Probe cert

FCC ID: PY306200046

RF Exposure Info

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FCCID_657031

Calibration Laboratory of                                                       SetvoizenscheKaibardont
Schmid & Partner                                                                Servce use atiiomage
  Engineering AG                                                                Sentte sviereaitarturs
Hmughausstaest,fové uceSutzernd                                                 Sviss Cattraton Sevice

Accrsste y e Suss seOfico Mavsay ns Acstaton                                     : scs tos
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cien     (CCS                                                      ceritea hs: EX3—3531_Jul05
CALIBRATION CERTIFICATE
 Oe                         exspve—snaset

 enttaten pocesent)         OA CAL—O1S, OA CAL—124 and OA CAL—t4v2
                            Galibration procedure for dosimetrc E—feld probes


 Cattatondae                July21, 2005
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Cerifeats No:xo.asor wuos                        Page t of 10


Calibration Laboratory of                                                     Sehvaicenscher Kibrirdnst
Schmid & Pariner                                                              Servce suiase dtalomage
  Engineering AG                                                              Servilo vizersditarturs
Hrvghacsstaese d,t004 Rarch, Suzerand                                         Suiss GaliratonSevice

Accrntt y theSss Reserd itc Matolag an Accestaton                          Acerestatono: SCS 108
‘re Swis Aceedtation Servie s one oftre signntores o e EX
MuttatratAgroment fo th ecupnton o caltraton coifcnten

Glossary:
TSL                    tissue simulating lquid
NORMxy.z               sensitiviy in free space
ConF                   sensitvityin TSL / NORMxycz
pcr                    diede compression point
Polarization p         i rotation around probe axis
Polarization 8.        $ rotation around an ax‘sthat is in the plane normal to probe axis (at
                       measurement center), Le., 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 Spatia—
      Averaged Specific Absorption Rate (SAR)in the Human Head from Wireless
      Communications Devices: Measurement Techniques®, December2003
   ©) CENELEC EN 50361, "Basic standard for the measurement of Specifie Absorption Rate
      related to human exposure to electromagnetic fields from mobile phones (300 MHz — 3
      GHz), July 2001
Methods Applied and Interpretation of Parameters:
     NORMicy.z:Assessed for E—field polarization 9 = 0 (f < 900 MHz in TEM—cel; f > 1800 MHz:
     R22 waveguide). NORMiy.z are only intermediate values, Le., the uncertainties of
     NORMcy,z does not effect the E"—feld uncertainty inside TL (see below ConvF)
     NORM(Dxy.z = NORMsy, * frequency._response (see Frequency Response Chart). This
     Iinearization is implemented in DASY4 software versions later than 4.2. The uncertainty of
     the frequency response is included in the stated uncertainty of Conv
       DCPxiy,z: DCP are numericalinearization parameters assessed based on the data of
       power sweep (no uncertainty reguired). 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 { 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
       typical uncertainty values are given. These parameters are used in DASY4 software to
       improve probe accuracy close to the boundary. The sensitiviy in TSL corresponds to
       NORMy,z * ConvF whereby the uncertainty corresponds to that given for GonvF. A
       frequency dependent Convis used in DASY version 4.4 and higher which allows
       extending the validty from # 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 sensor offset corresponds to the offset of vilual measurement center
       from the probe tip (on probe axis), No tolerance required

Cortfeaie No: Exa.osst wuos                        Page 2of 10


  Exsovs sN:sss1                                                       July 21, 2005




                 Probe EX3DV3

                                  SN:3531
                        Manufactured:                 May 17, 2004
                        Last calibrated:              July 18, 2004
                        Recalibrated:                 July 21, 2005

                            Calibrated for DASY Systems
                             (Note: non—compatible wih DASY2 system)




ConteaNo: Be.ase1 wos                  Page 20(10


   Exsovs sNissst                                                                         July 21, 2005

   DASY — Parameters of Probe: EX3DV3 SN:3531

   Sensitivity in Free Space®                                                  Diode Compression®
          NormX                0.85 + 10.1%       _u\//(V/rl’\)2           DCP X        93 mV
          NormY                0.81 + 101%        pV/(V/m)2                DP Y         93 mV
          Normz                o.r3 10%           aViVim)®                 pcr 2        as mV

   Sensitivity in Tissue Simulating Liquid (Conversion Factors)
  Please seo Page 8.

   Boundary Effect
  Ts                    900 Mitz    Typical SAR gradient:          5% per mm

          Sensor Gentarto Phantom Surlace Ditance                          20 mm 30 mm
          SARk,[X        Wihout Corecton Algorthm                            «0    is
          SAR.,[]        Wih Conecton Algorthm                               oo    on
  Ts                   1750 Mite    Typical SAR gradient: 10 %por mm

          Sensor ContetPhantom Surface Distance                            20 mm 30 mm
          SARa (%].—    Wihout Corecton Algorthm                             ar    2
          SAR., )       win Corecton Algorihm                                os    o7

   Sensor Offset
          Prabe Tio t Sensor Genter                                     1.2 mm



   The reported unceriainty of measurement is stated as the standard uncertainty of
   measurement multiplied by the coverage factor k=2, which for a normal distribution
   eorresponds to a coverage probabilty of approximately 95%.

  * the ncansnses t omm 2 o etatectne ts uncerany nc T9L se Page )
  * Nomereainantason soaneto neanany reecurcs



CenifeaNo: Exasor_wuos                        Page 4 ot 10


   EX3DVs SN:3531                                                                                                July 21, 2005


                                                       Frequency Response of E—Field
                                                           (TEM—Cellifi110 EXX, Waveguide: R22)

                                             is
                                             14
                                             13
           Frequency response (normatized)




                                             12
                                             11
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                                                      Uncertaity of Frequency Response of E—feld: 2 6.3% (s2)




Corifeats No: exsaso1 u0s                                                 Pagesot1o


   Exsovs sN:ssst                                                               July 21, 2005


                             Receiving Pattern (¢), 9 = 0°

                0o MTEM ift10ExX                            1= 1800 mMtiz, we Rz2




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                           Uncertainty of Axia sotropy Assossment £0.5% (re2)




Cerifeats No: E.501 au0s                   Pagesor10


   EX3DV3 SN:3531                                                                                 July 21, 2005


                                            Dynamic Range f(SARpeaq)
                                                 (Waveguide R22, 1= 1800 MHz)


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                                                         SAR (mwent)
                                        ~0—retcomsonsaed              ~6—congensaied
           Ei1)




                              ooo          oo            o1         1             10            100
                                                         S imvien‘)

                                          Uncertaity of Linearty Assessment: 0.6% (ke?)




Cerifeate No: Ex3.2501 uo                                Pagetof 10


   exsovs s :aset                                                                     July 21, 2005


                           Conversion Factor Assessment
                = 900 mitz, wGLs Ro (head)                   1= 1750 mitz, WGLS Rz2 (head)
           ss                                               so
          y5                                              , 250
          $**                                             & mo
          {=                                              $iso
           as
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              o       2 stam) *       so                        8        * tieq *       #
            ~0—Analcal ~o—Measwements                         ~0—Analncal ~o—teaswenons
   tubse vaiety tuite"       rst     Porni       Conductvty        Aloha Dopth   ConeE Uncertainty
   aso     £50/2100          Head    485+8%      O8rk8%            020    216     972   £193%(c2)
   eos     £80/2100          Head    a1se5%      08or8%            08     145.   1001   £110%(e2)
   800     +80/2100          Head    anses%      o9r5%             031    106.   1004   £110%(c2)
   1480    «50(2100          Head    doss         n20s5m           o48    120.    904   st10% (e2)
   170     «so/et00          Head    dores%       rarese           oss    080     901   sthok(e2)
   1900    #80/2100          Head    4008%       140k6%            083.   O87     885   11.0% (c2)
   1950    £80/2100          Head:   4005%       140k8%            084    087.    873   £11.0% (e2)
   2000    +80/2100          Head    «0ous%      ra05%             o6z    ose     866   £110%(2)
   2so     8072100           Head: sorest        808%              Ot     077.    830 + 118%(e2)

   aso     sore100           Boy     serase oonesn                 Orr    254    1084 +133%(e2)
   sos     ssofer00          Bom     seaash ogrask                 031    110.   1054 £110%(e2)
   e00     «so/r100          Bomy    ssous tosask                  oss    108.   1008 £110%(e2)
   1450    «so/k100          Bogy    sto5% r3ok5%                  o48    128.    oi a110% (o2)
   drso    ssora100          Booy    soarsn rsdasm                 o4s    ns      s1 amon(en)
   do00     «so/k100         Bomy    soses% nsrash                 4t     168.    833 a110%(e2)
   doso     «so/e100         Boy     sosasn rszas%                 oso    osr     a33 »t10%(e2)
   2000    «so/ar00          Bosy    sosasm rszes%                 ose    87      gat s 110%(e2)
  2aso «so/a 100            Boay sarasn 105+5%                 on ors            a20 a118%(e2)
  5 thavaliy t 19 M ol apptestorOASY ve 4 anhghar e Page2The uncersiny i te SS
  of the Goone unceintateabraton henuene and ho uncennty fr h ncleto beauancy band



Corifeat No: Exaso1 uts                       PageSot10


   Ex3DVs SN:3531                                                                    July 21, 2005


                               Deviation from Isotropy in HSL
                                           Error (6, 3) £= 900 MHiz




                                                                         Emor i)



                        mass—omemom—ormoss—om mass—om mosoce
                        mossozs momess owase momem momsico



                             Uncertainty of Spherica Istropy Assossment+ 26% (ke2)




Cerifeate No: exsasor juos                    Page Sot1o


                                                                                        July 21, 2005


                                           Appendix®
           1= 8200 Mttz, WGLS Rss (heac)                      = se e, WaLs s# (body)



      & 5o                                               & soo
      ”g 100                                             “g s0

       $
       3 mo
                                                         $
                                                         8 z0



                             d

   toug® valkty tite)        TSL   Pormitivity   Conductvty   Alpha.    Dopth   ConvE Uncerainty

   «050    £50              Head   363 + 9t      440285%          048    180     604     2138% (o2)

   5200    £50              Head   360%8%        46028%           050    180     $48.    2198% (c2)

   500     50               Head   Jn6x8%         49628%          055    180     $18     2138% (e2)

   so0o    80               Head   3531 5%       $27 2 5k         o5     180     495.    2 138%(2)




   5200    280              Body   «0045%        $308%            055    180     $20°    £188% (2)

   ss00    180              Body   48625%        Sesa8%           055    150     480     + 13.8% (co2)




   ° Reerston o Conv® assessment avov 000 es curenty apotad tor

Cenifeats No: Ex3asot u0s                   Page 10010



Document Created: 2005-08-25 16:22:23
Document Modified: 2005-08-25 16:22:23

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