W25 POC Trunked Two-way Radio RF Exposure Info SAR Calibration Data II Shenzhen Kirisun Communications Co., Ltd.

Shenzhen Kirisun Communications Co., Ltd. POC Trunked Two-way Radio

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mvs sAK “mac: mom cmnmnow mom m Ack use 1s mu A
1 INT RODUCI'ION
11m doeumem comm a summary ofthe requirements set forth by me IEEE 1523, FCC was and
CEI/IEC 62209 standards fur rcfzrcncc dipolcs used rm SAR mcasumment syskm validatmns and
the measurements mm were performed to venry um [he pmducl complies mm the rare memoucd
smudards.
2 DEVICE UNDER TEST
Device Under T251
Device Type COMDSAR 1900 MHz REFERENCE DIPOLE
Manufacturer MVG
Model SIDI9OO
Serial Number SN 29/15 DIP 16900-389
Product Condition (new / used) New
A yeatly calibmlion inlarval is remnmended.
3 PRODECT DESCRIPTION
3.1 GENERAL INFORMATION
MVG's COMOSAR Validation Dipoles at: built in accordance to the IEEE 1528, FCC KDEs and
CEI/IEC 62209 standards. The product is dcsignnd for use with the COMOSAR lest bench only
figure 1 MVG COMOSAK Vultdmion 1.21pm
Page; 4/11
finder-"MM m b: nprodm amp! mflllorm pan wvflwul 02 mm mm": QVWG
n. ".me :ammdlumu u m at nww>firuupurpucjw Mn :1 u "mummmm la
be "144:“de My! mm: mm Worms
SAR RETERILVCE DIPOLE (‘ALIBRA'HOV REPORT N AER 1|“ Is SAW A
4 MEASUREMENT METHOD
"line I; 1528, FCC mils and CHI/[EC 62209 standards provide mquimmculs tor mfci'cncc
dipoles used for syswm \alidlillou rncnsnrcmcnts. The following mcnsurcmcnts were pcrformcd to
verify tltnt the pmdnm complies with the fore mentioned ttnudnrds
4.1 RETURN LOSS REQUIREMENTS
The dipole used for SAR syslem validmloli mensllrenlems and checks must have a retum loss of -20
dB or herter. lhe return loss measurement shall he perfomied agailm a liquid tilled Hal phantom,
\Vl‘h lhe phantom cunslucled as oulllnéd in the fore mcmioncd standards.
42 MECHA [CALRI‘I l'leMltN'l‘S
'lhe 115E Std, 1523 and CEL’ILC 62209 stnndnrds specify the mechnnical components nnd
dimensiom orthe validation dipoles wllh the dimensions t'reqnency and phantom shell thickness
dependent The autumn test bench employs a 2 mm phautmu shell thickness therefore the
dipoles sold for use nith the COMUSAR test hench comply with the requirements set ronh for n 2
mm phnntotn shell thickness.
S MEASUREMENT Uht
cRTAINTV
All unconnurtiea lined below represent nn expnndad \Incerlaimy expressed at nppmVimalclv the 95%
confidcncc level using a coverage [actor ot‘h:2. traceable to the inter-nationally Accepted Guides to
Measurement Ullcenainly.
5 I RL'I'URN LOSS
The following tutcertnhrties apply to the return loss rrreastueinent:
Frequency hnnd Expanded Uncertainty on chlm Lotta
4|)0-6000Mllz 0.1 dB
5.2 but ‘ .tstlltl'
The rollouing uncertainties appl} lo the dimension measurements;
Length (mm) Expanded Uncertalnty on Length
3 . 300 o 05 mm
5 3 VA] IDATIDN MP SL‘REMENT
The guidelines outlined in the I . 1528. 1=cc was. CENELEC EN50361 nnd 03va 52209
standards ncre followed to generate the measurement uncemmh' for validation measurements.
Scan Volume Expanded Lucenalnty
lg 2039p
Page. 5 ’l!
n/lvbmmmuhofl m br reproduced 1qu m Mo, 17! rum Mt/lloul vr‘k mmm ”WM/l! mm:
the human“ :amnmsd‘mvrm tr he he nearer. [mileptnpuehe when u n ricerrrredmtrr mil lo
A2 lrlaami n whoa mm imam mum timer”: otmt:
slut erzrvrr DIPOLF r \lmnAnoV erm M W We 16 SW .\
mg 2010;.
6 ( ‘ALIBRA'I'IOF ME;
SUREMENI' R15 L L IS
(. I RIXIVRN LOSS -\1\D [\1I‘I DAVE], I\ III Al) LIQUID
WV‘AH:
11m m) 1m 1% 15m we M 'w 1121 :mn
Frequency (“111) uennn 1.0mm") Requirement (an) 1 lmyednnre
1900 46.32 .211 o x :2 7 4,,
0.2 RL'I'URN LOSS A31) IMPEDANCE Ie\ BODY LI LID
me: 1221 1940 an 'Bm 1Em 1m mu 1;; m :mn
m —_-
h-e-qnene; (mu) umnm Lass (an) qumnlmm (em) ‘7 unpednnu-
woo 43.111 -2v 1 46.2 1.» 5.1 112
6 3 MECHANICAL DIME SIOVS
Frewenw mm [mm n mm .1 mm
requlrad meennen mqulmd maimed requirad maasurad
am ainnzm 2511mm 6mm
Paw fi 11
Hmdmulwm my memMm-n mm, ML mum um‘vwl nonmmn mew z,
HMmfmvm/Lm‘ mmmrwvi‘wn/mum We M ”my,” [mm/1n Mennlemmn Nelly
1» 1mm,” mm mrer/mM/urmen WM «1/1/17:
mm: sAR REmncE mm“: cmemnon mum ks Ac: use is smv A
450 my 11 9. 155.731 9e 6.3531 ‘A
750 175mm IDGD21% 55an
us lfiluxlw sun-re 3mm
goo 149mm 5332M 3621’s
ma aanm nuns ssuss
150d easzm snug”. 362156
154a 75mm. asum sense
1750 7521195 azsxm asuss
1m 72mm. Alum segue
1900 as on 56' ms is 5:] ye us 35:] as “55
1950 essem assxl'h 36x19»
mm: sun-e 375:”. 152196
2m amaze, 3mm genes
mu 555x156. azsxm sense
245:: 5152156 mum sense
15m: “521% Isnlv. 152156
am “511% 15mm aexns
35m 31m: 24.. 15 021 M 3511 as
3700 2th} v. 15 m w. as :1 9e
7 VALIDATION MEASUREMENT
The: IEFF. Sld ISZX. FCC KDR; and CEI’IFC 62209 standards stale [hat the xylem valid-Alia"
memremenu musl be performed using a reference dipole meetlng ihe fore meniioned return loss
and nneehnnienl dimension reqllucmcnls. The valldahun measurement rnnei he performed ugalnxl a
liquid filled flax phantom. wilh the phamonl consumed as enihned in are few mentioned slenderds.
Per the: smndards. me dipole shall he pusllloned below Lhc bollum of Lhe phantom, with are rhpole
lengih eemered and parallel to ihe longesi dimension orihe an phanmm, wilb are lop surface of ihe
dipole at the described distance fmm ihe bonam surface ome phantom
7.1 HEAD LIQUID MEASUREMENT
mm“ eneieemnwe. “numerals/M
unwind mlwmd Rwlrld measured
3m 45 3255s eeusn
450 mm. Hum
75.: mm. uses-e
335 mm Mugs-A
9m 41 em 0972554
145m m s ,5 n 1 20:5 n
1500 mm mm
1640 4042556 1311556
1750 w 1 x5 x 1 37:5 v.
Page. WI
mmxummhnu m b: "mam "(sz mfllllwm pun Val/1014101: wnm Mm: mm:
m m/vmflwn («rimmed/um" n n, be nwdml)fizrllupmpuxfi» Mud n n nbmlllldm-iuml la
a. new 1” whole mm mm: mm 4mm: DfM'VG
m mum 155nm
I'I'IVE SAR REFEREVCE mrom CALIBRATION REPORT
mu moms 14015-1
19011 4002551 pass 1 «my pass
19511 40101511 1 «015%
ma 40mm 1.4mm
21m 393151;. IOBASM
2300 1951511 15715-1;
24511 39121511 11015-5
2500 3901591 1.25:sz
sum 32 5 15 11 z w 15 '4
3500 1791591 2913511
7.2 SAR MEASUREMENT RESULT WITH HEAD LI! QUID
The [E]: Std 1523 and cmuc 52209 Qandards mus um Ihe systm validallon measurements
should produce the SAR values shovm below (for phantom duckusss of 2 mm), wmuu th:
uucmuimy for 111; system vahdmjan. All SAR values m nonmlized In 1 w forward power. Iu
bmckel, the measured SAR is given with the used inpul power
sdnwaxs OPEN‘SAR v4
Human! SN 20/119 SAM7I
the SN IS/ll Emu:
L1qu1d Had L1qu1d \‘aluns sps' 38 5 s1gmu 145
019.1111: between dumle center and llquld 10 0 mm
Area scauresolmmu drflmm’dv’fimm
Zoon Scan Rssolmou wsmm/dwxmm/drmm
Frequenc I900 MHz
1qu puwer 20 dBm
Luuud 'l'cmpemmre :1 «1
,Lab, 1111513111.: 21 ‘6
Lab Humduy 45
“rm“ 1 . sax (WIka/WJ m s m (w/Ium
7 ranked measumd when Muslim
and 2 35 1 94
use 4 ss 2 us
75m 2 s1 5 55
335 s 55 s 22
900 1a 9 s as
1450 29 15
1500 so 5 15 a
1m 34 2 1a 4
17511 :54 1s 3
mm at; 1 m 1
Page. MI
fluduumznuhafl m b: "profiled "(sz mfllllwm pun wnhow 1;» wnm (Wm: mm:
m "um...” Mum/um. u 1., 1‘ Aidan!) ‘1'”. WW. 1» Mkh u u "Wuhan,“ la
1. mm m W14 mm 1mm 1mm 1mm: DfM'VG
SAR ernmrr mmw (‘ALIBRATIOV RFPORT
mum msAwA
19m 357 mama) ms ma u 13)
use an 5 my
low 41 1 21 1
2100 436 m
2300 43 7 23 3
1450 52 4 24
mm 553 m
awe 632 2.5 7
35W 67 1 25
7 3 Bum nggl, ID MEAsUkhMLM
“51‘1"” Mame nevm'nlivllv (m mummy [cl 5/.“
mnulmfl musund mm mumd
15a 512252. 0302551
34m 5:: z :5 v. o 92 :5 v2
450 967352, 9,5425%
75:; 55 5 25 2/. 09525-2
s25 552252, nansx
Boo 55mm 20525»:
915 55mm ions-k
1450 54mm. nus-2
16m 53 s :5 a 1 4D15‘9:
mu 53325“ 1525-2
1900 52 2 25 2/. ms x 52 25 v: ms
2mm 53 2 :5 a 1 52 15 v2
2100 522ml. 16225"/<
245a 527:5% 195st
Page. a / r
IYmdmulh-m M: m ~ 71vade mm m M arm/11m who»: 1,» Mrmm ”firm/VI arm
a», WWW..." :wumrwd‘wmm u m m “w m M ”Wm,” [14 mm .1 u “madam m I»
be mm m uth Irrrvm Mmaw mm mm m 01 W17
SAR RI'I'ERI‘NCF mmw mummnov RFPORT Rel MR 2m ‘6 SAW A
2500 mm. 2mm
mm mm. 21m»
35m sum nus»
5200 mum 53mm
5300 45mm 54mm
5400 42172105“. 553mm
55m mum 5 55 210%
5500 425mm 5 7mm
saw mum 50mm
74 SM? MEASURFVIFNTR ,
IT WITH BODY Ll ' I‘m
Soflwm‘ UI’H\S‘\R V4
Pmmum S’\ 3"”) SAM7I
Probe 3V IX" \ EPG ‘2‘
mm Body Liquid anm up! 53 3 Mgma 1 36
stmncc bcm‘ccn amok mm and hquld lo 0 mm
,vemmmmmum ox 'mmruwmm
Zoo" Scan Resolmmn dFSnmv'd)=Smm dl=5mm
quuency 190031112
Input pmm 20 dBm
mum rmpcmmn: "1 K
Lab I'Smpc‘rmulr
“m llumxdny
Frequency
MHz
mo
“gum/WW! musmuw/ulw}
measured measuled
392mm) Inseam)
PM. um
Minimum-m vlmll m ~ WWW £qu m M m m mm who»: u» Mrmm Inmm! mm;
a», “/4an :wumrwd‘wmm u m m ”a m m ”Wm,” [14 mm .1 a ”WWW” m I»
be 1mm m “mu mm Mmaw mm mm m anrm
SAR “mum: mrom CALIBRATION REPORT Rd Wk 1'55 ‘6 SAT” A
8 LIST OF EQUIPMENT
Equment Summary Sheet
Mlllllllflul'el‘ Curl-alt
l] ‘ptiml Moth] Idmfiflulfion N0. Cull Data
audated N0 ear a1idated N0 ce1
SAM Phantom MVG sN-20/005AM71 sawed “we“
COMOSAR Test Bench Vevsmn 3 NA ”mam N“ a‘idated N“ 93‘
equlred Eqwred
Network Anetyzer Rmdefvicm’z 501100132 02/2016 02/2019
Cahpers Car/era CAL‘F’ERJM 12/2013 12/2010
Reterenee Probe we EF'G122 SN 18/11 10/2015 10/2010
Mummeter Kenhley 2000 1188656 1 2/2013 12/2015
51gna1eeneretor Ag11ent EAASBC MV49070581 12/2013 12/2015
charactenzed prtor to chateaenzed prlor to
Ampme’ Aememmm SN 046 test. No 021 requued test No cal reqmreu
Power Meter HP 5441 EA 0330251495 12/2013 12/2010
Power Sensor HF‘ ECP-EZSA USJ71B146D 12/2013 12/2016
cnavaotenzed prior Io Charactenzed prior to
Drrec11are1Coup1er Narda 4216-20 01356 fist No ca‘ reqwed leg. Na cal reamed
Temperature and
Hummy Sam, Comm Campany 150793032 10/2015 10/2017
Page. 11x11
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52 1912mm} m we Drprrr mm mm gym: mm:
Calibration Laboratory of
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Schmld & Partner 0 scrv'm min. d‘mlonnlge
Engineermg AG Sewn. Mum ui mm".
laugh-Insulin 4:, ma zunen, mummy“: 5 Swill c-ubmlon Suwlcl
Acumen-a bylhe sms Accrmhalmn Serww 15As) maimm Mm: SCS 0108
m sm- Acwedhlliun Sirvicl is on. M m. ugmmmnm EA
Mummm “mm-m am we mcngnluon nl "Harmon osmium:
(>le Mic (Auden) eminen- no: D2450V2—968_Jun15
omen D2450V2 - SN: 963
oalmmmn pmnmas) 0A CAL-053$
Callbrefion procedure lor dipale validalinn kits above 700 MHz
Calibration dale June 12, 2015
This caAiblauon mmlmma dnwmms ma "mummy m manor-an swam, Much rmlize me physI-l Halls 0! mmmmem (Sn.
The measmemems and me unbenmnues mm cammsncs pmbamny am given an mlouawing mm and are pan om. cammva
All calmrmkms have been summed m we mused \abolzhzry lam my anmmnmam mmpemlwe V22 gave and humlmly < 70%.
Caumancn Eqmpmem used wars emu-x lar calmva'llon)
Fumary Standards m a Ca‘ um (Oenmcma No > Schmmed Gllmralmn
Pawsr mam EPM-M2A 5537mm mom 4 (No 2‘ 7mm) 021-15
Paws! sense! HP mm {1537232733 u7-ocl44 [740,2‘7-021320) mm s
Paws! senleP mu wuoszw aroma (mew—02021) ems
Refereabe 20 as Aneuualar SM 5055 (2010 m-Apr-15(No,2W-02I31) MAME
Type-N mmam commnanan SN 5047 2105327 MAW-‘5 (Nu gummy Mar-I5
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Summary 513mm; m « crux Date (In ham, smaulm cmx
HF genemm HAS st; wows MrAug-N (In house thank OCH 3) m house m: OCHG
Neiwok Ana‘yzev HF maE usavagasas 542m 1&0qu my house cum Oct-H) m house Maya-15
Name mum Swmlure
Cahhmmd W In» Emma LloommyYIchnbhn ( 1 Z
AW: W ma Pam 7mm Minna/(1&1 X/
\ssusd June ‘2‘ 2015
ms cannmm cumimam shaH not be mpmdwad mm mm" mm wnuen mum: m we lammary.
Cemflcale No~ Dzasovaraaagums Page 1 M a
Calibration Laboratory at \¢@,
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Schmid 8. Partner C Sorvio- "mom-inn...“
Engineering AG
ZIunn-unnsn u. mo Zurich, swam-m S
Slwlno svlnero oi man.
swiu cuibvllion smu-
Accvedied by the Swiss Accrwdaliun Semee lsAs) Moreen-lion Mot: 5C5 D105
Thl Swiss Mcmiuunn amic- II on. oi mo llgmwles tome EA
Mulllllterll Agreement!" In: recognition ultzlllzrmwfl entitle-h-
Glossary:
TSL tissue simulating liquid
ConvF sensitivity in TSL / NORM x.y,z
N/A not applicable or not measured
Calibration is Pertormed According to the Following Standards:
a) IEEE Std 1528-2013, “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
b) IEC 622094. "Procedure to measure the Specific Absorption Rate (SAR) for hand-held
deVices used in close proximity to the ear (frequency range oi 300 MHz to 3 GHz)",
February 2005
c) KDB 865664, “SAFl Measurement Requirements for 100 MHz to 6 GHz“
Additional Documentation:
d) DASY4/5 System Handbook
Methods Applied and Interpretation ol Parameters:
. Measurement Conditions: Further details are available from the Validation Report at the end
of the certificate. All figures stated in the cerliiicale are valid at the irequenoy indicated.
. Antenna Parameters with TSL: The dipole is mounted with the spacer to position its teed
point exactly below the center marking oi the llat phantom section, with the arms oriented
parailel to the body axis.
0 Feed Point Impedance and Fierum Loss: These parameters are measured with the dipole
positioned under the liquid titled phantom. The impedance stated is translormsd from the
measurement at the SMA connector to the teed point. The Return Loss ensures low
reflected power. No uncertainty required.
- Electrical Delay: One-way delay between the SMA connector and the antenna feed point.
No uncertainty required,
- SAR measured: SAR measured at the stated antenna input powert
. SAFi normalized: SAR as measured, normalized to an input power of 1 W at the antenna
connector,
- SAR for nominal TSL parameters-The measured TSL parameters are used to calculate the
nominal SAR result.
The re oned 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%.
Certificate No 02450V2-968_Jun15 Page 2 at a
Measurement Conditions
DASV system legurmlun. as lar as not __givsrl on page 1.
DASV Version DASYS v52.”
Empolltlon Ammnced Extrapolation
Phantom Modular Flat Phantom
Distance Dipole center - TSL to mm With Spacer
zoom 5cm neeolution dx, dy. dz = 5 mm
Frequency 2450 MHz : 1 MHz
Head YSL parameters
The lollowtng parameters and calculations were applied.
Temper-titre Conductivity
Nominal Mud TSL p. metere 22.0 ~c 1,30 mttolm
Measured "and 15L paramekrs (22 t] 2 0.2) “c 35.2 I e v. 1.53 mno/m x 6 °/.
Hurt TSL temperature change during ten < 0.5 "c ,.
SAFI result with Hand TSL
SLR averaged avert em’ (1 9) ol Henri YSI. Condition
SAR measured 250 mw input power 13 3 WM}
SAR lor nomlnal Head TSL palametEvs normalized to 1w 5.3.: Wlkg x173 7- (it-2)
SAR averaged over to em‘ 110 9) ol Nut! TSL Dondltlnn
SAFt measured 250 mw input power 5,44 Wlkg
SAH lor nomlnal Head TSL parameters normahzed to 1w 25.5 Wlkg 116.5 as (tree)
Body TSL parameters
The iollrming parameters and calculations wem applied.
tomperttture Permittivity conductivity
Nominal Body TSL parameters 22 u "c 52 7 1.95 mhmm
Mounted Body YSL parameters (22 o e 0.2) ”C 50.9 x s We 2 04 mno/m z e we
aody TSL temperature arrange during test | < 0.5 =0 --
SAR resuit with Body TSL
EAR avenged ever 1 em’ (1 g) oi aoay TSL Condition
SAR measured 250 mw input power 133 W/kg
SAR tot nommal Bady TSL pamrneters
normalized to 1w
51.7 WIkg : 17.0 $6 (i=2)
SAR mr-ged over 10 mn’ (to a) oi Body TSL oondillorr
SAR measured 250 mw input power 5 19 W/kg
SAR lot nominal Body TSL parameters nonnalued to tw 24.5 W/kg 2 15.5 as (It-2)
Certificate No- D2450V2~9657Jum5
Page a at e
Appendix (Addt onal assessments outside the scope of SCS 0108)
Antenna Parameters with Head TSL
Impedance. transtonrred to lead point 54.5 n + 1.5 in
Ftetum Loss . 28 7 dB
Antenna Parameters with Body TSL
impedance. translormed In lead paint 51.7 Q + 3 9 in
Return Loss - 27.6 dB
General Antenna Parameters and Design
Electrical Delay tone direction) 1 is: ns
Alter long terrri use wtth 100W radiated power. only a slight warming or the dipole near the leedpcint can be measured
The dipole is made or standard semirlgid coaxial cable, The center conductor 01 the leeding line is directly connected to the
second arm ml the dipole, The mantra is therefore shon-circuiled tor DC-signals. On some at the dipoles, smell and caps
are added in the dipole aims in order to improve matching when loaded ascending to the position as explained in the
Measurement Conditions" paragraph. The SAR data are not aligned by this change. The overall dipcle length is still
according te the Standard
Ne excessive lcrce must be applied to the dipole arms, because they might band or the soldered connections near the
teedpoint may be damaged
Additional EUT Data
Manutacrured by
SPEAG
Menulectured en
November 19. 2014
Cemiicate Nc D2A50V2-968,Jun15
Page a ole
DASVS Validation Report for Head TSL
Tcsl Laboralory: SPEAG. Zunch, Swilzcrland
DUT: Dipole 2450 MHz; Type: D2450V2; Selinl: D2450V2 - SN: 968
Communication Syslem: Luv 0 . cw; Frequency 2450 MHz
Medium paramelers used: f: 2450 MHz; 0' = 1,88 S/m 13.2; p = 1000 kg/m‘
Phanmm seclion‘ Fla: Section
Mcasurcmem Standard: DASYS (lEEE/IECIANSI C63.197201 I)
DASYSZ Cunfigumlion.
- Fmbc: ESSDV3 , SNSZOS: ConvF(4.54. 4.54, 4,54), Calibralcd: 30.12.2014.
Sensor-Surface: 3mm (Mochamcul Surface Delectmn)
Dale: 11.06.2015
Electronic: DAFA SnfiOl;Cal1brmcd: 18.03.2014 1
Phantom. F1111 Phantom 5.0 (from); Type: QDOOOPSOAA, Senal: 1001
DASY52 5183(1122): SEMCAD X 14.6.1003} | I
Dipole Calibration for Head Tissue/Pin=250 mW, d=10mmIZoom Scan (7x7)(7)/Cube 0:
Mcasuremem gnd: d =5mm, dy=5mm, 11:51:11“
Reference Value : 02.0 V/m; Power Drift : 0.04 dB
Peak SAR (exuupolated) , 3.5 W/kg
SARU g) = 13.3 Wlkg; SARuo g) =
Maximum value of SAR (measured)
.44 W/kg
13.2 W/kg
4 In
a m
11.0
41.2-
mm
0 dB =181 W/kg =1Z.60 dBW/kg
cenmcate No. D2450V2~968Jun15 Page 5 ol 5
Impedance Measurumenl Plot Ior Head TSL
:: 54.5% n
msu xurs
155
Hm
cu: ,
2 Jun 2-15 “:59”.
1.4335“ amnpu
2 45mm aee mu
sum 2 25mm see an
snap 2 55mm can an:
cements No‘ DawnvzrasLJuma Page 6 cl 3
DASVS Validation Report for Body TSL
Dale: |0.0fi.20|5
Ten Laboratory: SPEAG, Zurich. Switzerland
DUT Dipole 2450 MHz; Type: D2450V2: Selial: D2450V2 - SN: 968
CommunICaLion System‘ 11) 0 . cw; Frequency: 2450 MHz
Mcdxum parameters med. f — 2450 MHz, 5 : 2.04 5/111; c, = 50.9; p = 1000 kg/m‘
Phantom section: Flat Scuiun
Mensuremem Standard DASYS (lEEFJIEC/ANSI C63. 19-201 11
DASYSZ Configumliun.
. Probe: Essnva . 5113205; ConvFHJZ. 4.32. 4.32); Calibralcd' 30.12.2014;
. Scnsor»$urface: 3mm (Mechanical Surface 1331mm)
. Electronics: DAEA Sn60| ; Calibrated: 18.08.2014
- Phantom: F131 Phanlom s 0 (back); Type: QDIKIOPSOAA; Seual: 1002
- DASYSZ 52 8.811222); SEMCAD x 14.6.111173311
Dipole Calibration for Body Tissue/Pin=250 mW, d=10mleoom Scan (7x7x7)/Cube 0:
Mcasuremem grid: dx=51nm. dy=5mm, d *5mm
Refurcnc: Value = 95.20 V/m: Power Driit : 0.02 dB
Peak SAR (extmpolated) = 7.3 W/kg
SARU g) = 3.3 W/kg; SAN") g) = 6.19 Wlkg
Maximum value of SAR (measured) = 17 5 W/kg
dB
4.40
43.80
43.le
47‘5“
7221M]
0 dB = [7.5 W/kg = 12.43 dBW/kg
Cemficale Nu: Dzasovzraseglums Page 7 M a
Impedanu Malsurlment Plot for Body TSL
2 am m: mssm
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Camficme No‘ uzwuvz—Daagums Page a a! a
I'I'IVG
SAR Reference Dipole Calibration Report
Ref: ACR.216.9.]6 SATU A
ATTESTATION OF GLOBAL COMPLIANCE CO.
LTD.
1&2F, NOIZ BUILDING, HUAFENG N0.l INDUSTRIAL
PARK, GUSHU COMMUNITY XIXIANG STREET
BAOAN DISTRICT, SHENZHEN, P‘R. CHINA
MVG COMOSAR REFERENCE DIPOLE
FREQUENCY: 2450 MHZ
SERIAL N04: SN 29/15 DIP 2G450—393
Calibrated at MVG US
2105 Balm" Park Dr. , Kenllt‘salwy GA 30144
Calibration Date. (HMS/-016
Smmmrrj'
rm» llmumenl present» m: mum xvml mum l'rnm 1m muemw MK referent dlpnlf cahhnumn
pcn‘omcd m MVG USA umg Lhc COMOSAR (csx bench All cahbrauon rcmlh arc naccablc w
nmmmll mmnlugg mnumm
sm REFERENCE DIPOLE munmnow nnrom
Rd ACR2169IESATUA
Name Func/Ian Dale Signature
Prepared by - Jérfime LUC Producl Manager 2%
Checked by - Jéréme LUC Product Mdnnget W3" 2016 fi’
Approved by. Kim RUTKOWSKI Qualily Manager 330015 (N, m , Wm
cimomeriwim
ATTESTATION
_ OF GLOBAL
D’Wbm’" COMPLIANCE
CO. LTD.
Issue Date > Modifications
A mama Initial rclcas:
Fag-t. 2m
Ihvrdorwkwml nor be I'Imxivmrl m:- nu ma wmparr, uuhmn u» mum! ”Wm o/MVG
11.1 mm“ :wumtudhlmmum .5, “MM.“ [hepwpxjnrvflmhv ”minikmmi mi :1:
he "km” wt, m‘pnrl Mrhmummeu gym mm:
sm RE .mvca DIPOLE mumunow nnronr W Wk 1‘59“? SAT” A
TABLE OF (‘ONTENTS
l lnlmducuon.
2 Device Undchest.
3 mam Desmpmn ..
3,! 0mm! Infomation
4 Measlmnml Melhod
4.1 Relum boss Requirements
4.2 Mochamcachquiremmls—
5 Mcnsunmem Uncertainty
5. 1 Return boss
5.2 Dilnmswn Moxsurancnl
5.3 Vulidalicn Measurement
6 Callibmlicn Mcfiurmwulkesulls .
6.1 Relum In“ and linpcdmcc In Head Liquid
6.2 Relllnl Lass and hnpedimce I.“ Budy Liquid
6.3 Mechanical Dimensions
7 Valididimi meamremem ..
7 1 Head Liquid Measurement
7.2 SAR Mensuremenl Resull With Head Liquid
7.3 Body Liquid Mcasuremcnl
10
7.4 SAR Mcasulcmcnl Resull With Body Liquid
x List of hquipmenl ..
Fagin 5/11
m rdanmlemflrdl nor be r’lwdvmrl m:- nu ma wmmrr, mm m: mum! 0mm mm:
m! info/mum»! :wuamldhzmmum hr “min, 19, umpipgflmkw immumwu mi in
I»: refund!" mi, mm MI/mulmmeu 4pm: 0/ mm
mVE 5m REFERENCE mroLE CALIBRATION “mm W ACRE” ‘6 SAT” A
1 INTRODUCTION
This document conlnins a silmmnry orme requirements sel form by [he lEEE 1528. FCC was and
CEIJIEC 62209 sundnrds for ”rm-ice dipoles um for SAR measurement systtm validations and
1h: mcasurcmcnls um wan: pflfonnsd m vcnfy mm the product complies with Lhc: [we mcmluncd
smndards.
2 DEVICE UNDER TEST
Device Under Test
Device Type COMOSAR 2450 MHz REFERENCE DIPOLE
Manufzcmrer MVG
Model 31132450
Serial Number SN 29/15 DIP 26450-393
Product Condition (new i used) New
A yearly calibration inlmal is recommended.
3 PRODUCT DESCRIPTION
3.1 GENERAL INFORMATION
MVG’s COMOSAR Validation Dipoles are built in accordance in the IEEE 1518. FCC KDBs and
CEIJIEC 62209 standards. The product is daiylcd far use \Vflh the COMOSAR (ESI bmch only,
figure 1 MVG COMOSM Validation Uzpole
Pagu, a/u
Thirdorwlmlml nor be Npmdumd en" Infill! wmparl, Huh”! [It mm (Wm 0mm
".1 Wm," rmummnm...m .5: “Emmy, lkywpuxjwulnzhn lxjublmllldaudu mi :1:
be retemrdln «ml, «rpm wimmmm WM a/MVG
5m REFERENCE DIPOLE CALIBRATION nnronr Rn m1 116 9 ls SAW A
4 hlEASUREMENT METHOD
The IL 15287 c Kle and Cl C 61109 standard: prmnds rcrpnrernsnts for reference
dipnles used for system Validation rnensnrenients. The following inensnretnents w . pcrfonncd It)
verify that die producl eurnplies wilh the fore .nentinned srnndnrds,
4'} RE TURN LOSS REQUIREMENTS
The dipole used for SAR layslem validation measurement: and checks must have m remnl loss of -20
dB or 1mm lite return loss measurement shall he pert'onned against a liquid filled llal phantom,
Willi the phanlom eenstneted ns ollllined in the fore mmlioned slandardee
4,2 MECHANICAL RF. l?lRl‘1Ml‘N'l‘S
the mug Sld. 1522; nnd GEL/[LC 62109 stnndnrds specify Ihe meelnnnienl eonrponents and
dimensions of the validation dipoles. with the dtmenslens tieqneney and plinntein shell thickness
dependent, 'llle COMOSAR test heneh employs a 1 mm phantom shell tlnelness therefnre the
dipoles sold for use with the COMOSAR test beneh soinph with the reqnirenients set forlll for n 2
mm phnntntn shell thickness.
5 MEASURE“
NT INCERTAI NT"
:\ll uncenainllcs listed below represent an expanded nneenninty expressed nt nppmVllualely the 95%
confidzncc 1:ch using is coverage 12mm tuna. trneenble tn the Lnlmmuonally Aeeeptetl Guides to
Measurement Uncennully,
51 thl'URN LDSS
The rollening nneenninties Apply lo the retnrn loss rnensnrenient:
Frequency bnnd Expandul Unccnninty nn Rnum Lnsn
Alto—doomlllz 0.] dB
5.2 DIM \l MléAsllRlClv 'r
The following unccnainlics apply to the dimension measurements:
Length (mm) Expanded Uncertainty nn Len glll
3 - 300 0.05 mm
3 3 ALIDATION MEASUR \IT
The guidelines omlined lli Ihe IEEE ISES. FCC KDBS. CENELEC E55036] and CEI/IEC 62209
smndards \V are followed In anemic due measurcmcnl uncenaml ' for Valldalion measurements.
Sun Volume Expanded l‘ncenalnty
1 g 20.3 "r.
Fagin 5/11
1mrdornnrentehntnotnewhmdreed NW!!!" Mormparr, unmummnenIummde/tm
rne whim» mnmdnmnnsns he «.11le 1e, l/repu/pszrw/uthn meannnntnndn mi in
he rrluurdlll who]! mm MI/mulmmen 4pm 0/ um
sm RTFERF.\(‘E mm”: nmumnm nn-on Rd W? 3‘69 ‘6 SAW /\
10g 20,! ”b
6 CALIBRATION MEAB LMENI’RESLL'I‘S
m Rvn RN loss -\\nl\1H:nM\(‘r NHHDH mu)
rmww:
7m 2m :m an m Wm
‘ I-‘x-equenc, (V1111) unumlmsmn) Requirememmn) Impedance
\ 2450 44.55 .20 47 75mg
5.2 RhlL'Rh wss A.\DIMPEDAI\LE1N Bum ngguu
anwNHz
2m 2m 2.1 :mu m :m m 2m n
740* 7
\ Fruquon' (mu) RMunILussmB) Requmnumuu) Impedance
\ 24:0 .2141 -20 50512 4.21::
63 MECHANICAL DIMF 0
Frewenw MHz L mm 7. mm a mm
mm "Insured (unwed my“ mum measured
1m nznmw 250mm \ sauna
mm
WJWW. r/vvl/u/IVN ”mm mm m mu army-m WWW “mummmww n
A m/mmmmmm WWWum/M/mw.w,wxmm»,mmmmmmMm
r» ’ rwm mm mm wmmmwmmmmrmnn
mVE SAR REFERENCE mrom CALIBRATION “pom N ACRE” ‘6 SAT” A
450 29an1% 155nm 635x1%
75a many. Jmoxns games
as mum-2r xuxm 3mm
9m “smut man’s 352m.
ma lefl% 517fl9§ seem
1500 3052194. soozne 352m
154:: 75mm 45mm 352m
1750 75111% amuse 361w;
tam 72mm 4172156 355%
new 53mm 2551156 3mm
tsso sszzns 3352196 362193
mod SOSflK 27km gaxw.
use “new. 35.7:1% 3mm
23m sssme 225x” 352m
2450 51 511% PASS 3042196 “55 352105 “55
zsoo OBSflK Hanan Séxl‘le
awe 415nm 25mm 36x)“/a
35m 37mm 264:1“ seem.
37m yum 2642195 zen-x,
7 VALIDATION MEASUREMEVT
The IEFF. Std IS’ZR_ FCC KDE; and CF IF.C 62209 standards slate lhnl the slum \alitlaliun
measurelnelm; mnsl he perfnnned using a reference dipole meeting the fore mentioned return lo41"th ummmmU W. m
» vawim my», mmmommmmmwwum
51112 110anch DIPOLE CALIBRATION 1021:0111 Rd ACRE” ‘6 SAT” A
8 LIST OF EQUIPME
Equlpment Summary Sheet
Equlplmnt NexlCaflbnfion
I] . . Mnlhl mammal N0. Culil 'm Dal: I]
almaled N0 cal Valmaled N0 ca1
SAM Phantom MVG sN-20/09-5AM71 mum reqwed
1 y
COMOSAR TestEench Versluna NA ahda‘e" N“ "' “date" No 53‘
1 eqmred requved
Network Ana1yzer RMdegvicwa'z SN1DO132 02/2016 02/2019
Calvers Cane/a cALIPEF/m 12/2013 12/2010
Reterence Probe MVG EPG122 SN18/11 10/2015 10/2016
Mummeter Kamey 2000 1103650 12/2013 12/201 5
Sig/1316911913101 Agi1em EM3EC MV49070501 12/2013 12/2015
Cmvactenzed mono Charamenzed pnor to
Amp'me' Afimemmm SN 046 test. N0 cal requued (251 No cal requved
Power Meter HP E441BA 0533251400 12/2013 12/201 6
Power Sensor HP EcP-E26A 0537101450 12/2013 12/2016
Chavactenzed mono chammenzed war to
D1rec|10ra1Cuup1Er ‘ Narda 421620 01386 [98‘ ND cal manned test No cal (equ‘red
Temperature and
Humid 3mm Camrol Company 150798832 10/2015 10/2017
Page, 1m]
zh/mommmt nor be I'llmdvmrl m:- /n ma wmparr, uuhmn 1b.: mum! ammt o/MVG
11.2 mm“ mumnmmm .5, “MM.“ 11.9 p04», jnrvfludn/ xxjubvmllldaudu m: m
be rekmrdm «.912 mm MIMI/human Wm: mm:
Download: W25 POC Trunked Two-way Radio RF Exposure Info SAR Calibration Data II Shenzhen Kirisun Communications Co., Ltd.
Mirror Download [FCC.gov]W25 POC Trunked Two-way Radio RF Exposure Info SAR Calibration Data II Shenzhen Kirisun Communications Co., Ltd.
Document ID3949971
Application IDbf74iBVJ741a1rNZTyPTOA==
Document DescriptionSAR Calibration Data II
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeRF Exposure Info
Display FormatAdobe Acrobat PDF - pdf
Filesize430.15kB (5376895 bits)
Date Submitted2018-08-03 00:00:00
Date Available2018-07-13 00:00:00
Creation Date2018-08-01 10:11:48
Producing SoftwareMicrosoft® Office Word 2007
Document Lastmod2018-08-01 10:11:48
Document TitleSAR Calibration Data II
Document CreatorMicrosoft® Office Word 2007
Document Author: dell

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Create Date                     : 2018:08:01 10:11:48+08:00
Metadata Date                   : 2018:08:01 10:11:48+08:00
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