72473T GSM/WCDMA/LTE Phone+Bluetooth, DTS/UNII a/b/g/n/ac and NFC RF Exposure Info ._20181219_v1 - PY7-72473T_TestRpt_RFExp_Appendix C_part 2 Sony Mobile Communications Inc

Sony Mobile Communications Inc GSM/WCDMA/LTE Phone+Bluetooth, DTS/UNII a/b/g/n/ac and NFC

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Calibration Laboratory of
Schmid & Partner
Engineering AG
Zeughausstrasse 43, 8004 Zurich, Switzerland
Accredited by the Swiss Accreditation Service (SAS)
Schweizerischer Kalibrierdienst
Service suisse d'etalonnage
Servizio svizzero di taratura
Swiss Calibration Service
Accreditation No.:
SCS 0108
The Swiss Accreditation Service is one of the signatories to the EA
Multilateral Agreement for the recognition of calibration certificates
Client
Auden
Certificate No:
DAE4-917_Dec17
CALIBRATION CERTIFICATE
Object
DAE4 - SD 000 004 BK - SN: 917
Calibration procedure(s)
QA CAL-06.v29
Calibration procedure for the data acquisition electronics (DAE)
Calibration date:
December 14, 2017
This calibration certificate documents the traceability to national standards, which realize the physical units of measurements (SI).
The measurements and the uncertainties with confidence probability are given on the following pages and are part of the certificate.
All calibrations have been conducted in the closed laboratory lacility: environment temperature (22 ± 3)°C and humidity < 70%.
Calibration Equipment used (M&TE critical for calibration)
Primary Standards
Keithley Multimeter Type 2001
I SN: 0810278
Cal Date (Certificate No.)
Scheduled Calibration
31 -Aug-1 7 (No:21092)
Aug-1 8
Check Date (in house)
Scheduled Check
In house check: Jan-18
In house check: Jan-18
Secondary Standards
ID #
Auto DAE Calibration Unit
SE UWS 053 AA 1001
05-Jan-17 (in house check)
Calibrator Box V2.1
SE UMS 006 AA 1002
05-Jan-17 (in house check)
Name
Function
Calibrated by:
Adrian Gehring
Laboratory Technician
Approved by:
Sven Kuhn
Deputy Manager
Signature
).~
\v.'1._~
Issued: December 14, 2017
This calibration certificate shall not be reproduced except in full without written approval of the laboratory.
Certificate No: DAE4-917 _Dec17
Page 1 of 5
Calibration Laboratory of
Schmid & Partner
Engineering AG
Zeughausstrasse 43, 8004 Zurich, Switzerland
Accredited by the Swiss Accreditation Service (SAS)
Schweizerischer Kalibrierdienst
Service suisse d'etalonnage
Servizio svizzero di taratura
Swiss Calibration Service
Accreditation No.:
SCS 0108
The Swiss Accreditation Service is one of the signatories to the EA
Multilateral Agreement for the recognition of calibration certificates
Glossary
DAE
Connector angle
data acquisition electronics
information used in DASY system to align probe sensor X to the robot
coordinate system.
Methods Applied and Interpretation of Parameters
•
DC Voltage Measurement: Calibration Factor assessed for use in DASY system by
comparison with a calibrated instrument traceable to national standards. The figure given
corresponds to the full scale range of the voltmeter in the respective range.
•
Connector angle: The angle of the connector is assessed measuring the angle
mechanically by a tool inserted. Uncertainty is not required.
•
The following parameters as documented in the Appendix contain technical information as a
result from the performance test and require no uncertainty.
•
DC Voltage Measurement Linearity: Verification of the Linearity at + 10% and -10% of
the nominal calibration voltage. Influence of offset voltage is included in this
measurement.
•
Common mode sensitivity: Influence of a positive or negative common mode voltage on
the differential measurement.
•
Channel separation: Influence of a voltage on the neighbor channels not subject to an
input voltage.
•
AD Converter Values with inputs shorted: Values on the internal AD converter
corresponding to zero input voltage
•
Input Offset Measurement Output voltage and statistical results over a large number of
zero voltage measurements.
•
Input Offset Current: Typical value for information ; Maximum channel input offset
current, not considering the input resistance.
•
Input resistance: Typical value for information: DAE input resistance at the connector,
during internal auto-zeroing and during measurement.
•
Low Battery Alarm Voltage: Typical value for information . Below this voltage, a battery
alarm signal is generated.
•
Power consumption: Typical value for information. Supply currents in various operating
modes.
Certificate No: DAE4-917_Dec17
Page 2 of 5
DC Voltage Measurement
AID - Converter Resolution nominal
High Range:
1LSB =
6.1µV ,
full range= -100 ... +300 mV
Low Range:
1LSB =
61 nV ,
full range= -1 .......+3mV
DASY measurement parameters: Auto Zero Time: 3 sec; Measuring time: 3 sec
High Range
404.220 ± 0.02% (k=2)
404.223 ± 0.02% (k=2)
404.232 ± 0.02% (k=2)
Low Range
3.96911 ± 1.50% (k=2)
4.00612 ± 1.50% (k=2)
3.99363 ± 1.50% (k=2)
Calibration Factors
Connector Angle
35.5 ° ± 1 °
Connector Angle to be used in DASY system
Certificate No: DAE4-917_Dec17
Page 3 of 5
Appendix (Additional assessments outside the scope of SCS0108)
1. DC V oItage L'meantv
High Range
Reading (µV)
Difference (µV)
Error(%)
ChannelX
+ Input
199996.93
0.44
0.00
ChannelX
+ Input
20002.26
0.60
0.00
ChannelX
- Input
-19999.28
1.82
-0.01
ChannelY
+ Input
199997.59
0.94
0.00
ChannelY
+ Input
19999.22
·2.33
-0.01
ChannelY
- Input
-20002 .32
-1.16
0.01
ChannelZ
+ Input
199996.21
-0. 14
-0.00
ChannelZ
+ Input
20000.04
-1 .59
-0.01
ChannelZ
- Input
-20003.10
-1.79
0.01
Reading (µV)
Difference (µ V)
Low Range
Error(%)
ChannelX
+ Input
2001 .32
0.31
0.02
ChannelX
+ Input
202.19
0.72
0.36
ChannelX
- Input
-197.56
0.79
-0.40
ChannelY
+ Input
2001.46
0.37
0.02
ChannelY
+ Input
200.19
-1.28
-0 .63
ChannelY
- Input
-1 99.02
-0.74
0.38
ChannelZ
+ Input
2001.75
0.7 1
0.04
ChannelZ
+ Input
200.73
-0.73
-0.36
ChannelZ
- Input
-199.37
-1 .03
0.52
2. Common mode sensitivity
DASY measurement parameters: Auto Zero T1me: 3 sec; Measunng time: 3 sec
Common mode
Input Voltage (mV)
ChannelX
ChannelY
ChannelZ
High Range
Average Reading (µV)
Low Range
Average Reading (µV)
200
-4.75
-6.26
- 200
7.99
6.37
200
4.39
4.1 7
· 200
-6.26
-6.75
200
-14.39
-14.25
· 200
12.04
12.44
3. Channel separation
DASY measurement parameters: Auto Zero T1me: 3 sec; Measunnq 1me: 3 sec
Input Voltage (mV)
Channel X (µV)
Channel Y (µV)
Channel Z (µV)
ChannelX
200
-2.71
-3.12
ChannelY
200
6.26
0.59
ChannelZ
200
10.34
2.73
Certificate No: DAE4-917 _Dec17
Page 4 of 5
4. AD-Converter Values with inputs shorted
DASY measurement parame ters: A uo
t Zero T1me: 3 sec; Measunnq time: 3 sec
High Range (LSB)
Low Range (LSB)
ChannelX
16029
15653
ChannelY
16106
14634
ChannelZ
15947
15886
5. Input Offset Measurement
DASY measurement parameters: Auto Zero Time: 3 sec; Measuring time: 3 sec
Input 10MQ
Average (µV)
min. Offset (µV)
max. Offset (µV)
Std. Deviation
(uV)
ChannelX
1.05
-0.17
4.03
0.48
ChannelY
-0.88
-3.38
0.10
0.51
ChannelZ
-0.06
-0.91
1.01
0.37
6. Input Offset Current
Nominal Input circuitry offset current on all channels: <25fA
7.
. tance (Typical values for information)
nput Res1s
Zeroing (kOhm)
Measuring (MOhm)
ChannelX
200
200
ChannelY
200
200
ChannelZ
200
200
o taQe
8. Low B a tterv Al arm VI
Typical values
(Typical values for information)
Alarm Level (VDC)
Supply(+ Vee)
+7.9
Supply (- Vee)
-7.6
9. p ower Consumpf10n
(Typical values for information)
Typical values
Switched off (mA)
Stand by (mA)
Transmitting (mA)
Supply(+ Vee)
+0.01
+6
+14
Supply (- Vee)
-0.01
-8
-9
Certificate No: DAE4-917_Dec17
Page 5 of 5
Calibration Laboratory of
Schmid & Partner
Engineering AG
Schweizerischer Kalibrierdienst
Service suisse d'etalonnage
Servizio svizzero di taratura
Zeughausstrasse 43, 8004 Zurich, Switzerland
Accredited by the Swiss Accreditation Service (SAS)
Accreditation No.:
Swiss Calibration Service
SCS 0108
The Swiss Accreditation Service is one of the signatories to the EA
Multilateral Agreement for the recognition of calibration certificates
Client
Sporton
Certificate No:
ES3-3270_Sep18
CALIBRATION CERTIFICATE
Object
ES3DV3 - SN:3270
Calibration procedure(s)
QA CAL-01.v9, QA CAL-23.vS, QA CAL-25.v6
Calibration procedure for dosimetric E-field probes
Calibration date:
September 24, 2018
This calibration certificate documents the traceability to national standards, which realize the physical units of measurements (SI).
The measurements and the uncertainties with confidence probability are given on the following pages and are part of the certificate.
All calibrations have been conducted in the closed laboratory facility: environment temperature (22 ± 3)°C and humidity< 70%.
Calibration Equipment used (M&TE critical for calibration)
Primary Standards
ID
Cal Date (Certificate No.)
Power meter NRP
SN: 104778
04-Apr-1 8 (No. 217-02672/02673)
Apr-1 9
Power sensor NRP-291
SN: 103244
04-Apr-18 (No. 217-02672)
Apr-19
Power sensor NRP-291
SN: 103245
04-Apr-1 8 (No. 217-02673)
Apr-19
Reference 20 dB Attenuator
SN: S5277 (20x)
04-Apr-18 (No. 217-02682)
Apr-19
Reference Probe ES3DV2
SN: 3013
30-Dec-17 (No. ES3-3013 Dec17)
Dec- 18
DAE4
SN: 660
21-Dec-17 (No. DAE4-660_Dec17)
Dec-18
Scheduled Calibration
Secondary Standards
ID
Check Date (in house)
Scheduled Check
Power meter E4419B
SN: GB41293874
06-Apr-1 6 (in house check Jun-18)
In house check: Jun-20
Powersensor E4412A
SN: MY41498087
06-Apr-1 6 (in house check Jun- 18)
In house check: Jun-20
PowersensorE4412A
SN: 000110210
06-Apr-1 6 (in house check Jun-18)
In house check: Jun-20
RF generator HP 8648C
SN: US3642U01700
04-Aug-99 (in house check Jun-18)
In house check: Jun-20
Network Analyzer E8358A
SN: US41080477
31-Mar-14 (in house check Oct-17)
In house check: Oct-18
Calibrated by:
Name
Function
Michael Weber
Laboratory Technician
1~
-----
Approved by:
Katja Pokovic
Technical Manager
Issued: September 29, 2018
This calibration certificate shall not be reproduced except in full without written approval of the laboratory.
Certificate No: ES3-3270_Sep18
Page 1 of 11
Calibration Laboratory of
Schmid & Partner
Engineering AG
Zeughausstrasse 43, 8004 Zurich, Switzerland
Accredited by the Swiss Accreditation Service (SAS)
Schweizerischer Kalibrierdienst
Service suisse d'etalonnage
Servizio svizzero di taratura
Swiss Calibration Service
Accreditation No. :
SCS 0108
The Swiss Accreditation Service is one of the signatories to the EA
Multilateral Agreement for the recognition of calibration certificates
Glossary:
TSL
NORMx,y,z
ConvF
DCP
CF
A,B, C,D
Polarization cp
Polarization S
Connector Angle
tissue simulating liquid
sensitivity in free space
sensitivity in TSL / NORMx, y,z
diode compression point
crest factor (1 /duty_cycle) of the RF signal
modulation dependent linearization parameters
cp rotation around probe axis
3 rotation around an axis that is in the plane normal to probe axis (at measurement center),
i.e., S = 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)
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 handheld 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"
Methods Applied and Interpretation of Parameters:
•
•
•
•
•
•
•
•
•
NORMx,y,z: Assessed for E-field polarization 3 = 0 (f ~ 900 MHz in TEM-cell; f > 1800 MHz: R22 waveguide).
NORMx,y,z are only intermediate values, i.e., the uncertainties of NORMx,y,z does not affect the E -field
uncertainty inside TSL (see below ConvF).
NORM(f)x,y,z = NORMx,y,z * frequency_response (see Frequency Response Chart). This linearization is
implemented in DASY4 software versions later than 4.2. The uncertainty of the frequency response is included
in the stated uncertainty of ConvF.
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, Dare numerical linearization parameters assessed based on
the data of power sweep for specific modulation signal. The parameters do not depend on frequency nor
media. VR is the maximum calibration range expressed in RMS voltage across the diode.
ConvF and Boundary Effect Parameters: Assessed in flat phantom using E-field (or Temperature Transfer
Standard for f ~ 800 MHz) and inside waveguide using analytical field distributions based on power
measurements for f > 800 MHz. The same setups are used for assessment of the parameters applied for
boundary compensation (alpha, depth) of which typical uncertainty values are given. These parameters are
used in DASY4 software to improve probe accuracy close to the boundary. The sensitivity in TSL corresponds
to NORMx,y,z * ConvF whereby the uncertainty corresponds to that given for ConvF. A frequency dependent
ConvF is used in DASY version 4.4 and higher which allows extending the validity from ± 50 MHz to ± 100
MHz.
Spherical isotropy (3D deviation from isotropy) : in a field of low gradients realized using a flat phantom
exposed by a patch antenna.
Sensor Offset: The sensor offset corresponds to the offset of 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).
Certificate No: ES3-3270_Sep18
Page 2 of 11
ES3DV3 - SN:3270
September 24, 2018
Probe ES3DV3
SN:3270
Manufactured:
Calibrated:
February 25, 2010
September 24, 2018
Calibrated for DASY/EASY Systems
(Note: non-compatible with DASY2 system!)
Certificate No: ES3-3270_Sep18
Page 3 of 11
ES3DV3- SN:3270
September 24, 2018
DASY/EASY - Parameters of Probe: ES3DV3 - SN:3270
Basic Calibration Parameters
Norm7:;v//V/ml'IA
DCP lmV\
Sensor X
SensorY
SensorZ
Unc (k=2)
1.08
101.7
1.17
104.7
1.19
101.9
+ 10.1 %
Modulation Calibration Parameters
UID
Communication System Name
cw
dB
dBVµV
0.0
0.0
0.0
0.0
0.0
0.0
1.0
1.0
1.0
dB
0.00
VR
mV
191.7
209.4
199.9
Unc1::
(k=2)
+3.3 %
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%.
uncertainties of Norm X,Y,Z do not affect the E2-field uncertainty inside TSL (see Pages 5 and 6).
Numerical linearization parameter: uncertainty not required.
E. Uncertainty ls determined using the max. deviation from linear response applying rectangular distribution and is expressed for the square of the
field value.
A The
Certificate No: ES3-3270_Sep18
Page 4 of 11
ES3DV3- SN:3270
September 24, 2018
DASY/EASY - Parameters of Probe: ES3DV3 - SN:3270
Calibration Parameter Determined in Head Tissue Simulating Media
flMHzl c
Relative
Permittivity F
Conductivity
(Sim) F
ConvF X
ConvFY
ConvF Z
Alpha 0
750
41.9
0.89
6.56
6.56
6.56
835
41.5
0.90
6.39
6.39
900
41.5
0.97
6.20
1750
40.1
1.37
1900
40.0
2000
(mm)
Unc
(k=2)
0.50
1.55
+ 12.0 %
6.39
0.43
1.56
+ 12.0 %
6.20
6.20
0.44
1.54
± 12.0 %
5.42
5.42
5.42
0.40
1.75
± 12.0 %
1.40
5.17
5.17
5.17
0.80
1.16
± 12.0 %
40.0
1.40
5.13
5.13
5.13
0.56
1.46
+ 12.0 %
2100
39.8
1.49
5.03
5.03
5.03
0.80
1.23
+ 12.0 %
2450
39.2
1.80
4.60
4.60
4.60
0.74
1.30
± 12.0 %
2600
39.0
1.96
4.43
4.43
4.43
0.80
1.31
± 12.0 %
Depth"
c Frequency validity above 300 MHz of± 100 MHz only applies for OASY v4.4 and higher (see Page 2), else it is restricted to± 50 MHz. The
uncertainty is the RSS of the ConvF uncertainty at calibration frequency and the uncertainty for the indicated frequency band. Frequency valldity
below 300 MHz is± 10, 25, 40, 50 and 70 MHz for ConvF assessments at 30, 64, 128, 150 and 220 MHz respectively, Above 5 GHz frequency
validity can be extended to± 110 MHz.
F At frequencies below 3 GHz, the validity of tissue parameters (e and a) can be relaxed to± 10% if liquid compensation formula is applied to
measured SAR values. At frequencies above 3 GHz, the valldity of tissue parameters (t: and cr) is restricted to± 5%. The uncertainty is the RSS of
the ConvF uncertainty for Indicated target tissue parameters.
G Alpha/Depth are determined during calibration. SPEAG warrants that the remaining deviation due to the boundary effect after compensation is
always less than± 1% for frequencies below 3 GHz and below± 2% for frequencies between 3~6 GHz at any distance larger than half the probe tip
diameter from the boundary.
Certificate No: ES3-3270_Sep18
Page5of11
ES3DV3- SN:3270
September 24, 2018
DASY/EASY - Parameters of Probe: ES3DV3 - SN:3270
Calibration Parameter Determined in Body Tissue Simulating Media
Relative
Permittivitv F
Conductivity
f /MHz) c
IS/ml'
ConvF X
ConvFY
ConvF Z
AlohaG
Imm\
Unc
{k=2)
750
55.5
0.96
6.29
6.29
6.29
0.41
1.65
± 12.0 %
835
55.2
0.97
6.11
6.11
6.11
0.38
1.70
+ 12.0 %
1750
53.4
1.49
4.97
4.97
4.97
0.58
1.49
± 12.0 %
1900
53.3
1.52
4.77
4.77
4.77
0.55
1.56
± 12.0 %
2450
52.7
1.95
4.36
4.36
4.36
0.80
1.25
+ 12.0 %
2600
52.5
2.16
4.24
4.24
4.24
0.85
1.20
± 12.0 %
Depth"
c Frequency validity above 300 MHz of± 100 MHz only applies for DASY v4.4 and higher (see Page 2), else it is restricted to± 50 MHz. The
uncertainty is the RSS of the ConvF uncertainty at calibration frequency and the uncertainty for the indicated frequency band. Frequency validity
below 300 MHz is± 10, 25, 40, 50 and 70 MHz for ConvF assessments at 30, 64, 128, 150 and 220 MHz respectively. Above 5 GHz frequency
validity can be extended to ± 110 MHz.
r At frequencies below 3 GHz, the validity of tissue parameters (c and er) can be relaxed to ± 10% If liquid compensation formula is applied to
measured SAR values. At frequencies above 3 GHz, the validity of tissue parameters (sand cr) is restricted to ± 5%. The uncertainty is the RSS of
the ConvF uncertainty for indicated target tissue parameters.
G Alpha/Depth are determined during calibration. SPEAG warrants that the remaining deviation due to the boundary effect after compensation is
always less than± 1% for frequencies below 3 GHz and below± 2% for frequencies between 3-6 GHz at any distance larger than half the probe tip
diameter from the boundary.
Certificate No: ES3-3270_Sep18
Page 6 of 11
ES3DV3- SN:3270
September 24, 2018
Frequency Response of E-Field
(TEM-Cell:ifi110 EXX, Waveguide: R22)
1.5
1.4 -·-. --.............. -· -; .. ·- .. . -·. ----- ..... -- ·;-· -· .. -- ·-· -- .... -- -- . - :.. ----- .... -- ..........:..... ·····............ :... -................... ~-.....
....
...
''
..'
..
..
.'
1.3 ··-·-·--------······---.. ----···················.. ···· ·· ··· · ··· · ····· · ·· ··· ·· ·-············· · ·- ··········- ----------------- --- --- ------------- ---·-· -·
-0
(1)
ro
1.2 -----------------------.. ------·-······-··· ·····.-················ ··················· ·········· ·,o•••••••••••••••••••••• ..••····················-.. ······
..
''
''
1.1 ·······················!······················+······················i·······················t······················j·······················j······
(1)
(/)
''
..'
• ;
·-
...
...
...
·····················t·······················f-·····················1·- ·······f ·······r - ···············-~ ·-····
.'
.'
...
....'
....
(/)
0.9 .......................................................................................................................................................
>,
1.0
0..
(.)
(1)
::J
er
LL
..
..
..
..
..
..
.'
.. -- . --·-- -· ... ... --~....... .
...........................................................................................
... --~- -- . -- ..... -- . -- -- ...........
0.8 ···· ·-··········· ·-·-··r --------···---------·-·r····-···-········---- ·1-------·-------·-------~-------------·------- ·1-------·-------··· ·----1-·· --·
0.7
0.6
•
....
..
..
'I
''
'I
...
..
' ............ ---- ..... -. -.............. ·- ............................ --·..... . . .
............... ·~ .. --·---- -......................................
..
...
0.5 -'---'---'----'---J....._.;....
' --'--'----'----'--.-.;-...-'---'----'---J....._..--L......J----1.----1.---+---'----'----'---'---.--_.__--'--........._-'----r'--'-'
3000
500
1000
1500
2000
2500
f [MHz]
...!.]
I]
TEM
R22
Uncertainty of Frequency Response of E-field: ± 6.3% (k=2)
Certificate No: ES3-3270_Sep18
Page 7 of 11
ES3DV3- SN: 3270
September 24, 2018
Receiving Pattern (), -S = 0°
f=600 MHz,TEM
f=1800 MHz,R22
u:, .
1.- •• ..
~-
..
. .. .
•
: - :.
1~
i)f
•z
0.5
0 0.0 • • I
•
iii
I :•
•
~I
-100
-50
•
t .. ~ t
•z
''
..
•
...
•
':! -•
•X
Tot
..
co
..!
•
•
Tot
\1
• ._
•
'I
I I
e .: __._ _,
..
..
50
100
150
--------------------·-----·-·--································ "··----------0.5 ------------ -----------------···"·----------------·-·'········----·-····-·
-150
Ron [1
..!J
2500 MHz
Uncertainty of Axial Isotropy Assessment: ± 0.5% (k=2)
Certificate No: ES3-3270_Sep18
Page 8 of 11
ES3DV3- SN:3270
September 24, 2018
Dynamic Range f(SARhead)
(TEM cell , feva1= 1900 MHz)
10 6
10 5 '
..
'H
10 4
,:
..
.,.
,,, ,i.t:
•
••
1.1
'~~,<
,w
: .
. :
,,
10 2 .
...
.•
. _,... ;..
10 1
,.
..
•:
••
~·+1
·oo
..
Q-1
i'o-2
:,
i: [
,.Y
1 Q-3
•·· i
•
:,
' :
1·02
'01
SAR [mW/cm3]
[!]
compensated
not compensated
SAR [mW/crn3]
i> I
r,n
compensated
not compensated
Uncertainty of Linearity Assessment: ± 0.6% (k=2)
Certificate No: ES3·3270_Sep18
•
.....
'!
•
•
•
.•
:'
:5
' i ':
.,
•
••
(f)
10 3
i:
.!2>
Cl.
"iii
'.'
''
Page 9 of 11
1 0'
ES3DV3- SN:3270
September 24, 2018
Conversion Factor Assessment
f = 835 M Hz.WGLS R9 (H_convF)
: 1,
f = 1900 MHz.WGLS R22 (H_convF)
: r..,
·.·.
..
< :c, '
t"'
-. -- n
~ -
.:.
.,
.:t
:1.
JI
'}1
,~.?
• L'
,.. r,
t• i ..
')
J'_,
h:
•
1·.•
•
•11,.,1.•11,::,,I
~,'\., ~, t1. ,•
fl t:..iS U1 C"(I
Deviation from Isotropy in Liquid
Error (cj,, S.), f = 900 MHz
1.0
0.8
0.6
0.4
.9
~ 0 .2
~ 0.0
Cl -0.2
-0.4
-0.6
-0.8
-·1.0
-0.8
-0.6
-0.4
-0.2
0.0
0.2
0.4
0.6
0 .8
·1.0
Uncertainty of Spherical Isotropy Assessment: ± 2.6% (k=2)
Certificate No: ES3-3270_Sep18
Page 10 of 11
September 24, 2018
ES3DV3- SN:3270
DASY/EASY - Parameters of Probe: ES3DV3 • SN:3270
Other Probe Parameters
Triangular
Sensor Arrangement
-17.1
Connector Angle (°)
Mechanical Surface Detection Mode
enabled
Optical Surface Detection Mode
disabled
Probe Overall Length
337mm
Probe Body Diameter
10 mm
Tip Length
10 mm
Tip Diameter
4mm
Probe Tip to Sensor X Calibration Point
2mm
Probe Tip to Sensor Y Calibration Point
2mm
Probe Tip to Sensor Z Calibration Point
2mm
Recommended Measurement Distance from Surface
3mm
Certificate No: ES3-3270_Sep18
Page11of11
Calibration Laboratory of
Schmid & Partner
Engineering AG
Schweizerischer Kalibrierdienst
Service suisse d'etalonnage
Servizio svizzero di taratura
Swiss Calibration Service
Zeughausstrasse 43, 8004 Zurich, Switzerland
Accredited by the Swiss Accreditation Service (SAS)
Accreditation No.:
SCS 0108
The Swiss Accreditation Service is one of the signatories to the EA
Multilateral Agreement for the recognition of calibration certificates
Client
AAc··suzhou (Auden)
Certificate No:
EX3•7324_Jul18
ICALIBRATION CERTIFICATE
Object
EX3DV4-SN:7324
Calibration procedure(s)
QA CAL-01.v9, QA CAL-14.v4, QA CAL-23.v5, QA CAL-25.v6
Calibration procedure for dosimetric E-field probes
Calibration date:
July 16, 2018
This calibration certificate documents the traceability to national standards. which realize the physical units of measurements (Sl).
The measurements and the uncertainties with confidence probability are given on the following pages and are part of the certificate.
All calibrations have been conducted in the closed laboratory facility: environment temperature (22 ± 3)°C and humidity< 70%.
Calibration Equipment used (M&TE critical for calibration)
Scheduled Calibration
Primarv Standards
ID
Cal Date (Certificate No.}
Power meter NRP
SN: 104778
04-Apr-18 (No. 217-02672/02673)
Aor-19
Power sensor NRP-291
SN: 103244
04-Apr-18 (No. 217-02672)
Apr-19
Power sensor NRP-Z91
SN: 103245
04-Apr-18 (No. 217-02673)
Apr-19
Reference 20 dB Attenuator
SN: S5277 (20x)
04-Apr-18 (No. 217-02682)
Apr-19
Reference Probe ES3DV2
SN: 3013
30-Dec-17 (No. ES3-3013 Dec17)
Dec-18
SN: 660
21-Dec-17 (No. DAE4-660 Dec17)
Dec-18
Secondarv Standards
ID
Check Date (in house)
Scheduled Check
Power meter E4419B
SN: GB41293874
06·Aor-16 (in house check Jun-18}
In house check: Jun-20
PowersensorE4412A
SN: MY41498087
06-Apr-16 (in house check Jun-18)
In house check: Jun-20
PowersensorE4412A
SN: 000110210
06-Apr-16 (in house check Jun-18)
In house check: Jun-20
RF generator HP 8648C
SN: US3S42U01700
04-Aug-99 (in house check Jun-18)
In house check: Jun-20
Network Analyzer HP 8753E
SN: US37390585
18-0ct-01 (in house check Oct-17}
In house check: Oct-18
DAE4
Name
Fun.ction
Calibrated by:
~ichael Weber :
Laboratory Technician
Approved by:
Katja Pokovic
TechoicalMa11ager
Issued: July 19, 2018
This calibration certificate shall not
Certificate No: EX3-7324_Jul18
be reproduced except in full without written approval of the laboratory.
Page 1 of 39
Calibration Laboratory of
Schmid & Partner
Engineering AG
sC
Zeughausstrasse 43, 8004 Zurich, Switzerland
Schweizerischer Kalibrierdienst
Service suisse d'etalonnage
Servizio svizzero di taratura
Swiss Calibration Service
Accreditation No.:
Accredited by the Swiss Accreditation Service (SAS)
SCS 0108
The Swiss Accreditation Service is one of the signatories to the EA
Multilateral Agreement for the recognition of calibration certificates
Glossary:
TSL
NORMx,y,z
ConvF
DCP
CF
A,B.C,D
Polarization cp
Polarization S
Connector Angle
tissue simulating liquid
sensitivity in free space
sensitivity in TSL I NORMx,y,z
diode compression point
crest factor (1/duty_cycle) of the RF signal
modulation dependent linearization parameters
cp rotation around probe axis
S rotation around an axis that is in the plane normal to probe axis (at measurement center),
i.e.. 3- = 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) 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 handheld 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"
Methods Applied and Interpretation of Parameters:
•
•
•
•
•
•
•
•
•
NORMx,y,z: Assessed for E-field polarization S = 0 (f ~ 900 MHz in TEM-cell; f > 1800 MHz: R22 waveguide).
NORMx,y,z are only intermediate values, i.e., the uncertainties of NORMx,y.z does not affect the E -field
uncertainty inside TSL (see below ConvF).
NORM(f)x,y,z = NORMx,y,z • frequency_response (see Frequency Response Chart). This linearization is
implemented in DASY4 software versions later than 4.2. The uncertainty of the frequency response is included
in the stated uncertainty of ConvF.
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, Dare numerical linearization parameters assessed based on
the data of power sweep for specific modulation signal. The parameters do not depend on frequency nor
media. VR is the maximum calibration range expressed in RMS voltage across the diode.
ConvF and Boundary Effect Parameters: Assessed in flat phantom using E-field (or Temperature Transfer
Standard for f ~ 800 MHz) and inside waveguide using analytical field distributions based on power
measurements for f > 800 MHz. The same setups are used for assessment of the parameters applied for
boundary compensation (alpha, depth) of which typical uncertainty values are given. These parameters are
used in DASY4 software to improve probe accuracy close to the boundary. The sensitivity in TSL corresponds
to NORMx,y,z .. ConvF whereby the uncertainty corresponds to that given for ConvF. A frequency dependent
ConvF is used in DASY version 4.4 and higher which allows extending the validity from± 50 MHz to± 100
MHz.
Spherical isotropy (3D deviation from isotropy): in a field of low gradients realized using a flat phantom
exposed by a patch antenna.
Sensor Offset: The sensor offset corresponds to the offset of 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}.
Certificate No:
EX3-7324_Jul18
Page 2 of 39
July 16. 2018
EX3DV4 - SN:7324
Probe EX3DV4
SN:7324
Manufactured:
Repaired:
Calibrated:
April 28, 2014
June 28, 2018
July 16, 2018
Calibrated for DASY/EASY Systems
(Note: non-compatible with DASY2 system!)
Certificate No: EX3-7324_Jul18
Page 3of 39
July 16. 2018
EX3DV4- SN:7324
DASY/EASY - Parameters of Probe: EX3DV4 - SN:7324
Basic Calibration Parameters
Norm (µV/{V/m)~t
DCP (mV)0
SensorX
SensorY
SensorZ
Unc (k=2}
0.48
99.9
0.53
96.7
0.41
95.1
± 10.1 %
Modulation Calibration Parameters
UIO
Communication System Name
cw
dB
dBv'µV
0.0
0.0
0.0
0.0
0.0
0.0
dB
0.00
1.0
1.0
1.0
VR
mV
142.9
147.2
128.9
Unc"
(k=2)
±3.5%
Note: For details on UID parameters see Appendix.
Sensor Model Parameters
C1
C2
T1
ms.v-2
T2
ms.v-1
ms
v-2
v-1
T6
fF
v-1
TS
fF
41.52
41.59
38.64
303.9
318.8
293.1
34.46
37.07
36.80
17.87
17.98
15.28
0.551
0.717
0.708
5.083
5.100
5.062
1.123
0.242
1.520
0.308
0.527
0.215
1.005
1.008
1.006
T3
T4
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%.
A The uncertainties of Nonn X,Y,Z do not affect the E -field uncertainty inside TSL (see Pages 5 and 6).
~ Numerical linearization parameter: uncertainty not required.
E Uncertainty is determined using the max. deviation from linear response applying rectangular distribution and is expressed for the square of the
field value.
Certificate No: EX3-7324_Jul18
Page 4 of 39
July 16, 2018
EX3DV4- SN:7324
DASY/EASY • Parameters of Probe: EX3DV4 • SN:7324
Calibration Parameter Determined in Head Tissue Simulating Media
ConvFY
ConvF Z
AfphaG
lmml
Unc
(k=2)
9.49
9.49
9.49
0.51
0.81
+ 12.0 %
0.90
9.19
9.19
9.19
0.39
0.92
± 12.0 %
41.5
0.97
9.02
9.02
9.02
0.44
0.80
± 12.0 %
1810
40.0
1.40
8.17
8.17
8.17
0.30
0.85
± 12.0 %
2000
40.0
1.40
8.08
8.08
8.08
0.31
0.80
+ 12.0 %
2300
39.5
1.67
7.69
7.69
7.69
0.33
0.84
± 12.0 %
2450
39.2
1.80
7.44
7.44
7.44
0.32
0.88
± 12.0 %
2600
39.0
1.96
7.40
7.40
7.40
0.41
0.85
+ 12.0 %
3500
37.9
2.91
6.87
6.87
6.87
0.25
1.25
± 13.1 %
5200
36.0
4.66
5.30
5.30
5.30
0.40
1.80
5500
35.6
4.96
4.50
4.50
4.50
0.40
1.80
± 13.1 %
5800
35.3
5.27
4.45
4.45
4.45
0.40
1.80
± 13.1 %
Depth
Conductivity
f (MHz) c
Relative
Permittivitv F
($/m)F
ConvF X
750
41.9
0.89
835
41.5
900
13.1 %
c Frequency validity above 300 MHz of± 100 MHz only applies for DASY v4.4 and higher (see Page 2), else it is restricted to± 50 MHz. The
uncertainty is the RSS of the ConvF uncertainty at calibration frequency and the uncertainty for the indicated frequency band. Frequency validity
below 300 MHz is± 10, 25, 40. 50 and 70 MHz for ConvF assessments at 30. 64, 128, 150 and 220 MHz respectively. Above 5 GHz frequency
validity can be extended to± 110 MHz.
F At frequencies below 3 GHz, the validity of tissue parameters (e and cr) can be relaxed to± 10% if liquid compensation formula is applied to
measured SAR values. At frequencies above 3 GHz, the validity of tissue parameters (e and cr) is restricted to± 5%. The uncertainty is the RSS of
the ConvF uncertainty for indicated target tissue parameters.
G Alpha/Depth are determined during calibration. SPEAG warrants that the remaining deviation due to the boundary effect after compensation is
always less than ± 1% for frequencies below 3 GHz and below ± 2% for frequencies between 3-6 GHz at any distance larger than half the probe tip
diameter from the boundary.
Certificate No:
EX3-7324_Jul18
Page 5 of 39
July 16. 2018
EX3DV4- SN:7324
DASY/EASY - Parameters of Probe: EX3DV4 • SN:7324
Calibration Parameter Determined in Body Tissue Simulating Media
Relative
Permittivitv F
Conductivity
Depth (.i
Unc
f (MHz)c
IS/mlF
ConvF X
ConvF Y
ConvF Z
AlohaG
Imm)
{k=2)
750
55.5
0.96
9.72
9.72
9.72
0.44
0.85
± 12.0 %
835
55.2
0.97
9.41
9.41
9.41
0.48
0.84
± 12.0 %
900
55.0
1.05
9.26
9.26
9.26
0.37
0.92
+ 12.0 %
1810
53.3
1.52
7.88
7.88
7.88
0.29
0.87
± 12.0 %
2000
53.3
1.52
7.85
7.85
7.85
0.38
0.85
± 12.0 %
2300
52.9
1.81
7.52
7.52
7.52
0.33
0.88
+ 12.0 %
2450
52.7
1.95
7.36
7.36
7.36
0.21
0.98
+ 12.0 %
2600
52.5
2.16
7.30
7.30
7.30
0.21
1.05
± 12.0 %
3500
51.3
3.31
7.03
7.03
7.03
0.28
1.20
± 13.1 %
5200
49.0
5.30
4.94
4.94
4.94
0.50
1.90
+ 13.1 %
5500
48.6
5.65
4.35
4.35
4.35
0.50
1.90
± 13.1 %
5800
48.2
6.00
4.33
4.33
4.33
0.50
1.90
+ 13.1 %
c Frequency validity above 300 MHz of± 100 MHz only applies for DASY v4.4 and higher (see Page 2), else it is restricted to:!: 50 MHz. The
uncertainty is the RSS of the ConvF uncertainty at calibration frequency and the uncertainty for the indicated frequency band. Frequency validity
below 300 MHz is± 10, 25, 40, 50 and 70 MHz for ConvF assessments at 30, 64, 128. 150 and 220 MHz respectively. Above 5 GHz frequency
validity can be extended to± 110 MHz.
• At frequencies below 3 GHz, the validity of tissue parameters(~: and rr) can be relaxed to± 10% if liquid compensation fonnula is applied to
measured SAR values. At frequencies above 3 GHz. the validity of tissue parameters(~ and rr) is restricted to± 5%. The uncertainty is the RSS of
the ConvF uncertainty for indicated target tissue parameters.
Alpha/Depth are determined during calibration. SPEAG warrants that the remaining deviation due to the boundary effect after compensation is
always less than ± 1% for frequencies below 3 GHz and below ± 2% for frequencies between 3-6 GHz at any distance larger than half the probe tip
diameter from the boundary.
Certificate No: EX3-7324_Ju118
Page 6 of 39
July 16, 2018
EX3DV4- SN:7324
Frequency Response of E-Field
(TEM-Cell:ifi110 EXX, Waveguide: R22)
1 . 5 , ~ - - - -- - - - - - -- - - - - -- - - - -- - -- - - ,
i ::
: :: : ::
-~§
1·2
1·1 : ..
>-
l•
t·····-·-·····----·····t----················1·······················t······················1·--·--················"j""····
l. .....................
~.~-=~·~ ~ = ·= ··-·[··-····················:·······------··········1······-·-··········-··1·················--····1······
·······················r················-···r ·=:==:::{.. ~-~
- - -1
··--·--··--····--·····< ...................... : ·-····················:···-···················i····--····-··········· :·····-·················:······
&-
LL
r:::::::: ••I ::::::r:::: • :;: : :
0. 7 ........ ···············( ····-···--·-······-..! ---····--······---· :········---·········+············--······+········ --·······--··· l······
0.6 ... · ················~-· ................... : ........ ·····-·····l-·---···---····----:···-·-······----- :--·····················i······
0.5 -+---'----.L.......'----'----.~---'-~---'-~ :~
1000
500
•
----'-........l...
l --.;....
: -'------'---'---_.__.;...
: --'I -'---'---'---~.L.......'---'------'-----r
:__....,
1500
f [MHz]
2000
2500
[!]
[!]
TEM
R22
Uncertainty of Frequency Response of E.field: ± 6.3% (k=2)
Certificate No: EX3-7324_Jul18
Page 7 of 39
3000
July 16, 2018
EX3DV4- SN:7324
Receiving Pattern (cp), S = 0°
f=1800 MHz,R22
f=600 MHz,TEM
-,~.
oo-·--------·
.... so
,,,., -, -..
..........., . -- - - ........
. .
,,.,.··
13!i. '
.45
------ ...
·~
. . . .· ..
•
,ec:
. --!Ilk • •
..__ _ t"" "
0~
0 ..4
,.
,~c:
:o
..
o.il o.a
•
~•X
Tot
•
··-..... __.,..
j7r,
-.
•y
..
Tot
210· ·- ..
- - -.
•
..
..
0.5 ............ · .. .. ···------------ ~ --------------- ---~------······ ... ·--· -~-·- ··············-·· -: ------ ----------- ---: ...... · ........ -----~---------...
iii'
::-2.
...
00
ui
-0 5 ............ :----··-·-··--·-- ---- :-------------------···: ··-··-·· .......
·150
- 100
- 0
·····i--······-····--··---:·----·------··-··-· ..................... :----········
r.l
'...!J
600M'-l:Z.
1800 MH2
Uncertainty of Axial Isotropy Assessment:
Certificate No: EX3-7324_Jul18
Page 8 of 39
1 0
100
50
Roll[°]
± 0.5% (k=2)
2500MHz
July 16, 2018
EX3DV4- SN:7324
Dynamic Range f(SARhead)
(TEM cell , feva1= 1900 MHz)
102
101 _____ .L_j__:1.i :JJ;_____ i_.J_U: :~~
1~
1~
.. L.!. U.Lu' _____.:___U_U l
1~
1~
::
' '
lLU _____ L_U_U.::~
1~
1~
1~
SAR [mW/cm3]
OCl
compensated
not compensated
..
-~ rr11~-;=rm~rn,,1n111i:
2--,----~-----------------------~
111111} ~ \\;H!ii : :::;:::\: :::~::·.: I!~~\;/ ..... .
ar
i ):;rn l 1: :1:t l: ::!ti ii iiil\ii : :lI!! : i l}ii
: : : : ::
: : : : ::
: : :
: ::
. . ......
: : : : ::
: : : : : : ::
: : : :::
:E..
....
-2
. ......
1o-a
.....
10·1
10-2
rn
. . .....
1oo
SAR [mW/cm3]
not compensated
. ..... i
101
102
compensated
Uncertainty of Linearity Assessment: ± 0.6% (k=2)
Certificate No: EX3-7324_Jul18
Page 9 of39
..... .
103
July 16, 2018
EX3DV4- SN:7324
Conversion Factor Assessment
f= 1810 MHz,WGLS R22 (H_convF)
f = 900 MHz,WGLS R9 (H_convF}
~1
• 01
35!' \
30•
'\
•.;
'•
'·
··--··- ···-·
....
101
1.0-f
S·
o.s-:.
0.0
r' .... J....L_r__
. . • , .. i ....
is
,o
if:;
z [mmJ
25
JO
35
40
0 -t....l...L... --.---~-·-·.:....:. ........... ~ ..... ;...J.......,...-·-.LJ...~ ... ~L·-·
' ~ ·1......40
1$
35
::?O
25
30
10
_l,J
>:!]
z{mm)
~mNlicctt
onolytioal
Deviation from Isotropy in Liquid
Error ( 1800 MHz: R22 waveguide).
NORMx,y,z are only intermediate values, i.e., the uncertainties of NORMx,y,z does not affect the E 2-field
uncertainty inside TSL (see below ConvF).
NORM(f)x,y,z = NORMx,y,z * frequency_response (see Frequency Response Chart). This linearization is
implemented in DASY4 software versions later than 4.2. The uncertainty of the frequency response is included
in the stated uncertainty of ConvF.
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, 8 , C, Dare numerical linearization parameters assessed based on
the data of power sweep for specific modulation signal. The parameters do not depend on frequency nor
media. VR is the maximum calibration range expressed in RMS voltage across the diode.
ConvF and Boundary Effect Parameters: Assessed in flat phantom using E-field (or Temperature Transfer
Standard for f ~ 800 MHz) and inside waveguide using analytical field distributions based on power
measurements for f > 800 MHz. The same setups are used for assessment of the parameters applied for
boundary compensation (alpha, depth) of which typical uncertainty values are given. These parameters are
used in DASY4 software to improve probe accuracy close to the boundary. The sensitivity in TSL corresponds
to NORMx,y,z * ConvF whereby the uncertainty corresponds to that given for ConvF. A frequency dependent
ConvF is used in DASY version 4.4 and higher which allows extending the validity from± 50 MHz to± 100
MHz.
Spherical isotropy (30 deviation from isotropy) : in a field of low gradients realized using a flat phantom
exposed by a patch antenna.
Sensor Offset: The sensor offset corresponds to the offset of 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).
Certificate No: EX3-7306_Jul1 8
Page 2 of 11
EX3DV4 - SN:7306
July 26, 2018
Probe EX3DV4
SN:7306
Manufactured:
Calibrated:
March 11, 2014
July 26, 2018
Calibrated for DASY/EASY Systems
(Note: non-compatible with DASY2 system!)
Certificate No: EX3-7306_Jul18
Page3of11
EX3DV4- SN:7306
July 26, 2018
DASY/EASY - Parameters of Probe: EX3DV4 - SN:7306
Basic Calibration Parameters
Norm /11V/(V/mn
DCP lmV)°
SensorX
SensorY
SensorZ
Unc (k=2)
0.48
100.2
0.58
93.0
0.46
101.1
+ 10.1 %
Modulation Calibration Parameters
UID
Communication System Name
cw
dB
0.0
0.0
0.0
dBVµV
0.0
0.0
0.0
1.0
1.0
1.0
dB
0.00
VR
mV
Uncc
(k=2)
158.1
150.5
157.2
±3.3 %
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%.
The uncertainties of Norm X,Y,Z do not affect the E2-field uncertainty inside TSL (see Pages 5 and 6).
Numerical linearizaUon parameter: uncertainty not required.
E Uncertainty is determined using the max. deviation from linear response applying rectangular distribution and is expressed for the square of the
field value.
Certificate No: EX3-7306_Jul18
Page 4 of 11
--·-·--···----------
EX3DV4- SN:7306
July 26, 2018
DASY/EASY - Parameters of Probe: EX3DV4 - SN:7306
Calibration Parameter Determined in Head Tissue Simulating Media
f (MHz) c
Relative
Permittivity F
Conductivity
IS/ml'
ConvF X
ConvF Y
ConvFZ
Alpha"
Imm)
Unc
(k=2)
750
41.9
0.89
10.19
10.19
10.19
0.38
0.92
± 12.0 %
835
41.5
0.90
9.96
9.96
9.96
0.39
0.90
+ 12.0 %
900
41.5
0.97
9.71
9.71
9.71
0.45
0.84
+ 12.0 %
1750
40.1
1.37
8.69
8.69
8.69
0.40
0.80
+ 12.0 %
1900
40.0
1.40
8.26
8.26
8.26
0.37
0.80
+ 12.0 %
2000
40.0
1.40
8.22
8.22
8.22
0.33
0.85
+ 12.0 %
2450
39.2
1.80
7.43
7.43
7.43
0.33
1.05
+ 12.0 %
2600
39.0
1.96
7.26
7.26
7.26
0.46
0.95
+ 12.0 %
5250
35.9
4.71
5.38
5.38
5.38
0.40
1.80
+ 13.1 %
5600
35.5
5.07
4.71
4.71
4.71
0.40
1.80
+ 13.1 %
5750
35.4
5.22
5.00
5.00
5.00
0.40
1.80
± 13.1 %
Depth"
c Frequency validity above 300 MHz of± 1DO MHz only applies for DASY v4.4 and higher (see Page 2), else ii is restricted to± 50 MHz. The
uncertainty is the RSS of the ConvF uncertainty at calibration frequency and the uncertainty for the indicated frequency band. Frequency validity
below 300 MHz is± 10, 25, 40, 50 and 70 MHz for ConvF assessments at 30, 64, 128, 150 and 220 MHz respectively. Above 5 GHz frequency
validity can be extended to ± 110 MHz.
F At frequencies below 3 GHz, the validity of tissue parameters (c and cr) can be relaxed to± 10% if liquid compensation fonnula is applied to
measured SAR values. At frequencies above 3 GHz, the validity of tissue parameters (e and cr) is restricted to± 5%. The uncertainty is the RSS of
the ConvF uncertainty for indicated target tissue parameters.
Alpha/Depth are determined during calibration. SPEAG warrants that the remaining deviation due to the boundary effect after compensation is
always fess than± 1% for frequencies below 3 GHz and below± 2% for frequencies between 3-6 GHz at any distance larger than half the probe tip
diameter from the boundary.
Certificate No: EX3-7306_Jul18
Page 5 of 11
--·
~----------
EX3DV4- SN:7306
July 26, 2018
DASY/EASY - Parameters of Probe: EX3DV4 - SN:7306
Calibration Parameter Determined in Body Tissue Simulating Media
Relative
Permittivitv F
Conductivity
f /MHz\ c
(Sim)•
ConvF X
ConvFY
ConvF Z
Aloha"
Cmml
Unc
(k=2)
750
55.5
0.96
10.06
10.06
10.06
0.46
0.80
+ 12.0 %
835
55.2
0.97
9.82
9.82
9.82
0.48
0.84
+ 12.0 %
1750
53.4
1.49
8.22
8.22
8.22
0.23
1.14
+ 12.0 %
1900
53.3
1.52
7.87
7.87
7.87
0.28
1.00
+ 12.0 %
2450
52.7
1.95
7.75
7.75
7.75
0.34
0.96
+ 12.0 %
2600
52.5
2.16
7.47
7.47
7.47
0.34
0.99
+ 12.0 %
5250
48.9
5.36
4.80
4.80
4.80
0.50
1.90
+ 13.1 %
5600
48.5
5.77
4.03
4.03
4.03
0.50
1.90
± 13.1 %
5750
48.3
5.94
4.37
4.37
4.37
0.50
1.90
+ 13.1 %
Depth"
c Frequency validity above 300 MHz of± 100 MHz only applies for DASYv4.4 and higher (see Page 2), else it is restricted to± 50 MHz. The
uncertainty Is the RSS of the ConvF uncertainty at calibration frequency and the uncertainty for the indicated frequency band. Frequency validity
below 300 MHz is± 10, 25, 40, 50 and 70 MHz for ConvF assessments at 30, 64, 128, 150 and 220 MHz respectively. Above 5 GHz frequency
validity can be extended to± 110 MHz.
F At frequencies below 3 GHz, the validity of tissue parameters (e and er) can be relaxed to± 10% if liquid compensation formula is applied to
measured SAR values. At frequencies above 3 GHz, the validity of tissue parameters {e and a) is restricted to± 5%. The uncertainty is the RSS of
the ConvF uncertainty for indicated target tissue parameters.
G Alpha/Depth are determined during calibration. SPEAG warrants that the remaining deviation due to the boundary effect after compensation is
always less than± 1% for frequencies below 3 GHz and below± 2% for frequencies between 3-6 GHz at any distance larger than half the probe tip
diameter from the boundary.
Certificate No: EX3-7306_Jul18
Page 6 of 11
EX3DV4- SN:7306
July 26, 2018
Frequency Response of E-Field
(TEM-Cell:ifi110 EXX, Waveguide: R22)
1.5
1.4 ---- --···-·-··· ·-------:-·-·-·······---------·-·r···-·--·····--·-·····.----------··----------·:
··---------·---------· .:···--------------- ----·:······
..
..-..
1.3
..
-0
Q)
-~
ro
1.2
..'
1.1
Q)
1/)
C:
a.
1.0
..'
0.9
::,
er
+'
..
..'
....'
•
.'
''
.....'
..
.'
• • • • · - ••• - · - . . . . . . . . . . ... . . · - · - · •• • - · - · - · - ••• · - ..... - · •• - · · - • • •• • •• · - · - - •• • • • • · - ••• · - I
C:
Q)
..
..'
:I < I ~I = : ~I
1/)
•• • •• •• • • ••••• •• •• • •• • .,. •• •••• • • • • • • ••• •• • •• • • .,... •• • • •• •• • •• •• •• •• •• • • • • • •• •• • •• •• •• •• • • • • • • ••r • •• •• • ••• ••• • • • •• • • •• • ~ -· •• • • • •• • • • ••• • • • •• ••• 1' •
'-
..
.'
...
...'
.'
..
............................................. .. _ ___ ______ ___ ____ ______ , ................................ ....... .......................... ............. .
..
..
..
••••• •••• · - · - · . · · - · •• •• · - · - . - · . . . . . . . . -- •• - - '
''
.'
...
..
'l
- · -
• • • • •
'.
• · -
..
..
• • • • • • - • 1• - · •••
0.8 ······ ····-·-·········-r·······················: ······· ··-············1·······················r······················1······················-r·····
Q)
i.t 0.7
0.6
--···········--···--···:····-··-···-··-·-·····:···········--·········:·······-··-····· ··-····.······-·-···--·------·.--········--······-·---:······
.. ................: ... ........ ...... . . . . ..: ..... ................. =.......................: . . . .. ... .............. : .... ...................... . . .. .
0.5 -+--~~~'---i~~~~-,--~ ~ ~ ~i--'~~~--.-~~~~r--'~~ ~ --r~
500
1000
1500
2000
2500
3000
f [MHz]
Uncertainty of Frequency Response of E-field: ± 6.3% (k=2)
Certificate No: EX3-7306_Jul18
Page 7 of 11
EX3DV4- SN:7306
July 26, 2018
Receiving Pattern {), .S = 0°
f=600 MHz,TEM
f=1800 MHz,R22
90
90
..
. .... .
..
1/1('
•) :-_
04
. ..
o.o 0 8
. 04
. . ·:·::b~
1 '1('
,.
315
Tot
2n
08
225
•y
2:s
•
o.o
•z
315
•
Tot
~ro
•z
•y
0.5 ············:·· · · ·· ··· ·· ·········:····················
:'
:!:!.
0.0
Jj
-0.5
··r--·•··~ -- ... 4'!~-t,,.~ti=t-......~~~ r,4k'~
.'
'?'
'. ... ......
. ------····--·-...' ···········--···········-----------------·-..' ·-· -······· ··········"··········--·-······
·······-----·-·······...' ·····------·-········-----.
.'
''
-1 0
-100
100 MHz
- 0
50
[!]
600 M >-fz
..!J
1800 M Hz
Uncertainty of Axial Isotropy Assessment:
Certificate No: EX3-7306_Jul1 8
100
150
Roll [0 ]
Page 8 of 11
± 0.5% (k=2)
2500 MHz
EX3DV4- SN:7306
July 26, 2018
Dynamic Range f(SARhead)
(TEM cell , feva1= 1900 MHz)
!!
10
:;
i;
!\\
•
.;
ii
v·
•:
i: :• p
.Ql
=i
.s
10 3 • I·
.....
n''./
. ::
10 2
1'
j. :
,:
,.
,!
:'
:;
.: ~, . ,i·--h
,,
101
10-'
••
;,
;;
::
;:
ji
: :
; ii
i/~-
(f)
Cl.
': !
roC:
~/
. )•
L/
10 4
•
fo-1
Q-2
·'02
10'
1O'
SAR [mW/cm3]
i!]
[!]
not compensated
..
'.: "'
' . . '--.:
,:
-1 - '
compensated
..
iii
:[
':
• Q-2
:·
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:,
: i ,,
••
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':
··oo
. ..
: \
i\ ! : i
.-a,
. Q2
SAR [mW/cm3]
iii
['i')
not compensated
compensated
Uncertainty of Linearity Assessment: ± 0.6% (k=2)
Certificate No: EX3-7306_Jul18
Page9of11
0'
EX3DV4- SN:7306
July 26, 2018
Conversion Factor Assessment
f = 835 MHz,WGLS R9 (H_convF)
f = 1900 MHz,WGLS R22 (H_convF)
40
30
··..
····...
30
~5
•
1S
10 I
, 0
05
S j
00
10
1",
;,r
0 I' 1
2~
()
,,
10
z [in mj
•
lt,
:>5
:'O
z[mm!
•
ana~.ca
rrea slirE"d
Deviation from Isotropy in Liquid
Error (cl>, S), f = 900 MHz
1.0
0.8
0.6
0.4
0.2
-~
0 .0
C:
o -0.2
-0.4
-0.6
-1 .0
-0.8
-0.6
-0.4
-0.2
0.0
0.2
0.4
0.6
0.8
1.0
Uncertainty of Spherical Isotropy Assessment:± 2.6% (k=2)
Certificate No: EX3-7306_Jul1 8
Page 10 of 11
30
)!.,
40
EX3DV4- SN:7306
July 26, 2018
DASY/EASY - Parameters of Probe: EX3DV4 - SN:7306
Other Probe Parameters
Sensor Arrangement
Triangular
Connector Angle (")
56.8
Mechanical Surface Detection Mode
enabled
Optical Surface Detection Mode
disabled
Probe Overall Length
337mm
Probe Body Diameter
10 mm
9mm
Tip Length
Tip Diameter
2.5mm
Probe Tip to Sensor X Calibration Point
1 mm
Probe Tip to Sensor Y Calibration Point
1 mm
Probe Tip to Sensor Z Calibration Point
1 mm
Recommended Measurement Distance from Surface
Certificate No: EX3-7306_Jul18
Page 11 o/11
1.4 mm
Calibration Laboratory of
Schmid & Partner
Engineering AG
Schweizerischer Kalibrierdienst
Service suisse d'etalonnage
Servizio svizzero di taratura
Zeughausstrasse 43, 8004 Zurich, Switzerland
Accredited by the Swiss Accreditation Service (SAS)
Accreditation No.:
Swiss Calibration Service
SCS 0108
The Swiss Accreditation Service is one of the signatories to the EA
Multilateral Agreement for the recognition of calibration certificates
Client
Auden
Certificate No:
EX3-7375_Dec17
'CALIBRATION CERTIFICATE
Object
EX3DV4 - SN:7375
Calibration procedure(s)
QA CAL-01.v9, QA CAL-14.v4, QA CAL-23.v5, QA CAL-25.v6
Calibration procedure for dosimetric E-field probes
Calibration date:
December 18, 2017
This calibration certificate documents the traceability to national standards, which realize the physical units of measurements (SI).
The measurements and the uncertainties with confidence probability are given on the following pages and are part of the certificate.
All calibrations have been conducted in the closed laboratory facility: environment temperature (22 ± 3)°C and humidity< 70% .
Calibration Equipment used (M&TE critical for calibration)
Primary Standards
ID
Cal Date (Certificate No.)
Power meter NRP
SN : 104778
04-Apr-17 (No. 217-02521 /02522)
Scheduled Calibration
Apr-18
Power sensor NRP-291
SN : 103244
04-Apr-17 (No. 217-02521)
Apr-18
Power sensor NRP-291
SN: 103245
04-Apr-17 (No. 217-02525)
Apr-18
Reference 20 dB Attenuator
SN: S5277 (20x)
07-Apr-17 (No. 217-02528)
Apr-18
Reference Probe ES3DV2
SN: 3013
31-Dec-16 (No. ES3-3013_Dec16)
Dec-17
DAE4
SN: 654
24-Jul-17 (No. DAE4-654 Jul17)
Jul-18
Scheduled Check
Secondary Standards
ID
Check Date (in house)
Power meter E4419B
SN: GB41293874
06-Apr-16 (in house check Jun-16)
In house check: Jun-18
PowersensorE4412A
SN : MY41498087
06-Apr-16 (in house check Jun-16)
In house check: Jun-18
PowersensorE4412A
SN : 000110210
06-Apr-16 (in house check Jun-16)
In house check: Jun-18
RF generator HP 8648C
SN: US3642U01700
04-Aug-99 (in house check Jun-16)
In house check: Jun-1 8
Network Analyzer HP 8753E
SN: US37390585
18-0ct-01 (in house check Oct-17)
In house check: Oct-18
Name
Function
Calibrated by:
Jeton Kastrati
Laboratory Technician
Approved by:
Katja Pokovic
Technical Manager
Issued: December 21 , 2017
This calibration certificate shall not be reproduced except in full without written approval of the laboratory.
Certificate No: EX3-7375_Dec17
Page 1 of 11
Calibration Laboratory of
Schmid & Partner
Engineering AG
Zeughausstrasse 43, 8004 Zurich, Switzerland
Accredited by the Swiss Accreditation Service (SAS)
Schweizerischer Kalibrierdienst
Service suisse d'etalonnage
Servizio svizzero di taratura
Swiss Calibration Service
Accreditation No.:
SCS 0108
The Swiss Accreditation Service is one of the signatories to the EA
Multilateral Agreement for the recognition of calibration certificates
Glossary:
TSL
NORMx,y,z
ConvF
DCP
CF
A, B, C,D
Polarization 

1800 MHz: R22 waveguide). NORMx,y,z are only intermediate values, i.e., the uncertainties of NORMx,y,z does not affect the E -field uncertainty inside TSL (see below ConvF). NORM(f)x,y,z = NORMx,y,z * frequency_response (see Frequency Response Chart). This linearization is implemented in DASY4 software versions later than 4.2 . The uncertainty of the frequency response is included in the stated uncertainty of ConvF. 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, 8 , C, D are numerical linearization parameters assessed based on the data of power sweep for specific modulation signal. The parameters do not depend on frequency nor media. VR is the maximum calibration range expressed in RMS voltage across the diode. ConvF and Boundary Effect Parameters: Assessed in flat phantom using E-field (or Temperature Transfer Standard for f ~ 800 MHz) and inside waveguide using analytical field distributions based on power measurements for f > 800 MHz. The same setups are used for assessment of the parameters applied for boundary compensation (alpha, depth) of which typical uncertainty values are given. These parameters are used in DASY4 software to improve probe accuracy close to the boundary. The sensitivity in TSL corresponds to NORMx,y,z * ConvF whereby the uncertainty corresponds to that given for ConvF. A frequency dependent ConvF is used in DASY version 4.4 and higher which allows extending the validity from± 50 MHz to± 100 MHz. Spherical isotropy (30 deviation from isotropy): in a field of low gradients realized using a flat phantom exposed by a patch antenna. Sensor Offset: The sensor offset corresponds to the offset of 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 requ ired). Certificate No: EX3-7375_Dec17 Page 2 of 11 EX3DV4 - SN:7375 December 18, 2017 Probe EX3DV4 SN:7375 Manufactured: Calibrated: April 13, 2015 December 18, 2017 Calibrated for DASY/EASY Systems (Note: non-compatible with DASY2 system!) Certificate No: EX3-7375_Dec17 Page 3 of 11 EX3DV4- SN:7375 December 18, 2017 DASY/EASY - Parameters of Probe: EX3DV4 - SN:7375 Basic Calibration Parameters Norm (uV/(V/m)~)A DCP (mV)" Sensor X SensorY SensorZ Unc (k=2) 0.49 97.7 0.42 95.2 0.46 96.1 ± 10.1 % Modulation Calibration Parameters UID Communication System Name cw dB dBVµV dB VR mV Unct (k=2) 0.0 0.0 0.0 0 .0 0.0 0.0 1.0 1.0 1.0 0.00 139.8 142.5 131.3 ±3.3 % 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%. The uncertainties of Norm X,Y,Z do not affect the E 2-field uncertainty inside TSL (see Pages 5 and 6). Numerical linearization parameter: uncertainty not required. e Uncertainty is determined using the max. deviation from linear response applying rectangular distribution and is expressed for the square of the field value. Certificate No: EX3-7375_Dec17 Page 4 of 11 EX3DV4- SN:7375 December 18, 2017 DASY/EASY - Parameters of Probe: EX3DV4 - SN:7375 Calibration Parameter Determined in Head Tissue Simulating Media f (MHz) c Relative Permittivity F Conductivity (S/m_1 F ConvF X ConvF Y ConvF Z AlphaG Depth"' (mm) Unc (k=2) 750 41.9 0.89 10.59 10.59 10.59 0.46 0.88 ± 12.0 % 835 41.5 0.90 10.31 10.31 10.31 0.39 0.94 ± 12.0 % 900 41.5 0.97 10.02 10.02 10.02 0.50 0.80 ± 12.0 % 1750 40.1 1.37 8.81 8.81 8.81 0.35 0.86 ± 12.0 % 1900 40.0 1.40 8.41 8.41 8.41 0.34 0.84 ± 12.0 % 2000 40.0 1.40 8.34 8.34 8.34 0.38 0.84 ± 12.0 % 2300 39.5 1.67 7.88 7.88 7.88 0.35 0.84 ± 12.0 % 2450 39.2 1.80 7.65 7.65 7.65 0.40 0.80 ± 12.0 % 2600 39.0 1.96 7.34 7.34 7.34 0.38 0.88 ± 12.0 % 5200 36.0 4.66 5.34 5.34 5.34 0.40 1.80 ± 13.1 % 5300 35.9 4.76 5.15 5.15 5.15 0.40 1.80 ± 13.1 % 5500 35.6 4 .96 4.94 4.94 4.94 0.40 1.80 ± 13.1 % 5600 35.5 5.07 4.72 4.72 4.72 0.40 1.80 ± 13.1 % 5800 35.3 5.27 4.80 4.80 4.80 0.40 1.80 ± 13.1 % c Frequency validity above 300 MHz of± 100 MHz only applies for DASY v4.4 and higher (see Page 2), else it is restricted to± 50 MHz. The uncertainty is the RSS of the ConvF uncertainty at calibration frequency and the uncertainty for the indicated frequency band . Frequency validity below 300 MHz is± 10, 25, 40, 50 and 70 MHz for ConvF assessments at 30, 64, 128, 150 and 220 MHz respectively. Above 5 GHz frequency validity can be extended to± 110 MHz. F At frequencies below 3 GHz. the validity of tissue parameters (E and cr) can be relaxed to± 10% if liquid compensation formula is applied to measured SAR values. At frequencies above 3 GHz, the validity of tissue parameters (E and cr) is restricted to± 5%. The uncertainty is the RSS of the ConvF uncertainty for indicated target tissue parameters. G Alpha/Depth are determined during calibration. SPEAG warrants that the remaining deviation due to the boundary effect after compensation is always less than ± 1% for frequencies below 3 GHz and below ± 2% for frequencies between 3-6 GHz at any distance larger than half the probe tip diameter from the boundary. Certificate No: EX3-7375_ Dec17 Page 5 of 11 EX3DV4- SN:7375 December 18, 2017 DASY/EASY - Parameters of Probe: EX3DV4 - SN:7375 Calibration Parameter Determined in Body Tissue Simulating Media f (MHz)c Relative Permittivitv F Conductivity (Sim) F ConvF X ConvF Y ConvF Z AlphaG Depth u (mm) Unc (k=2) 750 55.5 0.96 10.49 10.49 10.49 0.53 0.94 + 12.0 % 835 55.2 0.97 10.14 10.14 10.14 0.44 1.00 ± 12.0 % 900 55.0 1.05 10.06 10.06 10.06 0.58 0.82 + 12.0 % 1750 53.4 1.49 8.99 8.99 8.99 0.39 0.84 ± 12.0 % 1900 53.3 1.52 8.44 8.44 8.44 0.47 0.80 + 12.0 % 2000 53.3 1.52 8.38 8.38 8.38 0.43 0.83 + 12.0 % 2300 52.9 1.81 7.93 7.93 7.93 0.44 0.80 ± 12.0 % 2450 52.7 1.95 7.83 7.83 7.83 0.38 0.89 + 12.0 % 2600 52.5 2.16 7.43 7.43 7.43 0.44 0.83 + 12.0 % 5200 49.0 5.30 4 .84 4.84 4.84 0.45 1.90 + 13. 1 % 5300 48.9 5.42 4.64 4.64 4.64 0.45 1.90 ± 13.1 % 5500 48.6 5.65 4 .22 4.22 4.22 0.45 1.90 + 13.1 % 5600 48.5 5.77 4 .10 4.10 4.10 0.45 1.90 + 13.1 % 5800 48.2 6.00 4.41 4.41 4.41 0.45 1.90 ± 13. 1 % c Frequency validity above 300 MHz of± 100 MHz only applies for DASY v4 .4 and higher (see Page 2), else it is restricted to± 50 MHz. The uncertainty is the RSS of the ConvF uncertainty at calibration frequency and the uncertainty for the indicated frequency band . Frequency validity below 300 MHz is± 10, 25, 40, 50 and 70 MHz for ConvF assessments at 30, 64, 128, 150 and 220 MHz respectively. Above 5 GHz frequency validity can be extended to ± 11 O MHz. F At frequencies below 3 GHz, the validity of tissue parameters (E and er) can be relaxed to± 10% if liquid compensation formula is applied to measured SAR values. At frequencies above 3 GHz, the validity of tissue parameters (E and er) is restricted to ± 5% . The uncertainty is the RSS of the ConvF uncertainty for indicated target tissue parameters. G Alpha/Depth are determined during calibration. SPEAG warrants that the remaining deviation due to the boundary effect after compensation is always less than ± 1% for frequencies below 3 GHz and below ± 2% for frequencies between 3-6 GHz at any distance larger than half the probe tip diameter from the boundary. Certificate No: EX3-7375_Dec17 Page 6 of 11 EX3DV4- SN:7375 December 18, 2017 Frequency Response of E-Field (TEM-Cell:ifi110 EXX, Waveguide: R22) 1.5 1.4 ·············-···------.-------······--········:--······················.·······················.···················--·.·········-· ·-··········.······ .... ....... ..' ····························································································· ,--.., 1.3 ··············································-······· -u .. .. (l) ........................................................................................................................................................ ro 1.2 .' · ·· · · · ·· ---~ · · ·· · -· -- · · · · · · · -· · · ·--:- · -· ·· -· ·- · -- · · · · · -·-··I··· -·- · ·- · · · -· -· · · · · · --~- · · -· ·- · -· -· · · · · · · · ·· · ~- ---· -· · · · · ·- ·- · · · · · · --i· ·• ·· · ,_ "-' (l) 1/) 1.1 ··· · · · ·· : ----+---J 1.0 ·······················t"····················-r······················1~ -. ~ ······ Q. 1/) .. .' .. .' ......................................... ' -·- .. . ... . ·-. ·-... --- ·- ... -- . -............. -- ........... -~----~' .................................. --..... -· .. ·-. ~ 0.9 >.. .' s:: (l) :::, 0.8 -------------------·-·-r··-------------·-···--·1·-------------------··1···-------------------·r·-------------------··1···--------------------1······ • O" LL .. .. .. 0.7 ··---··---· -······-----:---·--················-:---··········-----·-··:----·-················-:---··················-:---······-············:--··· .. .... .... .. ..·-------···················--· .. ·-· --···-·-···············---·--·········------···--·-·--·-·······-·· .. 0.6 --··················---····-·-···············-.' .' 0.5-1--~~~..___,~~~~--;-~~~~..---~~~--;-~~~~-.---~~~----.~ 2500 3000 1000 1500 2000 500 f [MHz] Uncertainty of Frequency Response of E-field: ± 6.3% (k=2) Certificate No: EX3-7375_Dec17 Page 7 of 11 EX3DV4- SN:7375 December 18, 2017 Receiving Pattern (), ~ = 0° f=600 MHz,TEM f=1800 MHz,R22 ~--- ...-------. -- -..., 90 ,, 135 45 • :.. 90 -·~,....... 45 135. . _. ... . •. '·.. 180 ---·- · 0 2,. 04 06 I " ·-·.... ·- . oa 180; .·~ • . .. . .. .. 'b . • Tot 0.5 .270 ·-_ ._ ,. •T ,. • 225 • .' oa 315 ,, 06 • ... 225 04 315 • Tot ----· 270 .,,. -~ -·-·· · ----·- - - --- ----- ---------- .1- -- ------ -------- · - ·· -----·-·········---- ··---- -- ---- ·- · · ···· • Iz ----·--·······- · ·· ·· ----- --------·-··· ··"···- -- -- ·-·· al ,._ 0.0 -0.5 -- -... -- --. -..-- -- . -. ----. -. -- - -- -....'' --- . -. ----. -.. --- . -. .'~- --.-.-. -- --. -. ---- .....' -- --. -. -- -- . -. ---- . -- -- . -. -- . -. -. ---- .. -- -- . ---- --. -. -. -- -..... -. -- ... -- . ... .. -150 -100 -50 [!] 50 100 Roll[°] 100 MHz Uncertainty of Axial Isotropy Assessment: ± 0.5% (k=2) Certificate No: EX3-7375_ Dec17 Page 8 of 11 150 EX3DV4- SN:7375 December 18, 2017 Dynamic Range f(SARhead) (TEM cell , feva1= 1900 MHz) · · ·• · ; · · · l · , . , · 1 •,•r , • • · • · · ;.. · - ; · ·r • 1 ·r , vrr · · • · •.;. • · • · • .., • .,. ,. r ,,.,. • • • ·; · · • i •• i · ; . ~ -:- r 1' • • • · ••;. • • •, •• • • r •,•, ,-.· , • • • ·'>· •· , •• , • ..,. ,·r i 1 ·····{··+·l-{-l -:-~:1 ---- ·+ ·-~ -:--;.-:+:-:-f'-····-:----:---:..:-MH-:- --··· {···l·-l·H-:-H+·····-:.----} --:--~ -:-t ~-:-~---·+··{· ·~--:-Hl l · · ---~-· ·1· ·!·1·!·:-~!!· · ·-· ·!· ·· !· -~· !·~ ~~-~~ · · .. ·~- ·· ·:· - .J- · :· ~- !~::· · · · · · !· .. !··! · !"!·:· !!!· .....~ · .. t ··:·"! ·:-~ :·:-~-- · :· .. ~-· ~ · ·:· ~-!!! ·····i···i··i·jf,iii·····i···i·t·iii//!···· ;. l+tifiji·····i···i··i·ii,fi ··. !···i··]ti···i i·iiiii .~: : :~: ~ :~ : ;:~:;~~~;;: :~::~: ~;~:;:;:;~~:; : ~::~::~:~: ~ ~:~;~~::::::~:::;::~:~:;~~; ;:: :· -'.·:- ~¥-f~~; ~~~: : :~:: ~: ::~:~:~;~ 105 \iii/! )i!iiii : jj!iii il!li: ii ji!!i j \!! :i • : : :: : : : : : ! :: :: :: • : : : :: ::. : : • : : : ::: : : : :: ::: : : : ::::: • · · · · t- ··i · · t • i •I -!-t I t -·· · •• t · · ·t ·•lo · t -~ t-:·H · · · - · ·!- · • •:• • i • -:- .;. t H-:· · · · • · t • · . · ·t · (• ~ ·!· r +t ••• •--1- • • • f • •;. ·t

Download: 72473T GSM/WCDMA/LTE Phone+Bluetooth, DTS/UNII a/b/g/n/ac and NFC RF Exposure Info ._20181219_v1 - PY7-72473T_TestRpt_RFExp_Appendix C_part 2 Sony Mobile Communications Inc
Mirror Download [FCC.gov]72473T GSM/WCDMA/LTE Phone+Bluetooth, DTS/UNII a/b/g/n/ac and NFC RF Exposure Info ._20181219_v1 - PY7-72473T_TestRpt_RFExp_Appendix C_part 2 Sony Mobile Communications Inc
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