PG2132 LTE Phone RF Exposure Info Test Report HAC RF Part 2 Sonim Technologies, Inc.

Sonim Technologies, Inc. LTE Phone

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Galibration Laboratory of
S SChWeizenscher KJibnerdienst
4alonnage
Schmid & Partner
Engineering AG
ロ
S:譜 ::淵 霧
ilt■ 役
C SerViCe suisse d・
Zeughausstrasse /8, 8004 Zurich, Switserland
Accredita“ on
Accredited by the Swiss Accreditation Service (SAS)
The Swiss Accreditation Service is one of the signatories to the EA
No:SCS 0108
Multilateral Agreement for the recognition of calibration certificates
crient
Certincate No:ER32476 Jan17
Sporton-KS(Auden)
CALIBRAT:ON CERTIFiCATE
ER3DV6-SN:2476
Object
Calibralron
procedure(s)
calibration
date:
QA CAL-02.V8, QA CAL-2S.vG
Calibration procedure for E-field probes optimized for close near field
evaluations in air
January 25, 2017
This calibration certificale docurrents the kaceabllity to nat ona standards, wh ch realize lhe physical un ts of measurements (Sl)
The measurements and the uncerta nties with confidence p.obability are given on the following pages and are pari ofthe certificate.
All ca ibrations have been conducted in the closed laboratory facility: environmenl lemperatuTe (22
3)'C and humid ty < 70%.
Calibration Equipment Lrsed (M&TE critical for calibration)
Primary Standards
ID
Cal Date(Celtr cate No)
Scheduled Ca‖ brat on
Power meter NRP
SN1 104778
06-Ap卜 16(No 217-02288′ 02289)
Ap「 17
Power sensor NRP-ZSl
06-Ap「 16(No 217-02288)
Ap「 17
Power sensor NRP-291
SN:103244
SN:103245
06-Ap卜 16(No 217-02289)
Ap「 17
Reference 20 dB Attenuator
SNI S5277(20x)
05-Ap卜 16(No 217-02293)
Ap「 17
ReFerence Probe ER3DV6
SN:2328
44‐
Oct 16(No ER3-2328_Oct1 6)
0_t17
DAE4
SN:789
14‐
Nov-16(No DAE4-789_Nov16)
Nov 17
Secondary Standards
ID
Check Date“ n hOuse)
Scheduled Check
Power meter Ezl4198
06 Ao「 16(in house check」 un-16)
ln house check: Jun-18
Power sensor E4412A
SN:GB41293874
SN:MY4,498087
06 Ap「 16(n houSe check」 un-16)
ln house check: Jun 18
Power sensor Erl412A
SNi 000440240
06-Apr‐ 16(n
ln house check: Jun-18
RF Oenerator HP 8648C
SNi US3642U01700
04-Auq-99(in house check Oun-16)
ln house check: Jun-18
Netwo「 k Analyzer HP 8753E
SNi US37390585
18-Oct-04 1n houSe check Oc1 16)
ln house check: Oct.17
houSe check」 un-46)
Name
Funcl on
Calibrated by:
Jeton Kastrati
Laboratory Technician
Approved by:
Katja Pokovic
Technical Manager
lssued: January 25, 2017
This ca‖ brat on certficate sha‖
not be
Certificate No:ER3‐ 2476」 an17
in
fullwithout written
Page 1 of 10
of the
Calibration Laboratory of
S SChWe[zenscher KJibnerd● nst
Schmid & Partner
Engineering AG
C SerVte sutse d'6talonnage
S:讃 富綺 itЛぽ
Zeughausstrasse 43, 8004 Zurich, SwiEerland
AccredLa“ on
Accredited by the Swiss Accreditation Service (SAS)
The Swiss Accreditalion Service is one ofthe signatories to the EA
No:SCS 0108
Multilateral Agreement tor the recognition of calibration certificates
Glossary:
NORMx,y,z
DCP
CF
A,B,C,D
Polarization e
Polarization S
Connector Angle
sensitivity in free space
diode compression point
crest factor (1/duty_cycle) of the RF signal
modulation dependent linearization parameters
e rotation around probe axis
I rotation around an axis that is in the plane normal to probe axis (at measurement center),
i.e., $ = 0 is normal to probe axis
information used in DASY system to align probe sensor X to the robot coordinate system
Calibration is Performed According to the Following Standards:
a)
b)
lEEE Std 1309-2005, " IEEE Standard for calibration of electromagnetic field sensors and probes, excluding
antennas, from I kHz to 40 GHz", December 2005
CTIA Test Plan for Hearing Aid Compatibility, Rev 3.0, November 2013
Methods Applied and lnterpretation of Parameters:
NORMx,y,z: Assessed for E-field polarization S = 0 forXY sensors and S = 90 forZsensor (f< 900 NIHz in
TEM-cell; f > 1800 MHz: R22 waveguide).
NORM(1x,y,z = NORMr,y,z * frequency_response (see Frequency Response Chart).
DCPx,y,z: DCP are numerical linearization parameters assessed based on the data of power sweep with CW
signal (no uncertainty required). DCP does not depend on frequency nor media.
PAR: PAR is the Peak to Average Ratio that is not calibrated but determined based on the signal
characteristics
Ax,y,z; Bx,y,z: Cx,y,z; Dx,y,z; VRx,y,z: A, B, C, D arc numerical linearization parameters assessed based on
the data of power sweep for specific modulation signal. The parameters do not depend on frequency nor
media. yR is the maximum calibration range expressed in RMS voltage across the diode.
Spherical isotropy (3D deviation from isotropy)'. in a locally homogeneous field realized using an open
waveguide setup.
Sensor Offsef: The sensor offset corresponds to the offset of virtual measurement center from the probe tip
(on probe axis). No tolerance required.
Connector Angle: The angle is assessed using the information gained by determining the NORMX (no
uncertainty required).
certricate No:ER3-2476」 an1 7
Page 2 of
'10
ER3DV6-SN:2476
」anuatγ
Probe ER3DV6
SN:2476
Manufactured:
Ca‖ brated:
March 31,2009
」anuary 25,2017
Calibrated for DASY/EASY Systems
(Notei non compaible wnh DASY2 system!)
Certincate No:ER3-2476_Jan17
Page 3 of10
25,2017
ER3DV6-SN:2476
」anuary 25,2017
DASY′ EASY‐ Parameters of Probe:ER3DV6‐ SN:2476
Basic Calibration Parameters
Sensor
Sensor Y
189
994
Norm(μ V/(V/m)2
DCP(mV)°
Sensor
Unc (k=2)
± 101%
216
1002
166
994
Modulation Calibration Parameters
U:D
10172‐
CAC
10173-
CAC
10235‐
CAC
40237-
CAC
Communication System Name
′
Cヽ´
LTE― TDD(SC―
FDMA,l RB,20 MHz,
QPSK)
LTE‐ TDD(SC‐
FDMA,l RB,20 MHz,
16 QAM)
LTE‐ TDD(SC‐
FDMA,l RB,10 MHz,
16-QAM)
LTE― TDD(SC―
FDMA,l RB,10 MHz,
QPSK)
dB
dB、 /μV
00
10
00
00
00
814
782
291
995
840
1079
856
791
320
303
297
1027
1142
842
838
1040
1137
982
1100
320
308
291
846
838
786
322
308
294
836
834
318
VR
mV
1827
unc
(k=2)
±22%
2071
2261
10
834
dB
000
921
1146
±38%
948
1362
1169
1136
±35%
948
1367
1184
1133
±35%
921
1367
1182
1147
±35°/0
1361
4181
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%.
Numerical linearization parameter: uncertainty not required.
LJncertainty is determined using the max. devialion from linear response applying rectangular distribution and is expressed for the square ofthe
field value.
Certificate No:ER3-247∝ 」an17
Page 4 of10
ER3DV6-SN:2476
」anuary 25,2017
Frequency RespOnse of E‐ Field
(TEMⅢ Ce‖ :ifil10 EXX,Waveguide:R22)
︵つoさ扇E ﹂
oこ oφcoαφoこ δ EOコσ? ﹂
14
Z
H
0M
0I
5f
︲
TEM(0°
R22(0°
2000
回
TEM(90°
Uncertainty of Frequency Response of E-field:
Certilcate No:ER3-2476 Jan17
Page 5 of 10
R22(90° )
6.30lo (k=2)
ER3DV6-SN:2476
」anuary 25,2047
Receiving Pattern ($), $ = 0"
卜600 MHz,TEM,0°
問
・
■0も っ
“““ “
一
一
Y
・﹁
● Z
●
×
Tol
卜2500 MHz,R22,0°
●
Receiving Pattern (0), S = 90o
←600 MHz,丁 EM,90°
■2500 MHz,R22,90°
゛、
、︲
プ/
\し
6
002鮨
lJ
06“
ト
0020403
ヽ
ヽ
2ぶ
.
一
一
Certincate No:ER3-2476 」an17
Tol
Paqe 6 of 10
一
Y
● 一
¨ 一
Tot
ER3DV6-SN:2476
」anuary
Receiving Pattern (g),
置2 8﹂
﹂
ロ
イ
‐
ー
I = 0'
、
―
―
C―
一
―
1鳳 z
R。 lI・ l
60臨
Uncertainty of Axial lsotropy
調 Hz
“
Assessment: t 0.5% (k=2)
25∫ :「 ]Hz
Receiving Pattern (0), $ = 90o
ご己 ﹄
g〓
Ш
…
H
□ M
o
o
□
R。 11・ ]
Uncertainty of Axial lsotropy Assessment:
Certincate No:ER3-2476 」an4 7
コ
」
1800 MHz
600 1vlHz
Page 7 of10
2500 MHz
0.5% (k=2)
25,2017
ER3DV6-SN:2476
January 25,2017
Dynamic Range f(E-field)
(TEMcell ,f=900MHz)
一ヽ こD ] 一o C O 示 ︺ ´コ a C 一
y
E tota[V/m]
not compensated
e
m
o
c
」
コい
10i
一
m O一ヽOヒ Ш
ヽ
102
イ01
E total
Ⅳ/m]
」
Uncertainty of Linearity Assessment:
Certincate Nol ER3-2476
」an17
□
compensated
not compensated
Page 8 of '10
0.6% (k=2)
ER3DV6-SN:2476
」anuary 25,2017
Deviation from lsotropy in Air
Error(0,3),f=900 MHz
0
.
6一0
﹃r
甜﹁
¨¨優“0
・
m
・︲
ヽゃめ
‐
1 0
‐
08
‐
06
‐
0 4
-02
00
02
04
0 6
0 8
1 0
Uncertainty of Spherica:isotropy Assessment:± 26°/0(k=2)
Certificate No:ER3‐ 2476_」 an17
Page 9 of 10
ER3DV6-SN:2476
」anua!γ
25,2017
DASYノ EASY‐ Parameters of Probe:ER3DV6口 SN:2476
0ther Probe Parameters
Sensor Arrangement
Rectangular
202
Connector Angle (")
Mechanical Surface Detection l\4ode
enabled
Optical Surface Detection Mode
disabled
Probe Overall Length
337 mm
Probe Body Diameter
10 mm
Tip Length
10 mm
3mm
Tip Diameter
Probe Tip to Sensor X Calibration Point
25mm
Probe Tip to Sensor Y Calibration Point
25mm
Probe Tip to Sensor Z Calibration Point
25mm
Certincate Nol ER3-2476_」
an17
Page 10 of 10
Download: PG2132 LTE Phone RF Exposure Info Test Report HAC RF Part 2 Sonim Technologies, Inc.
Mirror Download [FCC.gov]PG2132 LTE Phone RF Exposure Info Test Report HAC RF Part 2 Sonim Technologies, Inc.
Document ID3670970
Application ID/wwpUB0Oc211HtaZtGJaLw==
Document DescriptionTest Report HAC RF Part 2
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeYes
Document TypeRF Exposure Info
Display FormatAdobe Acrobat PDF - pdf
Filesize350.7kB (4383706 bits)
Date Submitted2017-12-11 00:00:00
Date Available2017-12-13 00:00:00
Creation Date2017-12-05 13:36:37
Producing SoftwareFoxit PhantomPDF - Foxit Software Inc.
Document Lastmod2017-12-05 14:35:37
Document TitleTest Report HAC RF Part 2
Document Author: Yanying

Source Exif Data [exif.tools]:
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PDF Version                     : 1.7
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Author                          : Yanying
Create Date                     : 2017:12:05 13:36:37
Modify Date                     : 2017:12:05 14:35:37+08:00
Producer                        : Foxit PhantomPDF - Foxit Software Inc.
Has XFA                         : No
Page Count                      : 23