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In Collaboration with
-.TTL
P e
CALIBRATION LABORATORY
Add: No.SI Xueyuan Road, Haidian District, Beijing, 100191, China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
E-mail: [email protected]
Http://www.chinattl.cn
Client
Certificate No:
Sporton_TW
216-97124
CALIBRATION CERTIFICATE
Object
D835V2 - SN: 4d200
Calibration Procedure(s)
FD-211-2-003-01
Calibration Procedures for dipole validation kits
Calibration date:
August 23, 2016
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.
A ll 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
ID#
Cal Date(Calibrated by, Certificate No.)
Power Meter NRP2
Power sensor NRP-291
10191 9
27-Jun-16 (CTTL, No.J16X04777)
Jun-17
101547
27-Jun-16 (CTTL, No.J16X04777)
Jun-17
Reference Probe EX3DV4
SN 3617
26-Aug-15(SPEAG,No.EX3-3617_Aug 15)
Aug- 16
DAE4
SN 777
26-Aug-15(SPEAG,No.DAE4-777_Aug15)
Aug-16
Secondary Standards
ID#
Cal Date(Calibrated by, Certificate No.)
Signal Generator E4438C
MY49071430
01 -Feb-16 (CTTL, No.J16X00893)
Jan- 17
Network A nalyzer E5071 C
MY46110673
26-Jan-16 (CTTL, No.J16X00894)
Jan-17
Primary Standards
Name
Scheduled Calibration
Signature
Function
~t
Calibrated by:
Zhao Jing
SAR Test Engineer
Reviewed by:
Qi Dianyuan
SAR Project Leader
Approved by:
Lu Singsong
Deputy Director of the laboratory
1tu, ~
Issued: August 26v2~16
This calibration certificate shall not be reproduced except in full without written approval of the laboratory.
Certificate No: 216-97124
Page I of8
In Collaboratio n with
p e a g
CALIBRATION LABORATORY
Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
Hltp://www.chinattl.cn
E-mail: [email protected]
Glossary:
TSL
ConvF
N/A
tissue simulating liquid
sensitivity in TSL / NORMx,y,z
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, "Procedure to measure the Specific Absorption Rate (SAR) For hand-held
devices used in close proximity to the ear (frequency range of 300MHz to 3GHz)", February
2005
c) IEC 62209-2, "Procedure to measure the Specific Absorption Rate (SAR) For wireless
communication devices used in close proximity to the human body (frequency range of
30MHz to 6GHz)", March 2010
d) KDB865664, 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 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 Wat 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: 216-97124
Page 2 of8
In Collaboration wrth
'1!.TTL s
CALIBRATION LABORATORY
Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
Http://www.chinattl.cn
E-mail: [email protected]
Measurement Conditions
DASY svstem confiauration, as f ar as not a1ven on oaae 1
52.8.8. 1258
DASY Version
DASY52
Extrapolation
Advanced Extrapolation
Phantom
Triple Flat Phantom 5.1 C
with Spacer
15 mm
Distance Dipole Center - TSL
Zoom Scan Resolution
dx, dy, dz= 5 mm
Frequency
835 MHz ± 1 MHz
Head TSL parameters
T he followina oarameters and calculations were annlied.
Temperature
Measured Head TSL parameters
(22.0 ± 0..2) °C
42.0 ±6 %
<1 .0 °C
----
Head TSL temperature change during test
SAR result with Head TSL
SAR averaged over 1 cm (1 g) of Head TSL
----
2.37 mW I g
250 mW input power
9.39 mW /g
normalized to 1W
SAR for nominal Head TSL parameters
cm 3
0.92 mho/m ± 6 %
Condition
SAR measured
SAR averaged over 10
Conductivity
0.90 mho/m
41.5
22.0 °C
Nominal Head TSL parameters
Permittivity
± 20.8 % (k=2)
Condition
(10 g) of Head TSL
1.56 mW l g
250 mW input power
SAR measured
6.19 mW /g
normalized to 1W
SAR for nominal Head TSL parameters
± 20.4 %
(k=2)
Body TSL parameters
T he followina oarameters and calculations were annlied.
Temperature
Measured Body TSL parameters
(22.0 ± 0.2) °C
54.9 ±6 %
0.98 mho/m ± 6 %
<1.0 °C
----
----
Body TSL temperature change during test
SAR result with Bo dIv TSL
SAR averaged over 1 cm (1
250 mW input power
normalized to 1W
SAR for nominal Body TSL parameters
cm 3
SAR for nominal Body TSL parameters
2.43 mW/ g
9.65 mW /g ± 20.8 % (k=2)
Condition
(10 g) of Body TSL
SAR measured
Certificate No: 216-97124
Condition
g) of Body TSL
SAR measured
SAR averaged over 10
Conductivity
0.97 mho/m
55.2
22.0 °C
Nominal Body TSL parameters
Permittivity
250 mW input power
1.62 mW l g
normalized to 1W
6.44 mW /g ± 20.4 % (k=2)
Page 3 of 8
In Collaboration with
s p e a 9
- TTL CALIBRATION
LABORATORY
Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191 , China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
Http://www.chinattl.cn
E-mail: [email protected]
Appendix
Antenna Parameters with Head TSL
so.on- 3.39jO
Impedance, transformed to feed point
- 29.4dB
Return Loss
Antenna Parameters with Body TSL
46.10- 5.27jQ
Impedance, transformed to feed point
- 23.3dB
Return Loss
General Antenna Parameters and Design
1.499 ns
Electrical Delay (one direction)
After long term use with 1OOW radiated power, only a slight warming of the dipole near the feedpoint can
be measured.
The dipole is made of standard semirigid coaxial cable. T he center conductor of the feeding line is directly
connected to the second arm of the dipole. The antenna is therefore short-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 feedpoint may be damaged.
Additional EUT Data
I Manufactured by
Certificate No: Zl 6-97124
SPEAG
Page 4 of 8
In Collaboration with
~ TTL
CALIBRATION lABORATORY
Add: No.51 Xucyuan Road, Haidian District, Beijing, 100191, China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
Http://www.chinattl.cn
E-mail: [email protected]
DASYS Validation Report for Head TSL
Date: 08.23.2016
Test Laboratory: CTTL, Beijing, China
DUT: Dipole 835 MHz; Type: D835V2; Serial: D835V2 - SN: 4d200
Communication System: UID 0, CW; Frequency: 835 MHz; Duty Cycle: 1: 1
Medium parameters used: f= 835 MHz; cr = 0.915 S/m; er= 41.98; p = 1000 kg/m
Phantom section: Center Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration:
•
•
•
•
•
Probe: EX3DV4 - SN3617; ConvF(9.56, 9.56,9.56); Calibrated: 8/26/2015;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn777; Calibrated: 2015-08-26
Phantom: Triple Flat Phantom 5.lC; Type: QD 000 P51 CA; Serial: 1161/1
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7372)
Dipole Calibration/Zoom Scan (7x7x7) (7x7x7)/Cube 0: Measurement grid: dx=5mm,
dy=5mm,dz=5mm
Reference Value= 58.36V/m; Power Drift= -0.01 dB
Peak SAR (extrapolated)= 3.53 W/kg
SAR(l g) = 2.37 W/kg; SAR(lO g) = 1.56 W/kg
Maximum value of SAR (measured)= 3.00 W/kg
dB
-2.11
-4.21
-6.32
-8.42
-10.53
0 dB = 3.00 W/kg = 4.77 dBW/kg
Certificate No: Z 16-97124
Page 5 of 8
In Collaboration with
- TTL
a g
CALIBRATION LABORATORY
Add: No.SI Xueyuan Road, Haidian District, Beijing, 100191 , China
Tel: +86-10-62304633-2079
Fax: +86-1 0-62304633-2504
Http://www.chinattl.cn
E-mail: [email protected]
Impedance Measurement Plot for Head TSL
Tr1 s:l.l. Log Mag 1 0 . 00dB/ Ref O. OOOdB [ F1 De l]
50 . 00 >1 835 . 00000 MHZ - 29 .410 dB
40 . 00
30. 00
20 . 00
10. 00
-2 0 . 00
- 30 . 00
- 40 . 00
- 50. 00
~ill 511
>1
smith (R+jx) scale
835.00000 MHZ
1. ooou [F1 Del]
49.996 n -3. 3863 n
11 Start 635 MHz
Certificate No: Z 16-97124
56 . 28
IFBW 100 Hz
Page 6 of 8
Stop 1.035 GHz
B f!
In Collaboration with
CALIBRATION LABORATORY
Add: No.51 Xucyuan Road, Haidian District, Beijing, 100191 , China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
Http://www.chinattl.cn
E-mail: [email protected]
DASYS Validation Report for Body TSL
Date: 08.23.2016
Test Laboratory: CTTL, Beijing, China
OUT: Dipole 835 MHz; Type: D835V2; Serial: D835V2 - SN: 4d200
Communication System: UID 0, CW; Frequency: 835 MHz; Duty Cycle: 1: 1
Medium parameters used: f = 835 MHz; cr = 0.978 S/m; Er= 54.86; p = 1000 kg/m
Phantom section: Left Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63. 19-2007)
DASY5 Configuration:
•
•
•
•
•
Probe: EX3DV4 - SN3617; ConvF(9.71 ,9.71, 9.71); Calibrated: 8/26/2015;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn777; Calibrated: 2015-08-26
Phantom: Triple Flat Phantom 5. lC; Type: QD 000 P5 1 CA; Serial: 1161/1
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7372)
Dipole Calibration/Zoom Scan (7x7x7) (7x7x7)/Cube 0: Measurement grid: dx=5mm,
dy=5mm,dz=5mm
Reference Value= 55.53 V/m; Power Drift= 0.00 dB
Peak SAR (extrapolated)= 3.54 W/kg
SAR(l g) = 2.43 W/kg; SAR(lO g) = 1.62 W/kg
Maximum value of SAR (measured)= 3.04 W/kg
dB
-1.98
-3.95
-5.93
-7.90
-9.88
0 dB = 3.04 W/kg = 4.83 dBW/kg
Certificate No: Z 16-97124
Page 7 of8
In Collaboration with
a g
CALIBRATION lABORATORY
Add: No.51 Xucyuan Road, Haidian District, Beijing, 100191 , China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
Http://www.chinattl.cn
E-mail: [email protected]
Impedance Measurement Plot for Body TSL
Trl 511 Log Mag 10.00dB/ Ref O.OOOdB [Fl Del ]
SO . OO
>1
835.00000 MHZ - 23 . 296 dB
40 . 0 0
30 . 00
20 . 00
10. 0 0
- 10 . 0 0
-20 . 00
- 30 . 00
- 4 0 . 00
- 50 . 00
511
•iil!I
>1
smi ch (R+jx) scale 1 . ooou [Fl Del]
835 . 00000 MHZ
46. 053 0 - 5 . 2 668 0
11 Start 635 MHz
Certificate No: 216-97124
36 .1 9
!FBW 100 Hz
Page 8 of8
Stop 1.035 GH_z_&lj!
~·----......._
... ~
In Collaboration with
- TTL s p e a g
CALIBRATION LABORATORY
Add: No.51 Xueyuan Road, llaidian District, Beijing, 100191 , China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
E-mail: [email protected]
Http://www.chinattl.cn
Client
Certificate No:
Sporton_TW
216-97128
CALIBRATION CERTIFICATE
Object
D1900V2 - SN: 5d210
Calibration Procedure(s)
FD-211 -2-003-01
Calibration Procedures for dipole validation kits
Calibration date:
August25, 2016
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(Calibrated by, Certificate No.)
Scheduled Calibration
Power Meter NRP2
Power sensor NRP-Z91
101919
101547
27-Jun-16 (CTTL, No.J16X04777)
Jun-17
27-Jun-16 (CTIL, No.J16X04777)
Jun- 17
Reference Probe EX3DV4
DAE4
SN 3617
26-Aug-1S(SPEAG, No. EX3-3617_Aug 15)
Aug- 16
SN 777
26-Aug-15(SPEAG, No. DAE4-777_ Aug 15)
Aug-16
Secondary Standards
ID#
Cal Date(Calibrated by, Certificate No.)
Signal Generator E4438C
MY49071430
01 -Feb-16 (CTIL, No.J16X00893)
Jan-17
Network Analyzer E5071 C
MY46110673
26-Jan-16 (CTTL, No.J16X00894)
Jan-17
Name
Scheduled Calibration
Function
Signature
Calibrated by:
Zhao Jing
SAR Test Engineer
Reviewed by:
Qi Dianyuan
SAR Project Leader
Approved by:
Lu Singsong
Deputy Director of the laboratory
fW,
~1fz
Issued: Agust 2{ 2016
This calibration certificate shall not be reproduced except in full without written approval of the laboratory.
Certificate No: Z16-97128
Page I of 8
.oll!!IIIIIIIIII. ..._, R
In CoUaboration with
iiiiTTL s
a g
CALIBRATION LABORATORY
Add: No.SI Xueyuan Road, Haidian District, Beijing, 100191 , China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
Http://www.chinattl.cn
E-mail: [email protected]
Glossary:
TSL
ConvF
N/A
tissue simulating liquid
sensitivity in TSL / NORMx,y,z
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, "Procedure to measure the Specific Absorption Rate (SAR) For hand-held
devices used in close proximity to the ear (frequency range of 300MHz to 3GHz)", February
2005
c) IEC 62209-2, "Procedure to measure the Specific Absorption Rate (SAR) For wireless
communication devices used in close proximity to the human body (frequency range of
30MHz to 6GHz)", March 2010
d) KDB865664, 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 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 Wat 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: Z 16-97128
Page 2 of8
In Collaboration with
• TTL
tr""
a g
CALIBRATION LABORATORY
Add: No.5 1 Xueyuan Road, Haidian District, Beijing, 100191, China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
Http://www.chinattl.cn
E-mail: [email protected]
Measurement Conditions
DASY system confiquration, as far as not aiven on paae 1 .
52.8.8.1258
DASY Version
DASY52
Extrapolation
Advanced Extrapolation
Phantom
Triple Flat Phantom 5.1 C
with Spacer
10 mm
Distance Dipole Center - TSL
Zoom Scan Resolution
dx, dy, dz= 5 mm
Frequency
1900 MHz± 1 MHz
Head TSL parameters
Tehof low,na
l . oarameters and
calculaf,ons were aoor,ed .
Temperature
22.0
Nominal Head TSL parameters
Measured Head TSL parameters
39.4 ±6 %
<1 .0 °C
----
----
9.91 mW I g
250 mW input power
39.9 mW /g
normalized to 1W
SAR for nominal Head TSL parameters
cm 3
1.38 mho/m ± 6 %
Condition
g) of Head TSL
SAR measured
SAR averaged over 10
Conductivity
1.40 mho/m
40.0
(22.o ± 0.2) ·c
Head TSL temperature change during test
SAR result with Head TSL
SAR averaged over 1 cm (1
<>c
Permittivity
± 20.8 % (k=2)
Condition
(10 g) of Head TSL
5.20 mW/ g
250 mW input power
SAR measured
20.9 mW /g
normalized to 1W
SAR for nominal Head TSL parameters
± 20.4 % (k=2)
Body TSL parameters
T he followinq parameters and calculations were aoolied.
Temperature
(22.0 ± 0.2)
Measured Body TSL parameters
250 mW input power
normalized to 1W
SAR for nominal Body TSL parameters
cm 3
250 mW input power
SAR for nominal Body TSL parameters
Certificate No: 2 16-97128
1.51 mho/m ± 6 %
---·-
10.0mW/g
40.3 mW /g ± 20.8 % (k=2)
Condition
(10 g) of Body TSL
SAR measured
1.52 mho/m
53.9 ± 6 %
----
Conductivity
Condition
g) of Body TSL
SAR measured
SAR averaged over 10
·c
<1.0 °C
Body TSL temperature change during test
SAR resu It W "th
B0 dIV TSL
SAR averaged over 1 cm (1
53.3
22.0 °C
Nominal Body TSL parameters
Permittivity
normalized to 1W
Page 3 of8
5.32 mW lg
21.4 mW /g ± 20.4 % (k=2)
'
-- TTL
In Collaboration with
_s_.p_____
e___a__Olliiiig....__
CALIBRATION LABORATOR'l
Add: No.5 1 Xueyuan Road, Haidian District, Beijing, 100191 , China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
Http://www.chinattl.cn
E-mail: [email protected]
Appendix
Antenna Parameters with Head TSL
51.80+ 4.37j0
Impedance, transformed to feed point
- 26.7dB
Return Loss
Antenna Parameters with Body TSL
47. 10+ 3.94j0
Impedance, transformed to feed point
- 25.9dB
Return Loss
General Antenna Parameters and Design
1.31 1 ns
Electrical Delay (one direction)
After long term use with 1OOW 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 feeding line is directly
connected to the second arm of the dipole. The antenna is therefore short-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 feedpoint may be damaged.
Additional EUT Data
I Manufactured by
Certificate No: 216-97128
SPEAG
Page 4 of 8
_ _......_ "
iiiTTL
In Collaboration with
CALIBRATION LABORATORY
Add: No.51 Xueyuan Road, Haidian District, Beij ing, 100191, China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
E-mail: [email protected]
Http://www.chinattl.cn
DASYS Validation Report for Head TSL
Date: 08.25.2016
Test Laboratory: CTTL, Beijing, China
DUT: Dipole 1900 MHz; Type: D1900V2; Serial: D1900V2 - SN: 5d210
Communication System: UID 0, CW; Frequency: 1900 MHz; Duty Cycle: 1: 1
Medium parameters used: f = 1900 MHz; cr = 1.379 S/m; Er= 39.42; p = 1000 kg/m3
Phantom section: Center Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration:
•
•
•
•
•
Probe: EX3DV4- SN3617; ConvF(8.07, 8.07, 8.07); Calibrated: 8/26/2015;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn777; Calibrated: 8/26/2015
Phantom: Triple Flat Phantom 5.IC; Type: QD 000 PSI CA; Serial: 1161/1
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (73 72)
System Performance Check/Zoom Scan (7x7x7) (7x7x7)/Cube 0: Measurement grid:
dx=5mm,dy=5mm,dz=5mm
Reference Value= 101.2V/m; Power Drift= -0.00 dB
Peak SAR (extrapolated)= 18.3W/kg
SAR(l g) = 9.91 W/kg; SAR(lO g) = 5.2 W/kg
Maximum value of SAR (measured) = 14.2 W/kg
dB
-3.45
-6.91
-10.36
-13.82
-17.27
0 dB = 14.2 W/kg = 11.52 dBW/kg
Certificate No: 216-97128
Page 5 of8
In Collaboration with
iATTL
a g
CALIBRATION LABORATORY
Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191 , China
Fax: +86-l 0-62304633-2504
Tel: +86- l 0-62304633-2079
Http://www.chinattl.cn
E-mail: [email protected]
Impedance Measurement Plot for Head TSL
Trl Sl.l Log Mag 10. 0 0dB/ Ref O. OOOdB [Fl]
SO .OO
>1
1 . 9000000 GHZ -26 . 659 dB
4 0 . 00
30 . 00
20 . 00
1 0 . 00
0 .000
- 10. 0 0
- 20 . 00
-30 . 00
-40 . 00
- 50. 00
~iliitil 511 smith (R+jx) scale 1.ooou
>l
1.9000000 GHZ
51.826 Q
[Fl Del]
4.3686 Q
365 .
11 Start 1.7 Giz
Certificate No: Z 16-97 128
IFBW 100 Hz
Page 6 of 8
Stop 2.1 GHz..lilf!
.................. "
• TTL
~. . ._.......,,,,,.
In Collaboration with
P e
CALIBRATION LABORATORY
Add: No.SI Xueyuan Road, Haidian District, Beijing, 100191, China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
Http://www.chinattl.cn
E-mail: [email protected]
DASY5 Validation Report for Body TSL
Date: 08.25.2016
Test Laboratory: CTTL, Beijing, China
DUT: Dipole 1900 MHz; Type: D1900V2; Serial: D1900V2 - SN: 5d210
Communication System: UID 0, CW; Frequency: 1900 MHz; Duty Cycle: 1: 1
Medium parameters used: f= 1900 MHz; o = 1.508 Sim; Er= 53.92; p = 1000 kg/m
Phantom section: Left Section
Measurement Standard: DASYS (IEEE/IEC/ANSI C63.19-2007)
DASYS Configuration:
•
•
•
•
•
Probe: EX3DV4 - SN3617; ConvF(7.74, 7.74, 7.74); Calibrated: 8/26/2015;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn777; Calibrated: 8/26/2015
Phantom: Triple Flat Phantom 5.lC; Type: QD 000 P51 CA; Serial: 1161/1
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7372)
System Performance Check/Zoom Scan (7x7x7) (7x7x7)/Cube 0: Measurement grid:
dx=Smm, dy=5mm, dz=Smm
Reference Value= 90.92 V/m; Power Drift= -0.01 dB
Peak SAR (extrapolated)= 17.8 W/kg
SAR(l g) = 10 W/kg; SAR(lO g) = 5.32 W /kg
Maximum value of SAR (measured)= 14.1 W/kg
dB
-3.42
-6.85
-10.27
-13.70
-17.1 2
0 dB = 14.1 W/kg = 11.49 dBW/kg
Certificate No: Z 16-97128
Page 7 of 8
In Cotlaboration wilh
-.TTL
a g
CALIBRATION LABORATORY
Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
I lttp://www.chinattl.cn
E-mail: [email protected]
Impedance Measurement Plot for Body TSL
Trl Sll Log Mag 1 0 . 00dB/ Ref O. OOOdB [Fl]
SO. OO
>1
1. 9000000 GHZ - 25 . 919 dB
4 0. 00
30. 00
20.00
10. 00
0 . 000
- 10. 0 0
- 20 . 00
-30. 00
··4 0 . 00
-5 0 . 00
Sll smith (R+jx) scale 1.ooou [Fl Del]
~iiir:I
>l
1 . 9000000 GHZ
47.066 0
IT Start 1.7 GHz
Certificate No: 216-971 28
3.9421 0
330. 2
!FBW 100 Hz
Page 8 of8
stop 2.1 GHz
lfl[!
Calibration Laboratory of
Schmid & Partner
Engineering AG
Service suisse d'etalonnage
Servizio svizzero di taratura
Zeughausstrasse 43, 8004 Zurich, Switzerland
Swiss Calibration Service
Accredited by the Swiss Accreditation Service (SAS)
Accreditation No.:
Schweizerischer Kalibrierdienst
SCS 0108
The Swiss Accreditation Service is one of the signatories to the EA
Multilateral Agreement for the recognition of calibration certificates
Client
Sporton-TW (Auden)
Certificate No:
D2450V2-926_Jul16
CALIBRATION CERTIFICATE
Object
D2450V2 - SN:926
Calibration procedure(s)
QA CAL-05.v9
Calibration procedure for dipole validation kits above 700 MHz
Calibration date:
July 25, 2016
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.)
Scheduled Calibration
Power meter NRP
SN: 104778
SN: 103244
06-Apr-16 (No. 217-02288/02289)
Apr-17
Power sensor NRP-Z91
06-Apr-16 (No. 217-02288)
Apr-17
Power sensor NRP-Z91
SN: 103245
06-Apr-16 (No. 217-02289)
Reference 20 dB Attenuator
SN: 5058 (20k)
SN: 5047.2 I 06327
05-Apr-16 (No. 217-02292)
Apr-17
Apr-17
Type-N mismatch combination
05-Apr-16 (No. 217-02295)
Apr-17
Reference Probe EX3DV4
SN: 7349
DAE4
SN: 601
15-Jun-16 (No. EX3-7349_Jun16)
30-Dec-15 (No. DAE4-601_Dec15)
Jun-17
Secondary Standards
ID#
Check Date (in house)
Scheduled Check
Power meter EPM-442A
SN: GB37480704
07-0ct-15 (No. 217-02222)
In house check: Oct-16
07-0ct-15 (No. 217-02222)
In house check: Oct-16
Power sensor HP 8481A
Power sensor HP 8481A
SN: US37292783
SN: MY41092317
RF generator R&S SMT-06
SN: 100972
Network Analyzer HP 8753E
SN: US37390585
Dec-16
07-0ct-15 (No. 217-02223)
In house check: Oct-16
15-Jun-15 (in house check Jun-15)
18-0ct-01 (in house check Oct-15)
In house check: Oct-16
In house check: Oct-16
Name
Function
Signature
Calibrated by:
Michael Weber
Laboratory Technician
II&-
Approved by:
Katja Pokovic
Technical Manager
~ArIssued: July 26, 2016
This calibration certificate shall not be reproduced except in full without written approval of the laboratory.
Certificate No: D2450V2-926_ Jul16
Page 1 of 8
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
Accreditatio n 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
ConvF
N/A
tissue simulating liquid
sensitivity in TSL / NORM x,y,z
not applicable or not measured
Calibration is Performed According to the Following Standards:
a) IEEE Std 1528-201 3, "IEEE Recommended Practice for Determining the Peak SpatialAveraged Specific Absorption Rate (SAR) in the Human Head from Wireless
Communications Devices: Measurement Techniques", June 2013
b) IEC 62209-1, "Procedure to measure the Specific Absorption Rate (SAR) for hand-held
devices used in close proximity to the ear (frequency range of 300 MHz to 3 GHz)",
February 2005
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.
• Feed Point Impedance and Return Loss: These parameters are measured with the dipole
positioned under the liquid filled phantom. T he 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, norma lized to an input power of 1 W at the antenna
connector.
• SAR tor 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: D2450V2-926_Jul16
Page 2 of 8
Measurement Conditions
DASY system conf1guration, as ar as not ~ iven on paqe 1.
DASY Version
DASY5
Extrapolation
Advanced Extrapolation
V52.8.8
Modular Flat Phantom
Phantom
with Spacer
10 mm
Distance Dipole Center - TSL
Zoom Scan Resolution
dx, dy, dz = 5 mm
Frequency
2450 MHz ± 1 MHz
Head TSL parameters
The following parameters and calculations were applied
Nominal Head TSL parameters
Measured Head TSL parameters
Head TSL temperature change during test
Temperature
Permittivity
Conductivity
22.0 °C
39.2
1.80 mho/m
(22.0 ± 0.2) °C
38.0 ±6 %
1.86 mho/m ± 6 %
< 0.5 °C
----
----
SAR result with Head TSL
Condition
SAR averaged over 1 cm (1 g) of Head TSL
SAR measured
250 mW input power
13.5 W/kg
normalized to 1W
52.8 W/kg ± 17.0 % {k=2)
SAR for nominal Head TSL parameters
condition
SAR averaged over 10 cm (10 g) of Head TSL
SAR measured
250 mW input power
6.22 W/kg
normalized to 1W
24.5 W/kg ± 16.5 % (k=2)
SAR for nominal Head TSL parameters
Body TSL parameters
The foII owing parameters and ca culations were applied.
Nominal Body TSL parameters
Measured Body TSL parameters
Body TSL temperature change during test
Temperature
Permittivity
Conductivity
22.0 °C
52.7
1.95 mho/m
(22.0 ± 0.2) °C
51.8±6%
2.03 mho/m ± 6 %
< 0.5 °C
----
----
SAR result with Body TSL
SAR averaged over 1 cm3 (1 g) of Body TSL
SAR measured
SAR for nominal Body TSL parameters
SAR averaged over 1O cm (10 g) of Body TSL
SAR measured
SAR for nominal Body TSL parameters
Certificate No: D2450V2-926_Jul16
Condition
250 mW input power
13.1 W/kg
normalized to 1W
51.2 W/kg ± 17.0 % {k=2)
condition
250 mW input power
6.07 W/kg
normalized to 1W
24.0 W/kg ± 16.5 % (k=2)
Page 3 of 8
Appendix (Additional assessments outside the scope of SCS 0108)
Antenna Parameters with Head TSL
54.3 Q + 3.7 jQ
Impedance, transformed to feed point
- 25.3 dB
Return Loss
Antenna Parameters with Body TSL
50.3 Q + 5.0 jQ
Impedance, transformed to feed point
- 26.0 dB
Return Loss
General Antenna Parameters and Design
1.155 ns
Electrical Delay (one direction)
After long term use with 1OOW radiated power, only a slight warming of the dipole near the feedpoint can be measured.
The dipole is made of standard semi rigid coaxial cable. The center conductor of the feeding line is directly connected to the
second arm of the dipole. The antenna is therefore short-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
feedpoint may be damaged.
Additional EUT Data
Manufactured by
SPEAG
Manufactured on
September 26, 2013
Certificate No: D2450V2-926_Jul16
Page 4 of 8
DASY5 Validation Report for Head TSL
Date: 25.07.2016
Test Laboratory: SPEAG, Zurich, Switzerland
DUT: Dipole 2450 MHz D2450V2; Type: D2450V2; Serial: D2450V2 - SN:926
Communication System: UID O - CW; Frequency: 2450 MHz
Medium parameters used: f = 2450 MHz; cr = 1.86 S/m; er = 38; p = l 000 kg/m
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-201 l)
DASY52 Configuration:
•
Probe: EX3DV4 - SN7349; ConvF(7.72, 7.72, 7.72); Calibrated: 15.06.2016;
•
Sensor-Surface: 1.4mm (Mechanical Surface Detection)
•
Electronics: DAE4 Sn601; Calibrated: 30.12.2015
•
Phantom: Flat Phantom 5.0 (front); Type: QDOOOP50AA; Serial: 1001
•
DASY52 52.8.8(1258); SEMCAD X 14.6.10(7372)
Dipole Calibration for Head Tissue/Pin=250 mW, d=lOmm/Zoom Scan (7x7x7)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = J 14.2 V/m; Power Drift= 0.01 dB
Peak SAR (extrapolated) = 27 .6 W /kg
SAR(l g) = 13.5 W/kg; SAR(lO g) = 6.22 W /kg
Maximum value of SAR (measured) = 22.3 W/kg
dB
-4.64
-9.29
-13.93
-18.58
-23.22
0 dB = 22.3 W/kg = 13.48 dBW/kg
Certificate No: 02450V2-926_Jul16
Page 5 of 8
Impedance Measurement Plot for Head TSL
25 Jul 2016
~ S11
1: 54.313
1 U FS
3. 7266
242.08 pH
09:58:38
2 450. 000 000 MHz
Del
Avg
16
Hld
CH2
S11
5 dB i REF - 2 0~dB
--.-
LOG
,-
Ce
Hl d
-+-
--+- - - + - - - - <
-·-
STOP 2 650.000 000 MHz
START 2 250.000 000 MH z
Certificate No: D2450V2-926_Jul16
Page 6 of 8
DASY5 Validation Report for Body TSL
Date: 25.07.2016
Test Laboratory: SPEAG, Zurich, Switzerland
OUT: Dipole 2450 MHz D2450V2; Type: D2450V2; Serial: D2450V2 - SN:926
Communication System: UID O - CW; Frequency: 2450 MHz
Medium parameters used: f = 2450 MHz; cr = 2.03 Sim; Er= 51 .8; p = 1000 kg/m
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2011)
DASY52 Configuration:
•
Probe: EX3DV4 - SN7349; ConvF(7.79, 7.79, 7 .79); Calibrated: 15.06.2016;
•
Sensor-Surface: 1.4mm (Mechanical Surface Detection)
•
Electronics: DAE4 Sn601; Calibrated: 30.12.2015
•
Phantom: Flat Phantom 5.0 (back); Type: QDOOOP50AA; Serial: 1002
•
DASY52 52.8.8(1258); SEMCAD X 14.6.10(7372)
Dipole Calibration for Body Tissue/Pin=250 mW, d=lOmm/Zoom Scan (7x7x7)/Cube 0:
Measurement grid: dx=5mm, dy=5mm, dz=5mm
Reference Value = 107.2 V/m; Power Drift = -0.04 dB
Peak SAR (extrapolated) = 26.3 W /kg
SAR(l g) =13.1 W/kg; SAR(lO g) =6.07 W/kg
Maximum value of SAR (measured) = 21.4 W/kg
dB
-4.38
-8.76
-13.14
-17.52
-21.90
0 dB = 21.4 W/kg = 13.30 dBW/kg
Certificate No: 02450V2-926_J ul16
Page 7 of 8
Impedance Measure ment Plot for Body TSL
igm S11
1: 50. 256
1 U FS
!'l
5.0469
!'l
25 Jul 2016 09:58: 03
2 450.000 000 MHz
327.85 pH
De l
Ct
Av9
~~
16
Hld
CH2
S 11
LOG
-5
1:-2 5.96 2 dB
d Bi REF -20 dB
2 j50.000.,.000 MH z
,.
Ct
Hl d
--l
---- --~
STOP 2 650. 000 000 MHz
START 2 250. 000 000 MH z
Certificate No: D2450V2-9 26_Jul16
Page 8 of 8
~
....111111111111. . . . .,
- TTL
In Collaboration with
P e
CALIBRATION LABORATORY
Add: No.SI Xueyuan Road, Haidian District, Beijing, 100191, China
Fax: +86-10-62304633-2504
Tel: +86-10-62304633-2079
E-mail: [email protected]
Http://www.ch inattl.cn
Client
Certificate No:
Sporton_TW
Z16-97131
CALIBRATION CERTIFICATE
Object
D2600V2 - SN: 1113
Calibration Procedure(s)
FD-Z11 -2-003-01
Calibration Procedures for dipole validation kits
Calibration date:
August 30, 2016
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(Calibrated by, Certificate No.)
Scheduled Calibration
Jun- 16
Power Meter NRP2
Power sensor NRP-Z91
101919
101 547
01-Jul-15 (CTTL, No.J15X04256)
01-Jul-15 (CTTL, No.J1 5X04256)
Reference Probe EX3DV4
SN 3801
29-Jun-16(SPEAG,No.EX3-3801_Jun 16)
Jun-16
Jun-17
DAE4
SN 777
22-Aug-16(CTTL-SPEAG,No.Z16-97138)
Aug-17
Secondary Standards
ID#
Cal Date(Calibrated by, Certificate No.)
Signal Generator E4438C
Network Analyzer E5071 C
MY49071430
01-Feb-16 (CTTL, No.J1 6X00893)
MY46110673
26-Jan-16 (CTTL, No.J1 6X00894)
Name
Scheduled Calibration
Jan-17
Jan- 17
Signature
Function
~ii
Calibrated by:
Zhao Jing
SAR Test Engineer
Reviewed by:
Qi Dianyuan
SAR Project Leader
Approved by:
Lu Singsong
Deputy Director of the laboratory
~~
Issued: SeptembJ 1, 2016
This calibration certificate shall not be reproduced except in full without written approval of the laboratory.
Certificate No: Z16-97131
Page I of 8
_
a......._"
-.TTL
In Collaboration with
CALIBRATION LABORATORY
Add: No.51 Xucyuan Road, Haidian District, Beijing, 100191 , China
Tel: +86-10-62304633-2079
Fax: +86-J0-62304633-2504
l lttp://www.chinattl.cn
E-mail: [email protected]
Glossary:
TSL
ConvF
N/A
tissue simulating liquid
sensitivity in TSL / NORMx,y,z
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, "Procedure to measure the Specific Absorption Rate (SAR) For hand-held
devices used in close proximity to the ear (frequency range of 300MHz to 3GHz)", February
2005
c) IEC 62209-2, "Procedure to measure the Specific Absorption Rate (SAR) For wireless
communication devices used in close proximity to the human body (frequency range of
30MHz to 6GHz)", March 2010
d) KDB865664, 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 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: Zl 6-9713 1
Page 2 of&
In Collaboration with
fKTTL s
a g
CALIBRATION LABORATORY
Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China
Tel: +86- 10-62304633-2079
Fax: +86-10-62304633-2504
l-lttp://www.chinattl.cn
E-mail: [email protected]
Measurement Conditions
DA SY system conf1gurat1on, as f ar as not a1ven on oaae 1
DASY Version
DASY52
Extrapolation
Advanced Extrapolation
Phantom
Triple Flat Phantom 5.1C
Distance Dipole Center - TSL
52.8.8.1258
with Spacer
10 mm
Zoom Scan Resolution
dx, dy, dz= 5 mm
Frequency
2600 MHz± 1 MHz
Head TSL parameters
Th e fo II owina
. oarameters and ca Icu Iafions were aoor1ed .
Temperature
Nominal Head TSL parameters
22.0
Measured Head TSL parameters
c22.o ± 0.2)
Head TSL temperature change during test
SAR result with Head TSL
SAR averaged over 1 cm (1
<1 .o
39.4 ± 6 %
1.97 mho/m ± 6 %
----
----
Condition
14.2 mW lg
250 mW input power
SAR for nominal Head TSL parameters
cm 3
Conductivity
1.96 mho/m
39.0
g) of Head TSL
SAR measured
SAR averaged over 10
°c
Permittivity
56.8 mW /g
normalized to 1W
± 20.8 % (k=2)
Condition
(10 g) of Head TSL
SAR measured
6.41 mW lg
250 mW input power
SAR for nominal Head T SL parameters
25.6 mW /g
normalized to 1W
± 20.4 % (k=2)
Body TSL parameters
Tehot low1na
l · oaramet ers and
la
fions were aoo r1ed .
calcu
Temperature
Nominal Body TSL parameters
22.0
Measured Body TSL parameters
(22.0 ± 0.2)
Body TSL temperature change during test
<1.o
SAR resu It WI"th B0 dly TSL
SAR averaged over 1 cm (1 g) of Body TSL
SAR measured
52.2 ±6 %
----
cm 3
(10 g) of Body TSL
normalized to 1W
Page 3 of 8
----
14.0 mW I g
55.6 mW /g ± 20.8 % (k=2)
Condition
250 mW input power
SAR for nominal Body TSL parameters
2.18 mho/m ± 6 %
Condition
normalized to 1W
SAR measured
Certificate No: Zl6-97 13 l
Conductivity
2.16 mho/m
52.5
250 mW input power
SAR for nominal Body TSL parameters
SAR averaged over 10
°c
Permittivity
6.34 mW I g
25.3 mW /g ± 20.4 % (k=2)
- TTL
-_
In Collaboration with
a g
CALIBRATION LABORATORY
Add: No.SI Xucyuan Road, Haidian District, Beijing, 100191 , China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
E-mail: [email protected]
Http://www.chinattl.cn
Appendix
Antenna Parameters with Head TSL
46.50- 7.32j0
Impedance, transformed to feed point
- 21.5dB
Return Loss
Antenna Parameters with Body TSL
45.00- 6.71j0
Impedance, transformed to feed point
- 21 .1dB
Return Loss
General Antenna Parameters and Design
1.045 ns
Electrical Delay (one direction)
After long term use with 1OOW radiated power, only a slight warming of the dipole near the feedpoint can
be measured.
The dipole is made of standard semirigid coaxial cable. T he center conductor of the feeding line is directly
connected to the second arm of the dipole. The antenna is therefore short-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 feed point may be damaged.
Additional EUT Data
I Manufactured by
Certificate No: Z16-97I31
SPEAG
Page 4 of8
_ . . . ~.......
, "'
- T'r,-FT
..i..L.J
""lliifilililllll-?'-"
In Collaboration with
CALIBRATION lABORATORY
Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191, China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
Http://www.chinattl.cn
E-mail: [email protected]
DASYS Validation Report for Head TSL
Date: 08.30.2016
Test Laboratory: CTTL, Beijing, China
DUT: Dipole 2600 MHz; Type: D2600V2; Serial: D2600V2 - SN: 1113
Communication System: UID 0, CW; Frequency: 2600 MHz; Duty Cycle: 1: 1
Medium parameters used: f = 2600 MHz; cr = 1.974 S/m; er = 39.43; p = 1000 kg/m3
Phantom section: Right Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration:
•
•
•
•
•
Probe: EX3DV4 - SN3801; ConvF(6.64, 6.64, 6.64); Calibrated: 6/29/2016;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn777; Calibrated: 8/22/2016
Phantom: Triple Flat Phantom 5.lC; Type: QD 000 P5 1 CA; Serial: 1161/1
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7372)
Dipole Calibration/Zoom Scan (7x7x7) (7x7x7)/Cube 0: Measurement grid: dx=5mm,
dy=5mm, dz=5mm
Reference Value= 106.7 V/m; Power Drift= -0.01 dB
Peak SAR (extrapolated)= 30.0 W/kg
SAR(l g) = 14.2 W/kg; SAR(lO g) = 6.41 W/kg
Maximum value of SAR (measured) = 22.0 W/kg
dB
-4.60
-9.20
-13.79
-18.39
-22.99
0 dB = 22.0 W /kg = 13.42 dBW/kg
Certificate No: Z16-97131
Page 5 of 8
-fCI'TL
'"
In Collaboration with
a g
CALIBRATION lABORATORY
Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191 , China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
Http://www.chinattl.cn
E-mail: [email protected]
Impedance Measurement Plot for Head TSL
Trl 511 Log Mag 10. 00dB/ Ref O.OOOdB [Fl]
SO . OO
>l
2.6000000 GHZ -21.509 dB
4 0 . 00
30 . 00
20 . 0 0
1 0 . 00
0 . 000
-10 . 00
-20 . 00
- 30 . 0 0
- 40 . 0 0
- 50 . 00
~ilil!I 51l smith (R+jx) scale 1 . ooou [Fl Del]
>1
2.6000000 GHZ
46.454 n - 7 . 3162 n
8 . 366
11 st.rt 2.4 GHz
Certificate No: Zl 6-97131
IFBW 100 Hz
Page 6 o f8
St op 2 .8 GHz
&JI[!
In Collaboration with
~ TTL
CALIBRATION LABORATORY
Add: No.51 Xucyuan Road, Ilaidian District, Beijing, 100191, China
Tel: +86-10-62304633-2079
Fax: +86-10-62304633-2504
Http://www.chinattl.cn
E-mail: [email protected]
DASYS Validation Report for Body TSL
Date: 08.30.2016
Test Laboratory: CTTL, Beijing, China
DUT: Dipole 2600 MHz; Type: D2600V2; Serial: D2600V2 - SN: 1113
Communication System: UID 0, CW; Frequency: 2600 MHz; Duty Cycle: 1: 1
Medium parameters used: f= 2600 MHz; u = 2.184 S/m; Er= 52.15; p = 1000 kg/m
Phantom section: Center Section
Measurement Standard: DASY5 (IEEE/IEC/ANSI C63.19-2007)
DASY5 Configuration:
•
•
•
•
•
Probe: EX3DV4 - SN3801; ConvF(6.7, 6.7,6.7); Calibrated: 6/29/2016;
Sensor-Surface: 2mm (Mechanical Surface Detection)
Electronics: DAE4 Sn777; Calibrated: 8/22/2016
Phantom: Triple Flat Phantom 5.lC; Type: QD 000 P5 1 CA; Serial: 1161/1
Measurement SW: DASY52, Version 52.8 (8); SEMCAD X Version 14.6.10 (7372)
Dipole Calibration/Zoom Scan (7x7x7) (7x7x7)/Cube 0: Measurement grid: dx=5rnm,
dy=5rnm, dz=5mm
Reference Value= 94.87 V/m; Power Drift= -0.04 dB
Peak SAR (extrapolated)= 29.1 W/kg
SAR(l g) = 14 W/kg; SAR(lO g) = 6.34 W/kg
Maximum value of SAR (measured) = 21.5 W/kg
dB
-4.54
-9.08
-13.63
-18.17
-22.71
L.
0 dB = 21.5 W/kg = 13.32 dBW/kg
Certificate No: Zl6-97131
Page 7 of 8
g
-- TTL
In Collaboration with
a g
CALIBRATION LABORATORY
Add: No.51 Xueyuan Road, Haidian District, Beijing, 100191 , China
Tel: +86- 10-62304633-2079
Fax: +86-J0-62304633-2504
Http://www.chinattl.cn
E-mail: [email protected]
Impedance Measurement Plot for Body TSL
Trl S11 Log Mag 10.00dB/ Ref O.OOOdB [Fl]
SO . OO
>1
2.6000000 GHZ -21.095 dB
40. 00
30.00
20.00
10. 00
0.000
- 10.00
-2 0.00
- 30. 00
- 4 0. 00
- 50 . 00
~iil!I
>1
'--~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~---'
S11 smith (R+jx) scale 1. ooou [ Fl Del]
2.6000000 GHZ
IT start 2.4 Glz
Certificate No: 216-97 131
44 . 960 0 - 6 . 7106 0
9.121
IFBW lOOHz
Page 8 of 8
St op 2 .8 GHz
lf.lT
Calibration Laboratory of
Schmid & Partner
Engineering AG
Schweizerischer Kalibrierdienst
Service suisse d 'etalonnage
Zeughausstrasse 43, 8004 Zurich, Switzerland
Swiss Calibration Service
Accredited by the Swiss Accreditation Service (SAS)
Accreditation No.:
Servizio svizzero di taratura
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:
D5GHzV2-1040_Jun16
CALIBRATION CERTIFICATE
Object
D5GHzV2 - SN:1040
Calibration procedure(s)
QA CAL-22.v2
Calibration procedure for dipole validation kits between 3-6 GHz
Calibration date:
June 17, 2016
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
Power sensor NRP-Z91
SN: 103244
06-Apr-16 (No. 217-02288/02289)
06-Apr-16 (No. 217-02288)
Scheduled Calibration
Apr-17
Power sensor NRP-Z91
SN: 103245
06-Apr-16 (No. 217-02289)
Apr-17
Apr-17
Reference 20 dB Attenuator
SN: 5058 (20k)
05-Apr-16 (No. 217-02292)
Apr-17
Type-N mismatch combination
Reference Probe EX3DV4
SN: 5047.2 / 06327
05-Apr-16 (No. 217-02295)
Apr- 17
SN: 3503
31-Dec-15 (No. EX3-3503_Dec15)
Dec-16
DAE4
SN: 601
30-Dec-15 (No. DAE4-601 _Dec15)
Dec-16
Secondary Standards
ID#
Check Date (in house)
Scheduled Check
Power meter EPM-442A
SN: GB37480704
07-0ct-15 (No. 217 -02222)
In house check: Oct-16
Power sensor HP 8481A
SN: US37292783
07-0ct-15 (No. 217-02222)
In house check: Oct-16
Power sensor HP 8481A
SN: MY41092317
07-0ct-15 (No. 217-02223)
In house check: Oct-16
RF generator R&S SMT -06
SN: 100972
15-Jun-15 (in house check Jun-15)
In house check: Oct-16
Network Analyzer HP 8753E
SN: US37390585
18-0ct-01 (in house check Oct-15)
In house check: Oct-16
Name
Function
Calibrated by:
Jeton Kastrati
Laboratory Technician
Approved by:
Katja Pokovic
Technical Manager
Signature
~~
Issued: June 20, 2016
This calibration certificate shall not be reproduced except in full without written approval of the laboratory.
Certificate No: D5GHzV2-1040_Jun16
Page 1 of 16
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 Cal ibration Service
SCS 0108
The Swiss Accreditation Service is one of the signatories to the EA
Multilateral Agreement for the recognition of calibration certificates
Glossary:
TSL
ConvF
N/A
tissue simulating liquid
sensitivity in TSL / NORM x,y,z
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 SpatialAveraged Specific Absorption Rate (SAR) in the Human Head from Wireless
Communications Devices: Measurement Techniques", June 2013
b) 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
c) KDB 865664, "SAR Measurement Requirements for 100 MHz to 6 GHz"
Additional Documentation:
d) 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 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: D5GHzV2-1040_Jun1 6
Page2of16
Measurement Conditions
DAS y system confiquration, as far as not ( iven on page 1.
DASY Version
DASY5
Extrapolation
Advanced Extrapolation
Phantom
Modular Flat Phantom V5.0
Distance Dipole Center - TSL
Zoom Scan Resolution
V52.8.8
10 mm
with Spacer
dx, dy = 4.0 mm, dz = 1.4 mm
Graded Ratio = 1.4 (Z direction)
Frequency
5200
5300
5500
5600
5800
MHz
MHz
MHz
MHz
MHz
1 MHz
1 MHz
1 MHz
1 MHz
+ 1 MHz
±
±
±
±
Head TSL parameters at 5200 MHz
The followinq parameters and calculations were applied.
Nominal Head TSL parameters
Measured Head TSL parameters
Head TSL temperature change during test
Temperature
Permittivity
Conductivity
22 .0 °c
36.0
4.66 mho/m
(22.0 ± 0.2) °C
34.8 ± 6 %
4.54 mho/m ± 6 %
< 0.5 °C
----
----
SAR result with Head TSL at 5200 MHz
SAR averaged over 1 cm3 (1 g) of Head TSL
SAR measured
SAR for nominal Head TSL parameters
SAR averaged over 1Ocm 3 (10 g) of Head TSL
SAR measured
SAR for nominal Head TSL parameters
Certificate No: D5GHzV2-1040_Jun1 6
Condition
100 mW input power
7.68 W/kg
normalized to 1W
76.2 W/kg: 19.9 % (k=2)
condition
100 mW input power
2.21 W/kg
normalized to 1W
21.9 W/kg ± 19.5 % (k=2)
Page 3 of 16
Head TSL parameters at 5300 MHz
Th e foII owrng
. parameters an d ca Icu Iat1ons
were app r1ed
Temperatur e
Permittivity
Conductivit y
22.0 °c
35.9
4.76 mho/m
(22.0 ± 0.2) c
34.6 ±6 %
4.64 mho/m ± 6 %
< 0.5 °C
----
·---
Nominal Head TSL parameters
Measured Head TSL parameters
Head TSL temperature change during test
SAR result with Head TSL at 5300 MHz
SAR averaged over 1 cm3 (1 g) of Head TSL
Condition
SAR measured
SAR for nominal Head TSL parameters
SAR averaged over 10 cm 3 (1 O g) of Head TSL
SAR measured
100 mW input power
8.24 W/kg
normalized to 1W
81.7 W /kg± 19.9 % (k=2)
condition
100 mW input power
2.36 W/kg
normalized to 1W
23.3 W/kg ± 19.5 % (k=2)
SAR for nominal Head TSL parameters
Head TSL parameters at 5500 MHz
Th e fo II owrng
. parameters and caIcu Iat1ons
r d
were app11e
Nominal Head TSL parameters
Measured Head TSL parameters
Head TSL temperature change during test
Temperatur e
Permittivity
Conductivit y
22.0 °c
35.6
4.96 mho/m
(22.0 ± 0.2) 0 c
34.3 ± 6 %
4.83 mho/m ± 6 %
< 0.5 °C
----
----
SAR result with Head TSL at 5500 MHz
SAR averaged over 1 cm 3 (1 g) of Head TSL
Condition
SAR measured
SAR for nominal Head TSL parameters
SAR averaged over 1O cm3 (1 O g) of Head TSL
SAR measured
SAR for nominal Head TSL parameters
Certificate No: D5GHzV2-1040_Jun16
100 mW input power
7 .93 W /kg
normalized to 1W
78.6 W/kg ± 19.9 % (k=2)
condition
100 mW input power
2.26 W/kg
normalized to 1W
22.4 W/kg ± 19.5 % (k=2)
Page 4 of 16
Head TSL parameters at 5600 MHz
Th e followinQ parameters and calculations were applied.
Nominal Head TSL parameters
Measured Head TSL parameters
Temperature
Permittivity
Conductivity
22.0 °c
35.5
5.07 mho/m
(22 .0 ± 0.2) c
34.2 ±6 %
4.93 mho/m ± 6 %
< 0.5 °c
----
----
Head TSL temperature change during test
SAR result with Head TSL at 5600 MHz
SAR averaged over 1 cm 3 (1 g) of Head TSL
SAR measured
Condition
100 mW input power
8.12 W/kg
normalized to 1W
80.5 W/kg ± 19.9 % (k=2)
SAR for nominal Head TSL parameters
SAR averaged over 10 cm3 (1 O g) of Head TSL
SAR measured
condition
100 mW input power
2.32 W/kg
normalized to 1W
22.9 W/kg ± 19.5 % (k=2)
SAR for nominal Head TSL parameters
Head TSL parameters at 5800 MHz
The following parameters and calculations were applied.
Nominal Head TSL parameters
Measured Head TSL parameters
Head TSL temperature change during test
Temperature
Permittivity
Conductivity
22.0 °c
35.3
5.27 mho/m
(22.0 ± 0.2) °C
33.9 ± 6 %
5.14 mho/m ± 6 %
< 0.5 °C
----
----
SAR result with Head TSL at 5800 MHz
SAR averaged over 1 cm 3 (1 g) of Head TSL
SAR measured
SAR for nominal Head TSL parameters
SAR averaged over 10 cm 3 (10 g) of Head TSL
SAR measured
SAR for nominal Head TSL parameters
Certificate No: D5GHzV2-1040_Jun1 6
Condition
100 mW input power
7 .66 W/kg
normalized to 1W
75.9 W/kg ± 19.9 % (k=2)
condition
100 mW input power
2.19 W/kg
normalized to 1W
21.7 W/kg ± 19.5 % (k=2)
Page 5 of 16
Body TSL parameters at 5200 MHz
Th e f oII owing
. parameters and calculations were applied.
Nominal Body TSL parameters
Measured Body TSL parameters
Temperature
Permittivity
Conductivity
22.0 °C
49.0
5.30 mho/m
47.1±6 %
5.41 mho/m ± 6 %
----
----
(22.0 ± 0.2)
Body TSL temperature change during test
< 0.5 °C
SAR result with Body TSL at 5200 MHz
SAR averaged over 1 cm3 (1 g) of Body TSL
SAR measured
Condition
100 mW input power
7.35 W/kg
normalized to 1W
72.9 W/kg ± 19.9 % (k=2)
SAR for nominal Body TSL parameters
SAR averaged over 10 cm 3 (1 O g) of Body TSL
SAR measured
condition
100 mW input power
2.07 W/kg
normalized to 1W
20.5 W/kg ± 19.5 % (k=2)
SAR for nominal Body TSL parameters
Body TSL parameters at 5300 MHz
Th e foII owing
. parameters and ca Icu Iat,ons
were applied.
Nominal Body TSL parameters
Measured Body TSL parameters
Body TSL temperature change during test
Temperature
Permittivity
Conductivity
22.0 °C
48.9
5.42 mho/m
46.9 ± 6 %
5.53 mho/m ± 6 %
----
----
(22.0 ± 0.2)
< 0.5 °C
SAR result with Body TSL at 5300 MHz
SAR averaged over 1 cm 3 (1 g) of Body TSL
SAR measured
SAR for nominal Body TSL parameters
SAR averaged over 1O cm 3 (10 g) of Body TSL
SAR measured
SAR for nominal Body TSL parameters
Certificate No: D5GHzV2-1040_Jun 16
Condition
100 mW input power
7.70 W/kg
normalized to 1W
76.4 W/kg ± 19.9 % (k=2)
condition
100 mW input power
2.16 W/kg
normalized to 1W
21.4 W/kg ± 19.5 % (k=2)
Page 6 of 16
Body TSL parameters at 5500 MHz
Th e fo II owinq
. parameters and calculations were applied.
Nominal Body TSL parameters
Measured Body TSL parameters
Temperature
Permittivity
Conductivity
22.0 °c
48.6
5.65 mho/m
(22.0 ± 0.2) c
46.5 ± 6 %
5.80 mho/m ± 6 %
< 0.5 °C
----
----
Body TSL temperature change during test
SAR result with Body TSL at 5500 MHz
SAR averaged over 1 cm 3 (1 g) of Body TSL
SAR measured
Condition
100 mW input power
7.92 W/kg
normalized to 1W
78.6 W/kg ± 19.9 % (k=2)
SAR for nominal Body TSL parameters
SAR averaged over 1O cm 3 (1 O g) of Body TSL
SAR measured
condition
100 mW input power
2.19W/kg
normalized to 1W
21.7 W/kg ± 19.5 % (k=2)
SAR for nominal Body TSL parameters
Body TSL parameters at 5600 MHz
T he followinq parameters and calculations were applied.
Nominal Body TSL parameters
Measured Body TSL parameters
Body TSL temperature change during test
Temperature
Permittivity
Conductivity
22 .0 °C
48.5
5.77 mho/m
(22.0 ± 0.2) °C
46.3 ±6 %
5.95 mho/m ± 6 %
< 0.5 °c
----
----
SAR result with Body TSL at 5600 MHz
SAR averaged over 1 cm 3 (1 g) of Body TSL
SAR measured
SAR for nominal Body TSL parameters
SAR averaged over 1O cm 3 (1 O g) of Body TSL
SAR measured
SAR for nominal Body TSL parameters
Certificate No: D5GHzV2-1040_Jun1 6
Condition
100 mW input power
7.90 W/kg
normalized to 1W
78.4 W/kg ± 19.9 % (k=2)
condition
100 mW input power
2.21 W/kg
normalized to 1W
21.9 W/kg ± 19.5 % (k=2)
Page7of1 6
Body TSL parameters at 5800 MHz
Th e fo II owm_g
. parame ers an d ca Icu Ia ions were app r1ed
Nominal Body TSL parameters
Measured Body TSL parameters
Body TSL temperature change during test
Temperature
Permittivity
Conductivity
22.0 °C
48.2
6.00 mho/m
(22.0 ± 0.2) °C
46.0 ± 6 %
6.23 mho/m ± 6 %
< 0.5 °C
----
----
SAR result with Body TSL at 5800 MHz
SAR averaged over 1 cm 3 (1 g) of Body TSL
Condition
SAR measured
SAR for nominal Body TSL parameters
SAR averaged over 10 cm 3 (10 g) of Body TSL
SAR measured
SAR for nominal Body TSL parameters
Certificate No: 05GHzV2-1040_Jun16
100 mW input power
7.58 W/kg
normalized to 1W
75.2 W/kg ± 19.9 % (k=2)
condition
100 mW input power
2.10 W/kg
normalized to 1W
20.8 W/kg ± 19.5 % (k=2)
Page 8 of 16
Appendix (Additional assessments outside the scope of SCS 0108)
Antenna Parameters with Head TSL at 5200 MHz
Impedance , transformed to feed point
50.2 Q - 8.5 jQ
Return Loss
- 21.4 dB
Antenna Parameters with Head TSL at 5300 MHz
Impedance, transformed to feed point
47.8 Q - 3.3 jQ
Return Loss
- 27.8 dB
Antenna Parameters with Head TSL at 5500 MHz
Impedance, transformed to feed point
50.0 Q - 5.9 jQ
Return Loss
- 24.6 dB
Antenna Parameters with Head TSL at 5600 MHz
Impedance, transformed to feed point
56.4 Q - 3.3 jQ
Return Loss
- 23.3 dB
Antenna Parameters with Head TSL at 5800 MHz
Impedance, transformed to feed point
54.3 Q - 2.3 jQ
Return Loss
- 26.6 dB
Antenna Parameters with Body TSL at 5200 MHz
Impedance, transformed to feed point
50.7 Q - 7.0 jQ
- 23.2 dB
Return Loss
Antenna Parameters with Body TSL at 5300 MHz
Impedance, transformed to feed point
48.6 Q - 1.6 jQ
- 33.4 dB
Return Loss
Antenna Parameters with Body TSL at 5500 MHz
50.3 Q - 4.4 jQ
Impedance , transformed to feed point
Return Loss
Certificate No: D5GHzV2-1040_Jun1 6
- 27.2 dB
Page 9 of 16
Antenna Parameters with Body TSL at 5600 MHz
Impedance, transformed to feed point
57.9 Q - 2.3 jQ
Return Loss
- 22.4 dB
Antenna Parameters with Body TSL at 5800 MHz
Impedance, transformed to feed point
54.6 Q - 0.7 jQ
Return Loss
- 27.0 dB
General Antenna Parameters and Design
Electrical Delay (one direction)
1.203 ns
After long term use with 1OOW radiated power, only a slight warming of the dipole near the feedpoint can be measured.
The dipole is made of standard semi rigid coaxial cable. The center conductor of the feeding line is directly connected to the
second arm of the dipole. The antenna is therefore short-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
feedpoint may be damaged.
Additional EUT Data
Manufactured by
SPEAG
Manufactured on
December 30, 2005
Certificate No: D5GHzV2-1040_Jun 16
Page 10 of 16
DASY5 Validation Report for Head TSL
Date: 17.06.2016
Test Laboratory: SPEAG, Zurich, Switzerland
DUT: Dipole D5GHzV2; Type: D5GHzV2; Serial: D5GHzV2 - SN: 1040
Communication System: UID O - CW; Frequency: 5200 MHz, Frequency: 5300 MHz, Frequency: 5500
MHz, Frequency: 5600 MHz, Frequency: 5800 MHz
Medium parameters used: f = 5200 MH z; 0 = 4.54 Sim; Er= 34.8; p = 1000 kglm 3 , Medium parameters
used: f = 5300 MHz; 0 = 4.64 Sim; Er = 34.6; p = 1000 kglm 3 , Medium parameters used: f = 5500 MHz; 0 =
4.83 Sim; Er= 34.3; p = 1000 kglm 3 , Medium parameters used: f = 5600 MHz; 0 = 4.93 Sim; Er= 34.2; p =
1000 kglm 3 , Medium parameters used: f = 5800 MHz; 0 = 5.14 Sim; Er= 33.9; p = 1000 kglm 3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEEIIECIANSI C63.J9-201 l)
DASY52 Configuration:
•
Probe: EX3DV4 - SN3503; ConvF(5.59, 5.59, 5.59); Calibrated: 31.12.2015, ConvF(5.25, 5.25,
5.25); Calibrated: 31.12.2015, ConvF(5.l8, 5.18, 5.18); Calibrated: 31.12.2015, ConvF(4.99, 4.99,
4.99); Calibrated: 31.12.2015, ConvF(4.95, 4.95, 4.95); Calibrated: 31.12.2015;
•
Sensor-Surface: 1.4mm (Mechanical Surface Detection)
•
Electronics: DAE4 Sn601 ; Calibrated: 30.12.2015
•
Phantom: Flat Phantom 5.0 (front); Type: QD000P50AA; Serial: 1001
•
DASY52 52.8.8(1258); SEMCAD X 14.6.10(7372)
Dipole Calibration for Head Tissue/Pin=lOOmW, dist=lOmm, f=5200 MHz/Zoom Scan,
dist=l.4mm (8x8x7)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz=l.4mm
Reference Value= 70.41 Vim ; Power Drift= -0.04 dB
Peak SAR (extrapolated)= 27.7 Wlkg
SAR(l g) =7.68 Wlkg; SAR(lO g) = 2.21 W/kg
Maximum value of SAR (measured)= 17.3 W/kg
Dipole Calibration for Head Tissue/Pin=lOOmW, dist=lOmm, f=5300 MHz/Zoom Scan,
dist=l.4mm (8x8x7)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz=l.4mm
Reference Value = 72.35 VIm; Power Drift = -0.09 dB
Peak SAR (extrapolated)= 30.6 Wlkg
SAR(l g) = 8.24 W/kg; SAR(lO g) = 2.36 W/kg
Maximum value of SAR (measured) = 18.8 Wlkg
Dipole Calibration for Head Tissue/Pin=lOOmW, dist=lOmm, f=5500 MHz/Zoom Scan,
dist=l.4mm (8x8x7)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz=l.4mm
Reference Value= 70.02 Vim; Power Drift= -0.09 dB
Peak SAR (extrapolated)= 30.8 Wlkg
SAR(l g) =7.93 W/kg; SAR(lO g) = 2.26 W/kg
Max imum value of SAR (measured)= 18.5 Wlkg
Certificate No: D5GHzV2-1040_Jun1 6
Page 11 of 16
Dipole Calibration for Head Tissue/Pin=lOOmW, dist=lOmm, f=5600 MHz/Zoom Scan,
dist=l.4mm (8x8x7)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz=l.4mm
Reference Value= 71.08 V/m; Power Drift= -0.06 dB
Peak SAR (extrapolated)= 31.5 W/kg
SAR(l g) =8.12 W/kg; SAR(lO g) =2.32 W/kg
Maximum value of SAR (measured) = 19.0 W/kg
Dipole Calibration for Head Tissue/Pin=lOOmW, dist=lOmm, f=5800 MHz/Zoom Scan,
dist=l.4mm (8x8x7)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz= 1.4mm
Reference Value= 67.92 V/m ; Power Drift= -0.07 dB
Peak SAR (extrapolated)= 31.4 W/kg
SAR(l g) =7.66 W/kg; SAR(lO g) =2.19 W/kg
Maximum value of SAR (measured) = 18.4 W /kg
dB
-5.00
-10.00
-15.00
-20.00
-25.00
0 dB= 17.3 W/kg = 12.38 dBW/kg
Certificate No: D5GHzV2-1040_Jun 16
Page 12 of 16
Impedance Measurement Plot for Head TSL
[!ill S11
1 U FS
1 : 50. 234 f1
- ---.-- ·-.
-8.5449 !'I
_.-·
17 Jun 20H, 15:44: 03
3 .5819 pF
S 200. 000 000 MHz
Del
~-,
~\
Cor
CH1 Markers
2 : 47. 8 2 0 !'I
-3.3457 n
5. 3 0000 GHz
J;;~'
3 : 49. 994 !'I
- 5. 8 750 n
5.50000 GHz
-- -I
4 : 5E.. 4 3 6 n
-3.2754 !'I
5. 60000 GHz
5 : 54.309 !'I
- 2. 3 008 !'I
5.80000 GHz
Hid
CH2
S 11
LOG
5 d B/ REF - 2 0 d B
1' - 21 420 dB · -.----'
5 200 0 00 000 MH z
1--
Cor
2:- 27. 827 dB
5. 3 0000 GH z
,.,
-~
'\
I~
i'
--...
tr
,,,,,---
3 :-2 4. 646 dB
5 . 50000 GH z
4 :- 23, 345 dB
5. E.000 0 GH z
5 :-2&. E.10 dB
5. 80000 GH z
Hld
--
START 5 000. 000 000 MHz
Certificate No: D5GHzV2-1040_Jun16
CH2 Markers
S TOP E, 000.000 000 MHz
Page 13 of 16
DASYS Validation Report for Body TSL
Date: 16.06.2016
Test Laboratory: SPEAG, Zurich, Switzerland
OUT: Dipole D5GHzV2; Type: D5GHzV2; Serial: D5GHzV2 - SN: 1040
Communication System: UID O - CW; Frequency: 5200 MHz, Frequency: 5300 MHz, Frequency: 5500
MHz, Frequency: 5600 MHz, Frequency: 5800 MHz
Medium parameters used: f = 5200 MHz; cr = 5.41 Sim; Er= 47 .1; p = 1000 kglm 3 , Medium parameters
used: f = 5300 MHz; cr = 5.53 Sim; Er = 46.9; p = 1000 kglm3 , Medium parameters used: f = 5500 MHz; cr =
5.8 Sim; er = 46.5; p = 1000 kglm 3 , Medium parameters used: f = 5600 MHz; cr = 5.95 Sim; Er= 46.3; p =
1000 kglm 3 , Medium parameters used: f = 5800 MHz; cr = 6.23 Sim; Er= 46; p = 1000 kglm 3
Phantom section: Flat Section
Measurement Standard: DASY5 (IEEEIIECI ANSI C63. l 9-20 l l)
DASY52 Configuration:
•
Probe: EX3DV4 - SN3503; ConvF(4.99, 4.99, 4.99); Calibrated: 31.12.2015, ConvF(4.75, 4.75 ,
4.75); Calibrated: 3 l. l 2.2015, ConvF(4.4, 4.4, 4.4); Calibrated: 31.12.2015, ConvF(4.35, 4.35, 4.35);
Calibrated: 31.12.2015, ConvF(4.27, 4.27, 4.27); Calibrated: 31. 12.2015 ;
•
Sensor-Surface: 1.4mm (Mechanical Surface Detection)
•
Electronics: DAE4 Sn601; Calibrated: 30.12.2015
•
Phantom: Flat Phantom 5.0 (back); Type: QDOOOP50AA; Serial: 1002
•
DASY52 52.8.8(1258); SEMCAD X 14.6.10(7372)
Dipole Calibration for Body Tissue/Pin=lOOmW, dist=lOmm, f=5200 MHz/Zoom Scan,
dist=l.4mm (8x8x7)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz= 1.4mm
Reference Value= 66.34 Vim; Power Drift= -0.03 dB
Peak SAR (extrapolated)= 27.4 Wlkg
SAR(l g) = 7.35 W/kg; SAR(lO g) = 2.07 W/kg
Maximum value of SAR (measured)= 16.8 Wlkg
Dipole Calibration for Body Tissue/Pin=lOOmW, dist=lOmm, f=5300 MHz/Zoom Scan,
dist=l.4mm (8x8x7)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz=l.4mm
Reference Value= 68.02 Vim; Power Drift= -0.04 dB
Peak SAR (extrapolated)= 29.2 Wlkg
SAR(l g) = 7.7 W/kg; SAR(lO g) = 2.16 W/kg
Maximum value of SAR (measured)= 17.6 Wlkg
Dipole Calibration for Body Tissue/Pin=lOOmW, dist=lOmm, f=SSOO MHz/Zoom Scan,
dist=l.4mm (8x8x7)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz= 1.4mm
Reference Value= 67.81 Vim; Power Drift= -0.04 dB
Peak SAR (extrapolated) = 31.7 Wlkg
SAR(l g) = 7.92 W/kg; SAR(lO g) = 2.19 W/kg
Maximum value of SAR (measured) = 18.6 W/kg
Certificate No: D5GHzV2-1040_Jun16
Page 14 of 16
Dipole Calibration for Body Tissue/Pin=lOOmW, dist=lOmm, f=5600 MHz/Zoom Scan,
dist=l.4mm (8x8x7)/Cube 0: Measurement grid: dx=4mm, dy=4mm, dz= 1.4mm
Reference Value= 67.28 V/m; Power Drift= -0.03 dB
Peak SAR (extrapolated)= 32.5 W/kg
SAR(l g) = 7.9 W/kg; SAR(lO g) = 2.21 W/kg
Maximum value of SAR (measured)= 18.6 W/kg
Dipole Calibration for Body Tissue/Pin=lOOmW, dist=lOmm, f=5800 MHz/Zoom Scan,
dist=l.4mm (8x8x7)/Cube 0: Measurement grid: dx=4mm , dy=4mm, dz= 1.4mm
Reference Value= 65.14 V/m; Power Drift= -0.03 dB
Peak SAR (extrapolated)= 32.9 W/kg
SAR(l g) = 7.58 W/kg; SAR(lO g) = 2.1 W/kg
Maximum value of SAR (measured) = 18.3 W/kg
dB
-5. 00
-10.00
-15.00
-20.00
-25.00
0 dB= 16.8 W/kg = 12.25 dBW/kg
Certificate No: D5GHzV2-1040_Jun16
Page 15 of 16
Impedance Measurement Plot for Body TSL
IIBIJ
S:11
1 U FS
1: 50.721 n
-6.9512 n
-r- -
16 Jun 2016 11:16:04
4.4031 pF
5 200.000 000 MHz
CH1 Markers
Del
- l --
2: 48.635 n
-1. 5 93 8 n
5.30000 GHz
Cor·
Avg
.J
~~
3: 5 0.26€, n
-4. 3613 (t
5.50000 GHz
-- JI
16
4: 57.877 n
- 2 . 3262 n
5.60000 GHz
5: 54. 607 n
-716.80 mn
5.80000 GHz
--
Hld
CH2
S11
LO G
5 dB/ REF - 2 0 dB
1·-23 194 d B
--+I
Cor
~ J.~ __ , J
5 200 0 00 0 00 MH z
CH 2 Mar k ers
2:-33. 441 d B
5. 3 000 0 GH z
--........ 7'--,.
Av9
16
II
'---l. ~
_L-,
_l.
' "- / ,
r"
2j
Hid
_J_
STA RT 5 000. 000 000 MHz
Certificate No: D5GHzV2-1040_Jun1 6
STOP
Page 16 of 16
E,
000. 000 000 MHz
3:- 27. 221 dB
5. 5000 0 GHz
4:-22.36 7 dB
5. 60000 GHz
5:- 27. 021 dB
5.80 0 00 GHz
Calibration Laboratory of
Schmid & Partner
Engineering AG
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
Client
Auden
Certificate No:
DAE4-679_Jun16
CALIBRATION CERTIFICATE
Object
DAE4 - SD 000 D04 BM - SN: 679
Calibration procedure(s)
QA CAL-06.v29
Calibration procedure for the data acquisition electronics (DAE)
Calibration date:
June 13, 2016
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
Keithley Multimeter Type 2001
\ SN: 0810278
Cal Date (Certificate No.)
Scheduled Calibration
09-Sep-1 5 (No:17153)
Sep-16
Secondary Standards
ID#
Check Date (in house)
Scheduled Check
Auto DAE Calibration Unit
SE UWS 053 AA 1001
05-Jan-1 6 (in house check)
In house check: Jan-17
Calibrator Box V2.1
SE UMS 006 AA 1002
05-Jan-16 (in house check)
In house check: Jan-17
Name
Function
Calibrated by:
Dominique Steffen
Technician
Approved by:
Fin Bomholt
Signature
Deputy Technical Manager
Issued: June 13, 2016
This calibration certificate shall not be reproduced except in full without written approval of the laboratory.
Certificate No: DAE4-679_Jun16
Page 1 of 5
Calibration Laboratory of
Schmid & Partner
Engineering AG
Zeughausstrasse 43, 8004 Zurich , Switzerland
Schweizerischer Kalibrierdienst
Service suisse d 'etalonnage
Servizio svizzero di taratura
Swiss Calibration Service
Accreditation No.:
Accred ited 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
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: DAE4-679_Jun16
Page 2 of 5
DC Voltage Measurement
AID - Converter Resolution nominal
HighRange :
1LSB =
6.1µV ,
fullrange = -100 ... +300mV
Low Range:
1LSB =
61nV ,
full range= -1.. ..... +3mV
DASY measurement parameters: Auto Zero Time: 3 sec; Measuring time : 3 sec
High Range
404.367 ± 0 .02% (k=2)
404 .846 ± 0.02% (k=2)
404.897
± 0.02% (k=2)
Low Range
3.96978 ± 1.50% (k=2)
3.95628 ± 1.50% (k=2)
3 .96167
± 1.50%
Calibration Factors
(k=2)
Connector Angle
292.5 ° ± 1 °
Connector Angle to be used in DASY system
Certificate No: DAE4-679_Jun1 6
Page 3 of 5
Appendix (Additional assessments outside the scope of SCS0108)
1. DC Vo It age L'meantv
High Range
Reading (µV)
Difference (µV)
Error(%)
ChannelX
+ Input
199999.89
4 .32
0.00
ChannelX
+ Input
20004.79
3.20
0.02
ChannelX
- Input
-19997.83
2.62
-0.01
ChannelY
+ Input
200000.30
4.81
0.00
ChannelY
+ Input
20003.39
1.96
0.01
ChannelY
- Input
-20000.30
0.23
-0.00
ChannelZ
+ Input
199996.45
0.91
0.00
ChannelZ
+ Input
20000.13
-1.30
-0.01
ChannelZ
- Input
-20001.47
-0.67
0.00
Reading (µV)
Difference (µV)
Low Range
Error(%)
ChannelX
+ Input
2002.81
1.49
0.07
ChannelX
+ Input
202.44
0.57
0.28
ChannelX
- Input
-197.34
0.73
-0.37
ChannelY
+ Input
2002.06
0.73
0.04
ChannelY
+ Input
202.62
0 .90
0.45
ChannelY
- Input
-198.41
-0.31
0.16
ChannelZ
+ Input
2000.75
-0.45
-0.02
ChannelZ
+ Input
201 .64
-0.04
-0.02
ChannelZ
- Input
-199.1 3
·0.90
0.46
2. Common mode sensitivity
DASY measurement parameters: Auto Zero Time: 3 sec; Measurinq time: 3 sec
Common mode
Input Voltage (mV)
ChannelX
ChannelY
Channel Z
High Range
Average Reading (µV)
Low Range
Average Reading (µV)
200
4.69
3.62
- 200
-1.22
-2.72
200
5.25
5.14
- 200
-4.96
-5.39
200
-3.80
-4.43
- 200
1.97
1.58
3. Channel separation
DAs Y measurement parameters: Auto Zero Time: 3 sec; Measuring time: 3 sec
Input Voltage (mV)
Channel X (µ V)
Channel Y (µ V)
Channel Z (µV)
ChannelX
200
-0.39
-2.04
ChannelY
200
7.70
-0.1 7
ChannelZ
200
7. 19
5.46
Certificate No: DAE4-679_Jun1 6
Page 4 of 5
4. AD-Converter Values with inputs shorted
DASY measurement parame ters: A uo
t Zero T,me: 3 sec; Measunng ,me: 3 sec
High Range (LSB)
Low Range (LSB)
ChannelX
16168
16943
ChannelY
15459
17452
ChannelZ
16058
16102
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
(µV)
ChannelX
0.09
-1.13
2.10
0.48
ChannelY
-0.14
-1 .97
1.85
0.74
ChannelZ
-0.95
-2.03
0.11
0.49
6. Input Offset Current
Nominal Input circuitry offset current on all channels: <25fA
7. I nput Res1stance
(Typical values for information)
Zeroing (kOhm)
Measuring (MOhm)
ChannelX
200
200
ChannelY
200
200
ChannelZ
200
200
8. Low Batterv Al arm VI
o taqe
(Typical values for information)
Alarm Level (VDC)
Typical values
Supply(+ Vee)
+7.9
Supply (- Vee)
-7.6
9. p ower C onsump 10n (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: DAE4-679_Jun 16
Page 5 of 5
Calibration Laboratory of
Schmid & Partner
Engineering AG
Zeughausstrasse 43, 8004 Zurich, Switzerland
Schweizerischer Kalibrierdienst
Service suisse d'etalonnage
Servizio svizzero di taratura
Swiss Calibration Service
Accreditatio n 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
Client
Certificate No:
Sporton -TW (Auden)
DAE3-577_Sep1 6
!CALIBRATION CERTIFICATE
Object
DAE3 - SD 000 0 03 AA - SN: 577
Calibration procedure(s)
QA CAL-06. v29
Calibration procedure for the data acquisition electronics (DAE)
Calibration date:
September 28, 2016
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
Keithley Multimeter Type 2001
I SN: 0810278
Cal Date (Certificate No.)
Scheduled Calibration
09-Sep-16 (No:19065)
Sep-17
Secondary Standards
ID#
Check Date (in house)
Scheduled Check
Auto DAE Calibration Unit
SE UWS 053 AA 1001
05-Jan-16 (in house check)
In house check: Jan-17
Calibrator Box V2.1
SE UMS 006 AA 1002 05-Jan-16 (in house check)
In house check: Jan-17
Name
Function
Calibrated by:
Eric Hainfeld
Technician
Approved by:
Fin Bomholt
Signature
~~
Deputy Technical Manager
Issued: September 28, 2016
This calibration certificate shall not be reproduced except in full without written approval of the laboratory.
Certificate No: DAE3-577_Sep16
Page 1 of 5
Calibration Laboratory of
Schmid & Partner
Engineering AG
Schweizerischer Kalibrierdienst
Servizio svizzero di taratura
Zeughausstrasse 43, 8004 Zurich, Switzerland
Service suisse d'etalonnage
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
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: DAE3-577_Sep16
Page 2 of 5
DC Voltage Measurement
AID - Converter Resolution nominal
6.1µV,
full range= -100 ... +300 mV
High Range:
1LSB =
61 nV ,
full range = -1.... ... +3mV
Low Range:
1LSB =
DASY measurement parameters: Auto Zero Time: 3 sec; Measuring time: 3 sec
High Range
403.533 ± 0.02% (k=2)
403.512 ± 0.02% (k=2)
403.819 ± 0.02% (k=2)
Low Range
3.92648 ± 1.50% (k=2)
3.94206 ± 1.50% (k=2)
3.96074 ± 1.50% (k=2)
Calibration Factors
Connector Angle
190.0 ° ± 1 °
Connector Angle to be used in DASY system
Certificate No: DAE3-577_Sep16
Page 3 of 5
Appendix (Additional assessments outside the scope of SCS0108)
1. DC Voltaae Linearity
High Range
Reading (µV)
Difference (µV)
Error(%)
ChannelX
+ Input
200038.14
2 .56
0 .00
ChannelX
+ Input
2001 0.51
5.45
0.03
ChannelX
- Input
-20002.01
3.17
-0.02
ChannelY
+ Input
200032.33
-3.18
-0.00
ChannelY
+ Input
20006.38
1.35
0.01
ChannelY
- Input
-20004.73
0.65
-0.00
Channel l
+ Input
200031.49
-4.11
-0.00
Channel l
+ Input
20005.92
0 .98
0.00
Channel l
- Input
-20007.03
-1.64
0.01
Reading (µV)
Difference (µV)
Low Range
Error(%)
Channel X
+ Input
2001.00
-0.10
-0.01
ChannelX
+ Input
201.47
0.40
0.20
ChannelX
- Input
-198.57
0.28
-0. 14
ChannelY
+ Input
2001 .38
0.31
0.02
ChannelY
+ Input
200.40
-0.54
-0.27
ChannelY
- Input
-199.63
-0.73
0.37
Channel l
+ Input
2000.35
-0.56
-0.03
Channel l
+ Input
199.97
-0.93
-0.46
Channel l
- Input
-200.50
-1.56
0.79
2. Common mode sensitivity
DASY measurement parameters: A uto Zero T ime: 3 sec; M easunnq time: 3 sec
Common mode
Input Voltage (mV)
ChannelX
ChannelY
Channell
High Range
Average Reading (µV)
Low Range
Average Reading (µV)
200
-2.76
-4.30
- 200
6.04
3.73
200
-14.29
-14.35
- 200
12.74
12.77
200
3.10
2.81
- 200
-5.90
-5.65
3. Channel separation
DASY measurement parameters: Auto Zero Time: 3 sec; Measuring time: 3 sec
Input Voltage (mV)
Channel X (µV)
Channel Y (µV)
Channel l (µV)
Channel X
200
-1 .07
-3.44
ChannelY
200
8.43
0.12
Channel Z
200
5.44
4.83
Certificate No: DAE3-577_Sep16
Page 4 of 5
4. AD-Converter Values with inputs shorted
DASY measurement parameters: A uto Z ero T,me: 3 sec; Measunng time: 3 sec
High Range (LSB)
Low Range (LSB)
ChannelX
16132
16062
ChannelY
16099
16321
Channel Z
161 16
15372
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
(11V)
ChannelX
0.37
-1.07
1.49
0.43
ChannelY
1.21
-0.41
3.21
0.59
ChannelZ
-1.38
-2.63
-0.30
0.45
6. Input Offset Current
Nominal Input circuitry offset current on all channels: <25fA
7. Input Res1stance (Typical values for information)
Zeroing (kOhm)
Measuring (MOhm)
Channel X
200
200
ChannelY
200
200
ChannelZ
200
200
8. Low Batterv Alarm Vo tage
Typical values
(Tvpical values for information)
Alarm Level (VDC)
Supply(+ Vee)
+7.9
Supply (- Vee)
-7.6
9. Power Consumotion (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: DAE3-577_Sep1 6
Page 5 of 5
Calibration Laboratory of
Schmid & Part ner
Engineering AG
Zeugh ausstr asse 43, 8004 Zurich, Switze rland
Accred ited by the Swiss Accreditation Servic e
(SAS)
The Swiss Accreditation Service is one of the
signatories to the EA
Multilateral Agreement for the recogn ition of
calibration certificates
Client
Auden
Schweizerischer Kalibrierdienst
Servic e suisse d'etalonnage
Servizio svizzero di taratura
Swiss Calibration Servic e
Accre ditatio n No.:
Certificate No:
SCS 0108
EX3- 3820 _Jun 16
CALIBRATION CERTIFICATE
Object
EX3DV4 - SN:3820
Calibration proced ure(s)
QA CAL-01 .v9, QA CAL-14.v4 , QA CAL-23.v5 ,
QA CAL-25.v6
Calibration procedure for dosimetric E-field probe
Calibra tion date:
June 27, 2016
This calibration certific ate docum ents the traceab
ility to national standa rds, which realize the physic
al units of measu remen ts (SI).
The measu remen ts and the uncertainties with
confide nce probability are given on the followin
g pages and are part of the certificate.
All calibrations have been conduc ted in the closed
labora tory facility : enviro nment temperature
(22 ± 3)°C and humidi ty < 70%.
Calibra tion Equipm ent used (M& TE critical for
calibration)
Primary Standa rds
Power meter NRP
Power sensor NRP-Z91
Power sensor NRP-Z91
Reference 20 dB Attenu ator
Reference Probe ES3DV 2
DAE4
ID
SN: 104778
SN: 103244
SN: 103245
SN: S5277 (20x)
SN : 3013
SN: 660
Secon dary Standa rds
10
Power meter E4419 B
SN : GB41293874
Power senso r E441 2A
Power sensor E4412 A
RF genera tor HP 8648C
SN: 000110 210
SN: US364 2U017 00
Networ k Analyz er HP 8753E
SN: US37390585
Calibrated by:
Approv ed by:
SN: MY414 98087
Cal Date (Certificate No.)
06-Apr -16 (No. 217-02288/02289)
06-Apr -16 (No. 217-02 288)
06-Apr-16 (No. 217-02289)
05-Apr -16 (No. 217-02293)
Apr-17
Apr-17
Apr-17
31-Dec -15 (No. ES3-3013 Oec15)
23-Dec -15 (No. DAE4-660 Dec15}
Dec-16
Check Date (in house)
06-Apr -16 (in house check Jun-16)
06-Apr - 16 (in house check Jun-16 )
Sched uled Check
In house check: Jun-18
In house check: Jun-18
06-Apr -16 (in house check Jun-16 )
04-Aug -99 (in house check Jun-16)
18-0ct- 01 (in house check Oct-15}
In house check: Jun-18
In house check: Jun- 18
Name
Function
Jeton Kastrati
Labora tory Techn ician ~
Katja Pokovi c
Technical Manag er
Page 1 of 38
Dec-16
In house check: Oct-16
Signat ure
~~
This calibration certificate shall not be reproduced
except in full without written approv al of the laborat
ory.
Certificate No: EX3-3820_J un16
Sched uled Calibration
Apr-17
Issued : June 28, 2016
Calibration Laboratory of
Schmid & Partner
Engineering AG
Zeughausstrasse 43, 8004 Zurich , Switzerland
Accredited by the Swiss Accred itation Service (SAS)
The Swiss Accred itation Service is one of the signato
ries to the EA
Multila teral Agreem ent for the recogn ition of calibra
tion certific ates
Schweizerischer Kalibrierdienst
Service suisse d'etalonnage
Servizio svizzero di taratura
Swiss Calibration Service
Accred itation No. :
SCS 0108
Glossary :
TSL
NORM x,y,z
ConvF
DCP
CF
A , B,C, D
Polari zation q>
Polari zation 3
Conne ctor Angle
tissue simula ting liquid
sensit ivity in free space
sensit ivity in TSL / NORM x,y,z
diode compr ession point
crest factor (1 /duty_ cycle) of the RF signal
modu lation depen dent linear ization param eters
q> rotatio n aroun d probe axis
3 rotatio n aroun d an axis that is in the plane norma
l to probe axis (at meas ureme nt center ),
i.e., 3 = 0 is norma l to probe axis
inform ation used in DASY system to align probe
senso r X to the robot coord inate system
Calibration is Performed According to the Follo
wing Standards:
a)
b)
c)
d)
IEEE Std 1528- 2013, "IEEE Recom mend ed Practi
ce for Deter mining the Peak Spatia l-Aver aged Speci
fic
Absor ption Rate (SAR) in the Huma n Head from
Wirele ss Comm unicat ions Devices: Meas ureme
nt
Techn iques", June 2013
IEC 62209-1 . "Proce dure to meas ure the Speci fic
Absor ption Rate (SAR) for hand- held device s used
in close
proxim ity to the ear (frequ ency range of 300 MHz
to 3 GHz)" , Febru ary 2005
IEC 62209 -2, "Proce dure to determ ine the Speci
fic Absor ption Rate (SAR) for wirele ss comm unicat
ion device s
used in close proxim ity to the huma n body (frequ
ency range of 30 MHz to 6 GHz)" , March 2010
KDB 86566 4, "SAR Measu remen t Requi remen ts
for 100 MHz to 6 GHz"
Methods Applied and Interpretation of Paramete
rs:
•
•
•
•
•
•
•
•
•
NORM x,y,z: Asses sed for E-field polariz ation 3 =
0 (f ~ 900 MHz in TEM-c ell; f > 1800 MHz: R22 waveg uide).
NORM x,y,z are only interm ediate values , i.e., the
uncer taintie s of NORM x,y,z does not affect the E 2
-field
uncer tainty inside TSL (see below ConvF) .
NORM (f)x,y, z = NORM x,y,z • freque ncy_re spons e
(see Frequ ency Respo nse Chart) . This linear ization
is
implem ented in DASY 4 softwa re versio ns later than
4.2. The uncer tainty of the freque ncy respo nse is
included
in the stated uncer tainty of ConvF.
DCPx,y,z: DCP are numer ical lineari zation param
eters asses sed based on the data of power sweep
with CW
signal (no uncer tainty requir ed) . DCP does not depen
d on freque ncy nor media.
PAR: PAR is the Peak to Avera ge Ratio that is not
calibr ated but determ ined based on the signal
chara cterist ics
Ax,y,z; Bx,y,z; Cx,y,z ; Ox,y,z; VRx,y, z: A, 8 , C, Dare
nume rical linear ization param eters asses sed based
on
the data of power sweep for specif ic modu lation
signal . The param eters do not depen d on freque
ncy nor
media . VR is the maxim um calibra tion range expre
ssed in RMS voltag e across the diode .
ConvF and Bound ary Effect Param eters: Asses sed
in flat phant om using E-field (or Temp eratur e Trans
fer
Stand ard for f $; 800 MHz) and inside waveg uide
using analyt ical field distrib utions based on power
measu remen ts for f > 800 MHz. The same setups
are used for asses smen t of the param eters applie
d for
bound ary compe nsatio n (alpha, depth ) of which typica
l uncer tainty values are given. These param eters
are
used in DASY 4 softwa re to impro ve probe accur
acy close to the bound ary. The sensit ivity in TSL
corres ponds
to NORMx,y,z • ConvF where by the uncer tainty corres
ponds to that given for ConvF. A freque ncy depen
dent
ConvF is used in DASY versio n 4.4 and highe r which
allows extend ing the validit y from ± 50 MHz to ±
100
MHz.
Spherical isotro py (30 deviation from isotropy) : in
a field of low gradie nts realized using a flat phant
om
expos ed by a patch anten na.
Senso r Offset : The senso r offset corres ponds to the
offset of virtua l measu remen t cente r from the probe
tip
(on probe axis). No tolera nce requir ed .
Conne ctor Angle : The angle is asses sed using the
inform ation gaine d by determ ining the NORM x (no
uncer tainty requir ed).
Certificate No: EX3-3820_Jun16
Page 2 of 38
EX3DV4 - SN:382 0
June 27 . 2016
Probe EX3DV4
SN:3820
Manufactured:
Calibrated:
September 2, 2011
June 27, 2016
Calibrated for DASY/EASY Systems
(Note: non-compatible with DASY2 system !)
Certifica te No: EX3-3820_Jun16
Page 3 of 38
EX3DV4- SN:38 20
June 27, 2016
DASY/EASY - Parameters of Probe: EX3DV4
- SN:3820
Basic Calibration Parameters
Norm (uV/(V/m)'Lt
DCP (mV) "
Senso r X
Senso r Y
0.43
101 .2
Senso r Z
Unc (k=2)
0.48
97.3
0.49
95.3
± 10.1 %
Modulation Calibration Parameters
UID
Communication System Name
cw
Note: For details on UID parameters see Appe
ndix.
Sens or Model Parameters
C1
C2
ff
53.59
54.13
61.28
ff
401 .9
407.2
473.5
T1
dB
0.0
0.0
0 .0
T2
dBv'µV
0.0
0.0
0.0
T3
v-,
ms.v-2
ms.v- 1
35.94
36.33
37.6
ms
14.39
11
7.012
1.148
1.06
1.239
4.979
5.036
5.1
dB
VR
mV
Uncc:
(k=2)
1.0
1.0
1.0
0.00
148.5
134.3
135.9
±3.8 %
T4
v-2
0.834
0.269
0.2
TS
T6
0.475
0.444
0.481
1.005
1.006
1.017
v-,
The reported uncertainty of measurement is state
multiplied by the coverage factor k=2, which for d as the standard uncertainty of measurement
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 linearization parameter: uncerta inty
not required.
e Uncertainty is determ ined using the max. deviati
on from linear respon se applying rectangular distribu
tion and is expres sed for the square of the
field value.
Certifi cate No: EX3-3820_Jun16
Page 4 of 38
EX3DV4- SN:382 0
June 27, 2016
DASY/EASY - Parameters of Probe: EX3DV4 - SN:3820
Calibration Parameter Determined in Head T.issue Simulating
Media
f (MHz) c
Relative
Permitt ivity F
Conduc tivity
(Sim) F
ConvF X
ConvF Y
ConvF Z
Aloha a
Depth c;
(mm)
Unc
(k=2)
750
41 .9
0.89
9.42
9.42
9.42
0.34
1.06
± 12.0 %
835
41.5
0.90
9.00
9.00
9.00
0.47
0.80
± 12.0 %
900
41.5
0.97
8.88
8.88
8.88
0.37
0.95
+ 12.0 %
1450
40.5
1.20
8.37
8.37
8.37
0.32
0.80
+ 12.0 %
1750
40.1
1.37
7.95
7.95
7.95
0.30
0.80
+ 12.0 %
1900
40.0
1.40
7.80
7.80
7.80
0.32
0.85
± 12.0 %
2000
40.0
1.40
7.74
7.74
7.74
0.34
0.84
± 12.0 %
2450
39.2
1.80
6.78
6.78
6.78
0.2 1
1.17
+ 12.0 %
2600
39.0
1.96
6.49
6.49
6.49
0.25
1.26
+ 12.0 %
5200
36.0
4.66
4.66
4.66
4.66
0.40
1.80
± 13.1 %
5300
35.9
4 .76
4.4 1
4.41
4.41
0.45
1.80
± 13.1 %
5500
35.6
4 .96
4.32
4.32
4.32
0.45
1.80
+ 13.1 %
5600
35.5
5.07
4.14
4.14
4.14
0.50
1.80
+ 13.1 %
5800
35.3
5.27
4.14
4.14
4 .14
0.50
1.80
+ 13.1 %
c Frequen cy 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.
Frequen cy validity
below 300 MHz is± 10, 25, 40, 50 and 70 MHz for ConvF assessm
ents 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
(c and cr) can be relaxed to ± 10% if liquid compensation formula
is applied to
measure d SAR values. At frequencies above 3 GHz, the validity
of tissue parameters (E and o) is restricted to± 5%. The uncertain
ty is the RSS of
the ConvF uncertainty for indicated target tissue parameters.
G Alpha/De pth are determin ed during calibratio
n. SPEAG warrants that the remaining deviation due to the boundary
effect after compens ation 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 boundar y.
Certificate No: EX3-3820_Jun16
Page 5 of 38
EX3DV 4- SN:382 0
June 27 , 2016
DASY/EASY - Parameters of Probe: EX3DV4 - SN:382
Calibration Parameter Determined in Body Tissue Simu
lating Media
f (MHz) c
Relativ e
Permit tivity F
Condu ctivity
(S/ml F
ConvF X
ConvF Y
ConvF Z
Aloha G
Depth G
Cmml
Unc
(k=2)
750
55.5
0.96
8.87
8.87
8.87
0.30
1.02
± 12.0 %
835
55.2
0.97
8.86
8.86
8.86
0.27
1.13
± 12.0 %
900
55.0
1.05
8.94
8.94
8.94
0.36
0.93
± 12.0 %
1450
54.0
1.30
8.02
8.02
8.02
0.28
0.80
± 12.0 %
1750
53 .4
1.49
7.65
7.65
7.65
0.39
0.82
± 12.0 %
1900
53.3
1.52
7.41
7.41
7.41
0. 19
1.30
± 12.0 %
2000
53.3
1.52
7.51
7.51
7.51
0.26
1.05
± 12.0 %
2450
52.7
1.95
6.79
6.79
6.79
0.38
0.93
± 12.0 %
2600
52.5
2.16
6.52
6.52
6.52
0.48
0.83
+ 12.0 %
5200
49.0
5.30
4.19
4.1 9
4.19
0.50
1.90
+ 13.1 %
5300
48.9
5.42
3.95
3.95
3.95
0.55
1.90
+ 13.1 %
5500
48.6
5.65
3.71
3.71
3.71
0.55
1.90
± 13.1 %
5600
48.5
5.77
3.54
3.54
3.54
0.55
1.90
+ 13.1 %
5800
48.2
6.00
3.70
3.70
3.70
0.60
1.90
± 13.1 %
c Frequen cy validity above 300 MHz of± 100 MHz only
applies for DASY v4.4 and higher (see Page 2). else it is
restricte d to± 50 MHz. The
uncertainty is the RSS of the ConvF uncertainty at calibrati
on frequency and the uncertainty for the indicated frequen
cy 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 respecti vely.
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 formula is applied to
measured SAR values. At frequencies above 3 G Hz, the
validity of tissue parame ters(~ and cr) is restricted to± 5%.
The uncerta inty is the RSS of
the ConvF uncertainty for indicated target tissue paramet
ers.
G Alpha/Depth are determi ned during calibrati
on. SPEAG warrants that the remaining deviation due to
the boundar y effect after compensation is
always less than ± 1% for frequencies below 3 GHz and
below ± 2% for frequencies between 3-6 GHz at any dista
nce larger than half the probe tip
diamete r from the boundary.
Certific ate No: EX3-38 20_Jun 16
Page 6 of 38
EX3DV4 - SN:382 0
June 27, 20 16
Frequency Response of E-Field
(TEM-Cell:ifi110 EXX, Wavegu ide: R22)
1.5
1.4 -· ...... ·-............ ·r ....... -.... -.-....... ·r' ... -... --....... ·-.... i..... -............ .... -~ ........-.-........... ~-................. .'
-.... ~-.....
.'
.'
''
..
..
..
············.············ ············
...
..:'
... ························..:'' ·····
.~
ro 1.2 ............................' .......... ..............''............................' ............ ..............' ..........................
. ..........................
...: ...
...
....
...
...
..'
...'
...
•.
•
...
.......
'i'
............
1.1
.......
)-..........
....... ··-j- ............ .......
.s
........ 1.3
"U
-·· ············ ············ ············ ·······-····
············ ······· ····-·······
(I)
'! . . ..... ...... (" .. ...........;......
(I)
1/)
a.
• f
>.
::J
O"
.......................~ ...................... +-··-· ................. :....................... :f...................... t .................... ']:' .... .
::
......... ............ ~ --- + ············ ·········-~· -····
0.8
LL
0.9
(I)
··-······-·· ···········!' ······ ············· ····~·-····· ···-·-······ ···!········· ···+
1/)
•
1.0
0.7
..
...
..
.......................r····-·······..·······-+··· .. ·················1 .. ··· ············ ······r·····
······· .. ···· .. ··j········· .. ············1·-····
..
. ................ -·-· ............
...................................... .............
........·- ...... -·- .............
............ -~
... ...... -- ... ...........
.. .
...
..
...
.. ······· ... ·t··· .... --... --.... ........ ....... ..---~ .....·····-· ·········1····....... ·-. . ..... f. . ..
0.6
0.5 + - -.L._L.. ....J~-L -...L....J _-,--.L- J'---l.--- ,--'--'--. ..,__.,___ __,_-L_
,_-+-... J_-.L.-'----;---'-'
500
1000
1500
2000
2500
3000
f [MHz]
...!J
TEM
R22
Uncertainty of Frequency Response of E-field : ± 6.3% (k=2)
Certificate No: EX3-3820_Jun16
Page 7 of 38
EX30V4 - SN:3820
June 27, 2016
Receiving Pattern (ct>), 3 = 0°
f=600 MHz,TEM
f=1800 MHz,R22
13:'.">
... .
,ac
·· a ~ o . :
. ,.
225
in
:!:!a
0 00
it
•
270
...:
:.
· 0 1,,
04
~25
•
•z
06
08
315
•
Tot
270
•y
•z
--····-·····f ··----·-------------1---------------- ----·r··· ·· ·------- -------1·---···------------·i'·-----········-----------·--------· ··----1··----·
-·--•
...
•
~ ·~~ :;, .__ i~rr~c~ ·-L..-.-! ~ '-~~'-•~-:-1-.:f:
.:
.:
.:
..'
..
..
.'
..
..
..
. --.... - . -....-- . -.......... -. -- . - ....
...' -- ... -- . -. -. -- ... -....
... -... -. -. -.. -.. ----....' -- --. -. -- --. ---. -- ....... --- . -... -.. -. -. -.. -.. --. -... -- ---....... ~- .. -.-... -- .
..
..
..
..'
-0 5
315
Tot
05
. .oa
oo
..'
-150
- 100
- 0
50
Ron [
100
6C~
-lz
_J
1300 MHz
Uncertainty of Axial Isotropy Assessment: ± 0.5% (k=2)
Certificate No: EX3-3820_J un16
Page 8 of 38
150
EX3DV 4- SN :3820
June 27, 2016
Dyn ami c Ran ge f(SARhead)
(TEM cell , feva1= 1900 MHz)
..... --f!.......:... i... ...: : :_: -..... ' . -... - :- :. ~. :....... ; ... ;.. ;. ~. ~ ~ ~............ .....f~-. :::.. ~.i...
ii
: : l}
...
. ... :
. )/
:/:1~ . ;
::::,:,,,,.,.......ll .......;...,......'.U.(,.....;........l;.,.;.. ,....;... ,..;.;.. ~., ............ .y,{ .J.....;.
...... ···.·······-·.
10~
,·······.···, ................... - - ---- · ; ,· ,• ........ ,--·.·· .· .···. ·--········-~····.... .·.......
,:..
.:·: /:: :::;;: ;:) :::):~;:: .. ; :::·: t\(" ·; ";'; ;:t:,: .: /. .. ·:t:::;t(· ...
- : I -. !l
10
coC
..
::
!i!!
lT ! ! IJ~
/. l.-IiI
:;l
lli0fli.
:5
a.
103
!.
r·•... .: .... !;!. . .:. ••;:;::
:••• ·fil{ ::>4iii :f••:.:s.. ) •••ili•••••'•••!•••jj
:r::ti Ti )r l !riI i iTU ::i:itI! Iliii
...:::::.:;::::: .~:H: ....:}1~::H11:f::..:.L::·...~~n+. ::.J:.l::i:1 --H~::::::: ...... ::Jfr::.:L:l::::1:Hl1
l!/ l
······'···j
10 2
'.!!
...:. .:.•. . . i.. ..i. i. . .iilt.. . ... ..
OJ
U)
;;;
!!'
::f..
UL ' ; :!.L.
-·-~ . . ·~:~,---·_ :...
..
!:
! lW
: :
10-2
.::::
• :~:~
10-1
::: :
.. :
.. : ! : . !
10:i
SAR [mW/c m3]
;;•
t::
:::::
.r
• ..
10
.....
: :.: : :
10~
....!..J
10~
not compensated
compe nsated
2--------- --- --- --- --- --- --- -1-------
: : :
: :
j :
J 1
.... 0 -
ii I
...., :· 1'
: :: :
-~ •tt-••
+~
~- -,
UJ
~. j j
-1 -
....rt·i,[w.,'.:..
~':;::...~·
~ • "'' I
·J,:.
-2 - --~~~ --~-- ~---- -~·...- - -~ -·-· -· - - - - - -- - ~-~
10·3
10·2
10·1
100
SAR [mW/c m3]
__!_J
not compen sated
101
102
compen sated
Uncertainty of Linearity Assessment : ± 0.6% (k=2)
Certificate No: EX3-3820_Jun 16
Page 9 of 38
103
EX3DV4- SN:3820
June 27. 201 6
Conversion Factor Assessment
f = 835 MHz.WGL S R9 (H_convF )
f = 1900 MHz,WGL S R22 (H_convF )
40
30
35
30
;s .f\..
. ........
·....
..
, 5
I0
05
00
T~
,o
15
:15
20
JO
z [mm]
...!...
35
- 10
Jna'vt:lcal
..
15
20
z [rr ml
...!..J
n,e,asu1ed
ana~ica
rreaswed
Error(«!>, S), f = 900 MHz
1.0
0.8
0.6
C:
0.4
·i
0.2
0 .0 ..__-...............
· 0.2
135
-t-/% 180
;e,
225
270
-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: EX3-3820_Jun1 6
Page 10 of 38
30
...!...
Deviation from Isotropy in Liquid
25
35
40
EX3DV4- SN:3820
June 27, 2016
DASY /EASY - Parameters of Probe: EX3DV4 - SN:3820
Other Probe Parameters
Sensor Arrangement
Triangular
Connector Angle ( 0 )
31.9
Mechanica l Surface Detection Mode
enabled
Optical Surface Detection Mode
disabled
Probe Overa ll Length
337 mm
Probe Body Diameter
10mm
Tip Length
9mm
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: EX3-3820_Jun16
Page 11 of 38
1.4mm
EX3DV4- SN:3820
June 27, 2016
A.ppen d"IX: M 0 d u Iat1on
C alibration Parameter s
UID
Communication System Name
cw
10010CAA
SAR Validation (Square, 100ms, 10ms)
10011CAB
UMTS-FDD (WCDMA)
10012CAB
IEEE 802.11 b WiFi 2.4 GHz (DSSS, 1
Mbps)
10013CAB
IEEE 802.11g WiFi 2.4 GHz (DSSSOFDM, 6 Mbps)
10021DAB
GSM-FDD (TOMA, GMSK)
10023DAB
GPRS-FDD (TOMA, GMSK, TN 0)
10024DAB
GPRS-FDD (TOMA, GMSK, TN 0-1)
10025DAB
EDGE-FDD (TOMA, 8PSK, TN 0)
10026DAB
EDGE-F DD (TOMA, 8PSK, TN 0-1)
10027DAB
G PRS-FDD (TOMA, GMSK, TN 0-1-2)
10028DAB
GPRS-FDD (TOMA, GMSK, TN 0-1-2-3)
10029DAB
EDGE-FDD (TOMA, 8PSK, TN 0-1-2)
10030CAA
IEEE 802.15.1 Bluetooth (GFSK, DH1)
10031 CAA
IEEE 802.15.1 Bluetooth (GFSK, DH3)
Certificate No: EX3-3820_Jun16
dB.../µV
dB
0.00
0.00
0.00
2.91
0.00
0.00
0.00
66.95
1.00
1.00
1.00
11.40
4.24
13.20
1.07
71 .80
88.04
67.78
13.80
20.85
15.67
1.52
0.94
1.19
74.89
63.95
63.84
19.60
13.11
15.24
1.24
1.16
4.91
65.55
62.20
66.44
16.88
14.01
16.89
4.97
5.04
12.66
66.85
66.28
85.74
17.38
16.95
19.85
100.00
100.00
10.49
115.62
123.67
83.18
28.70
32.95
19.06
100.00
100.00
30.89
115.37
123.24
96.1 1
28.65
32.82
21.36
100.00
100.00
4.99
115.76
126.38
72.36
27.51
32.70
25.92
12.74
5.30
9.44
102.33
73.69
89.33
40.28
27.65
30.51
12.46
7.86
100.00
98.80
86.03
108.03
35.19
30.51
23.23
100.00
100.00
100.00
117.95
129.63
108.32
27.58
33.06
22.71
100.00
100.00
6.28
122.16
132.93
80.96
28.60
33.53
26.28
6.96
5.29
23.05
85.32
77.61
92.26
29. 11
25.92
19.61
100.00
100.00
100.00
115.32
126.49
107.60
26.76
32.09
21.20
100.00
100.00
131 .06
132.96
30.63
31.77
Page 12 of 38
dB
0.00
VR
mV
Max
UncE
(k=2)
+3.8 %
10.00
148.5
134.3
135.9
20.0
±9.6 %
0.00
20.0
20.0
150.0
±9.6%
0.41
150.0
150.0
150.0
±9.6 %
1.46
150.0
150.0
150.0
±9.6 %
9.39
150.0
150.0
50.0
±9.6 %
9.57
50.0
50.0
50.0
± 9.6 %
6.56
50.0
50.0
60.0
±9.6 %
12.57
60.0
60.0
50.0
±9.6 %
9.56
50.0
50.0
60.0
±9.6 %
4.80
60.0
60.0
80.0
±9.6%
3.55
80.0
80.0
100.0
±9.6 %
7.80
100.0
100.0
80.0
±9.6 %
5.30
80.0
80.0
70.0
±9.6 %
1.88
70.0
70.0
100.0
±9.6 %
100.0
100.0
Download: 84773W GSM/WCDMA/LTE Phone+Bluetooth, DTS/UNII a/b/g/n and NFC RF Exposure Info RF Exposure Info._20170207_v1 - PY7-84773W_FCC RFExp_Appendix C_1 Sony Mobile Communications Inc
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Document DescriptionRF Exposure Info._20170207_v1 - PY7-84773W_FCC RFExp_Appendix C_1
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Date Submitted2017-02-16 00:00:00
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Document TitleRF Exposure Info._20170207_v1 - PY7-84773W_FCC RFExp_Appendix C_1

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