bosy soaest nsrksh o49. 070 B63 »110%(e2) 2300 s0/2100 Boy seezsm esesn os2 oss a08 a110%(en) 2aso as0/a100 Boay sarash nosasm oar ze Tot »110%(e2) 2e00 5072100 Bowy sesest adeest 026 nes nse a110%(ed) ss00 as0/a 100 Bowy staisn asresn or 173 aeo atoh en «950 £s0/2 100 Boy asazsn soresn 085 tss 441. adoh(ed) se0o as0/z 100 Bogy doozs% sonrsh 035 185 421 a1oi%(on) sa0o ssorz100 Boy desesm sare5% 085 185. 302 atoth(en) seoo sso/z100 Boy derst sesasn osr 1es aso atorh(ed) seoo «s0/a 100 Bogy dasash s7rksm ons 1ss aso adorh(ed) seoo «so/a 100 Boyy eaisn eoorsh oss iss 370 a100%(e2) Thavalety t 190 M onl apptestoOASY ve4 anNghr(seePage 2. Thuncennint is te hS otthe Con uncerantatcaltradon fecsarc an houncoriaty orth Inclta hacuencyband CenifeaNo: 23501Apos Pagea otto

Exsovs SN:3531 April 23, 2008 Deviation from Isotropy in HSL Error (§, 8), £=900 MHz Error (aB] m100—000 mase—aco mas0—040 mowo—a20 man0m mosease momoss mosmore momose mosime Uncertaity of Spherica sotropy Assessment2 2.6% (ke2) Cerifeats No: Ex3ast1 Amros Pase thot 10


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Document Modified: 2019-06-02 08:28:16
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