TITANTURBO Tablet PC RF Exposure Info Measurement Report 2048450 Ontario Inc- .dba Datatech

2048450 Ontario Inc- .dba Datatech Tablet PC

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Page 1 of 82
Report No.: SER180809609005E
FCC SAR EVALUATION REPORT
In accordance with the requirements of
FCC 47 CFR Part 2(2.1093), ANSI/IEEE C95.1-1992 and
IEEE Std 1528-2013
Product Name: Tablet PC
Trademark: hipstreet
Model Name: TITAN TURBO
Serial Model: N/A
Report No.: SER180809609005E
FCC ID: 2AL6Y-TITANTURBO
Prepared for
2048450 Ontario Inc- .dba Datatech
17 Regal Court, Markham, ON - L3R 8G1, Ontario, Canada
Prepared by
Shenzhen NTEK Testing Technology Co., Ltd.
1/F, Building E, Fenda Science Park, Sanwei Community, Xixiang Street,
Bao’an District, Shenzhen 518126 P.R.China.
Tel.: +86-755-6115 6588 Fax.: +86-755-6115 6599
Website: http://www.ntek.org.cn
Page 2 of 82
Report No.: SER180809609005E
TEST RESULT CERTIFICATION
Applicant’s name ................. : 2048450 Ontario Inc- .dba Datatech
Address.................................. : 17 Regal Court, Markham, ON - L3R 8G1, Ontario, Canada
Manufacturer's Name ........... : 2048450 Ontario Inc- .dba Datatech
Address.................................. : 17 Regal Court, Markham, ON - L3R 8G1, Ontario, Canada
Product description
Product name......................... : Tablet PC
Trademark ............................ : hipstreet
Model and/or type reference . : TITAN TURBO
Serial Model ........................... : N/A
FCC 47 CFR Part 2(2.1093)
Standards ............................. :
ANSI/IEEE C95.1-1992
IEEE Std 1528-2013
Published RF exposure KDB procedures
This device described above has been tested by Shenzhen NTEK. In accordance with the
measurement methods and procedures specified in IEEE Std 1528-2013 and KDB 865664 D01.
Testing has shown that this device is capable of compliance with localized specific absorption rate
(SAR) specified in FCC 47 CFR Part 2(2.1093) and ANSI/IEEE C95.1-1992. The test results in this
report apply only to the tested sample of the stated device/equipment. Other similar
device/equipment will not necessarily produce the same results due to production tolerance and
measurement uncertainties.
This report shall not be reproduced except in full, without the written approval of Shenzhen NTEK,
this document may be altered or revised by Shenzhen NTEK, personal only, and shall be noted in
the revision of the document.
Date of Test
Date (s) of performance of tests .............: Aug. 25, 2018 ~ Aug. 27, 2018
Date of Issue ..........................................: Sep. 25, 2018
Test Result ..............................................: Pass
Prepared By
(Test Engineer)
(Cheng Jiawen)
Approved By
(Lab Manager)
(Sam Chen)
Page 3 of 82
Report No.: SER180809609005E
※ ※ Revision History ※ ※
REV.
DESCRIPTION
ISSUED DATE
REMARK
Rev.1.0
Initial Test Report Release
Sep. 25, 2018
Cheng Jiawen
Page 4 of 82
Report No.: SER180809609005E
TABLE OF CONTENTS
1. General Information .......................................................................................... 6
1.1. RF exposure limits .................................................................................. 6
1.2. Statement of Compliance ....................................................................... 7
1.3. EUT Description ..................................................................................... 8
1.4. Test specification(s) ................................................................................ 8
1.5. Ambient Condition ................................................................................. 8
2. SAR Measurement System ................................................................................. 9
2.1. SATIMO SAR Measurement Set-up Diagram ........................................... 9
2.2. Robot ................................................................................................... 10
2.3. E-Field Probe ........................................................................................ 11
2.3.1. E-Field Probe Calibration................................................................ 11
2.4. SAM phantoms .................................................................................... 12
2.4.1. Technical Data ................................................................................ 12
2.5. Device Holder ...................................................................................... 14
2.6. Test Equipment List .............................................................................. 15
3. SAR Measurement Procedures ........................................................................ 17
3.1. Power Reference.................................................................................. 17
3.2. Area scan & Zoom scan ........................................................................ 17
3.3. Description of interpolation/extrapolation scheme ............................. 19
3.4. Volumetric Scan ................................................................................... 19
3.5. Power Drift .......................................................................................... 19
4. System Verification Procedure ......................................................................... 20
4.1. Tissue Verification ................................................................................ 20
4.1.1. Tissue Dielectric Parameter Check Results ..................................... 20
4.2. System Verification Procedure ............................................................. 21
4.2.1. System Verification Results ............................................................ 22
5. SAR Measurement variability and uncertainty ................................................. 23
5.1. SAR measurement variability ............................................................... 23
5.2. SAR measurement uncertainty............................................................. 23
6. RF Exposure Positions ...................................................................................... 24
6.1. Tablet host platform exposure conditions ........................................... 24
7. RF Output Power ............................................................................................. 25
7.1. Maximum Tune-up Limit ...................................................................... 25
7.2. WLAN Output Power ............................................................................ 25
7.3. Bluetooth Output Power ...................................................................... 26
8. Antenna Location ............................................................................................. 27
9. Stand-alone SAR test exclusion ........................................................................ 30
10. SAR Results ................................................................................................... 31
10.1. SAR measurement results .................................................................. 31
Page 5 of 82
11.
12.
13.
14.
Report No.: SER180809609005E
10.1.1. SAR measurement Result of WLAN 2.4G ...................................... 31
10.1.2. SAR measurement Result of WLAN 5.2G ...................................... 31
10.1.3. SAR measurement Result of WLAN 5.8G ...................................... 32
10.2. Simultaneous Transmission Possibilities ............................................. 32
Appendix A. Photo documentation ............................................................... 33
Appendix B. System Check Plots ................................................................... 34
Appendix C. Plots of High SAR Measurement ............................................... 41
Appendix D. Calibration Certificate ............................................................... 48
Page 6 of 82
Report No.: SER180809609005E
1. General Information
1.1. RF exposure limits
(A).Limits for Occupational/Controlled Exposure (W/kg)
Whole-Body Partial-Body Hands, Wrists, Feet and Ankles
0.4
8.0
20.0
(B).Limits for General Population/Uncontrolled Exposure (W/kg)
Whole-Body Partial-Body Hands, Wrists, Feet and Ankles
0.08
1.6
4.0
NOTE: Whole-Body SAR is averaged over the entire body, partial-body SAR is averaged
over any 1 gram of tissue defined as a tissue volume in the shape of a cube. SAR for hands,
wrists, feet and ankles is averaged over any 10 grams of tissue defined as a tissue volume
in the shape of a cube.
Occupational/Controlled Environments:
Are defined as locations where there is exposure that may be incurred by people who are
aware of the potential for exposure, (i.e. as a result of employment or occupation).
General Population/Uncontrolled Environments:
Are defined as locations where there is the exposure of individuals who have no knowledge or
control of their exposure.
NOTE
HEAD AND TRUNK LIMIT
1.6 W/kg
APPLIED TO THIS EUT
Page 7 of 82
Report No.: SER180809609005E
1.2. Statement of Compliance
The maximum results of Specific Absorption Rate (SAR) found during testing for TITAN TURBO are as
follows.
Max Reported SAR Value(W/kg)
Band
1-g Body
(Separation distance of 0mm)
WLAN 2.4G
1.275
WLAN 5.2G
0.832
WLAN 5.8G
0.715
NOTE: This device is in compliance with Specific Absorption Rate (SAR) for general population /
uncontrolled exposure limits (1.6 W/kg) specified in FCC 47 CFR Part 2(2.1093) and ANSI/IEEE
C95.1-1992, and had been tested in accordance with the measurement methods and procedures
specified in IEEE Std 1528-2013 & Published RF exposure KDB procedures.
Page 8 of 82
1.3.
Report No.: SER180809609005E
EUT Description
Device Information
Product Name
Tablet PC
Trademark
hipstreet
Model Name
TITAN TURBO
Serial Model
N/A
FCC ID
Device Phase
2AL6Y-TITANTURBO
Exposure Category
General population / Uncontrolled environment
Antenna Type
FPCB Antenna
Battery Information
DC 3.7V, 2600mAh
Device Operating Configurations
Supporting Mode(s)
WLAN 2.4G/5.2G/5.8G, Bluetooth
Test Modulation
WLAN(DSSS/OFDM), Bluetooth(GFSK, π/4-DQPSK, 8DPSK)
Identical Prototype
Band
Operating Frequency Range(s)
Test Channels (low-mid-high)
Tx (MHz)
Rx (MHz)
WLAN 2.4G
2412-2462
WLAN 5.2G
5180-5240
WLAN 5.8G
5745-5825
Bluetooth
1-3-6-9-11(WLAN 2.4G)
2402-2480
36-38-40-42-46-48(WLAN 5.2G)
149-151-155-157-159-165(WLAN 5.8G)
1.4. Test specification(s)
FCC 47 CFR Part 2(2.1093)
ANSI/IEEE C95.1-1992
IEEE Std 1528-2013
KDB 865664 D01 SAR measurement 100 MHz to 6 GHz
KDB 865664 D02 RF Exposure Reporting
KDB 447498 D01 General RF Exposure Guidance
KDB 248227 D01 802.11 Wi-Fi SAR
KDB 616217 D04 SAR for laptop and tablets
1.5. Ambient Condition
Ambient temperature
20°C – 24°C
Relative Humidity
30% – 70%
Page 9 of 82
Report No.: SER180809609005E
2. SAR Measurement System
2.1. SATIMO SAR Measurement Set-up Diagram
These measurements were performed with the automated near-field scanning system OPENSAR from
SATIMO. The system is based on a high precision robot (working range: 901 mm), which positions the
probes with a positional repeatability of better than ±0.03 mm. The SAR measurements were
conducted with dosimetric probe (manufactured by SATIMO), designed in the classical triangular
configuration and optimized for dosimetric evaluation.
The first step of the field measurement is the evaluation of the voltages induced on the probe by the
device under test. Probe diode detectors are nonlinear. Below the diode compression point, the output
voltage is proportional to the square of the applied E-field; above the diode compression point, it is
linear to the applied E-field. The compression point depends on the diode, and a calibration procedure
is necessary for each sensor of the probe.
The Keithley multimeter reads the voltage of each sensor and send these three values to the PC. The
corresponding E field value is calculated using the probe calibration factors, which are stored in the
working directory. This evaluation includes linearization of the diode characteristics. The field
calculation is done separately for each sensor. Each component of the E field is displayed on the
''Dipole Area Scan Interface'' and the total E field is displayed on the ''3D Interface''
Page 10 of 82
Report No.: SER180809609005E
2.2. Robot
The SATIMO SAR system uses the high precision robots from KUKA. For the 6-axis controller system,
the robot controller version (KUKA) from KUKA is used. The KUKA robot series have many features
that are important for our application:
•
High precision (repeatability ±0.03 mm)
•
High reliability (industrial design)
• Jerk-free straight movements
•
Low ELF interference (the closed metallic
construction shields against motor control fields)
Page 11 of 82
Report No.: SER180809609005E
2.3. E-Field Probe
This E-field detection probe is composed of three orthogonal dipoles linked to special Schottky diodes
with low detection thresholds. The probe allows the measurement of electric fields in liquids such as
the one defined in the IEEE and CENELEC standards.
For the measurements the Specific Dosimetric E-Field Probe SN 08/16 EPGO287 with following
specifications is used
- Dynamic range: 0.01-100 W/kg
- Tip Diameter : 2.5 mm
- Distance between probe tip and sensor center: 1 mm
- Distance between sensor center and the inner phantom surface: 2 mm (repeatability better than ±1
mm).
- Probe linearity: ±0.08 dB
- Axial isotropy: <0.25 dB
- Hemispherical Isotropy: <0.50 dB
- Calibration range: 650MHz to 5900MHz for head & body simulating liquid.
- Lower detection limit: 7mW/kg
Angle between probe axis (evaluation axis) and surface normal line: less than 30°.
2.3.1.
E-Field Probe Calibration
Each probe needs to be calibrated according to a dosimetric assessment procedure with accuracy
better than ±10%. The spherical isotropy shall be evaluated and within ±0.25dB. The sensitivity
parameters (Norm X, Norm Y, and Norm Z), the diode compression parameter (DCP) and the
conversion factor (Conv F) of the probe are tested. The calibration data can be referred to appendix D
of this report.
Page 12 of 82
Report No.: SER180809609005E
2.4. SAM phantoms
Photo of SAM phantom SN 16/15 SAM119
The SAM phantom is used to measure the SAR relative to people exposed to electro-magnetic field
radiated by mobile phones.
2.4.1.
Technical Data
Serial
Shell thickness
Number
SN 16/15
SAM119
Filling
volume
Dimensions
Length:1000 mm
2 mm ±0.2 mm
27 liters Width:500 mm
Height:200 mm
Positionner
Permittivity
Material
Gelcoat with
fiberglass
3.4
Loss
Tangent
0.02
Page 13 of 82
Serial Number
SN 16/15 SAM119
Left Head
Report No.: SER180809609005E
Right Head
Flat Part
2.02
2.08
2.09
2.05
2.06
2.06
2.07
2.07
2.08
2.08
2.08
2.10
2.05
2.07
2.10
2.05
2.05
2.07
2.07
2.06
2.07
2.08
2.06
The test, based on ultrasonic system, allows measuring the thickness with an accuracy of 10 μm.
Page 14 of 82
Report No.: SER180809609005E
2.5. Device Holder
The positioning system allows obtaining cheek and tilting position with a very good accuracy. In
compliance with CENELEC, the tilt angle uncertainty is lower than 1 degree.
Serial Number
Holder Material
Permittivity
Loss Tangent
SN 16/15 MSH100
Delrin
3.7
0.005
Page 15 of 82
Report No.: SER180809609005E
2.6. Test Equipment List
This table gives a complete overview of the SAR measurement equipment.
Devices used during the test described are marked
Manufacturer
Name of
Equipment
Type/Model
Serial Number
SN 08/16 EPGO287
Calibration
Last Cal.
Due Date
Sep. 18,
Sep. 17,
2017
2018
SN 03/15 DIP
Apr. 19,
Apr. 18,
0G750-355
2018
2021
SN 03/15 DIP
Apr. 19,
Apr. 18,
0G835-347
2018
2021
SN 03/15 DIP
Apr. 19,
Apr. 18,
0G900-348
2018
2021
SN 03/15 DIP
Apr. 19,
Apr. 18,
1G800-349
2018
2021
SN 03/15 DIP
Apr. 19,
Apr. 18,
1G900-350
2018
2021
SN 03/15 DIP
Apr. 19,
Apr. 18,
2G000-351
2018
2021
SN 03/15 DIP
Apr. 19,
Apr. 18,
2G450-352
2018
2021
SN 03/15 DIP
Apr. 19,
Apr. 18,
2G600-356
2018
2021
Apr. 19,
Apr. 18,
2018
2021
MVG
E FIELD PROBE
SSE2
MVG
750 MHz Dipole
SID750
MVG
835 MHz Dipole
SID835
MVG
900 MHz Dipole
SID900
MVG
1800 MHz Dipole
SID1800
MVG
1900 MHz Dipole
SID1900
MVG
2000 MHz Dipole
SID2000
MVG
2450 MHz Dipole
SID2450
MVG
2600 MHz Dipole
SID2600
MVG
5000 MHz Dipole
SWG5500
SN 13/14 WGA 33
SCLMP
SN 21/15 OCPG 72
NCR
NCR
MVG
Liquid
measurement Kit
MVG
Power Amplifier
N.A
AMPLISAR_28/14_003
NCR
NCR
KEITHLEY
Millivoltmeter
2000
4072790
NCR
NCR
CMU200
117858
Aug. 05,
Aug. 04,
2018
2019
CMW500
103917
Oct. 26,
Oct. 25,
2017
2018
8753D
3410J01136
Aug. 05,
Aug. 04,
2018
2019
E8257D
MY51110112
Aug. 05,
Aug. 04,
2018
2019
Universal radio
R&S
communication
tester
Wideband radio
R&S
communication
tester
HP
Agilent
Network Analyzer
PSG Analog
Signal Generator
Page 16 of 82
Report No.: SER180809609005E
Agilent
Power meter
E4419B
MY45102538
Agilent
Power sensor
E9301A
MY41495644
Agilent
Power sensor
E9301A
US39212148
CB11-20
0D2L51502
MCLI/USA
Directional
Coupler
Aug. 05,
Aug. 04,
2018
2019
Aug. 05,
Aug. 04,
2018
2019
Aug. 05,
Aug. 04,
2018
2019
Aug. 05,
Aug. 04,
2018
2019
Page 17 of 82
Report No.: SER180809609005E
3. SAR Measurement Procedures
The measurement procedures are as follows:

(a) For WWAN power measurement, use base station simulator to configure EUT WWAN
transmission in conducted connection with RF cable, at maximum power in each supported wireless
interface and frequency band.
(b) Read the WWAN RF power level from the base station simulator.
(c)
For WLAN/Bluetooth power measurement, use engineering software to configure EUT
WLAN/Bluetooth continuously transmission, at maximum RF power in each supported wireless
interface and frequency band.
(d) Connect EUT RF port through RF cable to the power meter, and measure WLAN/Bluetooth
output power.

(a) Use base station simulator to configure EUT WWAN transmission in radiated connection, and
engineering software to configure EUT WLAN/Bluetooth continuously transmission, at maximum RF
power, in the highest power channel.
(b) Place the EUT in the positions as Appendix A demonstrates.
(c)
Set scan area, grid size and other setting on the OPENSAR software.
(d) Measure SAR results for the highest power channel on each testing position.
(e) Find out the largest SAR result on these testing positions of each band.
(f)
Measure SAR results for other channels in worst SAR testing position if the reported SAR of
highest power channel is larger than 0.8 W/kg.
According to the test standard, the recommended procedure for assessing the peak spatial-average
SAR value consists of the following steps:
(a) Power reference measurement
(b) Area scan
(c)
Zoom scan
(d) Power drift measurement
3.1. Power Reference
The Power Reference Measurement and Power Drift Measurements are for monitoring the power drift
of the device under test in the batch process. The minimum distance of probe sensors to surface
determines the closest measurement point to phantom surface. This distance cannot be smaller than
the distance of sensor calibration points to probe tip as defined in the probe properties.
3.2. Area scan & Zoom scan
The area scan is a 2D scan to find the hot spot location on the DUT. The zoom scan is a 3D scan
above the hot spot to calculate the 1g and 10g SAR value.
Page 18 of 82
Report No.: SER180809609005E
Measurement of the SAR distribution with a grid of 8 to 16 mm * 8 to 16 mm and a constant distance to
the inner surface of the phantom. Since the sensors cannot directly measure at the inner phantom
surface, the values between the sensors and the inner phantom surface are extrapolated. With these
values the area of the maximum SAR is calculated by an interpolation scheme. Around this point, a
cube of 30 * 30 *30 mm or 32 * 32 * 32 mm is assessed by measuring 5 or 8 * 5 or 8 * 4 or 5 mm. With
these data, the peak spatial-average SAR value can be calculated.
From the scanned SAR distribution, identify the position of the maximum SAR value, in addition
identify the positions of any local maxima with SAR values within 2 dB of the maximum value that will
not be within the zoom scan of other peaks; additional peaks shall be measured only when the primary
peak is within 2 dB of the SAR compliance limit (e.g., 1 W/kg for 1,6 W/kg 1 g limit, or 1,26 W/kg for 2
W/kg, 10 g limit).
Area scan & Zoom scan scan parameters extracted from FCC KDB 865664 D01 SAR measurement
100 MHz to 6 GHz.
Page 19 of 82
Report No.: SER180809609005E
3.3. Description of interpolation/extrapolation scheme
The local SAR inside the phantom is measured using small dipole sensing elements inside a probe
body. The probe tip must not be in contact with the phantom surface in order to minimise
measurements errors, but the highest local SAR will occur at the surface of the phantom.
An extrapolation is using to determinate this highest local SAR values. The extrapolation is based on a
fourth-order least-square polynomial fit of measured data. The local SAR value is then extrapolated
from the liquid surface with a 1 mm step.
The measurements have to be performed over a limited time (due to the duration of the battery) so the
step of measurement is high. It could vary between 5 and 8 mm. To obtain an accurate assessment of
the maximum SAR averaged over 10 grams and 1 gram requires a very fine resolution in the three
dimensional scanned data array.
3.4. Volumetric Scan
The volumetric scan consists to a full 3D scan over a specific area. This 3D scan is useful form multi Tx
SAR measurement. Indeed, it is possible with OpenSAR to add, point by point, several volumetric scan
to calculate the SAR value of the combined measurement as it is define in the standard IEEE1528 and
IEC62209.
3.5. Power Drift
All SAR testing is under the EUT install full charged battery and transmit maximum output power. In
OpenSAR measurement software, the power reference measurement and power drift measurement
procedures are used for monitoring the power drift of EUT during SAR test. Both these procedures
measure the field at a specified reference position before and after the SAR testing. The software will
calculate the field difference in V/m. If the power drifts more than ±5%, the SAR will be retested.
Page 20 of 82
Report No.: SER180809609005E
4. System Verification Procedure
4.1. Tissue Verification
The following tissue formulations are provided for reference only as some of the parameters have not
been thoroughly verified. The composition of ingredients may be modified accordingly to achieve the
desired target tissue parameters required for routine SAR evaluation.
Ingredients (% of
Head Tissue
weight)
Frequency Band
5200
5800
Water
34.40 34.40 34.40 55.36 55.36 57.87 57.87 57.87 65.53
65.53
NaCl
0.79
0.79
0.35
0.35
0.16
0.16
0.16
0.00
0.00
1,2-Propanediol
64.81 64.81 64.81
0.00
0.00
0.00
0.00
0.00
0.00
0.00
Triton X-100
0.00
0.00
0.00
30.45 30.45 19.97 19.97 19.97 24.24
24.24
DGBE
0.00
0.00
0.00
13.84 13.84 22.00 22.00 22.00 10.23
10.23
(MHz)
750
835
0.79
900
1800
1900
Ingredients (% of
2450
2600
Body Tissue
weight)
Frequency Band
2000
5200
5800
Water
50.30 50.30 50.30 69.91 69.91 71.88 71.88 71.88 79.54
79.54
NaCl
0.60
0.60
0.13
0.13
0.16
0.16
0.16
0.00
0.00
1,2-Propanediol
49.10 49.10 49.10
0.00
0.00
0.00
0.00
0.00
0.00
0.00
Triton X-100
0.00
0.00
0.00
9.99
9.99
19.97 19.97 19.97 11.24
11.24
DGBE
0.00
0.00
0.00
19.97 19.97
7.99
9.22
(MHz)
4.1.1.
750
835
0.60
900
1800
1900
2000
2450
7.99
2600
7.99
9.22
Tissue Dielectric Parameter Check Results
The simulating liquids should be checked at the beginning of a series of SAR measurements to
determine of the dielectric parameter are within the tolerances of the specified target values. The
measured conductivity and relative permittivity should be within ±5% of the target values.
Tissue
Type
Body
2450
Body
5000
Body
5000
Measured
Frequency
(MHz)
2450
5200
5800
Target Tissue
εr (±5%)
σ (S/m)
(±5%)
52.70
1.95
(50.07~55.33)
(1.85~2.04)
49.00
5.30
(46.55~51.45)
(5.04~5.57)
48.20
6.00
(43.38~53.02)
(5.40~6.60)
Measured Tissue
Liquid
Test Date
εr
σ (S/m)
Temp.
52.72
1.98
21.6 °C
Aug. 25, 2018
49.71
5.26
21.8 °C
Aug. 25, 2018
48.48
5.99
21.4 °C
Aug. 27, 2018
Page 21 of 82
Report No.: SER180809609005E
NOTE: The dielectric parameters of the tissue-equivalent liquid should be measured under similar
ambient conditions and within 2 °C of the conditions expected during the SAR evaluation to satisfy
protocol requirements.
4.2. System Verification Procedure
The system verification is performed for verifying the accuracy of the complete measurement system
and performance of the software. The dipole is connected to the signal source consisting of signal
generator and amplifier via a directional coupler, N-connector cable and adaption to SMA. It is fed with
a power of 100mW (below 5GHz) or 100mW (above 5GHz). To adjust this power a power meter is
used. The power sensor is connected to the cable before the system verification to measure the power
at this point and do adjustments at the signal generator. At the outputs of the directional coupler both
return loss as well as forward power are controlled during the system verification to make sure that
emitted power at the dipole is kept constant. This can also be checked by the power drift measurement
after the test (result on plot).
The system verification is shown as below picture:
Page 22 of 82
4.2.1.
Report No.: SER180809609005E
System Verification Results
Comparing to the original SAR value provided by SATIMO, the verification data should be within its
specification of ±10%. Below table shows the target SAR and measured SAR after normalized to 1W
input power. The table below indicates the system performance verification can meet the variation
criterion and the plots can be referred to Appendix B of this report.
Target SAR (1W)
Measured SAR
(±10%)
(Normalized to 1W)
System
Verification
2450MHz Body
5200MHz Body
5800MHz Body
1-g (W/Kg)
10-g (W/Kg)
49.32
22.89
(44.39~54.25)
(20.60~25.17)
150.06
53.20
(135.05~165.07)
(47.88~58.52)
173.64
59.29
(156.28~191.00)
(53.36~65.22)
Liquid
Temp.
Test Date
1-g
10-g
(W/Kg)
(W/Kg)
51.04
21.77
21.6 °C
Aug. 25, 2018
155.23
53.72
21.8 °C
Aug. 25, 2018
162.56
55.88
21.4 °C
Aug. 27, 2018
Page 23 of 82
Report No.: SER180809609005E
5. SAR Measurement variability and uncertainty
5.1. SAR measurement variability
Per KDB865664 D01 SAR measurement 100 MHz to 6 GHz, SAR measurement variability must be
assessed for each frequency band, which is determined by the SAR probe calibration point and
tissue-equivalent medium used for the device measurements. The additional measurements are
repeated after the completion of all measurements requiring the same head or body tissue-equivalent
medium in a frequency band. The test device should be returned to ambient conditions (normal room
temperature) with the battery fully charged before it is re-mounted on the device holder for the
repeated measurement(s) to minimize any unexpected variations in the repeated results.
1)
Repeated measurement is not required when the original highest measured SAR is < 0.80 W/kg;
steps 2) through 4) do not apply.
2)
When the original highest measured SAR is ≥ 0.80 W/kg, repeat that measurement once.
3)
Perform a second repeated measurement only if the ratio of largest to smallest SAR for the
original and first repeated measurements is > 1.20 or when the original or repeated measurement is ≥
1.45 W/kg (~ 10% from the 1-g SAR limit).
4)
Perform a third repeated measurement only if the original, first or second repeated measurement
is ≥1.5 W/kg and the ratio of largest to smallest SAR for the original, first and second repeated
measurements is > 1.20.
5.2. SAR measurement uncertainty
Per KDB865664 D01 SAR Measurement 100 MHz to 6 GHz, when the highest measured 1-g SAR
within a frequency band is < 1.5 W/kg, the extensive SAR measurement uncertainty analysis described
in IEEE Std 1528-2013 is not required in SAR reports submitted for equipment approval. The
equivalent ratio (1.5/1.6) is applied to extremity and occupational exposure conditions.
Page 24 of 82
Report No.: SER180809609005E
6. RF Exposure Positions
6.1. Tablet host platform exposure conditions
Refer to KDB616217 D04, when the modular approach is used, transmitters and modules must be
initially tested for standalone operations in generic host conditions according to the following minimum
test separation distance and antenna installation requirements for incorporation in the tablet platform.
The separation distance required for incorporation in qualified hosts is described in KDB 447498; item
5) of section 4.1 and item 1) of section 5.2.2 etc.
The antennas embedded in tablets are typically ≤ 5mm from the outer housing. The required antenna
to user test separation distance is a “not to exceed test” distance required to apply the modular
approach. Instead of the typical zero gap tablet edge test requirement between the edge of a tablet
and the user, when an antenna has been tested at ≤ 5 mm according to the modular approach it can be
incorporated into tablets with at least twice the tested distance from the outer housing of the tablet
edge; otherwise, the tablet edge zero gap test requirement applies. When the dedicated host approach
is applied, the back surface and edges of the tablet should be tested for SAR compliance with the
tablet touching the phantom.
Page 25 of 82
Report No.: SER180809609005E
7. RF Output Power
7.1. Maximum Tune-up Limit
The Tune-up Maximum
Band
Mode
Power (Customer
Measured
Range
Declared)(dBm)
Maximum Output
Power(dBm)
802.11b
15±1
14~16
15.9
WLAN
802.11g
13.5±1
12.5~14.5
14.2
2.4G
802.11n-HT20
13.5±1
12.5~14.5
14.2
802.11n-HT40
13.5±1
12.5~14.5
13.8
802.11a
13±1
12~14
14.0
802.11n-HT20
13±1
12~14
13.9
802.11n-HT40
13±1
12~14
13.8
802.11ac-HT20
13±1
12~14
12.9
802.11ac-HT40
13±1
12~14
13.3
802.11a
10±1
9~11
11.0
802.11n-HT20
10±1
9~11
10.8
802.11n-HT40
10±1
9~11
10.7
802.11ac-HT20
10±1
9~11
9.8
802.11ac-HT40
10±1
9~11
9.6
1M
3±1
2~4
3.85
2M
2±1
1~3
2.74
3M
2.1±1
1.1~3.1
3.06
-5±1
-6~-4
-4.06
WLAN
5.2G
WLAN
5.8G
Bluetooth
BR+EDR
BLE
7.2. WLAN Output Power
Mode
802.11b
802.11g
802.11n
(HT20)
802.11n
(HT40)
Channel
Frequency (MHz)
Tune-up
Output Power (dBm)
2412
16.0
15.6
2437
16.0
15.8
11
2462
16.0
15.9
2412
14.5
12.9
2437
14.5
14.2
11
2462
14.5
13.6
2412
14.5
13.0
2437
14.5
14.2
11
2462
14.5
13.7
2422
14.5
13.8
2437
14.5
13.5
2452
14.5
13.0
Page 26 of 82
Report No.: SER180809609005E
36
5180
14.0
13.9
40
5200
14.0
14.0
48
5240
14.0
13.8
149
5745
11.0
10.6
157
5785
11.0
10.8
165
5825
11.0
11.0
36
5180
14.0
13.9
40
5200
14.0
13.6
802.11n
48
5240
14.0
13.7
(20M)
149
5745
11.0
10.6
157
5785
11.0
10.7
165
5825
11.0
10.8
38
5190
14.0
13.7
802.11n
46
5230
14.0
13.8
(40M)
151
5755
11.0
10.6
159
5795
11.0
10.7
36
5180
14.0
12.8
40
5200
14.0
12.9
802.11ac
48
5240
14.0
12.9
(20M)
149
5745
11.0
9.6
157
5785
11.0
9.7
165
5825
11.0
9.8
38
5190
14.0
13.2
802.11ac
46
5230
14.0
13.3
(40M)
151
5755
11.0
9.5
159
5795
11.0
9.6
802.11a
7.3. Bluetooth Output Power
Output Power (dBm)
Data Rates
BR+EDR
BLE
Tune-up
Channel
39
78
1M
4.00
2.02
3.21
3.85
2M
3.00
1.05
2.21
2.74
3M
3.10
1.35
2.50
3.06
Channel
Tune-up
Output Power (dBm)
-4.00
-5.33
19
-4.00
-4.21
39
-4.00
-4.06
Page 27 of 82
Report No.: SER180809609005E
8. Antenna Location
187mm
Left Side
67mm
Back Side
Top Side
109mm
Bottom Side
W/B/G ANT
177mm
Right Side
12mm
Back View
Distance of the Antenna to the EUT surface/edge
Antennas
Bluetooth &
WLAN ANT
Front Side
Back Side
Left Side
Right Side
Top Side
Bottom Side
5mm
5mm
67mm
12mm
177mm
5mm
Page 28 of 82
Report No.: SER180809609005E
Positions for SAR tests
Test separation distances ≤ 50 mm
Exposure Positions
Front Side
Back Side
Right Side
Bottom Side
Exposure Positions
Front Side
Back Side
Right Side
Bottom Side
Exposure Positions
Front Side
Back Side
Right Side
Tune-up Maximum power of WLAN 2.4G
16dBm
Antenna to user(mm)
SAR exclusion threshold
12.5
SAR testing required?
YES
Antenna to user(mm)
SAR exclusion threshold
12.5
SAR testing required?
YES
Antenna to user(mm)
12
SAR exclusion threshold
5.2
SAR testing required?
YES
Antenna to user(mm)
SAR exclusion threshold
12.5
SAR testing required?
YES
Tune-up Maximum power of WLAN 5.2G
14dBm
Antenna to user(mm)
SAR exclusion threshold
11.5
SAR testing required?
YES
Antenna to user(mm)
SAR exclusion threshold
11.5
SAR testing required?
YES
Antenna to user(mm)
12
SAR exclusion threshold
4.8
SAR testing required?
YES
Antenna to user(mm)
SAR exclusion threshold
11.5
SAR testing required?
YES
Tune-up Maximum power of WLAN 5.8G
11dBm
Antenna to user(mm)
SAR exclusion threshold
SAR testing required?
YES
Antenna to user(mm)
SAR exclusion threshold
SAR testing required?
YES
Antenna to user(mm)
12
Page 29 of 82
Bottom Side
Report No.: SER180809609005E
SAR exclusion threshold
2.5
SAR testing required?
NO
Antenna to user(mm)
SAR exclusion threshold
SAR testing required?
NOTE: Refer to section 4.3.1 of KDB 447498 D01.
YES
Positions for SAR tests
Test separation distances ˃ 50 mm
Exposure Positions
Left Side
Top Side
Exposure Positions
Left Side
Top Side
Exposure Positions
Left Side
Top Side
Tune-up Maximum power of WLAN 2.4G
16dBm
40mW
Antenna to user(mm)
67
SAR exclusion threshold(mW)
266
SAR testing required?
NO
Antenna to user(mm)
177
SAR exclusion threshold(mW)
1366
SAR testing required?
NO
Tune-up Maximum power of WLAN 5.2G
14dBm
25mW
Antenna to user(mm)
67
SAR exclusion threshold(mW)
236
SAR testing required?
NO
Antenna to user(mm)
177
SAR exclusion threshold(mW)
1336
SAR testing required?
NO
Tune-up Maximum power of WLAN 5.8G
11dBm
13mW
Antenna to user(mm)
67
SAR exclusion threshold(mW)
232
SAR testing required?
NO
Antenna to user(mm)
177
SAR exclusion threshold(mW)
1332
SAR testing required?
NOTE: Refer to section 4.3.1 of KDB 447498 D01.
NO
Page 30 of 82
Report No.: SER180809609005E
9. Stand-alone SAR test exclusion
Refer to FCC KDB 447498D01, the 1-g SAR and 10-g SAR test exclusion thresholds for 100 MHz to 6
GHz at test separation distances ≤ 50 mm are determined by:
[(max. power of channel, including tune-up tolerance, mW)/(min. test separation distance, mm)]·[√f(GHZ)]
≤ 3.0 for 1-g SAR and ≤ 7.5 for 10-g extremity SAR, where:
• f(GHZ) is the RF channel transmit frequency in GHz
• Power and distance are rounded to the nearest mW and mm before calculation
• The result is rounded to one decimal place for comparison
When the minimum test separation distance is < 5 mm, a distance of 5 mm is applied to determine
SAR test exclusion.
Mode
Pmax
Pmax
Distance
Calculation
SAR Exclusion
SAR test
(dBm)
(mW)
(mm)
(GHz)
Result
threshold
exclusion
0.79
3.0
Yes
Bluetooth
2.51
2.480
NOTE: Standalone SAR test exclusion for Bluetooth
When standalone SAR test exclusion applies to an antenna that transmits simultaneously with other
antennas, the standalone SAR must be estimated according to following to determine simultaneous
transmission SAR test exclusion:
[(max. power of channel, including tune-up tolerance, mW)/(min. test separation distance, mm)] *
[√f(GHZ)/x] W/kg for test separation distances ≤ 50mm, where x = 7.5 for 1-g SAR and x = 18.75 for 10-g
SAR.
When the minimum test separation distance is < 5 mm, a distance of 5 mm is applied to determine
SAR test exclusion.
Mode
Position
Pmax
Pmax
Distance
(dBm)
(mW)
(mm)
(GHz)
2.480
Bluetooth
Body
2.51
NOTE: Estimated SAR calculation for Bluetooth
7.5
Estimated SAR
(W/Kg)
0.105
Page 31 of 82
Report No.: SER180809609005E
10. SAR Results
10.1.
10.1.1.
SAR measurement results
SAR measurement Result of WLAN 2.4G
Test Position of
Body with 0mm
SAR Value
Test
channel
Test Mode
/Freq.
(W/kg)
1g
10g
Power Conducted Tune-up
Drift
power
power
(±5%)
(dBm)
(dBm)
Scaled
SAR
1g
(W/Kg)
Front Side
6/2437
802.11b
0.389 0.200
-1.05
15.80
16.00
0.407
Back Side
6/2437
802.11b
1.190 0.483
-1.45
15.80
16.00
1.246
Right Side
6/2437
802.11b
0.200 0.089
-2.21
15.80
16.00
0.209
Bottom Side
6/2437
802.11b
0.265 0.127
0.50
15.80
16.00
0.277
Back Side
1/2412
802.11b
0.753 0.308
-2.22
15.60
16.00
0.826
Back Side
11/2462
802.11b
1.246 0.503
1.35
15.90
16.00
1.275
11/2462
802.11b
1.194 0.499
Repeated
NOTE: Body SAR test results of WLAN 2.4G
-0.12
15.90
16.00
1.222
Back Side -
10.1.2.
SAR measurement Result of WLAN 5.2G
Test Position of
Body with 0mm
SAR Value
Test
channel
Test Mode
/Freq.
(W/kg)
1g
10g
Power Conducted Tune-up
Drift
power
power
(±5%)
(dBm)
(dBm)
Scaled
SAR
1g
(W/Kg)
Front Side
40/5200
802.11a
0.386 0.151
-1.13
14.00
14.00
0.386
Back Side
40/5200
802.11a
0.807 0.272
0.24
14.00
14.00
0.807
Right Side
40/5200
802.11a
0.128 0.055
0.71
14.00
14.00
0.128
Bottom Side
40/5200
802.11a
0.159 0.069
0.30
14.00
14.00
0.159
Back Side
36/5180
802.11a
0.813 0.271
-3.75
13.90
14.00
0.832
36/5180
802.11a
0.797 0.268
0.12
13.90
14.00
0.816
Back Side
48/5240
802.11a
0.779 0.249
NOTE: Body SAR test results of WLAN 5.2G
-2.10
13.80
14.00
0.816
Back Side Repeated
Page 32 of 82
10.1.3.
Report No.: SER180809609005E
SAR measurement Result of WLAN 5.8G
Test Position of
Body with 0mm
SAR Value
Test
channel
Test Mode
/Freq.
(W/kg)
1g
10g
Power Conducted Tune-up
Drift
power
power
(±5%)
(dBm)
(dBm)
Scaled
SAR
1g
(W/Kg)
Front Side
157/5785
802.11a
0.159 0.062
-2.13
10.80
11.00
0.166
Back Side
157/5785
802.11a
0.683 0.197
3.40
10.80
11.00
0.715
Bottom Side
157/5785
802.11a
0.098 0.043
NOTE: Body SAR test results of WLAN 5.8G
2.11
10.80
11.00
0.103
10.2.
Simultaneous Transmission Possibilities
The WLAN2.4G, Bluetooth and WLAN5.2G as well as WLAN5.8G share the same antenna, so cannot
transmit simultaneously.
Page 33 of 82
11. Appendix A. Photo documentation
Refer to appendix Test Setup photo---SAR
Report No.: SER180809609005E
Page 34 of 82
12. Appendix B. System Check Plots
Table of contents
MEASUREMENT 1 - System Performance Check - 2450MHz
MEASUREMENT 2 - System Performance Check - 5200MHz
MEASUREMENT 3 - System Performance Check - 5800MHz
Report No.: SER180809609005E
Page 35 of 82
Report No.: SER180809609005E
MEASUREMENT 1
A. Experimental conditions.
Area Scan
ZoomScan
Phantom
Device Position
Band
Channels
Signal
dx=12mm dy=12mm, h= 5.00 mm
7x7x7,dx=5mm dy=5mm
dz=5mm,Complete/ndx=5mm dy=5mm, h=
5.00 mm
Validation plane
Dipole
CW2450
Middle
CW (Crest factor: 1.0)
B. SAR Measurement Results
Frequency (MHz)
2450.000000
Relative permittivity (real part)
52.722801
Relative permittivity
(imaginary part)
Conductivity (S/m)
13.869800
Variation (%)
-0.410000
SURFACE SAR
VOLUME SAR
1.977834
Maximum location: X=-1.00, Y=2.00
SAR Peak: 7.16 W/kg
SAR 10g (W/Kg)
2.177434
SAR 1g (W/Kg)
5.103789
Page 36 of 82
Z (mm)
SAR
(W/Kg)
0.00
6.9795
4.00
4.5246
3D screen shot
9.00
2.5713
14.00
1.4647
19.00
0.8539
Report No.: SER180809609005E
24.00
0.4968
Hot spot position
29.00
0.2927
Page 37 of 82
Report No.: SER180809609005E
MEASUREMENT 2
A. Experimental conditions.
Area Scan
ZoomScan
Phantom
Device Position
Band
Channels
Signal
dx=10mm dy=10mm, h= 2.31 mm
7x7x12,dx=4mm dy=4mm
dz=2mm,Complete/ndx=4mm dy=4mm, h=
2.31 mm
Validation plane
Dipole
CW5200
Middle
CW (Crest factor: 1.0)
B. SAR Measurement Results
Frequency (MHz)
5200.000000
Relative permittivity (real part)
49.705237
Relative permittivity
(imaginary part)
Conductivity (S/m)
16.041710
Variation (%)
-0.150000
SURFACE SAR
VOLUME SAR
5.264271
Maximum location: X=0.00, Y=5.00
SAR Peak: 49.12 W/kg
SAR 10g (W/Kg)
5.372260
SAR 1g (W/Kg)
15.522713
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(m
m)
SA
(W/
Kg)
Report No.: SER180809609005E
0.00
2.00
4.00
6.00
8.00
10.0
12.0
14.0
16.0
18.0
20.0
22.0
45.5
543
27.0
184
13.7
933
7.05
95
3.55
24
1.79
27
0.92
40
0.46
59
0.24
73
0.13
02
0.06
67
0.04
39
3D screen shot
Hot spot position
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Report No.: SER180809609005E
MEASUREMENT 3
A. Experimental conditions.
Area Scan
ZoomScan
Phantom
Device Position
Band
Channels
Signal
dx=10mm dy=10mm, h= 2.31 mm
7x7x12,dx=4mm dy=4mm
dz=2mm,Complete/ndx=4mm dy=4mm, h=
2.31 mm
Validation plane
Dipole
CW5800
Middle
CW (Crest factor: 1.0)
B. SAR Measurement Results
Frequency (MHz)
5800.000000
Relative permittivity (real part)
48.475237
Relative permittivity
(imaginary part)
Conductivity (S/m)
16.041710
Variation (%)
-0.040000
SURFACE SAR
VOLUME SAR
5.994271
Maximum location: X=0.00, Y=6.00
SAR Peak: 50.97 W/kg
SAR 10g (W/Kg)
5.587629
SAR 1g (W/Kg)
16.255861
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(m
m)
SA
(W/
Kg)
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0.00
2.00
4.00
6.00
8.00
10.0
12.0
14.0
16.0
18.0
20.0
22.0
48.0
320
28.3
992
14.4
533
7.29
38
3.64
98
1.82
04
0.92
46
0.46
66
0.24
96
0.13
43
0.07
29
0.04
96
3D screen shot
Hot spot position
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13. Appendix C. Plots of High SAR Measurement
Table of contents
MEASUREMENT 1 - WLAN 5.2G
MEASUREMENT 2 - WLAN 5.8G
MEASUREMENT 3 - WLAN 2.4G
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MEASUREMENT 1
A. Experimental conditions.
Area Scan
ZoomScan
Phantom
Device Position
Band
Channels
Signal
dx=10mm dy=10mm, h= 2.31 mm
7x7x12,dx=4mm dy=4mm
dz=2mm,Complete/ndx=4mm dy=4mm, h=
2.31 mm
Validation plane
Body
IEEE 802.11a U-NII
Low
IEEE802.11a (Crest factor: 1.0)
B. SAR Measurement Results
Frequency (MHz)
5180.000000
Relative permittivity (real part)
49.773689
Relative permittivity
(imaginary part)
Conductivity (S/m)
18.215559
Variation (%)
-3.750000
SURFACE SAR
VOLUME SAR
5.242033
Maximum location: X=-21.00, Y=-43.00
SAR Peak: 2.81 W/kg
SAR 10g (W/Kg)
0.270561
SAR 1g (W/Kg)
0.813062
Page 43 of 82
(m
m)
SA
(W/
Kg)
Report No.: SER180809609005E
0.00
2.00
4.00
6.00
8.00
10.0
12.0
14.0
16.0
18.0
20.0
22.0
2.57
30
1.46
61
0.56
06
0.35
85
0.15
06
0.11
16
0.06
21
0.04
30
0.04
22
0.04
11
0.01
75
0.02
58
3D screen shot
Hot spot position
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Report No.: SER180809609005E
MEASUREMENT 2
A. Experimental conditions.
Area Scan
ZoomScan
Phantom
Device Position
Band
Channels
Signal
dx=10mm dy=10mm, h= 2.31 mm
7x7x12,dx=4mm dy=4mm
dz=2mm,Complete/ndx=4mm dy=4mm, h=
2.31 mm
Validation plane
Body
IEEE 802.11a U-NII
Middle
IEEE802.11a (Crest factor: 1.0)
B. SAR Measurement Results
Frequency (MHz)
5785.000000
Relative permittivity (real part)
48.560703
Relative permittivity
(imaginary part)
Conductivity (S/m)
18.470766
Variation (%)
3.400000
SURFACE SAR
VOLUME SAR
5.936299
Maximum location: X=-10.00, Y=-52.00
SAR Peak: 2.65 W/kg
SAR 10g (W/Kg)
0.197422
SAR 1g (W/Kg)
0.682857
Page 45 of 82
(m
m)
SA
(W/
Kg)
Report No.: SER180809609005E
0.00
2.00
4.00
6.00
8.00
10.0
12.0
14.0
16.0
18.0
20.0
22.0
2.58
07
1.42
18
0.33
51
0.31
22
0.10
86
0.08
66
0.04
50
0.03
53
0.03
59
0.03
55
0.02
47
0.03
05
3D screen shot
Hot spot position
Page 46 of 82
Report No.: SER180809609005E
MEASUREMENT 3
A. Experimental conditions.
Area Scan
ZoomScan
Phantom
Device Position
Band
Channels
Signal
dx=12mm dy=12mm, h= 5.00 mm
7x7x7,dx=5mm dy=5mm
dz=5mm,Complete/ndx=5mm dy=5mm, h=
5.00 mm
Validation plane
Body
IEEE 802.11b ISM
High
IEEE802.11b (Crest factor: 1.0)
B. SAR Measurement Results
Frequency (MHz)
2462.000000
Relative permittivity (real part)
52.638302
Relative permittivity
(imaginary part)
Conductivity (S/m)
14.622620
Variation (%)
1.350000
SURFACE SAR
VOLUME SAR
2.000049
Maximum location: X=-12.00, Y=-49.00
SAR Peak: 2.47 W/kg
SAR 10g (W/Kg)
0.502873
SAR 1g (W/Kg)
1.245823
Page 47 of 82
Z (mm)
SAR
(W/Kg)
0.00
2.7598
4.00
1.3679
3D screen shot
9.00
0.4779
14.00
0.2933
19.00
0.1349
Report No.: SER180809609005E
24.00
0.0740
Hot spot position
29.00
0.0465
Page 48 of 82
14. Appendix D. Calibration Certificate
Table of contents
E Field Probe - SN 08/16 EPGO287
2450 MHz Dipole - SN 03/15 DIP 2G450-352
5000-6000 MHz Dipole - SN 13/14 WGA 33
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_______________________________________END _____________________________________
Download: TITANTURBO Tablet PC RF Exposure Info Measurement Report 2048450 Ontario Inc- .dba Datatech
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Document ID4030821
Application IDS7Dj/mqf7WczHbaIL8xMEQ==
Document DescriptionSAR report
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeRF Exposure Info
Display FormatAdobe Acrobat PDF - pdf
Filesize345.44kB (4317986 bits)
Date Submitted2018-10-10 00:00:00
Date Available2018-10-10 00:00:00
Creation Date2018-09-26 03:58:57
Producing SoftwareMicrosoft® Office Word 2007
Document Lastmod2018-09-29 13:56:44
Document TitleMeasurement Report
Document CreatorMicrosoft® Office Word 2007
Document Author: Kent

Source Exif Data [exif.tools]:
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Modify Date                     : 2018:09:29 13:56:44+08:00
Language                        : zh-CN
Tagged PDF                      : Yes
XMP Toolkit                     : Adobe XMP Core 4.2.1-c041 52.342996, 2008/05/07-20:48:00
Format                          : application/pdf
Creator                         : Kent
Title                           : Measurement Report
Creator Tool                    : Microsoft® Office Word 2007
Metadata Date                   : 2018:09:29 13:56:44+08:00
Producer                        : Microsoft® Office Word 2007
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Page Count                      : 82