SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd

Samsung Electronics Co Ltd GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC

Page 1 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 2 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 3 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 4 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 5 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 6 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 7 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 8 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 9 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 10 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 11 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 12 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 13 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 14 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 15 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 16 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 17 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 18 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 19 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 20 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 21 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 22 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 23 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 24 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 25 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 26 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 27 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 28 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 29 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 30 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Page 31 of SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd

Calibration Laboratory of
Schmid & Partner
Engineering AG
Zeughausstrasse 43, 3004 Zurich. Switzerland
Sehweizeriscl’ler Kalihrierdienst
Service suisse d'étalonnage
Ser zio sviuero di laralura
Swiss Callbralion Service
Accrediled by the Swiss Accreditation Service (SAS)
The Swiss Accreditation Service is en: suite signatories to the EA
Multilateral Agreement for the recognition of calibration certificates
Accreditation Me: 508 0103
Client UL Korea (Dymstec)
CALIBRATION CERTIFICATE
Certificate No: D1900V2-5d1 90¥Sep1 7
object D1900V2 - SN25d190
Caiibrallon procadure(s)
QA CAL-05iv9
Calibration procedure for dipole validation kits above 700 MHz
Calibration date:
September 20, 2017
This calibration certificate documents lhe traceability to national slandards, which realize the physlcai Units of measurements (SI).
The measurements and liie uncertainties with confidence probability are given on tile lollowmg pages and are part ol the certificate
Ali calibrations have been conducted in the closed laboratory laciiity environment temperature (22 : sine and humidily < 70%.
Calibration Equipment used (METE critical Icr calibration)
Primary Standards ID it Cal Date (Certificate NO.) Scheduled Calibrallcri
Power meter NRP SN: 104778 D4rApr717 (No. 217-02521/02522) Apr-1B
Power Sensor NHP-ZB1 SN 103244 04-Apr-17 (Nu. 217—02521] Apra1 5
Power sensor NFIF-ZQ1 SN: 103245 04-Apr-17 (No. 217702522) Apr-18
Relsrence 20 dB Attenuator SN: 5055 (20k) 07»Apr-17 (NU: 217-02528) Apr-1E
Type-N mismalch combination SN: 504721 06327 D7'Apl-l7 (No. 217-02529) Aplrls
Relererice Probe EXSDV4 SN: 7349 31-May-17 (No. EX3-7349,May17) May-18
DAE4 SN: 601 25-Marr17 (N0. DAE4-601_Mar17) Mar-18
Secondary Standards ID 13 Check Date (in house) Scheduled Check
Power meter EPM442A SN. GBB74BO704 07—Oct-15 (in house check Oct-16) In house check: Oct-15
Power sensor HP 3431A SN: USS7292783 0701:145 (in house check Oct'16) in house chec ' (rt-18
Power sensor HP B461A SN: MY41092317 07-Oct-15 (in house check Oct-16) in house ch96 . CHB
RF generator R86 SMTrOS SN: 100972 l5-dun-15 (in house check Oct-16) In house check. OCtr18
Network Analyzer HF 8753E SN! US37390585 18-Oct-01 (in house check Oct-16) In house check: Oct-17
Name Function
.Ielon Kaslrati Laboratory Technic'
Signature
Calibrated by:
Approved by. Katja Pokovic Technical Manager
Issued: September 21 , 2017
This calibralion certificate shall not be reproduced except in Iuli without Written approval of the laboratory.
Certificate No: D1900V2—5d190_Sep17 Page 1 or 8
Calibration Laboratory of
Schmid & Partner
Engineering AG
Zeughausslrasse 43, 8004 Zurich, Switzerland
Schweizerlsoher Kalibrierdlerlst
Service suisse d'étalonnage
Servixio sviuero di 'aratura
SWISS Calibration Sen/ice
Accredited by the Swiss Accreditation Service (SAS) Accreditation No.: SCS 0108
The Swiss Accreditation Service is one at the signatories to the EA
Multilateral Agreement lorthe recognition of calibralion certificates
Glossary:
TSL tissue simulating liquid
ConvF sensitivity in TSL / NORM x,y,z
N/A not applicable or not measured
Calibration is Perlormed According to the Following Standards:
a) lEEE Std 1528-2013, “lEEE 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 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 to 6 GHz)", July 2016
c) IEC 62209-2, "Procedure to determine the Specific Absorption Rate (SAR) for wireless
communication devices used in close proximity to the human body (frequency range oi 30
MHz to 6 GHz)", March 2010
d) KDB 865664. “SAR Measurement Requirements for 100 MHz to 6 GHz"
Additional Documentation:
e) DASY4/5 System Handbook
Methods Applied and Interpretation of Parameters:
. Measurement Conditions: Further details are available from the Validation Report at the end
of the certificate. All figures 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 of the flat phantom section, with the arms oriented
parallel to the body axis.
- Feed Point impedance and Return Loss: These parameters are measured with the dipole
positioned under the liquid tilled phantom. The impedance stated is transformed from the
measurement at the SMA connector to the feed point. The Return Loss ensures low
reflected power. No uncertainty required.
0 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 power.
. SAR 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 reported uncertainty of measurement is stated as the standard uncertainty of measurement
multiplied by the coverage factor k=2, which fora normal distribution corresponds to a coverage
probability of approximately 95%.
Certificate No: D1900V2-5d79ELSep17 Page 2 of 8
Measurement Conditions
DASY system configuration, as lar as not
iven on page 1.
DASY Version DASVS V52.10.0
Extrapolation Advanced Extrapolation
Phantom Modular Flat Phantom
Distance Dipole Center - TSL 10 mm with Spacer
Zoom Scan Resolution dx. dy, dz = 5 mm
Frequency 1900 MHz 3‘; 1 MHz J
Head TSL parameters
The fallcwing parameters and calculations were applied.
Temperature Permittivity Conductivity
Nominal Head TSL parameters 220 “C 40.0 1.40 mho/m
Measured Head TSL parameters (22.0 x 0.2) “C 39.0 e 6 % 1.38 mho/m i 6 %
Head TSL temperature change during test < 0.5 ”C ----
SAR result with Head TSL
sm averaged over 1 cm“ (1 9) at Head TSL Condition
SAFi measured 250 mW input power 9.56 W/kg
SAFl lor nominal Heed TSL parameters normalized to 1W 38.3 Wlkg i 17.0 % (k=2)
SAR averaged over 10 cm° (10 g) at Head TSL condition
SAFi measured 250 mW input power 501 W/kg
SAFi lor nominal Head TSL parameters
normalized to 1W
20.1 Wlkg 2 15.5 % (11:2)
Body TSL parameters
The following parameters and calculations were applied.
Temperature Conductivity
Nominal Body TSL parameters 22.0 °C 1.52 mho/m
Measured Body TSL parameters (22.0 i 0.2) “C 54.3 e 6 % 1.47 mho/m 1 6 "/1:
Body TSL temperature change during test < 0.5 “C -—— ~—~
SAR result with Body TSL
SAR averaged over 1 cm‘ (1 g) at Body TSL Condition
SAR measured 250 mW input power 9.75 W/kg
SAH for nominal Body TSL parameters normalized to 1W 40.0 Wllg :2 17.0 % (k=2)
SAR averaged over 10 cm“ (10 g) of Body TSL condition
SAR measured 250 mW input power 519 W/kg
SAFl for nominal Body TSL parameters
normalized to 1W
21.1 W/kg 1 16.5 We (k=2)
Certificate No: D1900V2-5d190782917
Page 3 of 8
Appendix (Additional assessments outside the scope of SCS 0108)
Antenna Parameters with Head TSL
Impedance, transformed to feed point 524 $2 + 6.4 is]
Return Loss - 23.5 dB
Antenna Parameters with Body TSL
Impedance, transformed to feed point 48.1 0 + 7.1 jn
Return Loss , 22.5 dB
General Antenna Parameters and Design
Electrical Delay (one direction) 1.204 ns
Alter long term use with 100W radiated power, only a slight warming of the dipole near the leedpoint can be measured.
The dipole is made ol standard semirigid coaxial cable. The center conductor ol the feeding line is directly connected to the
second arm of the dipole. The antenna is therelore short-circuited lor DC—signals. On some of the dipoles, smell and caps
are added to the dipole arms in order to impmve matching when loaded according to the position as explained in the
'Measurement Conditions“ paragraph. The SAR data are not affected by this change. The overall dipole length is still
according to the Standard.
No excessive force must be applled to the dipole arms, because they might bend or the soldered connections near the
feedpoini may be damaged.
Additional EUT Data
Manufactured by
SPEAG
Manufactured on
May 06, 2014
Genil'icate No; D1900V2-5r1190jep17
Page 4 of 8
DASYS Validation Report for Head TSL
Date: 20.092017
Test Laboratory: SPEAG, Zurich. Switzerland
DUT: Dipole 1900 MHz; Type: D1900V2; Serial: D1900V2 - SN:Sd190
Communication System: UD) 0 - CW; Frequency: 1900 MHz
Medium parameters used: 1": 1900 MHz; 6 = 1.38 S/m; Sr = 39; p = 1000 kg/m3
Phantom secLion: Flat Section
Measurement Standard: DASYS (IEEE/IEC/ANSI C63.19-2011)
DASYSZ Configuration:
0 Probe: EX3DV4 - SN7349; ConVF(8.43, 8.43, 8.43); Calibrated: 31.05.2017;
. Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn601; Calibrated: 28.03.2017
. Phantom: Flat Phantom 5.0 (front); Type: QD 000 P50 AA: Serial: 1001
. DASYSZ 52.10.0(1446); SEMCAD X 14.6.10(7417)
Dipole Calibration for Head Tissue/Pin=250 mW, d=10mleoom Scan (7x7x7)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 10513 V/m; Power Drift: -0102 dB
Peak SAR (extrapolated) = 17.9 W/kg
SAR(1 g) = 9.56 W/kg; SAR(10 g) = 5.01 W/kg
Maximum value of SAR (measured) = 14.5 W/kg
113
I]
-3.flfl
-E.l]l]
-9.l]fl
712.00
-1 5.110
0 dB = 14.5 Wlkg = 11.61 dBW/kg
Certificate No: D1900V2—5d190_Sep17 Page 5 of B
Impedance Measurement Plot for Head TSL
2a Sap 21m? 14m :2?
s1; 1 U rs 3:53-13:39 5.43359 533.91pH 1aaa.aaa am NH:
7 V .
Del ,
>24; ‘ V
, A. , ,
Avg L
B ‘
Hld
CH2 511 L06, 5 dB/REF 321.3777” __ Satay}: a; mamas: aaa MHZ
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‘
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I ‘
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Certificate No: D1900V2-5d190_Sep17 Page 6 of 8
DASY5 Validation Report for Body TSL
Test Laboratory: SPEAG, Zurich, Switzerland
DUT: Dipole 1900 MHz; Type: D1900V2; Serial: D1900V2 - SN25d190
Communication System: UID 0 - CW; Frequency: 1900 MHz
Medium parameters used: f = 1900 MHz; 5 = 1.47 S/m; e, = 54.3; p = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/lEC/ANSI C63.19-2011)
DASYSZ Configuration:
Probe: EX3DV4 , SN7349; ConvF(8.2, 8.2, 8.2); Calibrated: 31.05.2017;
Sensor-Surface: 1.4mm (Mechanical Surface Detection)
Electronics: DAE4 Sn601; Calibrated: 28.03.2017
Phantom: Flat Phantom 50 (back); Type: QD 000 P50 AA; Serial: 1002
DASYSZ 52.10.0(1446); SEMCAD X 14.6.10(7417)
Date: 20.09.2017
Dipole Calibration for Body Tissue/Pin=250 mW, d=10mmIZoom Scan (7X7x7)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 101i] V/m; Power Drift: -0.02 dB
Peak SAR (extrapolated) = 17.2 W/kg
SAR(1 g) = 9.75 W/kg; SAR(10 g) = 5.19 W/kg
Maximum value of SAR (measured) = 14.0 W/kg
{1.40
45.00
~10.20
-1 3.60
-1 7.00
0 dB 2 14.0 W/kg = 11.46 dBW/kg
Certificate No: D1900V2—5d190_8ep17 Page 7 018
Impedance Measurement Plot for Body TSL
2+3 Sep 2917 14:95-33
[Elf] 511 1 L1 FE 3: 48.86: X] 7.095912 593,56 pH 1 986,566 680 NH:
Del
m 9
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CH2
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V7 v _ v v . _,, ,
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3mm 1 mafia aw MHz
Certificate No: 01900V2-5d190,Sep17 Page 3 of 8
Calibration Laboratory of 3112?,
Schmid & Partner PM”:
Engineering AG W
Serviee sulsse d'élalonnage
i/RE Servizlo svizzero di taratura
zeughausstrasse 43, 5004 Zurich. Switzerland 1,, /f\\\‘s¢ Swiss Calibration Service
'1 lilrth‘
Accredited by the Swiss Accreoitatron Service (SAS) Accreditation No.: SCS 0108
The Swiss Accreditation Service is one or the signatories to the EA
Multilateral Agreement tor the recognition at calibration oeniticates
client UL Korea (Dymstec) Certificate No: DZ450V2—939_Sep17
Obiecl D2450V2 - SN:939
Calibration procedurets) QA CAL-05.v9
Calibration procedure for dipole validation kits above 700 MHz
Calibration date. September 19, 2017
This caiibratron certiticate documents the traceabilirylo national standards. which realize the physical units or measurements (St).
The measurements and the uncertainties with contioence probability are given on the tollowing pages and are pan or the cenilicale.
All calibrations have been conducled in the Closed laboratory lacilltyr environment temperature (22 2 3)°C and humidily < 70%.
Calibraliori Equipment used (MBtTE Crllical for calibrallon)
Primary Standards ID at Cal Dale (oenilicale No.) Scheduied oaiibration
Power meter NRP SN: 104775 04-Apr47 (No. 217-02521/02522) Apr-18
Power sensor NRP-ZQI SN: 103244 DArAprrl7 (No. 217-02521) Apr-18
Power sensor NRF-Zsl SN: 103245 04-Apr-17 (No. 217-02522) Aprrta
Hetsrance 20 dB Attenuator SN: 5053 (20kt 07-Apr-17 (No 217-02528) Apr-ta
Type-N mismatch combination SN: 5047 2/ 06327 07-Apr-17 (No 217702529) Apr-18
Relerence Probe exaova SN: 7349 31-May47 (No. EX3-7349_Mayl7) May-18
DAE4 SN: 601 23-Mar-l7 (N0. DAEA-SDLMarW) Mar-18
Secondary Standards ID it Check Date (in house) Scheouied Check
Power mater EPMAAZA SN: 6337430704 07-Oct-15 (in house check Oct-16) In house check: Oct-ta
Power sensor HF 8481A SN: USS7292783 07-Oct-15 (in house check Oct-ts) In house check: Oct-ta
Power sensor HP eastA SN: MYMOBZEW 07-00145 (in house check Oct-16) In house check. OCHB
RF generator Flats SMT-oe SN: 100972 15-Jun-15 (In house check Oct-16) In house check' OCHB
Nelwork Analyzer HP 37535 SN: usa7390535 18-Oct-01 (tn house check OCH a) in house check: Oct—17
Name Function Si nature
Calibrated by. Jeton Kastrati Laboratory Technician ‘
a . :- _.‘
Approved by: Katie Pokovic Technical Manager fig
issued: September 19, 2017
Thls caliblaliorl certificate shall not be reproduced except in fun without wrilten approval of the laboratory.
Certificale Nc: D2450V2-939_Sep17 Page 1 olB
Calibration Laboratory of
Schmld & Partner
Engineering AG
Zeughausstrasse 43. 3004 Zurich, Switzerland
Schweizerischer Kalibrierdienst
Service suisse d‘étalonnaga
Servlzio svizzero di taratura
Swiss Calibration Service
Accredited by the Swiss Accreditation Service (SAS) Accreditation No.: SCS 0108
The Swiss Accreditation servlce is one of the signatories to the EA
Multilateral Agreement tor the recognition of calibratlon certificates
Glossary:
TSL tissue simulating liquid
ConvF sensitivity in TSL / NORM x,y,z
N/A not applicable or not measured
Calibration is Performed 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 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 to 6 GHz)”, July 2016
c) IEC 62209-2, "Procedure to determine the Specific Absorption Rate (SAR) for wireless
communication devices used in close proximity to the human body (frequency range of 30
MHz to 6 GHz)", March 2010
d) KDB 865664, “SAR Measurement Requirements for 100 MHz to 6 GHz“
Additional Documentation:
e) DASY4/5 System Handbook
Methods Applied and Interpretation of Parameters:
- Measurement Conditions: Further details are available from the Validation Report at the end
of the certificate. All figures 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 of the flat phantom section, with the arms oriented
parallel to the body axis.
0 Feed Point Impedance and Return Loss: These parameters are measured with the dipole
positioned under the liquid filled phantom. The impedance stated is transformed from the
measurement at the SMA connectorto the feed 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.
. SAFl measured: SAR measured at the stated antenna input power.
- SAR normalized: SAR as measured, normalized to an input power of 1 W at the antenna
connector.
- SAFl 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%.
Certificate No: 02450V2-939_Sep17 Page 2 at a
Measurement Conditions
DASY system configuration, as far as not iven on Rage 1.
DASY Version DASYS V5210!)
Extrapolation Advanced Extrapolation
Phantom Modular Flat Phantom
Distance Dipole Center - TSL 10 mm with Spacer
Zoom Scan Resolution J[ dx, dy. dz = 5 mm
Frequency 2450 MHz :1 MHz
Head TSL parameters
The following parameters and calculations were applied.
Temperature Permittivity Conductivity
Nominal Head TSL parameters 22.0 “C 39.2 1.80 mho/m
Measured Head TSL pammeters (22.0 a 0.2) °C 37.8 e 6 % 1.86 mno/m 2 6 %
Head TSL temperature change during test < 0.5 “C -»-» W.
SAR result with Head TSL
SAR measured
SAR averaged over 1 cm“ (1 g) of Head TSL Condition
250 mW input power
13.4 W/kg
SAFt for nominal Head TSL parameters
normalized to 1W
52.3 Wlkg : 17.0 % (k=2)
SAB averaged over 10 em1 (10 9) of Head TSL
condition
SAFi measured
250 mW input power
6.25 W/kg
SAFt for nominal Head TSL parameters
normalized to 1W
24.6 Wlkg 2 16.5 “A. (k=2)
Body TSL parameters
The following parameters and calculations were applied,
Temperature Permittivity Conductivity
Nominal Body TSL parameters 22.0 ”C 52.7 1.95 mho/m
Measured Body TSL parameters (22.0 a 0.2) "C 51.9 a 6 % 2.04 mho/m : 6 %
Body TSL temperature change during test < 0.5 "C ~-~ ----
SAR result with Body TSL
SAR averaged over 1 cm3 (1 g) of Body TSL Condition
SAR measured 250 mW input power 13,0 W/kg
SAR for nominal Body TSL parameters
normalized to 1W
50.7 W/kg a 17.0 % (k=2)
SAR averaged over 10 cm3 (10 g) of Body TSL condition
SAR measured 250 mW input power 606 W/kg
SAR for nominal Body TSL parameters normalized to 1W 23.9 Wlkg e 16.5 % (k=2)
Certificate No: 02450V2~939_Sep17
Page 3 ol 5
Appendix (Additional assessments outside the scope of SCS D108)
Antenna Parameters with Head TSL
impedance» transformed to feed point 53.2 (I + 3.9 in
Return Loss ~ 26.3 dB
Antenna Parameters with Body TSL
impedance. transformed to feed point 50.2 0 + 5.719
Return Loss , 24.9 dB
General Antenna Parameters and Design
Electrical Delay (one direction) 1.157 ns
After long term use with 100W radiated power, only a slight warming of the dipole near the leedpoint can be measured.
The dipole is made of standard semirigid coaxial cable. The center conductor of the feeding line is directly connected to the
second arm of the dipole. The antenna is therefore shon-circuited for DC-signals. On some of the dipoles, small end caps
are added to the dipole arms in order to improve matching when loaded according to the position as explained in the
"Measurement Conditions" paragraph. The SAR data are not affected by this change. The overall dipole length is still
according to the Standard.
No excessive force must be applied to the dipole arms, because they might bend or the soldered connections near the
feedpoinl may be damaged.
Additional EUT Data
Manufactured by ] SPEAG
Manufactured on I March 15, 2014
Certificate No: 02450V2A93978ep17 Page 4 of 6
DASYS Validation Report for Head TSL
Date: 19.09.2017
Test Laboratory: SPEAG, Zurich, Switzerland
DUT: Dipole 2450 MHz; Type: D2450V2; Serial: D2450V2 - SN :939
Communication System: UID 0 - CW; Frequency: 2450 MHZ
Medium parameters used: f = 2450 MHz; 6 = 1.86 5/111; 5, = 37.8; p = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASYS (IEEE/lEC/AN SI C63. 197201 1)
DASYSZ Configuration:
0 Probe: EX3DV4 ~ SN7349; ConvF(8.12, 8.12, 8,12); Calibrated: 31.05.2017;
- Sensor-Surface: 1.4mm (Mechanical Surface Detection)
- Electronics: DAE4 Sn601; Calibrated: 28.03.2017
- Phantom: Flat Phantom 50 (front); Type: OD 000 P50 AA; Serial: 1001
. DASYSZ 52.10.0(1446); SEMCAD X 14.6.10(7417)
Dipole Calibration for Head Tissue/Pin=250 mW, d=10mleoom Scan (7x7x7)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 1 12.5 V/m; Power Drift = -0.07 dB
Peak SAR (extrapolated) = 27.0 W/kg
SAR(1 g) = 13.4 W/kg; SAR(10 g) = 6.25 Wlkg
Maximum value of SAR (measured) = 21.0 W/kg
"1.0"
-8.flll
-12.|ll]
46.00
-Z[l.[ll]
0 dB = 21.0 W/kg = 13:22 dBW/kg
Certificate No: D2450V2-93975ep17 Page 5 018
Impedance Measurement Plot for Head TSL
19 Sep 2917 as:41~4s
[MT 311 V u FE. :1? .1 N M 250.53 pH ; 456
D91
\.
’“ éf ‘
‘ A g , ”.4
\ l
x I
md
x?
Hm
CH2 511 chs '5 dB/Rgr ~29 513 ' $725.25? :15 255maaapaa MHz
. . < ‘ . . . ¢ . .
CA W
. . ‘ . . . ‘
v . . .\\ A y > . . .
flu \ ’
153 , . ‘ . \. f. . . . . .
m‘:::X/::::f
Emma mi»: MHz
3711:} ; lam-ma aw f1":
Certificate Na: DZ450V2—939_Sep17 Page 6 of B
DASY5 Validation Report for Body TSL
Date: 19.09.2017
Test Laboratory: SPEAG, Zurich. Switzerland
DUT: Dipole 2450 MHZ; Type: D2450V2; Serial: D2450V2 - SN:939
Communication System: UID 0 ~ CW; Frequency: 2450 MHz
Medium parameters used: f: 2450 MHz; 6 = 2.04 S/m; er : 51.9; p = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/[EC/ANSI C63. 19-201 1)
DASY52 Configuration:
Probe: EX3DV4 - SN7349; ConvF(8.1, 8.1, 8.1); Calibrated: 31.05.2017;
SensoreSurface: 1.4mm (Mechanical Surface Detection)
Electronics: DAE4 Sn601; Calibrated: 28.03.2017
Phantom: Flat Phantom 5.0 (back); Type: QD 000 P50 AA; Serial: 1002
DASYSZ 52.10.0(1446); SEMCAD X 14.6.10(7417)
Dipole Calibration for Body Tissue/Pin=250 mW, d=10mleoom Scan (7X7x7)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 104.9 V/m; Power Drift = -0.05 dB
Peak SAR (extrapolated) = 25.4 W/kg
SAR(1 g) = 13 W/kg; SAR(10 g) = 6.06 W/kg
Maximum value of SAR (measured) = 20.3 W/kg
41.00
-8.l][l
-12.[l|]
-1li.l][l
»Zfl.l]|]
0 dB = 20.3 W/kg = 13.07 dBW/kg
Certificate No: D2450V2-939_Sep17 Page 7 of B
Impedance Measurement Plot for Body TSL
13 Sep 2317 05:45:12
m 311 , H r: a: 5:. : rm aw rm:
Del
; 7 9 -4
"v;
1E
ma
DH2 911 LQB _5 aa/ Rgr —2m 93 _ 3:44.33; as zpsmaaapaa m4:
, . ‘ . ‘ . . . . .
l . . > . . . . . 4 .
EA
HV
1&3 - . . .
. . . ‘ A . . . .
ma ‘ . . . . . . . A .
9M0? ; 50.000 000 rm: ' ' imp _ 5.50.000 000 MHz
Certificate No: D2450V2—93978ep17 Page 8 01 8
'i'l‘i
' llH
. . “ u... ,, _ .
Calibration Laboratory of (Mid/“1 weiiéan‘fl’terKEllErTeFdiéfisT
§
Schmtd & Partner 5% C Servioe suisse d'e’lalonnage
Engineering AG g //—\\ 3 servizto sviuero di Iarulura
Zeugheusstrasse 43, 8004 Zurich, Switzerland ‘I/wfiwx? Swiss Calibration service
" rrlit “
Accredited by the Swiss Accreditation Service (SAS) Accreditation Not: 503 0108
The Swiss Accreditation Service is one of the signatories to the EA
Mullllatel‘al Agreemem lur the recognition of calibration certificate!
Clienl UL Korea (Dymstec) Certificlte No: D2600V2-1097_Jan18
CALIBRATION CERTIFICATE
Object D2600V2 - SN:1097
Calibration procedure(s) QA CAL-05.v9
Calibration procedure for dipole validation kits above 700 MHz
Calibration date: January 17, 2018
This calibration certificate documents the traceability to national standards, which realize the physical units at measurements (SI).
The measurements and the uncertainties with mnlldence probablllly are given on the lollowlng pages and are part ol the cenntcete.
All calibrations have been conducted in the closed laboratory Iacillly: environment temperalule (22 x 3)“C and humidity < 70%.
Calibratiun Equipmem used [M&TE Clilicai for calibration)
Primary Standards ID it Cal Dale (Certificate No.) Scheduled Calibration
Power meter NRP SN: 104770 04-Apral7 (N0. 217-02521/02522) Apr-18
Power sensor NRP-zgt 5N: l03244 04-Apr-17 (No, 217-02521) Apr-18
Power sensor NHP-zst SN‘ 103245 04-Apr47 (No 217-02522) ApHS
Reierenee 20 dB Attenuator SN: 5058 (20k) 07-Apr-17 (No 217-02520) Apr»1a
Type-N mismatch combination SN: 50472 / 05327 077Apr-17 (No. 217-02525) Apr-18
Heieronce Probe EXSDVA SN: 7549 30-Dec-17 (No. Ex3-7a49,nec17i Deote
DAE-t SM: 601 26-OcI-17 (N0 DAEA-SOLOCH 7) Oct-18
Secondary Standards ID it Check Dale tin house) Scheduled Check
Power meter EPM-MZA SN: (3537490704 07-Oct-15 (in house check Oct-16) In house check: Oct-la
Power sensor HP 5481A SN: usa7292703 07-Octa15 (in house Check Oct-16) ln house check: Oct-18
Power sensor HP B491A SN: MY41092317 07rOct-15 (in house check Oct-16) ln house check: OcHa
FIF generator Hes SMT-as SN: 100972 15-Jun-l5 tin house check Oct-15) in house check’ Oct-to
Network Analyzer HP 8753E SN: usa7asnss5 least-01 (in house check Oct-17) in house check: Oct-ts
Name Function Signature
Calibrated by: Jeton Kestratl Lehoralory Technician ok7 W
_ / ._/
Approved by: Katie Pokovic Technical Manager /&
issued: January 17, 201E
Tnts calibration certificate shall not be reproduced except in full without willten approval oi the laboralory.
Certificate No: 02600V2»1097VJan18 Page 1 of B
Calibration Laboratory of
Schmid St Partner
Engineering AG
Zeughausstrasse 43, 8004 Zurich, Switzerland
schweizerlscher Kalibrierdienst
Service suisse d'ételonnage
Servlzio svizzero dl taratura
Swiss Calibration Service
Accredited by ine Swiss Accreditation Service (SAS) Accreuiiaiion No.: SCS 0108
The Swiss Accreditation Service is one of the signatories to the EA
Multilateral Agreement lor ine recognition of calibration certificates
Glossary:
TSL tissue simulating liquid
ConvF sensitivity in TSL/ NORM x,y,z
N/A not applicable or not measured
Calibration is Performed According to the Following Standards:
a) lEEE Std 1528-2013, “lEEE 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 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 to 6 GHz)", July 2016
c) IEC 62209-2, "Procedure to determine the Specific Absorption Rate (SAR) for wireless
communication devices used in close proximity to the human body (frequency range of 30
MHz to 6 GHz)", March 2010
d) KDB 865664, “SAR Measurement Requirements for 100 MHz to 6 GHz"
Additional Documentation:
e) DASY4/5 System Handbook
Methods Applied and Interpretation of Parameters:
- Measurement Conditions: Further details are available from the Validation Report at the end
of the certificate. All figures 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 of the flat phantom section, with the arms oriented
parallel to the body axis. i
a Feed Point Impedance and Return Loss: These parameters are measured with the dipole
positioned under the liquid lllled phantom. The impedance stated is transformed from the
measurement at the SMA connectorto the feed 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.
c SAR measured: SAR measured at the stated antenna input power.
- SAR normalized: SAR as measured, normalized to an input power of 1 W at the antenna
connector.
. SAFi’ 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%.
Certificate No: D2600V2-1097AJan18 Page 2 of B
Measurement Conditions
DASY system configuration. as far as not iven on pfle 1.
DASV Version DASYS V52.10.0
Extrapolation Advanced Extrapolation
Phantom Modular Flat Phantom J
I_Distanr:e Dipole Center - TSL 10 mm with Spacer
L_Z_oom Scan Resolution dx. dy, dz = 5 mm
Frequency 2600 MHz : 1 MHz
Head TSL parameters
The following parameters and calculations were applied.
Temperature T Permittivity Conductivity 1
Nominal Head TSL parameters 22.0 “C A 39.0 1,96 mho/rn
I_llfleasured Head TSL parameters 1 (22.0 s 0.2) “C 37.2 a 6 % 2.04 mho/m :k 6 %
Head TSL temperature change during test I < 0.5 °C ~—— -»~
SAR result with Head TSL
SAH averaged over 1 om’ (1 g) of Head TSL Condition
SAFt measured 250 mW input power 14.5 W/kg
SAFt for nominal Head TSL parameters _‘ normalized to 1W 56.4 Wlkg a 17.0 % (k=2)
SAR averaged over 10 cm’ (10 g) oi Head TsL condition
SAR measured 250 mW input power 6.44 W/kg
SAR for nominal Head TSL parameters normalized to 1W 25.3 Wlkg : 16.5 % (k=2)
Body TSL parameters
The followingparameters and calculations were aEpiled.
Temperature Permittivity Conductivity 1
Nominal Body TSL parameters 22.0 ”C 52.5 l_ 2.16 mho/m
'_Measured Body TSL parameters (2.0 1: 0.2) “C 51.1 2 6 % L2.20 thIm a 6 %
Body TSL temperature change during test < 0.5 °C ——-- --»v
SAR result with Body TSL
SAH averaged over 1 cm:4 (1 g) of Body TSL Condition
SAFl measured 250 mW input power 13.8 Wlkg
SAR for nominal Body TSL parameters noniializad to 1W J_ 54.4 Wlkg :: 17.0 % (k=2)
SAR averaged over 10 cm: (10 g) at Body TSL_. condition
SAR measured 250 mW input power 6.11 W/kg
SAR for nominal Body TSL parameters normalized to 1W 24.2 W/kg e 16.5 % (k=2)
Certificate No: D2600V2-1097_Jan18 Page 3 of 8
Appendix (Additional assessments outside the scope of $08 0108)
Antenna Parameters with Head TSL
lmpedance, transformed to feed point l_ 48.3 52 - 6.0 in
Retum Loss - 23.9 dB
Antenna Parameters with Body TSL
impedance, transformed to feed point 45.9 9 - 4.4 if)
Return Loss - 24.1 dB
General Antenna Parameters and Design
Electrical Delay (one direction) I 1.155 ns
After long term use with 100W radiated power, only a slight warming of the dipole near the feedpoint can be measured.
The dipole is made of standard semirigid coaxial cable. The center conductor of the leading line is directly connected to the
seoond arm oi the dipole. The antenna is therefore short—circuited for DC-stgnals. On some of the dipoles, small end caps
are added to the dipole arms in order to improve matching when loaded according to the position as explained in the
"Measurement Conditions" paragraph. The SAR date are not alfected by this change. The overall dipole length is still
according to the Standard.
No excessive lorce must be applied to the dipole arms, because they might bend or the soldered connections near the
feedpoint may be damaged.
Additional EUT Data
Manufactured by T SPEAG
Manufactured on I August 27, 2014
Ceriificat- No: D2600V2—1097_Jan18 Page 4 of 8
DASYS Validation Report for Head TSL
Test Laboratory: SPEAG, Zurich, Switzerland
DUT: Dipole 2600 MHz; Type: D2600V2; Serial: D2600V2 - SN:1097
Communication System: UD 0 7 CW; Frequency: 2600 MHZ
Medium parameters used: f: 2600 MHz; 5 = 2.04 S/m; or = 37.2; p = 1000 kg/m3
Phantom section: Flat Section
Measurement Standard: DASYS (IEEEJIEC/ANSI C63.l9-2011)
DASY52 Configuration:
Dipole Calibration for Head Tissue/Pin=250 mW, (1:
Probe: EX3DV4 — SN7349; ConVF(7.7, 7.7, 7,7); Calibrated: 3012,2017;
Sensor-Surface: 1.4mm (Mechanical Surface Detection)
Electronics: DAE4 Sn601; Calibrated: 26.10.2017
Phantom: Flat Phantom 5.0 (front); Type: QD 000 P50 AA; Serial: 1001
DASYSZ 52.10.0(1446); SEMCAD X l4.6.10(7417)
Measurement grid: dx=5mm, dy=5rnm, dz=5mm
Reference Value = 116.7 V/m; Power Drift: ~0.06 dB
Peak SAR (extrapolated) = 29.6 W/kg
SAR(1 g) = 14.5 W/kg; SAR(10 g) = 6.44 Wlkg
Maximum value of SAR (measured) = 23.3 W/kg
dB
I]
-5.lll]
411.01]
45.01]
-2|J.l]l]
-25.l]l]
0 dB = 23.3 W/kg = 13.67 dBW/kg
Date: 17.01.2018
10mm/Zoom Scan (7x7x7)/Cube 0:
Certificale No: D2600V2-10977Jan18 Page 5 of B
Impedance Measurement Plot for Head TSL
17 Jan 2218 18l37=29
ml 511. 1 U F? 3:43.318” —>::9371 n 19.146 pr 2 586.0% nae NH:
1e, *
Hld
CH2 5,11 LQB ,5 gang -29 #3 V zqagg gs zrgamaa'aaa MHzV'
; . ‘7 . v . . . ¢ . ‘. a
‘T L .‘ 7 7 ,.
. .7 .
CA
av
155 . l
‘ ‘
Hid .. T7 ,.
A _ L , J. 1
amp 2 aéaieo’é mm MHZ
sfiir {mama we HHz
Certificate No: D2600V2—1 0977Jan15 Page 6 018
DASY5 Validation Report for Body TSL
Date: 17.01.2018
Test Laboratory: SPEAG, Zurich, Switzerland
DUT: Dipole 2600 MHz; Type: D2600V2; Serial: D2600V2 - SN:1097
Communication System: UID 0 - CW; Frequency: 2600 MHZ
Medium parameters used: f = 2600 MHz; 5 = 2.2 S/m; a, = 51.1; p = 1000 kg/m3
Phantom Section: Flat Section
Measurement Standard: DASY5 (IEEE/LEC/ANSI C63.19-2011)
DASY52 Configuration:
- Probe: EX3DV4 - SN7349; ConvF(7.81, 7.81, 7.81); Calibrated: 30112.2017;
. Sensoresurface: 1.4mm (Mechanical Surface Detection)
. Electronics: DAE4 Sn601; Calibrated: 26.10.2017
. Phantom: Flat Phantom 5.0 (back); Type: QD 000 P50 AA; Serial: 1002
- DASY52 52.10.0(1446); SEMCAD X 14,6.10(74l7)
Dipole Calibration for Body Tissue/Pin=250 mW, d=10mleoom Scan (7x7x7)/Cube 0:
Measurement grid: dx=5rnm, dy=5mm, dz=5mm
Reference Value = 107.3 V/m; Power Drift: -0.07 dB
Peak SAR (extrapolated) = 28.6 W/kg
SAR(1 g) = 13.8 W/kg; SAR(10 g) = 6.11 W/kg
Maximum value of SAR (measured) = 22.3 W/kg
dB
-4.00
43.00
-1Z.00
-1 5.00
~20.00
0 dB = 22.3 W/kg = 13.48 dBW/kg
Certificate No: D2600V2-10977Jan15 Page 7 ol 5
Impedance Measurement Plot for Body TSL
1? Jan 2913 19: 5:21
«mafia a 13.573 pr 2 666.880 Baa NH:
u|
-:
men 1ur3 3:4.
Del
c;
m3
Hld
EH2 SL1
CA
HV
159 ‘
Hld I Y 7+»
‘ ,+_L, L 1. 7 L L77 J_, L .7;,
5mm 2 49mm we NH: em? 2 sesame an "H:
Certificate No: DZSDOV2-109LJan1B Page 8 of 8
. . ,r ll|Il ,, Vi.
Calibration Laboratory of <§§Zflr S w., . : .; . . .
Schmld & Partner M C Service sulsse d'élalonnage
Engineering AG ; A ? Servizio svizzaro di taratul-a
Zeughaussrrasse 43, 8004 Zurich, Switzerland ifiy‘ Swiss Calibration Service
‘1/lllltll“
Ancredlted by me SWlss Accreditation Service (SAS) Accreditation No; 805 0108
The Swiss Accreditation service is one of the signatories to the EA
Multilateral Agreement tortlle recognition ofcallbrallon certificates
Client UL Korea (Dymstec) Certificate No: D56HzV2-11 84 Aug17
CALIBRATION CERTIFICATE
Object DSGHZVZ - SN21184
Calibratinn pracedure(s) QA CAL-22.v2
Calibration procedure for dipole validation kits between 3-6 GHz
Calibration date' August 23, 2017
This calibration certificate documents the tlaceahility to national standards, which realize the physical units of measurements (Sly
The measurements and the uncertainties with confidence probability are given on the lullowing pages and are part or the certificate
All calibrations have been Conducted In the closed laboratory facility: environment temperature (22 t 3)”C and humidity < 70%.
Calibration Equipment used (M&T'E critical tor calibration)
Primary Standards ID it Cal Date (Certificate No.) Scheduled Calibration
Power meter NRP SN 104778 04»Apr-17tN0. 217-02521I02522) Apr‘ta
Power sensor NRF-Z91 SN 103244 04Apr—17 (No. 217-02521) Apr-18
Power sensnr NRP-ZSt SN. 103245 047Apr-17 (No. 217-02522) Apr—18
Reference 20 dB Attenuator SN: 5055 (20kt 07-Apr-17 (No. 21102528) Apr-18
Type-N mismatch comblnaliun SN. 5047 2 / 05327 07-Apr-17 (ND 217702529) Apr~15
Reference Probe EX3DV4 SN: 3503 31-Dec»15 (No, EX3—3503_Dec‘ls) Dec~17
DAE4 SN. 501 2&Mar-17 (N0 DAEA-SOLMarW) Mar-18
Secandary Standards lD # Check Date (in house) Scheduled Check
Power meter EPMJ‘IZA SN: (3537480704 07»0Ct-15 (in house check Oct-16) In house check. Oct-18
Power sensor HP 845121 SN’ US$7292733 07»OCt-15(ln house check Oct-16) In house Check: Oct-18
Power sensor HP 5451A SN: MY41092317 07-Oct-15 (in house check Oct~16) In house check' 0:343
RF generator R&S SMT»05 SN' 100972 15-Jun-15 (In house check Oct-16) In house check 051715
Netwurk Analyzer HF E753E SN' US37390555 1B~UCt-01 (In house check 00016) In huuse check Oct-17
Name Function
Calibrated by: Claudio Leublel Laboratory Technician
fix:
Approved by' Katie Pokuvic Technical Manager M
Issued: August 23. 2017
This calibration cenlficate shall not be repmduced except in lull withuut written approval at the laboratory
Certificate No: DSGHzV2-1184_Augi7 Page 1 of 16
Calibration Laboratory of
Schmid & Partner
Engineering AG
Zeughausstrasse 43. HIM Zurich, Switzerland
s Schweizerischer Kalibrierdienst
C Service suisse d'étalorlnage
Servizio svizlero dl taratura
S SWISS calibration Service
Accredited by the Swiss Accreditation Service (SAS) Accreditation No.: SCS 0108
The Swiss Accreditation Service is one at the signatories to the EA
Multilateral Agreement for the recognition olcailbration certificates
Glossary:
TSL tissue simulating liquid
ConvF sensitivity in TSL / NORM x,y,z
NIA not applicable or not measured
Calibration is Performed 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 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 to 6 GHz)", July 2016
c) lEC 62209-2. "Procedure to determine the Specific Absorption Rate (SAR) for wireless
communication devices used in close proximity to the human body (frequency range of 30
MHZ to 6 GHz)", March 2010
d) KDB 865664, “SAR Measurement Requirements for 100 MHz to 6 GHz"
Additional Documentation:
e) DASY4/5 System Handbook
Methods Applied and Interpretation of Parameters:
0 Measurement Conditions: Further details are available from the Validation Report at the end
of the certificate. All figures 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 of the flat phantom section, with the arms oriented
parallel to the body axis.
0 Feed Point Impedance and Return Loss: These parameters are measured with the dipole
positioned under the liquid filled phantom The impedance stated is transformed from the
measurement at the SMA connector to the feed 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 power.
SAR 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 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%.
Certificate No: DSGHzV2-11847Augi7 Page 2 of 16
Measurement Conditions
DASY sister-n configuration, as far as not
iven on gage 1.
DASY Version DASYS V52.10.0
Extrapolation Advanced Extrapolation #—
Fhantom Modular Flat Phantom V5.0 J-
Distance Dipole Canker - TSL 10 mm with Spacer 1
Zoom Scan Resolution
dx, dy= 4.0 mm, dz =1.4 mm
Graded Ratio = 1.4 (2 direction)
5200 MHz L1 MHZ
5300 MHZ :t 1 MHZ
Frequency 5500 MHz 1 1 MHz
5600 MHz 1 1 MHz
5800 MHZ: 1 MHz 1.
Head TSL parameters at 5200 MHz
The following parameters and calculations were applied.
Temperature Permittivity Conductivity —1
Nominal Head TSL parameters 22.0 “C 36.0 4.66 mho/m
Measured Head TSL parameters (22.0 :t 0.2) “C 36.4 t 6 % 4.49 mholm i 6 %
Head TSL temperature change during test f < 0.5 “C —-— n—
..
SAR result with Head TSL at 5200 MHz
SAR averaged over 1 cm3 (1 g) of Head TSL
Condition
SAR measured
100 mW input power
7.54 W/kg
[_
SAR for nominal Head TSL parameters
normalized to 1 W T
75.5 W/kg t 19.9 % (k=2)
SAR averaged over 10 cm’ (10 g) of Head TSL
condition
SAR measured
100 mW input power
2.16 Wlkg
SAR for nominal Head TSL parameters
normalized to 1W
21.6 Wlkg 2 19.5 % (F2)
Certificate No: D5GHzV2—11B4¥Aug17
Page 3 of16
Head TSL parameters at 5300 MHz
The following parameters and calculations were applied.
Temperature Fennittlvily Conductivity
Nominal Head TSL parameters 22.0 “C ‘i 35.9 4.76 mho/m
Measured Head TSL parameters (22.0 i: 0.2) ”C 36.2 :l: 6 % 4.60 mho/m 2 6 %
Head TSL temperature change during test < 0.5 ”C —- ——
SAR result with Head TSL at 5300 MHz
SAR averaged over 1 cm3 (1 g) of Head TSL Condition
I__SAR measured
100 mW input power
8.12 W/kg
SAR for nominal l—‘ead TSL parameters
normalized to 1W J
31.3 Wlkg $19.9 % (k=2)
SAR averaged over 10 cm3 (10 g) of Head TSL
condition
SAR measured
100 mW input power
2.32 W/kg
SAR for nominal Head TSL parameters
normalized to 1W
.l.
23.2 W/kg 1 19.5 % (k=2)
Head TSL parameters at 5500 MHz
The followiflg parameters and calculations were applied.
.1 Temperature Fermiflivity Conductivity
Nominal Head TSL parameters 22.0 “C 35.6 498 mho/m
-_
Measured Head TSL parameters (220 :t: 0.2) ”C J 36.0 t 6 % 4.80 mho/m :- 6 % A
Head TSL temperature change during test < 05 “C -—~ —--
SAR result with Head TSL at 5500 MHz
SAR averaged over 1 cm3 (1 g) of Head TSL Condition
SAR measured 100 mW input power 806 W/kg
FSAR for nominal Head TSL parameters
normalized to 1W
80.6 W/kg 2 19.9 % (k=2)
SAR averaged over 10 cm1 (10 g) of Head TSL
condition
'I
SAR measured
100 mW input power
2.29 W/kg
SAR for nominal Head TSL parameters
normalized to 1W
22.9 Wlkg 319.5 “/17 (k=2)
Certificate No: DSGHZV2-1184_Aug17
Page 4 of 16
Head TSL parameters at 5600 MHz
The following parameters and calculations were agplied.
Temperature Permittlvity Conductivlty
Nominal Head TSL parameters 22.0 “C 35.5 5.07 mholm
Measured Head TSL parameters (220 t 0.2) °C 35.8 i 6 % 4.91 mho/m 1 6 %
Head TSL temperature change during test < 0.5 “C —--- ~~-
SAR result with Head TSL at 5600 MHz
SAR averaged over 1 cm3 (1 g) of Head TSL Condition
LSAR measured 100 mW input power 8.23 W/kg
LSAR for nominal Head TSL parameters normalized to 1W 82.3 Wlkg 119.9 % (k=2)
|_SAR averaged over 10 cm“ (10 g) of Head TSL 1 condition
SAR measured 100 mW input power 234 W/kg
SAR for nominal Head TSL parameters
normalized to 1W
23.4 Wlkg :- 19.5 0/. (k=2)
Head TSL parameters at 5800 MHz
he following parameters and calculations were applied.
Temperature L Pennittivity Conductivity
LAlumina! Head TSL parameters 22.0 °C 35.3 5.27 mho/m
Measured Head TSL parameters (22.0 t 0.2) °C 35.5 t 6 % 5.11 mho/m i 6 %
Head TSL temperature change during test < 0.5 "C —- —-
SAR result with Head TSL at 5800 MHz
SAR averaged over 1 em3 (1 g) of Head TSL Condition L
SAR measured 100 mW input power 7.81 W/kg
SAR for nominal Head TSL parameters
normalized to 1W
73.1 Wlkg $19.9 % (k=2)
SAR averaged over 10 cm3 (10 g) of Head TSL
condition
SAR measured _L 1
00 mW input power L
2.22 W/kg
SAR for nominal Head TSL parameters
normalized to 1W
22.2 Wlkg 219.5 % (k=2)
Certificate No: DSGHzV2A1154_Augi7 Page 5 of 16
Body TSL parameters at 5200 MHz
The iollowlng parameters and calculations were applied.
Temperature Permittivity Conductlvlty
Nominal Body TSL parameters 22.0 “C 49.0 5.30 mho/m
Measured Body TSL parameters l__(22.D i 0.2) ”C 47.1 J: 6 % L 5.39 mho/m : 6 %
Body TSL temperature change during (test < 0.5 ‘C 1 —— ~—
SAR result with Body TSL at 5200 MHz
SAR averaged over 1 cm: (1 g) of Body TSL
Condition
SAR measured
100 mW input power
7.25 W/kg
L SAR for nominal Body TSL parameters
normalized to 1W
71.9 Wlkg $19.9 % (k=2)
SAR averaged over 10 cm5 (10 g) of Body TSL
condifian
SAR measured
100 mW input power
2.03 Wlkg
SAR for nominal Body TSL parameters
normalized to 1W
20.1 Wlkg : 19.5 % (k=2)
Body TSL parameters at 5300 MHz
The following parameters and calculations were applied,
Temperature Permittivlty Conductivity _'
Nominal Body TSL parameters 22.0 “C 1 48.9 5.42 mho/m
Measured Body TSL parameters (22.0 t 0.2) ”C 47.0 t 6 % 5.53 mho/m i 6 %
Body TSL temperature change during test < 0.5 “C ~~ —-
SAR result with Body TSL at 5300 MHz
SAR averaged overi em’ (1 g) of Body TSL Condition
SAR measured
100 mW Input power
7.70 W/kg
SAR for nominal Body TSL parameters
normalized to 1W
76.4 Wlkg 1 19.9 «1/. (k=2)
SAR averaged over 10 cm“ (10 g) of Body TSL
condition
SAR measured
100 mW input power
2.15 W/kg
SAR for nominal Body TSL parameters
normalized to 1W
21.3 Wlkg i195 % (k=2)
Certificate No: DSGHzV2-11E4_Aug17
Page 6 of 16
Body TSL parameters at 5500 MHz
Trhe followingflarameters and calculations were applied.
Temperature Permittlvity Conductivity
Nominal Body TSL parameters J_ 22.0 "C 48.6 5.65 mho/m
Measured Body TSL parameters _,_ (22.0 :t 0.2) “C 46.6 :k 6 “In 5.79 mholm i 6 %
Body TSL temperature change during test < 0.5 “C —« --— _‘
SAR result with Body TSL at 5500 MHz
SAR averaged over 1 cm“ (1 g) of Body TSL Condition
SAR measured 100 mW input power J 7.77 W/kg
I-§AR for nominal Body TSL parameters normalized to 1W 77.1 Wlkg 1 19.9 “I. ik=2)
SAR averaged over 10 cm3 (10 g) of Body TSL condition _I
SAR measured
100 mW input power
215 W/kg
SAR for nominal Body TSL parameters
normalized to 1W
21.3 Wlkg : 19.5 % (k=2)
Body TSL parameters at 5600 MHz
The following parameters and calculations were applied.
Temperabure Permittivlty Conductivity
Nominal Body TSL parameters 220 °C T 48.5 577 rnho/m
Measured Body TSL parameters L (22.0 :t 0.2) ”C 46.4 1 6 % 5.93 mho/m t 6 %
Body TSL temperature change during test < 0.5 "C —- '— —-—
SAR result with Body TSL at 5600 MHz
SAR averaged over 1 cm’ (1 g) of Body TSL Condition
SAR measured 100 mW input power 7.98 Wlkg
SAR for nominal Body TSL parameters
normallzed to 1W
19.2 Wlkg 1 19.9 ”A (k=2)
SAR averaged over 10 cm“ (10 g) of Body TSL
condition
SAR measured
LSAR for nominal Body TSL parameters
100 mW input power
normalized to 1W
2,24 W/kg
22.2 W/kg 1 19.5 % (k=Z)
Conifioale No: DEGHzVZ-i 184¥Aug17
Page 7 of 16
Download: SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Mirror Download [FCC.gov]SMA600GN GSM/WCDMA/LTE Phone + BT/BLE, DTS/UNII a/b/g/n and ANT+ and NFC RF Exposure Info 4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2 Samsung Electronics Co Ltd
Document ID3810457
Application IDRRiIbZ9rloPfxC+BD9eW9g==
Document Description4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeRF Exposure Info
Display FormatAdobe Acrobat PDF - pdf
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Date Submitted2018-04-09 00:00:00
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Creation Date2018-04-03 22:54:01
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Document Title4788371667-S1V2 FCC Report SAR App F_Dipole Cal. Cert_2
Document CreatornPDF (pdftk 1.41)

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