P20 Mobile Phone RF Exposure Info SAR Probe & Dipole Cal Cert AVENIR TELECOM

AVENIR TELECOM Mobile Phone

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PROBE CALIBRATION CERTIFICATES
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Chem BACL Certificate No: 217-57167
CALIBRATION CERTIFICATE
Object EXSDV4 - SN,7431
Cahbratmn Procedure(s) #111,004701
Cahbrehon Procedures (or Dosimefric E-field Probes
Calrbvauan dale Sepremuer 30, 2017
Th1: cannranon Cemflcale documents the traceauuity lo natwna1 standards which reahze the physica1 units of
measuremean(Sl) The measurements and (he uncertainhes wun confidence prubablhly ere grven on the fmlowmg
1 pages and are part anhe certificate
AH calmrations have been conducted m the dosed \aboramry lacihty environment (emperalureazfl)! and
hum1d1ly<7D%
Cafibrauon Equrpmem used (M&TE criricaJ rarcaubrenon) 1
anery smnuards 10 at cm Date(CaImra1ed by‘ cenirrcexe No.) Scheduled Caribreum 1
Power Meter NRFZ 101919 27-Jun-17 (CTTL‘ No J17X05657) Jun-1a
Puwer sensor NRPer 101547 27-Jun-17 ((2111 No J17x05357) JurHE 1
Power sensur NRPVZQ1 101545 277Jun7171CTTL‘ No J17x05857) JurHB
RererencedeAhenuator 18N50W»10dfi 13-Mar~16(CTTL,No,J16X01547) Mar-1a
RelerenceZOGEAnenuamr 1aN50wezodB 13-Mar-16(CTTL1 Na,J16X01545) Mar-1B ‘
Relerenoe Probe EXSDW SN 7433 26-Sep-15(SPEAG‘ND,EXS-7433_$ep1G) Sen-17
DAE4 SN 549 13-Dec-15(SPEAG N0 DAE475497DEC16) Dec ,17
Secondary Slandards ID# Ca1 Dale(Cal1brated by. Ceniflcale No) Scheduled Canbranun ‘
SrgnaleeneramrmsamoA ‘ 6201052505 27-Jun-17 (CTTL‘ No.J17X05855) Jun-m
Network Ana1yzer E5071C 1 MV45110673 13-uan-17 (C77L, No.J17X00285) Jan :13 ‘
Name Funcuon S1gnaturr: 1
c llbrated b v r ‘ ‘
1 a Y Yu Zongylng SAR Tesl Engineer v¢b
_, ~ 1
Rev'ewe“ W Lin Hao SAR Tesl Englneer 1f 1%
”PM“ by» 01 manyuan SAR Project Leader $65
Issued' Camber 0212017
Tms cahbrauon cemficale shal‘ not be reproduced except 1n (uH wnhout wnnen approval oflhe laboralary
Curlificmc No 21197157 Page 1 of u
dusting. iiilil'rl,t rill
It). 67 304613700
llrninwvi: Ila m
Glossary:
TSL tissue Simulating liquid
NORMxyz ' '
ConvF sensitivity in TSL / NORMx.y.z
DCF diode compression point
CF crest raptor (ilduty_cycle) artna RF signal
ATB.C,D modulation dependent linearizaimn parameters
Folartxatton m 0 rotation around probe axrs
Polarization a S rotation around an axis that is in the plane normal to probe axis (at measurement Center) i
6:0 is normal to probe axrs
ConnectorAngle information used in DASY system to align probe sensor X to the robot coordinate system
Calibration is Performed According to the Following Standards:
a) iEEE Std 1525-2013, “IEEE Recommended Practice for Determining the Peak Spatial-Averaged
Specfiic Absorption Rate (SAR) in the Human Head tram Wireless Communications Devices
Measurement Techniques", June 2013
b) IEC 62209-1‘ “Measurement procedure for the assessment of Specific Absorption Rate (SAR) from
hand—held and body-mounted devices used next to the ear (frequency range of 300 MHZ lo 6 GHzl‘X
Juiy 2016
0) EC 62209-2 "Procedure to determine the Specific Absorption Rate (SAR) for wireless communication
devices used in close proximity to the human body tirequency range pt 30 MHz to e GHZ)“. March
2010
d) KDB 665664, “SAR Measurement Requiremenls for 100 MHz to 6 GHZ‘
Methods Applied and Interpretation of Parameters:
- NORMxyz. Assessed for E-neld polarization e=o (iSSODMHz in TEMsoeii‘ r>1aooMHz waveguide).
NORMXyZ are only intermediate values, t e.‘ the uncertainties at NORMXyZ does not effect the
E3sneld uncertainty inside Tsi. (see beiow ConvF)
. NORmeyz = NORMxy z' rrequencyvrespolise (see Frequency Response errant This
linearizatlon is Implemented In DASY4 software versions later than 4.2 The uncertalnly of the
trequency response IS tnciudsd in the stated uncertainty oi ConvF
c DCF’XJ/J, DC? are numerlcal linearization parameters assessed based on the data at power sweep
(no uncertainty required) DCP does not depend on irequency nor media
I PAR: PAR Is the Peak to Average Ratio that is not calibrated but determined based on the signal
Characteristlcs,
- Axyz, Bx,y.z,' Cx,y,z, l/Rx,y,z A,E!,C are numerical linearization parameters assessed based on the
data or power sweep for Specillc modulation signal The parameters do not depend on trequency nor
media VR Is the maximum Calibration range expressed in RMS Voltage across the diode
. ConvF and Boundary Effect Parameters, Assessed ln flat phantom using EJieid (or Temperature
Transfer Standard for fSBDUMHz) and inside waveguide using analytical field distributions based on
power measurements lor i >800MH2 The same setups are used for assessment at the parameters
applied tor boundary compensation (alpha depth) at which typical uncertainty veiued are given
These parameters are used In DASYA software to improve probe accuracy close to the boundary
The sensitivity in TSL corresponds to NORMxyz‘ ConvF whereby the uncertainty corresponds to
that given tor ConvF Alrequency dependent ConvF is used in DASY version 4 4 and higher which
allows extending the Validity fromtSOMHZ totIOOMHZ.
. Spherical isotropy (so deviallon rrom isotropy) in a held of low gradients realized using a ilat
phantom exposed by a patch antenna
- Sensor Orlset The sensor onset corresponds to the offset or Virtual measurement center from the
probe up (on probe axis). No tolerance required
I ConnectorA/rgle. The angle is assessed using the inlormatlun gained by determining the NORMX
(no uncertainty required)
Ccrtit‘touto Nu1/J7il'7l67 Page 2 or ll
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Probe EX3DV4
SN: 7431
Calibrated: September 30, 2017
Calibrated for DASY/EASY Systems
(Note nan-compaume mm msvz system‘)
Ccnificnle \m- 7174mm Pug: : m‘ n
b‘ In Cellnbornn'nn wifil
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IL 540-52104an Irlxoxll-lll-hllfllé .00
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DASY/EASY — Parameters of Probe: EX3DV4 — SN: 7431
Basic Calibration Parameters
Sensor x Sensor v ’ Sensor 2 l Um: (k=2)
NymfllV/(Vlmfl‘ _ use 0 35 0.39 l 110.07%7
lacmrnV)E 103.6 l 106 0 103,3
Modulation Calibration Parameters
. UID l Communication A a c D VR Unc
i system Name as dvaV aa mv 7 ix=2l
o ‘ cw x 0.0 0.0 1 o 10.00 [156.2 12.9% i
‘ v 0.0 0 o 1 0 l 146.1 .
2 7707.0 0.0 1 o l 153.7 .
The reported uncenalnty 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 caverage probability of approximately 95%
‘ The uncertainties or Norm x. v, 2 de nut alieci ine Ezrfleld uncertainty Inside TSL (see Page 5 and Page a)
5 Numerical linearlzatiorl parameter uncerlamty nol required
EUncerlarnly is determined using the max, devraiien tram linear response applying rectangular dlstrlbutlan
and Is expressed lbrtt’le square ellhe field value.
Cerili‘lculc Nu. Zl7797167 Page 4 01 II
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V uumnouuaaiwuw
\(M \u 51 V. nituni 11111101111 Disirici. it 'mg, imiiut {hum
lrl 416.111 110‘ I11 1m 1110105230453 22110
Lviimil rut netunuui Aum b.7111 uvt chili: 11c
DASY/EASY — Parameters of Probe: EX3DV4 — SN: 7431
Calibration Parameter Determined in Head Tissue Simulating Media
. . . 1 6
([Mszc ”filmy, “wigs? ‘ CcnvF x 1 ConvF v ConvF z AlanaG [1:12; 5:2: ‘
750 41.9 0.99 10.04 10 04 10 04 0 35 0 00 52.1%
900 41.5 0.97 9 72 9.72 9 72 01a 1 33 :12 1% '
' 1750V 401 1,37 3.35 .2 9.35 9.35 022 109 :12.1%
1900 40.0 1.40 324 924 024 025 102 3:12 1%1
2450 99 2 100 7 as 7 96 7.05 0.59 0,70 :121%
2500 39.0 . 1 95 7 39 . 7 39 7.30 0.97 0 67 :12.1%
5200 35 0 4 as 5 92 5 92 5.92 0.40 1 35 :13 3%
5300 35.9 4 7e 5 60 1 5.50 5.60_ 0 40 1 35 t13 3%
5600 35 5 5 07 4 99 1 4.99 4 99 0.40 1 35 :13 3%
5900 55 3 5 27 i 5.05 5 05 5,05 0 .10 140 :13 3%
° Frequency vahdity above 300 MHz oitiOOMHz onty applies tar 0Asv v4.4 and nrgner (Page 21,e1se 11 is resincied to
:SOMHz. The unceriarniy IS the R55 9i ConvF uncenamty at calmrahon frequency and the vncenatniy ror ine indicated
ireqvenay band. Frequency validiiy helnw 300 MHz is x 10. 25. 40, 50 and 70 MHz icr Canvi= assessmenis at 30. 54. 129.
150 and 220 MHz respective1y. Above 5 GHz ireqvency Validity can be extended to 2 110 MHz
FAt frequency betow :1 GHz. the vatrurty cittssue parameters 1: and up can be retaxen to i10'7/ninlquld compensation
lemma is apptrea to measured SAR values At irequencies above 3 GHZ. (he vattdrty oHissue parameters 12 and a) is
resincted |0 15%. The uncenainiy is the RSS at the ConvF uncertainty tor indicated targei tissue parameters,
G Atpna/Deptn are determined during caiibraiion SPEAG warrants then the remaining deviation due in Me boundary
eriect artercompensatton IS aiways iess tnan : 1% tar irequenctes betuw 3 GHz and below a 2°aior1neireauenctes
between 345 GHz al any distance iargerinen nalitne brace hp diameter from tne bounaary
Ccnificiiic Nn‘ 07177107 Page 5 or H
A“ inCnllbommnwlm
-TTLS g e a g
CALIIRA'ION MIORIU’ORV
«all ,\ sl munn l(o.rrl.llunlr.lrr 111mm. 11 .iUUWLL‘hum
I‘ 13040» 30101 Ill l'.r\ 411.404 30441) 11110
Lvlllrni: clli u rlrrrulll 1.41m n-r nwu 11m“ '11
DASY/EASY — Parameters of Probe: EX3DV4 — SN: 7431
Calibration Parameter Determined in Body Tissue Simulating Media
' . ‘ . . i G
lwlllz]c Pefigzsy, ”"2773" Com/F x ConvF Y ConvF z AlpllalG 1:2; :2:
750 555 096 W 1011 10-11777 l011 040 0,55 :121%
900 550 165 935 gas 935 027 103 1-121%
1750 53 4 7 7 7 142 8.23 8.23 5.23 0.27 1.01 :12.1%
1900 53 3 1 52 8.00 3.00 a 00 0.14 1.59 52.1%
2450 527 195 762 762 752 033 105 521%
2600 52 5 7 7 21077 777 7.31 7.31 7.31 0.57 0.75 :12.1%
5200 49 0 5 30 5 22 5.22 5.22 0.50 1.60 :13.3%
5300 4a 3 5 42 4 93 4 93 4 93 0 50 1.05 113.3%
5500 455 5 77 4.40 4.40 4 40 0,50 170 t 13 3%
5500 48 2 6.00 4 43 4.43 4.43 0.52 1.50 :13.3%
C Frequency vaiidlty above 300 MHZ offloflMHz only applres lor DASY v4 4 and hlgher [Page 2). else ll 15 resincted lo
150111012 The uncarlarnly rs lne RSS or ConvF uncertaimy al callbratlarl frequency and we uncenarnly for me lndicated
lrequency uano Frequency Valldiiy below 300 MHz rs s 10, 25. 40. so and 70 MHz lor ConvF assessments al 30. 54. 123.
150 and 220 MH1 rsspecuuely. Above 5 GHz irequerlcy ualrnrly can be exlended lo 1 110 MHz.
F Al frequency below 3 GHZ. the vallolly ol lisslle paramelels (r. and a) can be relaxed to a10% ll liquld compensauon
formula 1s applied [0 measured SAR vaiues.AHrequenc1es above 3 GHz. the vaildiiy olllssua paramalars (a and (7) rs
reslrraleo lo 35% The uncenalnly ls lhe RSS allne ConvF uncenainty lor lnolcaled largel lrssua paramelers
EAlplralljeplrr are de|ermlned durlng callbrallml SPEAG warranls manna remarnrng uavralron due lo lne boundary
eflecl anar campensaunn ls always less lnan : 1% lor lraouencras below 3 (3H: and oelow : 2% lor me lreuuanslas
oerwean 35 GHZ ar any dlstance iarger lhan hail me probe llp orameler lronl lhe boundary
Ceniflmle \‘0'117-97167 Page nor ll
A' m Callnborm'on mm
TTL Lua_9_
v cmnnuummwv
mu \(vfi‘ Vllcjvmn“0214'.””AIM“UISIHCLBA'UHLLV umwv ("um
m «(y-unusmmx-zllx m: Elm-msmmnznu
L-nm‘ ml (1 mm“! mm H Ip' rwwu chumnl 5.
Frequency Response of E-Field
(TEM-Cell: ifi110 EXX, Waveguide: R22)
Frequency response (normallzed)
I I I
0 500 1000 1500 2000 2500 3000
El f[MHz] 7*
TEM R22
Uncer'ainty uf Frequency Response of E-field: $7.4"ln (k=2)
Cunificmc Nn' N7—97167 Page 7 m n
In Collnbomuon wvm
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mm mm Xum Ikmd Hakim" m licu‘mg. IKHII‘IIJ‘IHM
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Receiving Pattern (0), 8=0°
f=600 MHz, TEM f=1800 MHZ, R22
450 49c .sn an
Uncenainly of Axial lsotropy Assessmen :1.Z% (k=2)
Ccnificalu Nu: 1174mm Pagc x m u
In Coflnbcmion with
:TTL wa—
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Dynamic Range f(SARhead)
(TEM cell, f = 900 MHz)
Input Signale]
. . .K . rrrq . r—rl-rrrq
10“ 10: m‘ 10
SAle W/cm ’1
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Elnolcnmpensaud +cnmp.nsa..a
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'2 ‘ _ x : 1 , "v x 'v
w‘ m' m“ 3m' 10’ 111‘
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4—! nut numpensated + compensated
Uncemiuty 0' Linearity Assessment: 103% (k=2)
Cenifium Na. 217-97157 I’Ag: v or n
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Conversion Factor Assessment
moo MHz, WGLS R9(H_ccnvF) f=1750 MHz, WGLS R22(H_convF)
m min
:sa ii77i77i77 7777777
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Deviation from lsgti'opy in Liquid
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Uncarmlnty of Spherical lsoflopy Assessment: 33.2% (K=2)
Ccmficm No: ZI7-97lé7 Page w nl‘n
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DASYIEASY — Parameters of Probe: EX3DV4 — SN: 7431
l‘cl' well:
Minn clli
Other Probe Parameters
Sensor Arrangement Triangular
Connector Angle (“J 37.2
Mechanical Surlace DetectiorTMode I enabled
Optical Surface Detection Mods disable
Probe Overall Length 337mm
Probe Body Diameter 10mm
Tip Length 7 9mm
Tip Diameter 1 2.5mm
Probe Tip to Sensor X CalibratiorlPoint 7 1mm
Probe Tip to SensorY Calibration Point ‘ 1mm
1 Probe Tip to Sensor Z Cali ration Point 1mm
Recommended Measurement Dislance from Surface 1.4mm
L'cnlficnll: Nu: 0779mm Page ll M ii
DIPOLE CALIBRATION CERTIFICATES
Calibration Laboratory of
p S hummus-ah" hllbrlufllulsl
Schmld 8‘ Partner 6 5mm Lulu: allllnlmam
Engineering AG /'\ 5mm "innvdlluuurl
Zluuluulsvm A; sum lumen. Swlmrllnd film/Q“: 5 sum. cow-mm SQMn
Accvamlld hymn Swlss Awemawn 59an (SAS) Amy-«mum Nov: 565 0105
m Swiss umumum smla I: um 91 me Illullofln w m: EA
Mani-um Amman: m lhn «cannula» a1 ulllmllm :ml nu
ah»: BACL Oemllem No: D75 nva-naumns
CALIBRATION CERTIFICATE
0mm msuvs - 5N11167 ‘
Cans-arm Imeedwetsl GA CAL-05.v9
Callhratlan procedure lur dIDDIa Validatlon kits above 700 MHz
Cauunuon dam November 05, 2016
Thus cil‘llfllm'l annual» now-mt: Iha “mummy Io uni-anal mnuarui. mm mum Ibo :mywm unis m measlflamems 4S!) \
me muiuremems ma Ina mmvlainl-es mm mnnmm mom-my mu uwnm llm {WW-m m . mud a... mu mmnzmlllcmn
NI :aunvam: um. um mnductud m Hm clasnd Lib-yawn] Incmly unwnnuwnl mmpmmm (22 1 Jr C and hummnv ( mu
Eilmmnm Eqummmu [MHE cnlul Iavwmml
anarv snmum- \ 1n = on lJnIn (comm. Nay summed car-mum.
PM! mm. um: sN man as Ame (Mu ztvvnzzaa'azzasv Any-v
PM. “me. Maw-191 SN. mm oMpns mu mama; Any-V7
firm, sansm m: P191 1 SN mm Mp. IS [Na HIT-172235! Am :7
Mum:- 2a aa new“: 1 SN sass am y asApns yNa “7472292! Awli
mum mmalm mamm (SN 5mm 1 06327 um. ya [No 21702295) A5447
melamine ma. snow ‘94 mg m." 1E(Nn Exmmms Mum mm
‘m: M 5m wuemsmu am an nous» ems
Secondary sum,“ K m . Chick mm m noun-y smmm Check
Pawn-mama» ysN Gannuomd woa-xmuammnxonm mom um Um-Ia
9mm sensuv w mm {5M usamsz 07 (m cs mum. (heck omen ‘n rm” chmk Dd 18
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mm“ by mm mm mum. Mm: /{;;(/7'/ ,/ ,
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Cemhcale Nuv D79W3—I157ANav‘s Pago | nl a
Caltbration Laboratory at
Schmid 5 Partner
Engineering AG
Zenlhlusslum 4:. um zwlen. Snlllmtlnd
Sohwnrlnndr Kallhrlertllenll
Sewlee surm d'ilflnnlligl
Servlllo mum at larIIuril
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smearing!” lhI smss Accrertrratmn serves {Slsl Awedtutton Np; 5C5 0105
in Swiss Asst-dualism Smteotl an. at the Ilqnltorlel in in. EA
Mullilm-rll Agreement m In» mopnlllnn dl allot-alter: miniatur-
Glossary:
TSL tissue simulating liquid
ConvF sensitivity In TSL / NORM x.y,Z
NIA not applicable or not measured
Calibration is Perlonned According to the Following Standards:
a) lEEE Std 1523-2013. "IEEE Recommended Practice lot Determining the Peak Spatial-
Averaged Specilic Absorption Ftate (SAR) in the Human Head lrom Wireless
Communications Devices: Measurement Techniques", June 2013
b) IEC 62209-1, ‘Procedure to measure the Specific Absorption Role (SAR) tar hand-held
devlces used in close proximity to the ear tlrequency range at 300 MHz to 3 GHz)",
Feomary 2005
o) IEC 62209-2. "Procedure to determine the Specilic Absorption Rate (SAR) lcr wireless
communication devices used in close proxi to the human body (lrequency range at 30
MHz to 6 GHz)“, March 2010
d) KDB 565664. “SAP! Measurement Requirements for 100 MHz to 6 GHz”
Additional Documentation:
e) DASYMS System Handbook
Methods Applied and interpretation of Parameters:
- Measurement Conditions: Further details are available lrom the Validation Report at the end
at the certilicate. All trgures stated in the certificate are valid at the frequency indicated.
- Antenna Parameters with TSL: The dipole is mounted with the spacer to position its feed
point exactly below the center marking ol the list phantom section. With the arms oriented
parallel to the body axis.
- Feed Point Impedance and Fielum Lass: These parameters are measured with the dipole
positioned under the liquid tilled phantom. The impedance stated is lranslormed item the
measurement at the SMA connector to the teed point. The Return Loss ensures low
reflected power. No uncertelnly required
- Electrical Delay: One-way delay between the SMA connector and the antenna teed point
No uncertainty required.
- SAFl measured: SAR measured at the stated antenna input power
- SAH nonnarrzert SAR as measured. normalized to an input power at 1 W at the antenna
connector,
- SAH (or nomlnal TSL parameters: The measured TSL parameters are used to calculate the
nominal SAR result
The reported uncertainty ol measurement is stated as the standard uncertainty ol measurement
multiplied by the coverage lactor k=2. which for a normal distribution corresponds to a coverage
probability 0! approximately 95%.
Centficete Mr D7sav3-tts7fima Fly: 2 at e
Measuremom Condiliuna
DASY 3mm mnllgumlon. In luv at nm Nan on 293 l.
may leon
EnnpoI-aon
Adv-mad Extl'llwhflon
mm Modular Flu Phantom
Dim mpou cull-r . TSL | 15 mm mm sum
Icon. San Ruolullon fix, my, a: = 5 m |
quMy 750 MHz 2‘ MHz |
Head ‘I'SL plumb":
The lemming Emma um “Malian: mm ngpuoa
| Tamar-me P-rmliy emu: w
Nominll nan TSL pmnmm | 22.0 'c 41,: um mnolm
MBIIIIOGMTSLMVIMIMH 1223:1017 “J :6 '1- 0.82 "MOM! 2696
ETEL menu". chang- duvlnu Mil < 05 ‘C ~-- —-
SAR mull wIIII Head TSL
SARIvuwmrimflllmMDh-dfsl Common
SAR rnousurud 250 um inpul pm! 2‘12 Wing
SAR lot nominal Had TSL gamma mum-d to w L23 Wilts : 1” 9601-2)
mum-gamma? ("mom-mm. \ common
SAR mum-d 250 mW input Down!
I .33 W/kg
sAn lot nom'nal Hnd TSL names 5.» wnng : 1:5 as (Ia!)
Body TSL parameters
The loIaMn
Pennltuvlly
”min-i Body TSL m" 220 'c | 555 | 0.93 mholm
Inn-um! M TSL pun-nun: (an :02) ~c | 56.6 : s as | 0,97 mm s a %
Budy m. “mp-mu mug dull-u ml
SAR ruull wlm Bony TSL
SAN Ivor-pd over 1 Inf (1 g) a Body TsL | common 1
SAR manned | 250 mw Input pom-r 2.1BWMu
5»: lo! nominal Body TSL pal-mum Mmim lo 1w 5.5- wnq; 211.0 mm)
sun .mmmm' (10 gm BadyTSL
5m measured
sm lav nominu Body TSI. pun-mm
250 mW Iran pm LIS WM
mind In 1W I.“ WM 1 “.5 $(I32)
Canine-ts No: D750VJAHB‘LNMI6 Ply. 3 cl 5
Appsndlx (Additional assess-"em: ouhlda the scop- n! SOS 0108)
Amennl Plum with H d TSL
Inn-damn. lrarslonmd tn hid Will I 54.1 D - 3.7 n
Rorum Loss | - 255 aa
Antenna Par-mater: with Body TSI.
Impeam, Ilanslumod m Md pnlnl ‘18 I: - 5.: in
Hutu-n Loss - 25.4 dB
General Antenna hummer. Ind Design
Erma: Delay (m drufinn) mm HK
Ann long Imn use wnh Inaw mam-d pmr, unly . alight warning M m. diners near the ludpoim can be mm.
Tho d'pcle I; made ol almond semirig‘a cum cabin. The arm murmur or me mmng flu is «irony cormsclsd to ma
“com arm 01 me d'vokr ‘nr- manna I: morals-e shun-drama kx DC-aiguhr On :4)va m dlpolu‘ arr-II and up:
ITB .6696 no me upon urns ll order In Improve mulching mu land-d weaving to me Daemon «a "min-d in me
'Mumr ram Confi‘ons‘ pluguph. 1).. SAN dlll are um muclnd hymn mung; m emu dipole Imam Is mu
lecoldhg In an swam.
Na unequiva rm musl be .mm In In: um um. blame my mm mm may some ounnoclians nu ma
resumim may be cannon.
Addnlonal EU'T Data
m we
omwm
Ccrll'lclll Nu; mum-I ISLNMG Fig: a at a
DASVS Validation Report lor Head TSL
Dam: mu mom
Tcsl Lalbomlury. SPEAG. Zlm‘cll, Swilncrland
DUT: Dipnle 7Sll MHZ: Type: D7SIJVJ; Serial: D750V3 - SN:1167
Cummun
u) u , cw; Frequency: 750 mm
750 MHz: 6 = 0.93 51m; x; = -l I. | ; p = moo kgm‘
:11 SEClion
Meaml'cmcul Slm . Id: DASYS (lEEE/lEC/ANSI C63. I‘J-ZUI ll
DASYSZ Cnnfigumlion:
. Probe:
XJDVJ - SN7JA‘J: meFHOJfl, "£07, IUJYI): (‘nllhrfllch 15.06.1016;
- Scusnr-Surhcc: l.4nun {Mechanical Surface DL'IL'L'liun)
I Elcrlmuicsz DAB-l thlll: Czllihnllcd: 30. I2l20l5
- l’hunlnm: Flill Phammn J,‘)L; Type: QDUUUPJQAA: Scrial: I001
. DASY
8.8( l2
): SEMCAD X [4.6,10(7372l
Dipole Calibration for Head Tissue/Find“ mW. d=lSmleonm Scan (7x7x7)/Cube 0:
Mcasumucul grld: (Ix-5mm. dy=5mm. d1=5mm
Reich-um Vulu 8. V/m: Puwcr Drill = 0.0] LIB
Peak SAR (cxlrapulalcd) .|7 W/kg
sum 1:) = 2J2 \Vlkg: SAkuo g) :1 18 Wlkg
Minimum value of SAR (mcusumd) 1 W/kg
dB
ll
-Z.2Il
-l.4ll
-B.El]
>1 1 ml
0 (II! = 1.81 Wlkg = 4.50 dBW/kg
Cenihcale ND D750V3<1lBLNavls Page 5 or s
Impedance Measurement Plat for Head TSL
H mm :ms 1 .
{a
“ .L.. ‘
A». ~11 .m ‘5 n. m -;u AL 755 comma".-
:, ‘
M, ‘ A ‘ . . . . , ‘
m- ~1u.nneuub'm: v ‘r isemi‘nanww:
cmmm Na D750V3 “57 NoL/IG Fags 5 n! a
DASY5 Validalion Report for Body TSL
Dine: mu LZUIO
Teal Lubomlory: SPEAG. Zurich. Swilzcrlund
DUT: Dipole 750 MPH: Type: D750VJ: Serial: D750V3 ~ SNzl lfi7
Cummunlculitm System: um o - cw; I‘rcqucncy: 750 Mm
Mcdmm pmumclcrs 'cd 750 MM]: n =0.97 Sim: r. = 55m = mm kym'
p mlomxccliun: PM in“
Mcusumnmn Slandilrdi DASYS (IEEFJIEC/ANSI C63. I9-20l I J
DASYSZ Configumlion:
. Probe: Exmw - 5mm; Cunva‘UW, 9.99. 9.99;; Calihnucu: 5.01.1016;
. ScusopSurface: 1.4mm lMcclmnicnl Surface Delecliunl
- Els‘clmnica: DMZ-3 5mm ; Calibmlcd: 30.12.2015
- Pllflnlum: Flill Ph1|lll0III-l.9L: Type: QDOOOP49AA; Scnfll: mm
. msvs: sum 1 zssy; SEMCAD x ”mum-121
Dipole Calibration for Body Tissue/Pin=250 InW, d=lSnIleoom Scan (7x7x'l)ICubc 0:
Mcasuluumu grid: dx=5lum. dy=DIIIIIL dl=3llml
Rcl'crcllL'c Value = V1“ Power Dril lllll dB
Pcuk SAR (cxlrupnlamd) o \Vlkg
SARI! g] = 2.16 W/kg; sMum g) —
Milxmulrn vuluc of SAR (measured
1 W/kg
3 W/kg
-22“
«4,40
$.60
-|l.flll
41 ‘00
x3 Wlkg = 4. 2 dBW/kg
Cemllcale No: D750V3-1IS7_N0V‘5 Page 7 ol 8
Impedance Measurement Plol lo! Body TSL
x: . 3,31" ..
a Mm
2m x
15:::
‘ ‘ mm mm
LN;
,. ' ‘7" ,.
mm
m. m m. , 15/ m :u 4L umnmam;
. ‘ . \: . ‘ /*
Illa < ~ - - - -
'mr: 'rnmiw-mnuir ' ' 'm
Cenmme Na bum/34m? Novlfi
Pagel 9 a‘ a
r” InOallnbotIhovlwim xw‘ A 'FI'KI
‘TTL W‘ 3vchsunl
CALIIRAI'IW
m x .ylx klnlJlnamnnmmlm-nl.llllllvl.cnm - A ‘
Isl lflz—Iné;ml-L:fl79 V Fax Also—Inog‘llfmn-zsm I ‘3', n... .N‘ CHAS Lam
bum] Lulu} l'lllmulxlml Hllquww» in I!!! ,m
Cliem BAcL Cenlflclm No: 216-91196
GAMERATION CERTIFICATE
Object Dlsnovz - SN 543
Callhvan‘on Procedurafi) FD«Z|1»003-01
Callbralion chadums 'or dipole validate" ids
Calinration uate‘ Omaha! 25. 2016
This calibration Caniflcale documents the traceabillly lo nallonal standards, whlch raallze Ihe physical unit a!
msasuremenmsn The measuremenls and the umenalnhes wnh confidlnce prubabillty am given on me lollowlng
page: and are pan ol me eamncala,
All calmllons have been mndumd in ms dosed laboratoly lammy: Environment temperamreazum and
humidny<70%
Calibralion Equipment used (M&TE cflflul (or callblallon)
Primary Slandards lD ll Cal BEIelCallm-alea by. Cenlllcate No.) Scheduled Calibralion
Paw Matal NRPz 101919 27-Jun-16 (CTTL. No J16X04777) Jun-17
Puwer senso! NRP-zsl 10‘547 zuums (C‘I'I'L. Nn,J16XM777) Jun-l7
Relererlee Probe exam/4 SN 7433 26~Sep~16(SPEAGNO EX3-7l33ASep16) Sen-17
DAE4 SN 777 22~Aug-16(CTl’L-SPEAG.N0 21997133) Auw
iiecolldary snanuarus ID# Cal Dalewalibralea by Csmficale No.) Scheduled Calibration ,
Signal Genetalor E44380 MV49071430 01-Feb-13 (CTTL. Nn J16X00893) Jan-17
Network Analyzer 550710 MV46110673 Zfidan-IG (CTTL. No JIEXODBB4) Jan-I7
Name Funmon Slanalule
Ca'ihme” ”Y' Zhso Jlng SAR Test Engimer , v 112/
‘ Ravlawed by' 0| Dianyuan SAR Floject Lamar 7 ,‘gfi/
”WE'VE“ ”’1 Llu Wei Depuly nlraclm ul SEM Depanrriml 301 (4
Issued 0510133! 27‘ 20 s
This calibrallon cemficsla shall not he leproduned except in lull without wrinen appmval of (he Iaboralary
Ccnificnln No- Z16-97l96 Page l o”
~ in ram-nan W.
TTLLL¢_L§_
our-mun may
Add Nu 5| xunumi new. mum. 0mm Beijing, mum. L‘Iuna
lei «minimum-:01» m uwuwnlmmsni
l-I-rnltl ntlujch‘nuulmm mmmmnmmum
Glossary:
TSL tissue simulating liquid
ConvF sensitivity in TSL / NORMx.y.z
NIA not applicable or not measured
Czllbration is Perlonnad According to the Following Standards:
3) IEEE Std 1525—2013. "IEEE Recommended Practice for Determining the Peak
Spatial-Averaged Specific Absorption Rate (SAR) in the Human Head from Wireless
Communications Devices: Measurement Techniques". June 2013
h) IEC 62209-1, “Procedure to measure the Specific Absorption Rate (SAR) For handheld
devices used in close proximity to the ear (lrequency range of 300MHz to BGHz)", Febnrary
2005
c) IEC 62209-2, ‘Prooedure to measure the Specific Absorption Rate (SAR) For wireless
communication devices used in close proximity to the human body (frequency range of
SOMHZ to GGHZ)". March 2010
d) K038656364. SAR Measurement Requirements for 100 MHZ to 6 GHz
Additional Documentation:
a) DASYME System Handbook
Methods Applied and Interpretation of Parameters:
- Measurement Conditrons: Further details are available from the Validation Report at the end
at the certificate All figures stated in the certificate are valid at the frequency indicated.
- Antenna Pammelars with TSL: The dipole is mounted with the spacer to position its feed
point exactly below the center marking of the flat phantom section. with the arms oriented
parallel to the body aids.
. Feed Point Impedance and Relum Loss These parameters are measured with the dipole
positioned under the liquid filled phantom The impedance stated is transtprmed from the
measurement at the SMA connector to the teed point. The Return Loss ensures low
reflected power. No uncertainty required.
o Elecln‘cal Deley' Oneway delay between the SMA connector and the antenna feed point,
No uncertainty required.
. SAR measured: SAR measured at the stated antenna input power
. SAR normalized: SAR as measured, normallzed to an Input power of 1 W atthe antenna
connector.
. SAR for nominal TSL parameters: The measured TSL parameters are used to calculate the
nominal SAR result.
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 probability of approximately 95%.
Eonlfiml: N0: Z |6>97l9tl Page : et’x
Cminwe No: ZI6—9'I|96
Add No.51 Xucyuln Road. Ila-dun Dim-m H‘ulngr mom. Chum
m: mmrwnmsuaw
p...“ mlgxlrirrrml cum anJ/wuu chimlll an
Measurement Conditlons
msv system configuration as rare: m1 glvan on my: 1
m, mrrrmzarumasm
DAsv v-rxlon msvsz 52 8.3 1258
Ennpnlluon mum Empnlannn
Pnamm Trivia Flat Phanlom 5 1c
nlsrarm nlporo Ocular-15L 10 mm wnn Spacer
zoorn Scan Rosolutinn dx, ay, a; = 5 mm
anunncy 1900 MHz ,1 MHz
Head TSL paumelers
The 60an pararnnm mu calculmns wars applwfl
rumpmtun Pnrml‘luvlly Conductivity
uorrurrar Hm! TSL panmelnfi 22 a 'c 40 a 1.40 mholm
Mount-d Hun TSL parannurs (2202172) '0 «7.126% 139mmlmt6$$
mm 131. rmrpmmn enango durlng m1 <1 0 'c —» »—-
SAN result with "Bad TSL
SAR lung-d our 1 cnr’ (1 g) M rm: TSL nonunion
SAR mailman 250 rnw rnpm pm! 10,0 nrwr g
SAR rur nominal Hun TSL paramarar;
normalized lo 1W 40.: mWIg : 20.3 $1152)
SAR "mm am 111 cm‘ (10 1;) cl Nun rsr.
Candihan
SAR manure-d
250 mWInpm power 5.25 rnWl n
SAR rnr nominal mad TSL paramem
normalrzed 1:) 1w 11.1 mwlg : 20.4 “1.01:2;
Endy TSL parameters
The follawing paramarm and calwlaflan: were appuea
Ylmplrlmrl Pernrmivny Cunductivity
Mammal Body rsL parameter: 22.0 ~c 5:13 1.52 mlmlm
lunuud Body TBL warmers (22.0 g 0.2) 'c 53 a a 6 % 1 so mholm :5 11.
Body 151, temperature change during «.1 <1 0 ‘c —. ‘
SAR mull wlm Body TSL
SAR unnntd ovm cnr’ (1 n) or Body YSL Common
SAR melsuma
250 mW Inpm power 10,: rrrw I g
SAR fur norninnl Budy TSL paramew:
nmmallzad 1o 1w 41,1 mw In x 203 “I. («=21
s»: “mama em 10 cm’ (10 11)»!!tu rsL
Common
SAN "insured
250 mw input power 5740 mw I g
SAR Ior nominal Body TSL parameters
norm-mu u: w
21.1 rnw I9 2 20.4 v. 111:1)
Page s an
mm
rw balm-mm
_TTL LL—J—e a
Add M 5| Xucyum Rmd‘ ildididll 1mm“. Drljlng. mm. l'hlns
m «mm—mummzm Mn. «Kn—Inwwasi-zm
Hail ("mum-um cmn "up ’v‘vn-m cmmm m
Appendix
Anlanna Parameters with Head TSL
‘ Impedance. Iranstormed to feed point 5mm 4.37m
Requrn Lou , 27 zda
Antenna Parameters with Body TSL
Impedancn. Imnllolmad in lead polfli 45,912+ 3,7770
Return Lon ~ 7.5 963
Gannral Amunna Parameters and Design
Eledncai Delay (one direchon) I 304 ns
Aner long term use wnh 100w radianed power. only a slight wannlng oi the dipole near the feedpoint can
be measuredv
The dipole is made 0' standard sermn‘gid coaxial cable. The cenle! conduclur ofme feadmg Ilrle ls dummy
connecied lo the second arm aims mole The antenna is lhereiore shafl-Dircuihed for DC—signalS. On some
of Ihe dipoles. small and caps are added (0 [he dlpole anus in order to improve malching when loaded
aocordlng (0 me posillon as explained in the "Measurement Condilians“ pamraph, The SAR dab: am not
enacted by this charge. The overall dipole length :5 still Hamming In the Standard
No excessive farce must be appliad la the dipole arms, because they might bend or the soldered
comedians neat the ieedpolnl may be damagedv
Additional EUT Data
Manulamned by SPEAG
Cenificme 140116417196 Page r: on
r“ In Coll-barium wuh
Aw Na 5: Mann Roan lhmllan mum um“; "mm. Chum
m. 4Xb-Ill-b23mh3L2079 r.‘ immmxmusmsm
L-rnnil' nummmu unn lll|p l‘wun mm: m
DASYS Valid‘ um Repnfl for Head TSL Dal: IOZSVZOIG
'l‘csl Laboramry: CTTL, Bc"'ng. China
DUT: Dipol: 1900 MHz; Type: DI900V2; Seri
Communication Sysiemz UID 0. CW: Frequen
Medium parameters used '= 1900 MH/; 6 :
Phanmm schion: (‘emzr Seclion
Maisuremenl Slandard: DASYS (IEEE/IEC/ANSI C63r19-2fl07]
DASYS Configuration:
Dl900V2 - SN: 543
900 MHz; Duly Cycle: m
8.: 5m; er = 40.11; p = 1000 kg/m;
- Probe: EXSDV4 - SN7433: CorlvFl7.98. 7.98, 7.98): Calibrated: 9/26/2016;
. Sensor-Surfacc‘ 2mm (Mechanical Surface Dcluuliun)
- Electron DAE4 Sn7771 Calibraltd: 2016-03-22
- Phnnlom: Triple Flat Phanmm 5.l(‘ lypc: ()1) 000 1’5] CA; Serial: [161/l
- Measurement SW' DASYSZ. Version 518 (X); SEMCAD X Version 14‘6.10(7372)
System Pcflormlnce Check/7mm Sm. (7x7x7) (7x7x7)/Cubc 0: Measurement grid:
dx mm dem. dz:5mm
Reference Value = 9 24 Vim: Power mm = ‘00] an
Pcak SAR (cxlmpolmcd) : 1&2 W/kg
sum g) = m W/kg; SARuo g) = s W/kg
Maximum \aluc of SAR (measured) 7 4:, kag
dB 7 — 7
4‘43
{‘81
40,3“
43."
Leo: ,,
~11” ;L—~—
0 (in = 43 W/kg = 11.55 dHW/kg
Cenilicale No: Z Ila-97196 Page 5 an;
r“ InCollIbol-uonmlh
_TTL SAmn
mm mm Xwnmn mu. ”mam. ”mm. mm: mumn‘m.‘
m vxn-w-uw-MJJ-zu'r-J m Vanda-513mm; 5m
[mull (um-Mimi“! (um ”up. Mum clumm u:
Impedance Measurement Plot for Head TSL
in: 511 Lag rs 15701973? uvonofi m]
m an
y- :1: mr- mm mu Lam, In um
mm a was“ 363 Saw ’
n mem r
iii-".70! mum.
(‘enificue No- Zl 637 I‘76 Page e um
“yum-f
WWW
r» InColl-boulmwlm
TTL S 2 e 8 a
Add m. 5: xmm mm um... Dumu Baum): mm), mm...
Tcl'vKlHYH vmbsarzmv m 40400110"); s04
I:.m..| nxléthinuulcnni Hllp ‘mm chum!" m
DASVS Validation Report for Rudy TSI, Dale: 10.25.20”
l‘csl Labumlury. C'l'l L B . China
DUT: Dipnl: 1900 MH ., Type: DUMVZ; Scrixl: D19DDV1 - SN: 543
Communication System: UID 0. CW: lircqucn WU MHL: Du!) Cycle: 1:]
Medium pammclcm used: r: 1900 MH/, (1 .. ()4 Wm. c. p : 1000 kg/m‘
Phantom semion: Center Seclion
Mensuremcm Smndnrd‘. DASYS (
DASYS Configuration:
(‘IANSI (him-2007)
- Pmbe. EXSDV4 - SN7433. Cami-‘17 7. 7.7. 7.7): Calibrated: 9726/2016:
- Sensor-Surface: 2mm (Mechanical ‘url‘acc [)cleclmnl
. Electron , )A . Sn777: Calibrated. 2016-08-22
- Phamom: Tnple Flm Phanlom 5 1C; Type: CD 000 P51 CA: Serial‘ “El/l
- Meanurcmcnl SW' [)ASVSZ. Version 52.8 (8): SEMCAD X Version 14.610 (7372)
5mm Perranmnce Chuck/2.00m Scan (mm (7x7x7)ICuhr n: Mensummcnl grid:
d ‘mm.dy15nlm,dz:5mm
Reference Value = 99 20 Wm: Power mm = .003 an
Pcnk SAR (enmpolmed) 7 17.9 “W:
sum g)= 10.2 W/kg; SARUU g)
45.25 ' ,
0 as = 14.4 Wlkg = 11.58 dBW/kg
Cenincam N01216~97|96 Page 7 a! «
91‘1”] :Corhbw-nonewim a
mailman uloumlv
Add NnSI.\u:}1mnllnud,Imidmnllmnu.Ht 15. mm L‘hma
m m. Mymnsum m mmw :0“.qu
F-m cu‘gchmanlmm |lupmm~x¢rluuqulcn
Impedance Measurement Plat for Body TSL
m :11 Log mg Lo.w¢u7"{=73iaoae [E11
“ “" m 1 wow» an 929 u
.w u.-
p- m 5mm gum 5m. Lawn [n can
u 1 afloaow m w w n 3 me n 3:; 3w v
Almum mm»: mum-[u
Cvnincm No: LIE-97l96 Page :4 era
Download: P20 Mobile Phone RF Exposure Info SAR Probe & Dipole Cal Cert AVENIR TELECOM
Mirror Download [FCC.gov]P20 Mobile Phone RF Exposure Info SAR Probe & Dipole Cal Cert AVENIR TELECOM
Document ID3843926
Application IDJfhsvW+23e7w8ckNEtkrUw==
Document DescriptionSAR Probe & Dipole Cal Cert
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeRF Exposure Info
Display FormatAdobe Acrobat PDF - pdf
Filesize175.53kB (2194107 bits)
Date Submitted2018-05-08 00:00:00
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Document TitleSAR Probe & Dipole Cal Cert
Document CreatorAdobe Acrobat Pro 9.0.0
Document Author: DG06210

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